阅读说明：本技术 数据中心基础设备模块化机房 (Data center basic equipment modularization computer lab ) 是由 董新建 董瑞朝 于 2020-06-16 设计创作，主要内容包括：本发明涉及模块化机房技术领域,尤其为数据中心基础设备模块化机房,包括模块化主体,将模块化主题至少设置一个用于制冷的第一模块化区和用于机房内部大致横向散热的第二模块化区,同时还设置了用于模块化机柜内部散热的第三模块化区,每一个第三模块化区和第二模块化区对应组合,可以复制个第三模块化区和第二模块化区方式进行外部扩展,第一模块化区将制冷设备制备的冷风经过送风设备独立送入第三模块化区和第二模块化区,在所述的第二模块化内部,形成大致横向冷流通道,用于对机房内部进行散热,由所述的第三模块化区,形成一个竖向冷流通道,用于对模块化机柜内部进行散热。(The invention relates to the technical field of modular machine rooms, in particular to a modular machine room of data center basic equipment, which comprises a modular main body, wherein a modular theme is provided with at least one first modular area for refrigeration and a second modular area for approximately transverse heat dissipation in the machine room, meanwhile, third modular regions for radiating heat in the modular cabinet are also arranged, each third modular region is correspondingly combined with the second modular region, the first modular area can independently send cold air prepared by the refrigeration equipment into the third modular area and the second modular area through the air supply equipment, and a vertical cold flow channel is formed in the third modularization area and used for radiating the inside of the modularization cabinet.)

1. Data center basic equipment modularization computer lab, including the modularization main part, be provided with a first modularization district and a second modularization district at least in the inside of modularization main part, the second modularization district with adjacent and mutual isolation in first modularization district, its characterized in that:

a refrigeration unit disposed within the first modular zone, the refrigeration unit having an output,

the output end is connected with an air supply device,

a first air supply area and a second air supply area are arranged in the air supply device, a first opening and closing door and a second opening and closing door which are opened and closed independently are arranged at the front ends of the first air supply area and the second air supply area,

the first air supply area is butted with the second modular area, cold air is supplied to the second modular area to form a transverse cold flow channel among a plurality of modular cabinets arranged in the second modular area,

a third modular zone isolated from the second modular zone is arranged at the lower end of the second modular zone,

the second air supply area is in butt joint with the third modular area, the second air supply area supplies cold air to the third modular area,

the top of the third modular area is provided with a plurality of ventilation openings, the ventilation openings communicate the second modular area with the third modular area, each group of ventilation openings are arranged at the lower end of the modular cabinet, the ventilation openings send cold air sent into the third modular area into the modular cabinet from the bottom of the modular cabinet and then discharge the cold air from the top of the modular cabinet to form a vertical cold flow channel,

modular cabinet mounting equipment is arranged at the bottom of each modular cabinet, is arranged at the bottom of the second modular area and is positioned at the upper end of the ventilation opening,

the upper end of the modular body is provided with a plurality of exhaust devices, and the exhaust devices are used for exhausting the mixed airflow in the second modular area.

2. The modular data center infrastructure equipment room of claim 1, wherein the output is to interface a first door and a second door simultaneously,

the first opening and closing door comprises a first channel, a first opening and closing motor is arranged at the upper end of the first channel, a first opening and closing shaft extending into the first channel is arranged on the first opening and closing motor, a first closing door consisting of a plurality of opening and closing leaves which are uniformly arranged is arranged on the first opening and closing shaft,

the first opening and closing shaft is fixed at the upper end and the lower end of the first channel by a first bearing end;

the second opening and closing door comprises a second channel, a second opening and closing motor is arranged at the upper end of the second channel, a second opening and closing shaft extending into the second channel is arranged on the second opening and closing motor, a second closing door consisting of a plurality of opening and closing leaves which are uniformly arranged is arranged on the second opening and closing shaft,

the second opening and closing shaft is fixed at the upper end and the lower end of the second channel through a second bearing end.

3. The modular machine room of claim 1, wherein the air supply device comprises a first shell and a second shell which are connected side by side and are independent, the first shell and the second shell are internally provided with a same air supply shaft, an air supply motor is arranged at the upper end of the air supply shaft, the air supply shaft inside the first shell and the second shell are respectively provided with a first impeller set and a second impeller set, the first shell corresponds to the first air supply area, and the second shell corresponds to the second air supply area.

