CN117835677B

CN117835677B - Heat radiation system of server equipment

Info

Publication number: CN117835677B
Application number: CN202410240186.1A
Authority: CN
Inventors: 熊小文; 皱香宁
Original assignee: Shanxi Zhongyun Zhigu Data Technology Co ltd
Current assignee: Shanxi Zhongyun Zhigu Data Technology Co ltd
Priority date: 2024-03-04
Filing date: 2024-03-04
Publication date: 2024-05-10
Anticipated expiration: 2044-03-04
Also published as: CN117835677A

Abstract

A heat radiation system of server equipment belongs to the technical field of equipment heat radiation, and aims to solve the problems that impurities such as dust in a machine room easily enter the equipment through a heat radiation groove to affect precise components in the equipment, the heat radiation treatment of the inner room of the machine room needs to adjust the wind direction and the wind speed of a fan and an air conditioning system, and the wind flow easily causes interference to other equipment and personnel; according to the invention, the heat dissipation in the equipment is completed through the wind flow paths from outside to inside and from inside to outside, the wind flow paths are unidirectionally and non-coincident, so that cold and heat collection can be avoided, cold wind flow and hot wind flow can not interfere or cross each other, the heat flow is ensured to be effectively brought out, and the heat in the equipment is prevented from being detained; according to the invention, the closing of the channel in the path and the opening of the air guiding port are regulated by the translation of the L-shaped baffle according to the real-time heat distribution and the internal pressure inside the equipment, so that the wind flow regulation and the wind flow path optimization are completed.

Description

Heat radiation system of server equipment

Technical Field

The invention relates to the technical field of equipment heat dissipation, in particular to a heat dissipation system of server equipment.

Background

The prior server equipment adopts a natural heat dissipation mode, mainly carries out heat dissipation through a shell heat dissipation hole of the server, the heat dissipation efficiency of the mode is lower, the mode is gradually eliminated, most of the server equipment adopts a mechanical fan heat dissipation mode at present, heat in the server is blown out through a plurality of fans arranged in the server, and therefore heat dissipation is achieved. The method comprises the following steps: and acquiring temperature information of the server. Wherein the temperature information includes heat distribution information; determining a region to be radiated according to the heat distribution information; and controlling the execution device to execute heat dissipation operation on the area to be heat-dissipated. The heat dissipation operation is used for controlling the fan module in the executing device to move to a position corresponding to the area to be heat-dissipated.

The equipment is equipped with more equipment in the computer lab, when equipment is running simultaneously, can produce a large amount of heat, in order to promote the heat circulation, the heat dissipation groove isotructure can be set up on the surface of server equipment, and the inside of equipment can be set up radiating component in step, after the operation, the outside of equipment can be discharged to the heat, nevertheless the heat can condense inside the computer lab, prior art can realize dispelling the heat through handling indoor heat, further consider, in the heat treatment process, the server equipment can exist a heat exchange process through the heat dissipation groove, the inside impurity such as dust of computer lab easily gets into inside the equipment through the heat dissipation groove, influence the inside precision subassembly of equipment, in addition, the heat dissipation treatment of computer lab inner room needs to adjust fan and air conditioning system's wind direction and wind speed, its windage easily causes the interference to other equipment and personnel.

Disclosure of Invention

The invention aims to provide a heat radiation system of server equipment, which solves the problems that in the prior art, dust and other impurities in a machine room easily enter the equipment through a heat radiation groove to affect precise components in the equipment, the heat radiation treatment of the inner room of the machine room needs to adjust the wind direction and the wind speed of a fan and an air conditioning system, and the wind flow easily causes interference to other equipment and personnel.

