CN111350385A - Steel-structure movable modular assembly type multilayer stacked electric power machine room - Google Patents

Abstract

The invention discloses a steel structure movable modular assembly type multilayer superposed electric power machine room which comprises a machine room body formed by splicing steel structure frames, wherein the machine room body comprises a first-layer machine room body consisting of a plurality of first-layer installation modules, a plurality of layers of laminated machine room bodies assembled at the top of the first-layer machine room body, a top plate arranged at the top of the highest laminated machine room body and a stair frame arranged on one side of the machine room body. The stacked electric power machine room can be a two-layer, three-layer or more stacked structure, and the electric power machine rooms with different lengths, widths, heights and sizes and different layers are designed according to the size of an actual construction site and the actual power consumption requirement. The multilayer electric power computer lab design can satisfy the building site and enlarge the power consumption demand, and every computer lab body can hoist alone, transports job site through single and assembles again, and the transport is simple, swift with the equipment, and convenient to detach can reduce the site operation time, very big improvement production efficiency.

Description

Steel-structure movable modular assembly type multilayer stacked electric power machine room

Technical Field

The invention relates to the technical field of electric power machine rooms, in particular to a steel structure movable modular assembly type multilayer superposition electric power machine room.

Background

Traditional electric power computer lab in trade generally adopts brick concrete structure or reinforced concrete frame structure as the main, and concrete structure has following problem: the weight is large because of the combination of the steel bar and the concrete; the concrete has low tensile strength, easy cracking and poor soil shock resistance; the construction period of the concrete is long, the labor is wasted, and the phenomenon of disturbance of residents is easy to generate; the wall is thicker, the use area is reduced, and the space utilization rate is low; a large amount of construction waste is generated; the construction is easily affected by seasons; the reinforcement repair is difficult.

At present, the electric power machine room built by using a steel plate structure is designed in the industry, for example, the movable module assembly type electric power machine room with the patent number of CN201821635153.3 is assembled by a modular structure, the structure is simple, the use is convenient, the installation can be carried out on the site, the mobility is good, and the popularization is favored. However, because of rare land resources, the power machine room cannot be enlarged and more cables are assembled on the land area of the originally designed single-layer power machine room, so that the requirement for enlarging power consumption on a construction site is difficult to meet; in addition, inside the electric power computer lab was arranged in to the switch board, the cable laid in ground according to the position of switch board, and the cable in this kind of electric power computer lab is mixed and disorderly, has increased the later maintenance cost.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a steel structure movable modular assembly type multi-layer stacked electric power machine room.

The purpose of the invention is realized by adopting the following technical scheme:

a steel structure movable modular assembly type multilayer superposed electric power machine room comprises a machine room body formed by splicing steel structure frames, wherein the machine room body comprises a first-layer machine room body consisting of a plurality of first-layer installation modules, a plurality of layers of laminated machine room bodies assembled at the top of the first-layer machine room body, a top plate arranged at the top of the highest laminated machine room body and a stair frame arranged on one side of the machine room body;

the first-layer machine room body comprises a first-layer floor and a first-layer wallboard; the first layer of wallboard is arranged on the periphery of the bottom frame of the first layer of floor; a cable port for cable routing and an access port for cable maintenance are reserved on the first floor;

the laminated machine room body comprises a laminated floor and a laminated wallboard; the laminated wall board is arranged on the periphery of the laminated floor; a cable port for cable routing and an access port for cable access are reserved on the laminated floor; the top plate is arranged on the top of the laminated wall plate;

first floor, stromatolite floor all includes the underframe, the underframe adopts four bottom channel-section steel head and the tail welding to make, mutually perpendicular between the adjacent bottom channel-section steel, be equipped with a plurality of on the horizontal bottom channel-section steel that sets up on the underframe and transversely play to hang the piece, be equipped with a plurality of on the bottom channel-section steel that vertically sets up on the underframe and vertically play to hang the piece, be equipped with the steel sheet in the underframe and bend the piece, the steel sheet is bent and is equipped with a plurality of steel sheet apron on the piece, the steel sheet apron adopts square structure, the steel sheet is bent and is gone up along transversely and vertically being provided with a plurality of bottom side pipe respectively, be parallel to each other between the adjacent bottom side pipe, the steel sheet is.