4. The modular data center infrastructure equipment room of claim 1, wherein an exhaust hood is disposed at an upper end of the exhaust equipment, and openings are disposed at both sides of the exhaust hood.

5. The modular machine room of claim 1, wherein the bottom of the modular cabinet 2 is provided with a plurality of uniformly arranged air vents, and the upper end of the modular cabinet 2 is provided with a set of air vents.

6. The modular machine room of claim 1, wherein a moving device is arranged at the bottom of the modular main body, the moving device comprises a motor, a cam, a hydraulic tank, a liquid outlet pipe, a hydraulic cylinder, a universal wheel, a first piston plate, a first spring, hydraulic oil, a second piston plate, a rotating wheel and a support frame, the hydraulic tank is fixedly connected to the bottom end of the modular main body, and a moving motor is fixedly connected to the bottom end of the hydraulic tank;

the tail end of a main shaft of the moving motor is fixedly connected with a cam, rotating wheels are arranged at the left end and the right end of the cam, a supporting frame is rotatably connected to the outer side of each rotating wheel, one end of each supporting frame is fixedly connected with a second piston plate, the second piston plates are in sliding connection with a hydraulic box, and the inner sides of the periphery of the hydraulic box are communicated with liquid outlet pipes;

the other end intercommunication of drain pipe has the pneumatic cylinder, the inboard fixedly connected with first spring in top of pneumatic cylinder, the first piston board of bottom fixedly connected with of first spring, and first piston board and pneumatic cylinder sliding connection, the bottom fixedly connected with universal wheel of first piston board.

7. The data center infrastructure equipment modular machine room of claim 1, wherein the modular cabinet mounting apparatus comprises a mesh support plate, a slide rail, a slide block, a moving wheel, a telescoping rod, a second spring, a fixed plate, and a locating hole,

a group of slide rails are arranged below each corresponding reticular structure support plate, slide blocks are arranged on the slide rails, the reticular structure support plate is fixed at the top ends of the slide blocks, the modularized cabinet is arranged on the reticular structure support plate,

the fixed plate is arranged at the bottom of the second modular area,

a positioning hole is arranged on the fixing plate, a telescopic rod is arranged at the upper end of the positioning hole, the net-shaped structure supporting plate is arranged above the telescopic rod,

the outside of telescopic link is provided with the second spring, the equal fixedly connected with in bottom left and right sides of network structure backup pad removes the wheel.

8. The data center infrastructure equipment modular machine room of claim 1, wherein: and an anti-static supporting plate is arranged between the second modular area and the third modular area, comprises a concrete layer at the bottom and is arranged at the upper end of the concrete layer to prevent static horizon.

9. The data center infrastructure equipment modular machine room of claim 1, wherein: the anti-static supporting plate is provided with a plurality of supporting columns, and the supporting columns are arranged on the bottom side in the modular main body.

Technical Field

The invention relates to the technical field of modular machine rooms, in particular to a modular machine room of data center basic equipment.

Background

The machine room generally refers to telecommunication, netcom, mobile, double-wire, electric power, government or enterprise and the like, stores equipment of a server and provides IT (information technology) service for users and staff, the domestic modular data center market is in an era of high-speed growth, modularization becomes a recognized trend of the data center industry, heavy-weight manufacturers successively release a comprehensive solution of the data center based on modularization, and invest a large amount of research and development force, and apply intelligent technology to the solution, so that the data center is promoted to develop towards simple, efficient, reliable, energy-saving and intelligent dimensions, and the requirements of the data center on centralized, large-scale, high-density and complex trends are met.

Most modularization computer lab that exists is not convenient for remove on the existing market, need use when needing to carry out short distance position to modularization computer lab and move and lift by crane equipment, the staff's of being not convenient for use, simultaneously when the outage phenomenon appears in the modularization computer lab, the staff need examine the modularization computer lab one by one and detect, just can confirm the modularization computer lab of outage, staff's efficiency has been reduced, and when needs maintain the inboard server modularization rack of modularization computer lab, be not convenient for take out single server modularization rack alone.

