CN116133348B - Temperature regulation control system of high-power server room - Google Patents

Abstract

The invention relates to the field of server room temperature regulation, in particular to a high-power server room temperature regulation control system. The invention aims to overcome the defects that the cooling temperature of an air conditioner is generally reduced, the server on the upper side of a cabinet cannot quickly dissipate heat, so that energy waste is increased, and meanwhile, when part of servers are operated with high power, the part of servers operated with high power cannot be quickly cooled in time. The technical proposal is as follows: the temperature regulation control system of the high-power server room comprises a temperature monitor and an air inlet mechanism, wherein a plurality of temperature monitors are respectively arranged at the left part and the right part of the inner upper side surface of the server room at equal intervals, and the air inlet mechanism for cooling the server is arranged above the server room. By arranging the air inlet mechanism, the invention avoids different air output of the air outlet on the air inlet pipeline, and reduces the cooling effect of the server far away from the air cooling unit.

Description

Temperature regulation control system of high-power server room

Technical Field

The invention relates to the field of server room temperature regulation, in particular to a high-power server room temperature regulation control system.

Background

The server room is designed for continuous operation of the computer server, and is usually provided with air conditioning equipment, a large number of electronic equipment is usually placed in the server room to receive, process and forward information, and the electronic equipment releases a large amount of heat during operation, so that the electronic equipment is cooled by the air conditioning equipment, and the damage caused by untimely heat dissipation of the server is avoided.

The main air supply mode of the data center machine room is an underfloor air supply mode nowadays, and because of the non-fully sealed isolation state among all layers of servers in the rack, the temperature of the bottom layer of the servers in the rack is lowest, the temperature is increased in a gradient way along with the increase of the height of the rack, the cooling temperature of an air conditioner is generally reduced, the servers on the upper side of the rack are prevented from being capable of rapidly radiating, so that the energy waste is increased, and meanwhile, when part of servers are operated at high power, the part of servers which are operated at high power cannot be rapidly cooled in time.

Therefore, there is a particular need for a high power server room temperature regulation control system that addresses the problems associated with the prior art.

Disclosure of Invention

In order to overcome the defect that the cooling temperature of an air conditioner is generally reduced, the server on the upper side of a cabinet is prevented from being incapable of rapidly radiating, so that energy waste is increased, and meanwhile, when part of servers are operated with high power, the part of servers operated with high power cannot be rapidly cooled in time, the invention aims to provide a temperature regulation control system of a high-power server room.

The technical proposal is as follows: the utility model provides a temperature regulation control system of high-power server room, including control panel, temperature monitor, air inlet mechanism and air-out mechanism, control panel is installed in the leading flank left part of server room, control panel passes through the thing networking and is connected with remote control terminal, a plurality of rack is installed to both sides about respectively equidistant in the server room, all install high-power server on the rack, a plurality of temperature monitor is installed to the upper portion of both sides wall about the server room respectively equidistant, temperature monitor and control panel electrical connection, the top of server room is equipped with the air inlet mechanism that is used for cooling to the server, air inlet mechanism and control panel electrical connection, the top of server room is equipped with and is used for hot air exhaust air-out mechanism, air-out mechanism and control panel electrical connection, air inlet mechanism and air-out mechanism are circulation intercommunication setting.

Further, air inlet mechanism is including the air cooling unit, air inlet pipe and arctube, first exhaust fan and air inlet regulation subassembly, the air cooling unit is installed in the trailing flank of server room, air cooling unit and control panel electrical connection, air inlet pipe passes the rear side upper portion of server room, the front end rigid coupling of air inlet pipe is in the interior upper portion of server room, air inlet pipe's rear end and air cooling unit air outlet intercommunication, the internally mounted of air cooling unit has the pipeline with external intercommunication, pipeline with air inlet pipe intercommunication on the air cooling unit, and install the solenoid valve on the pipeline of air cooling unit and external intercommunication, the solenoid valve and the control panel electrical connection of installation on the pipeline of air cooling unit and external intercommunication, install the carbon dioxide gas bomb in the air outlet of carbon dioxide gas bomb and air inlet pipe intercommunication, the solenoid valve and the control panel electrical connection of carbon dioxide gas bomb, the equidistant intercommunication in air inlet pipe left and right sides has a plurality of arctube, arctube is used for changing the cold wind and blows off the direction, the arctube is located the upside of adjacent rack, the interior lower part of every venturi tube all is connected with first exhaust fan through the control panel, every arc tube is connected with the air inlet assembly, every arc holder is equipped with down.

