The invention is directed to a thermoforming packaging machine (1) for producing sealed packages (2) having a planar surface (3) and a shaped recess (4) comprising a sealing station (6) with a lower sealing tool (7) comprising of a first part (8) provided with a first seal seam support (8a) for supporting a first sealed seam (9) at the outer perimeter (10) of the planar surface (3) of the moulded product (2a) and a second part (11) provided with a second support (11a) provided with a seal seam support opening (12). The second support (11a) supports a second sealed seam (12a) on the planar surface (3) of the moulded product (2a) following the perimeter (13) of the shaped recess (4). The first part (8) and the second part (11) are separate parts which are detachable connected.

An enclosure for an electronic device includes a housing having a wall that defines a cavity that is configured to receive an electronic assembly therein. The wall includes tongue formed at a distal end. A cover includes a top wall and a side surface extending from the top wall to form a chamber. The housing is at least partially received within the chamber and the tongue of the housing is welded to a groove positioned within the chamber. Flash from the weld is contained within the enclosure so that no weld flash is visible on the exterior surface of the enclosure.

An enclosure for an electronic device includes a housing having a wall that defines a cavity that is configured to receive an electronic assembly therein. The wall includes tongue formed at a distal end. A cover includes a top wall and a side surface extending from the top wall to form a chamber. The housing is at least partially received within the chamber and the tongue of the housing is welded to a groove positioned within the chamber. Flash from the weld is contained within the enclosure so that no weld flash is visible on the exterior surface of the enclosure.

A type of PVC related disposable gloves and the manufacturing process thereof. The process includes: The PVC resin or its mixture is mixed with a plasticizer to form a glove formula mixture. The films of glove material mixture are formed with the said glove formula mixture. Two layers of the said films of glove material mixture are placed in parallel to form the glove material films. An insulation layer is placed on one side of the glove material films, and a beam of electromagnetic waves is applied and distributed along a path of preset contour onto the surface of the glove material films so that the electromagnetic beam penetrates the glove material films and, as a result, the two layers of the glove material films are effectively sealed and joined along the path of preset contour; or thermal heat is applied and distributed along a path of preset contour onto the surface of the glove material films so that the heating temperature is equal to or higher than the critical point of heat sealing temperature of the glove material films and, as a result, the two layers of the glove material films are effectively sealed and joined along the path of preset contour. Pressure is applied on the glove material films along the path of preset contour so that the two layers of the glove material films are fused integrally along the path of preset contour. A cutting edge is applied along the outer path of preset contour, and the inner part of the path of preset contour including the fused part is separated from the glove material films, while an opening at the wrist is cut, so that a piece of the PVC related disposable glove is formed. This manufacturing process of PVC related disposable gloves greatly reduces environmental pollution and has a very high value for protecting the environment.

A production method for a heat insulation bag with a more regular shape and less heat transfer, the method includes preparing a bag cover, an inner bag and an outer bag; placing a heat insulation layer between the inner bag and the outer bag; and then welding the heat insulation layer, the inner bag and the outer bag together. Improvements of the present invention include the steps of first preparing an inner bag periphery before preparing the inner bag, then welding an inner bag top sheet, welding an inner bag enclosure, cutting off the middle portion of the inner bag top sheet, and then welding a bottom surface of the inner bag, thereby forming an inner bag platform in the inner bag. Thus, heat transfer between the bag cover and the bag body after the production of the heat insulation bag is reduced and the heat insulation effect is improved.

A plastic tank is comprised of two parts, a base and a top, that are permanently joined to each other by welding at a circumferential joint formed by two mating flanges of the parts. The faying surfaces of the flanges of the top and base have portions in the shape of a hollow truncated cone. Fusion weld elements are captured on the faying surfaces of the flanges of the assembled parts, and the elements melted by internal heating of metal portions of the elements.

Methods for modifying contours of substrate surfaces are disclosed. Methods include depositing filler material on a critical mating surface of a substrate so as to render the mating surface more mateable with a matching substrate. The filler material can be deposited within or around features or defects on the mating surface such that a final desired surface contour is achieved. In some cases, the final surface contour of the mating surface is planar. This can prevent gaps associated with the features or defects from forming between the substrate and the matching substrate when they are joined together. The final surface contour of the mating surface can be determined by comparing dimensions of the mating surface to dimensions of a reference surface. In some cases, ink jet printing techniques are used to deposit the filler material accurately in prescribed locations and with precise thickness control.

A carrier (1) for the simultaneous measurement of sealing temperature, sealing time and sealing force in a primary packaging line for ophthalmic lenses comprises a temperature sensing plate (2), a force sensing plate (3), and a supporting plate (4). Temperature sensing plate (2) is arranged atop force sensing plate (3), which is arranged atop supporting plate (4).

A type of PVC related disposable gloves and the manufacturing process thereof. The process includes: The PVC resin or its mixture is mixed with a plasticizer to form a glove formula mixture. The films of glove material mixture are formed with the said glove formula mixture. Two layers of the said films of glove material mixture are placed in parallel to form the glove material films An insulation layer is placed on one side of the glove material films, and a beam of electromagnetic waves is applied and distributed along a path of preset contour onto the surface of the glove material films so that the electromagnetic beam penetrates the glove material films and, as the result, the two layers of the glove material films are effectively sealed and joined along the path of preset contour; Or thermal heat is applied and distributed along a path of preset contour onto the surface of the glove material films so that the heating temperature is equal to or higher than the critical point of heat sealing temperature of the glove material films and, as the result, the two layers of the glove material films are effectively sealed and joined along the path of preset contour. Pressure is applied on the glove material films along the path of preset contour so that the two layers of the glove material films are fused integrally along the path of preset contour. A cutting edge is applied along the outer path of preset contour, and the inner part of the path of preset contour including the fused part is separated from the glove material films, while an opening at the wrist is cut, so that a piece of the PVC related disposable glove is formed. This manufacturing process of the PVC related disposable gloves greatly reduces the environmental pollutions and has a very high value for in protecting the environment.

A packaging container for holding contents such as fresh food. The container comprises a tray having a flange, a pre-formed sealing ring and a flexible film for sealing in the contents of the tray. The sealing ring is made from fiber, filament or tape (FFT) that is shaped into a shape that matches the shape of the tray flange. The sealing ring is adhered to the tray flange by heat welding or other means and the flexible film is adhered to the sealing ring.