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CN-224226468-U - Prefabricated modularized data center box lifting point structure

CN224226468UCN 224226468 UCN224226468 UCN 224226468UCN-224226468-U

Abstract

The utility model particularly relates to a prefabricated modularized data center box body lifting point structure. The prefabricated modularized data center box body hanging point structure comprises a folding beam, a sleeve, solid steel bars, limiting plates, connecting plates and detachable support columns, wherein the folding beam is of a C-shaped structure formed by square tubes with webs in the middle and fixedly connected to a box body longitudinal frame beam, through holes are formed in webs in the middle section of the folding beam and used for fixing the sleeve for telescopic movement of the solid steel bars, the detachable support columns are perpendicular to the plane of the box body longitudinal frame beam, and two ends of each detachable support column are connected to the folding beam through the connecting plates. This prefabricated modularization data center box hoisting point structure sets up hoisting point position on the longitudinal frame roof beam of box floor, adopts indent, hidden structural design, and atress system is reasonable, material saving, and the splice width is the same when the top with hoisting point position between the box, simple to operate, construction deployment speed are fast, and comprehensive properties is superior, and the application scenario is wide.

Inventors

  • LI XIANGHUA
  • XU YUJIE
  • LI JUNSHAN
  • WAN PENG
  • REN CHUANG

Assignees

  • 浪潮通信信息系统有限公司

Dates

Publication Date
20260512
Application Date
20250522

Claims (8)

  1. 1. A prefabricated modularized data center box body hanging point structure is characterized by comprising a folding beam (2), a sleeve (3), a solid steel bar (4), a limiting plate (5), a connecting plate (7) and a detachable support column (8); The folding beam (2) is of a C-shaped structure formed by square tubes with webs (9) in the middle and fixedly connected to a longitudinal frame beam (11) of the box body, and a through hole (10) is formed in the web of the middle section of the folding beam (2) and is used for fixing a sleeve (3) for telescopic movement of a solid steel rod (4); The detachable support columns (8) are perpendicular to the plane where the box body longitudinal frame beams (11) are located, and two ends of the detachable support columns are connected to the folding beams (2) through connecting plates (7).
  2. 2. The prefabricated modular data center box lifting point structure of claim 1, wherein stiffening plates (1) are respectively arranged on the left side and the right side of the folding beam (2), and the stiffening plates (1) are fixedly connected to the box floor longitudinal frame beams (11) so as to enhance the bending resistance of the folding beam out of plane and avoid instability of the folding beam Duan Pingmian in the lifting process.
  3. 3. The prefabricated modular data center box hanging point structure according to claim 2, wherein the folding beams (2) are divided into floor folding beams (21) and roof folding beams (22); The floor folding beams (21) are arranged at the 1/3 position of the longitudinal frame beams of the box body floor, and each longitudinal frame beam is provided with two floor folding beams (21); the top plate folding beams (22) are arranged at 1/3 positions of the longitudinal frame beams of the top plate of the box body, and two top plate folding beams (22) are arranged on each longitudinal frame beam; The floor folding beam (21) is responsible for providing a hanging point connection position during hanging, and the top plate folding beam (22) is responsible for providing a channel for hanging and recycling the steel wire ropes.
  4. 4. The prefabricated modular data center box body lifting point structure according to claim 3, wherein the floor folding beam (21) is a C-shaped structure formed by welding square tubes with webs (9) in the middle through butt welding seams, and the welding seam grade is two-stage; The concave section (6) of the C-shaped structure of the floor folding beam (21) is used for providing a telescopic space of the hidden hanging point, so that the hanging point is ensured to be extracted and used without occupying the space of an adjacent box body.
  5. 5. The prefabricated modular data center box lifting point structure of claim 3, wherein the top plate folding beam (22) is a C-shaped structure formed by welding common square tubes through butt welding seams, and the welding seam grade is two; The concave section (6) of the C-shaped structure of the roof folded beam (22) is used for providing a passage for hanging and recovering the hoisting steel wire rope, so that the space of adjacent boxes is not required to be occupied during hoisting.
  6. 6. The prefabricated modular data center box lifting point structure according to claim 1, wherein the connecting plate (7) is provided with bolt holes and is connected with the flange plate of the folding beam (2) through welding; The two ends of the detachable support column (8) are provided with end socket steel plates (14), the end socket steel plates (14) are fixedly connected with joint connecting plates (12), and bolt holes are formed in the joint connecting plates (12); the detachable support column (8) is connected with the connecting plate (7) through bolts (13).
  7. 7. The prefabricated modular data center box lifting point structure of claim 1, wherein limiting plates (5) are arranged at the front end and the rear end of the solid steel rod (4) and used for limiting the position of the solid steel rod (4) in the fixed sleeve (3) and preventing the solid steel rod from falling off from the fixed sleeve (3).
  8. 8. The prefabricated modular data center box lifting point structure according to claim 7, wherein the length of the sleeve (3) is the same as the width of the folded beam (2), and the sleeve and the folded beam web (9) are fixedly connected through fillet welding and girt welding; The length of the solid steel rod (4) is the sum of the length of the concave section (6) of the C-shaped structure of the folded beam (2) and the width of the section of the folded beam (2), and the pull-out, the use and the hidden retraction of the hanging point are realized by the front and back movement of the solid steel rod (4) in the sleeve (3).