Further, the air inlet adjusting component comprises a fixed ring, a connecting shell, a fixed ventilation disk, a rotating ring, a rotating ventilation disk, a sliding rack and an electric push rod, wherein the lower end of the arc-shaped pipe is fixedly connected with the fixed ring, the lower end of the fixed ring is fixedly connected with the connecting shell, the middle part of the connecting shell is fixedly connected with the fixed ventilation disk, six fan-shaped through holes for ventilation are circumferentially and equally arranged on the fixed ventilation disk, the rotating ring is rotationally connected with the rotating ring, the rotating ventilation disk is fixedly connected with the lower end of the rotating ring, six fan-shaped through holes for ventilation are circumferentially and equally arranged on the rotating ventilation disk, the fixed ventilation disk is in running fit with the rotating ventilation disk, teeth are arranged on the outer side of the outer ring of the fixed ventilation disk, round through holes of the fixed ring are fixedly arranged on the inner side of the fixed ring, the sliding rack is meshed with teeth on the outer side of the rotating disk, the outer side of the fixed ring is fixedly connected with the electric push rod through a mounting seat, and the telescopic front end of the electric push rod is fixedly connected with the sliding rack through the connecting plate.

Further, the air outlet mechanism comprises an air outlet pipeline, a collecting cover, a second exhaust fan and smoke monitors, wherein the air outlet pipeline is communicated with an air inlet of the air cooling unit, five circular through holes are formed in the lower side face of the air outlet pipeline at equal intervals, the collecting cover for collecting hot air is communicated between the five circular through holes of the air outlet pipeline, the second exhaust fans are all electrically connected with the control panel through connecting frames, the five smoke monitors are fixedly connected to the lower side of the collecting cover at equal intervals through connecting plates, and are respectively located on the lower sides of the five second exhaust fans and are electrically connected with the control panel.

Further, the collecting cover is formed by connecting five quadrangular frustum shells, and the inner side surface of the collecting cover is smooth.

Further, the air inlet pipeline and the air outlet pipeline are made of heat insulation materials.

Further, the device also comprises a fixing shell and baffle plates, wherein the fixing shell is communicated with the lower end of the connecting shell, the fixing shell is in a frustum shape, the front side and the rear side of the inner side of the fixing shell are respectively fixedly connected with the baffle plates, and the two baffle plates are symmetrically and obliquely arranged.

Further, the server room comprises vertical plates, wherein a plurality of vertical plates are fixedly connected to the left and right inner sides of the server room at equal intervals, two adjacent cabinets are fixedly connected with the adjacent vertical plates, and the vertical plates are T-shaped.

Further, the air inlet pipe also comprises a fixed cover, wherein the fixed cover is fixedly connected to the upper side face of the air inlet pipe, the fixed cover is arched, and the fixed cover covers the arc-shaped pipes on the left side and the right side of the air inlet pipe.

Further, the inside that still including even air inlet subassembly, even air inlet subassembly locates the server room, even air inlet subassembly is used for cooling to the server of upper and lower different levels, even air inlet subassembly is including the slide, sliding plate and grid tray, the slide is equipped with two altogether, two slides rigid couplings respectively in the bottom left and right sides in the server room, two slides are located the inboard of two rows of racks, sliding connection has two sliding plates respectively on two slides, two adjacent sliding plates are crisscross to slide, a plurality of rectangular through-hole has been seted up to equidistant on four sliding plates, all be connected with two grid trays through the axis of rotation in every rectangular through-hole of sliding plate, there is the damping between the axis of rotation and the sliding plate of every grid tray.

According to the invention, the air inlet mechanism is arranged to enable cold air to move downwards from the upper part, meanwhile, according to the characteristic of downward movement of the cold air, the heat dissipation efficiency of the server is improved, and the cooled air is uniformly distributed by changing the ventilation gap between the rotary ventilation disc and the fixed ventilation disc, so that the difference of air outlet volumes of air outlets on the air inlet pipeline is avoided, and the cooling effect of the server far away from the air cooling unit is reduced; the cold air is dispersed by arranging the fixed shell and the baffle, so that the utilization rate of the cold air is improved, and the cooling effect on the server is improved; the ventilation gap between the fixed ventilation disk and the rotary ventilation disk is increased, so that the circulation speed of hot air and cold air between the air inlet pipeline and the air outlet pipeline is increased, the working efficiency of the air cooling unit is improved, the servers with high partial operation power are quickly cooled, long-time high-power operation of the servers is avoided, the servers cannot be quickly cooled in time, and the servers are burnt; through setting up the collecting cover, make the hot air can not spread in the front and back of collecting cover lower part, discharge the hot air into the air-out pipeline fast through the second exhaust fan, so has avoided the front and back diffusion of the hot air, make the whole server room unable to cool down fast; the rear sides of the adjacent cabinets are separated through the vertical plates arranged between the two cabinets, so that the influence of different heat dissipation amounts of servers on the two adjacent cabinets on the normal heat dissipation of servers in the server cabinets on two sides is avoided; by arranging the fixed cover, the direct contact of hot air and cold air is avoided, so that heat exchange is carried out between the hot air and the cold air, and the air cooling unit continuously runs under high load, thereby causing energy waste; through setting up even air inlet subassembly, utilize grid tray 26 to change the size of rectangular through-hole on the sliding plate 25, realized that the quantity of upper and lower side server inhaled cold air is the same, improved the cooling effect to the downside server.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic rear perspective view of the present invention.

