CN112291983A - Virtualization cloud platform rack - Google Patents

Abstract

The invention relates to the technical field of equipment cabinet equipment, in particular to a virtualized cloud platform equipment cabinet which has the advantage of damping the equipment cabinet through cooling liquid and comprises an equipment cabinet assembly, a door stopping assembly, a water cooling assembly, spring damping assemblies, four water pressure assemblies, a water inlet assembly, a water return assembly, a driving assembly, an adjusting assembly and a ventilation assembly, wherein the door stopping assembly is detachably connected to the equipment cabinet assembly, the water cooling assembly is fixedly connected to the equipment cabinet assembly, the four spring damping assemblies are respectively connected to four corners at the lower end of the equipment cabinet assembly through threads, the four spring damping assemblies are respectively connected to the four corners at the lower end of the equipment cabinet assembly in a sliding manner, the water inlet assembly is fixedly connected to the four water pressure assemblies, the water return assembly is fixedly connected to the four water pressure assemblies, the driving assembly is fixedly connected to the water return assembly, the adjusting assembly is fixedly connected to, the left end fixedly connected with of rack subassembly ventilates the subassembly.

Description

Virtualization cloud platform rack

Technical Field

The invention relates to the technical field of cabinet equipment, in particular to a virtualized cloud platform cabinet.

Background

The invention with publication number CN111093351A discloses a through type heat dissipation cabinet, wherein the through type heat dissipation cabinet comprises: the server is provided with a loop heat pipe, the loop heat pipe comprises an evaporation section, a condensation section and a pipeline, the evaporation section is in heat conduction contact with a heating device of the server, the condensation section is arranged in an opening on the side wall of a shell of the server, and the evaporation section is in heat conduction connection with the condensation section through the pipeline; a cabinet housing the server, the cabinet having a heat exchange assembly and a gravity heat pipe thermally conductively coupled to the heat exchange assembly, the heat exchange assembly being in thermally conductive contact with the condenser section; and a condenser in thermally conductive engagement with the gravity heat pipe. The embodiment of the invention takes the heat pipe as the main transmission medium, directly transmits the heat generated by the main heating devices such as a CPU (central processing unit) and the like in the equipment to the outdoor, avoids the condition of multi-stage heat exchange, and effectively improves the heat transmission efficiency of the heat dissipation system of the data center, thereby reducing the demand of electric quantity and improving the heat dissipation efficiency of the data center. The disadvantage of this invention is that the cabinet cannot be damped by the cooling liquid.

Disclosure of Invention

The invention aims to provide a virtualized cloud platform cabinet which has the advantage that the cabinet can be damped by cooling liquid.

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

the utility model provides a virtualization cloud platform rack, includes rack subassembly, shutter subassembly, water-cooling component, spring damper, water pressure subassembly, the subassembly of intaking, return water subassembly, drive assembly, adjusting part and ventilation subassembly, shutter subassembly can dismantle the connection on the rack subassembly, and water-cooling component fixed connection is on the rack subassembly, and spring damper is provided with four, and four spring damper pass through threaded connection respectively on four angles of rack subassembly lower extreme, and equal sliding connection has water pressure subassembly on four spring damper, and the subassembly fixed connection that intakes is on four water pressure subassemblies, and return water subassembly fixed connection is on four water pressure subassemblies, and drive assembly fixed connection is on return water subassembly, and adjusting part fixed connection is on water-cooling component and the subassembly of intaking, and the left end fixed connection of rack subassembly has the ventilation subassembly.

The rack subassembly includes box, baffle, dog, ventilation hole, dead lever, slide pipe, top spring and roof, and a plurality of baffles of front end fixedly connected with of box, the left and right sides of box front end all rotate and are connected with the dog, and the left side of box is provided with two ventilation holes, a plurality of dead levers of the equal fixedly connected with in upper and lower of box, all sliding connection has the slide pipe on a plurality of dead levers of upper end, all is provided with the top spring between a plurality of slide pipes and the box, and roof fixed connection is on a plurality of slide pipes.

The shutter subassembly is including sealing a door, looking into window and handle, seals a door sliding connection on the box, seals two handles of fixedly connected with on the door, is provided with looking into the window on sealing a door.

