A molding mold includes a shell mold provided with a plurality of vacuum suction holes and a backup mold for backing up the shell mold, a back surface of the shell mold and a front surface of the backup mold having the same shape and being fitted to each other. A ventilation groove is formed on the front surface of the backup mold or the back surface of the shell mold, leaving a receiving surface for receiving a mating surface, a plurality of striped grooves and ridges between the striped grooves are formed on the back surface of the shell mold or the front surface of the backup mold, the striped grooves having a feed pitch of 0.5 mm to 5.0 mm and a processing depth of 0.01 mm to 0.4 mm, and the vacuum suction holes and the ventilation groove communicate with each other through the striped grooves.

A molding mold includes a shell mold provided with a plurality of vacuum suction holes and a backup mold for backing up the shell mold, a back surface of the shell mold and a front surface of the backup mold having the same shape and being fitted to each other. A ventilation groove is formed on the front surface of the backup mold or the back surface of the shell mold, leaving a receiving surface for receiving a mating surface, a plurality of striped grooves and ridges between the striped grooves are formed on the back surface of the shell mold or the front surface of the backup mold, the striped grooves having a feed pitch of 0.5 mm to 5.0 mm and a processing depth of 0.01 mm to 0.4 mm, and the vacuum suction holes and the ventilation groove communicate with each other through the striped grooves.

In a stacked workpiece molding method, a second mold 30 includes through-holes 32 that extend to be opened at a peripheral edge of a workpiece body 42, the through-holes 32 are connected to a first suction device 51 that sucks a sheet material 44, a first mold 20 includes suction holes 22 that extend to be opened at a portion that contacts the workpiece body 42, the suction holes 22 are connected to a second suction device 52 that sucks the workpiece body 42, and in a bonding step of bonding the sheet material 44 to the workpiece body 42, a suction force in the through-holes 32 by the first suction device 51 is set stronger than a suction force in the suction holes 22 by the second suction device 52.

In a stacked workpiece molding method, a second mold 30 includes through-holes 32 that extend to be opened at a peripheral edge of a workpiece body 42, the through-holes 32 are connected to a first suction device 51 that sucks a sheet material 44, a first mold 20 includes suction holes 22 that extend to be opened at a portion that contacts the workpiece body 42, the suction holes 22 are connected to a second suction device 52 that sucks the workpiece body 42, and in a bonding step of bonding the sheet material 44 to the workpiece body 42, a suction force in the through-holes 32 by the first suction device 51 is set stronger than a suction force in the suction holes 22 by the second suction device 52.

The invention relates to a tube head (1, 2) intended to form a packaging, the head (3, 6) being intended to be welded to a tubular skirt (8, 9) in order to form the said packaging, and the tube head (1 2) being thermoformed from a sheet (20, 21). The invention also relates to a method for manufacturing such a tube head (1, 2) and a tube with said head (3, 6).

Respiratory masks made of thermoformed EVA foam are provided. A mask can include a seal that contacts a user's face in use and a housing permanently joined to the seal. Both the seal and housing can be made of EVA foam. The seal and housing can be made of EVA foam having different densities. The mask can further include a frame removably or permanently coupled the housing. Headgear can be coupled to the frame and can couple the mask to the user's face in use.

A tool for thermoforming a container having a base and an upstanding sidewall walls or walls. The tool includes a mould having a profile shaped to form the exterior shape of the container and a plug adapted to be inserted in the mould to define the interior of the container. The plug has a lower face adapted to define the profile of the base of the container. The profile of the lower face of the plug has at least one groove therein defining, in use, a rib upstanding in the interior of the base of the container.

A tool for thermoforming a container having a base and an upstanding sidewall walls or walls. The tool includes a mould having a profile shaped to form the exterior shape of the container and a plug adapted to be inserted in the mould to define the interior of the container. The plug has a lower face adapted to define the profile of the base of the container. The profile of the lower face of the plug has at least one groove therein defining, in use, a rib upstanding in the interior of the base of the container.

The thermoforming assembly includes feeding devices for moving a continuous strip-shaped semi-finished product along a forwarding path, along which a forming mould is arranged defining a forming cavity delimited by a base wall, a first pair of respectively opposed side walls, and a second pair of respectively opposed side walls. Heating devices operate on the strip-shaped semi-finished product near the forming mould, and forming devices are operatively associated with the forming mould and configured to conform the strip-shaped semi-finished product against the base wall and the side walls defining the forming cavity. At least one of the side walls belonging to the second pair is a movable wall, positionable towards and away from the other side wall belonging to the second pair, to vary the dimension of the forming cavity.

The thermoforming assembly includes feeding devices for moving a continuous strip-shaped semi-finished product along a forwarding path, along which a forming mould is arranged defining a forming cavity delimited by a base wall, a first pair of respectively opposed side walls, and a second pair of respectively opposed side walls. Heating devices operate on the strip-shaped semi-finished product near the forming mould, and forming devices are operatively associated with the forming mould and configured to conform the strip-shaped semi-finished product against the base wall and the side walls defining the forming cavity. At least one of the side walls belonging to the second pair is a movable wall, positionable towards and away from the other side wall belonging to the second pair, to vary the dimension of the forming cavity.