Fig. 3 is a schematic view of a partial perspective structure of the present invention.

Fig. 4 is a schematic perspective view of an air intake mechanism of the present invention.

Fig. 5 is a schematic structural view of an adjusting assembly according to the present invention.

Fig. 6 is a partial cross-sectional view of an adjustment assembly of the present invention.

Fig. 7 is a schematic perspective view of a fixing case according to the present invention.

Fig. 8 is a schematic perspective view of an air outlet mechanism of the present invention.

Fig. 9 is a schematic perspective view of a vertical plate according to the present invention.

Fig. 10 is a schematic perspective view of a retaining cap according to the present invention.

Fig. 11 is a schematic perspective view of a uniform air intake assembly according to the present invention.

Fig. 12 is a schematic view of a part of a three-dimensional structure of a uniform air intake assembly according to the present invention.

Fig. 13 is a schematic diagram of a system structure according to the present invention.

Reference numerals in the figures: the system comprises a server room, a 2-control panel, a 3-cabinet, a 4-temperature monitor, a 5-air cooling unit, a 6-air inlet pipeline, a 7-arc-shaped pipe, an 8-first exhaust fan, a 9-fixed ring, a 10-connecting shell, an 11-fixed ventilation disk, a 12-rotating ring, a 13-rotating ventilation disk, a 14-sliding rack, a 15-electric push rod, a 16-fixed shell, a 17-baffle, a 18-air outlet pipeline, a 19-collecting cover, a 20-second exhaust fan, a 21-smoke monitor, a 22-vertical plate, a 23-fixed cover, a 24-slideway, a 25-sliding plate and a 26-grid plate.

Detailed Description

The above-described aspects are further described below in conjunction with specific embodiments. It should be understood that these examples are illustrative of the present application and are not limiting the scope of the present application. The implementation conditions used in the examples may be further adjusted according to the conditions of the specific manufacturer, and the implementation conditions not specified are generally those in routine experiments.

Example 1

The utility model provides a temperature regulation control system of high-power server room, as shown in fig. 1-8 and 13, including control panel 2, temperature monitor 4, air inlet mechanism and air-out mechanism, control panel 2 is installed in the leading flank left part of server room 1, control panel 2 passes through thing networking and is connected with remote control terminal, the electric power system of server room 1 is connected with control panel 2 electricity, a plurality of rack 3 is installed respectively to two left and right sides equidistant in the server room 1, all install high-power server on the rack 3, a plurality of temperature monitor 4 is installed respectively equidistant in the upper portion of the left and right sides wall of server room 1, temperature monitor 4 and control panel 2 electricity are connected, the top of server room 1 is equipped with the air inlet mechanism that is used for cooling the server, air inlet mechanism and control panel 2 electricity are connected, the top of server room 1 is equipped with and is used for the air-out mechanism with hot air exhaust, air outlet mechanism and control panel 2 electricity are connected, air inlet mechanism and air outlet mechanism are the circulation intercommunication setting.

When the servers of the cabinet 3 work, a large amount of hot air is generated, real-time detection is carried out through the temperature monitor 4, cold air is conveyed into the server room 1 through the air inlet mechanism, the servers in the cabinets 3 on two sides absorb the cold air into the servers through the radiating fans of the servers, at the moment, the electric elements in the servers are radiated, meanwhile, the generated hot air is discharged outwards, the heated air volume is expanded, the air density is small, the weight is light, the hot air moves towards the upper side of the server room 1, then the hot air is discharged through the air outlet mechanism, the generated hot air is cooled through the air inlet mechanism, the hot air is changed into cold air, then the cold air returns into the server room 1 through the air inlet mechanism again, the servers in the server room 1 are cooled in a circulating way, the air in the server room 1 is cooled in a circulating way, and the air in the server room 1 is cooled in a circulating way, so avoid outside moist air to enter into in the server room 1, cause the server to wet and damage, when the server in the server room 1 high-power operation, make the temperature in the server room 1 rise, temperature monitor 4 is to control panel 2 transmission signal this moment, control panel 2 increases air flow rate between air inlet mechanism and the play fan mechanism, avoid when the high-power operation of server because of the high temperature, can not in time dispel the heat and cause the burn out, control panel 2 passes through the internet of things with the real-time data that server room 1 produced and transmits remote control terminal, operating personnel monitors the operating condition of server room 1 in real time through watching the real-time data that remote control terminal shows, when server room 1 takes place the conflagration, control panel 2 cuts off the circuit between server room 1 and the server, so avoid producing bigger economic loss.