The water cooling component comprises a rear cover, a cooling water pipe, a water inlet pipe, a water pump, a cooling water tank and a cooling water outlet pipe, the rear cover is fixedly connected to the rear side of the box body, the cooling water pipe is fixedly connected to the rear side of the box body, the water inlet pipe is fixedly connected to the upper end of the cooling water pipe, the cooling water outlet pipe is fixedly connected to the lower end of the cooling water pipe, the cooling water tank is fixedly connected to the right side of the box body, the water pump is fixedly connected to the upper end of the box.

Spring shock-absorbing component includes water pressure slip tube, shock tube, upper bracket, damping spring and locking bolt, and sliding connection has the shock tube on the water pressure slip tube, fixedly connected with upper bracket on the shock tube, is provided with damping spring between water pressure slip tube and the upper bracket, rotates on the upper bracket to be connected with the locking bolt, and a plurality of locking bolts rotate respectively to be connected on a plurality of slide tubes of lower extreme.

The water pressure assembly comprises a chassis, water pressure pipes and alternating-current water pipes, the water pressure pipes are fixedly connected to the chassis, the two alternating-current water pipes are arranged on the water pressure pipes, and the water pressure pipes are respectively connected to the water pressure sliding pipes in a sliding mode.

The subassembly of intaking includes water pressure oral siphon, water pressure communicating pipe and water pressure oral siphon, and water pressure oral siphon fixed connection is on water pressure communicating pipe, two water pressure oral siphon of fixedly connected with on the water pressure oral siphon, and two water pressure oral siphon are provided with the check valve on the water pressure communicating pipe on two pairs of interchange water pipes that both sides correspond around fixed connection respectively.

The return water assembly comprises a cooling plate, a return pipe, a return check valve and a return connecting pipe, the cooling plate is fixedly connected to the inner wall of the lower end of the box body, the cooling plate is fixedly connected to the return pipe, the return pipe is fixedly connected to the lower end of the cooling water tank, the return check valve is arranged on the return pipe, the return connecting pipes are fixedly connected to the front side and the rear side of the return pipe respectively, and the two return connecting pipes are fixedly connected to two pairs of alternating-current water pipes corresponding to the left.

The drive assembly includes the carriage, driving motor and drive gear, carriage fixed connection is on the back flow, driving motor fixed connection is on the carriage, drive gear fixed connection is on driving motor's output shaft, adjusting part includes the governing pipe, block the sector plate, adjust ring gear and regulation sector plate, two governing pipes are fixed connection respectively on cooling outlet pipe and back flow, equal fixedly connected with blocks the sector plate on two governing pipes, it connects on two governing pipes to adjust the ring gear rotation, it adjusts the sector plate to be provided with on the ring gear.

The ventilation assembly comprises a filter plate, a protection frame and a fan, the protection frame is fixedly connected to the filter plate, the fan is arranged on the protection frame, the two filter plates are fixedly connected to the left side of the box body, and the two filter plates and the two ventilation holes are in one-to-one correspondence.

The virtualization cloud platform cabinet has the beneficial effects that: the virtualized cloud platform cabinet can protect electrical elements from being hit by falling of heavy objects through the cabinet component, can also perform spring shock absorption on the cabinet component through the spring shock absorption component, can also perform water cooling on the cabinet component through the water cooling component to prevent the electrical elements in the cabinet component from being damaged due to overhigh temperature, can also enter the water inlet component through the cooling liquid in the water cooling component through the adjusting component, and then flows out of the water pressure components, can absorb shock on the cabinet component through the water pressure components to achieve better shock absorption effect, better protects the electrical elements in the cabinet component, can also realize cooling of the cooling liquid through the water inlet component and the water return component, can also drive the adjusting component to adjust the flow of the cooling liquid in the water inlet component through the driving component, thereby realizing the flow of the liquid in the water pressure components, and then realize that a plurality of water pressure subassemblies are taken precautions against earthquakes to the frequency conversion of rack subassembly, play better shockproof effect to the rack subassembly.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "top", "bottom", "inner", "outer" and "upright", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, directly or indirectly connected through an intermediate medium, and may be a communication between two members. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, in the description of the present invention, the meaning of "a plurality", and "a plurality" is two or more unless otherwise specified.

