The present disclosure relates to a process for the pretreatment of fibrous material in a production process for producing three-dimensional products, to a pretreatment chamber for the pretreatment of fibrous material, and to a fiber molding plant having at least one pretreatment chamber. By pretreating relatively dry fiber material, the shaping step in a manufacturing process can be significantly improved and the choice of product geometries can be increased.
A method for manufacturing three-dimensional products with at least one inclined product portion made of a fiber-containing material using at least one forming tool and a forming tool are described. Vibrations are introduced via a device and this results in an improved compression of fiber-containing material in the region of inclined portions.
B31D 5/02 - Procédés à plusieurs phases pour la fabrication d'articles à trois dimensions comportant un pressage
B30B 11/02 - Presses spécialement adaptées à la fabrication d'objets à partir d'un matériau en grains ou à l'état plastique, p.ex. presses à briquettes ou presses à tablettes utilisant un pilon exerçant une pression sur le matériau dans une cavité de moulage
3.
Method for processing planar material webs made of a fiber-containing material
A method for processing planar material webs made of a fiber-containing material is disclosed. The planar material webs are fed as material web portions or endless material web, for the production of three-dimensional products. Before a material web is pressed for shaping, the material web is preformed three-dimensionally by deforming the material web in at least one direction substantially without stretching or compressing.
An apparatus and a method for heating process media in a fiber molding process are described, whereby an optimization of the efficiency in the production of three-dimensional molded parts from a fiber-containing material is provided. Here, a process medium with a relatively high temperature is guided through an apparatus for heat exchange within a container with another process medium.
F28D 7/10 - Appareils échangeurs de chaleur comportant des ensembles de canalisations tubulaires fixes pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation les canalisations étant disposées l'une dans l'autre, p.ex. concentriquement
A method for suctioning fibers from a pulp using a suction device with a suction tool, and a suction device for suctioning fibers from a pulp with a suction tool that has a plurality of cavities for suctioning fibers are described.
Method for temperature control in a molding tool for the production of molded parts from a fiber-containing material and molding station with a molding tool
A method for temperature control in a molding tool, which has a tool base body and at least one cavity, for producing molded parts from a fiber-containing material and a molding station with at least one molding tool are described.
The invention relates to a portioning container (1) made of biodegradable fiber material (11), to a molded fiber system (100), and to a method (200) for manufacturing such portioning containers (1), comprising a receptacle (2) for holding a consumable (G, G′) and a cover (6) for closing the receptacle to produce a sealed volume (V) within the portioning container (1), wherein at least the receptacle (2), preferably also the cover (6), is manufactured from biodegradable fiber material (11) using a molded fiber system (100) by means of a molded fiber process, from a pulp (7, 7a, 7b) as a liquid solution containing the biodegradable fiber material (11), wherein at least the receptacle (2), preferably also the cover (6), is provided with a barrier layer system (8) which has a barrier effect at least against penetration of moisture, water, aromatic substances, flavoring agents, odorants, and/or non-food-grade substances.
The invention relates to a method (100) for manufacturing molded parts (10) from biodegradable fiber material (11) by means of a fiber molding process in a fiber molding system (20), comprising the following steps of providing (110) a pulp (1) as a liquid solution containing a biodegradable fiber material; contacting (120) a suction tool (2) with the pulp by placing it on or at least partially dipping it into the pulp, wherein the suction tool comprises a suction head (21) with a three-dimensionally shaped suction head suction side (21i), whose shape is adapted to a contour of the subsequent molded part; molding (130) the molded part by sucking the fiber material onto the suction head suction side (21i) by means of negative pressure in the suction tool; pre-pressing (140) the molded part in a pre-pressing station (3) with a pre-pressing pressure (VD) to reduce a proportion of the liquid solution in the molded part; hot-pressing (150) the pre-pressed molding at a hot-pressing pressure (HD) for finishing the molded part and for further reducing the proportion of the liquid solution in the molded part in a hot-pressing station (4); and outputting (160) the finished molded part (10). The invention also relates to such a fiber molding system for carrying out the above-mentioned method and to a molded part manufactured by means of such a fiber molding system or by means of such a method.
D21J 3/00 - Fabrication d'articles par pressage d'une pâte fibreuse humide ou de papier mâché, entre des moules
D21J 5/00 - Fabrication d'articles creux par transfert des feuilles produites à partir de suspensions de fibres ou de papier mâché, par aspiration sur des moules en treillis métalliques, vers une forme de pressage garnie de feutre
9.
FIBRE MOULDING PLANT FOR PRODUCING MOULDED PARTS FROM ENVIRONMENTALLY DEGRADABLE FIBRE MATERIAL
The invention relates to a fiber-forming system (100) comprising at least a molding station (20) according to the invention, a preforming station (30) according to the invention and a hot-pressing station (40) according to the invention for producing a formed part (10) from environmentally-friendly-degradable fiber material (11) by means of a fiber-forming process executed in the fiber-forming system (100), wherein the fiber-forming system (100) is designed to enable an automatic change of tools (2, 3, 400, 40u) from the molding station (20), preforming station (30) and or hot-pressing station (40). The invention also relates to such a molding station (20), preforming station (30) and hot-pressing station (40) and a corresponding method (200) for automatically changing tools in the fiber-forming system (100).
D21J 5/00 - Fabrication d'articles creux par transfert des feuilles produites à partir de suspensions de fibres ou de papier mâché, par aspiration sur des moules en treillis métalliques, vers une forme de pressage garnie de feutre
B23Q 3/155 - Agencements pour insérer ou retirer automatiquement les outils
10.
PRODUCT MADE OF BIODEGRADABLE MATERIAL AND PROCESS FOR PRODUCING PRODUCTS MADE OF BIODEGRADABLE MATERIAL
Described are a product and a process (300) for producing products made of a biodegradable material having at least one first ply (200) comprising at least one outer layer (250) and one functional layer (260), wherein at least the outer layer (250) consists of a biodegradable material and wherein the outer layer (250) comprises fibre material, wherein the at least one first ply (200) comprises at least one first joining section (210), by means of which the at least one first ply (200) is connected to a corresponding second joining section (220) of the at least one first ply (200) or a second ply (200) and wherein the total layer thickness of the product in a joining region (160) between the first joining section (210) and the second joining section (220) is substantially identical to the total layer thickness of the at least one first ply (200) in a region remote from the joining region (160).
B32B 3/06 - Caractérisés par des caractéristiques de forme en des endroits déterminés, p.ex. au voisinage des bords pour attacher le produit à quelque chose d'autre p.ex. à un support
B65D 1/02 - Bouteilles ou réceptacles similaires, à cols ou à ouvertures rétrécies analogues, conçus pour verser le contenu
B65D 65/46 - Emploi de matériaux désintégrables, solubles ou comestibles
B32B 3/26 - Produits stratifiés caractérisés essentiellement par le fait qu'une des couches comporte des discontinuités ou des rugosités externes ou internes, ou bien qu'une des couches est de forme générale non plane; Produits stratifiés caractérisés essentiellement par des particularismes de forme caractérisés par une couche comportant des cavités ou des vides internes
B32B 3/30 - Produits stratifiés caractérisés essentiellement par le fait qu'une des couches comporte des discontinuités ou des rugosités externes ou internes, ou bien qu'une des couches est de forme générale non plane; Produits stratifiés caractérisés essentiellement par des particularismes de forme caractérisés par une couche comportant des cavités ou des vides internes caractérisés par une couche comportant des retraits ou des saillies, p.ex. des gorges, des nervures
11.
MOLDING TOOL FOR PRODUCING MOLDED PARTS AND METHODS FOR PRODUCING MOLDED PARTS USING A MOLDING TOOL
A molding tool and a method for producing molded parts from a moldable material with at least one first tool component and at least one second tool component are described. The first tool component has a cavity with a first molding surface and the second tool component has a molding element with a second molding surface, which has an at least partially flexible material. Moldable material introduced into the cavity is pressed against the first molding surface at least in certain regions by the deformation of the flexible material. A medium is introduced via the molding element for this purpose, which leads to deformation of the flexible material.
B29C 43/44 - Moyens de pressage pour la fabrication d'objets de longueur indéfinie
B29C 43/32 - Moulage par pressage, c. à d. en appliquant une pression externe pour faire couler la matière à mouler; Appareils à cet effet - Eléments constitutifs, détails ou accessoires; Opérations auxiliaires
12.
MOLDING TOOL FOR PRODUCING MOLDED PARTS AND METHOD FOR PRODUCING MOLDED PARTS USING A MOLDING TOOL
A molding tool and a method for producing molded parts from a moldable material with a first tool component and a second tool component are described. The first tool component has a cavity with a first molding surface and the second tool component has a second molding surface and a flexible material forming at least one portion of the second molding surface. In a first step, a moldable material is introduced into the cavity and then the second tool component is moved into the cavity. A second molding surface of the second tool component moves the moldable material in regions against the first molding surface. Thereafter, overpressing of the second tool component takes place after reaching a bottom dead center within the cavity, whereby the flexible material is deformed and presses the moldable material against a corresponding portion of the first molding surface.
The invention relates to a system and a method for the combined connection of at least two plastics material layers and of at least one connecting element to the at least two layers in order to manufacture medical bags.
The present disclosure relates to a molding station a mold body for a pre-pressing tool that is utilized for pressing three-dimensional preforms made of a fiber-containing material. The mold body includes a deformable material and is perforated in some portions.
D21F 13/00 - Procédés ou appareils pour la fabrication en discontinu de feuilles de papier, de carton de vieux papiers ou de nappes humides pour la production de panneaux de fibres
D21J 3/00 - Fabrication d'articles par pressage d'une pâte fibreuse humide ou de papier mâché, entre des moules
16.
Mold body with integrated connection unit for a pre-pressing tool, and pre-pressing tool
The present disclosure relates to a molding station a mold body for a pre-pressing tool that is utilized for pressing three-dimensional preforms made of a fiber-containing material. The mold body includes a deformable material and is perforated in some portions. In certain instances, the mold body has, with respect to a wall section and a floor section, a greater material thickness in a connection section for the pre-pressing tool. In some instances, the mold body has an integrated connection unit in the connection section for the pre-pressing tool.
D21J 3/00 - Fabrication d'articles par pressage d'une pâte fibreuse humide ou de papier mâché, entre des moules
D21F 13/00 - Procédés ou appareils pour la fabrication en discontinu de feuilles de papier, de carton de vieux papiers ou de nappes humides pour la production de panneaux de fibres
17.
Mold body with varying thickness for a pre-pressing tool, and pre-pressing tool
The present disclosure relates to a molding station a mold body for a pre-pressing tool that is utilized for pressing three-dimensional preforms made of a fiber-containing material. The mold body includes a deformable material and is perforated in some portions. In certain instances, the mold body has, with respect to a wall section and a floor section, a greater material thickness in a connection section for the pre-pressing tool.
D21J 7/00 - Fabrication d'articles creux à partir de suspensions de fibres ou de papier mâché, par dépôt de fibres dans ou sur un moule en treillis métallique
A fiber molding system for manufacturing molded parts made from environmentally friendly, degradable fiber material using a fiber molding process is disclosed. The system includes at least one first pulp reservoir; a suction tool attached to a movement unit, which as a multi-tool comprises a plurality of suction heads, each with a three-dimensionally shaped suction head suction side adapted to a contour of the molded part to be molded, and which is designed to use at least a first partially immersing of the suction tool into the first pulp and sucking the fiber material onto the respective suction head suction sides of the suction heads using negative pressure from the first pulp to form the molded part in the suction heads; an output unit for outputting the final molded part, and a control unit adapted to carry out the method on the fiber molding system.
D21J 5/00 - Fabrication d'articles creux par transfert des feuilles produites à partir de suspensions de fibres ou de papier mâché, par aspiration sur des moules en treillis métalliques, vers une forme de pressage garnie de feutre
D21F 13/00 - Procédés ou appareils pour la fabrication en discontinu de feuilles de papier, de carton de vieux papiers ou de nappes humides pour la production de panneaux de fibres
D21J 1/08 - Panneaux de fibres imprégnés ou couchés
19.
METHOD FOR THE PRODUCTION OF THREE-DIMENSIONAL MOLDED PARTS FROM A FIBER-CONTAINING MATERIAL AND FIBER PROCESSING DEVICE
A method for producing three-dimensional molded parts from a fiber-containing material and a fiber processing device are described. In this case, a provision of separated fibers, an arrangement of the separated fibers to form at least one preform, wherein the at least one preform substantially corresponds to the shape of a molded part to be produced, and a pressing of the at least one preform to form a three-dimensional molded part take place. The fiber processing device at least has a feeding device for providing separated fibers; a premolding device, which has at least one premold for forming preforms from fibers fed separately, which corresponds to the final form of the molded part to be produced; a transfer device for transferring preforms provided via the at least one premold and made of fiber-containing material; and a molding device for pressing preformed preforms to form finished three-dimensional molded parts.
