A transition for connecting a discharge end of a conveyor to an inlet end of a grain storage bin or grain dryer is disclosed. The transition includes an upper half configured to be attached to the discharge end of the conveyor, a lower half configured to be attached to the inlet end of the grain storage bin or grain dryer, and a pivot joint connecting the upper and lower halves to one another while allowing the upper and lower halves to pivot relative to one another to accommodate an angle at which the conveyor is inclined.
A transition for connecting a discharge end of a conveyor to an inlet end of a grain storage bin or grain dryer is disclosed. The transition includes an upper half configured to be attached to the discharge end of the conveyor, a lower half configured to be attached to the inlet end of the grain storage bin or grain dryer, and a pivot joint connecting the upper and lower halves to one another while allowing the upper and lower halves to pivot relative to one another to accommodate an angle at which the conveyor is inclined.
The invention comprises systems and methods for controlling environmental conditions within and/or around an animal enclosure. The systems and methods preferably comprise a climate control system and infrared sensors in a poultry house having a first climate and housing poultry having one or more measurable parameters such a temperature. The infrared sensors detect infrared light information emitted by a head and/or vent of poultry in the house. The climate control system processes the information to calculate an internal temperature of poultry and activates one or more climate conditioning devices in the house to change the first climate to a second climate determined by the detected information and/or calculated internal temperatures of the poultry. The systems and methods may be deployed in houses comprising thousands of poultry and one or more climate zones. The systems and methods may make one or more climate changes based on one or more different parameters.
09 - Appareils et instruments scientifiques et électriques
Produits et services
Electronic sensors located within or around an animal
enclosure for measuring internal temperature readings of
poultry and making environmental adjustments within or
around an animal enclosure to optimize bird comfort, not
including electronic sensors to prevent an overfill of fuels
and liquids stored in tanks and vehicles.
A mixed flow grain dryer (10) according to the present disclosure includes a plenum (18), a blower (20) operable to force outside air into the plenum (18), a heater (22) operable to heat air flowing from the blower (20) to the plenum (18), at least one column (16), and a conveyor (24). The at least one column (16) is configured to receive heated air from the plenum (18) such that the heated air dries grain flowing through the at least one column (16). The at least one column (16) is configured to change a flow direction of the heated air. The conveyor (24) is configured to meter a discharge of grain from the at least one column (16).
F26B 17/14 - Machines ou appareils à mouvement progressif pour le séchage d'un matériau en vrac, à l'état plastique ou sous forme fluidisée, p. ex. granulés, fibres brutes le mouvement étant réalisé uniquement par gravité le matériau se déplaçant à travers un contre-courant de gaz
A mixed flow grain dryer according to the present disclosure includes a plenum, a blower operable to force outside air into the plenum, a heater operable to heat air flowing from the blower to the plenum, at least one column, and a conveyor. The at least one column is configured to receive heated air from the plenum such that the heated air dries grain flowing through the at least one column. The at least one column is configured to change a flow direction of the heated air. The conveyor is configured to meter a discharge of grain from the at least one column.
F26B 17/12 - Machines ou appareils à mouvement progressif pour le séchage d'un matériau en vrac, à l'état plastique ou sous forme fluidisée, p. ex. granulés, fibres brutes le mouvement étant réalisé uniquement par gravité
F26B 17/14 - Machines ou appareils à mouvement progressif pour le séchage d'un matériau en vrac, à l'état plastique ou sous forme fluidisée, p. ex. granulés, fibres brutes le mouvement étant réalisé uniquement par gravité le matériau se déplaçant à travers un contre-courant de gaz
F26B 25/00 - Parties constitutives d'application générale non couvertes par un des groupes ou
09 - Appareils et instruments scientifiques et électriques
Produits et services
Electronic controllers used in livestock or dairy houses to
control and regulate feed storage, conveying, feeding,
watering, heating and ventilating equipment.
A method of positioning a grain bin unload conveyor auger within a grain bin unload conveyor trough includes positioning an auger hanger on a pair of hanger support shelves at an open exterior end of the grain bin unload conveyor trough to support the grain bin unload conveyor auger away from adjacent interior surfaces of the grain bin unload conveyor trough, and pushing the grain bin unload conveyor auger through the open exterior end of the grain bin unload conveyor trough to cause the auger hanger to continuously support the grain bin unload conveyor auger away from the interior surfaces of the grain bin unload conveyor trough as the auger hanger moves longitudinally along the pair of hanger support shelves from the open exterior end to a final operational position of the auger hanger between the open exterior end and an interior end of the grain bin unload conveyor trough.