FIG. 1 is a schematic diagram of an overall structure of a virtualized cloud platform cabinet according to the present invention;

FIG. 2 is a schematic structural view of the cabinet assembly of the present invention;

FIG. 3 is a schematic view of the structure of the shutter assembly of the present invention;

FIG. 4 is a schematic view of the water cooling module of the present invention;

FIG. 5 is a schematic structural view of the spring damper assembly of the present invention;

FIG. 6 is a schematic diagram of the construction of the hydraulic assembly of the present invention;

FIG. 7 is a schematic structural view of a water intake assembly of the present invention;

FIG. 8 is a schematic view of the water return assembly of the present invention;

FIG. 9 is a schematic structural view of the drive assembly of the present invention;

FIG. 10 is a schematic view of the construction of the adjustment assembly of the present invention;

fig. 11 is a schematic view of the construction of the vent assembly of the present invention.

In the figure: a cabinet assembly 1; a box 101; a baffle plate 102; a stopper 103; a vent hole 104; a fixing bar 105; a slide tube 106; a top spring 107; a top plate 108; a shutter assembly 2; a sealing door 201; a viewing window 202; a handle 203; a water cooling unit 3; a rear cover 301; a cooling water pipe 302; a water inlet pipe 303; a water pump 304; a cooling water tank 305; cooling outlet pipe 306; a spring damper assembly 4; a hydraulic sliding pipe 401; a shock tube 402; an upper bracket 403; a damper spring 404; a locking bolt 405; a hydraulic assembly 5; a chassis 501; a hydraulic tube 502; an alternating current water pipe 503; a water inlet assembly 6; a water pressure inlet pipe 601; a water pressure communicating pipe 602; a water pressure inlet pipe 603; a water return component 7; a cooling plate 701; a return pipe 702; a return check valve 703; a return connection pipe 704; a drive assembly 8; a driving frame 801; a drive motor 802; a drive gear 803; an adjustment assembly 9; an adjusting pipe 901; a barrier sector plate 902; an adjusting gear ring 903; an adjustment sector plate 904; a ventilation assembly 10; a filter plate 1001; a protective frame 1002; a fan 1003.

Detailed Description

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

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 11, and a virtualized cloud platform cabinet comprises a cabinet assembly 1, a shutter assembly 2, a water-cooling assembly 3, four spring shock-absorbing assemblies 4, water pressure assemblies 5, water inlet assemblies 6, water return assemblies 7, driving assemblies 8, adjusting assemblies 9 and a ventilation assembly 10, wherein the shutter assembly 2 is detachably connected to the cabinet assembly 1, the water-cooling assembly 3 is fixedly connected to the cabinet assembly 1, the number of the spring shock-absorbing assemblies 4 is four, the four spring shock-absorbing assemblies 4 are respectively connected to four corners of the lower end of the cabinet assembly 1 through threads, the water pressure assemblies 5 are all connected to the four spring shock-absorbing assemblies 4 in a sliding manner, the water inlet assemblies 6 are fixedly connected to the four water pressure assemblies 5, the water return assemblies 7 are fixedly connected to the four water pressure assemblies 5, the driving assemblies 8 are fixedly connected to the water return assemblies 7, the adjusting assemblies 9 are fixedly connected to the, the left end of the cabinet assembly 1 is fixedly connected with a ventilation assembly 10.

