A lamination machine has at least one material source which is in the form of a sheet feeder for material to be laminated. The lamination machine has at least one lamination unit that includes at least one first lamination source for laminating material, the at least one first lamination source being configured as a first roll changer and having at least two first roll holding devices.

A method of detection and removal of auxiliary material suitable for the manufacturing of an aircraft element includes providing an auxiliary material having at least one detection label, scanning the element with a label detector suitable to detect the detection label once the element has been manufactured, detecting the auxiliary material by means of a warning signal emitted by the label detector and removing the auxiliary material from the element. An auxiliary material suitable for the manufacturing of an aircraft element includes a detection label.

A system for use in fabricating a laminate structure from a plurality of layers of material is provided. The system includes a marker coupled to at least two of the plurality of layers, and a positioning system configured to arrange the plurality of layers in a predetermined layup position based on a position of the markers.

A substrate laminating apparatus, including a first vacuum chamber including a first opening; a first table provided inside the first opening for holding a first substrate; a second vacuum chamber including a second opening; a second table provided inside the second opening for holding a second substrate, wherein the substrates are laminated by reducing a pressure in a closed space formed by having the first opening faced with the second opening. The apparatus also includes a vacuum evacuation unit connected to the first vacuum chamber or the second vacuum chamber and performs reduced-pressure evacuation of the closed space. When there is a direction along which priority is given on lamination precision when laminating the first and second substrates, and the direction is defined as a lamination precision priority direction, a reduced-pressure evacuation direction done by the vacuum evacuation unit is a direction different from the lamination precision priority direction.

A system for controlling adhesion between a touch panel (TP) and a liquid crystal display (LCD). The system includes a controlling module, an adhering roller, and a limiting device. The controlling module is configured to determine a first moving speed of the adhering roller and a second moving speed of the limiting device. The adhering roller is configured to roll along a first direction from a first side of the TP to a second side of the TP at the first moving speed. The limiting device is configured to move along a second direction at the second moving speed and prevent the TP from moving with respect to the LCD.

A processing and detecting apparatus configured to process and detect an object is provided and includes a carrying platform, a laser unit, a wavelength measuring unit, and a computing unit. The carrying platform is configured to carry the object, and the object includes a substrate and a plurality of micro light emitting diodes (LEDs) disposed on the substrate. The laser unit is configured to perform a working procedure on the object on the carrying platform and excite each of the micro LEDs to radiate a light signal. The wavelength measuring unit is configured to measure the light signal radiated by exciting each of the micro LEDs in real time to obtain a spectrum of each of the micro LEDs. The computing unit is configured to analyze the spectra of the micro LEDs to determine whether the working procedure is abnormal.

A method and system for laminating a building board core with a use or wear layer, and a resultant board, in which the board core is provided with a lamination material on its top side and/or bottom side. A cover sheet that is provided as the lamination material has a wear layer provided with an adhesive layer and a peel-off film on the adhesive layer. To automate the manufacturing process and comply with predefined working conditions, the peel-off film is pulled off the adhesive layer with a predefined peel-off force and the wear layer is fixed to the top side or the bottom side of the board core by a pressure roller. Faults can occur if changing boundary conditions cause a change in the pull-off force, in which case a deviation between the relevant actual value and the predefined target value can lead to a fault in the process.

A method is provided for manufacturing flooring planks including a plastic base and an image plastic layer. The method includes a feeding step of feeding a layered raw material of a long decorative material to be rolled into oppositely rolling rollers; and a rolling step of hot rolling an embossing on the transparent plastic layer. A feeding tension of a printed plastic layer is adjusted according to a longitudinal deviation between the embossing and the pattern in the rolling step. The device includes a first feeding device, a second feeding device, the oppositely rolling rollers, a detecting device, and a tension controller disposed on the second feeding device. According to the long decorative material with the embossing in register with the pattern manufactured by the method, the embossing hot-rolled on the transparent plastic layer is in register with the pattern on the printed plastic layer.

A device for manufacturing circumferentially closed tubular tube bodies, comprising conveying means for conveying the substrate in a conveying direction, and also comprising tube-forming means which are designed to form a web-like substrate, which has a first and a second longitudinal edge, into a tubular form in which, in the circumferential direction, the first and the second longitudinal edge form or delimit a contact region, in particular abutting or overlapping region, which extends in the conveying direction, wherein the tube-forming means effect the shaping of the substrate into the tubular form in a shaping region and comprise welding means for welding the tubular form at a weld circumferential position, first sensor means, which are upstream of the shaping region; in the conveying direction, for detecting the position of the substrate web, setting means for setting the position of the substrate web transversely with respect to the conveying direction, and first control means which are designed to actuate the setting means, taking into consideration the measurement values from the first sensor means, such that the web-like substrate is held in a setpoint position transversely with respect to the conveying direction or such that the web-like substrate is adjusted in the direction of the setpoint position.

To provide a substrate laminating apparatus and a substrate laminating method capable of laminating two substrates highly precisely while achieving low cost and saving space. The substrate laminating apparatus includes an upper-substrate camera group provided to a lower vacuum chamber for capturing an image of an upper substrate fixed to an upper vacuum chamber. The upper-substrate camera group captures images of a first upper-substrate alignment mark and a second upper-substrate alignment mark of the upper substrate fixed to the upper vacuum chamber by actions synchronized with the lower vacuum chamber. Thereby, it is possible to save the space and to lower the cost by reducing the number of mechanical components.