Meanwhile, in the prior art, for example, publication numbers are: "CN 103806704A", discloses a modular data center machine room with a closed channel, which comprises a refrigeration unit arranged between two adjacent cabinets for refrigerating the machine room;

and publication numbers are: "CN 106416448A" discloses a data center gang infrastructure module, which comprises: at least two free-standing exhaust plenum structures surrounding opposite side ends of the enclosure, wherein each free-standing exhaust plenum structure comprises: an internal exhaust air chamber at least partially enclosed by wall elements, wherein the internal exhaust air chamber is configured to receive exhaust air from the enclosure and direct the received exhaust air through an exhaust air outlet on a top end of the free-standing exhaust plenum structure.

Similar techniques also include: patent publication "CN 104024975A", discloses a cooling module for cooling at least one server module configured to house a plurality of servers, the cooling module comprising: a housing having an interior containing air; an inlet into the housing; an outlet from the housing; at least one fan configured to move air from the inlet to the outlet; and at least one atomizer configured to spray a mist into the air in the interior to evaporatively cool the interior.

In the above-mentioned technique, all adopted refrigeration plant to cool off the heat dissipation to the computer lab that constitutes, however, because the inside most radiating of computer lab is the rack and lays the communication device in the rack, because the inside temperature of rack is higher than outside temperature, only by rack surface runoff with air conditioning, can't take away the inside temperature of rack, if lay the cooling module inside the rack, for example, "CN 104024975A"'s patent, set up the heat sink of similar fan and atomizer, can increase modularization computer lab deployment cost again.

Disclosure of Invention

The invention aims to provide a modular computer room of basic equipment of a data center, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a data center basic device modularization machine room is provided,

comprises a modular body, at least a first modular area and a second modular area are arranged in the modular body, the second modular area is adjacent to and isolated from the first modular area, a refrigeration device is arranged in the first modular area, the refrigeration device is provided with an output end, the output end is connected with an air supply device,

a first air supply area and a second air supply area are arranged in the air supply device, a first opening and closing door and a second opening and closing door which are opened and closed independently are arranged at the front ends of the first air supply area and the second air supply area,

the first air supply area is butted with the second modular area, cold air is supplied to the second modular area to form a transverse cold flow channel among a plurality of modular cabinets arranged in the second modular area,

a third modular zone isolated from the second modular zone is arranged at the lower end of the second modular zone,

the second air supply area is in butt joint with the third modular area, the second air supply area supplies cold air to the third modular area,

the top of the third modular area is provided with a plurality of ventilation openings, the ventilation openings communicate the second modular area with the third modular area, each group of ventilation openings are arranged at the lower end of the modular cabinet, the ventilation openings send cold air sent into the third modular area into the modular cabinet from the bottom of the modular cabinet and then discharge the cold air from the top of the modular cabinet to form a vertical cold flow channel,

the bottom of each modular cabinet 2 is provided with modular cabinet mounting equipment which is arranged at the bottom of the second modular area and is positioned at the upper end of the ventilation opening,

the upper end of the modular body is provided with a plurality of exhaust devices, and the exhaust devices are used for exhausting the mixed airflow in the second modular area.

Further, the output end is simultaneously butted with the first opening and closing door and the second opening and closing door,

the first opening and closing door comprises a first channel, a first opening and closing motor is arranged at the upper end of the first channel, a first opening and closing shaft extending into the first channel is arranged on the first opening and closing motor, a first closing door consisting of a plurality of opening and closing leaves which are uniformly arranged is arranged on the first opening and closing shaft,

the first opening and closing shaft is fixed at the upper end and the lower end of the first channel by a first bearing end;

the second opening and closing door comprises a second channel, a second opening and closing motor is arranged at the upper end of the second channel, a second opening and closing shaft extending into the second channel is arranged on the second opening and closing motor, a second closing door consisting of a plurality of opening and closing leaves which are uniformly arranged is arranged on the second opening and closing shaft,

the second opening and closing shaft is fixed at the upper end and the lower end of the second channel through a second bearing end.

Further, air supply equipment includes two independent first casings and the second casing of connecting side by side, be provided with same air supply axle in first casing and the second casing, be provided with air supply motor in the upper end of air supply axle to and be provided with first impeller group and second impeller group respectively on the air supply axle of first casing and second casing inside, first casing corresponds first air supply district, and the second casing corresponds second air supply district.

Further, an exhaust hood is arranged at the upper end of the exhaust equipment, and openings are formed in two sides of the exhaust hood.

