A trolley device is used to convey laminar elements. The trolley device includes at least one belt that defines a closed loop, a plurality of pulleys, at least one drive pulley being configured to act on the belt, the pulleys being mounted on a frame with a supporting region over which a section of the belt can be slid and wherein suction means linked to the belt are provided. The belt includes at least on the outer face thereof a projecting section of predetermined length that protrudes in height with respect to the rest of the belt, the projecting section being provided with a plurality of through holes aligned in position with through holes made in the belt.

A trolley device is used to convey laminar elements. The trolley device includes at least one belt that defines a closed loop, a plurality of pulleys, at least one drive pulley being configured to act on the belt, the pulleys being mounted on a frame with a supporting region over which a section of the belt can be slid and wherein suction means linked to the belt are provided. The belt includes at least on the outer face thereof a projecting section of predetermined length that protrudes in height with respect to the rest of the belt, the projecting section being provided with a plurality of through holes aligned in position with through holes made in the belt.

Provided are an interface apparatus for resolving congestion through a non-stop interface between a transporting device and a logistics automation storage device, and a container transporting system having the same. The interface apparatus includes a saddle for receiving a container from a container transporting device; and a circulating path for providing a route for transporting the container seated on the saddle to a container storage device, wherein the saddle receives the container while moving together with the container transporting device.

Provided are an interface apparatus for resolving congestion through a non-stop interface between a transporting device and a logistics automation storage device, and a container transporting system having the same. The interface apparatus includes a saddle for receiving a container from a container transporting device; and a circulating path for providing a route for transporting the container seated on the saddle to a container storage device, wherein the saddle receives the container while moving together with the container transporting device.

An apparatus and method for manufacturing glass containers handles the containers individually after a hot forming process and annealing to prevent glass-to-glass contact. By handling the containers individually and preventing glass-to-glass contact damage to the containers in the form of checks and scratches is avoided. To prevent contact of the containers and damage arising from the contact, the equipment including conveyors, pushers, starwheels, shuttles, and transfer heads that move the glass containers through the apparatus maintains the glass containers in uniform spaced relationship at each stage of container processing until the containers are packaged.

A device for transferring units of goods has a suspended conveyor system on which conveyor units can be conveyed in a suspended manner along a continuous conveyor path. In an entry region, supplied conveyor units can be provided for further processing. Downstream of said entry region, a transfer device is provided in a transfer region, with which units of goods can be transferred into and/or out of a conveyor unit located in the transfer region. Downstream of said transfer region, processed conveyor units can be provided in an exit region for further use. The absolute alignment in space of a conveyor unit in the entry region and in the transfer region are substantially the same, and the relative alignment in relation to the conveying direction in the entry region and the transfer region are substantially different. Alternatively or additionally, the absolute alignment in space of a conveyor unit in the transfer region and in the exit region are substantially the same, and the relative alignment in relation to the conveying direction in the transfer region and in the exit region are substantially different.

A device for transferring units of goods has a suspended conveyor system on which conveyor units can be conveyed in a suspended manner along a continuous conveyor path. In an entry region, supplied conveyor units can be provided for further processing. Downstream of said entry region, a transfer device is provided in a transfer region, with which units of goods can be transferred into and/or out of a conveyor unit located in the transfer region. Downstream of said transfer region, processed conveyor units can be provided in an exit region for further use. The absolute alignment in space of a conveyor unit in the entry region and in the transfer region are substantially the same, and the relative alignment in relation to the conveying direction in the entry region and the transfer region are substantially different. Alternatively or additionally, the absolute alignment in space of a conveyor unit in the transfer region and in the exit region are substantially the same, and the relative alignment in relation to the conveying direction in the transfer region and in the exit region are substantially different.

A semiconductor wafer cassette warehouse transportation structure system includes a wafer cassette lift transportation structure body, a wafer cassette frame structure body, an arm structure body, an arm gripping wafer cassette structure body, and a wafer cassette warehouse structure body. The suspension support rods are suspended on a ceiling. The wafer cassette lift transportation structure body lifts the wafer cassettes to the inlet and outlet. The arm structure body grips the wafer cassettes and puts same on the tracks so that the wafer cassettes can be transported to the wafer cassette warehouse structure body to be precisely accessed. The system saves space and facilitates the access of the wafer cassettes because the wafer cassettes are stored on the wafer cassette warehouse structure body suspended on the ceiling.

A semiconductor wafer cassette warehouse transportation structure system includes a wafer cassette lift transportation structure body, a wafer cassette frame structure body, an arm structure body, an arm gripping wafer cassette structure body, and a wafer cassette warehouse structure body. The suspension support rods are suspended on a ceiling. The wafer cassette lift transportation structure body lifts the wafer cassettes to the inlet and outlet. The arm structure body grips the wafer cassettes and puts same on the tracks so that the wafer cassettes can be transported to the wafer cassette warehouse structure body to be precisely accessed. The system saves space and facilitates the access of the wafer cassettes because the wafer cassettes are stored on the wafer cassette warehouse structure body suspended on the ceiling.

A conveying device (100) for the clock-integration of transport units (1, 1.1-1.4), includes a plurality of transport units, an indexing conveyor (2) for the clocked conveyance of the transport units, the indexing conveyor having a plurality of carriers (21, 21.1), which are respectively detachably connectable to a transport unit, at least one conveyor section (3), and a diverter (4), via which the conveyor section is connected at a clock-integration point (E) to the indexing conveyor and which is configured to clock-integrate the transport units at the clock-integration point into the indexing conveyor.