09 - Appareils et instruments scientifiques et électriques
35 - Publicité; Affaires commerciales
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Communication software and messaging software, namely,
downloadable software for processing images, graphics,
audio, video, and text; downloadable, cloud-based software
for managing digital data, downloadable software for
managing digital data utilizing industrial internet of
things (IIOT) platforms, and downloadable, software for
controlling edge devices (Term considered linguistically
incorrect by the International Bureau pursuant to Rule 13
(2) (b) of the Regulations); software platform for use in
supply chain fulfillment and management, including warehouse
material handling, order fulfillment facilities, product
distribution centers and product logistics; cloud computing
software. Data compilation and data processing of information in the
fields of warehouse material handling systems, product
distribution centers, order fulfillment facilities systems,
retail stores, intralogistics, supply chain fulfillment
systems, warehouse and storage facilities and their
functions. Non-downloadable software for use in operation, control,
visualization, emulation, simulation, virtualization,
analysis and management of warehouse material handling
systems, product distribution centers, order fulfillment
facilities systems, retail stores, intralogistics, supply
chain fulfillment systems, warehouse and storage facilities
and their functions (Term considered too vague by the
International Bureau pursuant to Rule 13 (2) (b) of the
Regulations); software as a service (SaaS) services,
featuring software for use in operation, control,
visualization, emulation, simulation, virtualization,
analysis and management of warehouse material handling
systems, product distribution centers, order fulfillment
facilities systems, retail stores, warehouse and storage
facilities and their functions; providing a website
featuring non-downloadable software using artificial
intelligence for machine learning in the field of operation,
control, visualization, emulation, simulation,
virtualization, analysis and management of warehouse
material handling systems, product distribution centers,
order fulfillment facilities systems, retail stores,
intralogistics, supply chain fulfillment systems, warehouse
and storage facilities and their functions (Term considered
too vague by the International Bureau pursuant to Rule 13
(2) (b) of the Regulations); software as a service (SaaS)
services, featuring software using artificial intelligence
for machine learning in the field of operation, control,
visualization, emulation, simulation, virtualization,
analysis and management of warehouse material handling
systems, product distribution centers, order fulfillment
facilities systems, retail stores, intralogistics, supply
chain fulfillment systems, warehouse and storage facilities
and their functions; application service provider (ASP)
featuring software using artificial intelligence for machine
learning in the field of operation, control, visualization,
emulation, simulation, virtualization, analysis and
management of warehouse material handling systems, product
distribution centers, order fulfillment facilities systems,
retail stores, intralogistics, supply chain fulfillment
systems, warehouse and storage facilities and their
functions; software as a service (SaaS) service featuring
software for use in data management, data governance, data
integration, data analytics, data search, data discovery,
data cataloging, data visualization, data sharing,
controlling access to data, data security, and generating
workflows; software as a service (SaaS) service featuring
software for collecting, tagging, cataloging, obtaining,
tracking, processing, monitoring, storing, securing,
organizing, managing, synthesizing, cleaning, consolidating,
integrating, transmitting, measuring, mining, analyzing,
governing, reporting, and sharing of data and information;
software as a service (SaaS) service featuring software for
privacy control used in data processing, collection, and
analytics; software as a service (SaaS) service featuring
software for data analytics, data protection, and data
security; software as a service (SaaS) service featuring
software for predictive analytics, big data and business
data analysis and visualization; software as a service
(SaaS) service featuring software for accessing, querying,
and analyzing information stored in database and data
warehousing; cloud computing in the field of material
handling systems, product distribution centers, order
fulfillment facilities systems, retail stores,
intralogistics, supply chain fulfillment systems, warehouse
and storage facilities and their functions; cloud computing
featuring software for use in operation, control,
visualization, emulation, simulation, virtualization,
analysis and management of warehouse material handling
systems, product distribution centers, order fulfillment
facilities systems, retail stores, intralogistics, supply
chain fulfillment systems, warehouse and storage facilities
and their functions; cloud computing featuring software
using artificial intelligence for machine learning in the
field of operation, control, visualization, emulation,
simulation, virtualization, analysis and management of
warehouse material handling systems, product distribution
centers, order fulfillment facilities systems, retail
stores, intralogistics, supply chain fulfillment systems,
warehouse and storage facilities and their functions; cloud
computing featuring software for use in data management,
data governance, data integration, data analytics, data
search, data discovery, data cataloging, data visualization,
data sharing, controlling access to data, data security, and
generating workflows; cloud computing featuring software for
collecting, tagging, cataloging, obtaining, tracking,
processing, monitoring, storing, securing, organizing,
managing, synthesizing, cleaning, consolidating,
integrating, transmitting, measuring, mining, analyzing,
governing, reporting, and sharing of data and information;
cloud computing featuring software for privacy control used
in data processing, collection, and analytics; cloud
computing featuring software for data analytics, data
protection, and data security; cloud computing featuring
software for predictive analytics, big data and business
data analysis and visualization; cloud computing featuring
software for accessing, querying, and analyzing information
stored in database and data warehousing; cloud computing
featuring messaging software, namely, downloadable software
for processing images, graphics, audio, video, text, and
sharing files; cloud computing services for logistics and
supply chain fulfillment; design and development of computer
software for supply chain fulfillment and management
services, including could computing; non-downloadable
software for use in operation, control, visualization,
emulation, simulation, virtualization, analysis and
management of warehouse material handling systems, product
distribution centers, order fulfillment facilities systems,
warehouse and storage facilities and their functions, all
for logistics and supply chain fulfillment purposes (Term
considered too vague by the International Bureau pursuant to
Rule 13 (2) (b) of the Regulations).
2.
SYSTEM AND METHOD FOR PRE-SORTING IN ORDER FULFILLMENT FACILITIES
A material handling system for retrieving, transporting, and delivering inventory totes for order fulfillment activities within a material handling facility, includes unit sortation fields, a storage area, a shuttle system with shuttles, and a control system. The unit sortation fields are arranged within the material handling facility, each for sorting inventory items for order fulfillment, with each inventory item required by an order. The storage area stores inventory totes, each containing inventory items. Each of the shuttles retrieves an inventory tote from the storage area for delivery to a selected unit sortation field of the unit sortation fields. The control system controls the order fulfillment activities within the material handling facility. The control system selects a unit sortation field from the unit sortation fields based upon the order fulfillment operations underway within ones of the unit sortation fields.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
B07C 3/02 - Appareillages caractérisés par les moyens utilisés en vue de la distribution
A material handling system (100) for retrieving, transporting, and delivering inventory totes (320) for order fulfillment activities within a facility (200), includes unit sortation fields (302), a storage area (402), a shuttle system with shuttles (312), and a control system (101). The unit sortation fields (302) are arranged within the facility (200), each for sorting inventory items for order fulfillment, with each inventory item required by an order. The storage area (402) stores inventory totes (320), each containing inventory items. Each of the shuttles (312) retrieves an inventory tote (320) from the storage area (402) for delivery to a selected unit sortation field (302). The control system (101) controls the order fulfillment activities within the facility (200). The control system (101) selects a unit sortation field (302) based upon the order fulfillment operations underway within ones of the unit sortation fields (302).
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
G06Q 10/087 - Gestion d’inventaires ou de stocks, p.ex. exécution des commandes, approvisionnement ou régularisation par rapport aux commandes
B65G 1/06 - Dispositifs d'emmagasinage mécaniques avec des moyens pour que les objets se présentent à l'enlèvement dans des positions ou à des niveaux prédéterminés
4.
SYSTEM AND METHOD FOR SELECTION OF OPTIMAL TOTE MULTIPLICITY
A control system for a warehouse includes a controller to control fulfillment activities of the warehouse and to issue multiplicity values for each SKU velocity class (SVC), such that each product is decanted into a selected quantity of totes for storage. The controller controls the SVC multiplicities and records operational data corresponding to the storage and fulfillment activities. The system includes an inference module which includes an SKU multiplicity control. The inference module issues a multiplicity value recommendation for each SVC to the controller when live data is received from a current state storage. The recommendation is defined by the SKU multiplicity control with respect to the live data. A training module retrains the SKU multiplicity control using the operational data to retrain and update the SKU multiplicity control and retrains the SKU multiplicity control based upon priorities for optimal operation of the warehouse.
G06Q 10/0875 - Gestion d’inventaires ou de stocks, p.ex. exécution des commandes, approvisionnement ou régularisation par rapport aux commandes Énumération ou classification des pièces, des fournitures ou des services, p.ex. nomenclatures
5.
SYSTEM AND METHOD FOR SELECTION OF OPTIMAL TOTE MULTIPLICITY
A control system for a warehouse includes a controller (210) to control fulfillment activities of the warehouse and to issue multiplicity values for each SKU velocity class (SVC), such that each product is decanted into selected totes (109) for storage. The controller (210) controls the SVC multiplicities and records operational data corresponding to the storage and fulfillment activities. The system includes an inference module (208) which includes an SKU multiplicity control. The inference module (208) issues a multiplicity value recommendation for each SVC to the controller (210) when live data is received from a current state storage. The recommendation is defined by the SKU multiplicity control with respect to the live data. A training module (214) retrains the SKU multiplicity control using the operational data to retrain and update the SKU multiplicity control and retrains the SKU multiplicity control based upon priorities for optimal operation of the warehouse.
A system having autonomous mobile robots (AMRs) (204, 206) for retrieving, transporting, and delivering items to and from locations within a facility (200). The system includes picking stations (120) and a common waiting area (140). Each picking station (120) is used for picking operations as part of order fulfillment in the facility (200). The common waiting area (140) is associated with picking workstations (120). The common waiting area (140) provides a holding space for an AMRs (204, 206) when transporting items for order fulfillment at a picking station (120) that is not ready to receive the AMR (204, 206). The picking station (120) sends a prompt to the AMR (204, 206) when it's ready for the AMR (204, 206). The AMR (204, 206) will leave the common waiting area (140) and proceed to the picking station (120) when prompted by the picking station (120).
7.
ADAPTIVE AUTONOMOUS MOBILE ROBOT TASKING AND MANAGEMENT
A material handling system having autonomous mobile robots (AMRs) for retrieving, transporting, and delivering items to and from locations within a facility. The system includes picking stations and a common waiting area. Each picking station is used for picking operations as part of order fulfillment activities in the facility. The common waiting area is associated with at least a subset of picking workstations. The common waiting area provides a temporary holding space for a first AMR of said plurality of AMRs when transporting items for order fulfillment activities at a first picking station that is not ready to receive the first AMR and its items. The first picking station sends a prompt to the first AMR when it's ready for the first AMR and its items. The first AMR will leave the common waiting area and proceed to the first picking station when prompted by the first picking station.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
B65G 1/06 - Dispositifs d'emmagasinage mécaniques avec des moyens pour que les objets se présentent à l'enlèvement dans des positions ou à des niveaux prédéterminés
A magnetic clutch (24) regulates rotational motion of a conveyor roller (20). A power transmission assembly (26) with a transmission coil (62) spaced from a receiving coil (66) is energized to transfer energy from the transmission coil (62) to the receiving coil (66). A clutch (28) has a rotatably driven drive surface (33), and rotors (34, 36) magnetically coupled to stators (30, 32). A shaft (48) coaxially disposed along a longitudinal axis of the roller (22) is coupled to rotors (34, 36). The stators (30, 32) are coupled to the drive surface (33) and are coupled to the receiving coil (66). The rotors (34, 36) become magnetically attracted to the stators (30, 32) to transfer rotational motion of the driving surface (33) to the shaft (48) and to a shell (22a) of the roller (22) when energy is transferred to the stators (30, 32) in a first polarity direction.
B65G 23/08 - Tambours, rouleaux ou roues avec mécanismes d'entraînement formant un tout complet, p.ex. moteurs et transmissions associés
B65G 39/04 - Adaptation des rouleaux individuels ou supports à cet effet les rouleaux consistant en un certain nombre d'éléments formant rouleau montés sur un seul axe
F16D 27/14 - Embrayages actionnés magnétiquement; Leur commande ou leurs circuits électriques - Eléments constitutifs
A conveyor system includes a turntable conveyor comprising a stationary frame, a rotatable support on the stationary frame, and a drive system operable to rotate the rotatable support about a vertical axis. A circular conveying surface is supported on the rotatable support and is configured to convey articles supported thereon in a conveying direction when driven. One or more input conveyors and one or more output conveyors are positioned about the turntable conveyor. The conveying surface comprises a plurality of rollers that are rotationally driven and include a first set of rollers defining a first rotational surface and a second set of rollers defining a second rotational surface, where the conveying surface is configured to receive an article from a selected one of the inbound conveyors and to discharge the article to a selected one of the outbound conveyors.