The cabinet component 1 can protect the electrical element from being hit by falling heavy objects, the cabinet component 1 can be subjected to spring shock absorption through the spring shock absorption component 4, the cabinet component 1 can be subjected to water cooling through the water cooling component 3, the electrical element in the cabinet component 1 is prevented from being damaged due to overhigh temperature, the cooling liquid in the water cooling component 3 can enter the water inlet component 6 through the adjusting component 9 and then flow out through the water pressure components 5, the cabinet component 1 is damped through the water pressure components 5, a better shock absorption effect is achieved, the electrical element in the cabinet component 1 can be better protected, the cooling liquid can be cooled through the water inlet component 6 and the water return component 7, the adjusting component 9 can be driven through the driving component 8 to adjust the flow of the cooling liquid in the water inlet component 6, and the flow of the liquid in the water pressure components 5 can be realized, and then realize that a plurality of water pressure subassemblies 5 take precautions against earthquakes to the frequency conversion of rack subassembly 1, play better shockproof effect to rack subassembly 1.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 11, where the cabinet assembly 1 includes a box 101, a baffle 102, a stopper 103, a vent 104, a fixing rod 105, a slide tube 106, a top spring 107, and a top plate 108, the front end of the box 101 is fixedly connected with the plurality of baffles 102, the left and right sides of the front end of the box 101 are rotatably connected with the stopper 103, the left side of the box 101 is provided with the two vent 104, the upper and lower ends of the box 101 are fixedly connected with the plurality of fixing rods 105, the upper ends of the plurality of fixing rods 105 are slidably connected with the slide tube 106, the top springs 107 are disposed between the plurality of slide tubes 106 and the box 101, and the top plate 108 is fixedly connected with.

When the heavy object drops, the heavy object can be smashed on the top plate 108, the top plate 108 presses down the four sliding pipes 106, the four sliding pipes 106 compress the four top springs 107 and slide on the fixing rods 105 at the upper end, the potential energy of the falling of the heavy object can be absorbed by the compression of the four top springs 107, the impact force of the falling of the heavy object is reduced, the box 101 and various circuits and elements inside the box 101 are prevented from being damaged due to the smashing of the heavy object, and the dust accumulation at the upper end of the box 101 can be effectively prevented, so that the heat dissipation effect inside the box 101 is influenced.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 11, where the shutter assembly 2 includes a sealing door 201, a viewing window 202, and a handle 203, the sealing door 201 is slidably connected to the box 101, the sealing door 201 is fixedly connected with the two handles 203, the sealing door 201 is provided with the viewing window 202, and the viewing window 202 is supported by a transparent material, so as to facilitate viewing.

The service conditions of the electrical elements in the box body 101 can be checked through the transparent checking window 202, the hidden dangers of the electrical elements can be found in time, and the economic loss caused by serious consequences due to untimely checking is prevented.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 1 to 11, where the water cooling assembly 3 includes a rear cover 301, a cooling water pipe 302, a water inlet pipe 303, a water pump 304, a cooling water tank 305 and a cooling water outlet pipe 306, the rear cover 301 is fixedly connected to the rear side of the box 101, the cooling water pipe 302 is fixedly connected to the rear side of the box 101, the water inlet pipe 303 is fixedly connected to the upper end of the cooling water pipe 302, the cooling water outlet pipe 306 is fixedly connected to the lower end of the cooling water pipe 302, the cooling water tank 305 is fixedly connected to the right side of the box 101, the water pump 304 is fixedly connected to the upper end of the box 101.

The water pump 304 is started, the water pump 304 pumps the cooling liquid into the water inlet pipe 303, the cooling liquid enters the cooling water pipe 302 again, the cooling water pipe 302 is covered inside the rear cover 301, the air cooled by the cooling water pipe 302 can exchange heat with the rear portion of the box body 101 as much as possible, and the cooling water pipe 302 is prevented from exchanging energy with the outside to cause waste of cooling energy of the cooling water pipe 302.

The fifth concrete implementation mode:

referring to fig. 1 to 11, the present embodiment is described, where the spring damping assembly 4 includes a hydraulic sliding tube 401, a damping tube 402, an upper bracket 403, a damping spring 404 and a locking bolt 405, the hydraulic sliding tube 401 is slidably connected to the damping tube 402, the damping tube 402 is fixedly connected to the upper bracket 403, the damping spring 404 is disposed between the hydraulic sliding tube 401 and the upper bracket 403, the upper bracket 403 is rotatably connected to the locking bolt 405, and the locking bolts 405 are respectively rotatably connected to the sliding tubes 106 at the lower end.