Furthermore, the top of the first-layer machine room body also comprises a laminated bottom plate for bearing laminated cables and routing the laminated cables; the laminated bottom plate comprises a laminated underframe framework and an underframe steel plate paved on the laminated underframe framework; a cable channel opening for converging and routing the first layer cable is reserved on the underframe steel plate; the laminated underframe framework is fixedly installed at the top of the first-layer wallboard and is combined with the first-layer machine room body to form a whole first-layer installation module.

Furthermore, the first-layer machine room body consists of two first-layer installation modules, each first-layer installation module is independently assembled, and each first-layer installation module comprises a first-layer floor, a first-layer wallboard and a laminated floor which are symmetrically arranged; the cable port and the access port are arranged on one of the first-layer installation modules;

the laminated machine room body consists of two laminated installation modules, each laminated installation module is independently assembled, and each laminated installation module is symmetrically provided with a laminated floor board, a laminated wall board and a top board; the cable port, the access port and the cable channel port are arranged on one of the laminated installation modules.

Further, the top of the first layer of wallboard is fixedly connected with the periphery of the laminated underframe framework through a square pipe or steel plate bending piece; the bottom of the laminated wallboard is fixedly connected with the periphery of the laminated underframe framework through a square pipe or steel plate bending piece; the bottom of the laminated underframe skeleton is fixedly connected with a composite plate through a steel connecting piece.

Further, the bottom frames of the two symmetrical first-layer floors of the bottom frame of the first-layer floor are fixedly connected through bolts; the bottom frames of the two symmetrical laminated floors of the bottom frame of the laminated floor are fixedly connected through bolts.

Further, the roof comprises roof skeleton and the roof steel sheet of laying on roof skeleton, and roof steel sheet edge is equipped with waterproof receipts limit, and roof skeleton bottom is equipped with roof side pipe, and roof side pipe passes through the top of bolted connection stromatolite wallboard, and roof side pipe bottom is equipped with the composite sheet, is equipped with the roof truss between roof and the roof side pipe.

Furthermore, a plurality of water tanks are longitudinally arranged at the upper part of the top plate.

Further, the first layer of wallboard and the laminated wallboard are respectively provided with a door.

Furthermore, a cargo cabinet door for hoisting the electric power device is arranged on the laminated wall plate.

Furthermore, the length and the width of the first floor and the laminated floor are adjustable; the layer height of the first-layer machine room body is adjustable, and the layer height of the laminated machine room body is adjustable.

Compared with the prior art, the invention has the beneficial effects that:

(1) this portable modularization assembled multilayer of steel construction superposes electric power computer lab comprises a plurality of modularized computer lab bodies, can freely assemble between a plurality of modularized computer lab bodies, and the computer lab body is formed by steel structural framework concatenation, and the modularization computer lab adopts the steel construction as whole frame, and the transport is simple swift with the equipment, convenient to detach. Due to the double-layer design, the electric machine room can be enlarged in vertical height on the land area of the originally designed single-layer electric machine room, more cables can be assembled, and the requirement of enlarging power utilization on a construction site is met; the assembled electric machine room can be reused, and a large amount of construction waste is greatly reduced. Meanwhile, the laminated machine room body can also be used as an independent single-layer electric machine room, so that the DIY design of the multilayer electric machine room is more humanized, convenient and efficient. In addition, this multilayer electric power computer lab has still designed wire and cable's the mouth of walking the line, realizes dismantling the connection with the pre-buried wire and cable in ground, makes double-deck wire and cable walk the line well in order promptly, reduces the later maintenance cost again.

(2) This application further decomposes into a plurality of installing module of being convenient for assemble with the steel construction of multilayer electric power computer lab, and transport and equipment are simple swift more, more convenient to detach. In addition, in order to integrate all installation modules with uniform specifications in advance before the installation of the installation modules on site at a construction site, improve the reproducible integration efficiency of all installation modules and reduce the time of site construction, the preferable method is to arrange a cable port and an access port of a first layer on one of the installation modules of the first layer; and the laminated cable port, the access port and the cable channel port are arranged on one of the laminated installation modules. The size of each installation module can be preset and manufactured into installation modules with different sizes and specifications according to the sizes required by different construction sites, so that the construction requirements of different construction sites are met.

