CN208737400U - The server heat sink excavated for big data - Google Patents

Abstract

The utility model discloses the server heat sinks excavated for big data, including radiator ontology, the two sides of heat dissipation frame are provided with heat-dissipation spacer, separation baffles are provided on the inside of heat dissipation frame, the side of separation baffles is provided with Air Filter, the surface of separation baffles is provided with air hole, the top of fixed frame is provided with S-shaped circulating heat radiating pipe, jointing is provided in the middle part of S-shaped circulating heat radiating pipe, one end of jointing is provided with branch pipe, one end of S-shaped circulating heat radiating pipe is provided with water storage box, water storage box is internally provided with refrigerator, liquid level sensor and temperature sensor, the utility model installs case is internally provided with infrared inductor, control cabinet one and condenser plate, the side of heat dissipation frame is provided with fixed case, one end of fixed case is provided with infrared ray remote controllers, the surface of fixed case is provided with operation button, Gu That determines case is internally provided with control cabinet two, convenient for remotely controlling server, and convenient for detecting in real time to radiator ontology.

Description

The server heat sink excavated for big data

Technical field

The utility model relates to and server radiating technical field, and in particular to for big data excavate server radiating Device.

Background technique

The equipment that server is to provide the service of calculating.Since server needs to respond service request, and handled, because In general server should have the service of undertaking and ensure the ability of service for this.The composition of server include processor, hard disk, Memory, system bus etc. are similar with general computer architecture, but due to needing to provide highly reliable service, are handling Ability, stability, reliability, safety, scalability, manageability etc. are more demanding.In the server course of work often Amount of heat can be often generated, the work of server is influenced.Radiator ontology is the important equipment for ensureing server and working normally. Traditional radiator ontology is not easy to the operation and maintenance in later period, is not easy to mobile and existing radiator ontology and all lacks The structure kept at a distance between wall and cabinet body, be not easy to heat dissipation, the heat dissipation effect of traditional radiator ontology it is poor, from And affect the using effect of server, existing radiator ontology be not easy to carry out server is controlled at a distance, And radiator ontology cannot be measured in real time.

Utility model content

(1) technical problems to be solved

In order to overcome the shortage of prior art, it is proposed that for the server heat sink that big data is excavated, passed to solve The radiator ontology of system is not easy to the operation and maintenance in later period, be not easy to mobile and existing radiator ontology all lacks and The structure kept at a distance between wall and cabinet body, be not easy to heat dissipation, the heat dissipation effect of traditional radiator ontology it is poor, thus Affect the using effect of server, existing radiator ontology be not easy to carry out server is controlled at a distance, and Problem cannot be measured in real time to radiator ontology, reached convenient for the operation and maintenance of radiator ontology, it is easy to remove, And increase protective plate and make between radiator ontology and wall and cabinet body there are a certain distance, convenient for heat dissipation effect, enhancing Heat dissipation effect improves the service efficiency of server, convenient for remotely controlling server, and convenient in real time to radiator sheet Body carries out detection effect.

(2) technical solution

The utility model is achieved through the following technical solutions: the utility model proposes the servers excavated for big data Radiator, including radiator ontology, the side of the radiator ontology are provided with heat dissipation frame, the two sides of the heat dissipation frame It is provided with heat-dissipation spacer, separation baffles are provided on the inside of the heat dissipation frame, the side of the separation baffles is provided with dust-proof Net, the surface of the separation baffles are provided with air hole, and fixing clamp is provided on the inside of the separation baffles, the fixing clamp Side is provided with silicagel pad, and the two sides on the top of the heat dissipation frame are provided with protective plate, the front on the top of the heat dissipation frame It is provided with moving handle, the bottom end of the inside of the heat dissipation frame is provided with fixed frame, and the top of the fixed frame is provided with S-shaped and follows Ring heat-dissipating pipe is provided with jointing in the middle part of the S-shaped circulating heat radiating pipe, and one end of the jointing is provided with branch pipe, One end of the S-shaped circulating heat radiating pipe is provided with water storage box, and one end of the water storage box is provided with water inlet, the water storage box The other end is provided with water outlet, and the inlet and outlet are internally provided with check valve, the inside setting of the water storage box There are refrigerator, liquid level sensor and temperature sensor, the side of the water storage box is provided with installs case, the inside of the installs case It is provided with infrared inductor, control cabinet one and condenser plate, the side of the heat dissipation frame is provided with fixed case, the fixed case One end is provided with infrared ray remote controllers, and the surface of the fixed case is provided with operation button, and the inside of the fixed case is set It is equipped with control cabinet two, the refrigerator, liquid level sensor, temperature sensor, infrared inductor and condenser plate are and control cabinet One is electrically connected, and the infrared ray remote controllers and operation button are electrically connected with control cabinet two, the infrared induction Device and infrared ray remote controllers are used cooperatively.

