The invention relates to a device for depositing veneers on a carrier board. In order to create a device and a method by which veneers can be applied to a carrier board particularly easily, quickly and precisely, provided in the region of an upper end of a transporting device is a veneer magazine, with at least two compartments which are designed to store and supply veneer strips, and with means for transferring the veneer strips from the compartments to the transporting device, wherein the transporting device extends from an upper end obliquely downwards in the direction of a lower end in the region of a transporting plane for the carrier board and is designed to transport at least two individual adjacent veneer strips from the upper end to the lower end and to deposit them on the carrier board.

A system and method for producing a board product made from paper products that have a pre-scored facing in addition to a medium (sometimes called fluting). Conventional corrugated board may feature a cross-corrugated medium and one or more facing that have no score lines that are impressed (at least prior to assembly with the corrugated medium). Such a conventional board product may be inferior because any score lines that are impressed will damage the underlying corrugated medium in some manner. A breakdown in the strength of the underlying medium leads to poor precision when the eventual board product is scored, cut, and folded. A lack of precision in folding a board product leads to gap variation and fishtailing as any articulated portion of the board product may not maintain a precise plane of articulation when folded.

A display device includes a cover window including a curved portion, and a panel member laminated on the cover window. A method of manufacturing a display device includes mounting a cover window including a curved portion on a first jig including a curved portion, mounting a panel member on a second jig that conforms to a surface of the first jig, and laminating the cover window to the panel member by moving a first one of the first jig or the second jig to a first other one of the first jig or the second jig. An apparatus for manufacturing a display device includes a first jig including a mount surface that is partially curved to conform to a surface of a cover window, a second jig including a surface conforming to the mount surface and configured to contact a panel member, and a driving unit.

The present disclosure provides an auxiliary device for sticking of a tempered glass screen protector and a tempered glass screen protector combination. The auxiliary device includes a sticking limiting frame made of a plastic material; a sticking area of the sticking limiting frame is matched with the appearance of a screen of a product to be covered; each of four edges of a back surface of the sticking limiting frame is at least provided with one stepped limiting slot; each stepped limiting slot includes a product limiting slot and a tempered glass screen protector limiting slot; and one or more magnetic patches are fixed on the sticking area or the back surface.

A system and method for bonding together a facesheet and an acoustic screen of an acoustic liner using a solid adhesive film having a first adhesive side opposite a second adhesive side are provided. The system includes a solid adhesive film having a first adhesive side opposite a second adhesive side; an acoustic screen bonded to the first adhesive side of the solid adhesive film; and a facesheet bonded to the second adhesive side of the solid adhesive film. The method includes bonding the facesheet to the first adhesive side of the solid adhesive film and bonding the acoustic screen to the second adhesive side of the solid adhesive film.

An apparatus to automatically place layers of a printed circuit board on a fixture includes a robotic device having a base that is secured to a surface, an upright column that extends upwardly from the base, and a movable arm rotatably coupled to the upright column. The movable arm is configured to rotate about a vertical axis defined by the upright column. The movable arm is further configured to rotate from a position in which the movable arm is disposed over a laminate sheet fixture and to pick up a laminate sheet to a position in which the movable arm is disposed over a board layup fixture to deposit the laminate sheet in the board layup fixture, and from a position in which the movable arm is disposed over a bond film fixture and to pick up a bond film to a position in which the movable arm is disposed over the board layup fixture to deposit the bond film in the board layup fixture.

Disclosed are a film releasing assembly, a film sticking machine and a method for using the film sticking machine. The film releasing assembly comprises a pedestal and a sliding block seat. The pedestal is recessed inwards to form a process groove therein, and the process groove defines a positioning area and a film sticking area which are communicated with each other. The sliding block seat is arranged in the process groove and capable of reciprocating in the positioning area and the film sticking area, and the sliding block seat at one end thereof facing to the film sticking area comprises a pushing portion formed to peel a release layer off from a film and guide the release layer peeled downwards to the process groove.

Provided is a jig having a structure that differs from conventional jigs and enables flat plates to be bonded while suppressing an air bubble formation. A flat-plate bonding jig is provided with the following: a first surface; a second surface that is on the opposite side of the first surface, has a plurality of suction holes for sucking a flat-plate, and is curved outward in a substantially arc shape; a main body connecting the first surface and the second surface; and a communication means that is disposed in the main body and allows the suction holes to communicate with a suction means.

Provided are a bonding device and a bonding method capable of precisely positioning both workpieces and bonding both workpieces more accurately even when a bonding surface of each workpiece includes a concavo-convex curved surface in which a protruding curved surface and a recessed curved surface are continuous. The bonding device includes an upper suction base 4 that sucks and holds a first workpiece W1 molded in advance into a concavo-convex curved shape, and a lower suction base 6 that sucks and holds a flat second workpiece W2. The lower suction base 6 includes a fixed suction base 16 and a movable suction base 17, and an upper opening surface of the movable suction base 17 is covered with a suction screen 8. The movable suction base 17 can elevate and lower between a workpiece supporting position where the flat second workpiece W2 is sucked and held and a workpiece transfer position where the movable suction base lowers downward from an upper opening surface of the fixed suction base 16. At the workpiece transfer position, the second workpiece W2 is sucked and held along a shape of a concavo-convex curved part 18 of the fixed suction base 16. In a state where the first workpiece W1 and the second workpiece W2 face each other vertically, the second workpiece W2 is pressed against the first workpiece W1 by a bonding roller 7 and bonded thereto.

A method of manufacturing a display unit including: preparing an optical film; forming a first alignment mark on the optical film; forming a cut-out line, corresponding to a predetermined closed curve layout, on the optical film based on a position of the first alignment mark; preparing a panel having a second alignment mark; aligning the optical film and the panel based on the positions of the first alignment mark and the second alignment mark; and laminating the optical film, after the processing of forming the cut-out line, on the panel.