When the box 101 is vibrated or impacted, the plurality of locking bolts 405 are pressed by the plurality of fixing rods 105 at the lower end, the plurality of locking bolts 405 drive the upper support 403 to downwards compress the plurality of damping springs 404, the potential energy generated by vibration of the box 101 is absorbed by compression of the plurality of damping springs 404 to damp the box 101, the box 101 and electrical components inside the box 101 can be effectively protected, and the virtual cloud platform can be effectively protected from stable operation.

The sixth specific implementation mode:

referring to fig. 1 to 11, the hydraulic assembly 5 includes a base plate 501, a hydraulic pipe 502 and an ac water pipe 503, the hydraulic pipe 502 is fixedly connected to the base plate 501, the hydraulic pipe 502 is provided with two ac water pipes 503, and the hydraulic pipes 502 are slidably connected to the hydraulic sliding pipes 401.

The seventh embodiment:

the present embodiment is described below with reference to fig. 1 to 11, where the water inlet assembly 6 includes a water pressure inlet pipe 601, a water pressure communicating pipe 602, and a water pressure inlet pipe 603, the water pressure inlet pipe 601 is fixedly connected to the water pressure communicating pipe 602, two water pressure inlet pipes 603 are fixedly connected to the water pressure inlet pipe 601, the two water pressure inlet pipes 603 are respectively and fixedly connected to two pairs of alternating current water pipes 503 corresponding to the front and rear sides, and a check valve is disposed on the water pressure communicating pipe 602.

The specific implementation mode is eight:

the embodiment is described below with reference to fig. 1 to 11, the water return assembly 7 includes a cooling plate 701, a return pipe 702, a return check valve 703 and a return connection pipe 704, the cooling plate 701 is fixedly connected to an inner wall of the lower end of the box 101, the cooling plate 701 is fixedly connected to the return pipe 702, the return pipe 702 is fixedly connected to the lower end of the cooling water tank 305, the return check valve 703 is disposed on the return pipe 702, the return connection pipes 704 are fixedly connected to both the front side and the rear side of the return pipe 702, and the two return connection pipes 704 are respectively fixedly connected to two pairs of ac water pipes 503 corresponding to each.

The specific implementation method nine:

the present embodiment is described below with reference to fig. 1 to 11, where the driving assembly 8 includes a driving frame 801, a driving motor 802, and a driving gear 803, the driving frame 801 is fixedly connected to the return pipe 702, the driving motor 802 is fixedly connected to the driving frame 801, the driving gear 803 is fixedly connected to an output shaft of the driving motor 802, the adjusting assembly 9 includes an adjusting pipe 901, a blocking sector plate 902, an adjusting ring gear 903, and an adjusting sector plate 904, the two adjusting pipes 901 are respectively and fixedly connected to the cooling water outlet pipe 306 and the return pipe 702, the two adjusting pipes 901 are both fixedly connected to the blocking sector plate 902, the adjusting ring gear 903 is rotatably connected to the two adjusting pipes 901, and the adjusting ring gear 903 is provided with the adjusting sector plate 904.

The cooling liquid enters the cooling water outlet pipe 306 again, enters the adjusting pipe 901 at the upper end, the driving motor 802 is started, the driving motor 802 drives the driving gear 803 to rotate, the driving gear 803 is meshed with the adjusting gear ring 903 to drive the adjusting gear ring 903 to rotate, the adjusting gear ring 903 drives the adjusting sector plate 904 to rotate, the overlapping degree of the adjusting sector plate 904 and the blocking sector plate 902 is changed, the rotation of the adjusting sector plate 904 can change the flow cross-sectional area of the cooling liquid entering the adjusting pipe 901 at the lower end from the adjusting pipe 901 at the upper end, so that the flow speed of the cooling liquid is changed, the cooling liquid flows into the hydraulic communicating pipe 602 and then flows into the hydraulic communicating pipe 601, the cooling liquid synchronously flows into the two hydraulic water inlet pipes 603 again, then passes through the alternating current water pipes 503 communicated with the two hydraulic water inlet pipes 603, when the flow speed of the cooling liquid in the adjusting assembly 9 is high, the liquid, the hydraulic sliding pipes 401 are jacked up by the cooling liquid, when the flow rate of the cooling liquid in the adjusting assembly 9 is slow, the liquid in the hydraulic pipes 502 is reduced, the hydraulic sliding pipes 401 move downwards, the plurality of hydraulic sliding pipes 401 vibrate up and down along with the driving gear 803 which is meshed with the adjusting gear ring 903 to drive the adjusting gear ring to rotate, the box body 101 is buffered when being vibrated, the damage to the box body 101 and the electric elements therein caused by vibration or impact on the electric elements in the box body 101 is prevented, the cooling liquid flows into the cooling plate 701 and the return pipe 702 through the return connecting pipe 704, the cooling plate 701 cools the lower end of the box body 101, the electric elements which generate much heat can be directly placed in the cooling plate 701 to better cool the electric elements which generate heat, the cooling liquid flows into the cooling water tank 305 from the return pipe 702, and the cooling liquid flows back to the cooling water tank 305 from the cooling water outlet pipe 306, the cooled coolant flows back to the coolant tank 305 after being naturally cooled by the outside, so that the temperature of the coolant is not too high, and a good cooling effect of the coolant on the box body 101 in the coolant pipe 302 is maintained.

