Methods to produce thermoformed implants comprising poly-4-hydroxybutyrate homopolymer, copolymer, or blend thereof, including surgical meshes, have been developed. These thermoforms are preferably produced from porous substrates of poly-4-hydroxybutyrate homopolymer or copolymer thereof, such as surgical meshes, by vacuum membrane thermoforming. The porous thermoformed implant is formed by placing a porous substrate of poly-4-hydroxybutyrate homopolymer or copolymer thereof over a mold, covering the substrate and mold with a membrane, applying a vacuum to the membrane so that the membrane and substrate are drawn down on the mold and tension is applied to the substrate, and heating the substrate while it is under tension to form the thermoform. The method is particularly useful in forming medical implants of poly-4-hydroxybutyrate and copolymers thereof, including hernia meshes, mastopexy devices, breast reconstruction devices, and implants for plastic surgery, without exposing the resorbable implants to water and without shrinking the porous substrate during molding.

A blister packaging machine includes: a pocket portion forming unit that forms a pocket portion having a bottom portion and a side portion, in a belt-like container film, and adjusts balance between a thickness of the bottom portion and a thickness of the side portion; an illumination device that is disposed on a downstream side of the pocket portion forming unit, and irradiates the pocket portion with an electromagnetic radiation; an imaging device that is disposed on a side opposite to the illumination device across the container film, and obtains transmitted image data based on the electromagnetic radiation transmitted through the pocket portion; a side portion state detector that detects a state of the thickness of the side portion based on the transmitted image data; and a controller that controls an operation of the pocket portion forming unit.

A blister packaging machine includes: a pocket portion forming unit that forms a pocket portion having a bottom portion and a side portion, in a belt-like container film, and adjusts balance between a thickness of the bottom portion and a thickness of the side portion; an illumination device that is disposed on a downstream side of the pocket portion forming unit, and irradiates the pocket portion with an electromagnetic radiation; an imaging device that is disposed on a side opposite to the illumination device across the container film, and obtains transmitted image data based on the electromagnetic radiation transmitted through the pocket portion; a side portion state detector that detects a state of the thickness of the side portion based on the transmitted image data; and a controller that controls an operation of the pocket portion forming unit.

The invention is directed to a mould configuration (1) suited for use in a thermoforming forming station arranged to form one or more objects comprising a mould (2) made from a polymer material by additive manufacturing and provided a mould volume (6) consisting of a recess (6a) corresponding with the shape of the object as an upper zone (6b). A lower zone is divided from the upper zone by a recess wall (8). The lower zone (7) is provided with one or more open spaces (9) which fluidly connect the lower surface (8a) of the recess wall (8) with one or more openings (10) in the bottom (5) of the mould (2), a heat exchanger module (11) facing the bottom (5) of the mould (2) comprising cooling means (12) and cooling medium displacement means (13) and cooling medium inlet openings (14) and cooling medium outlet openings (15).

A method of forming an automatic dishwashing pouch comprising the steps of: providing a sheet of material (10); identifying one or more regions of the material; heating the material with a heating device having a non-uniform heating profile, the non-uniform heating profile arranged to heat the identified region(s) to a greater temperature than other regions of the material; and forming the material in a mould to form the automatic dishwashing pouch, the automatic dishwashing pouch including a plurality of cavities (12).

A method of forming an automatic dishwashing pouch comprising the steps of: providing a sheet of material (10); identifying one or more regions of the material; heating the material with a heating device having a non-uniform heating profile, the non-uniform heating profile arranged to heat the identified region(s) to a greater temperature than other regions of the material; and forming the material in a mould to form the automatic dishwashing pouch, the automatic dishwashing pouch including a plurality of cavities (12).

A method for assembling shoe components includes the steps of: providing at least two shoe components, a shoe last and a film unit; placing the at least two shoe components on an outer surface of the shoe last; removably covering an assembly of the at least two shoe components and the shoe last with the film unit such that the film unit and the shoe last cooperatively define a confining space therebetween; and pumping air out of the confining space and heating the at least two shoe components to shrink and deform the film unit so as to press the at least two shoe components to adhere tightly to each other.

A method for assembling shoe components includes the steps of: providing at least two shoe components, a shoe last and a film unit; placing the at least two shoe components on an outer surface of the shoe last; removably covering an assembly of the at least two shoe components and the shoe last with the film unit such that the film unit and the shoe last cooperatively define a confining space therebetween; and pumping air out of the confining space and heating the at least two shoe components to shrink and deform the film unit so as to press the at least two shoe components to adhere tightly to each other.

A stacked workpiece in which a sheet material can be more firmly attached to a workpiece body than in the related art is provided.

A stacked workpiece (40) includes a workpiece body (42), and a sheet material (44) stacked on the workpiece body (42). In the workpiece body (42), a workpiece-side protruding portion (42a) that is placed at least in a part of a peripheral portion of the stacked sheet material (44) and that protrudes toward a side of the sheet material (44) is provided, and a thinly-crushed compression portion (44a) is formed in a portion of the sheet material (44) stacked on the workpiece-side protruding portion (42a).

A stacked workpiece in which a sheet material can be more firmly attached to a workpiece body than in the related art is provided.

A stacked workpiece (40) includes a workpiece body (42), and a sheet material (44) stacked on the workpiece body (42). In the workpiece body (42), a workpiece-side protruding portion (42a) that is placed at least in a part of a peripheral portion of the stacked sheet material (44) and that protrudes toward a side of the sheet material (44) is provided, and a thinly-crushed compression portion (44a) is formed in a portion of the sheet material (44) stacked on the workpiece-side protruding portion (42a).