A surface-seamless steel rail is provided in the present invention. Said surface-seamless steel rail includes a right connecting part located on one side of said steel rail, a left connecting part located on the other side of said steel rail, and a seamless spring piece located on the top side of said steel rail. Both said left connecting part and said right connecting part include a plug portion in embedded engagement with each other. Said seamless spring piece includes a fixed portion at one end and a free portion at the other end, said fixed portion is fixedly connected on top side of said plug portion of one of said left connecting part and said right connecting part. The other of said left connecting part and said right connecting part is provided with an arc-shaped channel at its interior body, said free portion of said seamless spring piece is suitably inserted into said arc-shaped channel.

A surface-seamless steel rail is provided in the present invention. Said surface-seamless steel rail includes a right connecting part located on one side of said steel rail, a left connecting part located on the other side of said steel rail, and a seamless spring piece located on the top side of said steel rail. Both said left connecting part and said right connecting part include a plug portion in embedded engagement with each other. Said seamless spring piece includes a fixed portion at one end and a free portion at the other end, said fixed portion is fixedly connected on top side of said plug portion of one of said left connecting part and said right connecting part. The other of said left connecting part and said right connecting part is provided with an arc-shaped channel at its interior body, said free portion of said seamless spring piece is suitably inserted into said arc-shaped channel.

A joint system and method for managing alignment tolerances in a track section of a conveyor, the system including: a plurality of track sections, each track section including at least one end to be joined with an adjacent track section and one or more rails on which bearings of moving elements move; and wherein, at the end of each track section, the one or more rails each comprise a finger such that rails from adjacent track sections form an interlaced connection between fingers from each track section and both fingers are angled such that a non-alignment of the rails will not jar a bearing moving over the joint.

A rail system for a conveyor vehicle capable of traveling along the rail system for storage of piece goods into a storage rack or retrieval of piece goods from a storage rack includes a first running rail, a second running rail and a connecting device, which includes a positive locking connection between the ends, directed toward one another, of the first running rail and second running rail. At its end, the first running rail forms a first interlocking element and a first surface portion. At its end, the second running rail forms a second interlocking element and a second surface portion. Therein the first interlocking element and second interlocking element engage in one another in complementary manner and the ends of the first running rail and second running rail abut at the surface portions in a butt-jointed manner. Furthermore, a warehouse system has such a rail system.

A rail system for a conveyor vehicle capable of traveling along the rail system for storage of piece goods into a storage rack or retrieval of piece goods from a storage rack includes a first running rail, a second running rail and a connecting device, which includes a positive locking connection between the ends, directed toward one another, of the first running rail and second running rail. At its end, the first running rail forms a first interlocking element and a first surface portion. At its end, the second running rail forms a second interlocking element and a second surface portion. Therein the first interlocking element and second interlocking element engage in one another in complementary manner and the ends of the first running rail and second running rail abut at the surface portions in a butt-jointed manner. Furthermore, a warehouse system has such a rail system.

A rail system for a conveyor vehicle capable of traveling along the rail system for storage of piece goods into a storage rack or retrieval of piece goods from a storage rack includes a first running rail, a second running rail and a connecting device, which includes a positive locking connection between the ends, directed toward one another, of the first running rail and second running rail. At its end, the first running rail forms a first interlocking element and a first surface portion. At its end, the second running rail forms a second interlocking element and a second surface portion. Therein the first interlocking element and second interlocking element engage in one another in complementary manner and the ends of the first running rail and second running rail abut at the surface portions in a butt-jointed manner. Furthermore, a warehouse system has such a rail system.

A rail system for a conveyor vehicle capable of traveling along the rail system for storage of piece goods into a storage rack or retrieval of piece goods from a storage rack includes a first running rail, a second running rail and a connecting device, which includes a positive locking connection between the ends, directed toward one another, of the first running rail and second running rail. At its end, the first running rail forms a first interlocking element and a first surface portion. At its end, the second running rail forms a second interlocking element and a second surface portion. Therein the first interlocking element and second interlocking element engage in one another in complementary manner and the ends of the first running rail and second running rail abut at the surface portions in a butt-jointed manner. Furthermore, a warehouse system has such a rail system.

A beveled-end steel railroad. The use of small-acute-angle oblique-gap connection design and vertical gap reservation design can solve both the problem of impact between wheels and rails and the problem of thermal stress between steel rails. The design containing both beveled ends and flat ends that are complementary to each other can further greatly reduce railroad construction and reformation costs. The beveled-end steel railroad has a simple structure, is secure, reliable, and durable, can provide a fast, stable, and non-noisy driving effect, can implement highly-efficient and energy-saving operation, is easy to construct and reform, can be easily repaired and maintained, has a significant advantage in costs, and can implement both good performance and good profitability.

A beveled-end steel railroad. The use of small-acute-angle oblique-gap connection design and vertical gap reservation design can solve both the problem of impact between wheels and rails and the problem of thermal stress between steel rails. The design containing both beveled ends and flat ends that are complementary to each other can further greatly reduce railroad construction and reformation costs. The beveled-end steel railroad has a simple structure, is secure, reliable, and durable, can provide a fast, stable, and non-noisy driving effect, can implement highly-efficient and energy-saving operation, is easy to construct and reform, can be easily repaired and maintained, has a significant advantage in costs, and can implement both good performance and good profitability.

A railway rail connecting structure is provided, which comprises a half of the pillar portion 20 and base portion 30 of a rail is eliminated at both ends of the rail to have symmetrical shapes along its length; and, more than two circular through holes 40 are formed on the face where the half portions of two ends of the rail are meet. The structure further comprises more than two pairs of bolts 2, 2 and nuts 3, 3 that are connected through the through holes 40.