B65G 33/14 - Transporteurs rotatifs à vis ou à hélice pour matériaux solides fluents comportant une vis ou plusieurs vis enfermées dans un carter tubulaire
Systems and equipment capable of being linked to downloadable computer software for use in connection with food processing and grain storage and processing systems
09 - Appareils et instruments scientifiques et électriques
Produits et services
(1) Electronic sensors located within or around an animal enclosure for measuring internal temperature readings of poultry and making environmental adjustments within or around an animal enclosure to optimize bird comfort, not including electronic sensors to prevent an overfill of fuels and liquids stored in tanks and vehicles.
09 - Appareils et instruments scientifiques et électriques
Produits et services
(1) Electronic controllers used in livestock or dairy houses to control and regulate feed storage, conveying, feeding, watering, heating and ventilating equipment.
09 - Appareils et instruments scientifiques et électriques
Produits et services
(1) Electronic controllers used in swine houses to control and regulate feed storage, conveying, feeding, watering and heating and ventilating equipment.
09 - Appareils et instruments scientifiques et électriques
Produits et services
Electronic controllers used in livestock or dairy houses to control and regulate feed storage, conveying, feeding, watering, heating and ventilating equipment
Wholesale ordering services and distributorship services in the field of commercial, industrial and agricultural storage facilities for granular materials, conveyors for granular materials and grain aeration, drying and conditioning equipment
Wholesale ordering services in the fields of livestock
equipment featuring hog production equipment, namely, metal
and non-metal feed storage bins, feeders, feed deliverers,
heating and ventilation systems, electronic controllers;
retail store services featuring hog production equipment,
namely, metal and non-metal feed storage bins, feeders, feed
deliverers, heating and ventilation systems, controllers;
and distributorship services in the field of hog production
equipment, namely, metal and non-metal feed storage bins,
feeders, feed deliverers, heating and ventilation systems,
controllers.
09 - Appareils et instruments scientifiques et électriques
Produits et services
Electronic sensors located within or around an animal enclosure for measuring internal temperature readings of poultry and making environmental adjustments within or around an animal enclosure to optimize bird comfort; the foregoing goods not including electronic sensors to prevent an overfill of fuels and liquids stored in tanks and vehicles
The present disclosure describes an apparatus, system, and method for trapping and exterminating arthropods, particularly red mites. The apparatus includes an opaque housing and a heat strip configured to have separate temperature zones. The method includes warming the heat strip to lure the mites into the trap, heating outer heat strip segments to drive the mites toward the center of the trap, and then raising the entire heat strip to a temperature sufficient to exterminate the mites. The system includes placing one or more of the traps in animal hold structures, including nesting boxes in poultry houses.
Wholesale ordering services in the field of livestock equipment featuring hog production equipment being metal and non-metal feed storage bins, feeders, feed deliverers, and heating and ventilation systems; distributorship services in the field of hog production equipment being metal and non-metal feed storage bins, feeders, feed deliverers, and heating and ventilation systems
bearings, as parts of machines; belts for machines; rope sheaves being parts of machines; bushings for use as parts of machines; roller chains being parts of machines; cam sprockets; mounted units being engine mounts, other than for land vehicles; conveyor components, namely, conveyor belts; gears for machines; couplers being couplings for machines; Shaft couplings; rod ends being connecting rods for machines, motors and engines; electric motors for machines
bearings, as parts of machines; belts for machines; rope sheaves being parts of machines; bushings for use as parts of machines; roller chains being parts of machines; cam sprockets; mounted units being engine mounts, other than for land vehicles; conveyor components, namely, conveyor belts; gears for machines; couplers being couplings for machines; Shaft couplings; rod ends being connecting rods for machines, motors and engines; electric motors for machines
Wholesale ordering services and distributorship services in
the field of commercial, industrial and agricultural storage
facilities for granular materials, conveyors for granular
materials and grain aeration, drying and conditioning
equipment.
Wholesale ordering services and distributorship services in
the field of commercial, industrial and agricultural storage
facilities for granular materials, conveyors for granular
materials and grain aeration, drying and conditioning
equipment.