In order to achieve the above purpose, the present invention provides the following technical solutions: the heat dissipation system of the server equipment comprises a heat dissipation system and equipment hosts which are arranged and distributed in an inner room of a machine room, wherein the rear sides of the equipment hosts are provided with heat dissipation guide walls which are arranged and distributed in the inner room of the machine room, the arranged and distributed equipment hosts are positioned at two sides of the heat dissipation guide walls, and the heat dissipation system comprises a fan layout module used for laying out fan positions on the inner sides of the heat dissipation guide walls, a heat dissipation channel matching module used for correspondingly matching heat dissipation channels, a positive pressure balancing module used for balancing internal pressure of the equipment, a wind flow management module used for managing wind direction and wind speed of wind flow, a heat distribution monitoring module used for monitoring heat at all positions in the equipment, an intelligent control module used for intelligently controlling internal elements of the equipment and a heat recovery module used for recovering subsequent heat;

The fan layout module comprises a fan position determining unit for determining the number of fans and the positions of the fans, a power supply connection and control unit for supplying power to the fans, the heat dissipation channel matching module comprises a wind flow circulation unit for circulating wind flow and a heat dissipation area processing unit for processing a heat dissipation area of the inner chamber, and a heat flow discharge unit for processing heat flow discharge, the positive pressure balancing module comprises a barometric sensor layout unit for laying out an internal barometric sensor of the device, a fan rotating speed control unit for controlling the wind speed of the fans, and an airflow distribution optimizing unit for adjusting the airflow distribution in real time, the wind flow management module comprises a diversion control unit for controlling the wind flow induced position and a wind flow adjusting unit for adjusting the wind flow area, the heat distribution monitoring module comprises a temperature sensor layout unit for laying out an internal temperature sensor of the device, and a threshold alarm unit for alarming over temperature, and the heat recovery module comprises a recovery path layout unit for laying out a heat recovery path and a heat utilization unit for processing recovered heat.

Further, the heat dissipation guide wall is including being located the sound insulation wall body of equipment host computer rear side and setting up at the inside installation inner chamber of sound insulation wall body, installs the interior baffle of installation at the central authorities of installation inner chamber, and the matching cover piece of the both sides surface evenly arranged distribution of sound insulation wall body installs radiator fan in the surface embedding of baffle, radiator fan evenly arranged distributes in the surface of baffle in the installation, and radiator fan and matching cover piece are crisscross mutually.

Further, the equipment host comprises an equipment inner machine and an outer shell arranged on the outer side of the equipment inner machine, a heat dissipation open groove is formed in one side surface of the outer shell, an air flow guide plate is arranged on the inner side of the heat dissipation open groove, and a path inner channel is arranged in the outer shell.

Further, the flow guide component is installed at the middle end of the passageway in the route, and the both ends of outer casing are provided with the extension turning, and the heat extraction open groove has been seted up to the one side surface of extension turning, and the inside in heat extraction open groove matches and installs the heating panel, and heating panel and wind flow guide are located same one side.

Further, the upper surface mounting of sound insulation wall body has the trunk line, and the lower extreme distribution of trunk line is provided with the branch pipe, and the head end of trunk line is linked together with the branch pipe of co-located, and the terminal external pipeline of trunk line.

Further, the outside surface of matching cover piece has seted up the matching cover groove, and the branch pipe is linked together with the inside of matching cover groove, and the outside surface of matching cover groove is provided with the shape handle strip that returns, returns shape handle strip and the outer end phase-match of heating panel, is provided with the uncovered groove of air-out between two sets of matching cover pieces.

Further, the flow guiding component comprises an air guiding opening formed in the middle end of the inner side surface of the outer shell and L-shaped baffles mounted on the inner side of the air guiding opening, two groups of L-shaped baffles are arranged, the positions of the two groups of L-shaped baffles are opposite, and the L-shaped baffles are matched with the inner diameter of the channel in the path.

Further, pushing flat toothed plates are arranged on one side surfaces of the two groups of L-shaped baffles, the positions of the two groups of pushing flat toothed plates are staggered, butt-joint toothed columns are arranged at the lower ends of the two groups of pushing flat toothed plates, the butt-joint toothed columns are provided with two groups, and the positions of the two groups of butt-joint toothed columns are consistent with the positions of the two groups of pushing flat toothed plates.

Further, the lower surface of two groups of pushing flat tooth plates is provided with a flat tooth surface, pushing Ping Chiban is connected with the butt joint tooth column in a meshed mode through the flat tooth surface, driving shaft rods are installed in the centers of the two groups of butt joint tooth columns, and one ends of the two groups of driving shaft rods are externally connected with the output end of a driving motor.

Further, the inner side surface of the L-shaped baffle is provided with a butt joint strip, and the two inner sides of the air guide opening are provided with butt joint long grooves which are matched with the butt joint strip.