Example 2

On the basis of embodiment 1, as shown in fig. 4-6, air inlet mechanism is including air cooling unit 5, air inlet pipe 6 and arc pipe 7, first exhaust fan 8 and air inlet regulation subassembly, air cooling unit 5 installs in the trailing flank of server room 1, air cooling unit 5 and control panel 2 electrical connection, air inlet pipe 6 passes the rear side upper portion of server room 1, air inlet pipe 6's front end rigid coupling is in the interior upper portion of server room 1, air inlet pipe 6's rear end and air cooling unit 5 air outlet intercommunication, air cooling unit 5's internally mounted has the pipeline with external intercommunication, air cooling unit 5 is gone up and is linked together with air inlet pipe 6 with the pipeline of external intercommunication, and install the solenoid valve on air cooling unit 5 and the pipeline of external intercommunication, the solenoid valve and the control panel 2 electrical connection of installation on the pipeline of air cooling unit 5 and external intercommunication, the gas outlet and air inlet pipe 6 intercommunication of carbon dioxide gas cylinder, solenoid valve and control panel 2 electrical connection are installed to the gas outlet on the carbon dioxide gas cylinder, air inlet pipe 6 left and right sides equidistant 7 of air inlet pipe 6 are located the arc pipe 7 and are connected with each arc pipe 7 and are located the arc pipe 7 and are all connected with the arc pipe 7 down in the arc pipe 3, the arc pipe 7 of every is located down in the arc pipe connection, the arc pipe is connected.

As shown in fig. 6, the air intake adjusting component comprises a fixed ring 9, a connecting shell 10, a fixed ventilation disk 11, a rotating ring 12, a rotating ventilation disk 13, a sliding rack 14 and an electric push rod 15, wherein the lower end of an arc-shaped pipe 7 is fixedly connected with the fixed ring 9, the lower end of the fixed ring 9 is fixedly connected with the connecting shell 10, the middle part of the connecting shell 10 is fixedly connected with the fixed ventilation disk 11, six fan-shaped through holes for ventilation are circumferentially and equidistantly arranged on the fixed ventilation disk 11, the rotating ring 12 is rotationally connected with the inner ring surface of the fixed ring 9, the lower end of the rotating ring 12 is fixedly connected with the rotating ventilation disk 13, six fan-shaped through holes for ventilation are circumferentially and equidistantly arranged on the rotating ventilation disk 13, the fixed ventilation disk 11 is in rotating fit with the rotating ventilation disk 13, the six fan-shaped through holes on the fixed ventilation disk 11 are matched with the six fan-shaped through holes of the rotating ventilation disk 13 for changing the air intake, the fan-shaped through holes of the rotary ventilating disc 13 and the fixed ventilating disc 11 form ventilating gaps, teeth are arranged on the outer side of the outer ring surface of the fixed ventilating disc 11, a circular through hole is formed on the outer side of the fixed ring 9, a sliding rack 14 is connected in the circular through hole of the fixed ring 9 in a sliding mode, the sliding rack 14 is meshed with the teeth on the outer side of the rotary ventilating disc 13, an electric push rod 15 is fixedly connected on the outer side of the fixed ring 9 through a mounting seat, the telescopic front end of the electric push rod 15 is fixedly connected with the sliding rack 14 through a connecting plate, the telescopic amount of the electric push rod 15 is sequentially adjusted through an operator, so that the ventilating gaps between the front rotary ventilating disc 13 and the fixed ventilating disc 11 are sequentially reduced, the electric push rod 15 is electrically connected with the control panel 2, air after temperature reduction is uniformly distributed, and different air outlet air volumes of an air inlet pipeline 6 are avoided, the cooling effect of the server far away from the air cooling unit 5 is reduced.

As shown in fig. 7, including fixed shell 16 and baffle 17, fixed shell 16 communicates in the lower extreme of connecting shell 10, and fixed shell 16 is the frustum shape, and two front and back two parts of the inboard front and back respectively rigid couplings of fixed shell 16 have baffle 17, and two baffles 17 are symmetrical slope setting, and cold air enters into fixed shell 16 through connecting shell 10, and the slope baffle 17 that is equipped with in the fixed shell 16 is directed by the cooling air, so makes cold air form the wind cloth and moves down, and cold air distribution area is more even like this, then cold air moves down, and the cooling air is inhaled in the server by the radiator fan of server and cools down, disperses cold air through fixed shell 16 and baffle 17, has so improved the utilization ratio of cold air, has improved the cooling effect to the server simultaneously.