A gestation stall gate assembly includes a gate support, a gate pivotably coupled to the gate support, and a gate control assembly. The gate is pivotable between an inwardly open position, a closed position, and an outwardly open position. The gate control assembly is configured to (i) allow the gate to pivot from the closed position to the inwardly open position when a sow pushes against the gate to pivot the gate toward the inwardly open position, (ii) prevent the gate from pivoting from the closed position to the inwardly open position for a second time until the gate is pivoted from the closed position to the outwardly open position, and (iii) allow the gate to pivot from the closed position to the outwardly open position when the sow pushes against the gate to pivot the gate toward the outwardly open position.
A gestation stall gate assembly includes a gate support, a gate pivotably coupled to the gate support, and a gate control assembly. The gate is pivotable between an inwardly open position, a closed position, and an outwardly open position. The gate control assembly is configured to (i) allow the gate to pivot from the closed position to the inwardly open position when a sow pushes against the gate to pivot the gate toward the inwardly open position, (ii) prevent the gate from pivoting from the closed position to the inwardly open position for a second time until the gate is pivoted from the closed position to the outwardly open position, and (iii) allow the gate to pivot from the closed position to the outwardly open position when the sow pushes against the gate to pivot the gate toward the outwardly open position.
A gestation stall gate assembly includes a gate support, a gate pivotably coupled to the gate support, and a gate control assembly. The gate is pivotable between an inwardly open position, a closed position, and an outwardly open position. The gate control assembly is configured to (i) allow the gate to pivot from the closed position to the inwardly open position when a sow pushes against the gate to pivot the gate toward the inwardly open position, (ii) prevent the gate from pivoting from the closed position to the inwardly open position for a second time until the gate is pivoted from the closed position to the outwardly open position, and (iii) allow the gate to pivot from the closed position to the outwardly open position when the sow pushes against the gate to pivot the gate toward the outwardly open position.
(1) Wholesale ordering services and distributorship services in the field of commercial, industrial and agricultural storage facilities for granular materials, conveyors for granular materials and grain aeration, drying and conditioning equipment.
(1) Wholesale ordering services and distributorship services in the field of commercial, industrial and agricultural storage facilities for granular materials, conveyors for granular materials and grain aeration, drying and conditioning equipment.
Wholesale ordering services and distributorship services in the field of commercial, industrial and agricultural storage facilities for granular materials, conveyors for granular materials and grain aeration, drying and conditioning equipment
Wholesale ordering services and distributorship services in the field of commercial, industrial and agricultural storage facilities for granular materials, conveyors for granular materials and grain aeration, drying and conditioning equipment
65.
GRAIN DRYER OUTPUT CAPACITIVE MOISTURE SENSING ASSEMBLY AND RELATED METHODS
A main discharge channel can carry a main portion of the grain output from a grain dryer during operation of the grain dryer. A sensor channel positioned adjacent the main discharge channel can carry a sensed portion of the grain output from the grain dryer during operation of the grain dryer. A grain moisture sensor can include a pair of capacitive plates positioned on opposite sides of the sensor channel with opposing major surfaces of the pair of capacitive plates facing each other. A moisture sensing electric field can be generated between a main sub-plate of a plurality of sub-plates of each of a pair of capacitive plates positioned on opposite sides of a sensor channel with opposing major surfaces of the pair of capacitive plates facing each other. At least one additional electric field can be generated between the plurality of sub-plates of the pair of capacitive plates.
G01N 27/22 - Recherche ou analyse des matériaux par l'emploi de moyens électriques, électrochimiques ou magnétiques en recherchant l'impédance en recherchant la capacité
66.
Grain Dryer Output Capacitive Moisture Sensing Assembly And Related Methods
A main discharge channel can carry a main portion of the grain output from a grain dryer during operation of the grain dryer. A sensor channel positioned adjacent the main discharge channel can carry a sensed portion of the grain output from the grain dryer during operation of the grain dryer. A grain moisture sensor can include a pair of capacitive plates positioned on opposite sides of the sensor channel with opposing major surfaces of the pair of capacitive plates facing each other. A moisture sensing electric field can be generated between a main sub-plate of a plurality of sub-plates of each of a pair of capacitive plates positioned on opposite sides of a sensor channel with opposing major surfaces of the pair of capacitive plates facing each other. At least one additional electric field can be generated between the plurality of sub-plates of the pair of capacitive plates.