Further, the bottom of modularization rack 2 is provided with a plurality of air vents of arranging evenly, the upper end of modularization rack 2 is provided with a set of exhaust hole.

Furthermore, a moving device is arranged at the bottom of the modular main body and comprises a motor, a cam, a hydraulic tank, a liquid outlet pipe, a hydraulic cylinder, a universal wheel, a first piston plate, a first spring, hydraulic oil, a second piston plate, a rotating wheel and a support frame, the hydraulic tank is fixedly connected to the bottom end of the modular main body, and a moving motor is fixedly connected to the bottom end of the hydraulic tank;

the tail end of a main shaft of the moving motor is fixedly connected with a cam, rotating wheels are arranged at the left end and the right end of the cam, a supporting frame is rotatably connected to the outer side of each rotating wheel, one end of each supporting frame is fixedly connected with a second piston plate, the second piston plates are in sliding connection with a hydraulic box, and the inner sides of the periphery of the hydraulic box are communicated with liquid outlet pipes;

the other end intercommunication of drain pipe has the pneumatic cylinder, the inboard fixedly connected with first spring in top of pneumatic cylinder, the first piston board of bottom fixedly connected with of first spring, and first piston board and pneumatic cylinder sliding connection, the bottom fixedly connected with universal wheel of first piston board.

Further, the modularized cabinet installation equipment comprises a net-shaped structure supporting plate, a sliding rail, a sliding block, a moving wheel, a telescopic rod, a second spring, a fixing plate and a positioning hole,

a group of slide rails are arranged below each corresponding reticular structure support plate, slide blocks are arranged on the slide rails, the reticular structure support plate is fixed at the top ends of the slide blocks, the modularized cabinet is arranged on the reticular structure support plate,

the fixed plate is arranged at the bottom of the second modular area,

a positioning hole is arranged on the fixing plate, a telescopic rod is arranged at the upper end of the positioning hole, the net-shaped structure supporting plate is arranged above the telescopic rod,

the outside of telescopic link is provided with the second spring, the equal fixedly connected with in bottom left and right sides of network structure backup pad removes the wheel.

Further, be provided with the anti-static backup pad between second modularization district and the third modularization district, the anti-static backup pad includes the concrete layer of bottom, sets up the anti-static horizon in the concrete layer upper end.

Further, the anti-static supporting plate is provided with a plurality of supporting columns, and the supporting columns are arranged on the bottom side in the modular main body.

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

the modular machine room is provided with at least one first modular area for refrigeration, a second modular area for approximately transverse heat dissipation in the machine room and third modular areas for heat dissipation in the modular cabinet, and each third modular area and each second modular area are correspondingly combined, so that the third modular areas and the second modular areas can be copied for external expansion.

Similarly, after each third modular area and each second modular area are correspondingly combined, at least one first modular area for refrigerating is configured, cold air prepared by refrigerating equipment is independently sent into the third modular areas and the second modular areas through air supply equipment by the first modular areas, namely, a roughly transverse cold flow channel is formed for radiating the inside of the machine room, and a vertical cold flow channel is formed for radiating the inside of the modular cabinet.

According to the modularized multi-functional hydraulic control device, due to the arrangement of the cam, the hydraulic tank, the hydraulic cylinder, the universal wheel, the first spring, the hydraulic oil and the second piston plate, when the position of the modularized main body needs to be finely adjusted, a worker can support the modularized main body through the universal wheel through rotation of the motor, the worker can rapidly move the modularized main body through the action of the universal wheel, the operation is simple, and the use of the worker is facilitated.

According to the invention, the modularized cabinet can be conveniently taken out independently through the net-shaped supporting plate through the sliding rail and the sliding block, so that the modularized cabinet is convenient for workers to use.

Drawings

FIG. 1 is a schematic side sectional view of a modular machine room according to the present invention;

FIG. 2 is a schematic view of the connection structure of the first opening and closing door and the second opening and closing door with the output end and the air supply device in the present invention;

FIG. 3 is a schematic diagram of the formation of a modular cabinet cold flow channel of the present invention;

FIG. 4 is a schematic structural diagram of an air supply apparatus according to the present invention;

FIG. 5 is a partial side view structural diagram of the modular machine room of the present invention;

FIG. 6 is a schematic structural view of a modular cabinet mounting apparatus of the present invention;

fig. 7 is a schematic view of the top-view internal installation structure of the hydraulic tank of the present invention.