An order-fulfillment system for a warehouse in accordance with the present invention includes a control system (301), a memory (306), a modular inventory storage system (312), and reconfigurable workstations (352). The control system (301) controls fulfillment activities of the warehouse (300), manages the configuration of workstations (352) for order fulfillment, inventory induction, or order packing, and records operational data (294) corresponding to the fulfillment activities in the warehouse (300). The control system (301) comprises a plurality of workflows selected from a library of workflows (304) stored in the memory (306). The memory (306) holds operational data (294). The selected workflows and a configuration of the modular inventory storage system (312) correspond to the current state of the warehouse (301) defined by selected portions of the operational data (294) and expected demands.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
G06Q 10/08 - Logistique, p.ex. entreposage, chargement ou distribution; Gestion d’inventaires ou de stocks
G06Q 10/0631 - Planification, affectation, distribution ou ordonnancement de ressources d’entreprises ou d’organisations
09 - Appareils et instruments scientifiques et électriques
35 - Publicité; Affaires commerciales
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Communication software and messaging software, namely,
downloadable software for processing images, graphics,
audio, video, and text; downloadable cloud-based software
for managing digital data, downloadable software for
managing digital data utilizing industrial internet of
things (IIOT) platforms, and downloadable software for
controlling edge devices; software platform for use in
supply chain fulfillment and management, including warehouse
material handling, order fulfillment facilities, product
distribution centers and product logistics; cloud computing
software. Data compilation and data processing of information in the
fields of warehouse material handling systems, product
distribution centers, order fulfillment facilities systems,
retail stores, intralogistics, supply chain fulfillment
systems, warehouse and storage facilities and their
functions. Providing non-downloadable software for use in operation,
control, visualization, emulation, simulation,
virtualization, analysis and management of warehouse
material handling systems, product distribution centers,
order fulfillment facilities systems, retail stores,
intralogistics, supply chain fulfillment systems, warehouse
and storage facilities and their functions; software as a
service (SaaS) services, featuring software for use in
operation, control, visualization, emulation, simulation,
virtualization, analysis and management of warehouse
material handling systems, product distribution centers,
order fulfillment facilities systems, retail stores,
warehouse and storage facilities and their functions;
providing non-downloadable software using artificial
intelligence for machine learning in the field of operation,
control, visualization, emulation, simulation,
virtualization, analysis and management of warehouse
material handling systems, product distribution centers,
order fulfillment facilities systems, retail stores,
intralogistics, supply chain fulfillment systems, warehouse
and storage facilities and their functions via a website;
software as a service (SaaS) services, featuring software
using artificial intelligence for machine learning in the
field of operation, control, visualization, emulation,
simulation, virtualization, analysis and management of
warehouse material handling systems, product distribution
centers, order fulfillment facilities systems, retail
stores, intralogistics, supply chain fulfillment systems,
warehouse and storage facilities and their functions;
application service provider (ASP) featuring software using
artificial intelligence for machine learning in the field of
operation, control, visualization, emulation, simulation,
virtualization, analysis and management of warehouse
material handling systems, product distribution centers,
order fulfillment facilities systems, retail stores,
intralogistics, supply chain fulfillment systems, warehouse
and storage facilities and their functions; software as a
service (SaaS) service featuring software for use in data
management, data governance, data integration, data
analytics, data search, data discovery, data cataloging,
data visualization, data sharing, controlling access to
data, data security, and generating workflows; software as a
service (SaaS) service featuring software for collecting,
tagging, cataloging, obtaining, tracking, processing,
monitoring, storing, securing, organizing, managing,
synthesizing, cleaning, consolidating, integrating,
transmitting, measuring, mining, analyzing, governing,
reporting, and sharing of data and information; software as
a service (SaaS) service featuring software for privacy
control used in data processing, collection, and analytics;
software as a service (SaaS) service featuring software for
data analytics, data protection, and data security; software
as a service (SaaS) service featuring software for
predictive analytics, big data and business data analysis
and visualization; software as a service (SaaS) service
featuring software for accessing, querying, and analyzing
information stored in database and data warehousing; cloud
computing in the field of material handling systems, product
distribution centers, order fulfillment facilities systems,
retail stores, intralogistics, supply chain fulfillment
systems, warehouse and storage facilities and their
functions; cloud computing featuring software for use in
operation, control, visualization, emulation, simulation,
virtualization, analysis and management of warehouse
material handling systems, product distribution centers,
order fulfillment facilities systems, retail stores,
intralogistics, supply chain fulfillment systems, warehouse
and storage facilities and their functions; cloud computing
featuring software using artificial intelligence for machine
learning in the field of operation, control, visualization,
emulation, simulation, virtualization, analysis and
management of warehouse material handling systems, product
distribution centers, order fulfillment facilities systems,
retail stores, intralogistics, supply chain fulfillment
systems, warehouse and storage facilities and their
functions; cloud computing featuring software for use in
data management, data governance, data integration, data
analytics, data search, data discovery, data cataloging,
data visualization, data sharing, controlling access to
data, data security, and generating workflows; cloud
computing featuring software for collecting, tagging,
cataloging, obtaining, tracking, processing, monitoring,
storing, securing, organizing, managing, synthesizing,
cleaning, consolidating, integrating, transmitting,
measuring, mining, analyzing, governing, reporting, and
sharing of data and information; cloud computing featuring
software for privacy control used in data processing,
collection, and analytics; cloud computing featuring
software for data analytics, data protection, and data
security; cloud computing featuring software for predictive
analytics, big data and business data analysis and
visualization; cloud computing featuring software for
accessing, querying, and analyzing information stored in
database and data warehousing; cloud computing featuring
messaging software, namely, downloadable software for
processing images, graphics, audio, video, text, and sharing
files; cloud computing services for logistics and supply
chain fulfillment; design and development of computer
software for supply chain fulfillment and management
services, including could computing; providing
non-downloadable software for use in operation, control,
visualization, emulation, simulation, virtualization,
analysis and management of warehouse material handling
systems, product distribution centers, order fulfillment
facilities systems, warehouse and storage facilities and
their functions, all for logistics and supply chain
fulfillment purposes.
Order fulfillment (100) for a warehouse (200) includes a controller (304), a memory (306), a current state (408), and a trainer (404). The controller (304) controls fulfillment activities and issues orders to pickers (202, 204), and records operational data corresponding to the fulfillment activities in the warehouse (200). The memory (306) holds operational data. The current state (408) holds data corresponding to the current state of the warehouse (200) defined by the operational data. The inference module (406) includes a release control to issue an order release recommendation to the controller (304) when a set of live data is received from the current state storage (408). The trainer (404) retrains the order release control. The trainer (404) performs reinforcement learning on the operational data to retrain and update the order release control. The order release control is retrained based upon priorities for optimal operation of the warehouse (200).
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
G06Q 10/08 - Logistique, p.ex. entreposage, chargement ou distribution; Gestion d’inventaires ou de stocks
G06D 1/02 - DISPOSITIFS DE CALCUL NUMÉRIQUE À PRESSION DE FLUIDE - Détails, p.ex. unités fonctionnelles ayant au moins une pièce mobile, p.ex. une valve à pistons
16.
SYSTEM AND METHOD FOR REAL-TIME ORDER PROJECTION AND RELEASE
An order fulfillment control for a warehouse includes a controller, a memory, a current state storage, and a training module. The controller controls fulfillment activities and issues orders to pickers. The controller controls the issuance of the orders and records operational data corresponding to the fulfillment activities in the warehouse. The memory holds operational data. The current state storage holds live data corresponding to the current state of the warehouse defined by selected portions of the operational data. The inference module includes an order release control to issue an order release recommendation to the controller when a set of live data is received from the current state storage. The training module retrains the order release controls. The training module performs reinforcement learning on the operational data to retrain and update the order release control. The order release control is retrained based upon priorities for optimal operation of the warehouse.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
A sound attenuated conveyor roller assembly reduces the noise or vibration produced by the conveyor roller (22, 122) assembly during operation, and includes a conveyor roller (22, 122) having a cylindrical portion to which a sound damper (26, 126) may be coupled. The conveyor roller (22, 122) may include an unreduced outer surface (34a, 134a) and a reduced outer surface (32a, 132a), in which the sound damper (26, 126) is disposed at the reduced outer surface (26a, 126a). The outer surface of the damper (26a, 126a) and the unreduced outer surface (34a, 134a) of the conveyor roller (22, 122) may be located at substantially equal radial distances from a longitudinal axis of the conveyor roller (22, 122). A tapered end connector (240) having a tapered plastic tip (246) may be coupled to ends of the conveyor roller (22) to further reduce noise and vibration in the conveyor roller assembly.
B65G 39/07 - Autres adaptations pour manchons de rouleaux
B65G 39/06 - Adaptation des rouleaux individuels ou supports à cet effet les manchons des rouleaux étant à absorption des chocs, p.ex. formés de fils métalliques en hélices
A sound attenuated conveyor roller assembly reduces the noise or vibration produced by the conveyor roller assembly during operation, and includes a conveyor roller having a cylindrical portion to which a sound damper may be coupled. The conveyor roller may include an unreduced outer surface and a reduced outer surface, in which the sound damper is disposed at the reduced outer surface such that an outer surface of the damper and the unreduced outer surface of the conveyor roller are located at substantially equal radial distances from a longitudinal axis of the conveyor roller. A tapered end connector having a tapered plastic tip may be coupled to each end of the conveyor roller to further reduce noise and vibration in the conveyor roller assembly.
The invention relates to an in-house system (1), in particular storage system (1'), having a workstation (2) and at least one robotic vehicle (10), wherein containers (20), in particular inventory containers (20a) and/or picking containers (20b), are transported in the system (1) by means of the at least one robotic vehicle (10), and wherein materials handling equipment (3) is located at the workstation (2). According to the invention, the at least one robotic vehicle (10) loaded with a container (20) is moved along the workstation (2) by means of the materials handling equipment (3) in order to present the container (20) at the workstation (2). The invention is also directed to a method for removing articles and/or containers (20) from a robotic vehicle (10) and/or for transferring articles and/or containers (20) to a robotic vehicle (10).
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
A material handling task allocation system (100) with autonomous mobile robots (AMRs) (102) operating within a facility. The AMRs (102) are configured to self-select tasks to perform utilizing a computer based warehouse execution system (WES) (104) utilizing a pending workflow list (108) of tasks to be performed within the facility. The AMRs (102) include onboard computers (103) for communicating with the WES (104) and to self-select tasks from the pending workflow list (108). The AMR (102) may be directed to a prioritized task or task queue, and the WES (104) may lock an AMR (102) to a task or task queue until the task or tasks are performed, or until the AMR (102) determines the AMR (102) should be reassigned or relieved of the task or task queue. The AMRs (102) thus independently self-select tasks, with the AMR (102) and/or WES (104) enabling the AMR (102) to self-select tasks.
A method and system are provided for task allocation for a material handling system with autonomous mobile robots (AMR) operating within a material handling facility. The AMRs are configured to self-select tasks to perform utilizing a computer based warehouse execution system (WES) utilizing a pending workflow list of tasks to be performed within the material handling facility. The AMRs include onboard computers for communicating with the WES and to self-select tasks from the pending workflow list. The AMR may be directed to a prioritized task or task queue, and the WES may lock an AMR to a task or task queue until the task or tasks are performed, or until the AMR determines that the AMR should be reassigned or otherwise relieved of the task or task queue. The AMRs are thus adapted to independently self-select tasks, where the AMR and/or WES may enable the AMR to self-select tasks.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
An auto sort and label (ASL) system (100,200) includes a conveyor, a controller (150), a sensor (121,122,220,222,224,226), and a label, print, and apply (LPA) system (106,208). The conveyor conveys articles through the ASL system. The sensor is positioned along the conveyor and identifies an article. The controller receives sensor data from the sensor. The LPA is positioned alongside the conveyor and prints labels in sequence with the corresponding article as it travels along the conveyor and applies the labels to the corresponding articles as the article passes the LPA. The controller controls the conveyor such that a gap and/or pitch between first and second articles is adjusted to an optimal distance to match the operation capability of the LPA. The controller verifies placement and contents of the label upon the article as defined by sensor data and accepts or rejects the labeled article for further handling based on the verification.
