Abstract: A method of applying a marking onto a metrological scale. The method includes locating one or more markings on the scale substrate in a provisional state; checking whether the one or more markings located on the scale substrate are acceptable; and finalizing the one or markings which are acceptable so as to transform the one or more markings into a finalized state.

Abstract: The present disclosure relates to methods and apparatuses for controlling the relative placement of advancing substrates and discrete components in diaper converting lines. The diapers may each include a chassis connected with front and back elastic belts. In controlling the relative placement of these elements during the assembly process, a controller may change the machine direction speed and/or position of certain elements and cross direction speed and/or position of other elements such as the advancing substrates and components in order to help achieve proper placement and orientation. During the assembly process, the registration features are detected, and a controller may change the machine direction speeds of the advancing elastic laminates and/or chassis and/or may change the cross directional and/or machine direction position of the advancing elastic laminates and/or chassis.

Abstract: A labelling machine with a labelling device, which has a feeder unit for feeding a backing strip, which is provided with detachable labels, and a transfer unit for transferring the labels from the backing strip onto an object that is to be labelled. The labelling machine further has a winding device for winding a section of the backing strip from which labels have been detached, containing at least one guidance unit with a guidance element, along which the backing strip section can be guided in a direction of transport, and a winding unit, which is mounted downstream of the at least one guidance element, and includes fixing means, on which a free end section of the backing strip section can be fixed, whereby the fixing means are arranged on a winding core that can rotate about an axis of rotation, and follow a rotational movement of the winding core.

Abstract: A method includes setting a first tension value of a laminating tape during a standby mode. A second tension value of the laminating tape is set during taping on a wafer. The second tension value is different from the first tension value. A third tension value of the laminating tape is set after taping. The third tension value is different from the second tension value.

Abstract: A method of bonding materials may comprise defining a bond interface between two materials in a cure zone on a surface of an object, and non-conductively heating the bond interface without directly heating the surface outside of the cure zone. Non-conductively heating the bond interface may involve applying microwave radiation to the bond interface.

Abstract: A method for forming a seal or cover on an opening of a vehicle body. An extruded strand made of an elastomer material is adhered to a body support surface which receives the strand, and the support surface and/or a strand surface to be adhered is supplied with adhesive material prior to the adhesion process. The supply of adhesive material is controlled according to an adhesive material quantity requirement based on the strand length, the requirement changing in the longitudinal direction of the support surface, as a result of depressions and/or steps for example, and/or according to an arrangement of the strand surface to be adhered on the strand, the arrangement changing in the longitudinal direction of the support surface.

Abstract: A method and apparatus for manufacturing a welded resin article which includes (a) bringing first and second resin members to come into contact with each other; (b) applying laser light to the first and second resin members while moving the laser light relative to the first and second resin members; (c1) obtaining a value corresponding to the intensity of infrared light from a plurality of locations on a surface; (d) successively calculating, as a section average, the average of a predetermined number of successive values, among those obtained from the plurality of locations corresponding to the intensity of the infrared light; (e) a step of successively calculating a deviation judgment value; and (f) a step of successively judging whether or not the deviation judgment value falls within a predetermined judgment threshold range.

Abstract: To provide a member bonding apparatus that can accurately position two members for bonding. Member alignment preprocessing device 15 adjusts to align one of the two members received by member receiving device 11 with another member in X and Y-axis directions so that the positions of bonding surfaces of the two members approximately correspond, adhesive application device 12 applies adhesive to a bonding surface of one of the two members approximately aligned, member alignment device 16 adjusts to align another member with one of the two members in X, Y, Z-axis and ?, ?, ?-axis directions based on images of the two members captured by a CCD camera so that positions of the bonding surfaces of the two members correspond, member bonding device 13 makes the bonding surfaces of the two members aligned be bonded to each other through the adhesive, and member delivery device 14 unloads and delivers the bonded member.

Abstract: There is provided a technique that readily performs positioning of a joining member relative to a strip member during conveyance. A joining device 100 joins a gas diffusion layer 7 with a first catalyst electrode layer 2 of a strip body 5r which is a continuous strip member of a membrane electrode assembly 5, while conveying the strip body 5r. A controller 101 of the joining device 100 obtains a detection time td based on a detection signal of a catalyst layer detector 130 when a front end 3e of a second catalyst electrode layer 3 placed on the strip body 5r passes through a detection point DP. The controller 101 subsequently obtains a joining position reach time tt based on the detection time td when the gas diffusion layer 7 reaches a press point PP of joining rollers 152. The controller 101 starts conveying the gas diffusion layer 7 by means of a transfer at a conveying start time ts that is obtained based on the joining position reach time tt and a specified speed pattern of the transfer 141.

Abstract: Compact apparatus for the semi-automatic horizontal assembly of photovoltaic panels with solar cells, made up of a multi-function workstation in the form of a pilot system integrating multiple working and conveying means which carry out the various operations concomitantly and in a coordinated way. On the sides of the working surface there is the loading zone of the cells, the loading zone of the conductive ribbons and a pair of longitudinal rails which are intended to guide two mobile gantries, which roto-translate above the working surface, from one loading zone to the other, being equipped for the purpose of assembly. In particular, the compact apparatus is versatile in use and allows to obtain already in the experimental laboratory phases the levels of accuracy and control of an industrial system, for the purpose of optimizing the product and the assembly technologies reducing wastes and faults.