As shown in fig. 8, the air outlet mechanism comprises an air outlet pipeline 18, a collecting cover 19, a second exhaust fan 20 and a smoke monitor 21, the air outlet pipeline 18 is communicated with an air inlet of the air cooling unit 5, the air inlet pipeline 6 and the air outlet pipeline 18 are made of heat insulation materials, five circular through holes are formed in the lower side surface of the air outlet pipeline 18 at equal intervals, a collecting cover 19 for collecting hot air is communicated between the five circular through holes of the air outlet pipeline 18, the second exhaust fan 20 is arranged in the five circular through holes of the air outlet pipeline 18 through a connecting frame, the five second exhaust fans 20 are electrically connected with the control panel 2, the five second exhaust fans 20 are uniformly distributed, the hot air exhaust efficiency is improved, the lower side of the collecting cover 19 is fixedly connected with the five smoke monitors 21 at equal intervals through a connecting plate, the five smoke monitors 21 are electrically connected with the control panel 2, the collecting cover 19 is formed by connecting five quadrangular frustum shells, the inner side surface of the collecting cover 19 is smooth, the hot air cannot be diffused into the air chamber 1 before and after the hot air is quickly diffused into the air outlet chamber 1 through the second exhaust fan 20, and the hot air cannot be quickly diffused into the whole air chamber after the service 1.

The operating personnel adjusts electric putter 15 at first through operating control panel 2, electric putter 15's telescopic link passes through the connecting plate and drives sliding rack 14 and move forward, sliding rack 14 drives and rotates vent disc 13 rotation this moment, rotate vent disc 13 and fixed vent disc 11 and take place relative rotation, the fan-shaped through-hole of rotating vent disc 13 and fixed vent disc 11 can form the vent gap this moment, the flexible volume to electric putter 15 adjusts in proper order through operating personnel, so make from front to back two rotate vent disc 13 and fixed vent disc 11 between the vent gap reduce in proper order, start air cooling unit 5 and cool down the processing to the air through controlling the panel, then air cooling unit 5 will cool down the air and follow air inlet 6 and discharge to the front side, at this moment first exhaust fan 8 at uniform velocity rotates, the air after the cooling passes through the vent gap between rotating vent disc 13 and the fixed vent disc 11 through arc pipe 7, because air cooling unit 5 is located the rear end of air inlet 6 of air cooling unit 5 this moment, the air outlet of keeping away from air cooling unit 5 is less, like this through changing the vent gap between rotating disc 13 and the fixed vent disc 11, the even cooling effect of cooling down the air cooling unit has been avoided on the same cooling unit 5 to cool down the air cooling down the air outlet through changing the air cooling unit's that the air cooling device is not evenly distributed to the vent 6.

The cold air enters into the fixed shell 16 through the connecting shell 10, the inclined baffle 17 arranged in the fixed shell 16 guides the cooled air, so that the cold air forms air cloth to move downwards, the cold air distribution area is more uniform, then the cold air moves downwards and is sucked into the server by the cooling fan of the server to cool, the cold air is dispersed through the fixed shell 16 and the baffle 17, the utilization rate of the cold air is improved, and the cooling effect of the server is improved.

The cold air and the electric elements in the server are subjected to heat exchange, hot air is discharged from the rear side of the server, the server is cooled by heat exchange and discharging of the hot air in the server, the hot air moves upwards to enter the collecting cover 19, the collecting cover 19 is composed of five quadrangular frustum shells, so that the hot air is conveniently collected, the hot air is discharged into the air outlet pipeline 18 through the five second exhaust fans 20, the five second exhaust fans 20 are uniformly distributed, the discharging efficiency of the hot air is improved, then the hot air enters the air inlet of the air cooling unit 5 along the air outlet pipeline 18, the hot air is cooled by the air cooling unit 5 and then is discharged into the air inlet pipeline 6 again, so that the operation is reciprocally performed, when the smoke monitor 21 detects the existence of smoke, the server is proved to burn at the moment, then the smoke monitor 21 transmits signals to the control panel 2, the control panel 2 stops the device in time, all the servers can be automatically powered off, the burning of the flowing air server is avoided, and great economic loss is brought.

