CN115003120A

CN115003120A - Processor room with cold circulation system

Info

Publication number: CN115003120A
Application number: CN202210672192.5A
Authority: CN
Inventors: 马飞成
Original assignee: Ningbo Gelante Electrical Appliance Co ltd
Current assignee: Ningbo Gelante Electrical Appliance Co ltd
Priority date: 2022-06-15
Filing date: 2022-06-15
Publication date: 2022-09-02
Anticipated expiration: 2042-06-15

Abstract

The utility model relates to a treater computer lab with cold circulation system, including the computer lab body and support in the static floor of computer lab body lower extreme, the vertical guard gate that slides and open and shut that is provided with the level of computer lab body one end, this internal in the computer lab evenly be provided with the mounting bracket of two sets of confession treater installations in two sets of form between the mounting bracket to two sets of the cold wind passageway that mounting bracket one side ventilates, static floor downside form to the air inlet chamber of blowing in the cold wind passageway, the computer lab body is close to the exhaust hole that supplies the circulation of air evenly is seted up to the both sides end of mounting bracket, computer lab body top is provided with the fire control subassembly of putting out a fire that carries out the fire through inert gas. This application has the temperature characteristics such as reduction computer lab.

Description

Processor room with cold circulation system

Technical Field

The application relates to the technical field of processors, in particular to a processor room with a cold circulation system.

Background

At present, in the IT industry, a machine room generally refers to telecommunications, internet, mobile, two-wire, electric power, government or enterprise, etc., where servers are stored and where IT is used to provide IT services for users and employees, tens of small racks are generally placed, twenty racks are generally placed, thousands of large racks are generally placed, and even more, various servers and small machines are generally placed in the machine room, such as IBM small machine, HP small machine, SUN small machine, etc., the temperature and humidity of the machine room and the antistatic measures are strictly required, non-professional personnel generally cannot enter the machine room, and the servers in the machine room run many services, such as mobile multimedia messages, short messages, call services, etc. The machine rooms are very important, and work and life are greatly influenced without the machine rooms, so that each machine room needs to be managed by professional personnel, and the normal operation of services is ensured!

When the processor works, the peak temperature can reach more than 100 ℃, and when the processor works in a machine room, the temperature of the processor is limited in a certain space, so that the temperature is higher, the processor works in a high-temperature environment for a long time, and the processing capacity and the service life of the processor are easily influenced.

Disclosure of Invention

In order to reduce the temperature of the machine room, the application provides a processor machine room with a cold circulation system.

The above object of the present application is achieved by the following technical solutions:

the utility model provides a treater computer lab with cold circulation system, include the computer lab body and support in the static floor of computer lab body lower extreme, the vertical guard gate that slides and open and shut that is provided with the level of computer lab body one end, this internal in of computer lab evenly be provided with the mounting bracket of two sets of confession treater installations in guard gate both sides, this internal in two sets of computer lab forms between the mounting bracket to two sets of the cold wind passageway that mounting bracket one side ventilates, static floor downside form to the air inlet chamber of blowing in the cold wind passageway, the computer lab body is close to the exhaust hole that supplies circulation of air evenly is seted up to the both sides end of mounting bracket, computer lab body top is provided with carries out the fire control fire extinguishing assembly who disappears through inert gas.

Through adopting above-mentioned technical scheme, when using this computer lab, the treater installation is fixed on the mounting bracket, when the treater begins working, temperature risees gradually in the computer lab, let in air conditioning to the air inlet intracavity of static floor lower extreme this moment, air conditioning is by in the cold wind passageway of static floor entering computer lab body, get into the mounting bracket department of both sides along the cold wind passageway again, thereby cool down to the mounting bracket week side of installation treater, and the air current that is carrying high-temperature air discharges along the exhaust hole of computer lab body both sides again, thereby make the temperature reduce gradually and finally maintain at certain temperature in the computer lab, and static floor can effectively reduce the production of static, the subassembly of putting out a fire can put out a fire through inert gas when the treater takes place the spontaneous combustion, it is safer.

