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CN-121985503-A - Spliced prefabricated modularized prying block system for data center and preparation method thereof

CN121985503ACN 121985503 ACN121985503 ACN 121985503ACN-121985503-A

Abstract

The invention discloses an assembled prefabricated modularized prying block system for a data center and a preparation method thereof, and relates to the technical field of data center infrastructure construction. The system includes a set of cubes and a set of support frames. The cube group comprises a cube I, a cube II and a plurality of cubes III. The first cube, the second cube and the third cube comprise two opposite side face square frames and a plurality of cross beams with two ends respectively and detachably connected with the two side face square frames vertically. The support frame group comprises two support frames, and the support frames are perpendicular to the side frames. Two ends of the first cube are respectively detachably connected with the tops of the two supporting boxes, two ends of the second cube are respectively detachably connected with the bottoms of the two supporting boxes, and two ends of the third cube are respectively detachably connected with the middle parts of the two supporting boxes. The supporting square frame is provided with a plurality of installation positions of the second square block. The invention can reduce the prefabrication, transportation and installation difficulty and improve the field installation efficiency, the installation precision and the expansibility.

Inventors

  • SUN LIXIN
  • CHEN JIANFENG
  • YU XIANGYONG
  • SHAO LILI
  • WU BO

Assignees

  • 万马科技股份有限公司

Dates

Publication Date
20260505
Application Date
20260227

Claims (10)

  1. 1. A modular skid system (100) for a data center, comprising: The three-dimensional square block comprises a square block group (1), wherein the square block group (1) comprises a square block I (13), a square block II (14) and a plurality of square block III (15), each of the square block I (13), the square block II (14) and the square block III (15) comprises two opposite side surface square blocks (11), and a plurality of cross beams (12) with two ends respectively detachably and vertically connected with the two side surface square blocks (11); The support frame group (2), the support frame group (2) comprises two support frames (21), the two support frames (21) are vertically arranged and are opposite in position, and the support frames (21) are perpendicular to the side frames (11); The two ends of the first cubic block (13) are respectively and detachably connected with the tops of the two supporting frames (21), the two ends of the second cubic block (14) are respectively and detachably connected with the bottoms of the two supporting frames (21), the two ends of the third cubic block (15) are respectively and detachably connected with the middle parts of the two supporting frames (21), and the supporting frames (21) are provided with a plurality of installation positions of the second cubic block (14).
  2. 2. The modular skid system (100) for a data center of claim 1, wherein: the support frame group (2) further comprises a mounting bracket (22), the mounting bracket (22) is welded to one side of the support frame (21) facing the cube group (1), and the mounting bracket (22) is used for detachably connecting the side face square frame (11).
  3. 3. The modular skid system (100) for a data center of claim 2, wherein: the mounting bracket (22) is a U-shaped groove, and the opening faces to and accommodates the vertical part of the side surface square frame (11).
  4. 4. The modular skid system (100) for a data center of any of claims 1-3, wherein: the detachable connection comprises the use of a bolt (3) connection.
  5. 5. The modular skid system (100) for a data center of claim 1, wherein: the inner sides of the side surface square frames (11) and the supporting square frames (21) are connected with reinforcing beams.
  6. 6. The modular skid system (100) for a data center of claim 1, wherein: The cross beam (12) comprises a first cross beam (121) and a second cross beam (122), wherein two ends of the first cross beam (121) are respectively connected with right angles of the two side surface square frames (11), and two ends of the second cross beam (122) are respectively connected with horizontal parts of the two side surface square frames (11); the first cubic block (13) at least comprises the first beam (121), and the second cubic block (14) and the third cubic block (15) at least comprise the first beam (121) and the second beam (122).
  7. 7. The modular skid system (100) for a data center of claim 6, wherein: The cross beam (12) further comprises a cross beam three (123), two ends of the cross beam three (123) are respectively connected with the vertical parts of the two side surface square frames (11), and the cubic block two (14) and the cubic block three (15) further comprise the cross beam three (123).
  8. 8. The modular skid system (100) for a data center of claim 1, wherein: The side frame (11) and the support frame (21) are pre-positioned by means of positioning pins before the detachable connection.
  9. 9. A method for preparing a modular skid system for a data center, characterized in that it is used for preparing a modular skid system (100) for a data center according to any one of claims 1 to 8, comprising the following steps: Prefabricating the side frame (11), the cross beam (12) and the support frame (21) in a factory; Transporting the side frames (11), the cross beams (12) and the support frames (21) to a construction site in bulk form; In a construction site, the side surface square frame (11) and the cross beam (12) are assembled to obtain a first cubic block (13), a second cubic block (14) and a third cubic block (15), and the first cubic block (13), the second cubic block (14) and the third cubic block (15) are respectively connected with the two supporting square frames (21) to obtain the assembled prefabricated modularized prying block system (100) for the data center.
  10. 10. The method of manufacturing a modular skid system for a data center of claim 9, wherein: The side frame (11) and the supporting frame (21) are pre-positioned by a positioning pin before the assembly mode of the construction site is that the side frame is connected by using a bolt (3) and the bolt (3) is used for connecting.