Further, the side of the heat dissipation frame is provided with plugboard, and the side of the fixed case is provided with inserting groove, institute It states plugboard and inserting groove is connected together.

Further, one end of the plugboard and inserting groove is provided with card slot, and the inside of the card slot is provided with Magnet, the magnet and card slot are bonded by polytetrafluoroethylene (PTFE) and are connected.

Further, the side bottom end of the radiator ontology is provided with support frame, the bottom end setting of support frame as described above There are anti-skidding compressive pads.

Further, the top of support frame as described above is provided with sliding slot, and the bottom end of the heat dissipation frame is provided with slide bar, described to dissipate Hot frame and radiator ontology are used cooperatively by slide bar and sliding slot.

Further, the heat-dissipation spacer and heat dissipation frame are connected by screw to, and the separation baffles and heat dissipation frame pass through card Connection, the Air Filter and heat dissipation frame are closed by being connected together.

Further, the fixing clamp and separation baffles are connected by screw to, and the silicagel pad and fixing clamp pass through poly- four Vinyl fluoride bonding connection.

Further, the protective plate and moving handle are connected by screw to heat dissipation frame, the fixed frame and heat dissipation Frame is connected by screw to.

Further, the S-shaped circulating heat radiating pipe and fixed frame are by being connected together, the S-shaped circulating heat radiating pipe and branch Pipe is connected by jointing, and the inlet and outlet are used cooperatively with S-shaped circulating heat radiating pipe, the water inlet and out The mouth of a river is with check valve by being connected together.

Further, the water storage box and fixed case are connected by screw to heat dissipation frame, the water storage box and fixed case Surface be provided with waterproof coating.

(3) beneficial effect

The utility model compared with the existing technology, has the advantages that

1) it, to solve the operation and maintenance that traditional radiator ontology is not easy to the later period, is not easy to mobile and existing Radiator ontology all lacks the structure kept at a distance between wall and cabinet body, is not easy to heat dissipation problem, and the design proposes to dissipate The two sides on the top of hot frame are provided with protective plate, and the front on the top of heat dissipation frame is provided with moving handle, radiator ontology Side bottom end be provided with support frame, the bottom end of support frame as described above is provided with anti-skidding compressive pads, and the top of support frame is provided with cunning The bottom end of slot, heat dissipation frame is provided with rod design, solves the operation and maintenance that traditional radiator ontology is not easy to the later period, It is not easy to mobile and existing radiator ontology and all lacks the structure kept at a distance between wall and cabinet body, be not easy to radiate Problem has convenient for the operation and maintenance of radiator ontology, easy to remove, and increases protective plate and make radiator ontology and wall There are a certain distance between body and cabinet body, are convenient for heat dissipation effect beneficial effect.

2), poor to solve the heat dissipation effect of traditional radiator ontology, to affect the using effect of server Problem, the design proposes that the two sides of heat dissipation frame are provided with heat-dissipation spacer, separation baffles is provided on the inside of heat dissipation frame, separates gear The side of plate is provided with Air Filter, and the surface of separation baffles is provided with air hole, is provided with fixing clamp on the inside of separation baffles, Gu The side of clamp is provided with silicagel pad, and the bottom end of the inside of heat dissipation frame is provided with fixed frame, and the top of fixed frame is provided with S-shaped and follows Ring heat-dissipating pipe is provided with jointing in the middle part of S-shaped circulating heat radiating pipe, and one end of jointing is provided with branch pipe, and S-shaped circulation dissipates One end of heat pipe is provided with water storage box, and one end of water storage box is provided with water inlet, and the other end of water storage box is provided with water outlet, into The mouth of a river and water outlet are internally provided with check valve, and water storage box is internally provided with refrigerator, liquid level sensor and temperature sensing Device design, the heat dissipation effect for solving traditional radiator ontology is poor, so that the using effect problem of server is affected, There is enhancing heat dissipation effect, improves the service efficiency beneficial effect of server.

3) it, is not easy at a distance control server to solve existing radiator ontology, and cannot be right Radiator ontology is measured in real time problem, and the design proposition installs case is internally provided with infrared inductor, control cabinet One and condenser plate, the side of heat dissipation frame be provided with fixed case, one end of fixed case is provided with infrared ray remote controllers, fixed case Surface be provided with operation button, fixed case is internally provided with the design of control cabinet two, solves existing radiator ontology It is not easy at a distance control server, and problem cannot be measured in real time to radiator ontology, have and be convenient for Remotely server is controlled, and convenient for carrying out detection beneficial effect to radiator ontology in real time.