In the figure: 1-modular body, 100-first modular area, 101-second modular area, 102-refrigeration equipment, 103-output end, 104-second air supply area, 105-ventilation opening, 106-third modular area, 107-support column, 108-exhaust equipment, 109-exhaust hood, 110-first opening and closing motor, 111-first opening and closing shaft, 112-first closed door, 113-first bearing end, 114-second air supply area, 115-second opening and closing motor, 116-second opening and closing shaft, 117-second closed door, 118-air supply motor, 119-air supply shaft, 120-first impeller group, 121-second impeller group, 2-modular cabinet, 4-mobile device, 401-mobile motor, 402-cam wheel group, 403-hydraulic tank, 404-liquid outlet pipe, 405-hydraulic cylinder, 406-universal wheel, 407-first piston plate, 408-first spring, 409-hydraulic oil, 410-second piston plate, 411-rotating wheel, 412-support frame, 5-modular cabinet mounting equipment, 501-reticular structure support plate, 502-sliding rail, 503-sliding block, 504-moving wheel, 505-telescopic rod, 506-second spring, 507-fixing plate and 508-positioning hole.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 7, the present invention provides a modular computer room for data center infrastructure equipment,

comprises a modular body 1, at least a first modular area 100 and a second modular area 101 are arranged in the modular body 1, the second modular area 101 is adjacent to and isolated from the first modular area 100, a third modular area 106 isolated from the second modular area 100 is arranged at the lower end of the second modular area 100,

in the present invention, a modular room is provided with at least a first modular region 100 for cooling and a second modular region 101 for dissipating heat substantially laterally inside the room, and a third modular region 106 for dissipating heat inside the modular cabinet 2 is also provided, each third modular region 106 and second modular region 101 are correspondingly combined, and the external expansion can be performed by duplicating the third modular region 106 and second modular region 101, referring to fig. 1, which is a corresponding combination of the third modular region 106 and second modular region 101, and according to the above, two or more such combinations can be used.

After each third modular area 106 and the second modular area 101 are correspondingly combined, at least one first modular area 100 for refrigerating is configured, the first modular area 100 independently sends cold air prepared by refrigerating equipment into the third modular area 106 and the second modular area 101 through air supply equipment, a transverse cold flow channel is formed inside the second modular area 101 and used for radiating the inside of a machine room, and a vertical cold flow channel is formed by the third modular area 106 and used for radiating the inside of a modular cabinet.

When more modular cabinets 2 are required for the construction of a modular machine room, one or more first modular zones 100 may be added depending on the actual situation.

In the above, the airflow of the refrigeration equipment 102 from the output end 103 into the second modular zone 101 through the first blowing zone 114 is directed to the modular cabinets 2, and a substantially transverse cold flow channel is formed between the plurality of modular cabinets 2 [ influenced by the heat flow direction and the exhaust equipment ], and the transverse cold flow channel is substantially shifted from the transverse direction to the upper direction ] and is used for taking away the heat on the outer surface of the modular cabinet 2.

In the above, a refrigeration unit 102, disposed within the first modular zone 100, has an output 103,

the output terminal 103 is connected to an air supply device,

a first air supply area 114 and a second air supply area 104 are arranged in the air supply device, a first opening and closing door 112 and a second opening and closing door 117 which are opened and closed independently are arranged at the front ends of the first air supply area 114 and the second air supply area 104,

the first air supply area 114 interfaces with the second modular area 101, and supplies cool air to the second modular area 101 to form a substantially transverse cold flow channel between the plurality of modular cabinets 2 disposed in the second modular area 101,

the second air supply area 104 is connected to the third modular area 106, the second air supply area 104 supplies cold air to the third modular area 106,

the top in third modularization district 106 is provided with a plurality of vent 105, vent 105 is with second modularization district 101 and third modularization district 106 intercommunication, and each group vent 105 sets up the lower extreme of modularization rack 2, vent 105 will to the cold wind that third modularization district 106 sent into is sent into modularization rack 2 inside by the top of modularization rack 2 again and discharges in order to form vertical cold flow passageway by the bottom of modularization rack 2, in order to reach this technological effect, the bottom of modularization rack 2 is provided with a plurality of air vents of arranging evenly, the upper end of modularization rack 2 is provided with a set of exhaust hole.

