A robot system including a plurality of robots that are arranged at intervals and that each perform machining on a work; and a tool storage unit that stores a tool used when each of the robots performs machining on the work and that is disposed at a position allowing at least one of the robot to take out the tool, wherein the respective robots are provided with hands with which the tool stored in the tool storage unit can be handled; and, when one of the robots needs to exchange the tool.

A production line including a chain conveyor for moving part transporting pallets through an electronically controlled workstation. The workstation includes an implement for use by a workstation user which is freely movable along the transport direction of the pallets within the workstation. The workstation may further include a plurality of automated drawers containing components for manual assembly operations in the workstation. The chain conveyor includes front hook and rear hook units to engage the pallet for movement along the production line. When the pallet is prevented from further movement by an obstacle, the chain rear hook moves from a pallet engaged position to a position whereby an optical beam is interrupted. On interruption of the optical beam, a command signal is generated which causes the conveyor to stop.

A tool assembly for mounting a tailgate to a car body is provided. The tool assembly includes a bracket adapted to engage with an overhead structure and a frame movably coupled to the bracket and configured to move in a vertical direction relative to the bracket. The tool assembly also includes a linkage mechanism movably coupling the frame with the bracket and configured to maintain the frame parallel to the bracket during the vertical movement of the frame. Further, a pair of torque guns is coupled to the frame and is configured to hold a pair of fasteners. The pair of torque guns engages and tightens the pair of fasteners to the car body and a hinge attached to the tailgate.

An automated assembly apparatus includes an assembly robot, which has a plurality of hands of different heights and an XY-axis moving unit movable in a horizontal direction, and a plurality of operation base units which have operation bases and Z-axis moving unit capable of moving the operation bases in a vertical direction. The automated assembly apparatus further includes a control unit which raises in advance, before the assembly robot reaches above the operation bases, the operation bases by the Z-axis moving unit to positions where the operation bases do not interfere with the plurality of hands.

A system and method for forming a foundation truss for a box spring or mattress foundation frame includes a first truss rail assembly station having a series of block feeders, a top rail hopper and a filler strip hopper that received stacks of truss components such as blocks, top rails and filler strips and feed such truss components into stacked registration. The stacked truss components are moved into engagement with a series of staplers that secure the filler strips, top rails and blocks together to form first truss rail portions, which are then fed to a second truss rail assembly station where a bottom rail is automatically applied thereto.

An automated assembly apparatus comprises an assembly robot that includes a Y-axis movement unit, a first X-axis movement unit movable in a Y-axis direction along the Y-axis movement unit, and a grip unit movable in an X-axis direction along the X-axis movement unit, and a workbench unit including a Z-axis movement unit arranged below the assembly robot with respect to an Z-axis and a workbench movable in the Z-axis direction along the Z-axis movement unit, wherein an assembly operation for a first assembly component gripped by the grip unit and a second assembly component mounted on the workbench unit is performed through movement in the Z-axis direction by the workbench unit.

A production line comprises at least one assembly station which is electronically controlled, in which a chain-conveyor device feeds with continuous motion a plurality of pallets carrying parts to be assembled. The production line further comprises at least one module for carrying containers provided with a plurality of part-holder containers for supplying parts to said at least one assembly station. The module comprises a plurality of drawers associated to a paternoster conveyor system.

An automated assembly apparatus comprises an assembly robot that includes a Y-axis movement unit, a first X-axis movement unit movable in a Y-axis direction along the Y-axis movement unit, and a grip unit movable in an X-axis direction along the X-axis movement unit, and a workbench unit including a Z-axis movement unit arranged below the assembly robot with respect to an Z-axis and a workbench movable in the Z-axis direction along the Z-axis movement unit, wherein an assembly operation for a first assembly component gripped by the grip unit and a second assembly component mounted on the workbench unit is performed through movement in the Z-axis direction by the workbench unit.

An automated assembly apparatus includes an assembly robot, which has a plurality of hands of different heights and an XY-axis moving unit movable in a horizontal direction, and a plurality of operation base units which have operation bases and Z-axis moving unit capable of moving the operation bases in a vertical direction. The automated assembly apparatus further includes a control unit which raises in advance, before the assembly robot reaches above the operation bases, the operation bases by the Z-axis moving unit to positions where the operation bases do not interfere with the plurality of hands.

A robot assembling system for assembling a multi-layer cage comprises a first assembling workstation, a second assembling workstation, a third assembling workstation, and a robot. The multi-layer cage includes a bottom case, a top case, a partition plate, and a partition assembly. The first assembling workstation assembles the partition plate and the partition assembly to form a partition device. The second assembling workstation assembles the partition device and the top case to form a top case assembly. The third assembling workstation assembles the top case assembly and the bottom case to form the multi-layer cage. The robot transmits the bottom case, the top case, the partition plate, the partition assembly, the partition device, or the top case assembly between the workstations. The robot assists an assembly process at each of the workstations.