When the operation power of the servers in the part of the cabinet 3 is increased, the heat dissipation capacity of the servers is increased, the temperature monitor 4 adjacent to the upper side of the cabinet 3 with high operation rate of the servers detects the temperature increase of the area, the control panel 2 starts the electric push rod 15 adjacent to the upper side of the cabinet 3 with high operation rate of the servers, the electric push rod 15 drives the sliding rack 14 to move through the connecting plate, the sliding rack 14 drives the rotary ventilation disk 13 to rotate, so that the ventilation gap between the fixed ventilation disk 11 and the rotary ventilation disk 13 is increased, the rotation speed of the first exhaust fan 8 adjacent to the upper side of the cabinet 3 with high operation rate of the servers is increased, the cold air output of the upper side of the cabinet 3 with high operation rate of the servers is increased, the control panel 2 increases the cold air output of the upper side of the cabinet 3 with high operation rate of the servers, the heat generated by the rear side of the cabinet 3 with high operation rate of the servers is discharged into the air outlet pipeline 18, the circulation speed of hot air and cold air between the air inlet pipeline 6 and the air outlet pipeline 18 is increased, meanwhile, the control panel 2 increases the rotation speed of the first exhaust fan 8 adjacent to the upper side of the cabinet 3 with high operation rate of the servers, the cold air output of the machine set is increased, the high operation efficiency of the high operation speed is avoided, the high operation power of the machine set is not burnt down, and the high operation efficiency is avoided, and the high operation of the high operation power is not carried out, and the high operation time is not is timely cooled.

The hot air generated by the high-power running server in the cabinet 3 moves upwards and enters the collecting cover 19, at the moment, under the action of the collecting cover 19 formed by the five quadrangular tables, the hot air cannot be diffused back and forth at the lower part of the collecting cover 19, and the hot air is quickly discharged into the air outlet pipeline 18 through the second exhaust fan 20, so that the back and forth diffusion of the hot air is avoided, and the whole server room 1 cannot be quickly cooled.

When all servers in the cabinet 3 work normally, the temperature monitor 4 detects that the heat dissipation of each server cabinet is stable, the temperature monitor 4 transmits signals to the control panel 2, and the control panel 2 regulates and controls the air cooling unit 5, the first exhaust fan 8, the electric push rod 15 and the second exhaust fan 20 simultaneously, so that the air cooling unit 5, the first exhaust fan 8, the electric push rod 15 and the second exhaust fan 20 recover to an initial state to continue to work, and the servers in the server room 1 are cooled reciprocally.

Example 3

On the basis of embodiment 2, as shown in fig. 9, the server room further comprises vertical plates 22, wherein a plurality of vertical plates 22 are fixedly connected to the left and right inner sides of the server room 1 at equal intervals, two adjacent cabinets 3 are fixedly connected with the adjacent vertical plates 22, and the vertical plates 22 are T-shaped.

As shown in fig. 10, the air intake pipe 6 further comprises a fixed cover 23, wherein the fixed cover 23 is fixedly connected to the upper side surface of the air intake pipe 6, the fixed cover 23 is arched, and the fixed cover 23 covers the arc-shaped pipes 7 at the left side and the right side of the air intake pipe 6.

When the servers on the partial cabinets 3 carry out high-power operation, the heat dissipation capacity of the rear side of the cabinet 3 with high operation rate of the servers is increased, the rear sides of the adjacent cabinets 3 are separated through the vertical plates 22 arranged between the two cabinets 3, the difference of the heat dissipation capacities of the servers on the two adjacent cabinets 3 is avoided, the normal heat dissipation of the servers in the server cabinets on the two sides is influenced, the hot air is fully converged to the lower side of the collecting cover 19, the fixed cover 23 is arranged, the direct contact of the hot air and the cold air is avoided, the heat exchange is carried out between the hot air and the cold air, and the air cooling unit 5 continuously runs under high load, so that the energy waste is caused.

Example 4

On the basis of embodiment 3, in the normal operation process of cabinet 3, when indoor temperature is lower than outdoor temperature, air in server room 1 enters into air outlet pipe 18 and then passes through air cooling unit 5 to cool, then enter into inside server room 1 through air inlet pipe 6 again, realize the inside air circulation of server room 1, when outdoor temperature is lower than the inside temperature of server room 1, solenoid valve on the communication pipeline with the external world in control panel 2 control air cooling unit 5, air cooling unit 5 is direct with outdoor cold air discharge to server room 1 along air inlet pipe 6 to cool down to the server on the cabinet 3, utilize the refrigeration mode of air cooling unit 5 constantly to switch, the consumption of air cooling unit 5 energy has been reduced, the practicality of this device has been improved.

Example 5

On the basis of embodiment 4, if the smoke generated by the firing of one of the cabinets 3 in the server room 1 is detected by the smoke monitor 21 on the upper part of the cabinet, the control panel 2 is powered off for all the servers, the control panel 2 starts the electric push rod 15 at other positions, so that the rotary ventilating disk 13 at other positions is matched with the fixed ventilating disk 11, the control panel closes all the second exhaust fans 20, the control panel 2 starts the electromagnetic valve on the carbon dioxide gas storage bottle in the air cooling unit 5, so that the carbon dioxide gas is discharged along the air outlet pipeline 18, the discharged carbon dioxide gas is discharged from the fixed shell 16 above the firing cabinet 3, the servers on the firing cabinet 3 are timely extinguished, the targeted fire extinguishing for the firing cabinet 3 is realized, unnecessary loss is avoided because the carbon dioxide gas spreads around the fire cabinet 3 in time, and after the fire extinguishing is finished, operators timely supplement the carbon dioxide gas storage bottle to the air cooling unit 5, and the next use is convenient.