The present disclosure relates to a cleaning system. The cleaning system may include a support and holding structure for the cleaning unit of at least one molding tool where the at least one molding tool includes at least one interior through which a flow can pass and at least one mold part having a plurality of openings. At least one inlet connection for a (cleaning) inlet line may be provided on the at least one molding tool, via which inlet connection a cleaning fluid can be introduced into at least one interior of the molding tool and can be discharged via the plurality of openings of the mold parts. A closure frame and a closure element may be provided where the closure frame is arranged between the at least one molding tool and the closure element to form a drain space.
B08B 3/12 - Nettoyage impliquant le contact avec un liquide avec traitement supplémentaire du liquide ou de l'objet en cours de nettoyage, p.ex. par la chaleur, par l'électricité ou par des vibrations par des vibrations soniques ou ultrasoniques
B08B 3/14 - Enlèvement des déchets, p.ex. des étiquettes, se trouvant dans le liquide de nettoyage
21.
MOLDING TOOL AND METHOD FOR REGULATING A TEMPERATURE DISTRIBUTION IN A MOLDING TOOL
A molding tool for producing three-dimensional products from a fiber-containing material and a method for regulating a temperature distribution in a molding tool for producing three-dimensional products are described.
The present disclosure relates to a weighing system for a manufacturing device for products, comprising at least one electronically evaluable scale, comprising at least one carrier element for positioning at least one workpiece or stack of workpieces, in particular a group of horizontally adjacent workpieces and/or stacks of workpieces, and an evaluation unit connected to the scale for receiving and evaluating detected weighing data, the scale being operable in cooperation with the evaluation unit to detect the total weight and the horizontal weight distribution of at least one workpiece or stack of workpieces deposited on the carrier element. Further, the present disclosure includes a manufacturing system and an associated method.
A fiber processing device and a method for operating a fiber processing device are described, wherein the fiber processing device has at least one forming station with an exchangeable tool and an alignment unit which has a plurality of outlet openings for a medium, wherein a medium for displacing and positioning fibers on the surface of a tool is dispensed via the outlet openings in determinable time periods, wherein different tools can be received in the forming station in order to produce different three-dimensional molded parts, wherein a tool received in the forming station is exchanged for another tool, and the outlet openings of at least one alignment unit are changed in accordance with the received tool and its configuration.
D21J 3/10 - Fabrication d'articles par pressage d'une pâte fibreuse humide ou de papier mâché, entre des moules de corps creux
D21J 7/00 - Fabrication d'articles creux à partir de suspensions de fibres ou de papier mâché, par dépôt de fibres dans ou sur un moule en treillis métallique
24.
FIBRE PROCESSING APPARATUS FOR USE IN A FIBRE PROCESSING SYSTEM, FIBRE PROCESSING SYSTEM AND METHOD FOR CONTROLLING A FIBRE PROCESSING SYSTEM
The invention relates to a fibre processing apparatus for use in a fibre processing system (100), to a fibre processing system (100) having at least two fibre processing apparatuses and to a method for controlling a fibre processing system (100), wherein the fibre processing apparatuses each have at least one processing station for treating a fibre-containing material, a control apparatus and at least one interface, which are designed and configured for bi-directional communication between the at least two fibre processing apparatuses such that at least one processing station of the at least two fibre processing apparatuses for treating a fibre-containing material is controlled in accordance with specific information which is exchanged via the interfaces of the at least two fibre processing apparatuses, wherein the specific information comprises information regarding the particular fibre processing apparatus performing processing, and further information on this fibre processing apparatus related to the production of products.
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)
25.
MOLDING DEVICE FOR MOLDING PRODUCTS FROM FIBER-CONTAINING MATERIAL, FIBER MOLDING SYSTEM, METHOD FOR MOLDING PRODUCTS FROM A FIBER-CONTAINING MATERIAL, AND PRODUCTS MADE OF A FIBER-CONTAINING MATERIAL
The invention relates to a molding device (600) for molding products (3004) from a fiber-containing material, to a fiber molding system (1000) comprising at least one molding device (600) for molding products (3004) from a fiber-containing material, to a method (2000) for molding products (3004) from a fiber-containing material, and to a product (3004) made of a fiber-containing material. A warm-pressing process is first carried out and then a hot-pressing process is carried out, wherein the temperature during the warm-pressing process is lower than the temperature during the hot-pressing process, and after the warm-pressing process, a preform is sufficiently flexible for a forming process when the hot-press tool is closed.
D21J 3/00 - Fabrication d'articles par pressage d'une pâte fibreuse humide ou de papier mâché, entre des moules
D21J 7/00 - Fabrication d'articles creux à partir de suspensions de fibres ou de papier mâché, par dépôt de fibres dans ou sur un moule en treillis métallique
26.
Method for Regulating a Hot-Pressing Device, Tool Component for a Hot-Pressing Device and Hot-Pressing Device
A method for regulating a hot-pressing device, a tool component and a hot-pressing device are described, wherein the closing of the hot-pressing device and the pressing of a first tool component and a second tool component are effected according to a boiling temperature, ascertained in advance, of the liquid contained in a fiber-containing material of at least one preform and a surface temperature of a first molding device of the first tool component.
A tool component, a hot-pressing device and a method for hot pressing preforms from a fiber-containing material are described, wherein the hot-pressing device has a first tool component with a first tool body and at least one first molding device and a second tool component with a second tool body and at least one second molding device. The method includes providing at least one preform made of fiber-containing material, heating the first tool body and the first molding device via a temperature control device, placing a preform on first contact surfaces of the first molding device, moving the second tool component relative to the first tool component, and pressing the first tool component and the second tool component until the first contact surfaces and the second contact surfaces form a closed cavity.
D21F 13/10 - Procédés ou appareils pour la fabrication en discontinu de feuilles de papier, de carton de vieux papiers ou de nappes humides pour la production de panneaux de fibres utilisant des presses à carton
D21J 3/00 - Fabrication d'articles par pressage d'une pâte fibreuse humide ou de papier mâché, entre des moules
B30B 9/28 - Presses spécialement adaptées à des fins particulières pour la fabrication d'objets façonnés
B30B 15/02 - Matrices; Garnitures ou montures appropriées; Moules
28.
Fibre moulding plant for producing moulded parts from environmentally degradable fibre material
The present disclosure relates to a molding station (20) for molding (210), a preforming station (30) for preforming (220), a hot-pressing station (40) for final shaping (230) a formed part (10) made of environmentally-friendly-degradable fiber material (11) in a fiber-forming process in a fiber-forming system (100). The fiber-forming system (100) produces the formed part (10) having the above components (20, 30, 40) by means of the method (200) performed in the fiber-forming system (100) as a fiber-forming process.
D21J 5/00 - Fabrication d'articles creux par transfert des feuilles produites à partir de suspensions de fibres ou de papier mâché, par aspiration sur des moules en treillis métalliques, vers une forme de pressage garnie de feutre
An improved nozzle box is disclosed having side walls spaced apart from each other, a base and a ventilation wall spaced apart from it, thereby forming an interior space. A plurality of ventilation openings arranged offset to each other is provided in the ventilation wall, the nozzle box is provided on its ventilation wall with a plurality of protrusions that are raised by at least a height (H) in relation to the sections of ventilation wall or the top side or surface of the ventilation wall the sections being located adjacent to the protrusions, the ventilation openings are configured raised in the region of the protrusions in relation to the top side or surface of the ventilation wall and/or the ventilation wall includes in the transverse direction (Q) of the nozzle box opposing side flanges that overlap the side walls of the nozzle box outside the interior space of the nozzle box.
The invention relates to a production machine with a control program for visualizing stations and/or machine components, highlighting the speed-determining station and/or the speed-determining machine component in order to optimize the process time. The invention also relates to a method of optimizing the process time for a production machine with such a control program and to a data carrier with such a control program.
The disclosed embodiments relate to a manufacturing component as a first tool in a forming station at least for endforming a preformed lid made from a material to form an undercut comprising natural fibres. The preformed lid includes a top part and a side part circumferencing the top part, where the manufacturing component is adapted to contact an outer side of the preformed lid to endform the preformed lid by exerting a first movement in axial direction along a center axis of the manufacturing component and a later second movement in a second direction towards the side part of the preformed lid. Multiple side forming elements of the manufacturing component are arranged to exert the second movement by applying an outer pressure onto an outer side of the side part to form an undercut into the side part.
D21J 5/00 - Fabrication d'articles creux par transfert des feuilles produites à partir de suspensions de fibres ou de papier mâché, par aspiration sur des moules en treillis métalliques, vers une forme de pressage garnie de feutre
B65D 43/06 - Couvercles ou chapeaux amovibles ayant un canal périphérique entourant le bord du réceptacle
32.
FILM WINDING SYSTEM AND ASSEMBLY COMPRISING A FILM STRETCHING UNIT AND SUCH A FILM WINDING SYSTEM
A film winding system is disclosed having a first winding station which is configured in a winding position to wind the film web into a film bale. A contact roller and a compensating roller are provided, wherein the contact roller is arranged adjacent to the first winding station in the winding position and is configured to guide the film web to the first winding station. The compensating roller is located before the contact roller in the direction of travel of the film web and is configured to guide the film web to the contact roller and to set a film tension. A first adjustment device is provided and configured to move the contact roller towards the winding station or away from the winding station, thereby enabling the setting of a specific contact pressure between the contact roller and the film bale. The first adjustment device comprises a slide system or an adjusting spindle.
A multipart gripper unit for a transverse, longitudinal and/or simultaneous stretching unit is disclosed having a main part and at least two guide parts. The main part includes a base body as well as a clamping device for clamping a material web and the guide parts each comprise a base body as well as at least one guide element for guidance on a rail of the stretching unit. The base bodies of the guide parts and the base body of the main part are each manufactured as separate component parts and attached to each other.
The present disclosure relates to a system for pulp processing and resupply of production-quality pulp to at least one fiber molding system, where the system is constructed in scalable modular form. For this, the system includes at least one supply module (110) and one or more process modules (120). The supply module (110) and the process modules (120) are equipped with a plurality of interfaces (150), matched to one another in each case, in order to connect supply and process modules (110, 120) to one another. This may guarantee the infrastructure supply of the process modules (120). The pulp or the constituents and starting materials may be received via at least one inlet (130) and transported between the process modules (120) to provide the production-quality pulp (160) via an outlet (140) for use by at least one fiber molding system.
The invention relates to an HMI system with a mobile operating and monitoring device for operating a production machine for plastics processing. The HMI system is installed on a control unit of the production machine and has a mobile operating and monitoring device.
G05B 19/409 - Commande numérique (CN), c.à d. machines fonctionnant automatiquement, en particulier machines-outils, p.ex. dans un milieu de fabrication industriel, afin d'effectuer un positionnement, un mouvement ou des actions coordonnées au moyen de données d'u - caractérisée par les détails du panneau de commande, par la fixation de paramètres
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)
36.
A CELLULOSE FIBER STRUCTURE COMPRISING A BARRIER LAYER
D21J 7/00 - Fabrication d'articles creux à partir de suspensions de fibres ou de papier mâché, par dépôt de fibres dans ou sur un moule en treillis métallique
D21J 3/10 - Fabrication d'articles par pressage d'une pâte fibreuse humide ou de papier mâché, entre des moules de corps creux
c) for each of which the process parameter defining the process for this motion section is visualized and can be varied by means of the provided switch panels.
G05B 19/41 - Commande numérique (CN), c.à d. machines fonctionnant automatiquement, en particulier machines-outils, p.ex. dans un milieu de fabrication industriel, afin d'effectuer un positionnement, un mouvement ou des actions coordonnées au moyen de données d'u caractérisée par l'interpolation, p.ex. par le calcul de points intermédiaires entre les points extrêmes programmés pour définir le parcours à suivre et la vitesse du déplacement le long de ce parcours
G05B 19/40 - Systèmes à boucle ouverte, p.ex. utilisant un moteur pas à pas
G05B 19/409 - Commande numérique (CN), c.à d. machines fonctionnant automatiquement, en particulier machines-outils, p.ex. dans un milieu de fabrication industriel, afin d'effectuer un positionnement, un mouvement ou des actions coordonnées au moyen de données d'u - caractérisée par les détails du panneau de commande, par la fixation de paramètres
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)
B29C 37/00 - FAÇONNAGE OU ASSEMBLAGE DES MATIÈRES PLASTIQUES; FAÇONNAGE DES MATIÈRES À L'ÉTAT PLASTIQUE NON PRÉVU AILLEURS; POST-TRAITEMENT DES PRODUITS FAÇONNÉS, p.ex. RÉPARATION - Eléments constitutifs, détails, accessoires ou opérations auxiliaires non couverts par le groupe ou
38.