Detailed description of the invention

Fig. 1 is the radiator body construction schematic diagram of the utility model.

Fig. 2 is the support frame structure diagram of the utility model.

Fig. 3 is the heat dissipation frame structural schematic diagram of the utility model.

Fig. 4 is the water storage box structural schematic diagram of the utility model.

Fig. 5 is the installs case structural schematic diagram of the utility model.

Fig. 6 is the fixed case structural schematic diagram of the utility model.

Fig. 7 is the plugboard structural schematic diagram of the utility model.

1- radiator ontology；2- heat dissipation frame；3- heat-dissipation spacer；4- separation baffles；5- Air Filter；6- air hole；7- is solid Clamp；8- silicagel pad；9- protective plate；10- moving handle；11- fixed frame；12-S shape circulating heat radiating pipe；13- jointing；14- Branch pipe；15- water storage box；16- water inlet；17- water outlet；18- check valve；19- refrigerator；20- liquid level sensor；21- temperature Sensor；22- installs case；23- infrared inductor；24- control cabinet one；25- condenser plate；26- fixed case；27- infrared ray is remote Range controller；28- operation button；29- control cabinet two；30- plugboard；31- inserting groove；32- card slot；33- magnet；34- support Frame；The anti-skidding compressive pads of 35-；36- sliding slot；37- slide bar.

Specific embodiment

In the technical program:

2- heat dissipation frame, 3- heat-dissipation spacer, 4- separation baffles, 5- Air Filter, 7- fixing clamp, 11- fixed frame, 12-S shape circulation Heat-dissipating pipe, 14- branch pipe, 19- refrigerator, 20- liquid level sensor, 21- temperature sensor, 23- infrared inductor, 24- control Case one, 25- condenser plate, 27- infrared ray remote controllers, 28- operation button, 29- control cabinet two, 34- support frame are that this is practical It is novel to contain the innovative component of essence.

1- radiator ontology, 6- air hole, 8- silicagel pad, 9- protective plate, 10- moving handle, 13- jointing, 15- Water storage box, 16- water inlet, 17- water outlet, 18- check valve, 22- installs case, 26- fixed case, 30- plugboard, 31- inserting groove, 32- card slot, 33- magnet, the anti-skidding compressive pads of 35-, 36- sliding slot, 37- slide bar are to realize that technical solutions of the utility model are essential Connectivity component.

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain The utility model is not used to limit the utility model.

The server heat sink excavated for big data as shown in figs. 1-7, including radiator ontology 1, heat dissipation dress The side for setting ontology 1 is provided with heat dissipation frame 2, and the two sides of heat dissipation frame 2 are provided with heat-dissipation spacer 3, and the inside of heat dissipation frame 2 is provided with Separation baffles 4, the side of separation baffles 4 are provided with Air Filter 5, and the surface of separation baffles 4 is provided with air hole 6, separation baffles 4 Inside be provided with fixing clamp 7, the side of fixing clamp 7 is provided with silicagel pad 8, and the two sides on the top of heat dissipation frame 2 are provided with anti- Backplate 9, the front on the top of heat dissipation frame 2 are provided with moving handle 10, and the bottom end of the inside of heat dissipation frame 2 is provided with fixed frame 11, The top of fixed frame 11 is provided with S-shaped circulating heat radiating pipe 12, and the middle part of S-shaped circulating heat radiating pipe 12 is provided with jointing 13, even One end of connector 13 is provided with branch pipe 14, and one end of S-shaped circulating heat radiating pipe 12 is provided with water storage box 15, one end of water storage box 15 It is provided with water inlet 16, the other end of water storage box 15 is provided with water outlet 17, and water inlet 16 and water outlet 17 are internally provided with Check valve 18, water storage box 15 are internally provided with refrigerator 19, liquid level sensor 20 and temperature sensor 21, and the one of water storage box 15 Side is provided with installs case 22, and installs case 22 is internally provided with infrared inductor 23, control cabinet 1 and condenser plate 25, heat dissipation The side of frame 2 is provided with fixed case 26, and one end of fixed case 26 is provided with infrared ray remote controllers 27, the surface of fixed case 26 It is provided with operation button 28, fixed case 26 is internally provided with control cabinet 2 29, and refrigerator 19, liquid level sensor 20, temperature pass Sensor 21, infrared inductor 23 and condenser plate 25 are electrically connected with control cabinet 1, infrared ray remote controllers 27 and behaviour Make button 28 to be electrically connected with control cabinet 2 29, infrared inductor 23 and infrared ray remote controllers 27 are used cooperatively.