Example 6

On the basis of embodiment 1, as shown in fig. 11 and 12, the server room further comprises a uniform air inlet assembly, the uniform air inlet assembly is arranged in the server room 1 and used for cooling servers at different levels up and down, the uniform air inlet assembly comprises two slide ways 24, two sliding plates 25 and grid plates 26, the two slide ways 24 are respectively connected to the left side and the right side of the bottom in the server room 1 by bolts, the two slide ways 24 are positioned on the inner sides of two rows of cabinets 3, the two sliding plates 25 are respectively connected to the two slide ways 24 in a sliding manner, the sliding plates 25 are only required to be pushed along the slide ways 24, after the server is maintained or replaced, the sliding plates 25 are reset, the two adjacent sliding plates 25 slide in a staggered manner, a plurality of strip through holes are formed in the four sliding plates 25 at equal intervals, two grid plates 26 used for changing the air inlet amount are respectively connected in each through rotation of a rotation shaft, and damping exists between the rotation shaft of each grid plate 26 and the sliding plate 25.

The operator rotates grid plates 26 on four sliding plates 25, the sizes of the strip through holes on the sliding plates 25 are changed by two adjacent grid plates 26, so that the strip through holes of the four sliding plates 25 are sequentially increased from top to bottom, after cold air is discharged from the fixed shell 16, the cold air passes through the strip through holes of the four sliding plates 25, all servers on the cabinet 3 can be cooled by the cold air, the phenomenon that the cold air flows downwards in the process of sucking the cooling fan inside the server positioned on the upper side is avoided, the shortage of the cold air sucked by the lower server is caused, the fact that the quantity of the cold air sucked by the servers on the upper side and the lower side is the same is realized, the cooling effect on the servers on the lower side is improved, when the operator maintains or replaces the servers on the cabinet 3, only the sliding plates 25 are required to be pushed along the slide rails 24, and after the servers are maintained or replaced, the sliding plates 25 are reset, and the practicability is improved.

The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention.

Claims (8)

1. The temperature regulation control system of the high-power server room is characterized by comprising a control panel (2), temperature monitors (4), an air inlet mechanism and an air outlet mechanism, wherein the control panel (2) is arranged at the left part of the front side surface of the server room (1), the control panel (2) is connected with a remote control terminal through the Internet of things, a plurality of cabinets (3) are respectively arranged at the left part and the right part in the server room (1) at equal intervals, the high-power servers are respectively arranged on all cabinets (3), a plurality of temperature monitors (4) are respectively arranged at the upper parts of the left side wall and the right side wall of the server room (1) at equal intervals, the temperature monitors (4) are electrically connected with the control panel (2), the air inlet mechanism for cooling the server is arranged above the server room (1), the air inlet mechanism is electrically connected with the control panel (2), and the air inlet mechanism is electrically connected with the control panel (2) and is in circulation communication with the air outlet mechanism; the air inlet mechanism comprises an air cooling unit (5), an air inlet pipeline (6) and an arc-shaped pipe (7), a first exhaust fan (8) and an air inlet adjusting component, the air cooling unit (5) is arranged on the rear side surface of a server room (1), the air cooling unit (5) is electrically connected with a control panel (2), the air inlet pipeline (6) passes through the upper part of the rear side of the server room (1), the front end of the air inlet pipeline (6) is fixedly connected with the inner upper part of the server room (1), the rear end of the air inlet pipeline (6) is communicated with the air outlet of the air cooling unit (5), a pipeline communicated with the outside is arranged in the air cooling unit (5), the pipeline communicated with the outside is communicated with the air inlet pipeline (6), an electromagnetic valve is arranged on the pipeline communicated with the outside, the electromagnetic valve arranged on the pipeline communicated with the outside, a carbon dioxide gas storage bottle is arranged in the air cooling unit (5), the air outlet of the carbon dioxide gas storage bottle is communicated with the pipeline (6), the air outlet of the carbon dioxide gas storage bottle is communicated with the air inlet pipeline (6), the air inlet pipeline (7) is connected with the air inlet pipeline (7) in a plurality of the arc-shaped pipes, the air storage bottle is communicated with the air cooling pipeline (7) in the arc-shaped pipe is communicated with the air cooling pipeline (7), the arc-shaped pipes (7) are positioned on the upper sides of the adjacent cabinets (3), the inner lower part of each arc-shaped pipe (7) is rotationally connected with a first exhaust fan (8) through a fixing frame, the first exhaust fan (8) is electrically connected with the control panel (2), and the lower end of each arc-shaped pipe (7) is provided with an air inlet adjusting component;