FILM WITH AT LEAST TWO LAYERS AND METHOD FOR PRODUCING THE SAME
A biaxially-oriented film is disclosed having at least the layers (A) and (B), wherein layer (A) contains a polyethylene of a low molecular weight and layer (B) contains a polyethylene of a higher molecular weight, wherein layer (A) contains at least percent by weight of the polyethylene of low molecular weight, and layer (B) contains at least percent by weight of the polyethylene of high molecular weight and the film has a porosity in the range from 30 to 70%. The film may additionally be provided with a ceramic coating. A method for producing such a film by the Evapore process is disclosed.
B32B 27/08 - Produits stratifiés composés essentiellement de résine synthétique comme seul composant ou composant principal d'une couche adjacente à une autre couche d'une substance spécifique d'une résine synthétique d'une sorte différente
B32B 27/32 - Produits stratifiés composés essentiellement de résine synthétique comprenant des polyoléfines
B32B 27/20 - Produits stratifiés composés essentiellement de résine synthétique caractérisée par l'emploi d'additifs particuliers utilisant des charges, des pigments, des agents thixotropiques
H01M 10/0525 - Batteries du type "rocking chair" ou "fauteuil à bascule", p.ex. batteries à insertion ou intercalation de lithium dans les deux électrodes; Batteries à l'ion lithium
H01M 50/449 - Séparateurs, membranes ou diaphragmes caractérisés par le matériau ayant une structure en couches
B29C 48/00 - Moulage par extrusion, c. à d. en exprimant la matière à mouler dans une matrice ou une filière qui lui donne la forme désirée; Appareils à cet effet
B29C 48/08 - Moulage par extrusion, c. à d. en exprimant la matière à mouler dans une matrice ou une filière qui lui donne la forme désirée; Appareils à cet effet caractérisées par la forme à l’extrusion de la matière extrudée plate, p.ex. panneaux flexible, p.ex. pellicules
B29C 48/21 - Articles comprenant au moins deux composants, p.ex. couches coextrudées les composants étant des couches les couches étant jointes à leurs surfaces
B29C 48/91 - Chauffage, p.ex. pour la réticulation
The invention relates to: a heating roller (1) for providing a desired surface temperature for controlling the temperature of a material web (20) circulating around the heating roller; a preheating oven (10) having such a heating roller; a system (100) having such a preheating oven; and a method (200) for producing such a heating roller; which heating roller comprises a circular cylindrical lateral casing (2) made of thermally conductive material, preferably metal, and at least one electrical heating blanket (3) which is situated on an inner face (21) of the lateral casing so as to be in contact with the lateral casing; wherein a thermal insulation layer (4) is situated on an inner face (31) of the heating blanket, which inner face does not face the lateral casing, and a spreading device (5) is situated inside the lateral casing on an inner face (41) of the thermal insulation layer, which spreading device exerts a pre-loading force on the heating blanket via the thermal insulation layer such that an outer face (32) of the at least one heating blanket, which outer face faces the lateral casing, is permanently pressed against the inner face of the lateral casing.
B29B 13/02 - Conditionnement ou traitement physique de la matière à façonner par chauffage
B29C 51/00 - Façonnage par thermoformage, p.ex. façonnage de feuilles dans des moules en deux parties ou par emboutissage profond; Appareils à cet effet
The invention relates to a manufacturing component (1) as a first tool in a forming station (10) at least for endforming a preformed lid (100) made from a material (M) to form an undercut (140) comprising natural fibres, the preformed lid (100) comprising a top part (130) and a side part (110) circumferencing the top part (130), where the manufacturing component (1) is adapted to contact an outer side (110) of the preformed lid (100) to endform the preformed lid (100) by exerting a first movement (FM) in axial direction along a center axis (R) of the manufacturing component (1) and a later second movement (SM) in a second direction towards the side part (120) of the preformed lid (100), where multiple side forming elements (2) of the manufacturing component (1) are arranged to exert the second movement (SM) applying an outer pressure (PA) onto an outer side (110) of the side part (120) to form an undercut (140) into the side part (120). The invention further relates to a forming station (10) with such a manufacturing component (1), a forming device (80) comprising such forming station (10), an endformed lid (100´) manufactured with such forming station (10) comprising an undercut (140) and a methode (200) to manufacture such lid (100´) with undercut (140).
D21J 5/00 - Fabrication d'articles creux par transfert des feuilles produites à partir de suspensions de fibres ou de papier mâché, par aspiration sur des moules en treillis métalliques, vers une forme de pressage garnie de feutre
The invention relates to a method (100) for measuring a permittivity (1) of a material of a sample body (2) for receiving a plurality of measurement points (10, 20, 30, 40) at at least one measurement voltage (12), to a device (300) for performing the method (100), and to an adapter circuit (200), in which the measured material of the sample body (2) is used, the method (100) being performed with the aid of a capacitor assembly (3) comprising at least one capacitor (4) with electrodes (9) with variable electrode spacing (11, 21, 31, 41) and/or a plurality of capacitors (4) with electrodes each with different electrode spacings (11, 21, 31, 41) that are kept constant during the method, a space between the sample body (2) and the electrodes (9) of the capacitor(s) (4) being filled in the respective method steps with the first filling medium (5) having a first permittivity (7) or with a second filling medium (6) having a second permittivity (8) different from the first permittivity (7), and also an extrapolation (50, 60) of the measured values (10, 20, 30, 40) performed at a distance towards zero of the electrode spacing.
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
G01R 27/26 - Mesure de l'inductance ou de la capacitance; Mesure du facteur de qualité, p.ex. en utilisant la méthode par résonance; Mesure de facteur de pertes; Mesure des constantes diélectriques
The invention relates to a method (100) for controlling a variable matching network (4) for impedance matching, to a matching network (4) for carrying out said method (100) according to the invention and to a system (1) comprising a signal source (2), a load (5), a directional coupler (3) and a claimed variable matching network (4), wherein the signal source (2) is connected to the load (5) via the directional coupler (3) and the variable matching network (4) for impedance matching.
H03H 7/40 - Adaptation automatique de l'impédance de charge à l'impédance de la source
H03H 5/12 - Réseaux à un accès comportant comme composants uniquement des éléments électriques passifs comportant au moins un élément dépendant de la tension ou du courant
H03H 1/00 - RÉSEAUX D'IMPÉDANCES, p.ex. CIRCUITS RÉSONNANTS; RÉSONATEURS - Détails de réalisation des réseaux d'impédances dont le mode de fonctionnement électrique n'est pas spécifié ou est applicable à plus d'un type de réseau
H01J 37/32 - Tubes à décharge en atmosphère gazeuse
The invention relates to a variable capacitor system (1) for impedance matching, a matching network (4) comprising said type of variable capacitor system (1), a system (10) comprising said type of matching network (4) and to a use of the variable capacitor system (1) for impedance matching, formed by a parallel or series connection of a variable transducer (11) with a capacitor (12). The invention also relates to a method (100) for controlling said type of impedance matching network (4).
H03H 5/12 - Réseaux à un accès comportant comme composants uniquement des éléments électriques passifs comportant au moins un élément dépendant de la tension ou du courant
H03H 7/40 - Adaptation automatique de l'impédance de charge à l'impédance de la source
H03H 1/00 - RÉSEAUX D'IMPÉDANCES, p.ex. CIRCUITS RÉSONNANTS; RÉSONATEURS - Détails de réalisation des réseaux d'impédances dont le mode de fonctionnement électrique n'est pas spécifié ou est applicable à plus d'un type de réseau
H01J 37/32 - Tubes à décharge en atmosphère gazeuse
44.
MEASURING METHOD AND MEASURING APPARATUS FOR INLINE INSPECTION OF PLASTIC FILMS
The invention relates to a measuring apparatus (1) for contactless inline inspection of plastic films (2) with the use of trained algorithms, to a corresponding measuring method (100), and to a plastic-processing plant (10) that has such a measuring apparatus comprising: a measuring unit (3) which is designed to emit light (L) in the infrared spectral range, preferably between 1300nm and 2600nm, towards the plastic films and to measure measurement data in the form of optical measurement spectra (MS) in the reflection of the light by the plastic film or in the transmission of the light through the plastic film; and an evaluation unit (4) which is designed to determine at least one of the properties (M) of the plastic film on the basis of a classification of the measurement data by one or more algorithms (41) trained beforehand using optical training spectra (TS) under conditions similar to those for the measurement spectra with plastic films having known properties, the algorithm(s) calculating one or more mathematical transformation rules which transfer the training data characteristically for the known properties of the plastic film into a multi-dimensional results domain, and said algorithm(s) likewise calculating, during the inline inspection, the one or more mathematical transformation rules which transfer the measurement data into the multi-dimensional results domain, thereby determining the at least one property of the plastic film in correlation with the training data and the multi-dimensional results domain.
G01N 21/35 - Couleur; Propriétés spectrales, c. à d. comparaison de l'effet du matériau sur la lumière pour plusieurs longueurs d'ondes ou plusieurs bandes de longueurs d'ondes différentes en recherchant l'effet relatif du matériau pour les longueurs d'ondes caractéristiques d'éléments ou de molécules spécifiques, p.ex. spectrométrie d'absorption atomique en utilisant la lumière infrarouge
45.
PORTION CONTAINER MADE OF BIODEGRADABLE FIBER MATERIAL
The invention relates to a portion container (1) made of biodegradable fiber material (11), a fiber molding system (100) and a method (200) for producing such portion containers (1) comprising a receptacle (2) for receiving a luxury product (G, G') and a cover (6) for sealing the receptacle in order to produce a sealed volume (V) within the portion container (1), wherein at least the receptacle (2), preferably also the cover (6), is produced from biodegradable fiber material (11) using a fiber molding system (100) by means of a fiber molding process from a pulp (7, 7a and 7b) as a liquid solution comprising the biodegradable fiber material (11), wherein at least the receptacle (2), preferably also the cover (6), has a barrier layer system (8) having a barrier effect at least against penetration by moisture, water, aromatic agents, flavoring agents, odorants and/or food-incompatible substances.
The invention relates to a method (100) for producing molded parts (10) from fiber material (11) by means of a fiber molding process in a fiber molding system (20), which fiber material is degradable in an environmentally friendly way, the method comprising the following steps: providing (110) a pulp (1) as a liquid solution having fiber material that is degradable in an environmentally friendly way; bringing (120) a suction tool (2) into contact with the pulp by placing the suction tool onto the pulp or at least partially dipping the suction tool into the pulp, the suction tool comprising a suction head (21) having a three-dimensionally shaped suction head suction side (21i), the shape of which is adapted to the contour of the later molded part; molding (130) the molded part onto the suction head suction side (21i) by suctioning the fiber material by means of negative pressure in the suction tool; pre-pressing (140) the molded-on molded part in a pre-pressing station (3) with a pre-pressing pressure (VD) in order to reduce the proportion of the liquid solution in the molded part; hot pressing (150) the pre-pressed molded part with a hot-pressing pressure (HD) in a hot-pressing station (4) in order to finally mold the molded part and to further reduce the proportion of the liquid solution in the molded part; and outputting (160) the molded part (10) that has been finally molded. The invention further relates to such a fiber molding system for carrying out the method above and to a molded part produced by means of such a fiber molding system or by means of such a method.
The invention relates to a fibre-moulding facility (100) for producing moulded parts (10) made of fibre material, which is degradable in an environmentally friendly fashion, by means of a fibre-moulding process, the facility comprising at least one first pulp reservoir (6a, 6b) for providing at least one first pulp as a liquid solution with fibre material which is degradable in an environmentally friendly fashion; a suction tool (2), which is mounted on a movement unit (4), comprises a plurality of suction heads each having a three-dimensionally shaped suction-head suction side adapted to a contour of the moulded part (10) to be moulded, and designed to mould the moulded part (10) in the suction heads by means of an at least partial immersion of the suction tool (2) into the first pulp and suction from the first pulp of the fibre material onto the relevant suction-head suction sides of the suction heads by means of negative pressure; an output unit (50) for outputting the finished moulded part (10); and a control unit (60), which is designed to perform the method on the fibre-moulding facility (100). The fibre-moulding facility (100) is additionally designed to apply and/or to dispense a functional layer or a layer system consisting of a number of functional layers and/or a further layer made of fibre material onto a surface of the moulded part (10) to be coated.
The invention relates to a fibre moulding plant (100) comprising at least one claimed moulding station (20), a claimed pre-moulding station (30) and a claimed hot pressing station (40) for producing a moulded part (10) from environmentally degradable fibre material (11) by means of a fibre moulding process carried out in the fibre moulding plant (100), wherein the fibre moulding plant (100) is designed to automatically change moulds (2, 3, 40o, 40u) from the moulding station (20), pre-moulding station (30) and/or hot pressing station (40). The invention also relates to said type of moulding station (20), preforming station (30) and hot pressing station (40) as well to as a corresponding method (200) for the automatic change of moulds in the fibre moulding plant (100).