B41J 3/407 - Machines à écrire ou mécanismes d'impression ou de marquage sélectif caractérisés par le but dans lequel ils sont construits pour le marquage sur des matériaux particuliers
B65C 1/02 - Pose d'étiquettes sur la surface plane d'objets, p.ex. sur des emballages, des bandes plates
B65C 9/18 - Alimentation en étiquettes à partir de bandes, p.ex. de rouleaux
B07C 5/00 - Tri selon une caractéristique ou une particularité des objets ou du matériau à trier, p.ex. tri commandé par un dispositif qui détecte ou mesure cette caractéristique ou particularité; Tri à l'aide de dispositifs manœuvrés à la main, p.ex. d'aiguillages
An auto sort and label (ASL) system includes a conveyor, a controller, a sensor, and a label, print, and apply (LPA) system. The conveyor conveys articles through the ASL system. The sensor is positioned along the conveyor and identifies an article. The controller receives sensor data from the sensor. The LPA is positioned alongside the conveyor and prints labels in sequence with the corresponding article as it travels along the conveyor and applies the labels to the corresponding articles as the article passes the LPA. The controller controls the conveyor such that a gap and/or pitch between a first article and a second article is adjusted to an optimal distance to match the operation capability of the LPA. The controller verifies placement and contents of the label upon the article as defined by sensor data and accepts or rejects the labeled article for further handling based on the verification.
A conveyor surface adjustment system (100) includes first and second belt tracking actuators(106a, 106b) positionable at opposite first and second sides (102a, 102b) of a conveyor belt (102). An adjustable roller (120) in movable contact with the belt (102) has a fixed end (120a) and an adjustable end (120b) coupled to an adjustment gear (118). When the belt (102) is improperly positioned or aligned towards the first (106a) or second belt tracking actuator (106b), the belt (102) physically contacts or engages the first (106a) or second belt tracking actuator (106b). The engaged belt tracking actuator (106a, 106b) causes the gear (118) to rotate in either a first direction or a second direction to move the adjustable end (120b) of the adjustable roller (120) to adjust the tension of the belt (102). This tension change causes the belt (102) to track towards a corrected position or alignment.
B65G 15/64 - Dispositions pour soutenir ou guider les courroies, p.ex. à l'aide de jets de fluide pour maintenir automatiquement la position des courroies
B65G 23/44 - Dispositifs de tension des courroies ou des chaînes
09 - Appareils et instruments scientifiques et électriques
35 - Publicité; Affaires commerciales
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
(1) Communication software and messaging software, namely, downloadable software for processing images, graphics, audio, video, and text; downloadable cloud-based software for managing digital data, downloadable software for managing digital data utilizing industrial internet of things (IIOT) platforms, and downloadable software for controlling edge devices; software platform for use in supply chain fulfillment and management, including warehouse material handling, order fulfillment facilities, product distribution centers and product logistics; cloud computing software. (1) Data compilation and data processing of information in the fields of warehouse material handling systems, product distribution centers, order fulfillment facilities systems, retail stores, intralogistics, supply chain fulfillment systems, warehouse and storage facilities and their functions.
(2) Providing non-downloadable software for use in operation, control, visualization, emulation, simulation, virtualization, analysis and management of warehouse material handling systems, product distribution centers, order fulfillment facilities systems, retail stores, intralogistics, supply chain fulfillment systems, warehouse and storage facilities and their functions; software as a service (SaaS) services, featuring software for use in operation, control, visualization, emulation, simulation, virtualization, analysis and management of warehouse material handling systems, product distribution centers, order fulfillment facilities systems, retail stores, warehouse and storage facilities and their functions; providing non-downloadable software using artificial intelligence for machine learning in the field of operation, control, visualization, emulation, simulation, virtualization, analysis and management of warehouse material handling systems, product distribution centers, order fulfillment facilities systems, retail stores, intralogistics, supply chain fulfillment systems, warehouse and storage facilities and their functions via a website; software as a service (SaaS) services, featuring software using artificial intelligence for machine learning in the field of operation, control, visualization, emulation, simulation, virtualization, analysis and management of warehouse material handling systems, product distribution centers, order fulfillment facilities systems, retail stores, intralogistics, supply chain fulfillment systems, warehouse and storage facilities and their functions; application service provider (ASP) featuring software using artificial intelligence for machine learning in the field of operation, control, visualization, emulation, simulation, virtualization, analysis and management of warehouse material handling systems, product distribution centers, order fulfillment facilities systems, retail stores, intralogistics, supply chain fulfillment systems, warehouse and storage facilities and their functions; software as a service (SaaS) service featuring software for use in data management, data governance, data integration, data analytics, data search, data discovery, data cataloging, data visualization, data sharing, controlling access to data, data security, and generating workflows; software as a service (SaaS) service featuring software for collecting, tagging, cataloging, obtaining, tracking, processing, monitoring, storing, securing, organizing, managing, synthesizing, cleaning, consolidating, integrating, transmitting, measuring, mining, analyzing, governing, reporting, and sharing of data and information; software as a service (SaaS) service featuring software for privacy control used in data processing, collection, and analytics; software as a service (SaaS) service featuring software for data analytics, data protection, and data security; software as a service (SaaS) service featuring software for predictive analytics, big data and business data analysis and visualization; software as a service (SaaS) service featuring software for accessing, querying, and analyzing information stored in database and data warehousing; cloud computing in the field of material handling systems, product distribution centers, order fulfillment facilities systems, retail stores, intralogistics, supply chain fulfillment systems, warehouse and storage facilities and their functions; cloud computing featuring software for use in operation, control, visualization, emulation, simulation, virtualization, analysis and management of warehouse material handling systems, product distribution centers, order fulfillment facilities systems, retail stores, intralogistics, supply chain fulfillment systems, warehouse and storage facilities and their functions; cloud computing featuring software using artificial intelligence for machine learning in the field of operation, control, visualization, emulation, simulation, virtualization, analysis and management of warehouse material handling systems, product distribution centers, order fulfillment facilities systems, retail stores, intralogistics, supply chain fulfillment systems, warehouse and storage facilities and their functions; cloud computing featuring software for use in data management, data governance, data integration, data analytics, data search, data discovery, data cataloging, data visualization, data sharing, controlling access to data, data security, and generating workflows; cloud computing featuring software for collecting, tagging, cataloging, obtaining, tracking, processing, monitoring, storing, securing, organizing, managing, synthesizing, cleaning, consolidating, integrating, transmitting, measuring, mining, analyzing, governing, reporting, and sharing of data and information; cloud computing featuring software for privacy control used in data processing, collection, and analytics; cloud computing featuring software for data analytics, data protection, and data security; cloud computing featuring software for predictive analytics, big data and business data analysis and visualization; cloud computing featuring software for accessing, querying, and analyzing information stored in database and data warehousing; cloud computing featuring messaging software, namely, downloadable software for processing images, graphics, audio, video, text, and sharing files; cloud computing services for logistics and supply chain fulfillment; design and development of computer software for supply chain fulfillment and management services, including could computing; providing non-downloadable software for use in operation, control, visualization, emulation, simulation, virtualization, analysis and management of warehouse material handling systems, product distribution centers, order fulfillment facilities systems, warehouse and storage facilities and their functions, all for logistics and supply chain fulfillment purposes.
29.
METHOD FOR USING REINFORCEMENT LEARNING TO OPTIMIZE ORDER FULFILLMENT
An order fulfillment control system for a warehouse in accordance with the present invention includes a controller, a memory module, and a training module. The controller controls mobile autonomous devices, fixed autonomous devices, and issues picking orders to pickers. The controller controls fulfillment activities in the warehouse using hierarchically tiered algorithms, and records operational data for the fulfillment activities in the warehouse. The memory module holds the operational data. The training module retrains the algorithm using reinforcement learning. The training module performs the reinforcement learning on the operational data to retrain/update the algorithms. The training module retrains a macro algorithm according to a first set of priorities for optimal operation of the warehouse and retrains a plurality of micro algorithms according to corresponding second sets of priorities for optimal operation of a particular location and/or activity within the warehouse. The controller adaptively controls the fulfillment activities using the updated algorithms.
A conveyor system for transporting goods within a warehouse facility. The system includes an array of guide tracks and carriages moveable along the guide tracks for transporting goods within the warehouse facility. A drive system includes drivers spaced along the guide tracks. The drivers may utilize linear induction motors, propels the carriages along the guide tracks. The linear induction motors utilize stepper motors, and optionally microstepping motors. A warehouse management system controls the linear drive system to transport goods throughout warehouse facility for storage and order fulfilment. The linear driver conveyor system includes perpendicular transfers at which carriages can be transferred from one conveyor line to another, without the need for mechanical processes, such as lift or buffers, to move the carriage between conveyor lines.
B60L 13/03 - Propulsion électrique par moteur linéaire
B60L 13/04 - Suspension ou lévitation magnétiques pour véhicules
B60L 15/00 - Procédés, circuits ou dispositifs pour commander la propulsion des véhicules à traction électrique, p.ex. commande de la vitesse des moteurs de traction en vue de réaliser des performances désirées; Adaptation sur les véhicules à traction électrique de l'installation de commande à distance à partir d'un endroit fixe, de différents endroits du véhicule ou de différents véhicules d'un même train
B61B 13/08 - Systèmes à glissement ou à lévitation
B65G 54/02 - Transporteurs non mécaniques, non prévus ailleurs électrostatiques, électriques ou magnétiques
31.
METHOD FOR USING REINFORCEMENT LEARNING TO OPTIMIZE ORDER FULFILLMENT
An order fulfillment control system (300) for a warehouse (200) includes a controller (301), storage (103), and a training module (102). The controller (301) controls mobile autonomous devices, fixed autonomous devices, and issues picking orders to pickers (202, 204). The controller (301) controls fulfillment activities in the warehouse (301) using hierarchically tiered algorithms, and records operational data for the fulfillment activities. The training module (102) retrains the algorithm using reinforcement learning and performs the reinforcement learning on the operational data to retrain/update the algorithms. The training module (102) retrains a macro algorithm according to a first set of priorities for optimal operation of the warehouse and retrains a plurality of micro algorithms according to corresponding second sets of priorities for optimal operation of a particular location and/or activity within the warehouse (200). The controller (301) adaptively controls the fulfillment activities using the updated algorithms.
G06Q 10/06 - Ressources, gestion de tâches, des ressources humaines ou de projets; Planification d’entreprise ou d’organisation; Modélisation d’entreprise ou d’organisation
G06Q 50/28 - Logistique, p.ex. stockage, chargement, distribution ou expédition
G06N 5/04 - Modèles d’inférence ou de raisonnement
G06Q 10/0631 - Planification, affectation, distribution ou ordonnancement de ressources d’entreprises ou d’organisations
A sound attenuated conveyor roller assembly reduces the noise or vibration produced by the conveyor roller assembly during operation, and includes a conveyor roller having a cylindrical portion to which a sound damper may be coupled. The conveyor roller may include an unreduced outer surface and a reduced outer surface, in which the sound damper is disposed at the reduced outer surface such that an outer surface of the damper and the unreduced outer surface of the conveyor roller are located at substantially equal radial distances from a longitudinal axis of the conveyor roller. A tapered end connector having a tapered plastic tip may be coupled to each end of the conveyor roller to further reduce noise and vibration in the conveyor roller assembly.
B65G 39/06 - Adaptation des rouleaux individuels ou supports à cet effet les manchons des rouleaux étant à absorption des chocs, p.ex. formés de fils métalliques en hélices
B65G 39/07 - Autres adaptations pour manchons de rouleaux
33.
MOTOR DRIVEN ROLLER TRANSMISSION SYSTEM FOR CONVEYANCE SYSTEM
A motor driven roller transmission system for a conveyance assembly includes a transmission assembly connected between a first rotatable member and a second rotatable member, in which the first and second rotatable members are oriented at an angle from one another. The transmission assembly is adapted to efficiently transfer rotational motion of the first rotatable member to the second rotatable member. Rotation of the second rotatable member causes a conveyance surface to move in order to convey an object. The transmission assembly decreases the power required to drive the first rotatable member in order to move the conveyance surface by increasing the torque output of the first rotatable member, while also reducing the rotational speed required of the first rotatable member to drive the conveyance surface at a desired speed, thus extending the operational life of the first rotatable member.
B65G 13/06 - Dispositifs d'entraînement des rouleaux
B65G 47/54 - Dispositifs pour transférer objets ou matériaux entre transporteurs, p.ex. pour décharger ou alimenter entre transporteurs se croisant l'un au moins étant du type à rouleaux
34.
MOTOR DRIVEN ROLLER TRANSMISSION SYSTEM FOR CONVEYANCE SYSTEM
A motor driven roller transmission system for a conveyance assembly (20) includes a transmission assembly (30) connected between first and second rotatable members (28, 32) that are oriented at an angle from one another. The transmission assembly (30) is adapted to efficiently transfer rotational motion of the first rotatable member (28) to the second rotatable member (32). Rotation of the second rotatable member (32) causes a conveyance surface (26) to move in order to convey an object. The transmission assembly (30) decreases the power required to drive the first rotatable member (28) in order to move the conveyance surface (26) by increasing the torque output of the first rotatable member (28), while also reducing the rotational speed required of the first rotatable member (28) to drive the conveyance surface (26) at a desired speed, thus extending the operational life of the first rotatable member (28).