F26B 25/22 - Commande du procédé de séchage en corrélation avec la présence d'un matériau solide ou d'objets dans le bain liquide
G01N 27/04 - Recherche ou analyse des matériaux par l'emploi de moyens électriques, électrochimiques ou magnétiques en recherchant l'impédance en recherchant la résistance
67.
GRAIN DRYER OUTPUT CAPACITIVE MOISTURE SENSING ASSEMBLY AND RELATED METHODS
A main discharge channel can carry a main portion of the grain output from a grain dryer during operation of the grain dryer. A sensor channel positioned adjacent the main discharge channel can carry a sensed portion of the grain output from the grain dryer during operation of the grain dryer. A grain moisture sensor can include a pair of capacitive plates positioned on opposite sides of the sensor channel with opposing major surfaces of the pair of capacitive plates facing each other. A moisture sensing electric field can be generated between a main sub-plate of a plurality of sub- plates of each of a pair of capacitive plates positioned on opposite sides of a sensor channel with opposing major surfaces of the pair of capacitive plates facing each other. At least one additional electric field can be generated between the plurality of sub-plates of the pair of capacitive plates.
The invention comprises systems and methods for controlling environmental conditions within and/ or around an animal enclosure. The systems and methods preferably comprise a climate control system and infrared sensors in a poultry house having a first climate and housing poultry having one or more measurable parameters such a temperature. The infrared sensors detect infrared light information emitted by a head and/ or vent of poultry in the house. The climate control system processes the information to calculate an internal temperature of poultry and activates one or more climate conditioning devices in the house to change the first climate to a second climate determined by the detected information and/or calculated internal temperatures of the poultry. The systems and methods may be deployed in houses comprising thousands of poultry and one or more climate zones. The systems and methods may make one or more climate changes based on one or more different parameters.
F24F 11/70 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes
A01K 1/02 - PorcheriesNichesClapiers à lapins ou similaires
A61B 5/02 - Détection, mesure ou enregistrement en vue de l'évaluation du système cardio-vasculaire, p. ex. mesure du pouls, du rythme cardiaque, de la pression sanguine ou du débit sanguin
A61B 5/1455 - Mesure des caractéristiques du sang in vivo, p. ex. de la concentration des gaz dans le sang ou de la valeur du pH du sang en utilisant des capteurs optiques, p. ex. des oxymètres à photométrie spectrale
70.
DEVICES AND METHODS FOR MANAGING ANIMALS IN AN ENCLOSURE
The invention comprises systems and methods for controlling environmental conditions within and/ or around an animal enclosure. The systems and methods preferably comprise a climate control system and infrared sensors in a poultry house having a first climate and housing poultry having one or more measurable parameters such a temperature. The infrared sensors detect infrared light information emitted by a head and/ or vent of poultry in the house. The climate control system processes the information to calculate an internal temperature of poultry and activates one or more climate conditioning devices in the house to change the first climate to a second climate determined by the detected information and/or calculated internal temperatures of the poultry. The systems and methods may be deployed in houses comprising thousands of poultry and one or more climate zones. The systems and methods may make one or more climate changes based on one or more different parameters.
A61B 5/1455 - Mesure des caractéristiques du sang in vivo, p. ex. de la concentration des gaz dans le sang ou de la valeur du pH du sang en utilisant des capteurs optiques, p. ex. des oxymètres à photométrie spectrale
A01K 1/02 - PorcheriesNichesClapiers à lapins ou similaires
A61B 5/02 - Détection, mesure ou enregistrement en vue de l'évaluation du système cardio-vasculaire, p. ex. mesure du pouls, du rythme cardiaque, de la pression sanguine ou du débit sanguin
F24F 11/70 - Systèmes de commande caractérisés par leurs grandeurs de sortieDétails de construction de tels systèmes
71.