The invention relates to a moulding plant (20) for moulding (210), a premoulding station (30) for premoulding (220), a hot-pressing station (40) for final moulding (230) of a moulded part (10) of environmentally degradable fibre material (11) in a fibre moulding process in a fibre moulding plant (100). The invention also relates to said type of fibre moulding plant (100) for producing the moulded part (10) with the above-mentioned components (20, 30, 40) by means of the method (200) carried out in the fibre moulding plant (100) as the fibre moulding process.
The invention relates to a thermoforming tool (1, 2) for thermoforming a film (5, 6) from a thermoplastic material to a molding part (6, 7), in particular a molding part (6, 7) of a refrigerator, comprising an upper tool part, a lower tool part (11) and a holding device (12, 13) for holding the film (5, 6) between the two tool parts (10), wherein the thermoforming tool (1, 2) is characterized by a measuring device (25A, 25, 26) for measuring at least one wall strength (26) on the thermoformed film (5).
The invention relates to a production machine comprising a control programme for visualising stations and/or machine components with emphasis on the speed-determining station and/or the speed-determining machine component in order to optimise the process time. The invention also relates to a method for optimising the process time for a production machine comprising such a control programme and to a data carrier comprising such a control programme.
The invention relates to an HMI system comprising a mobile control and monitoring device for operating a production machine for plastics processing. The HMI system is mounted on a control unit of the production machine and comprises a mobile control and monitoring device.
The invention relates to a production machine (1) comprising a control programme (4) for visualising machine components (2) and a method (100) for optimising process parameters for the production machine comprising such a control programme, as well as a data carrier comprising such a control programme, wherein the control programme comprises an interactive user interface in the form of a visualisation device (5) and is designed to visualise the function performed by at least one of the machine components on the visualisation device in one representation for each of said machine components, and to provide corresponding control panels (51) for inputting process parameters with respect to the visualised machine component, wherein the representation comprises at least one parameter-time diagram (52) having motion curves (53) of components (21) of the machine component, wherein at least one of the motion curves is divided into different suitably visualised motion sections (53a, 53b, 53c), for each of which the process parameter that determines the process for said motion section is visualised, said process parameter being variable by means of the control panels provided.
A system (1) for producing a cast film (2) comprises a slot die (4), a cooling roll (5), an electrode arrangement (15), an insulator arrangement (20), a sensor device (30) and a control device (25). The electrode arrangement is arranged between an area of contact (9) of the cast film (2) on the cooling roll (5) and a drawing-off area (10). The insulator arrangement (20) is arranged between the electrode arrangement (15) and the cooling roll shell (6). The sensor device (30) continuously determines the left and right edges (2a, 2b) of the cast film. On the basis of the determined left and right edges (2a, 2b) of the cast film, the control device (25) moves the insulator arrangement (20) in such a way that the insulator arrangement (20): a) is located between the the left end face (5a) of the cooling roll (5) and the left edge (2a) of the cast film; and b) is located between the right end face (5b) of the cooling roll (5) and the right edge (2b) of the cast film (2b). A sensor region (31) of the sensor device (30) is provided downstream of the slot die (4) and upstream of the electrode arrangement (15) in the discharge direction of the cast film (2).
The present invention relates to a biaxially oriented film comprising at least the (2) layers (A) and (B), wherein layer (A) comprises a polyethylene of low molecular weight and layer (B) comprises a polyethylene of a higher molecular weight, wherein layer (A) comprises at least (50) weight per cent of the polyethylene of low molecular weight and layer (B) comprises at least (50) weight per cent of the polyethylene of high molecular weight and the film has a porosity in the range from 30 to 70 %. The film of the invention may additionally have been provided with a ceramic coating. The present invention has as a further subject a method for producing such a film by the Evapore process.
B32B 27/32 - Produits stratifiés composés essentiellement de résine synthétique comprenant des polyoléfines
B29C 48/21 - Articles comprenant au moins deux composants, p.ex. couches coextrudées les composants étant des couches les couches étant jointes à leurs surfaces
B29C 55/14 - Etirage suivant plusieurs axes suivant deux axes successivement
B32B 7/02 - Propriétés physiques, chimiques ou physicochimiques
B32B 27/08 - Produits stratifiés composés essentiellement de résine synthétique comme seul composant ou composant principal d'une couche adjacente à une autre couche d'une substance spécifique d'une résine synthétique d'une sorte différente
B32B 27/20 - Produits stratifiés composés essentiellement de résine synthétique caractérisée par l'emploi d'additifs particuliers utilisant des charges, des pigments, des agents thixotropiques
C08J 9/28 - Mise en œuvre de substances macromoléculaires pour produire des matériaux ou objets poreux ou alvéolaires; Leur post-traitement par élimination d'une phase liquide d'un objet ou d'une composition macromoléculaire, p.ex. par séchage du coagulum
The invention relates to a radio-frequency planar transformer comprising a dielectric having high relative permittivity, said dielectric preferably being a barium aluminum titanate (BAT) glass ceramic material. The invention additionally relates to the use of a glass ceramic material having high relative permittivity as a dielectric in a radio-frequency planar transformer.
A method for the crystallization of a film made of a thermoplastic film material, in particular a CPET material, to form a product in which a crystallization process is initiated by shaping the thermoplastic film material within a molding tool. A main crystallization of the crystallization process is carried on outside of the molding tool.
B29C 51/44 - Démoulage ou éjection des objets formés
B29C 51/22 - Appareils de thermoformage comportant des moules ou des parties de moule mobiles tournant autour d'un axe
B29C 51/26 - Façonnage par thermoformage, p.ex. façonnage de feuilles dans des moules en deux parties ou par emboutissage profond; Appareils à cet effet - Eléments constitutifs, détails ou accessoires; Opérations auxiliaires
58.
GRIPPER FOR A DRAPING FRAME AND FOR A DEVICE, DRAPING FRAME, DEVICE AND METHOD FOR THE FORMING OF AND/OR COVERING USING A FILM ELEMENT, SYSTEM FOR MANUFACTURING A MOULDED PART OR A COVERED COMPONENT, METHOD FOR RETRO-FITTING A DEVICE OF THIS TYPE, METHOD FOR MANUFACTURING A COVERED COMPONENT
The invention relates to a gripper (2; 170) for a draping frame having a gripper chassis (22; 171) and at least two opposing, mutually movable gripper jaw elements (22; 171) for gripping a film element (20), said gripper jaw elements being provided on a gripper head part (25; 174) of the gripper, and the gripper head part of the gripper being movably mounted, at least with one degree of freedom, relative to the gripper chassis.
B29C 51/26 - Façonnage par thermoformage, p.ex. façonnage de feuilles dans des moules en deux parties ou par emboutissage profond; Appareils à cet effet - Eléments constitutifs, détails ou accessoires; Opérations auxiliaires
B29C 63/00 - Garnissage ou gainage, c. à d. application de couches ou de gainages préformés en matière plastique; Appareils à cet effet
B29C 63/04 - Garnissage ou gainage, c. à d. application de couches ou de gainages préformés en matière plastique; Appareils à cet effet avec des matières sous forme de feuilles ou de nappes par pliage, enroulement, cintrage ou par des opérations similaires
B29C 51/10 - Formage par une différence de pression, p.ex. sous vide
The invention relates to a method for producing a film comprising at least 20 wt% thermoplastic polymer and 50 to 75 wt% inorganic filler, and comprises the steps: providing the mixture, melting the mixture, producing a thin layer from the mixture, cooling the thin layer, producing a film, stretching the film in the longitudinal direction and in the transverse direction, wherein the particle size of the inorganic filler is at most 5 µm and the stretch ratio in the longitudinal direction and in the transverse direction is at least 3.5. The invention further relates to films produced by this method and to the use thereof.
This invention relates to a method for operating a variable-impedance load on an apparatus, consisting of a planar transformer, consisting of at least one primary and one secondary side, which can be operated as input side and output side, respectively, comprising primary and secondary coils, wherein capacitances between turns of a coil form a resonant circuit with inductances of the coil. The invention involves selecting a resonant frequency of the resonant circuit, the resonant frequency coinciding with a frequency of a harmonic to be rejected from an input signal.
The invention relates to a method for operating an impedance-variable load at a device consisting of a planar transformer consisting of at least one primary side and at least one secondary side which can be operated, respectively, as the input side and the output side, said method having the step of representing a virtual HF ground in the point of symmetry of one of the secondary sides with respect to a first impedance.
The invention relates to a plastic-processing joining system and to a method for operating a plastics-processing joining system.
It is known to feed plastics components by means of transport systems for processing purposes to a main material transport means, for example moving film path, in order to produce bags for medical purposes.
Individually controlled movable workpiece carriers for the components are provided, or in addition to a work conveyor path for the workpiece carriers, a path for temporary parking is provided for a separate multitude of workpiece carriers.
B29C 65/00 - Assemblage d'éléments préformés; Appareils à cet effet
B29C 65/78 - Moyens pour la manipulation des éléments à assembler, p.ex. pour la fabrication de récipients ou d'objets creux
B65G 17/12 - Transporteurs comportant un élément de traction sans fin, p.ex. une chaîne transmettant le mouvement à une surface porteuse de charges continue ou sensiblement continue, ou à une série de porte-charges individuels; Transporteurs à chaîne sans fin dans lesquels des chaînes constituent la surface portant la charge comprenant une série de porte-charges individuels fixés ou normalement fixés à l'élément de traction
B65G 54/02 - Transporteurs non mécaniques, non prévus ailleurs électrostatiques, électriques ou magnétiques
B29C 65/02 - Assemblage d'éléments préformés; Appareils à cet effet par chauffage, avec ou sans pressage
The invention relates to a biaxially oriented polypropylene film (BOPP) comprising layers (A) to (D), wherein layers (B) to (D) contain biaxially oriented polypropylene and layer (A) contains polyurethane and nanoparticles and has a layer thickness of 25 to 300 nm, layer (B) contains polymers with functional groups that are capable of forming covalent bonds with polyurethane and is directly connected to layer (A), layer (C) has at least one layer thickness of 50% of the total thickness of the film, and layer (D) represents an outer layer of the film containing an anti-blocking agent. The invention also relates to a method for producing films of this type.
B32B 7/10 - Liaison entre couches au moins une des couches ayant des propriétés inter-réactives
B32B 27/08 - Produits stratifiés composés essentiellement de résine synthétique comme seul composant ou composant principal d'une couche adjacente à une autre couche d'une substance spécifique d'une résine synthétique d'une sorte différente
B32B 27/20 - Produits stratifiés composés essentiellement de résine synthétique caractérisée par l'emploi d'additifs particuliers utilisant des charges, des pigments, des agents thixotropiques
B32B 27/32 - Produits stratifiés composés essentiellement de résine synthétique comprenant des polyoléfines
B32B 27/40 - Produits stratifiés composés essentiellement de résine synthétique comprenant des polyuréthanes
B32B 37/00 - Procédés ou dispositifs pour la stratification, p.ex. par polymérisation ou par liaison à l'aide d'ultrasons
64.
VENTILATION MODULE FOR A FILM STRETCHING SYSTEM AND FILM STRETCHING SYSTEM OF THIS TYPE
The invention relates to a ventilation module (3) for a film stretching system (1) comprising at least one first outlet nozzle arrangement (8) having an outlet nozzle (8a), wherein the at least one outlet nozzle (8a) extends with its longitudinal direction (5) transverse or perpendicular to the withdrawal direction (4) of a plastic film web (2) and is oriented in parallel to the transport plane (7). A first return system (9) is provided with at least two extraction channels (10a, 10b), each having an extraction region (11a, 11b). The at least two extraction regions (11a, 11b) are spaced apart from one another in the withdrawal direction (4) and oriented in parallel to the transport plane (7). The at least one outlet nozzle (8a) of the at least one first outlet nozzle arrangement (8) is arranged between the first and the second extraction region (11a, 11b). The at least two extraction regions (11a, 11b) are arranged exclusively before and/or after the at least one first outlet nozzle arrangement (8) in the withdrawal direction (4) of the plastic film web (2).
Method of forming, in particular a thermoforming method, a foil into a container, in particular a brewing container, especially a coffee capsule, using a plug assist and/or pressure difference in axial main forming direction, directing the foil into a forming tool creating a blank with a cavity and pressing the foil towards the forming tool bottom in order to create a floor for the blank and characterising the method in that the floor of the blank experiences a material distribution, especially a material shifting and/or material compression, during which a constant pressure difference within the blank's cavity is guaranteed and a circumferential annular gap is created.
The invention relates to a punch press for punching out punching products such as motor vehicle components, particularly instrument panels, inside door panels or the like, comprising a base having a punching tool with a lower tool and an upper tool, a machine table for holding said lower tool, and a displacement device for displacing the upper tool relative to the lower tool, wherein the punch press and particularly the punching tool, the machine table and the displacement device are configured for replacement of the punching tool for a punching product replacement step, in order to reequip the punch press with new punching products for punching.