Preferably, this internal vertical being provided with of computer lab wears to establish in proper order the mounting bracket with computer lab body lower extreme extremely the humidification pipe of air inlet intracavity, the humidification intraductal sponge that absorbs water that is inlayed and is equipped with, the air inlet intracavity is provided with the confession the vertical male basin of sponge that absorbs water, the splendid attire has water in the basin, the humidification pipe is in penetrating all side ends of computer lab body one end evenly set up the bleeder vent that supplies water vapour to see through.

Through adopting above-mentioned technical scheme, when the treater is at the during operation, lower temperature is better operational environment, but lower temperature will continuously take away this internal steam of computer lab, make this internal too dry of computer lab, and then influence the life of treater, the water that the sponge that absorbs water in the humidifying pipe absorbs the water of air inlet intracavity basin in this scheme, make all be full of moisture content in the whole sponge that absorbs water, set up the bleeder vent in the week side end of humidifying pipe, make the permeable bleeder vent of moisture content in the sponge that absorbs water evaporate this internally to the computer lab, thereby improve the humidity in the computer lab, this process is continuous simultaneously, in time, this internal cooling that lasts of computer lab, also can continuously keep certain humidity.

Preferably, the periphery wall of the humidifying pipe is rotatably sleeved with an adjusting pipe for shielding the air holes, and the periphery side end of the adjusting pipe is provided with a part or is completely communicated with the adjusting holes of the air holes.

Through adopting above-mentioned technical scheme, rotate the cover in the outside of humidification pipe and be equipped with the control tube, the regulating hole alignment bleeder vent of seting up on the control tube, through the area of rotating the adjustable bleeder vent of control tube and air contact, and then realize the effect of humidity in the regulation treater computer lab.

Preferably, the top of the adjusting pipe penetrates out of the top of the machine room body and is coaxially provided with a driven bevel gear, the top of the machine room body is horizontally and rotatably provided with a transmission shaft, a driving bevel gear meshed with the driven bevel gear is coaxially arranged on the transmission shaft, and an adjusting rotating wheel linked with the transmission shaft to rotate is rotatably arranged at the side end of the machine room body.

Through adopting above-mentioned technical scheme, rotate the regulation runner through the side at the computer lab body to drive the transmission shaft and rotate, the transmission shaft passes through initiative bevel gear and driven bevel gear and together drives all control tubes and rotates, thereby realizes the overall regulation of humidity, and is more convenient.

Preferably, the fire-fighting fire extinguishing assembly comprises a carbon dioxide air inlet pipe vertically communicated to one side of the mounting rack from the top of the machine room body, and carbon dioxide air inlet holes are circumferentially and uniformly formed in the position, at the same horizontal height, of the processor placed on the mounting rack in the carbon dioxide air inlet pipe.

Through adopting above-mentioned technical scheme, cause the spontaneous combustion of treater and each part very easily when the treater takes place the short circuit, the cost of treater is higher, directly use liquid or powder class to put out a fire and probably cause the further damage of treater, through setting up the carbon dioxide intake pipe in this scheme, then set up the carbon dioxide inlet port in the carbon dioxide intake pipe, make a large amount of carbon dioxide can come to installation frame week side along the carbon dioxide inlet port, make the oxygen of installation frame week side discharged, and then control the intensity of a fire, thereby avoid causing further injury to the treater.

Preferably, the carbon dioxide air inlet pipe is coaxially and rotatably provided with diffusion fans at the upper side and the lower side of the carbon dioxide air inlet hole, and the rotation directions of the diffusion fans on the same carbon dioxide air inlet pipe are opposite.