09 - Appareils et instruments scientifiques et électriques
35 - Publicité; Affaires commerciales
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
communication software and messaging software, namely, downloadable software for processing images, graphics, audio, video, and text; downloadable, cloud-based software for managing digital data, downloadable software for managing digital data utilizing industrial internet of things (IIOT) platforms, and downloadable software for controlling edge devices; recorded and downloadable software platform for use in supply chain fulfillment and management, including warehouse material handling, order fulfillment facilities, product distribution centers and product logistics; recorded and downloadable cloud computing software for managing logistics and supply chain fulfilment data compilation and data processing of information in the fields of warehouse material handling systems, product distribution centers, order fulfillment facilities systems, retail stores, intralogistics, supply chain fulfillment systems, warehouse and storage facilities and their functions Providing online non-downloadable software for use in operation, control, visualization, emulation, simulation, virtualization, analysis and management of warehouse material handling systems, product distribution centers, order fulfillment facilities systems, retail stores, intralogistics, supply chain fulfillment systems, warehouse and storage facilities and their functions; software as a service (SaaS) services, featuring software for use in operation, control, visualization, emulation, simulation, virtualization, analysis and management of warehouse material handling systems, product distribution centers, order fulfillment facilities systems, retail stores, warehouse and storage facilities and their functions; providing a website featuring non-downloadable software using artificial intelligence for machine learning in the field of operation, control, visualization, emulation, simulation, virtualization, analysis and management of warehouse material handling systems, product distribution centers, order fulfillment facilities systems, retail stores, intralogistics, supply chain fulfillment systems, warehouse and storage facilities and their functions; software as a service (SaaS) services, featuring software using artificial intelligence for machine learning in the field of operation, control, visualization, emulation, simulation, virtualization, analysis and management of warehouse material handling systems, product distribution centers, order fulfillment facilities systems, retail stores, intralogistics, supply chain fulfillment systems, warehouse and storage facilities and their functions; application service provider (ASP) featuring software using artificial intelligence for machine learning in the field of operation, control, visualization, emulation, simulation, virtualization, analysis and management of warehouse material handling systems, product distribution centers, order fulfillment facilities systems, retail stores, intralogistics, supply chain fulfillment systems, warehouse and storage facilities and their functions; software as a service (SaaS) service featuring software for use in data management, data governance, data integration, data analytics, data search, data discovery, data cataloging, data visualization, data sharing, controlling access to data, data security, and generating workflows; software as a service (SaaS) service featuring software for collecting, tagging, cataloging, obtaining, tracking, processing, monitoring, storing, securing, organizing, managing, synthesizing, cleaning, consolidating, integrating, transmitting, measuring, mining, analyzing, governing, reporting, and sharing of data and information; software as a service (SaaS) service featuring software for privacy control used in data processing, collection, and analytics; software as a service (SaaS) service featuring software for data analytics, data protection, and data security; software as a service (SaaS) service featuring software for predictive analytics, big data and business data analysis and visualization; software as a service (SaaS) service featuring software for accessing, querying, and analyzing information stored in database and data warehousing; cloud computing in the field of material handling systems, product distribution centers, order fulfillment facilities systems, retail stores, intralogistics, supply chain fulfillment systems, warehouse and storage facilities and their functions; cloud computing featuring software for use in operation, control, visualization, emulation, simulation, virtualization, analysis and management of warehouse material handling systems, product distribution centers, order fulfillment facilities systems, retail stores, intralogistics, supply chain fulfillment systems, warehouse and storage facilities and their functions; cloud computing featuring software using artificial intelligence for machine learning in the field of operation, control, visualization, emulation, simulation, virtualization, analysis and management of warehouse material handling systems, product distribution centers, order fulfillment facilities systems, retail stores, intralogistics, supply chain fulfillment systems, warehouse and storage facilities and their functions; cloud computing featuring software for use in data management, data governance, data integration, data analytics, data search, data discovery, data cataloging, data visualization, data sharing, controlling access to data, data security, and generating workflows; cloud computing featuring software for collecting, tagging, cataloging, obtaining, tracking, processing, monitoring, storing, securing, organizing, managing, synthesizing, cleaning, consolidating, integrating, transmitting, measuring, mining, analyzing, governing, reporting, and sharing of data and information; cloud computing featuring software for privacy control used in data processing, collection, and analytics; cloud computing featuring software for data analytics, data protection, and data security; cloud computing featuring software for predictive analytics, big data and business data analysis and visualization; cloud computing featuring software for accessing, querying, and analyzing information stored in database and data warehousing; cloud computing featuring messaging software, namely, downloadable software for processing images, graphics, audio, video, text, and sharing files; cloud computing services featuring software for managing logistics and supply chain fulfillment; design and development of computer software for supply chain fulfillment and management services, including could computing; providing online non-downloadable software for use in operation, control, visualization, emulation, simulation, virtualization, analysis and management of warehouse material handling systems, product distribution centers, order fulfillment facilities systems, warehouse and storage facilities and their functions, all for logistics and supply chain fulfillment purposes
A system (102, 202, 302, 402) and method (500) are provided for loading trays (106), with articles using a first tray conveyor (104, 204, 304, 404) on which empty trays are delivered and an article conveyor (110, 210, 310, 410) on which articles (112) are delivered to be transferred onto empty trays. The trays (106) include a frame (116) and a movable transport plate (124) for the articles. A lifting apparatus (226, 326, 426) is provided for the transport plate (124) of the tray (106) at a height that is about equal to the height of the article conveyor (110, 210, 310, 410), such as about 10 millimeters (10 mm) or less to reduce or eliminate drop forces as articles as transferred from the article conveyor (110, 210, 310, 410) onto the tray (106).
B65G 47/22 - Dispositifs pour influencer la position relative ou l'orientation des objets pendant le transport par transporteurs
B65G 47/52 - Dispositifs pour transférer objets ou matériaux entre transporteurs, p.ex. pour décharger ou alimenter
B65G 47/84 - Roues en forme d'étoiles ou dispositifs à courroies ou chaînes sans fin, les roues ou dispositifs étant dotés d'éléments venant en prise avec les objets
B65G 47/76 - Lames ou raclettes transversales fixes ou réglables
B65G 47/82 - Eléments à mouvement rotatif ou alternatif agissant directement sur les objets ou matériaux, p.ex. poussoirs, râteaux, pelles
A system and method are provided for loading trays with articles using a first tray conveyor on which empty trays are delivered and an article conveyor on which articles are delivered to be transferred onto empty trays. The trays include a frame with a peripheral raised edge and a base having at least one aperture and a transport plate for the articles, the transport trays being positioned on the base of the frame. A lifting apparatus is provided for the transport plate of the tray at a height that is about equal to the height of the article conveyor, such as about 10 millimeters (10 mm) or less to reduce or eliminate drop forces as articles as transferred from the article conveyor onto the tray.
A multi-directional or omni-roller (100, 100b, 200) for a conveyor system (300, 500) includes a first transport surface (102, 202) formed by a cylindrical roller body (104, 204), and a second transport surface (110, 110b, 210) formed by multi-directional wheels (112, 212). The wheels have a main body (112, 212) that rotate about a longitudinal axis of the roller, and secondary wheels (116, 216) disposed at an outer circumference that rotate perpendicular to the roller (100, 100b, 200), and permit articles or drive belts (504) to travel over the roller (100, 100b, 200) in a conveyance direction in a driven manner and permit articles to move laterally across the second transport surface portion (110, 110b, 210) without transferring lateral forces to a conveyor frame (502). For skew roller beds, a drive belt (504) may drive the roller (100, 100b, 200) about the secondary wheels (116, 216).
B65G 39/04 - Adaptation des rouleaux individuels ou supports à cet effet les rouleaux consistant en un certain nombre d'éléments formant rouleau montés sur un seul axe
B65G 39/12 - Aménagements des rouleaux montés sur châssis
B60B 19/00 - Roues non prévues ailleurs ou ayant des caractéristiques précisées dans l'un des sous-groupes du présent groupe
B65G 47/24 - Dispositifs pour influencer la position relative ou l'orientation des objets pendant le transport par transporteurs présentant les objets selon un orientement donné
B65G 47/54 - Dispositifs pour transférer objets ou matériaux entre transporteurs, p.ex. pour décharger ou alimenter entre transporteurs se croisant l'un au moins étant du type à rouleaux
A multi-directional or omni-roller for a conveyor system includes a first transport surface portion formed by a cylindrical roller body, and a second transport surface portion formed by multi-directional wheels. The wheels have a main body that is rotatable about a longitudinal axis of the roller, and a set of secondary wheels around an outer circumference of the main body. The secondary wheels rotate perpendicular relative to the rotation of the roller, and permit articles or drive belts to travel over the roller in a conveyance direction in a driven manner and permit articles to move laterally across the second transport surface portion without transferring lateral forces to a conveyor frame. For skew roller beds, a drive belt may drive the roller about the secondary wheels, substantially without lateral forces being transferred or introduced to the drive belt.
A system and method are provided for decanting inbound goods into optimally dimensioned compartments of totes for storage in an ASRS storage system. The system includes decant workstations with multiple tote decant positions each dedicated to receive totes having a compartment configuration different than for those at the other decant positions. The method includes presenting a decant operator with multiple totes such that the operator substantially always has an empty or partially filled compartment of each available compartment size which to place inbound items into. A warehouse control system guides the operator to which presented tote and which compartment within that tote to place the items. The warehouse control system monitors each of the totes at the decant positions and once a tote's compartments are all filled to capacity, that tote is returned to the storage system and replaced with another tote having an identical compartment configuration.
B65G 1/06 - Dispositifs d'emmagasinage mécaniques avec des moyens pour que les objets se présentent à l'enlèvement dans des positions ou à des niveaux prédéterminés
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
A system and method for decanting inbound goods into compartments of totes (14a, 14b, 14c) for storage in an ASRS storage system (12) includes decant workstations (18) with multiple tote decant positions (20a, 20b, 20c) each dedicated to receive totes (14a, 14b, 14c) having differing compartment configurations at the decant positions (20a, 20b, 20c). A decant operator (22) is provided multiple (14a, 14b, 14c) totes such that the operator (22) may have an empty or partially filled compartment of each available compartment size in which to place inbound items. A warehouse control system (11) guides the operator to which tote (14a, 14b, 14c) and which compartment within that tote to place the item. When the compartments of a given tote (14a, 14b, 14c) are all filled, that tote is returned to the storage system (12) and replaced with another tote having an identical compartment configuration.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
G06Q 10/0875 - Gestion d’inventaires ou de stocks, p.ex. exécution des commandes, approvisionnement ou régularisation par rapport aux commandes Énumération ou classification des pièces, des fournitures ou des services, p.ex. nomenclatures
A real-time belt tension sensing system (20) includes an engagement assembly (26) that is adapted to remain in substantially continuous contact with a belt (22) that is being driven in a conveyance or drive direction. As the belt (22) is driven in the drive direction, it simultaneously causes the position of the engagement assembly (26) to move in a slack direction that is substantially perpendicular to the drive direction. A tension sensor (32) produces a slack position signal based on the current position of a portion of the engagement assembly (26). The slack position signal is transmitted to a controller or control circuit (36) in electronic communication with the tension sensor (32). The control circuit (36) interprets the slack position signal to produce a tension measurement.