B26F 1/02 - Perforation par poinçonnage, p.ex. avec un mouvement de va-et-vient du poinçon et du banc l'un par rapport à l'autre
B26F 1/38 - Découpage; Découpage à l'emporte-pièce
B26D 5/00 - Dispositions pour manœuvrer et commander les machines ou les dispositifs de coupe, découpage, poinçonnage, perforation ou séparation autrement que par coupe
B26D 7/32 - Moyens pour exécuter d'autres opérations en combinaison avec la coupe pour transporter ou empiler le produit coupé
B21D 37/14 - Aménagements particuliers pour manipuler et maintenir en place les matrices complètes
B21D 28/02 - Découpage à l'emporte-pièce ou poinçonnage de flans ou d'objets, avec ou sans production de déchets; Entaillage
B26F 1/40 - Découpage; Découpage à l'emporte-pièce utilisant une presse, p.ex. du type à pilon
B26D 5/08 - Moyens pour actionner l'outil de coupe afin d'effectuer la coupe
B26F 1/44 - Outils de coupe à cet effet; Matrices à cet effet
B26D 7/26 - Moyens de montage ou de réglage de l'outil de coupe; Moyens de réglage de la course de l'outil de coupe
B29L 31/30 - Véhicules, p.ex. bateaux ou avions, ou éléments de leur carrosserie
67.
Tool for HF welding, installation for producing a bag for medical purposes and method for operating such an installation
A system and method for producing a medical bag with an HF welder that uses upper and lower dies each having a plurality of electrode lamellae arranged such that they are alternatingly polarized relative to adjacent lamellae and opposing lamellae. Interspersed dielectric materials may be used to impart contours onto the film material to produce a patterned bag.
B65D 75/58 - Dispositifs d'ouverture ou servant à retirer le contenu, ajoutés ou incorporés lors de la confection du paquet
B65B 61/18 - Dispositifs accessoires, non prévus ailleurs, opérant sur feuilles, flans, bandes, attaches, réceptacles ou paquets pour appliquer ou incorporer des éléments d'ouverture ou de déballage des paquets, p.ex. bandes de déchirure
B31B 70/84 - Formation ou fixation de moyens pour le remplissage ou la distribution du contenu, p.ex. de valves ou de becs verseurs
68.
Mould, mould system, thermoforming device, and method for thermoforming
The mould comprises a base plate and a plurality of forming areas, wherein each forming area comprises a cavity in the base plate and a forming sleeve placed in the cavity. Each forming area further comprises first heat means for heating or keeping heated the forming sleeve relative to the base plate, such that the temperature of the part of the film which lies against the forming sleeve during cooling remains above a glass temperature of the plastic long enough to obtain a product with an at least partially crystalline structure.
A device and method for thermoforming of a product from a plastic film includes a mould assembly which is used in such a device. The plastic film is clamped between the mould parts in primary and secondary manner. The forming process can hereby be divided into more or less independent zones. Different forming techniques, positive or negative, can be used in the different zones. This makes it possible to combine the advantages of the two techniques in one forming process.
B29C 51/04 - Thermoformage combiné avec un pré-étirage, p.ex. étirage biaxial
B29C 51/08 - Emboutissage profond ou façonnage dans des moules en deux parties, c. à d. en utilisant uniquement des moyens mécaniques
B29C 51/36 - Moules spécialement adaptés au formage sous vide
B29C 51/32 - Moules comportant des moyens de découpage
B29C 51/26 - Façonnage par thermoformage, p.ex. façonnage de feuilles dans des moules en deux parties ou par emboutissage profond; Appareils à cet effet - Eléments constitutifs, détails ou accessoires; Opérations auxiliaires
70.
SLIDING ELEMENT, IN PARTICULAR FOR A STRETCHING INSTALLATION AND/OR CONVEYOR CHAIN, AND ASSOCIATED STRETCHING INSTALLATION OR CONVEYOR CHAIN
The invention relates to a sliding element, in particular for a stretching installation and/or a conveyor chain, comprising graphite or electrographite, wherein the sliding element has pores which have an open pore size of ≥ 7.5 % by volume, and wherein the particle size of the graphite particles used as a starting material for the sliding elements is between 3 µm and 15 µm.
B29C 55/08 - Façonnage par étirage, p.ex. étirage à travers une matrice; Appareils à cet effet de plaques ou de feuilles suivant un seul axe, p.ex. étirage oblique coupant la direction d'alimentation
F16C 33/16 - Surface de glissement principalement constituée de graphite
B29C 55/16 - Etirage suivant plusieurs axes suivant deux axes simultanément
The invention relates to a method for the crystallisation of a film (102, 202, 2, 302, 402, 502, 602) made of a thermoplastic film material, in particular a CPET material, to form a product (512), in which a crystallisation process is initiated by shaping the thermoplastic film material within a moulding tool (118), wherein a main crystallisation (50) of the crystallisation process is carried out outside of said moulding tool (118).
B29C 51/26 - Façonnage par thermoformage, p.ex. façonnage de feuilles dans des moules en deux parties ou par emboutissage profond; Appareils à cet effet - Eléments constitutifs, détails ou accessoires; Opérations auxiliaires
B29C 51/22 - Appareils de thermoformage comportant des moules ou des parties de moule mobiles tournant autour d'un axe
The invention relates to a method for the crystallisation of a film (102, 202, 2, 302, 402, 502, 602) made of a thermoplastic film material, in particular a CPET material, to form a product (512), in which a crystallisation process is initiated by shaping the thermoplastic film material within a moulding tool (118), wherein a main crystallisation (50) of the crystallisation process is carried out outside of said moulding tool (118).
B29C 51/26 - Façonnage par thermoformage, p.ex. façonnage de feuilles dans des moules en deux parties ou par emboutissage profond; Appareils à cet effet - Eléments constitutifs, détails ou accessoires; Opérations auxiliaires
Machines and machine tools, except injection molding machines, namely, machines and machine tools for the forming of materials, namely, metalworking machine tools; motors and engines except for land vehicles; machine couplings and transmission components except for land vehicles; machines for the vacuum forming and pneumatic forming of plastic sheets and plastic films; machines for the vacuum forming and pneumatic forming of plastic sheets and plastic films for packaging, in particular for manufacturing transparent packaging; machines for vacuum forming and pneumatic forming and pressing, and machines for the mechanical compressing of plastic sheets and plastic films, and the laminating of plastic sheets and plastic films, as well as plastic-coated and non-coated textile materials on preformed backing elements for manufacturing compound elements, in particular for the automobile industry, namely, dashboards and interior trim; moulds and machine tools, namely, tools for forming, pressing and laminating plastic for the aforesaid machines, except injection molding machines; automatic machines for feeding plastic films, textiles, plastic sheets and backing elements into the aforesaid machines; automatic machines for transferring and removing parts manufactured in the aforesaid machines; machines for sorting and stacking goods manufactured in the aforesaid machines; machines for tearing off articles manufactured in the aforesaid machines along the structure within a film; machines for removing waste parts during the manufacture of articles in the aforesaid machines; stamps, namely, punching presses for pre-punching and punching out articles manufactured in the aforesaid machines from plastic films and plastic sheets; longitudinal cutting and cross-cutting machines and installations constructed therefrom, for cutting articles manufactured in the aforesaid machines from plastic films and plastic sheets; machines for manufacturing mono-extruded and co-extruded plastic films and plastic sheets; waste shredding mills for manufacturing plastic granules; installations mainly constructed from the aforesaid machines, namely, plastic processing machines; automatic machines and apparatus for manufacturing thermoformed parts; radio frequency generating machines for welding textiles, plastics, infusion bags, dialysis bags, multi-chamber bags, blood bags, colostomy bags, urine bags, drainage bags, urine catheters, blister packaging, drill-bit bags, passport wallets, cart interior-trim components, headrests, vehicle carpets, roof liners, sun-visors, seat covers, dashboards; high-frequency electric welding machines; ultrasound and vibration electric welding machines; hot air electric welding machines; thermocontact electric welding machines; heat impulse electric welding machines; industrial machines for paper gluing and fabric setting in the clothing industry using high-frequency heating and drying; single-column and portal-type electric welding presses; automatic machines for feeding the aforesaid machines with films and auxiliary materials, namely, stiffening materials; automatic machines for assembling and transferring the parts manufactured in the aforesaid machines; automatic machines for manufacturing packaging from thermoformed plastic films and plastic sheets, and from plastic films and plastic sheets welded using high-frequency energy; mechanical apparatus for tearing off articles manufactured in the aforesaid machines along the structure within a film; mechanical apparatus for removing waste parts during the manufacture of articles in the aforesaid machines; machine tools, namely, welding tools for the aforesaid machines; automatic stamping and punching presses for plastics; mechanical large die-stamping machines; heat contact gluing machines, in particular for gluing glass and metal parts; assembly lines, namely, a series of machines for the positioning and gluing of plastic, metal and ceramic parts onto interior and exterior trim during automobile assembly; longitudinal cutting and cross-cutting machines for films; installations, namely, a series of assembly line machines for forming, cutting and stacking parts of packages in successive stages; rotational molding installations for manufacturing film skins, mainly for the automobile sector
74.
DEVICE AND METHOD FOR LAMINATING A LAMINATING FOIL ELEMENT ONTO A COMPONENT, DEVICE AND METHOD FOR APPLYING ADHESIVE, SYSTEM FOR LAMINATING, COMPONENT TO BE LAMINATED WITH A LAMINATING FOIL ELEMENT, AND USE OF A DEPOSIT PART FOR KEEPING READY A LAMINATING FOIL ELEMENT
The invention relates to a device for laminating a laminating foil element onto a component having a profiled lamination plane using a lamination tool, by means of which tool the laminating foil element is laminated onto the component, the lamination tool comprising a first tool half and a second tool half, and the device comprising a deflection arrangement for deflecting portions of the laminating foil element out of the profiled lamination plane.
B29C 63/02 - Garnissage ou gainage, c. à d. application de couches ou de gainages préformés en matière plastique; Appareils à cet effet avec des matières sous forme de feuilles ou de nappes
B60R 13/02 - Moulures décoratives; Gouttières; Garnitures des parois; Pavillons ou garnitures des toits
B29C 65/48 - Assemblage d'éléments préformés; Appareils à cet effet en utilisant des adhésifs
B32B 37/12 - Procédés ou dispositifs pour la stratification, p.ex. par polymérisation ou par liaison à l'aide d'ultrasons caractérisés par l'usage d'adhésifs
75.
FILM MOLDING TOOL, METHOD FOR PRODUCING A FILM MOLDING TOOL AND USE OF A FILM MOLDING TOOL
The invention relates to a film molding tool for laminating a component with a laminating element or for molding a thermoplastic film from a grained geometry, an alternative method for lower die production and the use of a corresponding film molding tool. In particular, the invention relates to a production method for a lower die that reduces both production time and production costs, exhibits long service lives and also provides high molding quality. To do this, a thin shell mold of a film molding tool is produced from nickel by means of electrochemical deposition and stiffened by means of metal spraying, wherein the metal spray layer incorporates a honeycomb-shaped woven fabric.
The invention relates to a film molding tool for laminating a component with a laminating element or for molding a thermoplastic film with a grained geometry, to an alternative method for producing grain shells, and to the use of a corresponding film molding tool. In particular, the invention relates to a method for producing grain shells, said method saving on production time and production costs, producing long service lives, and additionally allowing a high molding quality. For this purpose, the molding shell of a film molding tool is provided with a ceramic layer which has a grained structure and thus allows the grained structure to be transferred onto the laminating element during the lamination method.
In order significantly to reduce the risk of contamination of a bag for medical purposes, in particular due to residual particles of tube material caused during cutting of a tube for access to the bag, the invention proposes a system (1) for producing a bag for medical purposes, comprising a tube transfer station (2) with a transfer means (3) for transferring a tube (11) coming into the tube transfer station (2) to a holder (10) and for the severing there of a tube section (17) transferred to the holder (10) from a remaining portion (18) of the incoming tube (11) in order subsequently to be able to make the severed tube section (17) connectable to two film layers for forming an access to the bag, wherein the tube transfer station (2) has a tube-tension-holding means (15) on the holder side and also a tube-pulling means (16), which means are designed to introduce tensile forces (19) between the severed tube section (17) and the remaining portion (18) of the incoming tube (11) while the severing takes place.