Devices and methods for managing animals in an enclosure
The invention comprises systems and methods for controlling environmental conditions within and/or around an animal enclosure. The systems and methods preferably comprise a climate control system and infrared sensors in a poultry house having a first climate and housing poultry having one or more measurable parameters such a temperature. The infrared sensors detect infrared light information emitted by a head and/or vent of poultry in the house. The climate control system processes the information to calculate an internal temperature of poultry and activates one or more climate conditioning devices in the house to change the first climate to a second climate determined by the detected information and/or calculated internal temperatures of the poultry. The systems and methods may be deployed in houses comprising thousands of poultry and one or more climate zones. The systems and methods may make one or more climate changes based on one or more different parameters.
The invention is a system and method for controlled distribution of livestock feed to a plurality feeders along a feed line in a livestock enclosure. In a preferred embodiment, the feed is conveyed in predetermined quantities from a receptacle through the feed line to the feeders connected to the feed line. The feeders preferably comprise a portion configured to receive a measured quantity of feed from an orifice in the feed line and allow the flow of feed through the feeder, a pan, and a damper member housed by the feeder and configured to controllably block the flow of feed through the feeder into the pan. The respective damper members of the feeders are preferably controlled by an actuation mechanism that, when actuated, simultaneously moves the damper members from the feed flow blocking position in the feeders to an open position, thereby allowing feed to flow into all respective pans of the plurality of feeders along the feed line simultaneously.
The present disclosure describes an apparatus, system, and method for trapping and exterminating arthropods, particularly red mites. The apparatus includes an opaque housing and a heat strip configured to have separate temperature zones. The method includes warming the heat strip to lure the mites into the trap, heating outer heat strip segments to drive the mites toward the center of the trap, and then raising the entire heat strip to a temperature sufficient to exterminate the mites. The system includes placing one or more of the traps in animal hold structures, including nesting boxes in poultry houses.
The present disclosure describes an apparatus, system, and method for trapping and exterminating arthropods, particularly red mites. The apparatus includes an opaque housing and a heat strip configured to have separate temperature zones. The method includes warming the heat strip to lure the mites into the trap, heating outer heat strip segments to drive the mites toward the center of the trap, and then raising the entire heat strip to a temperature sufficient to exterminate the mites. The system includes placing one or more of the traps in animal hold structures, including nesting boxes in poultry houses.
A lock-out pinion (46) can be coupled to a center sump control shaft (22) to rotate therewith. A lock-out slide (92) can include a rack (38) and a blocking cover (40). A lock-out guide (90, 92) can be coupled to the sump control housing (72) and can form a guide channel (88). The lock-out slide (92) can be received in the guide channel (88) with the lock-out pinion (46) drivingly coupled to the rack (38) to move the lock-out slide (92) along the guide channel (88) from a lock-out position in which the blocking cover (40) prevents rotation of the intermediate sump control shaft (30) with the driving handle (42), to an unlocked position in which the blocking cover (40) permits rotation of the intermediate sump control shaft (30) with the driving handle (42), in response to manual rotation of the center sump control shaft (22) in the center sump (26, 28) opening direction.
F16H 19/04 - Transmissions comportant essentiellement et uniquement des engrenages ou des organes de friction et qui ne peuvent transmettre un mouvement rotatif indéfini pour convertir un mouvement rotatif en mouvement alternatif et vice versa comportant une crémaillère et pignon
A lock-out pinion can be coupled to a center sump control shaft to rotate therewith. A lock-out slide can include a rack and a blocking cover. A lock-out guide can be coupled to the sump control housing and can form a guide channel. The lock-out slide can be received in the guide channel with the lock-out pinion drivingly coupled to the rack to move the lock-out slide along the guide channel from a lock-out position in which the blocking cover prevents rotation of the intermediate sump control shaft with the driving handle, to an unlocked position in which the blocking cover permits rotation of the intermediate sump control shaft with the driving handle, in response to manual rotation of the center sump control shaft in the center sump opening direction.
H01H 9/28 - Mécanismes d'interverrouillage, verrouillage ou accrochage pour verrouiller des pièces de l'interrupteur par une clé ou un élément équivalent amovible
B65G 65/46 - Dispositifs pour vider autrement que par le haut utilisant des transporteurs à vis
ABSTRACT A lock-out pinion can be coupled to a center sump control shaft to rotate therewith. A lock-out slide can include a rack and a blocking cover. A lock- out guide can be coupled to the sump control housing and can form a guide channel. The lock-out slide can be received in the guide channel with the lock-out pinion drivingly coupled to the rack to move the lock-out slide along the guide channel from a lock-out position in which the blocking cover prevents rotation of the intermediate sump control shaft with the driving handle, to an unlocked position in which the blocking cover permits rotation of the intermediate sump control shaft with the driving handle, in response to manual rotation of the center sump control shaft in the center sump opening direction. Date Recue/Date Received 2021-01-12
09 - Appareils et instruments scientifiques et électriques
Produits et services
Electronic controllers used in poultry and swine houses to regulate feeding, watering, lighting, nesting and ventilating equipment; Downloadable computer software for monitoring and operating electronic controllers used in poultry and swine houses
82.