A modular cabinet mounting device 5 is arranged at the bottom of each modular cabinet 2, the modular cabinet mounting device 5 is arranged at the bottom of the second modular area 101 and is positioned at the upper end of the ventilation opening 105,

the upper end of the modularized main body 1 is provided with a plurality of exhaust devices 108, the exhaust devices 108 are used for discharging mixed air flow (mixed air flow discharged by horizontal cold flow and vertical cold flow) in the second modularized region 101, the upper end of the exhaust devices 108 is provided with an exhaust hood 109, and openings are arranged on two sides of the exhaust hood 109 and used for exhaust drainage.

In the above, the output end 103 is connected to a first opening and closing door and a second opening and closing door at the same time, the first opening and closing door includes a first channel, a first opening and closing motor 110 is disposed at the upper end of the first channel, a first opening and closing shaft 111 extending into the first channel is disposed on the first opening and closing motor 110, a first closing door 112 composed of a plurality of opening and closing leaves arranged uniformly is disposed on the first opening and closing shaft 111,

the first opening and closing shaft is fixed at the upper end and the lower end of the first channel by a first bearing end 113;

the second opening and closing door comprises a second channel, a second opening and closing motor 115 is arranged at the upper end of the second channel, a second opening and closing shaft 116 extending into the second channel is arranged on the second opening and closing motor 115, a second closing door 117 consisting of a plurality of opening and closing leaves which are uniformly arranged is arranged on the second opening and closing shaft 116,

the second opening and closing shaft 116 is fixed by a second bearing end at the upper end and the lower end of the second channel.

As an extension of the present invention, the first opening and closing door and the second opening and closing door may be opened simultaneously or may be opened individually. For example, a plurality of first temperature sensors are arranged in the second modular area 101, the first temperature sensors are used for periodically measuring temperature changes of different positions in the second modular area 101, a second temperature sensor and a third temperature sensor are arranged inside and outside the modular cabinet 2, the second temperature sensor is used for periodically measuring temperature changes in the modular cabinet 2, and the third temperature sensor is used for periodically measuring temperature changes of the outer surface of the modular cabinet 2, and meanwhile, a control device is provided and connected with the first temperature sensors, the second temperature sensors, the third temperature sensors, the first opening and closing motor 110 and the second opening and closing motor 115.

The control device can use a purchased controller of a general model, a first temperature threshold value in the second modular region 101 and a second temperature threshold value in the modular cabinet 2 are set, when the temperature in the second modular region 101 is measured to be within the range of the set first temperature threshold value, cold air input into the second modular region 101 can be closed by controlling the first opening and closing motor 110, only the second opening and closing door needs to be opened, and under the condition, the power of the refrigeration equipment can be adjusted, so that the overall energy conservation is achieved.

The temperature inside the modular cabinet 2 can be measured, when the measured temperature is within the range of the temperature threshold value two, the cold air input into the third modular zone 106 can be closed by controlling the second opening and closing motor 110, and only the first opening and closing door needs to be opened, so that the power of the refrigeration equipment can be adjusted, and the overall energy conservation can be achieved.

The above is only one embodiment of the invention for expansion, and similar basic ideas as described above also constitute an expansion of the modular machine room of the invention.

In the above, the air supply device includes two independent first shells and second shells connected side by side, the same air supply shaft 119 is provided in the first shells and the second shells, the upper end of the air supply shaft 119 is provided with the air supply motor 118, and the air supply shafts inside the first shells and the second shells are respectively provided with the first impeller set 120 and the second impeller set 121, the first shells correspond to the first air supply area 114, and the second shells correspond to the second air supply area 104.

In the above, the first impeller set 120 and the second impeller set 121 are used for speed adjustment and basic flow direction adjustment of the airflow input from the output end 103.