Drawings

FIG. 1 is a schematic structural diagram of a steel structure movable modular assembly type multi-layer stacked electric power room according to a preferred embodiment of the present invention;

FIG. 2 is a schematic structural view of a movable modular assembly type multi-storey stacked electric power room with a steel structure from another angle according to the preferred embodiment of the present invention;

FIG. 3 is a schematic diagram of a steel structure of a movable modular assembly type multi-layer stacked electric power room according to a preferred embodiment of the present invention;

FIG. 4 is an enlarged cross-sectional view of the area A-A in FIG. 3;

FIG. 5 is a schematic diagram of another angle steel structure of the movable modular assembly type multi-storey stacked electric power room according to the preferred embodiment of the present invention;

FIG. 6 is a schematic view of the first floor according to the preferred embodiment of the present invention;

FIG. 7 is an enlarged view of area B-B of FIG. 6;

FIG. 8 is a schematic structural view of a laminated flooring according to a preferred embodiment of the present invention;

FIG. 9 is a schematic structural diagram of a laminated base plate according to a preferred embodiment of the present invention;

FIG. 10 is a schematic view of a top plate according to the preferred embodiment of the present invention;

FIG. 11 is a top view of the top plate of the preferred embodiment of the present invention;

FIG. 12 is an enlarged view of the area C-C of FIG. 11;

FIG. 13 is an enlarged schematic view of the area D-D in FIG. 11;

fig. 14 is an enlarged schematic view of the region E-E in fig. 11.

In the figure: 100. the steel structure is movable, modular and assembled and is stacked in multiple layers in the electric power machine room; 1. a first floor machine room body; 11. a first floor; 111. a bottom frame of the first floor; 112. a first layer of steel plate cover plate; 113. a bolt; 12. A first layer of wallboard; 13. a ceiling; 2. a laminated machine room body; 21. a laminate floor panel; 211. a bottom frame of the laminated floor; 212. a laminated steel plate cover plate; 22. laminating the wallboards; 23. a top plate; 231. a roof skeleton; 232. Roof steel panels; 233. waterproof edge folding; 234. a roof square tube; 235. a composite board; 236. a roof truss; 237. a water tank; 24. a laminated base plate; 241. a laminated underframe skeleton; 242. an underframe steel plate; 3. a stair frame; 4. a cable port; 5. an access hole; 6. a cable passage port; 7. a first-layer installation module; 8. a stack mounting module; 9. a hoisting member; 10. a door; 101. a cargo cabinet door.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

The multi-module assembly is the core concept of the invention, the superposed electric power machine room can be a laminated structure with two layers, three layers or more, and the electric power machine rooms with different lengths, widths, heights and sizes and different layer numbers are designed to be adaptive according to the size of an actual construction site and the actual power consumption requirement. The inventive concept of the present invention will now be described using a two-layer design as an example.

As shown in fig. 1 to 14, a movable modular double-layer stacked electric power machine room 100 comprises machine room bodies formed by splicing steel structure frames, wherein each machine room body comprises a first-layer machine room body 1, a stacked machine room body 2 assembled on the top of the first-layer machine room body, a top plate 23 installed on the top of the stacked machine room body, and a stair frame 3 installed on one side of the machine room body;

the first-layer machine room body 1 comprises a first-layer floor 11 and a first-layer wallboard 12; first floor 11 includes first floor underframe 111, the underframe adopts four bottom channel-section steel head and the tail welding to make, mutually perpendicular between the adjacent bottom channel-section steel, be equipped with a plurality of on the horizontal bottom channel-section steel that sets up on the underframe and transversely play and hang the piece, be equipped with a plurality of on the bottom channel-section steel of vertical setting on the underframe and vertically play and hang the piece, be equipped with the steel sheet piece of bending in the underframe, the steel sheet is bent and is equipped with a plurality of first layer steel sheet apron 112 on the piece, the steel sheet apron adopts square structure, the steel sheet is bent and is gone up along transversely and vertically being provided with a plurality of bottom side pipe respectively, be parallel to each other between the adjacent bottom side pipe, the steel sheet is bent and is provided with. A cable port 4 for cable routing and an access port 5 for cable maintenance are reserved on the first floor; the periphery at the underframe on first floor is installed to first floor wallboard.