Through adopting above-mentioned technical scheme, after carbon dioxide got into along the carbon dioxide inlet port, spread rapidly under the effect of two diffusion fans from top to bottom to carry out quick control to the intensity of a fire, the rotation opposite direction of two diffusion fans simultaneously, thereby form the rotatory carbon dioxide whirlwind of perpendicular to carbon dioxide inlet pipe direction at the week side end of carbon dioxide inlet pipe, and further accelerate the discharge of air, accelerate the control intensity of a fire.

Preferably, the top of the carbon dioxide air inlet pipe vertically penetrates through the top of the machine room body, a dry ice adding wheel is horizontally and rotatably arranged at the top of the machine room body on one side of the carbon dioxide air inlet pipe, the dry ice adding wheel comprises dry ice supports which are evenly distributed in the horizontal circumferential direction, a dry ice feeding pipe is vertically arranged at the top of the machine room body on one side of the carbon dioxide air inlet pipe, a first adding port for horizontally inserting the dry ice supports is formed at the bottom of the dry ice feeding pipe and the top of the machine room body, a second adding port which is parallel and level to the top of the machine room body and is used for horizontally inserting the dry ice supports is horizontally formed at the top of the carbon dioxide air inlet pipe, and an air leakage hole is vertically formed in the middle of the dry ice supports.

Through adopting above-mentioned technical scheme, when the intensity of a fire appears, need close the air conditioning that the air inlet chamber got into, the intensity of a fire that avoids just controlling continues to contact the air, thereby cause the after combustion, set up the dry ice in the top of computer lab body in this scheme and add the wheel, the dry ice drops to first interpolation mouth department and falls on the dry ice support along the vertical whereabouts of dry ice feeder pipe, the dry ice adds the wheel rotation afterwards, make the dry ice support that adds the dry ice remove to second interpolation mouth department, the dry ice is gaseous and along leaking the downthehole entering carbon dioxide intake pipe by the solid evaporation this moment, thereby cool down carbon dioxide, thereby realize putting out a fire and the dual effect of cooling through carbon dioxide.

Preferably, the dry ice adding wheel further comprises a rotating frame in the middle, the dry ice support comprises a support ring aligned with the wall of the carbon dioxide air inlet pipe or the dry ice feeding pipe and a turning plate rotatably arranged in the middle of the support ring, the rotating axis of the turning plate is horizontal, the extension line of the axis of the turning plate penetrates through the rotating axis of the rotating frame, and a turning shaft penetrating through the support ring and driving the turning plate to rotate is rotatably arranged on the rotating frame.

Through adopting above-mentioned technical scheme, when the rotating turret drives the dry ice support and rotates when inserting the second and add the mouth, the upset axle can drive the rotation of turning over on the dry ice support, thereby make the dry ice fall along the carbon dioxide intake pipe, until falling carbon dioxide intake hole department, the quick evaporation that carries on afterwards, this scheme makes when the inside temperature of computer lab rises or the static floor can't upwards blow in air conditioning because of naked light is sudden and violent, can transport the dry ice to carbon dioxide intake pipe bottom, thereby accelerate the reduction of temperature in the computer lab and extinguish the naked light.

Preferably, an arc-shaped limiting plate for abutting friction of the supporting ring is arranged on one side, away from the rotating frame, of the second adding port at the top of the machine room body.

Through adopting above-mentioned technical scheme, when the rotating turret drives the dry ice support and removes when adding mouthful department to the second, the side contact arc limiting plate of dry ice support, the arc limiting plate provides frictional force to the dry ice support for the dry ice support removes slowly gradually, just has enough time upset to turn over the board this moment, after the upset is finished, the dry ice support breaks away from the arc limiting plate again gradually, the rotating turret lasts the rotation, and then continuously adds the dry ice to the carbon dioxide intake pipe, and then makes the temperature in the computer lab can keep.