GRAIN BIN UNLOAD TROUGH CONVEYOR AUGER HANGER ASSEMBLY
A grain bin unload conveyor trough (30) has a wall profile including a lowermost curved wall portion (44). Lower portions (38) of a pair of side walls are spaced laterally from each other at a first interior lateral width, and upper portions (40) of the side walls are spaced laterally from each other at a second interior lateral width that is greater than the first interior lateral width. A shelf portion (42) of each side wall extends laterally outwardly from the lower (38) to the upper (40) portion of the side walls. An auger hanger (46) extends laterally across the conveyor trough (30) and is supported on the shelf portions (42) of the side walls. The auger hanger extends down to hold an auger shaft (56) of a grain bin unload conveyor auger (62) in the conveyor trough (30) centrally within the first interior lateral width between the lower portions of the side walls.
H8325985CA ABSTRACT A grain bin unload conveyor trough can have a wall profile including a lowermost curved wall portion. Lower portions of a pair of side walls can be spaced laterally from each other at a first interior lateral width, and upper portions of the side walls can be spaced laterally from each other at a second interior lateral width that is greater than the first interior lateral width. A shelf portion of each side wall can extend laterally outwardly from the lower to the upper portion of the side walls. An auger hanger can extend laterally across the conveyor trough and can be supported on the shelf portions of the side walls. The auger hanger can extend down to hold an auger shaft of a grain bin unload conveyor auger in the conveyor trough centrally within the first interior lateral width between the lower portions of the side walls. Date Recue/Date Received 2020-09-24
A grain bin unload conveyor trough can have a wall profile including a lowermost curved wall portion. Lower portions of a pair of side walls can be spaced laterally from each other at a first interior lateral width, and upper portions of the side walls can be spaced laterally from each other at a second interior lateral width that is greater than the first interior lateral width. A shelf portion of each side wall can extend laterally outwardly from the lower to the upper portion of the side walls. An auger hanger can extend laterally across the conveyor trough and can be supported on the shelf portions of the side walls. The auger hanger can extend down to hold an auger shaft of a grain bin unload conveyor auger in the conveyor trough centrally within the first interior lateral width between the lower portions of the side walls.
B65G 33/14 - Transporteurs rotatifs à vis ou à hélice pour matériaux solides fluents comportant une vis ou plusieurs vis enfermées dans un carter tubulaire
F16C 17/02 - Paliers à contact lisse pour mouvement de rotation exclusivement pour charges radiales uniquement
F16C 35/02 - Supports rigides de paliersCorps de paliers, p. ex. calottes, couvercles dans le cas de paliers à contact lisse
A commercial hopper grain bin shell can be assembled on a concrete pad using jacks to successively support previously coupled side-wall panel rings above the concrete pad. The assembled shell can be supported above the concrete pad with the jacks while coupling a horizontal support beam around a bottom of the assembled commercial hopper grain bin shell. An uppermost ring of vertical support legs can be coupled to the horizontal support beam. An uppermost ring of hopper panels can be coupled to the horizontal support beam. The assembled shell and the vertical support legs previously coupled to the horizontal support beam can be successively supported above the concrete pad with jacks while coupling an additional ring of vertical support legs to the bottom of the previously coupled vertical support legs. An additional ring of hopper panels can be successively coupled to the bottom of the previously coupled hopper panels.