The laminated machine room body comprises a laminated floor 21 and a laminated wallboard 22; laminated floor 21 includes laminated floor's underframe 211, the underframe adopts four bottom channel-section steel head and the tail welding to make, mutually perpendicular between the adjacent bottom channel-section steel, be equipped with a plurality of on the horizontal bottom channel-section steel that sets up on the underframe and transversely play and hang the piece, be equipped with a plurality of on the bottom channel-section steel that vertically sets up on the underframe and vertically play and hang the piece, be equipped with the steel sheet piece of bending in the underframe, the steel sheet is bent and is equipped with a plurality of stromatolite steel sheet apron 212 on the piece, the steel sheet apron adopts square structure, the steel sheet is bent and is gone up along transversely and vertically being provided with a plurality of bottom side pipe respectively, be parallel to each other between the adjacent bottom side pipe, the steel sheet is. A cable port 4 for cable routing and an access port 5 for cable access are reserved on the laminated floor; the laminated wall board is arranged on the periphery of the bottom frame of the laminated floor; the top plate is arranged on the top of the laminated wall plate;

as a further preferable scheme, the top of the first-floor machine room body further includes a laminated bottom plate 24 for carrying laminated cables and routing the laminated cables; the laminated bottom plate comprises a laminated underframe framework 241 and an underframe steel plate 242 paved on the laminated underframe framework; a cable channel opening 6 for converging and routing the first layer of cable is reserved on the underframe steel plate; the laminated underframe framework is fixedly installed at the top of the first-layer wallboard and is combined with the first-layer machine room body to form a whole first-layer installation module. In order to improve the connection rigidity of the first layer and the laminated electric machine room body, the periphery of the laminated bottom plate is connected to the bottom of the laminated underframe framework of the laminated electric machine room body through the upright square steel.

This portable modularization assembled multilayer of steel construction superposes electric power computer lab comprises a plurality of modularized computer lab bodies, can freely assemble between a plurality of modularization computer lab bodies, and the computer lab body is formed by steel structural framework concatenation, and the mode of concatenation can be the fixed mode of welding or bolted connection and combination, perhaps other fixed connection modes that prior art is commonly used. The modularization computer lab adopts the steel construction as overall frame, and transport and equipment are simple swift, convenient to detach. Due to the double-layer design, the electric machine room can be enlarged in vertical height on the land area of the originally designed single-layer electric machine room, more cables can be assembled, and the requirement of enlarging power utilization on a construction site is met; in addition, the assembled electric machine room can be reused, and a large amount of construction waste is greatly reduced. Meanwhile, the laminated machine room body can also be used as an independent single-layer electric machine room, so that the DIY design of the multilayer electric machine room is more humanized, convenient and efficient.

As a further preferred scheme, the first-floor machine room body is divided into two first-floor installation modules 7, each first-floor installation module is independently assembled, and each first-floor installation module comprises a first-floor, a first-floor wallboard and a laminated floor which are symmetrically arranged;

the laminated machine room body is divided into two laminated installation modules 8, each laminated installation module is independently assembled, and each laminated installation module is symmetrically provided with a laminated floor, a laminated wallboard and a top plate;

this application further decomposes into a plurality of installing module of being convenient for assemble with the steel construction of multilayer electric power computer lab, and the transport is simple swift with the equipment, convenient to detach. In addition, in order to integrate all installation modules with uniform specifications in advance before the installation of the installation modules on site at a construction site, improve the reproducible integration efficiency of all installation modules and reduce the time of site construction, the preferable method is to arrange a cable port and an access port of a first layer on one of the installation modules of the first layer; and the laminated cable port, the access port and the cable channel port are arranged on one of the laminated installation modules. The size of each installation module can be preset and manufactured into installation modules with different sizes and specifications according to the sizes required by different construction sites, so that the construction requirements of different construction sites are met.

As shown in fig. 3-4, the connection mode of the first-layer steel structure and the laminated underframe skeleton of the electric power machine room is as follows: the top of the first layer of wallboard is fixedly connected with the periphery of the laminated underframe framework 241 through a square pipe or steel plate bending piece, and the fixed connection is preferably carried out in a welding mode; the bottom of the laminated wallboard is fixedly connected with the periphery of the laminated underframe framework through a square tube or steel plate bending piece, and the fixed connection is preferably realized in a welding mode; the bottom of the laminated underframe framework is fixedly connected with a composite board through a steel connecting piece, and the composite board is used as a ceiling 13 of a first-layer electric power machine room.