G01L 5/107 - Appareils ou procédés pour la mesure des forces, du travail, de la puissance mécanique ou du couple, spécialement adaptés à des fins spécifiques pour la mesure de la tension dans les éléments flexibles, p.ex. dans les cordages, les câbles, les fils métalliques, les filaments, les courroies ou les bandes en utilisant des moyens électriques pour la mesure d’une force de réaction appliquée sur un élément disposé entre deux supports, p.ex. sur une pluralité de rouleaux ou de patins
B65G 23/44 - Dispositifs de tension des courroies ou des chaînes
F16H 3/12 - Transmissions à engrenages pour transmettre un mouvement rotatif à rapport de vitesse variable ou pour inverser le mouvement rotatif sans engrenages à mouvement orbital exclusivement ou principalement à engrenages constamment en prise, pouvant être libérés de leurs arbres avec moyens de synchronisation non incorporés dans les embrayages
G01L 5/105 - Appareils ou procédés pour la mesure des forces, du travail, de la puissance mécanique ou du couple, spécialement adaptés à des fins spécifiques pour la mesure de la tension dans les éléments flexibles, p.ex. dans les cordages, les câbles, les fils métalliques, les filaments, les courroies ou les bandes en utilisant des moyens électriques en utilisant des moyens électro-optiques
An omnichannel order fulfilment and sortation system (100) and method (200) are provided for optimizing order fulfilment processes within an order fulfilment facility. System (100) includes multiple automated storage and retrieval systems or units (106), including aisle-based, grid-based, and full case handling systems. A centrally positioned continuous loop sorter (102) receives a multitude of items for many different work in progress orders. Order consolidators (104) are provided adjacent the sorter (102) to receive items for individual orders from the sorter (102). The quantity of consolidators (104) is higher than the quantity of storage units (106) and inducts (108) of the storage units (106), providing for many order consolidation locations such that the storage units (106) need not wait for consolidation locations to become available before retrieving items for other orders. The consolidator (104) selected to receive a particular order is optimized to reduce strain on resources within the system.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
G06Q 10/08 - Logistique, p.ex. entreposage, chargement ou distribution; Gestion d’inventaires ou de stocks
An omnichannel order fulfilment and sortation system and method for operating same are provided for optimizing order fulfilment processes within an order fulfilment facility. The system includes multiple automated storage and retrieval systems or units, including aisle-based systems, grid-based systems, and full case handling systems. A continuous loop sorter is positioned centrally relative to the storage units to receive a multitude of items for many different work in progress orders. Order consolidators are provided adjacent the sorter to receive items for individual orders from the sorter. The quantity consolidators is significantly higher than the quantity of storage units and inducts of the storage units, providing for many orders consolidation locations such that the storage units need not necessarily wait for consolidation locations to become available before retrieving items for other orders. The consolidator selected to receive a particular order is optimized to reduce the strain on resources within the system.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
A real-time belt tension sensing system includes an engagement assembly that is adapted to remain in substantially continuous contact with a belt that is being driven in a conveyance or drive direction. As the belt is driven in the drive direction, it simultaneously causes the position of the engagement assembly to move in a slack direction that is substantially perpendicular to the drive direction. A tension sensor produces a slack position signal based on the current position of a portion of the engagement assembly. The slack position signal is transmitted to a controller or control circuit in electronic communication with the tension sensor. The control circuit interprets the slack position signal to produce a tension measurement.
G01L 5/107 - Appareils ou procédés pour la mesure des forces, du travail, de la puissance mécanique ou du couple, spécialement adaptés à des fins spécifiques pour la mesure de la tension dans les éléments flexibles, p.ex. dans les cordages, les câbles, les fils métalliques, les filaments, les courroies ou les bandes en utilisant des moyens électriques pour la mesure d’une force de réaction appliquée sur un élément disposé entre deux supports, p.ex. sur une pluralité de rouleaux ou de patins
46.
RECEPTACLE WITH TEMPERATURE CONTROLLED LID FOR AUTOMATED STORAGE AND RETRIEVAL SYSTEM
An automated warehouse system and method are provided for controlling internal microclimates of totes within a warehouse or order fulfilment facility. The system provides independent environmental condition monitoring and regulation for each tote. The system enables individual totes to be maintained at adequate or substantially ideal conditions, independent of its position within a storage system or the environmental conditions of adjacent totes. The storage system includes environmental control inputs at individual storage locations to adjust or maintain environmental conditions within a tote at a particular storage location. The totes engage the environmental control inputs when they are stored at a storage location. The system may utilize standard or commercially available totes. The system is operable to monitor and control the microclimate of a tote while it is stored at a storage location and may be operable to monitor the totes while they travel throughout the system.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
F25D 11/00 - Dispositifs autonomes déplaçables associés à des machines frigorifiques, p.ex. réfrigérateurs ménagers
G05B 15/02 - Systèmes commandés par un calculateur électriques
47.
RECEPTACLE WITH TEMPERATURE CONTROLLED LID FOR AUTOMATED STORAGE AND RETRIEVAL SYSTEM
An automated warehouse system (10) and method (100) are provided for controlling internal microclimates of totes (12) within a warehouse or order fulfilment facility. The system (10) provides independent environmental condition monitoring and regulation for each tote (12) independent of its position within a storage system (14) or the environmental conditions of adjacent totes (12). The storage system (14) includes environmental control inputs at individual storage locations to adjust or maintain environmental conditions within a tote (12) at a particular storage location via covers (21) that are selectively engageable with the totes (12). The covers (21) engage the totes (12), which may be standard or commercially available totes (12), when they are stored at a storage location. The system (10) is operable to monitor and control the microclimate of a tote (12) via its cover (21) while it is stored at a storage location.
B65D 81/18 - Réceptacles, éléments d'emballage ou paquets pour contenus présentant des problèmes particuliers de stockage ou de transport ou adaptés pour servir à d'autres fins que l'emballage après avoir été vidés de leur contenu fournissant une ambiance spécifique pour le contenu, p.ex. température supérieure ou inférieure à la température ambiante
B65D 81/38 - Réceptacles, éléments d'emballage ou paquets pour contenus présentant des problèmes particuliers de stockage ou de transport ou adaptés pour servir à d'autres fins que l'emballage après avoir été vidés de leur contenu avec isolation thermique
B65B 63/08 - Dispositifs accessoires, non prévus ailleurs, opérant sur des objets ou matériaux à emballer pour échauffer ou refroidir les objets ou matériaux en vue d'en faciliter l'empaquetage
G06Q 10/0832 - Marchandises spéciales ou procédures de manutention spéciales, p. ex. manutention de marchandises dangereuses ou fragiles
48.
AUTOMATED STORAGE AND RETRIEVAL SYSTEM WITH MICROCLIMATE-CONTROLLED RECEPTACLES
An automated warehouse system and method are provided for controlling the internal microclimate of receptacles within a warehouse or order fulfilment facility. The system provides independent environmental condition monitoring and regulation for each tote. The system enables individual totes to be maintained at adequate or substantially ideal conditions, independent of its position within a storage system or the environmental conditions of adjacent totes in the storage system. The totes may include self-contained environmental control systems and/or the storage system may include environmental control inputs to adjust or maintain the environmental conditions within a particular tote. The system is operable to monitor and control the microclimate of a tote while it is stored at a storage location within the storage system or in a buffer, and may be operable to monitor and/or control the microclimates of the totes while they travel throughout the system.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
G05B 15/02 - Systèmes commandés par un calculateur électriques
F25D 15/00 - Dispositifs associés à des machines frigorifiques, non couverts par les groupes ou , p.ex. les dispositifs mobiles non autonomes
F25D 17/06 - Dispositions pour la circulation des fluides de refroidissement; Dispositions pour la circulation de gaz, p.ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p.ex. convection naturelle par circulation d'air forcée
49.
AUTOMATED STORAGE AND RETRIEVAL SYSTEM AND MICROCLIMATE-CONTROLLED RECEPTACLES FOR PHARMACEUTICALS AND METHOD FOR OPERATING SAME
An automated warehouse system and method for climate controlled storage and order fulfilment comprises a control system, an automated storage and retrieval system (“ASRS”) with a storage rack defining storage locations for storage receptacles for containing goods, where either at least some of the storage receptacles are individually temperature controllable or the storage rack is at least partially disposed in a frozen environment. A transportation system is coupled with the ASRS for transporting storage receptacles to and from the automated storage and retrieval system, and a workstation is in communication with the transportation system for picking goods to a temperature-controlled order receptacle. The control system directs order fulfilment operations comprising directing goods requiring stable temperature control from the ASRS to the workstation and directs an operator to pick the goods from the storage receptacle to the temperature-controlled order receptacle to maintain the goods within a required temperature range.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
F25D 29/00 - Disposition ou montage de l'appareillage de commande ou de sécurité
A right angle transfer device (20, 120) has a conveying surface (25, 125) defined by a plurality of driven conveying members (26, 126) for conveying objects in a conveyance direction. A diverting conveying member (24, 124) is mounted to a frame (36, 136) and is driven to divert objects in a direction angled away from the conveyance direction. A lift drive (28, 128) rotates a cam (30, 130) to move a bar (32, 132) in a substantially horizontal direction. The movement of the bar (32, 132) causes a frame link (34, 134) connected to the bar (32, 132) and the frame (36, 136) to raise and lower the frame (36, 136). Once the frame (36, 136) has been moved upward to a sufficient extent, the diverting conveying member (24, 124) is raised above the conveying members (26, 126) to move and divert an object away from the conveyance direction.
B65G 47/54 - Dispositifs pour transférer objets ou matériaux entre transporteurs, p.ex. pour décharger ou alimenter entre transporteurs se croisant l'un au moins étant du type à rouleaux
B65G 47/64 - Changement de voies des transporteurs
B65G 13/07 - Dispositifs d'entraînement des rouleaux comportant des éléments de commande sans fin
A right angle transfer device has a conveying surface defined by a plurality of conveying members that are driven to convey objects in a conveyance direction. A diverting conveying member is mounted to a frame and is driven to divert objects in a direction angled away from the conveyance direction. A lift drive rotates a cam to move a bar in a substantially horizontal direction. The movement of the bar causes a frame link connected to the bar and the frame to raise and lower the frame. Once the frame has been moved upward to a sufficient extent, the diverting conveying member will be raised above the conveying members to come into contact with the object to thereby move and divert the object away from the conveyance direction.
B65G 47/64 - Changement de voies des transporteurs
B65G 47/54 - Dispositifs pour transférer objets ou matériaux entre transporteurs, p.ex. pour décharger ou alimenter entre transporteurs se croisant l'un au moins étant du type à rouleaux
B65G 43/00 - Dispositifs de commande, p.ex. de sécurité, d'alarme ou de correction des erreurs
Methods are provided for optimizing retail inventory receiving and putaway processes within a retail store. The methods include segregating items from inbound inventory loads by unloading and identifying each of the items in the load. Based on the identity of an item, a computer directs the operator to segregate each item to a putwall, such as to a container on a mobile inventory cart. A pick to light (PTE) system is utilized to direct the operator's segregation processes. Each item is segregated into a family or sub-family grouping of inventory items that correspond to a particular department or sub-department of the retail floor of the store. Segregated family or sub-family groupings are distributed to respective departments to be putaway by an associate on the retail floor. The methods may be adapted to process e-commerce orders for shipment out of the store or for in-store customer pickup.
Methods are provided for optimizing retail inventory receiving and putaway processes within a retail store. The methods include segregating items from inbound inventory loads by unloading and identifying each of the items in the load. Based on the identity of an item, a computer directs the operator to segregate each item to a putwall, such as to a container on a mobile inventory cart. A pick to light (PTE) system is utilized to direct the operator's segregation processes. Each item is segregated into a family or sub-family grouping of inventory items that correspond to a particular department or sub-department of the retail floor of the store. Segregated family or sub-family groupings are distributed to respective departments to be putaway by an associate on the retail floor. The methods may be adapted to process e-commerce orders for shipment out of the store or for in-store customer pickup.
Methods are provided for optimizing retail inventory receiving and putaway processes within a retail store. The methods include segregating items from inbound inventory loads by unloading and identifying each of the items in the load. Based on the identity of an item, a computer directs the operator to segregate each item to a putwall, such as to a container on a mobile inventory cart. A pick to light (PTL) system is utilized to direct the operator's segregation processes. Each item is segregated into a family or sub-family grouping of inventory items that correspond to a particular department or sub-department of the retail floor of the store. Segregated family or sub-family groupings are distributed to respective departments to be putaway by an associate on the retail floor. The methods may be adapted to process e-commerce orders for shipment out of the store or for in-store customer pickup.
An assessment system and method are provided for determining whether an item handled in a material handling system is stable and conveyable or unstable and non-conveyable. If an item is deemed non-conveyable, it is diverted or otherwise removed from the material handling system before it is transported downstream where it may affect the operation of the system or cause damage to the system and/or item. The system utilizes a dimension sensor system, such as including photo arrays, to measure contact region dimensions between an item being conveyed and the conveyor surface. The contact region is observed under constant conveyance rates, accelerating conveyance rates, and decelerating conveyance rates to determine whether the item orientation changes due to shifts in momentum. Any measured contact region changes are compared to a maximum allowed value, and if the measured change is greater than the maximum, the item is deemed non-conveyable.
An assessment system and method are provided for determining whether an item handled in a material handling system is stable and conveyable or unstable and non-conveyable. If an item is deemed non-conveyable, it is diverted or otherwise removed from the material handling system before it is transported downstream where it may affect the operation of the system or cause damage to the system and/or item. The system utilizes a dimension sensor system, such as including photo arrays, to measure contact region dimensions between an item being conveyed and the conveyor surface. The contact region is observed under constant conveyance rates, accelerating conveyance rates, and decelerating conveyance rates to determine whether the item orientation changes due to shifts in momentum. Any measured contact region changes are compared to a maximum allowed value, and if the measured change is greater than the maximum, the item is deemed non-conveyable.
A network module configured to provide switched auxiliary (AUX) power for E-stop system functionality in a network system. The network module includes a switching module and a controller. The switching module is configured to control the passage of power through a switched AUX cable for E-stop functionality. The switching module is configured to receive an unswitched AUX cable and the switched AUX cable. The controller is communicatively coupled to a communications cable. The controller is configured to control the switching actions of the switching module as defined by switching instructions received via the communications cable.