Preferably, the electrostatic floor in the computer lab body both sides end has seted up the return air hole, the electrostatic floor in the downside level of return air hole has arranged the return air fan, the end of giving vent to anger of return air fan is provided with the muffler, the muffler is kept away from the one end of return air fan in the slope of air inlet intracavity orientation cold wind passageway, the air inlet chamber in the end of giving vent to anger of muffler is provided with cold pipe.

Through adopting above-mentioned technical scheme, when the treater takes place the short circuit when natural, need stop the air conditioning transport, avoid causing the burning aggravation because of the too much entering of air, set up the return air hole on the static floor in this scheme, make the inside carbon dioxide that lets in the computer lab by the return air fan along return air hole suction air inlet intracavity along exhaust hole discharge back, rethread return air pipe lets in carbon dioxide in the cold wind passageway, contact cold pipe before getting into cold wind simultaneously, thereby make carbon dioxide gas be cooled down, and then realize the circulative cooling.

To sum up, the beneficial technical effect of this application does:

1. when the machine room is used, the processor is installed and fixed on the installation frame, when the processor starts to work, the temperature in the machine room rises gradually, at the moment, cold air is introduced into the air inlet cavity at the lower end of the static floor, the cold air enters the cold air channel of the machine room body from the static floor and then enters the installation frames at two sides along the cold air channel, so that the peripheral side of the installation frame where the processor is installed is cooled, and air flow carrying high-temperature air is discharged along the exhaust holes at two side ends of the machine room body, so that the temperature in the machine room is gradually reduced and finally maintained at a certain temperature, the static floor can effectively reduce the generation of static electricity, and the fire-fighting and fire-extinguishing assembly can extinguish fire through inert gas when the processor spontaneously ignites, and is safer;

2. the water absorption sponge in the wet pipe absorbs water in the water tank in the air inlet cavity, so that the whole water absorption sponge is filled with water, the air holes are formed in the peripheral ends of the humidification pipe, the water in the water absorption sponge can be evaporated into the machine room body through the air holes, the humidity in the machine room is improved, and meanwhile, the process is continuous, the temperature in the machine room body can be continuously reduced in time, and a certain humidity can be continuously kept;

3. set up the dry ice at the top of computer lab body and add the wheel, the dry ice adds the wheel along the vertical whereabouts of dry ice feed pipe to first interpolation mouth department and falls on the dry ice support, the dry ice adds the wheel and rotates afterwards, make the dry ice support that adds the dry ice remove to second interpolation mouth department, the trip shaft can drive the board rotation that turns over on the dry ice support, thereby make the dry ice fall down along the carbon dioxide intake pipe, until falling carbon dioxide intake orifice department, the evaporation that evaporates fast afterwards, make in the computer lab inside temperature because of the open flame suddenly rise or when the static floor can't upwards blow in the air conditioning, can transport the dry ice to carbon dioxide intake pipe bottom, thereby accelerate the reduction of temperature in the computer lab and extinguish the open flame.

Drawings

FIG. 1 is a schematic diagram of a processor room with a cold circulation system;

FIG. 2 is a schematic diagram of an internal structure of a processor room with a cold circulation system;

FIG. 3 is an exploded view of the interior of a processor room having a cold circulation system;

FIG. 4 is an enlarged view of FIG. 3 at A;

FIG. 5 is an enlarged view of FIG. 3 at B;

FIG. 6 is an exploded view of the fire suppression assembly;

FIG. 7 is an enlarged view at C of FIG. 6;

FIG. 8 is an enlarged view of FIG. 6 at D;

fig. 9 is a schematic diagram of another view of a processor room with a cold circulation system.