As shown in fig. 6-8, the electric power machine room is further divided into a bottom frame of the first floor of the installation module and a bottom frame of the laminated floor, and the connection modes are as follows: the bottom frames 111 of the two symmetrical first floor of the bottom frame 11 of the first floor are fixedly connected through bolts 113; the bottom frames 211 of the two symmetrical laminated floors of the bottom frame 21 of the laminated floor are fixedly connected through bolts.

Preferably, the periphery of the bottom frame of the first floor and the periphery of the bottom frame of the laminated floor are both provided with lifting pieces 9 which can be telescopically adjusted. The design of the hoisting piece is convenient for hoisting and fixing a crane hook on one hand and vertical alignment assembly between the upper layer and the lower layer of the first-layer machine room body and the laminated machine room body on the other hand; the design of the lifting piece capable of being adjusted in a telescopic mode enables the electric machine room to play a buffering role in lifting the installation module on a construction site.

As a further preferred scheme, the top plate 23 is composed of a roof framework 231 and a roof steel plate 232 laid on the roof framework, a waterproof edge 233 is arranged at the edge of the roof steel plate, a top plate square tube 234 is arranged at the bottom of the roof framework, the top plate square tube is connected with the top of the laminated wall plate through a bolt (not shown in the figure), a composite plate 235 is arranged at the bottom of the top plate square tube, and a roof truss 236 is arranged between the top plate and the top plate square tube.

Preferably, a plurality of water tanks 237 are longitudinally arranged on the upper portion of the top plate. The design of basin can play good drainage effect. As more preferred scheme, the roof of roof designs into the cross-section and is the splayed structure, and the roof middle part is high structure low all around promptly, and the rainwater can be followed the roof and flowed down automatically when sleet day, can not produce the condition of roof ponding.

As a further preferable scheme, the first layer wall board and the laminated wall board are respectively provided with a door 10. The door is the exit of maintainer to electric power computer lab routine maintenance, but because power equipment is bulky, the quality is heavy, and the manpower is moved and is lifted to stromatolite electric power computer lab degree of difficulty big, as further preferred scheme, this application is offered the packing cupboard door 101 that is used for handling electric power unit on the stromatolite wallboard. The design of goods cabinet door provides very big facility for the electrical equipment transport and the equipment of stromatolite electric power computer lab, improves present installation efficiency of construction.

As a further preferred scheme, the length and the width of the first floor and the laminated floor are adjustable; the layer height of the first-layer machine room body is adjustable, and the layer height of the laminated machine room body is adjustable. The design further improves the application range of the laminated design and improves the applicability and convenience of DIY design.

As a further preferred scheme, this portable modularization assembled multilayer stack electric power computer lab of steel construction comprises a plurality of modularized computer lab bodies, and a plurality of bilayer computer lab bodies are assembled promptly and are formed, make the DIY design of multilayer electric power computer lab humanized more, facilitate, efficient.

The installation process of the multilayer electric power machine room is as follows:

(1) transporting each installation module of the multilayer electric power machine room to a construction site;

(2) during on-site construction, two first-layer installation modules of a first-layer machine room body are hoisted to the upper side of a cable well through a crane and vertically lowered to the ground, cable ports of the first-layer installation modules correspond to cable well mouths one by one, and cables pre-buried in the cable well mouths can be connected with first-layer/laminated wires and cables;

(3) two laminated installation modules of the laminated machine room body are hoisted to the upper side of the first-layer machine room body through a crane and vertically descended to the top of the first-layer machine room body, and the fixed connection of two layers of steel structures is realized through a welding mode;

(4) install this internal power equipment of first floor, stromatolite computer lab respectively, the cable of stromatolite computer lab body is accomodate on the stromatolite bottom plate to converge through predetermined cable passage mouth and first floor cable, connect into to the pre-buried cable assembly of cable well head at last, accomplish the installation.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (10)

