An electric component manufacturing device includes a preheater that contacts and preheats a transported work, a melting heater that is downstream of the preheater in a transport direction of the work and contacts and heats the work at a temperature which is higher than a temperature of the preheater and at which a solder melts, a cooler that is downstream of the melting heater in the transport direction and contacts and cools the work, and a transporter that supports and transports the work to sequentially contact the preheater, the melting heater, and the cooler in this order. The transporter performs intermittent transport in which the work is transported from the preheater to the melting heater without stopping to contact both the preheater and the melting heater at the same time, and then the work stops on the melting heater.

Disclosed are a laser bonding apparatus and a laser bonding method capable of bonding an electronic component to a three-dimensional structure having a regular or irregular shape in a curved portion such as an automobile tail lamp or a headlamp. The laser bonding apparatus and method for a three-dimensional structure may prevent misalignment and poor bonding of the electronic component with respect to the three-dimensional structure.

An apparatus for holding a printed circuit board when mounting components thereon, said apparatus comprising a base plate, a mounting device for mounting a printed circuit board spaced from and substantially parallel to the base plate, a plurality of elongate support pins extending through respective holes within the base plate to extend transversely from the base plate, the support pins being independently positionable in height with respect to the base plate to define a configurable support surface for supporting components mounted on the printed circuit board during soldering, wherein the height that each pin extends from the base plate can be adjusted such that the support surface defined by the support pins can correspond to the topography of the circuit board and the components mounted thereon, a locking mechanism being provided for selectively locking the position of each support pin with respect to the base plate, wherein said locking mechanism comprises at least one elongate flexible member arranged to extend around a plurality of said support pins in convolute manner, tensioning device being associated with said at least one flexible member, whereby said tensioning device is adapted to selectively apply tension to said at least one flexible member to grip the pins around which said flexible member extends to lock the position of said pins with respect to the base plate.

A bonding system (90) is provided with a bonding device (80) for bonding semiconductor chips (45) to individual substrates (41), and a substrate holder (10) for holding the individual substrates (41), the bonding device (80) being provided with a stage (31) for fixing, by suction, the substrate holder (10) on a placement surface (13a), the substrate holder (10) being provided with a plate-shaped base (11) and a positioning member (21) that is provided on the base (11) and that defines the position of the individual substrates (41), the base (11) having an upper surface (11a) on which the individual substrates (41) are placed and a lower surface (11b) that is fixed by suction onto the placement surface (31a).

Systems and methods for moving a substrate to a vision system using a robot; using the vision system to determine where a braze material is to be applied to the substrate; moving the substrate to a braze dispenser using the robot; applying a braze material to the substrate using the braze dispenser based on the determination from the vision system; and using the vison system to determine whether to apply additional braze to the substrate, including for the substrate of a component for gas turbine engine, such as configured for use in an aircraft.

The robot apparatus includes a solder pot having a nozzle from which solder flows out, a flux ejection tool for ejecting flux, and a support tool for supporting the solder pot. The robot apparatus includes a table for supporting a workpiece, and a placement member on which the operation tools and the solder pot can be placed. The controller performs a flux application control for coupling the flux ejection tool to the robot and applying flux to the workpiece, a preheating control for coupling the support tool to the robot and arranging the solder pot below the workpiece so as to heat the workpiece, and a supply control for moving the nozzle of the solder pot closer to the workpiece and supplying the solder.

There is provided a method which includes placing a component on a substrate and extending an alignment member through an opening in the substrate. Once the alignment member is extended through the opening, the component is moved to abut against the alignment member to align the component relative to the substrate. After the component is aligned relative to the substrate, the component is secured to the substrate and the alignment member is retracted through the opening.

A joining device for producing an exhaust gas system for an internal combustion engine comprises a device base, a frame, and at least two joining units that can be operated simultaneously are fastened to the frame. The frame extends essentially vertically starting from the device base. In a method for producing the exhaust gas system, at least one joining unit of a joining device is oriented to a geometry of the exhaust gas system that is to be produced, at least three components or assemblies of the exhaust gas system are positioned in the joining device, and the components or assemblies are simultaneously connected.

A welding connection element includes a body and an assembly portion. The body includes a fitting fastening portion having an elastic withdrawal space. The elastic withdrawal space is capable of elastically withdrawing two or more fastening portions, so as to enable the fastening portions to be receivingly fastened in another object. The welding connection element has a welding surface configured to be welding connected to a welding surface of the object. The welding surface of the object is provided in advance with a solder layer configured to be heated and to welding connect the welding connection element and the welding surface of the object. The welding connection element is provided at a carrier in advance, taken out by a tool, compared with an assembly position of the object by a comparison device, and placed at the assembly position by the tool so as to be assembled with the object.

A pressing area set on a main surface of a plate-shaped holding jig is arranged on contact parts. The contact parts are pressed against a multilayer board while heating the multilayer board and the pressing area of the holding jig is inclined with a warp of the multilayer board. In this way, when pressing for bonding the contact parts is performed, even if the multilayer board is warped by the heating and the contact parts are shifted, the contact parts are pressed against the multilayer board without fail.