G05B 19/042 - Commande à programme autre que la commande numérique, c.à d. dans des automatismes à séquence ou dans des automates à logique utilisant des processeurs numériques
G05B 19/418 - Commande totale d'usine, c.à d. commande centralisée de plusieurs machines, p.ex. commande numérique directe ou distribuée (DNC), systèmes d'ateliers flexibles (FMS), systèmes de fabrication intégrés (IMS), productique (CIM)
H01H 3/02 - Organes moteurs, c. à d. pour actionner le mécanisme d'entraînement par une force mécanique extérieure à l'interrupteur
H01H 13/50 - Interrupteurs ayant un organe moteur à mouvement rectiligne ou des organes adaptés pour pousser ou tirer dans une seule direction, p.ex. interrupteur à bouton-poussoir ayant un seul élément d'actionnement
H02J 9/04 - Circuits pour alimentation de puissance de secours ou de réserve, p.ex. pour éclairage de secours dans lesquels le système de distribution est déconnecté de la source normale et connecté à une source de réserve
A network module configured to provide switched auxiliary (AUX) power for E-stop system functionality in a network system. The network module includes a switching module and a controller. The switching module is configured to control the passage of power through a switched AUX cable for E-stop functionality. The switching module is configured to receive an unswitched AUX cable and the switched AUX cable. The controller is communicatively coupled to a communications cable. The controller is configured to control the switching actions of the switching module as defined by switching instructions received via the communications cable.
A system and method are provided for auditing the inventory within an automated warehouse utilizing RFID technology. The system and method enable real-time tracking and monitoring of inventory and load units as they travel through and are stored in the warehouse. The system may require only a single RFID reader coupled with an automated shuttle for traversing a majority of the warehouse storage system to read, recognize, and audit the inventory as stored in load units stored in the system. The system may utilize multiple RFID readers throughout the warehouse to provide ample coverage, enabling real-time, whole warehouse inventory tracking. The system and method of the present invention contemplate both readily available RFID technologies, as well as advanced or improved RFID technologies having greater detection range, larger information storage capabilities, and the ability to determine precise spatial location of tags relative a reader.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
60.
RFID ENABLED WAREHOUSE MANAGEMENT SYSTEM AND METHOD
A system and method are provided for auditing the inventory within an automated warehouse utilizing RFID technology. The system and method enable real-time tracking and monitoring of inventory and load units as they travel through and are stored in the warehouse. The system may require only a single RFID reader coupled with an automated shuttle for traversing a majority of the warehouse storage system to read, recognize, and audit the inventory as stored in load units stored in the system. The system may utilize multiple RFID readers throughout the warehouse to provide ample coverage, enabling real-time, whole warehouse inventory tracking. The system and method of the present invention contemplate both readily available RFID technologies, as well as advanced or improved RFID technologies having greater detection range, larger information storage capabilities, and the ability to determine precise spatial location of tags relative a reader.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
B65G 65/08 - Machines à charger ou à décharger comportant essentiellement un transporteur pour déplacer les charges associé à un dispositif pour les saisir avec transporteurs de prise à mouvement alternatif
G05B 15/02 - Systèmes commandés par un calculateur électriques
An RFID enabled system and method for tracking, directing, verifying, and validating item level order picking functions within order fulfilment and warehouse facilities having different SKUs sharing an inventory tote. RFID tags are coupled to each inventory item to be read by one or more RFID reader(s) in the facility. The system and method verify that a required item is picked and transferred correctly by the picker. The system provides feedback to the picker without requiring additional verification steps and preferably without any visual inspection by the picker. The picker may be guided to the required item and later directed to a location to place the retrieved item. The verification system may be adapted for use in a material handling system to monitor and direct material handling functions based on relative positions of RFID tags on individual items relative to RFID readers positioned throughout the facility.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
G06Q 10/08 - Logistique, p.ex. entreposage, chargement ou distribution; Gestion d’inventaires ou de stocks
G06F 3/01 - Dispositions d'entrée ou dispositions d'entrée et de sortie combinées pour l'interaction entre l'utilisateur et le calculateur
An RFID enabled system and method for tracking, directing, verifying, and validating item level order picking functions within order fulfilment and warehouse facilities having different SKUs sharing an inventory tote. RFID tags are coupled to each inventory item to be read by one or more RFID reader(s) in the facility. The system and method verify that a required item is picked and transferred correctly by the picker. The system provides feedback to the picker without requiring additional verification steps and preferably without any visual inspection by the picker. The picker may be guided to the required item and later directed to a location to place the retrieved item. The verification system may be adapted for use in a material handling system to monitor and direct material handling functions based on relative positions of RFID tags on individual items relative to RFID readers positioned throughout the facility.
A dynamic storage wall with reconfigurable storage cubbies and methods of operating the storage wall are provided for a storage facility. The storage wall includes a shelf with multiple storage cubbies and one or more repositionable dividers defining boundaries between the cubbies. The storage wall includes a Time of Flight (ToF) sensor array adjacent to the shelf for measuring positions of each of the repositionable dividers. The ToF is also adapted for recognizing when an item has been retrieved from or placed at either of said storage locations. A workflow control system with a computer is connected to the sensor array. The control system utilizes data from the ToF sensor array to determine when a repositionable divider has been moved and/or when an item has been retrieved from a storage location. The system may automatically or manually recognize when a divider is moved and that new measurement is required.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
A sound attenuated material handling element reduces vibration and sound in a material handling system. The material handling element may be a sound attenuated roller for use in a roller conveyer or a sound attenuated nestable tote for receiving and transporting articles in the material handling system. Reducing vibration in material handling element reduces the noise produced by the element. The sound attenuated roller includes sound attenuating material disposed inside of the roller and in contact with the inner surface of the roller body. The sound attenuated nestable tote includes sound dampening material disposed in or formed with the tote structure. The sound damping material may be integrally formed with the roller or tote in order to maximize vibration and noise attenuation. Three dimensional computer analysis may be used to determine optimized locations for placement of the sound damping material on the roller or tote.
A time tracking and indicator system and method are provided for tracking and indicating initialization-to-completion times for order fulfilment operations, such as order packaging and shipping operations. The system includes a put-wall with multiple order storage locations and indicators at each of the storage locations. The indicators are independently addressable by a computer and may include color changeable lights and/or alphanumeric displays. The method and system provide visual prompts to an operator of the put-wall to indicate multiple statuses for an order at a particular storage location. Prompts include indications that (i) an order is ready to be attended to, (ii) an operation time limit has been exceeded, and (iii) that an operation for that location is exceedingly overdue. Time limits and prompts may be preset by a user or may be automatically set and adjusted by the computer based on historic operation completion times.
A time tracking and indicator system and method are provided for tracking and indicating initialization-to-completion times for order fulfilment operations, such as order packaging and shipping operations. The system includes a put-wall with multiple order storage locations and indicators at each of the storage locations. The indicators are independently addressable by a computer and may include color changeable lights and/or alphanumeric displays. The method and system provide visual prompts to an operator of the put-wall to indicate multiple statuses for an order at a particular storage location. Prompts include indications that (i) an order is ready to be attended to, (ii) an operation time limit has been exceeded, and (iii) that an operation for that location is exceedingly overdue. Time limits and prompts may be preset by a user or may be automatically set and adjusted by the computer based on historic operation completion times.
A time tracking and indicator system and method are provided for tracking and indicating initialization-to-completion times for order fulfilment operations, such as order packaging and shipping operations. The system includes a put-wall with multiple order storage locations and indicators at each of the storage locations. The indicators are independently addressable by a computer and may include color changeable lights and/or alphanumeric displays. The method and system provide visual prompts to an operator of the put-wall to indicate multiple statuses for an order at a particular storage location. Prompts include indications that (i) an order is ready to be attended to, (ii) an operation time limit has been exceeded, and (iii) that an operation for that location is exceedingly overdue. Time limits and prompts may be preset by a user or may be automatically set and adjusted by the computer based on historic operation completion times.
G06Q 10/08 - Logistique, p.ex. entreposage, chargement ou distribution; Gestion d’inventaires ou de stocks
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
68.
TOLERANCE ADJUSTER AND WEAR DEVICE FOR SORTATION SYSTEM
A tolerance adjuster and wear device, e.g. spring clip, is provided for automatically adjusting the tolerance or clearance between a pusher shoe surface and an adjacent surface of a linear slat of a positive displacement sorter. The spring clip includes an engagement portion to couple the clip to a pusher shoe and a wear portion to automatically bias or adjust a tolerance between the pusher shoe and a corresponding slat. The engagement portion includes a retainer, in the form of a pair of opposing elastic grips or teeth that are insertable through a receiver in a surface of the shoe. The wear portion includes a wear surface and spring element, such as a spring arm or convex dome. The spring element is elastic to provide a consistent and automatic bias against the slat surface. Preferably, the spring clip is extruded from a resilient, wear-resistant self-lubricating polymer.
B07C 3/06 - Machines trieuses linéaires dans lesquelles les objets sont extraits d'un courant au niveau de points choisis
B07C 5/36 - Appareils trieurs caractérisés par les moyens qu'ils utilisent en vue de la distribution
B65G 47/46 - Dispositifs pour décharger les objets ou matériaux des transporteurs avec distribution, p.ex. automatique, aux points voulus
B65G 47/84 - Roues en forme d'étoiles ou dispositifs à courroies ou chaînes sans fin, les roues ou dispositifs étant dotés d'éléments venant en prise avec les objets
69.
TOLERANCE ADJUSTER AND WEAR DEVICE FOR SORTATION SYSTEM
A tolerance adjuster and wear device, e.g. spring clip, is provided for automatically adjusting the tolerance or clearance between a pusher shoe surface and an adjacent surface of a linear slat of a positive displacement sorter. The spring clip includes an engagement portion to couple the clip to a pusher shoe and a wear portion to automatically bias or adjust a tolerance between the pusher shoe and a corresponding slat. The engagement portion includes a retainer, in the form of a pair of opposing elastic grips or teeth that are insertable through a receiver in a surface of the shoe. The wear portion includes a wear surface and spring element, such as a spring arm or convex dome. The spring element is elastic to provide a consistent and automatic bias against the slat surface. Preferably, the spring clip is extruded from a resilient, wear-resistant self-lubricating polymer.
B65G 47/84 - Roues en forme d'étoiles ou dispositifs à courroies ou chaînes sans fin, les roues ou dispositifs étant dotés d'éléments venant en prise avec les objets
B07C 3/06 - Machines trieuses linéaires dans lesquelles les objets sont extraits d'un courant au niveau de points choisis
B07C 5/36 - Appareils trieurs caractérisés par les moyens qu'ils utilisent en vue de la distribution
B65G 47/46 - Dispositifs pour décharger les objets ou matériaux des transporteurs avec distribution, p.ex. automatique, aux points voulus
70.
Tolerance adjuster and wear device for sortation system
A tolerance adjuster and wear device, e.g. spring clip, is provided for automatically adjusting the tolerance or clearance between a pusher shoe surface and an adjacent surface of a linear slat of a positive displacement sorter. The spring clip includes an engagement portion to couple the clip to a pusher shoe and a wear portion to automatically bias or adjust a tolerance between the pusher shoe and a corresponding slat. The engagement portion includes a retainer, in the form of a pair of opposing elastic grips or teach that are insertable through a receiver in a surface of the shoe. The wear portion includes a wear surface and spring element, such as a spring arm or convex dome. The spring element is elastic to provide a consistent and automatic bias against the slat surface. Preferably, the spring clip is extruded from a resilient, wear-resistant self-lubricating polymer.
B65G 47/82 - Eléments à mouvement rotatif ou alternatif agissant directement sur les objets ou matériaux, p.ex. poussoirs, râteaux, pelles
B65G 43/00 - Dispositifs de commande, p.ex. de sécurité, d'alarme ou de correction des erreurs
B65G 47/84 - Roues en forme d'étoiles ou dispositifs à courroies ou chaînes sans fin, les roues ou dispositifs étant dotés d'éléments venant en prise avec les objets
71.