B26D 3/16 - Coupe de tiges ou de tubes transversalement
B26D 7/14 - Moyens de traitement de la pièce ou de l'outil de coupe pour faciliter la coupe par mise en tension de la pièce
B26D 1/04 - Coupe d'une pièce caractérisée par la nature ou par le mouvement de l'élément coupant; Appareils ou machines à cet effet; Eléments coupants à cet effet comportant un élément qui ne suit pas le mouvement de la pièce ayant un élément coupant se déplaçant linéairement
B29C 65/00 - Assemblage d'éléments préformés; Appareils à cet effet
DEVICE FOR USE WITH A THERMOFORMING SYSTEM, TENTER FRAME FOR USE WITH A THERMOFORMING SYSTEM, THERMOFORMING SYSTEM AND METHOD FOR SETTING UP OR REFITTING A THERMOFORMING SYSTEM
The invention relates to a device (1) for use with a system (3) for thermoforming semi-finished goods (4), particularly for vacuum laminating a film element (5) on a carrier part, comprising a tenter frame (2) having a holding device (20) for holding a tool used to work the semi-finished goods, a pressure difference transducer (25) for producing a negative pressure or an excess pressure in at least one region (26) of the device (1) the pressure of which can be manipulated, spaces (30, 31, 32, 33) resulting between the tenter frame (2) and the holding device (20) and/or the tool, and a sealing device (40) comprising flat sealing elements (45, 46, 47, 48) for the face sealing of the spaces (30, 31, 32, 33) in order to seal off the at least one region (26) the pressure of which can be manipulated with respect to the surroundings (49), characterized in that a variable-surface sealing face (50) can be produced by at least one of the planar sealing elements (45, 46, 47, 48), by which the spaces (30, 31, 32, 33) can be sealed.
B29C 51/10 - Formage par une différence de pression, p.ex. sous vide
B29C 51/26 - Façonnage par thermoformage, p.ex. façonnage de feuilles dans des moules en deux parties ou par emboutissage profond; Appareils à cet effet - Eléments constitutifs, détails ou accessoires; Opérations auxiliaires
The aim of the invention is to avoid the risk of contamination of a bag for medical purposes, in particular to significantly reduce the amount of residual particles of material during the cutting of a tube for access to the bag. The invention proposes a system (1) for producing a bag for medical purposes comprising a tube transfer station (2) having transfer means (3) for transferring a tube (11), which is being transported towards the tube transfer station (2), to a holder (10) and for separating there a tube section (17) transferred to the holder (10) from a remainder (18) of the tube (11), in order to then render the separated tube section (17) connectible to two film layers to form an access to the bag. The tube transfer station (2) comprises at least one air nozzle (55, 57), and an effective area (58) of the at least one air nozzle (55, 57) is directed onto a designated location (20) for separation such that a forced air flow (56) in the designated location (20) forced by air blown out and/or drawn in can be adjusted for separation.
B29C 65/00 - Assemblage d'éléments préformés; Appareils à cet effet
B26D 7/00 - COUPE; DÉTAILS COMMUNS AUX MACHINES POUR PERFORER, DÉCOUPER À L'EMPORTE-PIÈCE, DÉCOUPER, POINÇONNER OU SÉPARER - Parties constitutives de l'appareillage de coupe, découpage, poinçonnage, perforation ou séparation autrement que par coupe
B26D 3/00 - Coupe d'une pièce caractérisée par la nature de la coupe; Appareillage à cet effet
A61J 1/00 - Récipients spécialement adaptés à des fins médicales ou pharmaceutiques
A61M 39/00 - Tubes, raccords ou accouplements pour tubes, soupapes, voies d'accès ou similaires, spécialement adaptés pour un usage médical
B29C 65/78 - Moyens pour la manipulation des éléments à assembler, p.ex. pour la fabrication de récipients ou d'objets creux
B26D 7/18 - Moyens d'enlèvement des matériaux découpés ou des chutes
B26D 3/16 - Coupe de tiges ou de tubes transversalement
The invention relates to a device for welding a connection region of a film to a connection part having an axial direction. In the case of conventional devices, there is the risk of steep workpiece edges causing uncontrolled weak spots in the film and in the weld seam. According to the invention, the film is extended in a controlled manner such that the film has a length reserve. The film is extended in such a way that the film has a deformation cross-section that runs out such that the deformation is not visible on the final product. In this connection, the invention further relates to a use of a film, to a method for welding, to a method for producing bags, to a system for producing bags, and to a bag.
The invention relates to a device (1) for filling a bag (2), a bag contour sealing tool for producing a bag, a sealing tool for sealing a bag, a method for filling a bag, a method for producing a bag, a system for producing and filling a bag and a bag which is produced and filled using said system or has been produced using a bag contour sealing tool. The invention enables a bag to be filled, in particular a bag for medical purposes, without the need for the bag to have a filling port. As a result, resources and costing can be saved and there is harm to the environment.
B65B 39/08 - Ajutages, entonnoirs ou guides pour introduire des objets ou matériaux dans les réceptacles ou les emballages adaptés pour soutenir les réceptacles ou emballages au moyen de crampons
B65D 33/00 - MANUTENTION; EMBALLAGE; EMMAGASINAGE; MANIPULATION DES MATÉRIAUX DE FORME PLATE OU FILIFORME ÉLÉMENTS D'EMBALLAGE; PAQUETS - Parties constitutives ou accessoires pour sacs ou sachets
B65B 3/00 - Emballage de matériaux plastiques, de semi-liquides, de liquides ou de liquides et solides mélangés, dans des réceptacles ou récipients individuels, p.ex. dans des sacs ou sachets, boîtes, cartons, bidons ou pots
B29C 65/02 - Assemblage d'éléments préformés; Appareils à cet effet par chauffage, avec ou sans pressage
B29C 65/48 - Assemblage d'éléments préformés; Appareils à cet effet en utilisant des adhésifs
09 - Appareils et instruments scientifiques et électriques
11 - Appareils de contrôle de l'environnement
37 - Services de construction; extraction minière; installation et réparation
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Machines and machine tools for the treatment of materials
and production purposes; machines and machine tools for the
treatment and production of plastic plates and plastic
foils; machine tools for working metals; motors, other than
for land vehicles; machine couplings and transmission
components (except for land vehicles); forming and
laminating machines and forming and laminating installations
constructed therefrom; press laminating machines; vacuum
forming machines; machines for vacuum forming and pneumatic
forming of plastic plates and plastic foils; machines for
vacuum forming and pneumatic forming of plastic plates and
plastic foils for packaging, in particular for manufacturing
transparent packaging; machines for vacuum forming and
pneumatic forming as well as presses and devices for
mechanical pressing of plastic plates and plastic foils and
laminating the plastic plates and plastic foils as well as
plastic-coated and coating-free textile materials onto
preformed carriers for producing composite elements, such as
dashboards, interior lining and interior lining parts, in
particular for the automotive industry; thermoforming
machines; thermoforming machines for coated films; folding
machines and installations constructed therefrom; edge
folding machines and installations constructed therefrom;
machines for folding edges of plastic parts; agricultural
machines; extruders; blowers; riveting machines; stamping
calender for plastics; shredding, cutting and granulating
machines for foils; moulds and machine tools for the
aforesaid machines; cutting machine components, namely
waterjet supports for cutting installations; robots for
conveying plastic foils, textiles, plastic plates and
carriers to the aforesaid machines; robots for transferring
and discharging the parts produced in the aforesaid
machines; machines for sorting and piling the goods produced
in the aforesaid machines; machines for pulling out
assembled articles within a foil produced on the aforesaid
machines; machines for removing waste parts during the
production of articles on the aforesaid machines; punching
machines; die cutters (machines) for pre-cutting and
die-cutting articles produced out of the plastic foils and
plastic plates on the aforesaid machines; slitting and
cross-cutting machines and installations constructed
therefrom for cutting articles produced from plastic foils
and plastic plates on the aforesaid machines; machines for
producing mono-extruded and co-extruded plastic foils and
plastic plates; waste shredders for producing plastic
granules; installations for producing thermoformed parts,
mainly constructed from the aforesaid pressing, stamping,
cutting, granulating machines and extruders; high frequency
generators; high frequency welding machines; ultrasound and
vibration welding machines; hot air welding machines;
thermo-contact welding machines; heat impulse welding
machines; friction welding machines; foil welding machines;
plastic foils welding machines; welding presses, in single
column and portal design; robots for feeding the aforesaid
machines with foils and auxiliary materials, such as
stiffening materials; robots for gathering and transferring;
machines for producing packages; robots for producing
packages from thermoformed plastic foils and plastic plates
as well as plastic foils and plastic plates welded by using
high-frequency energy; mechanical appliances for pulling out
assembled articles within a foil produced on the aforesaid
machines; mechanical appliances for removing waste parts
that accumulate during the production of articles on the
aforesaid machines; electric machine tools, in particular
welding tools for the aforesaid machines; foaming tools and
moulds (machine tools); pressing and punching machines;
mechanical pressing and stamping tools; pressing machines
for industrial purposes; hot contact gluing machines, in
particular for gluing glass and metal parts; assembly lines
(mainly consisting of the aforesaid machines) for
positioning and gluing plastic, metal and ceramic parts onto
interior and exterior panelling parts, in particular in the
automotive industry; foil slitting and cross-cutting
machines; installations mainly composed of the aforesaid
machines; assembly lines (mainly consisting of the aforesaid
machines) for forming, cutting and stacking of package
parts; rotational moulding machines for manufacturing foil
skins, mainly for the automotive industry; robots
(machines); industrial robots (machines); cup forming
machines; film pre-heating stations; thermoforming machines
for refrigerator inner containers; machines for
manufacturing refrigerator inner doors; machines for
producing food capsules; machines for manufacturing and
filling infusion, dialysis and multi-chamber bags; machines
for manufacturing blood bags; machines for manufacturing
blood filters; machines for manufacturing colostomy bags;
machines for manufacturing catheters; machines for
manufacturing urine bags; filling machines; blister forming
machines; blister closing machines; blister packing
machines; sliding tables; packaging machines; bag packing
machines; machine tools for the aforesaid machines. Measuring apparatus; measuring instruments; measuring
equipment; measuring tools; jigs (measuring instruments);
checking gauge (measuring equipment). Industrial high-frequency heating and drying installations,
in particular for paper gluing and fabric fixation in the
clothing industry. Construction; repair, servicing and maintenance of machines,
installations, robots, mechanical apparatus and accessories;
installation services for machines, installations, robots
and mechanical apparatus included in class 7. Scientific and technological services and research and
design relating thereto; industrial analysis and research;
design and development of computer hardware and software;
technical design of plants for the aforesaid machines,
robots, equipment, apparatus and installations.
09 - Appareils et instruments scientifiques et électriques
11 - Appareils de contrôle de l'environnement
37 - Services de construction; extraction minière; installation et réparation
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Machines and machine tools for the treatment of materials
and production purposes; machines and machine tools for the
treatment and production of plastic plates and plastic
foils; machine tools for working metals; motors, other than
for land vehicles; machine couplings and transmission
components (except for land vehicles); forming and
laminating machines and forming and laminating installations
constructed therefrom; press laminating machines; vacuum
forming machines; machines for vacuum forming and pneumatic
forming of plastic plates and plastic foils; machines for
vacuum forming and pneumatic forming of plastic plates and
plastic foils for packaging, in particular for manufacturing
transparent packaging; machines for vacuum forming and
pneumatic forming as well as presses and devices for
mechanical pressing of plastic plates and plastic foils and
laminating the plastic plates and plastic foils as well as
plastic-coated and coating-free textile materials onto
preformed carriers for producing composite elements, such as
dashboards, interior lining and interior lining parts, in
particular for the automotive industry; thermoforming
machines; thermoforming machines for coated films; folding
machines and installations constructed therefrom; edge
folding machines and installations constructed therefrom;
machines for folding edges of plastic parts; agricultural
machines; extruders; blowers; riveting machines; stamping
calender for plastics; shredding, cutting and granulating
machines for foils; moulds and machine tools for the
aforesaid machines; cutting machine components, namely
waterjet supports for cutting installations; robots for
conveying plastic foils, textiles, plastic plates and
carriers to the aforesaid machines; robots for transferring
and discharging the parts produced in the aforesaid
machines; machines for sorting and piling the goods produced
in the aforesaid machines; machines for pulling out
assembled articles within a foil produced on the aforesaid
machines; machines for removing waste parts during the
production of articles on the aforesaid machines; punching
machines; die cutters (machines) for pre-cutting and
die-cutting articles produced out of the plastic foils and
plastic plates on the aforesaid machines; slitting and
cross-cutting machines and installations constructed
therefrom for cutting articles produced from plastic foils
and plastic plates on the aforesaid machines; machines for
producing mono-extruded and co-extruded plastic foils and
plastic plates; waste shredders for producing plastic
granules; installations for producing thermoformed parts,
mainly constructed from the aforesaid pressing, stamping,
cutting, granulating machines and extruders; high frequency
generators; high frequency welding machines; ultrasound and
vibration welding machines; hot air welding machines;
thermo-contact welding machines; heat impulse welding
machines; friction welding machines; foil welding machines;
plastic foils welding machines; welding presses, in single
column and portal design; robots for feeding the aforesaid
machines with foils and auxiliary materials, such as
stiffening materials; robots for gathering and transferring;
machines for producing packages; robots for producing
packages from thermoformed plastic foils and plastic plates
as well as plastic foils and plastic plates welded by using
high-frequency energy; mechanical appliances for pulling out
assembled articles within a foil produced on the aforesaid
machines; mechanical appliances for removing waste parts
that accumulate during the production of articles on the
aforesaid machines; electric machine tools, in particular
welding tools for the aforesaid machines; foaming tools and
moulds (machine tools); pressing and punching machines;
mechanical pressing and stamping tools; pressing machines
for industrial purposes; hot contact gluing machines, in
particular for gluing glass and metal parts; assembly lines
(mainly consisting of the aforesaid machines) for
positioning and gluing plastic, metal and ceramic parts onto
interior and exterior panelling parts, in particular in the
automotive industry; foil slitting and cross-cutting
machines; installations mainly composed of the aforesaid
machines; assembly lines (mainly consisting of the aforesaid
machines) for forming, cutting and stacking of package
parts; rotational moulding machines for manufacturing foil
skins, mainly for the automotive industry; robots
(machines); industrial robots (machines); cup forming
machines; film pre-heating stations; thermoforming machines
for refrigerator inner containers; machines for
manufacturing refrigerator inner doors; machines for
producing food capsules; machines for manufacturing and
filling infusion, dialysis and multi-chamber bags; machines
for manufacturing blood bags; machines for manufacturing
blood filters; machines for manufacturing colostomy bags;
machines for manufacturing catheters; machines for
manufacturing urine bags; filling machines; blister forming
machines; blister closing machines; blister packing
machines; sliding tables; packaging machines; bag packing
machines; machine tools for the aforesaid machines. Measuring apparatus; measuring instruments; measuring
equipment; measuring tools; jigs (measuring instruments);
checking gauge (measuring equipment). Industrial high-frequency heating and drying installations,
in particular for paper gluing and fabric fixation in the
clothing industry. Construction; repair, servicing and maintenance of machines,
installations, robots, mechanical apparatus and accessories;
installation services for machines, installations, robots
and mechanical apparatus included in class 7. Scientific and technological services and research and
design relating thereto; industrial analysis and research;
design and development of computer hardware and software;
technical design of plants for the aforesaid machines,
robots, equipment, apparatus and installations.