The detailed implementation mode is ten:

the present embodiment is described below with reference to fig. 1 to 11, the ventilation assembly 10 includes a filter plate 1001, a protection frame 1002 and a fan 1003, the protection frame 1002 is fixedly connected to the filter plate 1001, the fan 1003 is disposed on the protection frame 1002, two filter plates 1001 are both fixedly connected to the left side of the box 101, and the two filter plates 1001 correspond to the two ventilation holes 104 one by one.

Two fans 1003 are started, the two fans 1003 can drive wind to flow in the box body 101, the two filter plates 1001 can filter airflow entering the box body 101, and dust is prevented from entering the box body 101 to cause damage to electrical components.

The invention discloses a virtualized cloud platform cabinet, which has the use principle that: when a heavy object falls, the heavy object can be smashed on the top plate 108, the top plate 108 presses the four sliding pipes 106 downwards, the four sliding pipes 106 compress the four top springs 107 and slide on the fixing rods 105 at the upper end, the compression of the four top springs 107 can absorb the falling potential energy of the heavy object, the falling impact force of the heavy object is reduced, the box body 101 and various circuits and elements inside the box body 101 are prevented from being damaged due to the smashing of the heavy object, dust accumulation at the upper end of the box body 101 can be effectively prevented, the heat dissipation effect inside the box body 101 is influenced, the using condition of the electrical elements inside the box body 101 can be checked through the transparent checking window 202, the hidden danger of the electrical elements is timely found, the serious consequences caused by untimely checking can be prevented, economic loss is caused, the water filling holes are formed in the cooling water tank 305, the cooling liquid can be added through the water filling holes, the water pump 304 is started, the cooling, the cooling liquid enters the cooling water pipe 302 again, the cooling water pipe 302 is covered in the cooling water pipe 302 by the rear cover 301, the air cooled by the cooling water pipe 302 can exchange heat with the rear part of the box body 101 as much as possible, energy exchange between the cooling water pipe 302 and the outside is prevented, waste of cooling energy of the cooling water pipe 302 is prevented, the cooling liquid enters the cooling water outlet pipe 306 again, the cooling liquid enters the adjusting pipe 901 at the upper end, the driving motor 802 is started, the driving motor 802 drives the driving gear 803 to rotate, the driving gear 803 is meshed with the adjusting gear ring 903 to drive the adjusting gear ring 903 to rotate, the adjusting gear ring 903 drives the adjusting sector plate 904 to rotate, the overlapping degree of the adjusting sector plate 904 and the blocking sector plate 902 is changed, the rotation of the adjusting sector plate 904 can change the flow cross-sectional area of the cooling liquid entering the adjusting pipe 901 at the upper end of the lower end of the cooling liquid, then flows into the water inlet pipe 601, the cooling liquid flows into the two water pressure water inlet pipes 603 again, and then passes through the plurality of alternating current water pipes 503 communicated with the two water pressure water inlet pipes 603, when the flow rate of the cooling liquid in the adjusting assembly 9 is high, the liquid in the water pressure pipe 502 is increased, the water pressure sliding pipe 401 is jacked up by the cooling liquid, when the flow rate of the cooling liquid in the adjusting assembly 9 is low, the liquid in the water pressure pipe 502 is reduced, the water pressure sliding pipe 401 moves downwards, the adjusting gear ring 903 rotates along with the meshing of the driving gear 803, the plurality of water pressure sliding pipes 401 vibrate up and down, the box body 101 is buffered when being vibrated, the damage of the box body 101 and the electric elements therein caused by vibration or impact of the electric elements in the box body 101 is prevented, the cooling liquid flows into the cooling plate 701 and the return pipe 702 through the return connection pipe 704, and the cooling plate 701 cools the lower end of, or the electrical components with more heat generation can be directly placed in the cooling plate 701 to better cool the electrical components with more heat generation, the cooling liquid flows into the cooling water tank 305 from the return pipe 702, and in the process that the cooling liquid flows back to the cooling water tank 305 from the cooling water outlet pipe 306, the cooled cooling liquid flows back into the cooling water tank 305 after being naturally cooled by the outside, so that the temperature of the cooling liquid is not too high, and a good cooling effect of the cooling liquid on the box body 101 in the cooling water pipe 302 can be maintained, when the box body 101 is vibrated or impacted, the plurality of fixing rods 105 at the lower end press the plurality of locking bolts 405, the plurality of locking bolts 405 drive the upper bracket to downwards compress the plurality of damping springs 404, the compression of the plurality of damping springs 404 absorbs the potential energy of the vibration of the box body 101 to damp the box body 101, the box body 101 and the electrical components inside the box body 101 can be effectively protected, and the stable operation of the virtualized cloud platform, two fans 1003 are started, the two fans 1003 can drive wind to flow in the box body 101, the two filter plates 1001 can filter airflow entering the box body 101, and dust is prevented from entering the box body 101 to cause damage to electrical components.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (10)