MULTI-FUNCTION ORDER FULFILLMENT SYSTEM WITH GRID STORAGE
A system and methods for utilizing a grid storage array for high rate picking in a micro-fulfilment facility. The system includes a grid storage array and multiple transfer ports that are dedicated to a particular directional function, i.e. discharge ports and intake ports. The system includes a multi-function workstation that can operate as either a picking station or a decant station. A conveyor loop is provided and includes right-angle-transfers (RATs) and accumulators to transport and sequence the flow of storage bins and order totes. The combination and configuration of the grid storage array, conveyor loop, and multi-function workstation optimizes space utilization which is particularly beneficial in micro-fulfilment facilities where space is at a premium.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
B65G 15/30 - Courroies ou porte-charges sans fin analogues
A system and methods for utilizing a grid storage array for high rate picking in a micro-fulfilment facility. The system includes a grid storage array and multiple transfer ports that are dedicated to a particular directional function, i.e. discharge ports and intake ports. The system includes a multi-function workstation that can operate as either a picking station or a decant station. A conveyor loop is provided and includes right-angle-transfers (RATs) and accumulators to transport and sequence the flow of storage bins and order totes. The combination and configuration of the grid storage array, conveyor loop, and multi-function workstation optimizes space utilization which is particularly beneficial in micro-fulfilment facilities where space is at a premium.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
An automated warehouse material movement system and method of moving material in a warehouse. A computer based vehicle tasking subsystem (VTS) is programed with computer code to respond to mission commands from a computer based warehouse executive subsystem (WEX) to issue commands to a computer based mobile robot automation subsystem (MAS) to reserve and schedule mobile robots including movement of inventory between a source and a destination within the warehouse and to report status information from the MAS to the VTS regarding status of missions. At least one microservice component is configured to be tightly designed, stateless and loosely coupled with said WEX and MAS. The VTS is the at least one microservice component.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
74.
AUTONOMOUS MOBILE ROBOT BASED MATERIAL MOVEMENT SYSTEM AND METHOD
An automated warehouse material movement system and method of moving material in a warehouse. A computer based vehicle tasking subsystem (VTS) is programed with computer code to respond to mission commands from a computer based warehouse executive subsystem (WEX) to issue commands to a computer based mobile robot automation subsystem (MAS) to reserve and schedule mobile robots including movement of inventory between a source and a destination within the warehouse and to report status information from the MAS to the VTS regarding status of missions. At least one microservice component is configured to be tightly designed, stateless and loosely coupled with said WEX and MAS. The VTS is the at least one microservice component.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
75.
Method and warehouse for delivery order processing
A method for operating an order fulfilment warehouse utilizing a gig-based labor force (e.g. freelance delivery drivers) performing picking functions in the warehouse and subsequently delivering the order to the customer. Preferably, the facility is staffed with only supervisory labor and receiving/putaway labor to replenish the warehouse inventory. The delivery driver may access an order database via a mobile application to accept a customer's online order, such as a grocery item order. The customer's order may additionally include retrieving items from another facility, such as a restaurant. The grocery order may be from a limited or dedicated warehouse facility that has a curated group of items/SKUs. The delivery driver enters the warehouse, checks in, and then proceeds to pick the order from the warehouse. The driver validates the order and then departs the facility and proceeds toward delivery of the order directly to the customer.
An automated warehouse material movement system and method of moving material in a warehouse, includes a computer based warehouse executive subsystem (WEX) that is programed with computer code to maintain inventory location and quantity information, schedule inventory movement and track inventory movement within the warehouse and a computer based mobile robot automation subsystem (MAS) that is programed with computer code to maintain information of floor layout of the warehouse, maintain information on mobile robots in the warehouse, allocate and deallocate mobile robots to particular missions, control and track movement of mobile robots and provide situational reporting of the mobile robots. A computer based vehicle tasking subsystem (VTS) is programed with computer code to respond to mission commands from the WEX to issue commands to the MAS to reserve and schedule mobile robots including movement of inventory between a source and a destination within the warehouse and to report status information from the MAS to the VTS regarding status of missions. At least one microservice component is configured to be tightly designed, stateless and loosely coupled with said WEX and MAS. The VTS is the at least one microservice component.
G06Q 10/08 - Logistique, p.ex. entreposage, chargement ou distribution; Gestion d’inventaires ou de stocks
G05B 19/042 - Commande à programme autre que la commande numérique, c.à d. dans des automatismes à séquence ou dans des automates à logique utilisant des processeurs numériques
77.
AUTOMATED ORDER FULFILMENT WITH OPPORTUNISTIC DECANT OPERATIONS
A method and system for opportunistically picking order items during decant processes. An order management system determines which items required for a pending order are depleted within a decant function or storage system and orders replenishment, such as inbound vendor cases containing the depleted required items, to the decant function. Operators at decant workstations pick the required items from the inbound vendor cases into order containers while simultaneously decanting any remaining, non-required vendor items into inventory containers. The order containers and the inventory items are stored in a storage system until all required items for an order are present therein. Once all required items are present, the items are released to a downstream picking workstation, sorter, and/or packing station. The method with opportunistic decant may enable minimized facility space requirements, labor reductions, and resource reductions while improving facility throughput.
A method and system for opportunistically picking order items during decant processes. An order management system determines which items required for a pending order are depleted within a decant function or storage system and orders replenishment, such as inbound vendor cases containing the depleted required items, to the decant function. Operators at decant workstations pick the required items from the inbound vendor cases into order containers while simultaneously decanting any remaining, non-required vendor items into inventory containers. The order containers and the inventory items are stored in a storage system until all required items for an order are present therein. Once all required items are present, the items are released to a downstream picking workstation, sorter, and/or packing station. The method with opportunistic decant may enable minimized facility space requirements, labor reductions, and resource reductions while improving facility throughput.
A method and system for opportunistically picking order items during decant processes. An order management system determines which items required for a pending order are depleted within a decant function or storage system and orders replenishment, such as inbound vendor cases containing the depleted required items, to the decant function. Operators at decant workstations pick the required items from the inbound vendor cases into order containers while simultaneously decanting any remaining, non-required vendor items into inventory containers. The order containers and the inventory items are stored in a storage system until all required items for an order are present therein. Once all required items are present, the items are released to a downstream picking workstation, sorter, and/or packing station. The method with opportunistic decant may enable minimized facility space requirements, labor reductions, and resource reductions while improving facility throughput.
G06Q 10/08 - Logistique, p.ex. entreposage, chargement ou distribution; Gestion d’inventaires ou de stocks
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
80.
GOODS TO PERSON ORDER PICKING WITH DISCHARGE MECHANISM
A system and method for consolidating order items into individual or batch orders within an order fulfilment workstation and discharging the order items to a takeaway device, such as a trackable segmented conveyor. The system includes a temporary holding container at the workstation and a discharge mechanism to release or transfer the contents of the temporary container to the takeaway device. The system and method reduce or eliminate the process of an operator replenishing order transport containers to the workstation once a completed order container has dispatched from the workstation. Empty order containers are supplied the workstation via the takeaway device. The empty order container is positioned adjacent the temporary container such that the discharge mechanism may transfer the order items from the temporary container into the empty order container. The discharge mechanism may transfer the order items directly to the surface of the takeaway device.
G06Q 30/06 - Transactions d’achat, de vente ou de crédit-bail
G06Q 10/08 - Logistique, p.ex. entreposage, chargement ou distribution; Gestion d’inventaires ou de stocks
B65G 15/22 - Transporteurs comportant des surfaces porteuses de charges sans fin, c. à d. des tapis roulants ou autres systèmes équivalents, auxquelles l'effort de traction est transmis par des moyens différents des éléments d'entraînement sans fin de même config comportant une série d'éléments travaillant ensemble
81.
GOODS TO PERSON ORDER PICKING WITH DISCHARGE MECHANISM
A system and method for consolidating order items into individual or batch orders within an order fulfilment workstation and discharging the order items to a takeaway device, such as a trackable segmented conveyor. The system includes a temporary holding container at the workstation and a discharge mechanism to release or transfer the contents of the temporary container to the takeaway device. The system and method reduce or eliminate the process of an operator replenishing order transport containers to the workstation once a completed order container has dispatched from the workstation. Empty order containers are supplied the workstation via the takeaway device. The empty order container is positioned adjacent the temporary container such that the discharge mechanism may transfer the order items from the temporary container into the empty order container. The discharge mechanism may transfer the order items directly to the surface of the takeaway device.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
G06Q 10/08 - Logistique, p.ex. entreposage, chargement ou distribution; Gestion d’inventaires ou de stocks
82.
GOODS TO PERSON ORDER PICKING WITH DISCHARGE MECHANISM
A system and method for consolidating order items into individual or batch orders within an order fulfilment workstation and discharging the order items to a takeaway device, such as a trackable segmented conveyor. The system includes a temporary holding container at the workstation and a discharge mechanism to release or transfer the contents of the temporary container to the takeaway device. The system and method reduce or eliminate the process of an operator replenishing order transport containers to the workstation once a completed order container has dispatched from the workstation. Empty order containers are supplied the workstation via the takeaway device. The empty order container is positioned adjacent the temporary container such that the discharge mechanism may transfer the order items from the temporary container into the empty order container. The discharge mechanism may transfer the order items directly to the surface of the takeaway device.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
G06Q 10/08 - Logistique, p.ex. entreposage, chargement ou distribution; Gestion d’inventaires ou de stocks
A contactless order dispensing system is provided for dispensing e-commerce orders to customers at a store without a person-to-person interaction. The dispensing system includes a customer access portal for presenting orders to the customer, preferably at an exterior location. A transportation system (e.g. conveyer system) transports orders from a storage buffer system to the customer access portal. The storage buffer holds customer orders until the customer arrives to retrieve them and may store portions of orders at different temperatures. The dispensing system includes a confirmation sensor system to verify whether a customer has retrieved their entire order or whether the customer has rejected one or more of the order items. The dispensing system provides the order to the customer within about two minutes of the customer indicating that they are at the access portal and ready for their order.
G06Q 20/18 - Architectures de paiement impliquant des terminaux en libre-service, des distributeurs automatiques, des bornes ou des terminaux multimédia
G06Q 20/12 - Architectures de paiement spécialement adaptées aux systèmes de commerce électronique
G06Q 20/32 - Architectures, schémas ou protocoles de paiement caractérisés par l'emploi de dispositifs spécifiques utilisant des dispositifs sans fil
G06Q 30/06 - Transactions d’achat, de vente ou de crédit-bail
A contactless order dispensing system is provided for dispensing e-commerce orders to customers at a store without a person-to-person interaction. The dispensing system includes a customer access portal for presenting orders to the customer, preferably at an exterior location. A transportation system (e.g. conveyer system) transports orders from a storage buffer system to the customer access portal. The storage buffer holds customer orders until the customer arrives to retrieve them and may store portions of orders at different temperatures. The dispensing system includes a confirmation sensor system to verify whether a customer has retrieved their entire order or whether the customer has rejected one or more of the order items. The dispensing system provides the order to the customer within about two minutes of the customer indicating that they are at the access portal and ready for their order.
G06Q 20/18 - Architectures de paiement impliquant des terminaux en libre-service, des distributeurs automatiques, des bornes ou des terminaux multimédia
G06Q 20/12 - Architectures de paiement spécialement adaptées aux systèmes de commerce électronique
G06Q 20/32 - Architectures, schémas ou protocoles de paiement caractérisés par l'emploi de dispositifs spécifiques utilisant des dispositifs sans fil
G06Q 30/06 - Transactions d’achat, de vente ou de crédit-bail
A contactless order dispensing system is provided for dispensing e-commerce orders to customers at a store without a person-to-person interaction. The dispensing system includes a customer access portal for presenting orders to the customer, preferably at an exterior location. A transportation system (e.g. conveyer system) transports orders from a storage buffer system to the customer access portal. The storage buffer holds customer orders until the customer arrives to retrieve them and may store portions of orders at different temperatures. The dispensing system includes a confirmation sensor system to verify whether a customer has retrieved their entire order or whether the customer has rejected one or more of the order items. The dispensing system provides the order to the customer within about two minutes of the customer indicating that they are at the access portal and ready for their order.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
Methods and systems are provided for verifying a pick/put operation within an order fulfilment workstation or a storage rack. An optical device observes an operator performing a pick/put operation at the workstation. An indicia is located on the operator such that it is visible to the optical device. Image data of the indicia captured by the optical device is transmitted to a control system of the workstation. The control system determines a relative location of the indicia and then determines the location at which an item was picked from or put to relative to the workstation within a high degree of positional accuracy. The method verifies that the operator has completed the assigned pick/put operation at the required location. The methods and systems may be adapted to track or monitor relative positions of mobile and stationary equipment in an automated warehouse.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
G06Q 10/08 - Logistique, p.ex. entreposage, chargement ou distribution; Gestion d’inventaires ou de stocks
G06K 7/14 - Méthodes ou dispositions pour la lecture de supports d'enregistrement par radiation corpusculaire utilisant la lumière sans sélection des longueurs d'onde, p.ex. lecture de la lumière blanche réfléchie
Methods and systems are provided for verifying a pick/put operation within an order fulfilment workstation or a storage rack. An optical device observes an operator performing a pick/put operation at the workstation. An indicia is located on the operator such that it is visible to the optical device. Image data of the indicia captured by the optical device is transmitted to a control system of the workstation. The control system determines a relative location of the indicia and then determines the location at which an item was picked from or put to relative to the workstation within a high degree of positional accuracy. The method verifies that the operator has completed the assigned pick/put operation at the required location. The methods and systems may be adapted to track or monitor relative positions of mobile and stationary equipment in an automated warehouse.