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

1. according to the heat radiation system of the server equipment, the heat radiation of the inside of the equipment is completed through the air flow paths from outside to inside and from inside to outside, the air flow paths are unidirectionally and discontinuously arranged, cold and hot collection can be avoided, cold air flows and hot air flows can not mutually interfere or cross, the heat flow is ensured to be effectively carried out, the heat retention in the equipment is prevented, on one hand, a heat radiation groove on the surface of the server equipment can be abandoned, dust and other impurities are prevented from entering, the heat radiation fan is a bidirectional fan, the server equipment on two sides can be radiated, the heat radiation efficiency is high, the air flow distribution is perfect, the air flow can be directly contacted with heating elements in the equipment, on the other hand, the heat radiation fan is positioned in the heat radiation guide wall, noise generated by the heat radiation fan can be effectively intercepted, the air flow circulates in the equipment, the air flow and the noise generated by the heat radiation are all completed in the inside, and the interference to other equipment and personnel can be avoided.

2. According to the heat radiation system of the server equipment, according to the values sensed by the air pressure sensor and the temperature sensor at each position in the equipment, when the values are not in the threshold range, the positive pressure balance module and the wind flow management module are used for management, the driving shaft lever is started, the corresponding butt joint toothed column is in a rotating state, the butt joint toothed plate is in meshed connection with the butt joint toothed column, the butt joint toothed plate is shifted to one side to slide the L-shaped baffle plate to one side, the inner diameter of a channel in the path can be closed by the L-shaped baffle plate through butt joint of the butt joint strip and the butt joint long groove, and further according to the real-time heat distribution and the internal pressure condition in the equipment, the closing of the channel in the path and the opening of the air guide opening are regulated through the translation of the L-shaped baffle plate, so that wind flow regulation and wind flow path optimization are completed.

Drawings

FIG. 1 is a block diagram of a heat dissipation system of the present invention;

FIG. 2 is a schematic view of the wind flow of the server apparatus of the present invention;

FIG. 3 is a schematic diagram of the distribution of the inner room of the machine room according to the present invention;

FIG. 4 is a schematic diagram of a host computer of the apparatus according to the present invention;

FIG. 5 is a schematic view of a heat dissipation and guide wall according to the present invention;

FIG. 6 is a schematic view of a sound insulation wall structure according to the present invention;

FIG. 7 is a schematic diagram of a heat dissipating fan according to the present invention;

Fig. 8 is a schematic plan view of a flow guiding assembly according to the present invention.

In the figure: 1. a heat dissipation system; 11. a fan layout module; 111. a fan position determining unit; 112. a power connection and control unit; 12. a heat dissipation channel matching module; 121. a wind flow circulation unit; 122. a heat dissipation area processing unit; 123. a heat flow discharge unit; 13. a positive pressure balancing module; 131. an air pressure sensor layout unit; 132. a fan rotation speed control unit; 133. an airflow distribution optimizing unit; 14. a wind flow management module; 141. a diversion control unit; 142. a wind flow adjusting unit; 15. a heat distribution monitoring module; 151. a temperature sensor layout unit; 152. a threshold value alarm unit; 16. an intelligent control module; 17. a heat recovery module; 171. a recovery path layout unit; 172. a heat energy utilization unit; 2. a heat dissipation guide wall; 21. a sound insulation wall; 211. a main pipe; 212. a branch pipe; 22. installing an inner chamber; 23. installing an inner partition plate; 24. matching the cover piece; 241. matching the cover groove; 242. a loop-shaped handle bar; 243. an air outlet open groove; 25. a heat radiation fan; 3. a device host; 31. an internal machine of the equipment; 32. an outer case; 33. a heat dissipation open groove; 34. a wind flow guide plate; 35. an intra-path channel; 36. a flow guiding assembly; 361. an air inlet; 362. an L-shaped baffle; 363. pushing the flat toothed plate; 364. butting tooth columns; 365. a drive shaft; 366. butt joint strips; 367. a butt joint long groove; 37. extending the corner; 38. a heat rejection open tank; 39. and a heat dissipation plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, in order to solve the technical problem that impurities such as dust in a machine room easily enter equipment through a heat dissipation groove to affect precise components in the equipment, the following preferred technical scheme is provided:

The utility model provides a cooling system of server equipment, including cooling system 1 and be located the equipment host computer 3 of computer lab inner chamber range distribution, the heat dissipation guide wall 2 is installed to the rear side of equipment host computer 3, the heat dissipation guide wall 2 is installed in the computer lab inner chamber, equipment host computer 3 of range distribution is located the both sides of heat dissipation guide wall 2, cooling system 1 includes the fan overall arrangement module 11 that is used for at the inboard overall arrangement fan position of heat dissipation guide wall 2, be used for corresponding the heat dissipation passageway matching module 12 who matches the heat dissipation passageway, be used for balancing the malleation balancing module 13 of equipment internal pressure, be used for managing the wind direction and the wind speed of wind flow management module 14, be used for the heat distribution monitoring module 15 of each position heat monitoring in the equipment and be used for intelligent control equipment internal element's intelligent control module 16, and be used for the heat recovery module 17 to follow-up heat recovery.

The fan layout module 11 includes a fan position determining unit 111 for determining the number of fans and fan positions, and a power connection and control unit 112 for powering the fans, the heat dissipation path matching module 12 includes a wind flow circulating unit 121 for circulating wind flows and a heat dissipation area processing unit 122 for processing heat dissipation areas of the inner room, and a heat flow discharging unit 123 for processing heat flow discharge, the positive pressure balancing module 13 includes a barometric sensor layout unit 131 for laying out barometric sensors inside the apparatus, and a fan rotation speed control unit 132 for controlling the fan speed, and an airflow distribution optimizing unit 133 for adjusting the airflow distribution in real time, the wind flow management module 14 includes a flow guiding control unit 141 for controlling the wind flow guiding position and a wind flow adjusting unit 142 for adjusting the wind flow area, the heat distribution monitoring module 15 includes a temperature sensor layout unit 151 for laying out temperature sensors inside the apparatus and a threshold value alarm unit 152 for alarming an over temperature, the heat recovery module 17 includes a recovery path layout unit 171 for laying out a heat recovery path and a heat energy utilization unit 172 for processing recovered heat, the position of each fan is determined by the fan position determining unit 111 according to the layout and heat dissipation requirements of the apparatus main body, the power supply is supplied to each fan by the power connection and control unit 112, the rotation speed of the fan is adjusted according to the instructions of the control module, the wind current circulates inside the apparatus by the wind current circulation unit 121, the heat is taken away, the layout of the heat dissipation area is optimized by the heat dissipation area processing unit 122, the wind current is ensured to be able to effectively conduct out the heat, the heat current is conducted out of the apparatus by the heat current discharging unit 123, the heat accumulation inside the apparatus is avoided, the air pressure sensor is distributed in the equipment through the air pressure sensor distribution unit 131, the air pressure change is monitored, the rotating speed of the fan is adjusted according to the data of the air pressure sensor through the fan rotating speed control unit 132, the air pressure balance in the equipment is kept, the air flow distribution is monitored in real time through the air flow distribution optimizing unit 133, necessary adjustment is carried out, uniform distribution of air flow is ensured, the direction and the inlet position of the air flow are controlled through the diversion control unit 141, the air flow can be ensured to effectively cover the main heating area of the equipment, the temperature sensor is distributed at a key position through the air flow adjusting unit 142 according to the need, the temperature is monitored in real time through the temperature sensor distribution unit 151, when the monitored temperature exceeds a preset threshold value, an alarm is sent through the threshold value alarm unit 152, a reasonable heat recovery path is designed through the recovery path distribution unit 171, the recovered heat can be ensured to be effectively utilized, the heat utilization unit 172 is used for other purposes or systems needing heating, the intelligent control module 16 is used as a core control module, and the work of the modules is coordinated. And the operation parameters of each module are intelligently adjusted according to the operation state, temperature, air pressure and other parameters of the equipment, so that the optimal performance of the heat dissipation system is ensured.