In the figure: 1. a machine room body; 2. an electrostatic floor; 3. a protective door; 4. a mounting frame; 5. a cold air passage; 6. an air inlet cavity; 7. a humidifying pipe; 8. a water tank; 9. a water-absorbing sponge; 10. air holes are formed; 11. an adjusting tube; 12. a driven bevel gear; 13. a drive shaft; 14. a drive bevel gear; 15. an adjustment hole; 16. adjusting the rotating wheel; 17. a gear set; 18. a drive shaft; 19. a first bevel gear; 20. a second bevel gear; 21. a fire extinguishing assembly; 22. a carbon dioxide inlet pipe; 23. a dry ice feed tube; 24. a dry ice adding wheel; 25. a second addition port; 26. a carbon dioxide inlet port; 27. a diffusion fan; 28. a first addition port; 29. a rotating frame; 30. a turning shaft; 31. a dry ice support; 32. a branch ring; 33. turning over a plate; 34. air leakage holes; 35. an arc limiting plate; 36. an exhaust hole; 37. a return air hole; 38. an air return fan; 39. an air return pipe; 40. and (5) cooling the tube.

Detailed Description

The present application is described in further detail below with reference to figures 1-9.

Referring to fig. 1 and 2, a treater computer lab with cold circulation system, including computer lab body 1 and support in the static floor 2 of computer lab body 1 lower extreme, the vertical guard gate 3 that slides through the slide rail level and open and shut that is provided with of 1 one end of computer lab body, the even welding in guard gate 3 both sides has two sets of mounting brackets 4 that supply the treater installation of 1 inside of computer lab body, form the cold wind passageway 5 to two sets of mounting brackets 4 one side ventilation between two sets of mounting brackets 4 in the

computer lab body

1, 2 downside formations on static floor are to the air inlet chamber 6 of blowing in the cold wind passageway 5.

Referring to fig. 3 and 4, two sets of a plurality of humidification pipes 7 are vertically welded in the machine room body 1, each set of humidification pipe 7 corresponds to the mounting rack 4 on one side of the protection door 3, the humidification pipes 7 sequentially penetrate through the mounting rack 4 and the lower end of the machine room body 1, the lower ends of the humidification pipes 7 penetrate into the air inlet cavity 6, a water tank 8 containing water is placed at the bottom in the air inlet cavity 6, the lower portion of each humidification pipe 7 is directly inserted into the water tank 8, a water absorption sponge 9 is embedded in each humidification pipe 7, the lower ends of the water absorption sponges 9 are also immersed in the water tank 8, the water in the water tank 8 can be transported to the humidification pipes 7 in the machine room body 1 through the water absorption sponge 9, air holes 10 are evenly formed in the circumferential direction of the circumferential side ends of the humidification pipes 7, and water in the water absorption sponge 9 can be evaporated into steam along the air holes 10 to enter the machine room body 1.

Referring to fig. 3, fig. 4 and fig. 5, the coaxial cover that rotates of week side end of humidifying pipe 7 is equipped with control tube 11, the top of control tube 11 is vertical to be worn out the top of computer lab body 1, the top welding of control tube 11 has passive bevel gear 12, the computer lab top is rotated through the pivot and is connected with two transmission shafts 13, every corresponds a set of control tube 11 with transmission shaft 13, the coaxial welding of week side end of axis of rotation has the initiative bevel gear 14 that meshes in passive bevel gear 12, can drive control tube 11 when the axis of rotation takes place to rotate, control hole 15 has been seted up at the position of aligning bleeder vent 10 to control tube 11 all sides end, it can make bleeder vent 10 part expose or expose completely to rotate control tube 11, and then adjusts the humidity in the computer lab body 1.

The side end of the machine room body 1 is rotatably connected with an adjusting rotating wheel 16 through a rotating shaft, gears are coaxially welded at the peripheral side end of the adjusting rotating wheel 16, the side end of the machine room body 1 is rotatably connected with a group of gear sets 17 through the rotating shaft, the gear sets 17 are formed by mutually meshing a plurality of gears, the gear at the lowest end of the gear sets 17 is meshed with the gear which is coaxially rotated in an adjusting mode, the top of the machine room body 1 is rotatably connected with a driving shaft 18 through the rotating shaft, one end of the driving shaft 18 is coaxially welded with a gear which is meshed with the gear at the topmost end of the gear sets 17, two first bevel gears 19 are coaxially welded on the driving shaft 18, one end of the transmission shaft 13 is coaxially welded with a second bevel gear 20 which is meshed with the first bevel gears 19, so that the adjusting rotating wheel 16 is realized, and all the adjusting pipes 11 rotate and adjust the humidity in the machine room body 1.