G06Q 10/087 - Gestion d’inventaires ou de stocks, p.ex. exécution des commandes, approvisionnement ou régularisation par rapport aux commandes
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
B66F 9/06 - Dispositifs pour lever ou descendre des marchandises volumineuses ou lourdes aux fins de chargement ou de déchargement se déplaçant, avec leurs charges, sur des roues ou sur un dispositif analogue, p.ex. chariots élévateurs à fourche
G06K 7/10 - Méthodes ou dispositions pour la lecture de supports d'enregistrement par radiation corpusculaire
Methods and systems are provided for verifying a pick/put operation within an order fulfilment workstation or a storage rack. An optical device observes an operator performing a pick/put operation at the workstation. An indicia is located on the operator such that it is visible to the optical device. Image data of the indicia captured by the optical device is transmitted to a control system of the workstation. The control system determines a relative location of the indicia and then determines the location at which an item was picked from or put to relative to the workstation within a high degree of positional accuracy. The method verifies that the operator has completed the assigned pick/put operation at the required location. The methods and systems may be adapted to track or monitor relative positions of mobile and stationary equipment in an automated warehouse.
G06Q 50/28 - Logistique, p.ex. stockage, chargement, distribution ou expédition
B66F 9/06 - Dispositifs pour lever ou descendre des marchandises volumineuses ou lourdes aux fins de chargement ou de déchargement se déplaçant, avec leurs charges, sur des roues ou sur un dispositif analogue, p.ex. chariots élévateurs à fourche
G06K 7/14 - Méthodes ou dispositions pour la lecture de supports d'enregistrement par radiation corpusculaire utilisant la lumière sans sélection des longueurs d'onde, p.ex. lecture de la lumière blanche réfléchie
89.
TOUCHLESS CONFIRMATION FOR PICK AND PUT SYSTEM AND METHOD
A confirmation system including a touchless sensor and method for confirming that an order fulfilment operation has been performed. The system includes at least one touchless sensor to sense or recognize a gesture given by an operator, wherein the gesture confirms that a desired operation has been performed. The touchless sensor is connected to a workflow control system configured to transmit order fulfilment information to and from the touchless sensor. The touchless sensor is configurable to recognize a plurality of gestures, and may be configured to recognize those gestures at a plurality of distances away from the touchless sensor. The touchless system is configurable to provide alerts to operators to indicate locations requiring action. The confirmation system may be provided with a cubby or bin order fulfilment system. Additional features include placement or retrieval sensors, cubby illumination lights, pick-to and put-to lights, and information scanners.
A system and method is provided for controlling an automated warehouse or order fulfillment facility. The system includes a sequencing tower, which functions as a buffer for inbound items and shipping containers, and various pick/decant workstations which are connected between the sequencing tower and an automated storage and retrieval system (ASRS). The sequencing tower is adapted for receiving, storing, and releasing newly erected shipping containers and inbound vendor cases. The pick/decant workstations function as a hub between the sequencing tower and the ASRS, where operators at the pick/decant workstations pick order items to shipping containers to fulfil orders or pick inbound/vendor items to inventory containers to be stored in the ASRS. The system and methods synchronize the sequencing tower and ASRS to release items to arrive at the workstations simultaneously to optimize efficiency and throughput of the facility.
G06Q 10/08 - Logistique, p.ex. entreposage, chargement ou distribution; Gestion d’inventaires ou de stocks
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
A system and method is provided for controlling an automated warehouse or order fulfillment facility. The system includes a sequencing tower, which functions as a buffer for inbound items and shipping containers, and various pick/decant workstations which are connected between the sequencing tower and an automated storage and retrieval system (ASRS). The sequencing tower is adapted for receiving, storing, and releasing newly erected shipping containers and inbound vendor cases. The pick/decant workstations function as a hub between the sequencing tower and the ASRS, where operators at the pick/decant workstations pick order items to shipping containers to fulfil orders or pick inbound/vendor items to inventory containers to be stored in the ASRS. The system and methods synchronize the sequencing tower and ASRS to release items to arrive at the workstations simultaneously to optimize efficiency and throughput of the facility.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
A system and method is provided for controlling an automated warehouse or order fulfillment facility. The system includes a sequencing tower, which functions as a buffer for inbound items and shipping containers, and various pick/decant workstations which are connected between the sequencing tower and an automated storage and retrieval system (ASRS). The sequencing tower is adapted for receiving, storing, and releasing newly erected shipping containers and inbound vendor cases. The pick/decant workstations function as a hub between the sequencing tower and the ASRS, where operators at the pick/decant workstations pick order items to shipping containers to fulfil orders or pick inbound/vendor items to inventory containers to be stored in the ASRS. The system and methods synchronize the sequencing tower and ASRS to release items to arrive at the workstations simultaneously to optimize efficiency and throughput of the facility.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
93.
METHOD AND APPARATUS FOR REMOVING AN ARTICLE FROM A TRAY
A de-traying method and apparatus for removing articles from trays, is useful with a plurality of trays. The article is detrayed at the detraying assembly by elevating the moveable bottom of the tray at least to the level of the tray rim with an article lifter from below the tray. The article lifter includes a lifting base and a plurality of lifting blocks fixed to the lifting base. The lifting blocks are sized and arranged to engage the tray bottom through the opening in response to the lifting base being elevated. The lifting blocks are sized and arranged to maintain orientation of the tray with at least one of said blocks positioned outside of the tray adjacent the rim. The article is displaced off of the elevated tray bottom.
B65G 47/52 - Dispositifs pour transférer objets ou matériaux entre transporteurs, p.ex. pour décharger ou alimenter
B65G 47/22 - Dispositifs pour influencer la position relative ou l'orientation des objets pendant le transport par transporteurs
B65G 47/24 - Dispositifs pour influencer la position relative ou l'orientation des objets pendant le transport par transporteurs présentant les objets selon un orientement donné
B65G 47/34 - Dispositifs pour décharger les objets ou matériaux des transporteurs
B65G 47/38 - Dispositifs pour décharger les objets ou matériaux des transporteurs en basculant, renversant ou dégageant les porte-charges
B65G 47/40 - Dispositifs pour décharger les objets ou matériaux des transporteurs en basculant, renversant ou dégageant les porte-charges en basculant les godets de transporteurs
94.
METHOD AND APPARATUS FOR REMOVING AN ARTICLE FROM A TRAY
A de-traying method and apparatus for removing articles from trays, is useful with a plurality of trays. The article is detrayed at the detraying assembly by elevating the moveable bottom of the tray at least to the level of the tray rim with an article lifter from below the tray. The article lifter includes a lifting base and a plurality of lifting blocks fixed to the lifting base. The lifting blocks are sized and arranged to engage the tray bottom through the opening in response to the lifting base being elevated. The lifting blocks are sized and arranged to maintain orientation of the tray with at least one of said blocks positioned outside of the tray adjacent the rim. The article is displaced off of the elevated tray bottom.
B65G 47/52 - Dispositifs pour transférer objets ou matériaux entre transporteurs, p.ex. pour décharger ou alimenter
B65G 47/22 - Dispositifs pour influencer la position relative ou l'orientation des objets pendant le transport par transporteurs
B65G 47/24 - Dispositifs pour influencer la position relative ou l'orientation des objets pendant le transport par transporteurs présentant les objets selon un orientement donné
B65G 47/34 - Dispositifs pour décharger les objets ou matériaux des transporteurs
B65G 47/38 - Dispositifs pour décharger les objets ou matériaux des transporteurs en basculant, renversant ou dégageant les porte-charges
B65G 47/40 - Dispositifs pour décharger les objets ou matériaux des transporteurs en basculant, renversant ou dégageant les porte-charges en basculant les godets de transporteurs
95.
Method and apparatus for removing an article from a tray
A de-traying method and apparatus for removing articles from trays, each of the trays having a base, a rim around the base and an opening in said base and a bottom covering said opening and liftable from said base. A tray supporting an article is transported to a detraying assembly where the article is detrayed by elevating the bottom at least to the level of the tray rim with an article lifter having a lifting base and a plurality of lifting blocks. The lifting blocks are sized and arranged to engage the tray bottom through the opening in response to the lifting base being elevated, and to maintain orientation of the tray with at least one of said blocks positioned outside of the tray adjacent the rim. The article is displaced off of the elevated tray bottom.
An automated storage and retrieval system and method of storing articles to and retrieving articles from at least one stacked storage rack that is configured to store articles double deep in each storage location with one article at a front position and another article at a back position behind the one article includes a robot having an end of arm tool (EOAT). The EOAT has a platform and an extendable article manipulator. The platform is sized to support at least two articles. The robotic arm selectively positions the end of arm tool to retrieve articles from front and back storage positions of said at least one stacked storage rack and storing at least one of the articles from the platform to a front or back storage position after the robot rotates the EOAT about a generally vertical axis.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
B25J 5/02 - Manipulateurs montés sur roues ou sur support mobile se déplaçant le long d'un chemin de guidage
An automated storage and retrieval system and method of storing articles to and retrieving articles from at least one stacked storage rack that is configured to store articles double deep in each storage location with one article at a front position and another article at a back position behind the one article includes a robot having an end of arm tool (EOAT). The EOAT has a platform and an extendable article manipulator. The platform is sized to support at least two articles. The robotic arm selectively positions the end of arm tool to retrieve articles from front and back storage positions of said at least one stacked storage rack and storing at least one of the articles from the platform to a front or back storage position after the robot rotates the EOAT about a generally vertical axis.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
An automated storage and retrieval system and method of storing articles to and retrieving articles from at least one stacked storage rack that is configured to store articles double deep in each storage location with one article at a front position and another article at a back position behind the one article includes a robot having an end of arm tool (EOAT). The EOAT has a platform and an extendable article manipulator. The platform is sized to support at least two articles. The robotic arm selectively positions the end of arm tool to retrieve articles from front and back storage positions of said at least one stacked storage rack and storing at least one of the articles from the platform to a front or back storage position after the robot rotates the EOAT about a generally vertical axis.
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
99.
METHOD, CONTAINER, AND TRANSPORT VEHICLE FOR PREPARATION AND TRANSPORTATION OF SHIPMENTS OF GOODS
A method, a palletizing sleeve, and a hand truck are provided for preparing a plurality of shipments of goods and transporting each shipment to one of a plurality of delivery destinations. The method includes determining the goods for the shipment, virtually building an optimized stacking configuration of those goods, physically building the stack based on the optimized configuration, transporting the shipment to a pre-determined delivery destination, and unloading the shipment at the delivery destination. The palletizing sleeve includes a base and a vertical wall that cooperate to support and stabilize a stack of goods that make up a portion of the shipment. Standoffs on the sleeve base provide openings to accept forks from the hand truck so that the hand truck can engage the sleeve from underneath the base. A fork height adjustment system selectively adjusts the fork height relative to the bottom of the hand truck.
A method, a palletizing sleeve, and a hand truck are provided for preparing a plurality of shipments of goods and transporting each shipment to one of a plurality of delivery destinations. The method includes determining the goods for the shipment, virtually building an optimized stacking configuration of those goods, physically building the stack based on the optimized configuration, transporting the shipment to a pre-determined delivery destination, and unloading the shipment at the delivery destination. The palletizing sleeve includes a base and a vertical wall that cooperate to support and stabilize a stack of goods that make up a portion of the shipment. Standoffs on the sleeve base provide openings to accept forks from the hand truck so that the hand truck can engage the sleeve from underneath the base. A fork height adjustment system selectively adjusts the fork height relative to the bottom of the hand truck.
G06Q 10/08 - Logistique, p.ex. entreposage, chargement ou distribution; Gestion d’inventaires ou de stocks
G06Q 10/0835 - Relations entre l’expéditeur ou le fournisseur et les transporteurs
B65G 61/00 - Utilisation d'appareils de prise ou de transfert, ou de manipulateurs, pour empiler ou désempiler des objets, non prévus ailleurs
G06Q 10/0875 - Gestion d’inventaires ou de stocks, p.ex. exécution des commandes, approvisionnement ou régularisation par rapport aux commandes Énumération ou classification des pièces, des fournitures ou des services, p.ex. nomenclatures
B62B 1/14 - Voitures à bras ayant uniquement un essieu portant une ou plusieurs roues servant au déplacement; Appareillage à cet effet dans lesquelles la charge est prévue pour reposer totalement sur les roues comportant des moyens pour accrocher ou saisir en place les objets à transporter; Appareillage pour le chargement ou le déchargement
B07C 1/18 - Redressage des objets autrement que dans un courant