the air inlet adjusting component comprises a fixed ring (9), a connecting shell (10), a fixed ventilation disk (11), a rotating ring (12), a rotating ventilation disk (13), a sliding rack (14) and an electric push rod (15), wherein the lower end of an arc-shaped pipe (7) is fixedly connected with the fixed ring (9), the connecting shell (10) is fixedly connected with the lower end of the fixed ring (9), the middle part of the connecting shell (10) is fixedly connected with the fixed ventilation disk (11), six fan-shaped through holes for ventilation are circumferentially and equally arranged on the fixed ventilation disk (11), the inner ring surface of the fixed ring (9) is rotationally connected with the rotating ring (12), the lower end of the rotating ring (12) is fixedly connected with the rotating ventilation disk (13), six fan-shaped through holes for ventilation are circumferentially and equally spaced on the rotating ventilation disk (13), the six fan-shaped through holes on the fixed ventilation disk (11) are matched with the six fan-shaped through holes of the rotating ventilation disk (13) for changing the air inlet quantity, teeth are arranged on the outer side of the outer ring surface of the fixed ring (9), the fixed ring (9) is provided with the sliding rack (14) which is engaged with the sliding rack (15) of the rotating ventilation disk (13), the telescopic front end of the electric push rod (15) is fixedly connected with the sliding rack (14) through a connecting plate, and the electric push rod (15) is electrically connected with the control panel (2).

2. The high-power server room temperature regulation control system according to claim 1, wherein the air outlet mechanism comprises an air outlet pipeline (18), a collecting cover (19), a second exhaust fan (20) and smoke monitors (21), the air outlet pipeline (18) is communicated with an air inlet of the air cooling unit (5), five circular through holes are formed in the lower side surface of the air outlet pipeline (18) at equal intervals, the collecting cover (19) for collecting hot air is communicated between the five circular through holes of the air outlet pipeline (18), the second exhaust fans (20) are arranged in the five circular through holes of the air outlet pipeline (18) through connecting frames, the five second exhaust fans (20) are all electrically connected with the control panel (2), the five smoke monitors (21) are fixedly connected to the lower side of the collecting cover (19) at equal intervals through connecting plates, the five smoke monitors (21) are respectively located on the lower sides of the five second exhaust fans (20), and the five smoke monitors (21) are all electrically connected with the control panel (2).

3. The temperature regulation control system of a high-power server room according to claim 2, wherein the collecting cover (19) is formed by connecting five quadrangular pyramid shaped shells, and the inner side surface of the collecting cover (19) is arranged smoothly.

4. The temperature regulation control system of a high-power server room according to claim 1 or 2, wherein the air inlet pipeline (6) and the air outlet pipeline (18) are made of heat insulation materials.

5. The temperature regulation control system of the high-power server room according to claim 1, further comprising a fixing shell (16) and a baffle plate (17), wherein the fixing shell (16) is communicated with the lower end of the connecting shell (10), the fixing shell (16) is in a frustum shape, the front side and the rear side of the inner side of the fixing shell (16) are fixedly connected with the baffle plate (17) respectively, and the two baffle plates (17) are symmetrically and obliquely arranged.

6. The high-power server room temperature regulation control system according to claim 1, further comprising vertical plates (22), wherein a plurality of vertical plates (22) are fixedly connected to the left and right inner sides of the server room (1) at equal intervals, two adjacent cabinets (3) are fixedly connected to the adjacent vertical plates (22), and the vertical plates (22) are T-shaped.

7. The temperature regulation control system of a high-power server room according to claim 1, further comprising a fixed cover (23), wherein the fixed cover (23) is fixedly connected to the upper side surface of the air inlet pipeline (6), the fixed cover (23) is arched, and the fixed cover (23) covers the arc-shaped pipes (7) on the left side and the right side of the air inlet pipeline (6).

8. The high-power server room temperature regulation control system according to claim 1, further comprising a uniform air inlet assembly, wherein the uniform air inlet assembly is arranged in the server room (1), the uniform air inlet assembly is used for cooling servers with different levels up and down, the uniform air inlet assembly comprises two slide ways (24), sliding plates (25) and grid plates (26), the slide ways (24) are totally two, the two slide ways (24) are fixedly connected to the left side and the right side of the inner bottom of the server room (1) respectively, the two slide ways (24) are positioned on the inner sides of two rows of cabinets (3), the two slide ways (24) are respectively connected with the two sliding plates (25) in a sliding manner, a plurality of strip through holes are formed in the four sliding plates (25) at equal intervals, the two grid plates (26) are connected in each strip through rotation shafts in a rotating manner, and damping exists between the rotation shafts of the grid plates (26) and the sliding plates (25).

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