84.
Thermoforming device, mold assembly, mold, and method
A thermoforming device is described. It relates to a mold assembly including a first and second mold, and to a mold that can be used in a thermoforming device. It also relates to a method for thermoforming a product. The thermoforming device is characterized in that the thermoforming device comprises a second pre-stretcher, in addition to a first pre-stretcher and a calibration element, and that the second pre-stretcher is at least partially and moveably arranged in a second mold body. A movement relative to the second mold body and towards the same forming cavity of the first pre-stretcher, the second pre-stretcher, and the calibration element, can be individually controlled, and the second pre-stretcher at least partially surrounds the first pre-stretcher and the calibration element.
B29C 51/04 - Thermoformage combiné avec un pré-étirage, p.ex. étirage biaxial
B29C 51/10 - Formage par une différence de pression, p.ex. sous vide
B29C 51/26 - Façonnage par thermoformage, p.ex. façonnage de feuilles dans des moules en deux parties ou par emboutissage profond; Appareils à cet effet - Eléments constitutifs, détails ou accessoires; Opérations auxiliaires
B29C 51/20 - Appareils de thermoformage comportant des moules ou des parties de moule mobiles
B29C 51/38 - Moyens d'ouverture, de fermeture ou de serrage
B29K 105/00 - Présentation, forme ou état de la matière moulée
A thermoforming device is described. It relates to a mold assembly including a first and second mold, and to a mold that can be used in a thermoforming device. It also relates to a method for thermoforming a product. The thermoforming device is characterized in that the thermoforming device comprises a second pre-stretcher, in addition to a first pre-stretcher and a calibration element (19, 20), and that the second pre-stretcher is at least partially and moveably arranged in a second mold body (12, 43). A movement relative to the second mold body (12, 43) and towards the same forming cavity of the first pre-stretcher, the second pre-stretcher, and the calibration element (19, 20), can be individually controlled, arid the second pre-stretcher at least partially surrounds the first pre-stretcher and the calibration element (19, 20).
An improved control apparatus for producing plastic films and an associated improved method are distinguished, inter alia, by the following features: - the control apparatus has two stages or at least two stages, - the control apparatus comprises, for this purpose, a sensor module and/or a sensor model and a process module and/or a process model, - the machine-dependent sensor module and/or sensor model and the production-dependent process module and/or process model are linked or can be linked to one another via production variables, - adjustable machine variables are connected or linked to plant production variables via the sensor module and/or the sensor model.
The invention relates to a system (1) for producing a medical bag (2) from a plastic film (2A), comprising filling means (3) for filling the bag (2) with a liquid through a port (5) of the bag (2), closure means (4) for closing the port (5) after the bag (2) has been filled, different stations (15, 60, 61) where different production steps are carried out, and a transport device (55) for transporting the resulting bag (2) along said stations (15, 60, 61). The system (1) is designed to fill and close the bag (2) at a combination filling and closing station (15).
B65B 3/00 - Emballage de matériaux plastiques, de semi-liquides, de liquides ou de liquides et solides mélangés, dans des réceptacles ou récipients individuels, p.ex. dans des sacs ou sachets, boîtes, cartons, bidons ou pots
B65B 3/04 - Procédés ou moyens pour charger le matériau dans les réceptacles ou récipients
B65B 7/02 - Fermeture des réceptacles ou récipients déformés par le contenu ou en prenant la forme, p.ex. sacs
B65B 39/12 - Ajutages, entonnoirs ou guides pour introduire des objets ou matériaux dans les réceptacles ou les emballages pouvant se rapprocher ou s'éloigner du réceptacle ou de l'emballage durant le remplissage
B65B 43/59 - Moyens pour tenir les réceptacles ou les récipients pendant le remplissage avec déplacement vertical
B65B 7/28 - Fermeture de réceptacles ou récipients semi-rigides ou rigides, non déformés par le contenu ou n'en prenant pas la forme, p.ex. boîtes ou cartons en appliquant des fermetures séparées préformées, p.ex. couvercles, capuchons
88.
DEVICE AND METHOD FOR LAMINATING A FILM PART ONTO A SUPPORT PART, AND METHOD FOR RETROFITTING A TOOL IN ORDER TO LAMINATE A SUPPORT PART WITH A FILM PART
The invention relates to a device (1) for laminating a film part (2), in particular a decorative layer, onto a support part (3), comprising a laminating region (10) in which the film part (2) can be laminated onto the support part (3), in particular onto a motor vehicle interior panel, an edge region (11) which is arranged adjacently to the laminating region (10) and in which the film part (2) projects beyond the support part (3) in order to equip the film part (2) with a bend-around region (20) that can later be bent around a support part edge (14), and a tool (4). The tool (4) has a first tool half (5) for producing a surface design on the film part (2) and a second tool half (6) for receiving the support part (3). Either the first tool half (5) comprises sub-regions (25, 26) which thermally operate differently, namely a first sub-region (25) with a contour (7) for the surface design, said sub-region interacting with the laminating region (10), and a thermal sub-region (26), which interacts with the edge region (11) arranged adjacently to the laminating region (10), or a material recess for deflecting the bend-around region (20) of the film part (2) is arranged on the first tool half outside of the laminating region (10), wherein the material recess can be used to produce a material reservoir for storing an additional length of the bend-around region (20). The invention additionally relates to a method for laminating a film part onto a support part, to a support for producing a component which is laminated with a film layer, and to a method for retrofitting a tool in order to laminate a support part with a film part.
B29C 63/00 - Garnissage ou gainage, c. à d. application de couches ou de gainages préformés en matière plastique; Appareils à cet effet
B29C 63/02 - Garnissage ou gainage, c. à d. application de couches ou de gainages préformés en matière plastique; Appareils à cet effet avec des matières sous forme de feuilles ou de nappes
B29L 31/30 - Véhicules, p.ex. bateaux ou avions, ou éléments de leur carrosserie
B29C 63/04 - Garnissage ou gainage, c. à d. application de couches ou de gainages préformés en matière plastique; Appareils à cet effet avec des matières sous forme de feuilles ou de nappes par pliage, enroulement, cintrage ou par des opérations similaires
B29C 51/08 - Emboutissage profond ou façonnage dans des moules en deux parties, c. à d. en utilisant uniquement des moyens mécaniques
B29C 59/02 - Façonnage de surface, p.ex. gaufrage; Appareils à cet effet par des moyens mécaniques, p.ex. par pressage
89.
DEVICE AND METHOD FOR STRETCHING AND/OR SHAPING AND/OR APPLYING A LAMINATION OF A FILM ELEMENT, AND LAMINATING STATION AND APPARATUS FOR LAMINATING A COMPONENT
The aim of the invention is to further develop conventional devices for stretching and/or shaping and/or applying a lamination of a film element. This aim is achieved, according to the invention, by a device for stretching and/or shaping and/or applying a lamination of a film element, which device comprises a support frame for gripping the film element relative to a shaping tool or to a component to be laminated, and having grippers for gripping the film element, which are mounted so as to be movable relative to the support frame, said device being characterized in that grippers are arranged in a multiaxially adjustable manner relative to the support frame in order to adapt the film element more precisely to a contour of the shaping tool or of the component to be laminated.
B29C 51/04 - Thermoformage combiné avec un pré-étirage, p.ex. étirage biaxial
B29C 51/26 - Façonnage par thermoformage, p.ex. façonnage de feuilles dans des moules en deux parties ou par emboutissage profond; Appareils à cet effet - Eléments constitutifs, détails ou accessoires; Opérations auxiliaires
90.
Thermoforming machine, mold assembly, mold, and method of thermoforming
A thermoforming machine and device are described. The thermoforming device relates to a mold assembly comprising a first and second mold, and to a mold that can be used in a thermoforming process. A method for thermoforming a product is also described. It is noted that the thermoforming device comprises a second pre-stretcher, in addition to a first pre-stretcher and a calibration element, and that the second pre-stretcher is at least partially and moveably arranged inside a second mold body. Movements of the first pre-stretcher, the second pre-stretcher, and the calibration element are configured to be individually controlled.
B29C 51/26 - Façonnage par thermoformage, p.ex. façonnage de feuilles dans des moules en deux parties ou par emboutissage profond; Appareils à cet effet - Eléments constitutifs, détails ou accessoires; Opérations auxiliaires
91.
METHOD AND INSTALLATION FOR PRODUCING A MULTI-LAYERED PRODUCT, SEMI-FINISHED PRODUCT FOR PRODUCING MULTI-LAYERED PRODUCTS, MULTI-LAYERED PRODUCT, AND MULTI-LAYERED FILM LAYER SKELETON
The invention relates to a method for producing a multi-layered product (70) from a plurality of film layers (40), in which the plurality of film layers (40) are shaped in a shaping area (17) so as to obtain said multi-layered product (65, 70), wherein the film layers (40) are assembled and made to overlap, and the overlapping assembled film layers (40) are deformed together but such that their surfaces can be detached from one another, to obtain the multi-layered product (65, 70).
B29C 51/14 - Façonnage par thermoformage, p.ex. façonnage de feuilles dans des moules en deux parties ou par emboutissage profond; Appareils à cet effet de préformes ou de feuilles multicouches
B29B 17/02 - Séparation de matières plastiques des autres matières
92.
METHOD AND SYSTEM FOR TREATING A FILM ELEMENT CONVEYED IN A CONVEYING DIRECTION
The aim of the invention is to develop known methods for stretching films. According to the invention, this is achieved by methods and systems for treating a film element (3) conveyed in a conveying direction (2), wherein the film element is stretched longitudinally and/or transversely in and/or transversely to the conveying direction as a semi-finished blank (10). The film element is transferred on a differentiating section (20) from a first conveying device (S) with a first conveying speed (v1) to a second conveying device (6) with a second conveying speed (v2). The methods are characterized in that at least one difference is set within the semi-finished blank in order to generate differently stretched sections or at least one stretched section (21, 22) and a non-stretch section (23) within the semi-finished blank (10).
B29C 55/06 - Façonnage par étirage, p.ex. étirage à travers une matrice; Appareils à cet effet de plaques ou de feuilles suivant un seul axe, p.ex. étirage oblique parallèle à la direction d'alimentation
B29C 55/08 - Façonnage par étirage, p.ex. étirage à travers une matrice; Appareils à cet effet de plaques ou de feuilles suivant un seul axe, p.ex. étirage oblique coupant la direction d'alimentation
B29L 31/30 - Véhicules, p.ex. bateaux ou avions, ou éléments de leur carrosserie
B29C 63/00 - Garnissage ou gainage, c. à d. application de couches ou de gainages préformés en matière plastique; Appareils à cet effet
B29C 63/02 - Garnissage ou gainage, c. à d. application de couches ou de gainages préformés en matière plastique; Appareils à cet effet avec des matières sous forme de feuilles ou de nappes
B29C 51/08 - Emboutissage profond ou façonnage dans des moules en deux parties, c. à d. en utilisant uniquement des moyens mécaniques
93.
