Water-soluble films, water-soluble unit dose articles, and related methods of making and using the same.

An appliance and methods are described that include embodiments of a mandibular advancement or positioning device which can use elastic bands to pull the jaw forward. The appliance has an upper plastic tray conforming to the patient's upper teeth and including 3D printed sets of retention hooks coupled to the upper plastic tray via being encased in plastic, one on the right and one on the left anterior buccal portion of an upper plastic base. The appliance also has a lower plastic tray conforming to the patient's lower teeth including mandibular dentition, and includes having a 3D printed bite pad which opens the bite vertically. The lower tray also has a set of 3D printed plastic retention hooks encased in plastic extending outwardly from the teeth, one on the right and one on the left of the posterior buccal portion of the lower plastic base. Elastic bands of different lengths and strengths are attached to both the top and bottom retention hooks on both sides of the trays to pull the mandible forward for treatment.

An appliance and methods are described that include embodiments of a mandibular advancement or positioning device which can use elastic bands to pull the jaw forward. The appliance has an upper plastic tray conforming to the patient's upper teeth and including 3D printed sets of retention hooks coupled to the upper plastic tray via being encased in plastic, one on the right and one on the left anterior buccal portion of an upper plastic base. The appliance also has a lower plastic tray conforming to the patient's lower teeth including mandibular dentition, and includes having a 3D printed bite pad which opens the bite vertically. The lower tray also has a set of 3D printed plastic retention hooks encased in plastic extending outwardly from the teeth, one on the right and one on the left of the posterior buccal portion of the lower plastic base. Elastic bands of different lengths and strengths are attached to both the top and bottom retention hooks on both sides of the trays to pull the mandible forward for treatment.

A method is provided for producing discrete three-dimensional cellulose products from an air-formed cellulose blank structure in a rotary forming mould system. The method includes providing an air-formed cellulose blank structure, wherein the cellulose blank structure is air-formed from cellulose fibres; transporting the air-formed cellulose blank structure to a the rotary forming mould system; feeding the air-formed cellulose blank structure to a position between a first mould part and a second mould part, and heating the air-formed cellulose blank structure; forming the three-dimensional cellulose products from the air-formed cellulose blank structure in the rotary forming mould system, by pressing the heated air-formed cellulose blank structure with a forming pressure.

a luggage with composite material integrally formed frame includes a first shell, a second shell, a first frame, and a second frame. The second shell is openably assembled to the first shell. The first frame is integrated with the first shell and is located on the outer edge of the first shell. The second frame is integrally formed with the second shell and located on an outer edge of the second shell. When the first shell and the second shell are closed, the protruding engagement member of the second frame is engaged in the recessed engagement groove of the first frame.

a luggage with composite material integrally formed frame includes a first shell, a second shell, a first frame, and a second frame. The second shell is openably assembled to the first shell. The first frame is integrated with the first shell and is located on the outer edge of the first shell. The second frame is integrally formed with the second shell and located on an outer edge of the second shell. When the first shell and the second shell are closed, the protruding engagement member of the second frame is engaged in the recessed engagement groove of the first frame.

Described is a shoe upper for a shoe, in particular an athletic shoe, wherein the shoe upper is laceless and comprises: (a.) a lateral portion; (b.) a medial portion; and (c.) at least an elastic intermediate portion between the lateral portion and the medial portion, wherein the stiffness of at least one of the lateral portion and the medial portion is at least 2 times higher than the stiffness of the elastic intermediate portion.

Described is a shoe upper for a shoe, in particular an athletic shoe, wherein the shoe upper is laceless and comprises: (a.) a lateral portion; (b.) a medial portion; and (c.) at least an elastic intermediate portion between the lateral portion and the medial portion, wherein the stiffness of at least one of the lateral portion and the medial portion is at least 2 times higher than the stiffness of the elastic intermediate portion.

A bonding apparatus 1 bonds a film F to a workpiece W, and is provided with a box body B for gripping the film F, a lower vacuum chamber 32 and an upper vacuum chamber 22 demarcated by the film F, an air pressure adjustment device 5 for adjusting the air pressure in the vacuum chambers 22, 32, a movement mechanism 6 for moving the workpiece W, and a control device 7 for controlling the air pressure adjustment device 5 and the movement mechanism 6. The control device 7 reduces the pressure inside the vacuum chambers 22, 32 to a first pressure, then increases the pressure inside the upper vacuum chamber 22 to a second air pressure in a state in which the film F and the workpiece W are brought into contact, and then increases the pressure inside the vacuum chambers 22, 32 to atmospheric pressure.

A bonding apparatus 1 bonds a film F to a workpiece W, and is provided with a box body B for gripping the film F, a lower vacuum chamber 32 and an upper vacuum chamber 22 demarcated by the film F, an air pressure adjustment device 5 for adjusting the air pressure in the vacuum chambers 22, 32, a movement mechanism 6 for moving the workpiece W, and a control device 7 for controlling the air pressure adjustment device 5 and the movement mechanism 6. The control device 7 reduces the pressure inside the vacuum chambers 22, 32 to a first pressure, then increases the pressure inside the upper vacuum chamber 22 to a second air pressure in a state in which the film F and the workpiece W are brought into contact, and then increases the pressure inside the vacuum chambers 22, 32 to atmospheric pressure.