KR970068945A - Rack structure for three-dimensional automatic warehouse structure Rack connection method of structure and structure composed of the method - Google Patents

Abstract

(purpose)

The present invention relates to a rack connection method of a three-dimensional automatic warehouse rack structure, and a prefabricated rack structure constructed by the method. It is an object of the present invention to simplify construction of a unified rack structure and to quickly and accurately construct and construct a rack structure, and to shorten the construction period, thereby reducing a lot of construction cost.

(Configuration)

(1) and (2b ') having hooking holes (2b, 2b') in the vertical frames (1, 1 ') on both sides of the frame And is configured to be disassembled and assembled by forming a prefabricated rack (B) having connection plates (3a, 3a ') of packs formed with latching hooks (3b, 3b') of the rack on the end.

(effect)

As described above, the present invention can easily disassemble and assemble a rack structure, and can store a large amount in a narrow space in a storage room after fabrication, and can be easily transported, thereby reducing a lot of logistics costs. It is possible to provide a rack structure for a solid three-dimensional automatic warehouse at a low cost.

Description

Rack structure for three-dimensional automatic warehouse structure Rack connection method of structure and structure composed of the method

Since this is a trivial issue, I did not include the contents of the text.

Fig. 1 is a perspective view explaining a structure and a method for assembling and assembling a lattice-type prefabricated frame and a prefabricated rack according to a first embodiment of the present invention, 3 is a front view illustrating a state in which the prefabricated prefabricated frame and the prefabricated rack are assembled and FIG. 3 is a view illustrating a state in which the prefabricated rack is assembled to the rack bracket welded to the vertical frame of the prefabricated prefabricated frame FIG. 7A and FIG. 10B are partially enlarged perspective views illustrating that the latching hooks of the racks formed on the connecting plate of the rack are formed in a superimposed manner and assembled in a superposed state by a second implementing means of the present invention; FIG. Fig. 10 is a front view illustrating a state in which a conventional rack structure is assembled and a loading state of the load. Fig.

Claims (12)