1. A steel structure movable modular assembly type multilayer superposed electric power machine room is characterized by comprising a machine room body formed by splicing steel structure frames, wherein the machine room body comprises a first-layer machine room body consisting of a plurality of first-layer installation modules, a plurality of layers of laminated machine room bodies assembled at the top of the first-layer machine room body, a top plate arranged at the top of the highest laminated machine room body and a stair frame arranged on one side of the machine room body;

the first-layer machine room body comprises a first-layer floor and a first-layer wallboard; the first layer of wallboard is arranged on the periphery of the bottom frame of the first layer of floor; a cable port for cable routing and an access port for cable maintenance are reserved on the first floor;

the laminated machine room body comprises a laminated floor and a laminated wallboard; the laminated wall board is arranged on the periphery of the laminated floor; a cable port for cable routing and an access port for cable access are reserved on the laminated floor; the top plate is arranged on the top of the laminated wall plate;

first floor, stromatolite floor all includes the underframe, the underframe adopts four bottom channel-section steel head and the tail welding to make, mutually perpendicular between the adjacent bottom channel-section steel, be equipped with a plurality of on the horizontal bottom channel-section steel that sets up on the underframe and transversely play to hang the piece, be equipped with a plurality of on the bottom channel-section steel that vertically sets up on the underframe and vertically play to hang the piece, be equipped with the steel sheet in the underframe and bend the piece, the steel sheet is bent and is equipped with a plurality of steel sheet apron on the piece, the steel sheet apron adopts square structure, the steel sheet is bent and is gone up along transversely and vertically being provided with a plurality of bottom side pipe respectively, be parallel to each other between the adjacent bottom side pipe, the steel sheet is.

2. The steel structure movable modular assembly type multi-storey superposed power room of claim 1, wherein the top of the first-storey room body further comprises a laminated bottom plate for carrying laminated cables and routing the laminated cables; the laminated bottom plate comprises a laminated underframe framework and an underframe steel plate paved on the laminated underframe framework; a cable channel opening for converging and routing the first layer cable is reserved on the underframe steel plate; the laminated underframe framework is fixedly installed at the top of the first-layer wallboard and is combined with the first-layer machine room body to form a whole first-layer installation module.

3. The steel structure movable modular assembly type multilayer superposed electric power machine room of claim 1, wherein the first-layer machine room body is composed of two first-layer installation modules, each first-layer installation module is independently assembled, and each first-layer installation module comprises a first-layer floor, a first-layer wallboard and a laminated floor which are symmetrically arranged; the cable port and the access port are arranged on one of the first-layer installation modules;

the laminated machine room body consists of two laminated installation modules, each laminated installation module is independently assembled, and each laminated installation module is symmetrically provided with a laminated floor board, a laminated wall board and a top board; the cable port, the access port and the cable channel port are arranged on one of the laminated installation modules.

4. The steel structure movable modular assembly type multilayer superposed power machine room of claim 3, wherein the top of the first layer of wall board is fixedly connected with the periphery of the laminated underframe skeleton through a square pipe or steel plate bending piece; the bottom of the laminated wallboard is fixedly connected with the periphery of the laminated underframe framework through a square pipe or steel plate bending piece; the bottom of the laminated underframe skeleton is fixedly connected with a composite plate through a steel connecting piece.

5. The steel structure movable modular assembly type multi-storey superposed power room of claim 3, wherein the bottom frames of the two symmetrical first-storey floors of the bottom frame of the first-storey floor are fixedly connected through bolts; the bottom frames of the two symmetrical laminated floors of the bottom frame of the laminated floor are fixedly connected through bolts.

6. The steel structure movable modular assembly type multi-layer stacked electric power machine room as claimed in any one of claims 1 to 5, wherein the roof plate is composed of a roof framework and a roof steel plate laid on the roof framework, a waterproof edge is arranged at the edge of the roof steel plate, a roof square pipe is arranged at the bottom of the roof framework, the roof square pipe is connected with the top of the laminated wall plate through a bolt, a composite plate is arranged at the bottom of the roof square pipe, and a roof truss is arranged between the roof and the roof square pipe.

7. The steel structure movable modular assembly type multi-storey stacked electric power room of claim 6, wherein a plurality of water tanks are longitudinally arranged at the upper part of the top plate.

8. The steel structure movable modular assembly type multi-layer stacked electric power room of any one of claims 1 to 5, wherein doors are respectively provided on the first layer wall board and the laminated wall board.

9. The steel structure movable modular assembly type multi-layer stacked electric power machine room as claimed in any one of claims 1 to 5, wherein a cargo cabinet door for lifting an electric power device is opened on the stacked wall boards.

10. The steel structure movable modular assembly type multi-storey overlying electric power room of any one of claims 1 to 5, wherein the length and width of the first-storey floor and the laminated floor are adjustable; the layer height of the first-layer machine room body is adjustable, and the layer height of the laminated machine room body is adjustable.

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