Abstract: Provided is a device of bonding substrates together, which includes a first holding unit configured to vacuum-draw a first substrate and to adsorptively hold the first substrate on a lower surface thereof and a second holding unit installed below the first holding unit and configured to vacuum-draw a second substrate and to adsorptively hold the second substrate on an upper surface thereof. The second holding unit includes: a body portion configured to vacuum-draw the entire surface of the second substrate; a plurality of pins installed on the body portion and configured to make contact with a rear surface of the second substrate; and a support portion installed on the body portion at the outer side of the pins, the support portion having a reduced contact area over which the support portion makes contact with an outer peripheral portion of the second substrate.

Abstract: A method is provided to compensate for misplacement of tows by a fiber placement machine automatically controlled by programmed instructions. The method includes laying down a test layup of fiber tows using the machine; scanning the test layup to determine the position of the test layup relative to reference standards; determining misplacements in the position of the test layup; and, modifying the programmed instructions to compensate for the misplacements.

Abstract: A labelling machine comprising a supply spool support (12) adapted to receive a supply spool (28), a takeup spool support (14) adapted to form a takeup spool (32) of web (30) from which at least some labels (74) have been removed, a motor (40) arranged to turn the takeup spool, and a controller to control operation of the motor. A web path (16) is defined between the supply spool and the take-up spool, and the controller is arranged to control the motor to turn the take-up spool so as to cause controlled predetermined linear movement of a web along the web path and onto the take-up spool, furthermore comprising a sensor (50) operable to sense linear displacement of the web and/or displacement of the web in a direction other than the direction of the web, a printer (34) movable between a first position and a second position, and a separator surface (24) comprising a first portion inclined relative to the web path.

Abstract: A method and system for printing a three-dimensional part, which includes rotating a transfer belt with a developed layer, scanning the developed layer on the rotating transfer belt, pressing the developed layer into contact with an intermediate build surface of the three-dimensional part retained on a moveable build platform, scanning the pressed layer on the three-dimensional part, comparing the scanned layers to detect an overlay error, and adjusting a position of the moveable build platform relative to the transfer belt to reduce the overlay error for a subsequent developed layer.

Abstract: In accordance with an embodiment, a sheet glue binding processing apparatus comprises a processing tray, a glue binding section and a sheet detection section. The processing tray is used to stack a sheet in such a manner that the end of the binding margin side of the sheet is fed to a positioning section. The glue binding section is configured at the positioning section side of the processing tray to adhere glue material to the binding margin of the sheet already stacked on the processing tray. The sheet detection section detects whether or not the binding margin of the first sheet to be stacked on the processing tray is located at a specific position of the processing tray.

Abstract: The present application provides a method of inspecting a bond joint. The method may include the steps of applying an exothermic adhesive to a first shell and/or a second shell, attaching the first shell to the second shell via the exothermic adhesive to create the bond joint, allowing the exothermic adhesive to cure, and imaging the heat released by the exothermic adhesive along the bond joint. The bond joint may be a turbine blade bond joint.

Abstract: A composite structure is processed using heat and pressure. A chromatic film is placed in proximity to the composite structure and is used to monitor at least one of the temperature of the heat and the pressure during processing.

Abstract: A method for manufacturing an optical display device comprises: sequentially peeling a plurality of optical film sheets continuously supported via an adhesive layer on one of opposite surfaces of a carrier film, together with the adhesive layer from the carrier film under peeling action of the movable peeling member by winding a long web of the carrier film in a state where the other of opposite surfaces thereof being folded to inside at a tip-end of the movable peeling member having the tip-end and passed around the peeling member; and laminating the plurality of optical film sheets to one of opposite surfaces of respective ones of panel components via the adhesive layer under laminating action of the closed lamination rollers.

Abstract: A bonding method for bonding a semiconductor chip to an underlying structure includes aligning an electrical contact of a lower surface of the semiconductor chip with an electrical connection member of an upper surface of the underlying structure, the electrical contact at least partially encased by a support material. The method further includes first heating the semiconductor chip and the underlying structure, deforming the electrical contact, and curing the support material encasing the deformed electrical contact. The method still further includes second heating the semiconductor chip and the underlying structure to bond the electrical contact of the semiconductor chip to the electrical connection member of the underlying structure while maintaining the support material in a cured state.

Abstract: An appliance for sealing elastic hoses with a sleeve, which is plastically deformable and slipped onto the hose, has two jaws which are movable towards and away from each other. One jaw has two straight bars which project towards the other jaw and extend transversely of the sleeve to make two transverse indentations in the sleeve and the hose when the jaws are moving towards each other. The same jaw has a cutting edge which projects towards the other jaw and is directed transversely of the sleeve, the cutting edge making a substantially transverse cutting indication in the sleeve and the hose when the jaws are moving towards each other.