Referring to fig. 6, 7 and 8, a fire-fighting assembly 21 is arranged at the top of the machine room body 1, and the fire-fighting assembly 21 comprises a carbon dioxide inlet pipe 22, a dry ice feeding pipe 23 and a dry ice adding wheel 24.

Carbon dioxide intake pipe 22 includes two parts, partly is by 1 top of computer lab body vertical straight to one side of mounting bracket 4, another part is by outer quick-witted intercommunication and extend to 1 top upside of computer lab body, form the second between the carbon dioxide intake pipe 22 in both ends and add mouthful 25, carbon dioxide intake pipe 22 evenly has seted up carbon dioxide inlet port 26 in mounting bracket 4 place the same level's of treater position circumference, carbon dioxide intake pipe 22 overlaps in the upper and lower both sides coaxial rotation cover of carbon dioxide inlet port 26 and is equipped with diffusion fan 27, diffusion fan 27 rotation opposite direction on the same carbon dioxide intake pipe 22, when making carbon dioxide let in carbon dioxide intake pipe 22 and get into computer lab body 1 along carbon dioxide inlet port 26, two diffusion fans 27 spread carbon dioxide level with higher speed.

The dry ice feeding pipe 23 is communicated with the outside machine and vertically hung on the upper side of the top of the machine room body 1, the dry ice feeding pipe 23 is positioned on one side of the carbon dioxide inlet pipe 22, and a first adding opening 28 is formed between the dry ice feeding pipe 23 and the top of the machine room body 1.

The dry ice adding wheel 24 comprises a rotating frame 29 which is rotatably connected to the top of the machine room body 1 through a rotating shaft, an overturning shaft 30 which is uniformly rotatably connected to the peripheral side end of the rotating frame 29 through the rotating shaft, and a dry ice support 31, wherein the dry ice support 31 can rotate along with the rotating frame 29 and can be inserted into the first adding port 28 and the second adding port 25.

The dry ice support 31 is established at the braced ring 32 on the trip shaft 30 including rotating the cover and is rotated and peg graft at braced ring 32 middle part and with the same pivoted of trip shaft 30 board 33, evenly seted up air leakage hole 34 on the board 33 turns over, 1 top of computer lab body is kept away from turret 29 one side in the second and is had the frictional arc limiting plate 35 of confession braced ring 32 butt through the bolt fastening in mouth 25, dry ice support 31 inserts first interpolation mouth 28 after, the dry ice falls on turning over the board 33, rotate afterwards and insert in the second interpolation mouth 25, after the spacing of arc limiting plate 35, turn over the board 33 and rotate, fall into dry ice carbon dioxide intake pipe 22 in.

Referring to fig. 1 and 9, the machine room body 1 is uniformly provided with vent holes 36 for air to circulate at two side ends close to the mounting frame 4, the electrostatic floor 2 is provided with return holes 37 at two side ends of the machine room body 1, the electrostatic floor 2 is horizontally fixed with a return air fan 38 at a lower side of the return holes 37 by bolts, an air outlet end of the return air fan 38 is fixed with a return air pipe 39 by bolts, one end of the return air pipe 39, which is far away from the return air fan 38, is inclined in the air inlet chamber 6 towards the cold air channel 5, the air inlet chamber 6 is fixed with a cold pipe 40 at an air outlet end of the return air pipe 39 by bolts, when carbon dioxide is introduced into the machine room body 1, the carbon dioxide is discharged along the vent holes 36, is sucked into the air inlet chamber 6 by the return air fan 38 through the return holes 37, and passes through the cold pipe 40 through an outlet of the return air pipe 39 and flows back into the cold air channel 5.

