The seal plate assembly of this invention includes a base plate, an insulator pad positioned on the base plate, an electric heater pad positioned on the insulator pad and a pair of seal plates positioned on the electric heater pad, all of which have registering vacuum openings formed therein. The base plate, insulator pad, heater pad and seal plates are bolted together. The seal plates have spaced-apart cavities formed therein. A support plate is positioned in each of the cavities with each of the support plates having a length and width which is less than the length and width of the respective cavity to create a vacuum space at the perimeter of the support plates. The support plates are spaced above the bottom of the cavities.

A mechanical connection connects panels edge sides to one another. Adjacent first and second panels can be locked in the horizontal and vertical direction by a substantially perpendicular joining movement. For vertical locking, a locking edge is arranged on the first panel and a locking element that can be displaced relative to the panels is arranged on the second panel. The locking element can be displaced behind the locking edge by a pivoting movement. A locking projection for displacing behind the locking edge and an arcuate guide arm guided in a guide groove of the second panel are designed to be partially withdrawn from the guide groove with a rotary or pivoting movement of the locking element by a leg. The leg projects from the guide groove of the locking element coming into contact with the first panel when being set down in a region below the locking edge.

An explosion-proof housing includes at least one metal housing part having at least one of a housing opening or receiving surface, and a support edge bordering said at least one of a housing opening or receiving surface. A cover part covers said at least one of a housing opening or the receiving surface. The cover part includes a peripheral cover edge which is connected to the support edge in an explosion-proof manner such that in the event of an explosion inside the housing, the explosion is prevented from crossing over to an explosive atmosphere surrounding the housing. A plurality of connection points are formed between the support edge and the cover edge. The connection points include interlocking depressions and protrusions. The protrusions are formed by partial melting of the cover edge. The depressions and the protrusions interlock with play in a longitudinal direction of the housing.

Systems and methods of using ultrasonic welding to form labels with RFID tags are disclosed. The methods can be useful for the production of a large volume of labels such as production with roll-to-roll processing. The labels can be useful for consumer products such as garments. The present invention discloses in one embodiment, a label having a first and second printed fabric label layer such that a radio frequency identification (RFID) inlay is disposed between the two printed fabric layers.

A package that is suitable for packaging an article for collecting or administering a pharmaceutical active substance is disclosed. The package includes a first packaging component that includes a product-contacting sealant layer that includes a first ethylene vinyl alcohol copolymer. The package includes a second packaging component that includes a product-contacting sealant layer that includes a second ethylene vinyl alcohol copolymer. The ethylene content of the second ethylene vinyl alcohol copolymer is equal to or less than about 38 percent and the ethylene content of the first ethylene vinyl alcohol copolymer is greater than the ethylene content of the second ethylene vinyl alcohol copolymer.

A method and device for creating an environmentally sealed connection for transfer between a first region and a second region, the first region and the second region each having an at least partially flexible barrier with connection portions, comprising the following steps: (i) superposition of said connection portions of the barriers in a sandwich arrangement, wherein each connection portion comprises a first area at least partially made of thermo-resistant material and a second area comprising a first welding band zone of a closed geometrical shape, said first and second area of each barrier being arranged to face one another, with the first areas of the two barriers forming the outside layers of the sandwich arrangement, and the second areas of the two barriers forming the inside layers of the sandwich arrangement, wherein the first areas are positioned to cover the first welding band zones of the second zones, (ii) joining the second areas by welding of the first closed welding band zones, whereby a first separation line, comprised inside and along the length of the first welding band zone, is cut as a result of the welding and whereby the barrier areas enclosed by the separation line are welded along their edges to form an insert, which becomes detached from the at least partially flexible barriers, and (iii) distancing the first areas of the super-positioned connection portions from each other, for example by pulling them apart, thereby revealing an opening confined by the welded seam connecting the second areas of the at least partially flexible barriers and joining the first region with the second region.

A method for connecting components having a fibre-reinforced thermoplastic plastic includes provision of a first component with a first joining surface, provision of a second component with a second joining surface, flush placement of the first joining surface against the second joining surface in order to form a connection joint, placement of a friction stir welding tool against the connection joint, or a surface directly adjacent thereto, of at least one of the components, softening of the first component and the second component, in each case in a region adjacent to the connection joint, by rotation of the tool, such that the thermoplastic plastic of the two components locally fuses, and movement of the tool along the connection joint for the purposes of connecting the two components by formation of a fusion seam, wherein portions of reinforcement fibres are stirred in to increase the strength of the fusion seam.

Tool (1) for applying a film onto a target object under the action of heat and/or pressure, comprising a support (11) of a first material and a bar (21) of a second, elastic material, wherein the bar is arranged on the support, and wherein the bar has at least one area (W) that is curved outwards.

A process for packaging a product (P) arranged in a support (4) comprising unrolling a film (10a), transversely cutting the unrolled portion of film (10a) and preparing cut film sheets (18), moving the cut film sheets (18) to a packaging assembly (8) defining at its inside a packaging chamber (24), progressively moving a number of supports (4) inside the packaging chamber (24) of a packaging assembly (8), keeping the packaging chamber (24) open for a time sufficient for a number of supports (4) and for a corresponding number of film sheets (18) to properly position inside said packaging chamber (24), hermetically closing the packaging chamber (24) with the film sheets held above the respective support (4) and at a distance sufficient to allow gas circulation inside the support (4), optionally causing one or both of: a gas withdrawal from the hermetically closed packaging chamber (24) and gas injection of a gas mixture of controlled composition, heat sealing the film sheet (18) to said support (4), wherein the cutting of the film (10a) into film sheets (18) takes place outside the packaging chamber (24) at a station remote from the location where the film sheets are coupled to the supports. An apparatus (1) for performing the above process is also disclosed.

The invention relates to a welding tool and a method for pulse welding films of plastic for medical packs formed as bags. The invention generally provides for the film material that has been plastified during welding, and is consequently free-flowing, to be specifically displaced by increasing the sealing surface area. The displaced film material can for instance compensate for dimensional and form tolerances. At the same time, however, the strength of the welded seam region, which adjoins the interior space of the bag, is not reduced.