A conveying device includes a carrier which includes a holder side member; a conveying passage which guides conveyance of the carrier; a spirally-shaped spiral member which is arranged below the carrier and extends along the conveying passage, the spiral member causing between the spiral member and the holder side member a first force which acts in a direction away from the holder side member or a second force which acts to draw in the holder side member; a partition wall portion which is provided between the carrier and the spiral member and partitions the carrier and the spiral member; and a rotary unit which rotates the spiral member axis-wise thereof.

A system for manufacturing an assembly board includes an undersupporting device, a transporter configured to transport a board and the undersupporting device, an undersupporting-device installer provided below the transporter, the undersupporting-device installer being attachable to and detachable from the undersupporting device, a board processor configured to perform a predetermined processing to an upper surface of the board, a carry-in side delivering unit having first and second receiving positions different from each other, a board supplier configured to supply the board to the first receiving position, and an undersupporting-device supplier configured to supply the undersupporting device to the second receiving position. The transporter transports, to the carry-in side delivering unit, the undersupporting device detached from the undersupporting-device installer. The carry-in side delivering unit positions, at the second receiving position, the undersupporting device delivered from the transporter to allow the undersupporting device to be carried out from the second receiving position.

System for manufacturing an assembly board includes an undersupporting device, a transporter, an undersupporting-device installer attachable to and detachable from the undersupporting device, a board processor, a carry-in side delivering unit having different first and second receiving positions, a board supplier configured to supply the board to the first receiving position, and an undersupporting-device supplier configured to supply the undersupporting device to the second receiving position. The carry-in side delivering unit delivers, to the transporter, the undersupporting device supplied to the second receiving position. The transporter transports, to a working position, the undersupporting device delivered from the carry-in side delivering unit. The undersupporting-device installer fixes, to the undersupporting-device installer, the undersupporting device transported to the working position. The carry-in side delivering unit delivers, to the transporter, the board supplied to the first receiving position. The transporter transports, to the working position, the board delivered from the carry-in side delivering unit.

A system for manufacturing an assembly board includes an undersupporting device, a carrier configured to hold the undersupporting device, a transporter, an undersupporting-device installer attachable to and detachable from the undersupporting device, a board processor, and a magnet provided on a lower surface of the undersupporting device. The transporter transports the undersupporting device to a working position by transporting the carrier to the working position while the carrier holds the undersupporting device on the lower surface of the carrier. The transported undersupporting device is fixed to the undersupporting-device installer by a magnetic force of the magnet at the working position. The transporter transports the board to the working position. The undersupporting device supports the lower surface of the board when the board is transported to the working position. The board processor performs a predetermined processing to an upper surface of the board.

A machine for automatically positioning objects is disclosed. The machine has one inlet conveyor to transport objects in a lying position; a detector system to identify the orientation and/or shape of the objects; a robotic collection device to collect and position the objects according to information received by the detector system; a transfer conveyor having transfer fasteners arranged in fixed positions along a periphery of the transfer conveyor defining a closed loop around a tilted axis; an outlet conveyor to receive and transport the objects in an upright position; and a transfer fastener seat for the objects at each transfer fastener. The conveyor moves the fasteners seats because of the movement of the transfer conveyor between an upper receiving position, in which the object is held in a lying position, and a lower delivery position, in which the object is held in an upright position. The transfer conveyor and said outlet conveyor are synchronized.

In sample transporting devices, the operation sound of a belt conveyor and the driving sound of a drive motor are caused by operating a transporting line when transporting samples, and reducing the driving sound and operation sound is required. In the present invention, a detection signal of the detection sensor 309 is detected by a detection unit 310, and a control unit 111 performs controlling to change the current value and the driving frequency of a belt driving motor 304 of a transporting line 301 and change the driving torque and the driving rotary speed of the transporting line on the basis of the amount and number of samples transported by a belt 303, wherein the amount and number of samples transported by the belt can be obtained by the detection signal or a sample amount measured by a sample transporting system. Accordingly, noise reduction is achieved by driving the belt driving motor under suitable conditions according to the amount and number of the samples transported by the transporting line, and reducing the operation sound of the belt driving motor or mechanisms and the like.

Proposed is a secondary battery manufacturing process carrier having a carrier transporting track structure. The secondary battery manufacturing process carrier includes: a carrier base (20); a carrier roller (30) provided at a first side of the carrier base (20); a rolling member (40) provided at a second side of the carrier base (20); and a track base (10) on which the carrier base (20) is movably disposed. The carrier base (20) has a first carrier side plate (122) and a second carrier side plate (124) at left and right sides thereof, the first carrier side plate (122) and the second carrier side plate (124) include the carrier roller (30) and the rolling member (40), respectively, and the carrier roller (30) and the rolling member (40) are configured to be rolled on the track base (10).

A laboratory sample distribution system with a number of sample container carriers, each comprising at least one magnetically active device and adapted to carry a sample container; a transport plane adapted to support the carriers; a number of electro-magnetic actuators stationary arranged below the transport plane and adapted to move a corresponding carrier located on top of the transport plane by applying a magnetic force to the carrier; a touch panel arranged below the transport plane adapted to generate position signals (PS) depending on positions of the carriers located on top of the transport plane; a position determination unit adapted to determine the positions of the carriers located on top of the transport plane in response to the position signals (PS); and a control unit adapted to control the operation of the laboratory sample distribution system in response to the determined positions of the carriers.

A switch for a conveying line for transporting a laboratory diagnostic vessel carrier is presented. The conveying line comprises a first line portion and a second line portion. The switch comprises a curved first guiding surface and a second guiding surface. The switch is moveable between a first position, in which the laboratory diagnostic vessel carrier is transportable along the curved first guiding surface from the first line portion to the second line portion, and a second position, in which the laboratory diagnostic vessel carrier is further transportable along the second guiding surface on the first line portion. A switch assembly and a conveying line are also disclosed.

A system for performing a processing step on device parts of simulated smoking devices, such as electronic cigarettes, system comprising a processing station to perform the processing step on the device parts, product carriers to hold the device parts during the processing step, a first transport device and a second transport device to move the product carriers along at least part of a processing trajectory extending through the processing station.