The implementation principle of the embodiment is as follows:

when the machine room is used, the processor is installed and fixed on the installation frame 4, when the processor starts to work, the temperature in the machine room gradually rises, at the moment, cold air is introduced into the air inlet cavity 6 at the lower end of the electrostatic floor 2, the cold air enters the cold air channel 5 of the machine room body 1 from the electrostatic floor 2 and then enters the installation frames 4 at two sides along the cold air channel 5, so that the peripheral side of the installation frame 4 for installing the processor is cooled, air flow carrying high-temperature air is discharged along the exhaust holes 36 at two side ends of the machine room body 1, so that the temperature in the machine room is gradually reduced and finally maintained at a certain temperature, the water in the water tank 8 in the air inlet cavity 6 is absorbed by the water absorption sponge 9 in the wet pipe, the whole water absorption sponge 9 is filled with water, the water in the water absorption sponge 9 is evaporated along the air vents 10, so as to improve the humidity in the machine room, when the processor spontaneously ignites due to short circuit, the dry ice falls vertically to the first adding port 28 along the dry ice feeding pipe 23 and falls on the dry ice support 31, then the dry ice adding wheel 24 rotates, when the rotating frame 29 drives the dry ice support 31 to move to the second adding port 25, the side end of the dry ice support 31 contacts the arc limiting plate 35, the arc limiting plate 35 provides friction force for the dry ice support 31, so that the dry ice support 31 moves slowly, the turnover shaft 30 drives the turnover plate 33 on the dry ice support 31 to rotate, so that the dry ice falls along the carbon dioxide air inlet pipe 22 until the dry ice falls to the carbon dioxide air inlet hole 26, then the dry ice evaporates rapidly, and carbon dioxide introduced from the carbon dioxide air inlet pipe 22 is added, so that the processor on the mounting frame 4 is rapidly extinguished, and carbon dioxide introduced into the machine room is discharged along the exhaust hole 36 and then is sucked into the air inlet chamber 6 along the return air hole 37 by the return air fan 38, then the carbon dioxide is introduced into the cold air channel 5 through the air return pipe 39, and simultaneously contacts the cold pipe 40 before the entering cold air is introduced, so that the carbon dioxide gas is cooled, and the reburning caused by the introduction of oxygen is avoided while the cooling is realized.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. A processor room with a cold circulation system, characterized in that: comprises a machine room body (1) and an electrostatic floor (2) supported at the lower end of the machine room body (1), one end of the machine room body (1) is vertically provided with a protective door (3) which can slide horizontally and open and close, two groups of mounting frames (4) for mounting a processor are uniformly arranged on two sides of the protective door (3) in the machine room body (1), a cold air channel (5) for ventilating one side of the two groups of mounting racks (4) is formed between the two groups of mounting racks (4) in the machine room body (1), an air inlet cavity (6) for blowing air into the cold air channel (5) is formed at the lower side of the electrostatic floor (2), the machine room body (1) is evenly provided with exhaust holes (36) for air circulation at the two side ends close to the mounting rack (4), the top of the machine room body (1) is provided with a fire-fighting assembly (21) for fire fighting through inert gas.

2. The processor room with a cold circulation system according to claim 1, wherein: vertical being provided with in computer lab body (1) wears to establish in proper order mounting bracket (4) with computer lab body (1) lower extreme extremely humidifying pipe (7) in air inlet chamber (6), humidifying pipe (7) are embedded to be equipped with a sponge (9) that absorbs water, be provided with the confession in air inlet chamber (6) the vertical male basin (8) of sponge (9) absorb water, the splendid attire has water in basin (8), humidifying pipe (7) are in penetrating all sides end of computer lab body (1) one end is evenly seted up bleeder vent (10) that supply steam to see through.