The grid-like prefabricated frame (A), which is assembled in a multistage manner so as to serve as a pillar of a structure, is a vertically multi-step connection method in which a vertical frame (1, 1 ' Frame connecting plates 1a and 1a 'having a bolt hole H are formed at upper and lower ends of the diagonal auxiliary frames 1b and 1b' and the diagonal auxiliary frames 1c and 1c ' Bracket wings 2a and 2a 'are formed below the outer surface of the body and space portions 2c and 2c' on the outer side of the bracket and space portions 2b and 2b 'on the inner side of the bracket are formed, 2d, 2d 'and the bolt holes 2f to form a rack bracket 2, 2' so that they can be repeatedly connected; The prefabricated rack (B), which is coupled to the grid-type prefabricated frame (A), which is highly multi-stage connected to serve as a pillar, is capable of serving as a shelf, can be disassembled and assembled A rack 3, 3 'of a certain length is formed in such a manner as to allow a rack 3, 3' of a rack to protrude in one direction and to have a bolt hole 3e therebetween, And the bolts (4) can be disassembled and coupled by forming the connecting plates (3a, 3a ') of the rack structure with its own weight and by the bolts (4). The grid-like prefabricated frame (A) according to claim 1, wherein the grid-like prefabricated frame (A) is assembled in a multi-stage manner so as to serve as a pillar of a structure, 1b 'and diagonal auxiliary frames 1c and 1c' are welded so as to form one body and frame connecting plates 1a and 1a 'having bolt holes H at the upper and lower ends thereof, The bracket wings 2a and 2a 'are formed on the bottom of the outer surface of the body and the space portions 2c and 2c' on the outer side of the bracket and the space portions 2b and 2b 'on the inner side of the bracket are formed A rack bracket (2, 2 ') having a plurality of latching ring insertion holes (2d, 2d') and a bolt hole (2f) is formed and allowed to be repeatedly connected; The prefabricated rack (B), which is coupled to the grid-type prefabricated frame (A), which is highly multi-stage connected to serve as a pillar, is capable of serving as a shelf, can be disassembled and assembled A rack 3, 3 'of a certain length is formed in such a manner as to allow a rack 3, 3' of a rack to protrude in one direction and to have a bolt hole 3e therebetween, And the connecting plates (3a, 3a ') are formed to be disassembled and coupled to each other. The rack connection method of a rack structure for a three-dimensional automatic warehouse according to any one of claims 1 to 3, wherein the vertical frame (1, 1 ') is formed by a rectangular tubular pipe Wherein the rack brackets (2, 2 ') are welded. The method of claim 1 or 2, wherein the rack connection method of the rack structure for the three-dimensional automatic warehouse and the method thereof are characterized in that the vertical frame (1, 1 ') is formed as a cylindrical pipe, Is characterized in that the rack brackets 2 and 2 'of the rack brackets 2 and 2' are closely attached to the vertical frame 1, 1 'forming the cylindrical brackets 2a and 2a' Prefabricated rack structure for three-dimensional automatic warehouse. The structure for rack connection of a rack structure for a three-dimensional automatic warehouse according to claim 1 or 2, wherein the structure comprising the rack bracket (2, 2 ') has a hooking hole (2b, 2b' ) Is formed to be wide and the lower part is narrowly formed as a light-shielding type, and the latching hooks (3b, 3b ') of the rack to be fitted thereon are formed in such a manner that they can be disassembled and assembled Prefabricated rack structure for three-dimensional automatic warehouse. The method of claim 1 or 2, wherein the rack connection method of the rack structure for the three-dimensional automatic warehouse and the method thereof are characterized in that the engagement hole (2b, 2b ') is formed in an eight- Wherein the rack is formed with a large circle and a small circle at the bottom, and the latching hooks (3b, 3b ') of the rack fitted to the racks are formed into a bolt-head shape so as to be disassembled and assembled. The method of claim 1 or 2, wherein the rack connection method of the rack structure for the three-dimensional automatic warehouse and the method of constructing the rack structure are such that the engagement hole (2b, 2b ' And the latching hooks (3b, 3b ') of the rack fitted in the racks are formed in a cam shape so as to be disassembled and coupled. The method of claim 1 or 2, wherein the rack connection method of the rack structure for the three-dimensional automatic warehouse and the method of constructing the rack have a structure in which the engagement hole (2b, 2b ' , And the latching hooks (3b, 3b ') of the rack fitted to the racks (3b, 3b') are formed in a straight rectangular shape and can be disassembled and coupled. The structure according to claim 1 or 2, wherein the rack connection method of the rack structure for the three-dimensional automatic warehouse and the method comprises a through hole formed at the lower end of the bracket (2, 2 ') of the rack, Is formed only at the upper end of the connecting plates (3a, 3a ') of the rack, and the engaging ribs (3b, 3b') of the racks Rackable rack structures. The method of claim 1 or 2, wherein the rack connection method of the rack structure for the three-dimensional automatic warehouse and the method of constructing the rack structure are such that the latching hooks (3b, 3b ' The rack brackets 2 and 2 'are formed to protrude upward from the vertical frames 1 and 1', and the connection plates 3a and 3a ' Is configured to be disassembled and assembled by forming hooking hole insertion holes (2d, 2d ') in the rack. The method of claim 1 or 2, wherein the rack connection method of the rack structure for the three-dimensional automatic warehouse and the method comprises a plurality of bolt holes (3e) in the both vertical directions along the rack brackets (2, 2 ') are formed in a plate shape that is somewhat wider than the width of the vertical frame (1, 1') and are welded so as to protrude on both sides of the vertical frame (1, 1 ' 3a ') are formed such that bolt holes are formed at positions coinciding with the bolt holes (3e) and the latching hooks (3b, 3b') of the rack are formed at the upper end thereof so as to be disassembled and assembled Rackable rack structures. The method of claim 1 or 2, wherein the rack connecting method of the rack structure for the three-dimensional automatic warehouse and the method of the method comprise the steps of: A bolt hole 3e in which the engaging hole 2d and 2d 'and a bolt hole 2f are formed and in which the engaging hole 2d and 2d' and the bolt hole 2f coincide with each other, (3, 3 ') of a rack having a plurality of racks (3b, 3b'). The structure of a rack connection method of a rack structure for a three-dimensional automatic warehouse and a method thereof. ※ Note: It is disclosed by the contents of the first application.