Disclosed is a bamboo strip shaping method, which includes the following steps: S01: cutting a bamboo tube, and removing inner joints, outer joints and bamboo outer skin; S02: trisecting or quartering the bamboo tube in a longitudinal direction to obtain curved bamboo strips; S03: placing the curved bamboo strips in a bamboo strip shaping device for processing; S04: subjecting the curved bamboo strips to steam treatment and heating softening treatment; S05: pressing and shaping the curved bamboo strips to obtain flattened bamboo strips, and drying for a first time under a maintained pressure; S06: wetting bamboo outer skin surfaces and bamboo inner skin surfaces of the flattened bamboo strips, and drying for a second time; and S07: wetting the bamboo outer skin surfaces and the bamboo inner skin surfaces of the flattened bamboo strips, and drying for a third time.

A method for producing a building element, including providing a substrate, applying a thermosetting binder on the substrate or on a wood veneer layer, arranging the wood veneer layer on the substrate with the thermosetting binder intermediate the substrate and the wood veneer layer, arranging an elastic or formable sheet including a polymeric material between the wood veneer layer and a press surface of a pressing device, applying heat and pressure by the pressing device on the elastic or formable sheet, the wood veneer layer, the thermosetting binder, and the substrate, thereby forming a building element including the substrate and the wood veneer layer attached to the substrate by the thermosetting binder, after applying heat and pressure, removing the elastic or formable sheet from the wood veneer layer. Also, a pressing device for embossing a wooden surface and a method of embossing a wooden surface.

A press can include an upper platen, a lower platen, a support arm, and an adjuster. The support arm can be adapted to move the upper platen substantially parallel to the lower paten between an open position and a closed position. The adjuster can have a cam adapted to engage a surface of the support arm and to rotate between a first rotational position and a second rotational position relative to the support arm. Rotation of the cam from the first rotational position to the second rotational position can move the upper platen toward the lower platen.

A sintering press for sintering electronic components on a substrate includes at least one reaction element extending along an element axis parallel to a pressing axis of the sintering press between a first element end and a second element end, the first element end forming a support plane for a respective substrate, at least one load cell operatively connected to the second element end, and an element plate slidably supporting the at least one reaction element and equipped with a heating circuit. The reaction element has a heating portion passing through the element plate and transmitting by conduction heat of the element plate to the substrate. The reaction element has a cooling portion ending with the second element end and shaped to dissipate the heat transmitted from the element plate to the heating portion.

A high-speed lamination machine includes a hinged, clamshell lid, and clamped lamination chamber that uses localized and thermally isolated heating and stepper driven separation pin motion. Pneumatically actuated rollers in a track clamp the lamination chamber closed during operation. The clamshell design obviates the need for a hydraulic press and makes the lamination chamber easily accessible to other automated systems, so robots may be used to place lamination elements within the chamber.

A sintering press for sintering electronic components on a substrate is provided. The sintering press includes a pressing unit having a plurality of controllable presser rods to apply sintering pressure to the electronic components to be sintered, reaction elements forming a support plane for a respective substrate, an element plate slidably supporting the reaction elements, and a heating circuit with heating elements embedded in a heating body placed around the element plate to bring the element plate to a sintering temperature. A heat diffusion plate is placed in contact with the heating body and extends onto the element plate between the reaction elements, the diffusion plate being made of a material having a higher thermal conductivity than the element plate.

A press pad for a hydraulic single or multi-level hot press, the press pad including a flat support structure; and a plurality of metal spring elements connected with the flat support structure and arranged distributed therein or thereon.

The embodiments herein provide a modular rosin press device for use with a base clamp device having a pair or opposing rectangular elements, the modular device having a proximal press assembly, distal press assembly, and proximal block assembly. Each press assembly preferably contains a metallic heating component with a channel sized to accept the rectangular elements of the base clamp device. Each press assembly may also include a heating element, insulating plate, ledges which extend inwardly, and ribs of various designs and orientations.

A hot press device presses one or more objects to be pressed at a predetermined temperature, and includes: a roller around which a roll on which the objects to be pressed are disposed at predetermined intervals is wound; hot plates which are disposed to face one surface of the objects to be pressed while corresponding to the roll supplied from the roller; press units which are disposed to push the hot plates on the objects to be pressed; and a pitch changing unit which moves the hot plates in a direction in which the roll is moved or in a direction opposite to a direction in which the roll is moved, in accordance with a distance between the objects to be pressed.

A cap logo applicator, and method of fabricating, includes a first mandrel having a front and a back, the first mandrel having a curved, non-cylindrical surface, and a relief space in the back such that when a cap is positioned on the first mandrel, a front of the cap is in contact with the non-cylindrical surface and a top of the cap extends over the relief space, and a second mandrel opposing the first mandrel and configured to apply pressure to the first mandrel. At least one of the first mandrel and the second mandrel includes a heater.