E04H 7/22 - Réservoirs pour solides fluents, p. ex. silos ou trémiesLeurs supports
E04B 1/35 - Méthodes de construction particulières, p. ex. levage de planchers coulés au sol, vérins
B65G 3/04 - Emmagasinage de matériaux en vrac ou d'objets en vrac, c.-à-d. en désordre dans des réservoirs, des trémies ou dans de grands réceptacles de ce genre
A commercial hopper grain bin shell can be assembled on a concrete pad using jacks to successively support previously coupled side-wall panel rings above the concrete pad. The assembled shell can be supported above the concrete pad with the jacks while coupling a horizontal support beam around a bottom of the assembled commercial hopper grain bin shell. An uppermost ring of vertical support legs can be coupled to the horizontal support beam. An uppermost ring of hopper panels can be coupled to the horizontal support beam. The assembled shell and the vertical support legs previously coupled to the horizontal support beam can be successively supported above the concrete pad with jacks while coupling an additional ring of vertical support legs to the bottom of the previously coupled vertical support legs. An additional ring of hopper panels can be successively coupled to the bottom of the previously coupled hopper panels.
A commercial hopper grain bin shell can be assembled on a concrete pad using jacks to successively support previously coupled side-wall panel rings above the concrete pad. The assembled shell can be supported above the concrete pad with the jacks while coupling a horizontal support beam around a bottom of the assembled commercial hopper grain bin shell. An uppermost ring of vertical support legs can be coupled to the horizontal support beam. An uppermost ring of hopper panels can be coupled to the horizontal support beam. The assembled shell and the vertical support legs previously coupled to the horizontal support beam can be successively supported above the concrete pad with jacks while coupling an additional ring of vertical support legs to the bottom of the previously coupled vertical support legs. An additional ring of hopper panels can be successively coupled to the bottom of the previously coupled hopper panels,
An unload conveyor and a sweep conveyor can be positioned below and above a floor of the grain bin, respectively. A below floor gearbox and an above floor gearbox can be positioned below and above a sloped wall, respectively, of a sump. The sloped wall can be designed to shed grain toward a sump basin. A coupling shaft can extend through a non-circular sump shaft aperture in the sloped wall to couple the below floor gearbox to the above-floor gearbox. The coupling shaft can extend vertically. A pair of seal cover plates can form a horizontal wall extending perpendicular to the coupling shaft. The horizontal wall can have a circular sealing aperture therein and through which the coupling shaft extends. A washer can be provided adjacent the circular sealing aperture that can be free to move laterally with wobbling of the coupling shaft.
An auger can be drivingly coupled to an input shaft of a wheel reduction gearbox. The wheel reduction gearbox can drivingly couple the input shaft to an output shaft of the wheel reduction gearbox. The output shaft can be drivingly coupled to a sweep end wheel. The sweep end wheel can include a plurality of tread brackets, a wheel plate, and an adjustable coupling corresponding to each of the tread brackets. Each adjustable coupling can selectively couple one of the tread brackets to the wheel plate in one of a plurality of radial positions. Each of the plurality of radial positions can correspond to the tread bracket being located at a different radial distance from a central axis of rotation of the wheel plate.
A gearbox below a grain bin floor can have a shift coupling movable between a drive position and a neutral position. A control rod can be axially movable between a corresponding drive position and a corresponding neutral position. A pair of biasing members can be operably positioned between the control rod and the shift coupling to bias the shift coupling in opposite directions. The opposite biasing forces of the biasing members can act against each other to bias the control rod into the neutral positioning recess to retain the external shift coupling and the control rod in the neutral position and the corresponding neutral position, respectively. The opposite biasing force of the biasing members can bias the control rod into the drive positioning recess to retain the external shift coupling and the control rod in the drive position and the corresponding drive position, respectively.
B65G 33/34 - Utilisation des mécanismes d'entraînement
G05G 1/04 - Organes de commande actionnés à la main par un mouvement de pivotement, p. ex. leviers
G05G 1/02 - Organes de commande actionnés à la main par un mouvement linéaire, p. ex. boutons poussoirs
B65G 33/14 - Transporteurs rotatifs à vis ou à hélice pour matériaux solides fluents comportant une vis ou plusieurs vis enfermées dans un carter tubulaire
G05G 5/06 - Moyens pour empêcher, limiter ou inverser le mouvement de certaines pièces d'un mécanisme de commande, p. ex. verrouillage des organes de commande pour maintenir les organes de commande, seulement sur une ou sur un nombre limité de positions définies
92.