The heat dissipation guide wall 2 is including being located the sound insulation wall body 21 of the equipment host computer 3 rear side and setting up at the inside installation inner chamber 22 of sound insulation wall body 21, install the interior baffle 23 of installation in the central authorities of installation inner chamber 22, the matching cover piece 24 of the both sides surface evenly distributed of sound insulation wall body 21, the surface embedding of installing interior baffle 23 installs radiator fan 25, radiator fan 25 evenly distributed is at the surface of installing interior baffle 23, and radiator fan 25 and matching cover piece 24 are crisscross, equipment host computer 3 includes the interior machine 31 of equipment and sets up the outer casing 32 in the interior machine 31 outside, the heat dissipation open slot 33 has been seted up to one side surface of outer casing 32, the inboard of heat dissipation open slot 33 is provided with wind guide plate 34, the inside of outer casing 32 is provided with route internal channel 35.

The guiding component 36 is installed to the middle-end of path inner channel 35, the both ends of outer casing 32 are provided with and extend the turning 37, the heat extraction open slot 38 has been seted up to the one side surface that extends the turning 37, the inside in heat extraction open slot 38 matches and installs heating panel 39, heating panel 39 and wind flow guide 34 are located same one side, the upper surface mounting of sound insulation wall 21 has the trunk line 211, the lower extreme distribution of trunk line 211 is provided with branch pipe 212, the head end of trunk line 211 is linked together with branch pipe 212 of co-located, the terminal external pipeline of trunk line 211, the outside surface of matching cover piece 24 has been seted up and has been matchd cover slot 241, branch pipe 212 is linked together with the inside of matching cover slot 241, the outside surface of matching cover slot 241 is provided with the shape handle strip 242, the shape handle strip 242 of shape matches with the outer end of heating panel 39, be provided with out wind open slot 243 between two sets of matching cover pieces 24.

Specifically, according to the values sensed by the air pressure sensor and the temperature sensor at each position inside the device, when the values are not within the threshold value range, the positive pressure balance module 13 and the wind flow management module 14 are used for management, the driving shaft lever 365 is started, the corresponding butt joint tooth column 364 is in a rotating state, the pushing flat tooth plate 363 and the butt joint tooth column 364 are meshed and connected, the pushing flat tooth plate 363 translates to one side, the L-shaped baffle 362 can slide to one side, the butt joint strip 366 and the butt joint long groove 367 are abutted, the L-shaped baffle 362 can be used for closing the inner diameter of the channel 35 in the path, and then according to the real-time heat distribution and the internal pressure condition inside the device, the closing of the channel 35 in the path and the opening size of the wind inlet 361 are adjusted through the translation of the L-shaped baffle 362, so that wind flow adjustment and wind flow path optimization are completed.

In order to solve the technical problems that the wind direction and the wind speed of a fan and an air conditioning system need to be regulated in the heat radiation treatment of the inner room of a machine room, and the wind flow is easy to cause interference to other equipment and personnel, the following preferable technical scheme is provided:

The diversion component 36 comprises an air guiding opening 361 formed in the inner side surface of the outer casing 32 and an L-shaped baffle 362 mounted on the inner side of the air guiding opening 361, wherein the L-shaped baffle 362 is provided with two groups of L-shaped baffles 362, the positions of the two groups of L-shaped baffles 362 are opposite, the L-shaped baffles 362 are matched with the inner diameter of the channel 35 in the path, pushing flat toothed plates 363 are mounted on one side surface of the two groups of L-shaped baffles 362, the positions of the two groups of pushing flat toothed plates 363 are staggered, butt joint toothed columns 364 are arranged at the lower ends of the two groups of pushing flat toothed plates 363, the butt joint toothed columns 364 are provided with two groups of butt joint long grooves 367, the positions of the two groups of butt joint toothed columns 364 are consistent with the positions of the two groups of pushing flat toothed plates 363, pushing Ping Chiban are meshed with the butt joint toothed columns 364 through the flat toothed surfaces, driving shafts 365 are mounted in the center of the two groups of the butt joint toothed columns 364, one ends of the two groups of driving shafts 365 are externally connected with the output ends of the driving motor, butt joint strips 366 are mounted on the inner side surfaces of the L-shaped baffles 362, butt joint long grooves 367 are formed in the two inner sides of the air guiding opening, the butt joint long grooves 367 are matched with the butt joint strips.