1. The utility model provides a virtualization cloud platform rack, includes rack subassembly (1), shutter subassembly (2), water-cooling subassembly (3), spring shock assembly (4), water pressure subassembly (5), subassembly (6) of intaking, return water subassembly (7), drive assembly (8), adjusting part (9) and ventilation module (10), its characterized in that: the connection can be dismantled on rack subassembly (1) in shutter subassembly (2), water-cooling subassembly (3) fixed connection is on rack subassembly (1), spring damper (4) are provided with four, four spring damper (4) are respectively through threaded connection on four angles of rack subassembly (1) lower extreme, equal sliding connection has water pressure subassembly (5) on four spring damper (4), subassembly (6) fixed connection of intaking is on four water pressure subassemblies (5), return water subassembly (7) fixed connection is on four water pressure subassemblies (5), drive assembly (8) fixed connection is on return water subassembly (7), adjusting part (9) fixed connection is on water-cooling subassembly (3) and subassembly (6) of intaking, the left end fixed connection of rack subassembly (1) has ventilation subassembly (10).

2. The virtualization cloud platform cabinet of claim 1, wherein: the cabinet assembly (1) comprises a box body (101), a baffle (102), a stop block (103), vent holes (104), fixing rods (105), sliding pipes (106), top springs (107) and a top plate (108), wherein the plurality of baffle plates (102) are fixedly connected to the front end of the box body (101), the stop block (103) is rotatably connected to the left side and the right side of the front end of the box body (101), the two vent holes (104) are formed in the left side of the box body (101), the plurality of fixing rods (105) are fixedly connected to the upper portion and the lower portion of the box body (101), the sliding pipes (106) are slidably connected to the plurality of fixing rods (105) at the upper end, the top springs (107) are arranged between the plurality of sliding pipes (106) and the box body (101), and the top plate (108.

3. The virtualization cloud platform cabinet of claim 2, wherein: the shutter assembly (2) comprises a sealing door (201), a viewing window (202) and handles (203), the sealing door (201) is connected to the box body (101) in a sliding mode, the sealing door (201) is fixedly connected with the two handles (203), and the viewing window (202) is arranged on the sealing door (201).