Description

Spliced prefabricated modularized prying block system for data center and preparation method thereof Technical Field The invention relates to the technical field of data center infrastructure construction, in particular to an assembled prefabricated modularized prying block system for a data center. Background Along with the development of the data center to large-scale and high-density, the prefabricated modularized data center is widely applied due to the advantages of short construction period, controllable quality and the like. In the traditional construction mode, a large data center frame is often assembled on site by tens of three-dimensional prying blocks with different sizes. The three-dimensional frame pry is large in size and weight, welding deformation is difficult to control in factory processing, special vehicles are required for transportation, the three-dimensional frame pry is limited by road height and width limitation, and the cost is high. The field hoisting is difficult, the field welding of the large-sized components is influenced by environmental factors and is easy to generate thermal deformation, the precision of the whole frame is further influenced, and the foundation requirement of high-precision equipment installation of the data center is difficult to meet. In the prior art, IT equipment such as an IT cabinet, power distribution, an air conditioner and the like is integrated in a prying block, and the prying block is used for connecting an upper module and a lower module, but the fundamental problems of processing, transportation and installation of a large-sized integral three-dimensional prying block, such as deformation control of a large-sized component, field welding precision assurance and high transportation cost, are not solved effectively. Therefore, a new solution that can compromise the structural stability, construction economy and construction convenience of a large data center is needed. Disclosure of Invention The invention aims to provide an assembled prefabricated modularized prying block system for a data center and a preparation method thereof, which are used for solving the problems of the related technology, reducing the prefabrication, transportation and installation difficulties and improving the field installation efficiency, the installation precision and the expansibility. In order to achieve the above object, the present invention provides the following solutions: the invention discloses an assembled prefabricated modularized prying block system for a data center, which comprises the following components: The cube group comprises a cube I, a cube II and a plurality of cubes III, wherein the cube I, the cube II and the cubes III comprise two opposite side face square frames, and two ends of the cross beams are respectively and detachably connected with the two side face square frames vertically; The support frame group comprises two support frames, wherein the two support frames are vertically arranged and are opposite to each other, and the support frames are perpendicular to the side frames; the two ends of the first cube are detachably connected with the tops of the two supporting frames respectively, the two ends of the second cube are detachably connected with the bottoms of the two supporting frames respectively, the two ends of the third cube are detachably connected with the middle of the two supporting frames respectively, and the supporting frames are provided with a plurality of installation positions of the second cube. In some examples, the set of support frames further includes a mounting bracket welded to a side of the support frame facing the set of cube blocks, the mounting bracket for detachably connecting the side frame. In some examples, the mounting bracket is a U-shaped slot, opening toward and receiving the vertical portion of the side frame. In some examples, the detachable connection includes using a bolted connection. In some examples, reinforcing beams are connected to the inner sides of the side frames and the supporting frames. In some examples, the cross beam comprises a cross beam I and a cross beam II, wherein two ends of the cross beam I are respectively connected with right angles of the two side surface square frames, and two ends of the cross beam II are respectively connected with horizontal parts of the two side surface square frames; the first cubic block at least comprises the first beam, and the second cubic block and the third cubic block at least comprise the first beam and the second beam. In some examples, the cross beam further comprises a cross beam III, two ends of the cross beam III are respectively connected with vertical parts of the two side surface square frames, and the cube block II and the cube block III further comprise the cross beam III. In some examples, the side block and the support block are pre-positioned by a locating pin prior to the removable connection. The invention also discloses a p