Specifically, according to the number and arrangement positions of the server devices in the machine room, the devices are placed at the corresponding positions of the heat dissipation guide wall 2, wherein the air outlet open groove 243 is butted with the air flow guide plate 34, the heat dissipation plate 39 is clamped with the inner sides of the matching cover grooves 241, the connecting positions are jointed by using the square handle bars 242, so that the server devices are correspondingly placed at the two sides of the heat dissipation guide wall 2, the heat dissipation fan 25 is started, the air flow enters the inner sides of the outer shell 32 along the air outlet open groove 243 and the air flow guide plate 34, the air flow is directly blown to the device inner machine 31, the size of the air inlet 361 is far smaller than that of the heat dissipation open groove 33, the air flow takes away the heat of the device and flows to the air inlet 361, the air flow flows along the left direction and the right direction, the air flow enters the inner sides of the matching cover grooves 241 along the heat dissipation open groove 38 and the heat dissipation plate 39, a group of branch pipes 212 are correspondingly arranged on a group of matching cover pieces 24, the air flow in the matching cover groove 241 is collected into the main pipeline 211 along the branch pipeline 212 and is discharged to the outside along the main pipeline 211 to recycle the hot air flow, the air flow is in the server equipment, the heat dissipation in the equipment is completed through the air flow paths from outside to inside and from inside to outside, the air flow paths are unidirectionally and non-coincident, the cold and heat collection can be avoided, the cold air flow and the hot air flow can not interfere or cross each other, the heat flow is ensured to be effectively carried out, the heat retention in the equipment is prevented, on one hand, the heat dissipation groove on the surface of the server equipment can be abandoned, the entry of impurities such as dust is avoided, the heat dissipation fan 25 is a bidirectional fan, the heat dissipation can be performed on the server equipment on two sides, the heat dissipation efficiency is higher, the air flow distribution is more perfect, the air flow can be directly contacted with the heating element in the equipment, on the other hand, the heat dissipation fan is positioned on the inner side of the heat dissipation guide wall 2, the noise that can effectively intercept radiator fan produced, and the wind flow circulates in equipment inside, and the wind flow and the noise that the heat dissipation produced are all accomplished inside, can avoid causing the interference to other equipment and personnel.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should be covered by the protection scope of the present invention by making equivalents and modifications to the technical solution and the inventive concept thereof.

Claims

1. The utility model provides a cooling system of server equipment, includes cooling system (1) and is located equipment host computer (3) of computer lab inner chamber range distribution, its characterized in that: the back side of the equipment host (3) is provided with a heat dissipation guide wall (2), the heat dissipation guide wall (2) is arranged in an inner room of a machine room, the equipment host (3) which is distributed in an arrangement way is positioned at two sides of the heat dissipation guide wall (2), the heat dissipation system (1) comprises a fan layout module (11) for laying out fan positions at the inner side of the heat dissipation guide wall (2), a heat dissipation channel matching module (12) for correspondingly matching heat dissipation channels, a positive pressure balancing module (13) for balancing internal pressure of equipment, a wind flow management module (14) for managing wind direction and wind speed of wind flow, a heat distribution monitoring module (15) for monitoring heat at various positions in the equipment, an intelligent control module (16) for intelligently controlling internal elements of the equipment, and a heat recovery module (17) for recovering subsequent heat;

The fan layout module (11) comprises a fan position determining unit (111) for determining the number of fans and the positions of the fans, and a power supply connection and control unit (112) for supplying power to the fans, the heat dissipation channel matching module (12) comprises a wind flow circulation unit (121) for circulating wind flow and a heat dissipation area processing unit (122) for processing the heat dissipation area of the inner chamber, and a heat flow discharge unit (123) for processing heat flow discharge, the positive pressure balancing module (13) comprises a barometric sensor layout unit (131) for laying out barometric pressure sensors inside the equipment, a fan rotation speed control unit (132) for controlling the wind speed of the fans, and an airflow distribution optimizing unit (133) for adjusting the airflow distribution in real time, the airflow management module (14) comprises a diversion control unit (141) for controlling the wind flow diversion position, and a wind flow adjusting unit (142) for adjusting the wind flow area, the heat distribution monitoring module (15) comprises a temperature sensor layout unit (151) for laying out temperature sensors inside the equipment, and a threshold value alarm unit (152) for alarming over-temperature, and the heat recovery module (17) comprises a path layout unit (171) for laying out a heat recovery path and a heat recovery unit (172) for processing heat recovery unit (172);