Wherein, the side of heat dissipation frame 2 is provided with plugboard 30, and the side of fixed case 26 is provided with inserting groove 31, plugboard 30 and inserting groove 31 be connected together, convenient for the fixation of fixed case 26；One end of plugboard 30 and inserting groove 31 is provided with card slot 32, the inside of card slot 32 is provided with magnet 33, magnet 33 and card slot 32 and bonds connection by polytetrafluoroethylene (PTFE)；Radiator sheet The side bottom end of body 1 is provided with support frame 34, and the bottom end of support frame 34 is provided with anti-skidding compressive pads 35；The top of support frame 34 is set It is equipped with sliding slot 36, the bottom end of heat dissipation frame 2 is provided with slide bar 37, and heat dissipation frame 2 and radiator ontology 1 pass through slide bar 37 and sliding slot 36 It is used cooperatively；Heat-dissipation spacer 3 and heat dissipation frame 2 are connected by screw to, and separation baffles 4 and heat dissipation frame 2 are by being connected together, Air Filter 5 and heat dissipation frame 2 by being connected together；Fixing clamp 7 and separation baffles 4 are connected by screw to, and silicagel pad 8 and fixing clamp 7 are by gathering Tetrafluoroethene bonding connection；Protective plate 9 and moving handle 10 are connected by screw to heat dissipation frame 2, fixed frame 11 and heat dissipation frame 2 It is connected by screw to；By being connected together, S-shaped circulating heat radiating pipe 12 and branch pipe 14 are logical for S-shaped circulating heat radiating pipe 12 and fixed frame 11 The connection of jointing 13 is crossed, water inlet 16 and water outlet 17 are used cooperatively with S-shaped circulating heat radiating pipe 12, water inlet 16 and water outlet Mouth 17 is with check valve 18 by being connected together；Water storage box 15 and fixed case 26 are connected by screw to heat dissipation frame 2, water storage box 15 and the surface of fixed case 26 be provided with waterproof coating.

The server heat sink excavated for big data that the utility model is mentioned, during use, pressing behaviour Make button 28, control cabinet 2 29 passes information to infrared ray remote controllers 27, and infrared ray remote controllers 27 pass information Infrared inductor 23 is passed, infrared inductor 23 passes information to control cabinet 1, one 24 pairs of refrigerators 19 of control cabinet Started, so that freezing to water, liquid level sensor 20 and temperature sensor 21 pass information to control cabinet 1, make It obtains and the height and temperature of the liquid level inside water storage box 15 is measured, water enters S-shaped circulating heat radiating pipe 12 from water outlet 17 Inside, enter branch pipe 14 from jointing 13, finally enter the inside of water storage box 15 from water inlet 16, check valve 18 is anti- Sealing is flow backwards, and influences heat dissipation effect, and plugboard 30 is fastened on the inside of inserting groove 31, convenient for the installation and removal of fixed case 26, Support frame 34 plays the role of support, and slide bar 37 is plugged on the inside of sliding slot 36, so that heat dissipation frame 2 and support frame 34 are fixed, Convenient for the maintenance in 2 later period of heat dissipation frame, support frame 34 plays the role of supporting and fixing to S-shaped circulating heat radiating pipe 12, heat-dissipation spacer 3 Dust-proof effect is played, and convenient for heat dissipation, separation baffles 4 play the role of barrier, and Air Filter 5 enhances dust-proof effect, thoroughly Stomata 6 radiates convenient for the later period, and fixing clamp 7 is convenient for being fixed to branch pipe 14, while silicagel pad 8 plays buffering and subtracts The effect of pressure, protective plate 9 and moving handle 10 to be stored between radiator ontology 1 and cabinet body or wall it is certain between Gap, and it is convenient for the movement of radiator ontology 1.

Embodiment described above is only that preferred embodiments of the present invention are described, not practical to this Novel conception and scope is defined.Without departing from the design concept of the present utility model, ordinary people in the field couple The all variations and modifications that the technical solution of the utility model is made, should fall within the protection scope of the present utility model, this reality With novel claimed technology contents, it is all described in the claims.