3. The processor room with a cold circulation system according to claim 2, wherein: the periphery wall of humidification pipe (7) rotates the cover and is equipped with right regulating tube (11) that bleeder vent (10) sheltered from, regulating tube (11) week side end seted up partially or communicate completely in regulating hole (15) of bleeder vent (10).

4. The processor room with a cold circulation system according to claim 3, wherein: the top of the adjusting pipe (11) penetrates through the top of the machine room body (1) and is coaxially provided with a driven bevel gear (12), the top of the machine room body (1) is horizontally and rotatably provided with a transmission shaft (13), a driving bevel gear (14) meshed with the driven bevel gear (12) is coaxially arranged on the transmission shaft (13), and an adjusting rotating wheel (16) which is linked with the transmission shaft (13) to rotate is rotatably arranged at the side end of the machine room body (1).

5. The processor room with a cold circulation system according to claim 1, wherein: fire control subassembly (21) include by vertical logical extremely in computer lab body (1) top carbon dioxide intake pipe (22) of mounting bracket (4) one side, carbon dioxide intake pipe (22) in the same level's of processor position circumference has evenly seted up carbon dioxide inlet port (26) in mounting bracket (4).

6. The processor room with a cold circulation system according to claim 5, wherein: the carbon dioxide air inlet pipe (22) is coaxially and rotatably provided with diffusion fans (27) on the upper side and the lower side of the carbon dioxide air inlet hole (26), and the rotation directions of the diffusion fans (27) on the same carbon dioxide air inlet pipe (22) are opposite.

7. The processor room with a cold circulation system according to claim 5, wherein: the top of the carbon dioxide inlet pipe (22) vertically penetrates out of the top of the machine room body (1), a dry ice adding wheel (24) is horizontally and rotatably arranged at one side of the carbon dioxide inlet pipe (22) at the top of the machine room body (1), the dry ice adding wheel (24) comprises dry ice supports (31) which are uniformly distributed in the horizontal circumferential direction, a dry ice feeding pipe (23) is vertically arranged at one side of the top of the machine room body (1) on the carbon dioxide air inlet pipe (22), the bottom of the dry ice feeding pipe (23) and the top of the machine room body (1) form a first adding opening (28) for a dry ice support (31) to be horizontally inserted, the top of the carbon dioxide air inlet pipe (22) is horizontally provided with a second adding opening (25) which is parallel and level to the top of the machine room body (1) and is used for horizontally inserting the dry ice support (31), and the middle of the dry ice support (31) is vertically provided with an air leakage hole (34).

8. The processor room with a cold circulation system according to claim 7, wherein: the dry ice adding wheel (24) further comprises a rotating frame (29) in the middle, the dry ice support (31) comprises a support ring (32) aligned to the wall of the carbon dioxide air inlet pipe (22) or the dry ice feeding pipe (23) and a turning plate (33) rotatably arranged in the middle of the support ring (32), the rotating axis of the turning plate (33) is horizontal, the extension line of the axis penetrates through the rotating axis of the rotating frame (29), and a turning shaft (30) penetrating through the support ring (32) and driving the turning plate (33) to rotate is rotatably arranged on the rotating frame (29).

9. The processor room with a cold circulation system according to claim 8, wherein: the top of the machine room body (1) is provided with an arc limiting plate (35) for abutting friction of the support ring (32) on one side of the second adding port (25) far away from the rotating frame (29).

10. The processor room with a cold circulation system according to claim 1, wherein: static floor (2) in return air hole (37) have been seted up to computer lab body (1) both sides end, static floor (2) in return air fan (38) have been arranged to the downside level of return air hole (37), the end of giving vent to anger of return air fan (38) is provided with muffler (39), muffler (39) are kept away from return air fan (38) one end in air inlet chamber (6) interior slope orientation cold wind passageway (5), air inlet chamber (6) in the end of giving vent to anger of muffler (39) is provided with cold pipe (40).