Grain bin powersweep with sump shaft aperture sealing cover plate assembly
An unload conveyor and a sweep conveyor can be positioned below and above a floor of the grain bin, respectively. A below floor gearbox and an above floor gearbox can be positioned below and above a sloped wall, respectively, of a sump. The sloped wall can be designed to shed grain toward a sump basin. A coupling shaft can extend through a non-circular sump shaft aperture in the sloped wall to couple the below floor gearbox to the above-floor gearbox. The coupling shaft can extend vertically. A pair of seal cover plates can form a horizontal wall extending perpendicular to the coupling shaft. The horizontal wall can have a circular sealing aperture therein and through which the coupling shaft extends. A washer can be provided adjacent the circular sealing aperture that can be free to move laterally with wobbling of the coupling shaft.
An auger can be drivingly coupled to an input shaft of a wheel reduction gearbox. The wheel reduction gearbox can drivingly couple the input shaft to an output shaft of the wheel reduction gearbox. The output shaft can be drivingly coupled to a sweep end wheel. The sweep end wheel can include a plurality of tread brackets, a wheel plate, and an adjustable coupling corresponding to each of the tread brackets. Each adjustable coupling can selectively couple one of the tread brackets to the wheel plate in one of a plurality of radial positions. Each of the plurality of radial positions can correspond to the tread bracket being located at a different radial distance from a central axis of rotation of the wheel plate.
A gearbox below a grain bin floor can have a shift coupling movable between a drive position and a neutral position. A control rod can be axially movable between a corresponding drive position and a corresponding neutral position. A pair of biasing members can be operably positioned between the control rod and the shift coupling to bias the shift coupling in opposite directions. The opposite biasing forces of the biasing members can act against each other to bias the control rod into the neutral positioning recess to retain the external shift coupling and the control rod in the neutral position and the corresponding neutral position, respectively. The opposite biasing force of the biasing members can bias the control rod into the drive positioning recess to retain the external shift coupling and the control rod in the drive position and the corresponding drive position, respectively.
An unload conveyor and a sweep conveyor can be positioned below and above a floor of the grain bin, respectively. A below floor gearbox and an above floor gearbox can be positioned below and above a sloped wall, respectively, of a sump. The sloped wall can be designed to shed grain toward a sump basin. A coupling shaft can extend through a non-circular sump shaft aperture in the sloped wall to couple the below floor gearbox to the above-floor gearbox. The coupling shaft can extend vertically. A pair of seal cover plates can form a horizontal wall extending perpendicular to the coupling shaft. The horizontal wall can have a circular sealing aperture therein and through which the coupling shaft extends. A washer can be provided adjacent the circular sealing aperture that can be free to move laterally with wobbling of the coupling shaft.
An auger can be drivingly coupled to an input shaft of a wheel reduction gearbox. The wheel reduction gearbox can drivingly couple the input shaft to an output shaft of the wheel reduction gearbox. The output shaft can be drivingly coupled to a sweep end wheel. The sweep end wheel can include a plurality of tread brackets, a wheel plate, and an adjustable coupling corresponding to each of the tread brackets. Each adjustable coupling can selectively couple one of the tread brackets to the wheel plate in one of a plurality of radial positions. Each of the plurality of radial positions can correspond to the tread bracket being located at a different radial distance from a central axis of rotation of the wheel plate.
A gearbox below a grain bin floor can have a shift coupling movable between a drive position and a neutral position. A control rod can be axially movable between a corresponding drive position and a corresponding neutral position. A pair of biasing members can be operably positioned between the control rod and the shift coupling to bias the shift coupling in opposite directions. The opposite biasing forces of the biasing members can act against each other to bias the control rod into the neutral positioning recess to retain the external shift coupling and the control rod in the neutral position and the corresponding neutral position, respectively. The opposite biasing force of the biasing members can bias the control rod into the drive positioning recess to retain the external shift coupling and the control rod in the drive position and the corresponding drive position, respectively.
(1) Wholesale ordering services and distributorship services in the field of commercial, industrial and agricultural storage facilities for granular materials, conveyors for granular materials and grain aeration, drying and conditioning equipment
Wholesale ordering services and distributorship services in
the field of poultry and livestock equipment, storage silos
and handling machines for grain and feed and environmental
control units for animals and crops.
(1) Wholesale ordering services and distributorship services in the field of poultry and livestock equipment, storage silos and handling machines for grain and feed and environmental control units for animals and crops.