Claims (10)

1. the server heat sink excavated for big data, it is characterised in that: including radiator ontology (1), the heat dissipation The side of device noumenon (1) is provided with heat dissipation frame (2), and the two sides of the heat dissipation frame (2) are provided with heat-dissipation spacer (3), described It being provided on the inside of heat dissipation frame (2) separation baffles (4), the side of the separation baffles (4) is provided with Air Filter (5), and described point The surface of baffles (4) is provided with air hole (6), is provided with fixing clamp (7), the fixation on the inside of the separation baffles (4) The side of folder (7) is provided with silicagel pad (8), and the two sides on the top of the heat dissipation frame (2) are provided with protective plate (9), described to dissipate The front on the top of hot frame (2) is provided with moving handle (10), and the bottom end of the inside of the heat dissipation frame (2) is provided with fixed frame (11), the top of the fixed frame (11) is provided with S-shaped circulating heat radiating pipe (12), the middle part of the S-shaped circulating heat radiating pipe (12) It is provided with jointing (13), one end of the jointing (13) is provided with branch pipe (14), the S-shaped circulating heat radiating pipe (12) One end be provided with water storage box (15), one end of the water storage box (15) is provided with water inlet (16), the water storage box (15) The other end is provided with water outlet (17), being internally provided with check valve (18) for the water inlet (16) and water outlet (17), described Water storage box (15) is internally provided with refrigerator (19), liquid level sensor (20) and temperature sensor (21), the water storage box (15) side is provided with installs case (22), and the installs case (22) is internally provided with infrared inductor (23), control cabinet The side of one (24) and condenser plate (25), the heat dissipation frame (2) is provided with fixed case (26), and one end of the fixed case (26) is set It is equipped with infrared ray remote controllers (27), the surface of the fixed case (26) is provided with operation button (28), the fixed case (26) be internally provided with control cabinet two (29), it is the refrigerator (19), liquid level sensor (20), temperature sensor (21), red Outside line inductor (23) and condenser plate (25) are electrically connected with control cabinet one (24), the infrared ray remote controllers (27) and Operation button (28) is electrically connected with control cabinet two (29), the infrared inductor (23) and infrared ray remote controllers (27) it is used cooperatively.

2. the server heat sink according to claim 1 excavated for big data, it is characterised in that:

The side of the heat dissipation frame (2) is provided with plugboard (30), and the side of the fixed case (26) is provided with inserting groove (31), The plugboard (30) and inserting groove (31) are connected together.

3. the server heat sink according to claim 2 excavated for big data, it is characterised in that:

One end of the plugboard (30) and inserting groove (31) is provided with card slot (32), and the inside of the card slot (32) is respectively provided with Have magnet (33), the magnet (33) and card slot (32) are bonded by polytetrafluoroethylene (PTFE) and connected.

4. the server heat sink according to claim 1 excavated for big data, it is characterised in that:

The side bottom end of the radiator ontology (1) is provided with support frame (34), and the bottom end of support frame as described above (34) is provided with Anti-skidding compressive pads (35).

5. the server heat sink according to claim 4 excavated for big data, it is characterised in that:

The top of support frame as described above (34) is provided with sliding slot (36), and the bottom end of the heat dissipation frame (2) is provided with slide bar (37), described Heat dissipation frame (2) and radiator ontology (1) are used cooperatively by slide bar (37) and sliding slot (36).

6. the server heat sink according to claim 1 excavated for big data, it is characterised in that:

The heat-dissipation spacer (3) and heat dissipation frame (2) are connected by screw to, and the separation baffles (4) and heat dissipation frame (2) pass through engaging Connection, the Air Filter (5) and heat dissipation frame (2) are by being connected together.

7. the server heat sink according to claim 1 excavated for big data, it is characterised in that:

The fixing clamp (7) and separation baffles (4) are connected by screw to, and the silicagel pad (8) and fixing clamp (7) pass through polytetrafluoro Ethylene bonding connection.

8. the server heat sink according to claim 1 excavated for big data, it is characterised in that:

The protective plate (9) and moving handle (10) are connected by screw to heat dissipation frame (2), the fixed frame (11) and heat dissipation Frame (2) is connected by screw to.

9. the server heat sink according to claim 1 excavated for big data, it is characterised in that:

The S-shaped circulating heat radiating pipe (12) and fixed frame (11) are by being connected together, the S-shaped circulating heat radiating pipe (12) and branch pipe (14) it is connected by jointing (13), the water inlet (16) and water outlet (17) cooperate with S-shaped circulating heat radiating pipe (12) It uses, the water inlet (16) and water outlet (17) are with check valve (18) by being connected together.

10. the server heat sink according to claim 1 excavated for big data, it is characterised in that:

The water storage box (15) and fixed case (26) are connected by screw to heat dissipation frame (2), the water storage box (15) and fixation The surface of case (26) is provided with waterproof coating.