In the above, the bottom of the modular body 1 is provided with the moving device 4, the moving device 4 includes a moving motor 401, a cam 402, a hydraulic tank 403, a drain pipe 404, a hydraulic cylinder 405, a universal wheel 406, a first piston plate 407, a first spring 408, hydraulic oil 409, a second piston plate 410, a rotating wheel 411 and a support frame 412, the bottom of the modular body 1 is fixedly connected with the hydraulic tank 403, the bottom of the hydraulic tank 403 is fixedly connected with the moving motor 401, the end of a main shaft of the moving motor 401 is fixedly connected with the cam 402, the moving motor 401 can drive the cam 402 to rotate, the left and right ends of the cam 402 are provided with the rotating wheel 411, the outer side of the rotating wheel 411 is rotatably connected with the support frame 412, one end of the support frame 412 is fixedly connected with the second piston plate 410, the second piston plate 410 is slidably connected with the hydraulic tank 403, the inner sides of the periphery of the hydraulic tank 403 are communicated with the drain, the inner side of the top end of the hydraulic cylinder 405 is fixedly connected with a first spring 408, the bottom end of the first spring 408 is fixedly connected with a first piston plate 407, the first piston plate 407 is connected with the hydraulic cylinder 405 in a sliding manner, the bottom end of the first piston plate 407 is fixedly connected with a universal wheel 406, and the movement of the hydraulic cylinder is facilitated through the universal wheel 406.

In the above, the modular cabinet installation apparatus 5 is disposed at the bottom of the second modular region 101, the modular cabinet installation apparatus 5 includes a net-shaped support plate 501, a slide rail 502, a slide block 503, a moving wheel 504, a telescopic rod 505, a second spring 506, a fixing plate 507, a positioning hole 508, an adjusting screw 509, a sleeve 510 and a bottom plate 511, the slide rail 502 is fixedly connected to the inner side of the bottom end of the modular body 1, the slide block 503 is slidably connected to the outer side of the slide rail 502, the net-shaped support plate 501 is fixedly connected to the top end of the slide block 503, the modular cabinet 2 is disposed at the top end of the net-shaped support plate 501, the fixing plate 507 is fixedly connected to the inner side of the bottom end of the modular body 1, the telescopic rod 505 is fixedly connected to the central position of the back side of the bottom end of, the equal fixedly connected with in bottom left and right sides of network structure backup pad 501 removes wheel 504, can realize the support to network structure backup pad 501 through removing wheel 504, during the dismantlement, and the network structure backup pad 501 is drawn forward with strength, makes network structure backup pad 501 pass through slider 503 and along slide rail 502 forward motion, when network structure backup pad 501 shifts out modular cabinet 2 alone, stops to stimulate network structure backup pad 501.

When the position of the modular body 1 needs to be adjusted, the moving motor 401 drives the cam 402 to rotate, and simultaneously the cam 402 and the rotating wheel 411 rotate relatively, along with the rotation of the cam 402, the rotating wheel 411 pushes the second piston plate 410 to move in a direction away from the vertical center line of the hydraulic tank 403 through the supporting frame 412, and simultaneously, hydraulic oil 409 enters the inner side of the hydraulic cylinder 405 through the drain pipe 404 under the action of the second piston plate 410, along with the gradual increase of the hydraulic oil 409 inside the hydraulic cylinder 405, the first piston plate 407 and the hydraulic cylinder 405 move relatively, i.e., the hydraulic cylinder 405 drives the modular body 1 to move upwards, the universal wheel 406 contacts with the ground, then a worker can push the modular body 1 to adjust the position through the universal wheel 406, after moving to a proper position, the motor 401 rotates reversely, so that the universal wheel 406 retracts to the inner side of the hydraulic cylinder 405 again, while the universal wheel 406 does not move downward under the pull of the first spring 408.

When needing to take out modular rack 2 alone, use locating hole 508 when, telescopic link 509 and fixed plate 507 carry on spacingly to network structure backup pad 501, the staff is hard to be pulled network structure backup pad 501 forward, make network structure backup pad 501 pass through slider 503 and move along slide rail 502 forward, network structure backup pad 501 passes through telescopic link 505 simultaneously and removes the in-process and can contract or stretch along fixed plate 507, when network structure backup pad 501 shifts out modular rack 2 alone, stop pulling network structure backup pad 501, it also can support network structure backup pad 501 to remove wheel 504 simultaneously.

The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts of the present invention. The foregoing is only a preferred embodiment of the present invention, and it should be noted that there are objectively infinite specific structures due to the limited character expressions, and it will be apparent to those skilled in the art that a plurality of modifications, decorations or changes may be made without departing from the principle of the present invention, and the technical features described above may be combined in a suitable manner; such modifications, variations, combinations, or adaptations of the invention using its spirit and scope, as defined by the claims, may be directed to other uses and embodiments.