The heat dissipation guide wall (2) comprises a sound insulation wall body (21) positioned at the rear side of the equipment host (3) and an installation inner chamber (22) arranged in the sound insulation wall body (21), an installation inner partition plate (23) is installed in the center of the installation inner chamber (22), matching cover pieces (24) uniformly distributed on the two side surfaces of the sound insulation wall body (21), heat dissipation fans (25) are embedded in the surfaces of the installation inner partition plate (23), the heat dissipation fans (25) are uniformly distributed on the surfaces of the installation inner partition plate (23), and the heat dissipation fans (25) are staggered with the matching cover pieces (24);

The equipment host (3) comprises an equipment inner machine (31) and an outer casing (32) arranged outside the equipment inner machine (31), a heat dissipation open groove (33) is formed in one side surface of the outer casing (32), an air flow guide plate (34) is arranged at the inner side of the heat dissipation open groove (33), and a path inner channel (35) is arranged in the outer casing (32);

The middle end of the path inner channel (35) is provided with a flow guide assembly (36), two ends of the outer shell (32) are provided with extension corners (37), one side surface of each extension corner (37) is provided with a heat extraction opening groove (38), the inside of each heat extraction opening groove (38) is provided with a heat dissipation plate (39) in a matching way, and the heat dissipation plates (39) and the air flow guide plates (34) are positioned on the same side;

The outside surface of matching cover piece (24) has seted up and has been matchd cover groove (241), branch pipe (212) are linked together with the inside of matching cover groove (241), the outside surface of matching cover groove (241) is provided with returns shape handle strip (242), the outer end phase-match of shape handle strip (242) and heating panel (39), be provided with out-air uncovered groove (243) between two sets of matching cover pieces (24), out-air uncovered groove (243) are in butt joint with air current baffle (34), heating panel (39) are in engagement with the inboard of matching cover groove (241), utilize returning shape handle strip (242) to laminate the joining position.

2. A heat dissipation system for a server device as recited in claim 1, wherein: the upper surface mounting of sound insulation wall body (21) has trunk line (211), and the lower extreme distribution of trunk line (211) is provided with branch pipeline (212), and the head end of trunk line (211) is linked together with branch pipeline (212) of co-located, and the external pipeline in terminal of trunk line (211).

3. A heat dissipation system for a server device as recited in claim 1, wherein: the diversion assembly (36) comprises an air inlet (361) formed in the middle end of the inner side surface of the outer casing (32) and L-shaped baffles (362) mounted on the inner side of the air inlet (361), two groups of the L-shaped baffles (362) are arranged, the positions of the two groups of the L-shaped baffles (362) are opposite, and the L-shaped baffles (362) are matched with the inner diameter of the channel (35) in the path.

4. A heat dissipation system for a server device as recited in claim 3, wherein: the pushing flat toothed plates (363) are arranged on one side surface of each of the two groups of L-shaped baffles (362), the pushing Ping Chiban (363) are staggered, the lower ends of the pushing Ping Chiban (363) are provided with the butt-joint toothed columns (364), the butt-joint toothed columns (364) are provided with two groups, and the positions of the two groups of butt-joint toothed columns (364) are consistent with those of the pushing Ping Chiban (363).

5. A heat dissipation system for a server device as recited in claim 4, wherein: the lower surfaces of the two groups of pushing Ping Chiban (363) are provided with flat tooth surfaces, the pushing Ping Chiban (363) is connected with the butt joint tooth column (364) in a meshed mode through the flat tooth surfaces, the centers of the two groups of butt joint tooth columns (364) are provided with driving shaft rods (365), and one ends of the two groups of driving shaft rods (365) are externally connected with the output end of a driving motor.

6. A heat dissipation system for a server device as recited in claim 5, wherein: the inner side surface of the L-shaped baffle plate (362) is provided with a butt joint strip (366), the two inner sides of the air inlet (361) are provided with butt joint long grooves (367), and the butt joint long grooves (367) are matched with the butt joint strip (366).