Method and system for manufacturing medical pouches
The invention relates to a system for manufacturing medical pouches and a method for manufacturing medical pouches in a system, said pouch being made from two layers of plastic film and at least one component per pouch, the system comprising a group of positioning aids for the components as well as a group of supports for the positioning aids, the positioning aids being supported on the supports which are conveyed in an endless path with the aid of a guiding mechanism, the system further comprising a component application station designed to bring a component, which has been introduced into the station by a positioning aid with the aid of a support, into a joining connection with the plastic film. The invention is characterized in that on the endless path, the supports are alternately guided first along a process run and then along a return run; the supports are placed at a certain distance from one another in the process run, are accelerated to increase the distance therebetween when the supports travel along the return run, and are decelerated to reduce the distance therebetween again when the supports intermittently travel along the process run. As a result, the system requires fewer product-specific parts.
B65G 35/06 - Transporteurs mécaniques non prévus ailleurs comportant un porte-charges se déplaçant le long d'un circuit, p.ex. d'un circuit fermé, et adapté pour venir en prise avec l'un quelconque des éléments de traction espacés le long du circuit
B31B 70/66 - Assemblage des surfaces ou des bords opposés; Collage par chauffage ou pression par chauffage électrique à haute fréquence
B31B 50/00 - Fabrication de réceptacles rigides ou semi-rigides, p.ex. de boîtes ou de cartons
B31B 70/84 - Formation ou fixation de moyens pour le remplissage ou la distribution du contenu, p.ex. de valves ou de becs verseurs
B31B 70/64 - Assemblage des surfaces ou des bords opposés; Collage par chauffage ou pression
B31B 160/10 - Forme des réceptacles flexibles rectangulaire et plate, c. à d. sans configuration particulière pour tenir compte de l’épaisseur du contenu
94.
TOOL FOR HF WELDING, INSTALLATION FOR PRODUCING A BAG FOR MEDICAL PURPOSES AND METHOD FOR OPERATING SUCH AN INSTALLATION
The invention relates to various aspects of HF welding methods and HF welding devices. When welding in insert parts comprising two films extending in the same axial direction to form a bag, it is proposed that the upper tool (2) and the lower tool (3) each consist of a plurality of electrode lamellae arranged next to one another, wherein the electrode lamellae are oppositely poled alternately along the axial direction of the insert part and perpendicularly to the axial direction. This makes it possible in just one operation for insert parts of almost any desired geometry extending in the same axial direction to be welded in without a central electrode being required. With respect to tools (1) for the HF welding, it is proposed that the electrode lamellae are separated from one another along the axial direction of the insert piece by a dielectric (40), which comprises a solid body. This makes it possible for the method to be carried out with a lower energy consumption. With respect to installations for producing a bag for medical purposes, comprising a film feed, a welding station and preferably a filling station, it is proposed that the installation has a device such as that disclosed here and also a multiplicity of holding bars for holding the insert parts, wherein the holding bars are electrically separated from the HF circuit. This makes it possible for complex components to be produced efficiently.
09 - Appareils et instruments scientifiques et électriques
11 - Appareils de contrôle de l'environnement
37 - Services de construction; extraction minière; installation et réparation
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Machines and machine tools for the treatment of materials and production purposes, namely, machines and machine tools for the cutting and forming of plastic materials; machines and machine tools for the treatment and production of plastic plates and plastic foils; machine tools for working metals; motors, other than for land vehicles; machine couplings and transmission components except for land vehicles; material forming and laminating machines for industrial use and material forming and laminating machinery installations constructed therefrom for industrial use; press laminating machines for industrial use; vacuum forming machines; machines for vacuum forming and pneumatic forming of plastic plates and plastic foils; machines for vacuum forming and pneumatic forming of plastic plates and plastic foils for packaging, in particular for manufacturing transparent packaging; machines for vacuum forming and pneumatic forming as well as presses and devices for mechanical pressing of plastic plates and plastic foils and laminating the plastic plates and plastic foils and for mechanical pressing of plastic-coated and coating-free textile materials onto preformed carriers for producing composite elements in the nature of dashboards, interior lining and interior lining parts, in particular for the automotive industry; thermoforming machines for thermoforming plastics; thermoforming machines for coated films; machines for folding plastic parts and installations comprising machines for folding plastic parts; edge folding machines for edge folding of plastic parts and installations comprising machines for edge folding of plastic parts; machines for folding edges of plastic parts; agricultural machines, namely, tillers, harvesters; extruders, namely, extrusion machines for plastic; power-operated blowers; riveting machine tools for riveting metal and plastics; stamping calender in the nature of stamping presses for plastics; shredding, cutting and granulating machines for foils; machine tools for the aforesaid machines, namely, forging moulds; plastic jet moulding machines; cutting machine components, namely, waterjets sold as integral components of cutting machines; industrial robots for conveying plastic foils, textiles, plastic plates and carriers to the aforesaid machines; industrial robots for transferring and discharging the parts produced in the aforesaid machines; machines for sorting and piling the goods produced in the aforesaid machines; machines for pulling out assembled articles within a foil produced on the aforesaid machines; machines for removing waste parts during the production of articles on the aforesaid machines; punching machines; die cutting machines for pre-cutting and die-cutting of articles produced out of the plastic foils and plastic plates on the aforesaid machines; slitting and cross-cutting machines and machinery installations constructed therefrom for cutting articles produced from plastic foils and plastic plates on the aforesaid machines; machines for producing mono-extruded and co-extruded plastic foils and plastic plates; waste shredders for producing plastic granules; installations in the nature of machines for producing thermoformed parts in the nature of thermoformed plastic trays comprised of pressing, stamping, cutting, and granulating machines and extruders; high-voltage generators; high frequency electric welding machines; ultrasound and vibration electric welding machines; hot air electric welding machines; thermo-contact electric welding machines; heat impulse electric welding machines; friction electric welding machines; foil electric welding machines; plastic foils electric welding machines; electric welding presses, in single column and portal design; industrial robots for feeding the aforesaid machines with foils and auxiliary materials in the nature of stiffening materials; industrial robots for gathering and transferring; machines for manufacturing plastic packaging containers, namely, plastic bottles, plastic capsules, plastic trays, and plastic bags; industrial robots for producing packages from thermoformed plastic foils and plastic plates as well as from plastic foils and plastic plates welded by using high-frequency energy; mechanical appliances, namely, conveyers for pulling out assembled articles within a foil produced on the aforesaid machines; mechanical appliances, namely, machines tools for removing waste parts that accumulate during the production of articles on the aforesaid machines; electric machine tools, in particular welding tools for the aforesaid machines; machine tools, namely, foaming tools and moulds; stamping presses; mechanical pressing and stamping tools, namely, stamping presses; pressing machines for industrial purposes; hot contact gluing machines, in particular for gluing glass and metal parts; assembly lines mainly consisting of machines for positioning and gluing plastic, metal and ceramic parts onto interior and exterior paneling parts, in particular for the automotive industry; foil slitting and cross-cutting machines; installations mainly composed of industrial robots for processing, extruding and packaging plastic items; assembly lines mainly consisting of industrial robots, cutting machines and stacking machines for forming, cutting and stacking of package parts; rotational molding machines for manufacturing foil skins, mainly for the automotive industry; industrial robots; industrial robotic machines for manufacturing plastic packaging containers; paper cup forming machines; thermoforming machines for manufacturing refrigerator inner containers; machines for manufacturing refrigerator inner doors; machines for manufacturing food capsules; machines for manufacturing and filling infusion, dialysis and multi-chamber bags; machines for manufacturing blood bags; machines for manufacturing blood filters; machines for manufacturing colostomy bags; machines for manufacturing catheters; machines for manufacturing urine bags; filling machines; blister pack forming machines; blister pack closing machines; blister pack packing machines; sliding table units as parts of machinery; packaging machines; machines for filling bags; machine tools for the aforesaid machines, namely, taps Measuring apparatus, namely, bevels, seam gauges, ring gauges, strain gauges, snap gauges, plug gauges; measuring instruments, namely, tool measuring instruments, instruments for measuring length; measuring equipment, namely, length measuring gauges; measuring tools, namely, squares for measuring; jiggers; measuring instrument, namely, checking gauge for pressure Industrial high-frequency heating and drying installations, in particular for paper gluing and fabric fixation in the clothing industry Building construction; repair, servicing and maintenance of plastic processing machines, plastic processing machine robots, and machine accessories, namely, machine conveyer belts; installation services for installation of machines, installation of robots and installation of mechanical apparatus in the nature of plastic processing machine robots Scientific and technological services, namely, scientific research, scientific analysis, and scientific testing relating to the production of thermoformed products; research and design in the field of thermoforming machines for plastic; industrial analysis and research in the field of thermoforming machines for plastic; design and development of computer hardware and software; industrial design of plants used for manufacturing thermoforming machines for plastics, industrial robots, industrial equipment for the production of thermoforming machines for plastic and of plants used for manufacturing installations of such thermoforming machines for plastic
96.
FILLING DEVICE FOR FILLING A MEDICAL BAG, METHOD FOR PRODUCING A FILLING DEVICE OF THIS TYPE, AND SYSTEM FOR PRODUCING MEDICAL BAGS FILLED WITH FLUID
The aim of the invention is to further develop filling devices for filling a medical bag, in particular with respect to a solid main body or solid filling block. To achieve this aim, the invention proposes a filling device for filling a medical bag with fluids, the device comprising a main body with fluid channels and valve seats, on which valve devices can be arranged in order to adjust volumetric flow rates of fluid flowing through the fluid channels, the main body being at least partially produced by an additive manufacturing process.
B65B 39/00 - Ajutages, entonnoirs ou guides pour introduire des objets ou matériaux dans les réceptacles ou les emballages
B65B 39/04 - Ajutages, entonnoirs ou guides pour introduire des objets ou matériaux dans les réceptacles ou les emballages avec des passages pour l'échappement ou l'évacuation de l'air
B65B 3/00 - Emballage de matériaux plastiques, de semi-liquides, de liquides ou de liquides et solides mélangés, dans des réceptacles ou récipients individuels, p.ex. dans des sacs ou sachets, boîtes, cartons, bidons ou pots
B33Y 80/00 - Produits obtenus par fabrication additive
The invention relates to a film-drawing machine, including a furnace (1), through which one strand of an endless chain of clamps (4) passes, driven by at least one toothed wheel (8), characterised in that at least one toothed wheel (8) is inside the furnace (1), is rotated by its own gear motor (9) surrounded by a casing (12), placed in the furnace (1) and cooled by cooling means (13, 14), and is mounted on its own movement device (11), so as to pass from a withdrawn position, in which it does not mesh with the chain, to a drive position, in which it meshes with the chain. The invention also relates to a method for starting said film-drawing machine.
METHOD FOR COMBINED IN-MOULD LABELLING AND EMBOSSING OF A PACKAGING PRODUCT AND SYSTEM FOR COMBINED IN-MOULD LABELLING AND EMBOSSING OF A PACKAGING PRODUCT
The invention relates to a method for in-mould labelling and embossing of a packaging product, and to a system for combined in-mould labelling and embossing of a packaging product. Thermoforming is a technique for producing plastic packaging. The method is based on heating a thermoplastic film or plate, which then takes on the spatial shape of a tool form. Thermoform in-mould labelling produces decoration of the product during thermoforming by means of an in-mould labelling tag. The invention proposes that, in a method for in-mould labelling and embossing of a packaging product in a combined tool for a thermoplastic film, a label is used, and in the region of the label an embossing is produced which has a mechanical edge.
In order significantly to reduce the risk of contamination of a bag for medical purposes, in particular due to residual particles of tube material caused during cutting of a tube for access to the bag, the invention proposes a system (1) for producing a bag for medical purposes, comprising a tube transfer station (2) with a transfer means (3) for transferring a tube (11) coming into the tube transfer station (2) to a holder (10) and for the severing there of a tube section (17) transferred to the holder (10) from a remaining portion (18) of the incoming tube (11) in order subsequently to be able to make the severed tube section (17) connectable to two film layers for forming an access to the bag, wherein the tube transfer station (2) has a tube-tension-holding means (15) on the holder side and also a tube-pulling means (16), which means are designed to introduce tensile forces (19) between the severed tube section (17) and the remaining portion (18) of the incoming tube (11) while the severing takes place.
The aim of the invention is to avoid the risk of contamination of a bag for medical purposes, in particular to significantly reduce the amount of residual particles of material during the cutting of a tube for access to the bag. The invention proposes a system (1) for producing a bag for medical purposes comprising a tube transfer station (2) having transfer means (3) for transferring a tube (11), which is being transported towards the tube transfer station (2), to a holder (10) and for separating there a tube section (17) transferred to the holder (10) from a remainder (18) of the tube (11), in order to then render the separated tube section (17) connectible to two film layers to form an access to the bag. The tube transfer station (2) comprises at least one air nozzle (55, 57), and an effective area (58) of the at least one air nozzle (55, 57) is directed onto a designated location (20) for separation such that a forced air flow (56) in the designated location (20) forced by air blown out and/or drawn in can be adjusted for separation.