Description

Prefabricated modularized data center box lifting point structure Technical Field The utility model relates to the technical field of prefabricated modularized data centers, in particular to a box body hanging point structure of a prefabricated modularized data center. Background The prefabricated modularized data center is a pre-engineered scheme product which integrates information technology equipment (such as a server, a switch, a firewall and the like), matched power supply and distribution equipment, refrigeration equipment, fire protection equipment, monitoring equipment and the like into a modularized box body in a factory according to project requirements, and then transports the box body to a project site for splicing and stacking. The method has the characteristics of short construction period, high flexibility, stable construction quality and the like, and gradually becomes the mainstream trend of the data center building. The module box weight of the integrated equipment consists of box body dead weight and equipment weight, and the total weight can reach 30-40T. The large gravity effect is resisted in the hoisting process, and the box body structure is required to have a strong section, so that the hoisting working condition is an important working condition to be considered in the box body structure design. The position setting of box hoisting point has directly decided the box power transmission system in the hoist and mount process, plays an important role to the design of box cross-section. Meanwhile, the position setting of the hanging point of the box body also affects the assembly and stacking method of the box body, the setting and sealing of the joint between the box bodies, and the stress anti-seismic performance, the installation efficiency and the waterproof effect of the prefabricated modularized data center. In order to facilitate the hoisting and splicing of the box body, most manufacturers currently adopt a structure that the hoisting point is arranged at the top of the box body. In order to resist huge gravity in the hoisting process, the box ceiling structure is a main bearing member, and a box ceiling longitudinal frame beam is generally required to be designed into a truss beam type, a ceiling transverse frame and a ceiling secondary beam are subjected to quantity encryption and section reinforcement, and frame columns are additionally arranged between the ceiling frame beam and a floor frame beam for reinforcement. However, the reinforcing design does not help the box body in the non-hoisting working condition of the box body much, that is to say, the reinforcing design for meeting the hoisting working condition of the box body actually causes great material waste. In order to solve the problems, the utility model provides a prefabricated modularized data center box body hanging point structure. Disclosure of Invention The utility model provides a simple and efficient prefabricated modularized data center box body hanging point structure for overcoming the defects of the prior art. The utility model is realized by the following technical scheme: A prefabricated modularized data center box body hanging point structure consists of a folding beam, a sleeve, a solid steel bar, a limiting plate, a connecting plate and a detachable support column; The folding beam is of a C-shaped structure formed by square tubes with webs in the middle and fixedly connected to the longitudinal frame beam of the box body, and the webs at the middle section of the folding beam are provided with through holes for fixing sleeves for the telescopic movement of the solid steel bars; the detachable support columns are perpendicular to the plane of the longitudinal frame beam of the box body, and two ends of the detachable support columns are connected to the folding beam through connecting plates. The limiting plates are arranged at the front end and the rear end of the solid steel rod and used for limiting the position of the solid steel rod in the fixed sleeve and preventing the solid steel rod from falling off from the fixed sleeve. The left side and the right side of the folding beam are respectively provided with a stiffening plate, and the stiffening plates are fixedly connected to the longitudinal frame beam of the box body floor so as to strengthen the bending resistance of the folding beam outside the plane and avoid the instability of the folding beam Duan Pingmian in the hoisting process. The folding beam is divided into a floor folding beam and a roof folding beam; the floor folding beams are arranged at 1/3 positions of the longitudinal frame beams of the box body floor, and two floor folding beams are arranged on each longitudinal frame beam; The top plate folding beams are arranged at 1/3 positions of the longitudinal frame beams of the top plate of the box body, and two top plate folding beams are arranged on each longitudinal frame beam; The floor folding beam is responsible for provi