4. The virtualization cloud platform cabinet of claim 3, wherein: water-cooling subassembly (3) include back shroud (301), cooling water pipe (302), inlet tube (303), water pump (304), cooling water tank (305) and cooling outlet pipe (306), back shroud (301) fixed connection is in the rear side of box (101), cooling water pipe (302) fixed connection is in the rear side of box (101), inlet tube (303) fixed connection is in the upper end of cooling water pipe (302), cooling outlet pipe (306) fixed connection is at the lower extreme of cooling water pipe (302), cooling water tank (305) fixed connection is on the right side of box (101), water pump (304) fixed connection is in the upper end of box (101), inlet tube (303) fixed connection is on water pump (304).

5. The virtualization cloud platform cabinet of claim 4, wherein: spring damper (4) are including water pressure sliding tube (401), shock tube (402), upper bracket (403), damping spring (404) and locking bolt (405), sliding connection has shock tube (402) on water pressure sliding tube (401), fixedly connected with upper bracket (403) on shock tube (402), be provided with damping spring (404) between water pressure sliding tube (401) and upper bracket (403), sliding connection has locking bolt (405) on upper bracket (403), a plurality of locking bolt (405) rotate respectively and connect on a plurality of sliding tube (106) of lower extreme.

6. The virtualization cloud platform cabinet of claim 5, wherein: the water pressure assembly (5) comprises a chassis (501), water pressure pipes (502) and alternating-current water pipes (503), the chassis (501) is fixedly connected with the water pressure pipes (502), the water pressure pipes (502) are provided with the two alternating-current water pipes (503), and the water pressure pipes (502) are respectively connected to the water pressure sliding pipes (401) in a sliding mode.

7. The virtualization cloud platform cabinet of claim 6, wherein: the water inlet assembly (6) comprises a water pressure water inlet pipe (601), a water pressure communicating pipe (602) and a water pressure water inlet pipe (603), the water pressure water inlet pipe (601) is fixedly connected to the water pressure communicating pipe (602), the water pressure water inlet pipe (601) is fixedly connected with two water pressure water inlet pipes (603), the two water pressure water inlet pipes (603) are respectively and fixedly connected to two pairs of alternating current water pipes (503) corresponding to the front side and the rear side, and a check valve is arranged on the water pressure communicating pipe (602).

8. The virtualization cloud platform cabinet of claim 7, wherein: the water return component (7) comprises a cooling plate (701), a return pipe (702), a return check valve (703) and a return connecting pipe (704), the cooling plate (701) is fixedly connected to the inner wall of the lower end of the box body (101), the cooling plate (701) is fixedly connected to the return pipe (702), the return pipe (702) is fixedly connected to the lower end of the cooling water tank (305), the return check valve (703) is arranged on the return pipe (702), the return connecting pipe (704) is fixedly connected to the front side and the rear side of the return pipe (702), and the two return connecting pipes (704) are respectively fixedly connected to the two pairs of left and right corresponding alternating current water pipes (503).

9. The virtualization cloud platform cabinet of claim 8, wherein: drive assembly (8) are including drive frame (801), driving motor (802) and drive gear (803), drive frame (801) fixed connection is on back flow (702), driving motor (802) fixed connection is on drive frame (801), drive gear (803) fixed connection is on the output shaft of driving motor (802), it includes regulating tube (901) to adjust subassembly (9), block sector plate (902), adjust ring gear (903) and adjust sector plate (904), two regulating tube (901) fixed connection respectively are on cooling outlet pipe (306) and back flow (702), equal fixedly connected with blocks sector plate (902) on two regulating tube (901), it connects on two regulating tube (901) to adjust ring gear (903) rotation, be provided with on regulating ring gear (903) and adjust sector plate (904).

10. The virtualization cloud platform cabinet of claim 9, wherein: the ventilation assembly (10) comprises a filter plate (1001), a protection frame (1002) and a fan (1003), the protection frame (1002) is fixedly connected onto the filter plate (1001), the fan (1003) is arranged on the protection frame (1002), the two filter plates (1001) are fixedly connected to the left side of the box body (101), and the two filter plates (1001) and the two ventilation holes (104) are in one-to-one correspondence.

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