CN209327971U - A kind of server radiating copper pipe that multiple tooth height is antipyretic - Google Patents
A kind of server radiating copper pipe that multiple tooth height is antipyretic Download PDFInfo
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- CN209327971U CN209327971U CN201920404972.5U CN201920404972U CN209327971U CN 209327971 U CN209327971 U CN 209327971U CN 201920404972 U CN201920404972 U CN 201920404972U CN 209327971 U CN209327971 U CN 209327971U
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- copper pipe
- fixedly connected
- wall
- screw thread
- valve body
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D10/00—Energy efficient computing, e.g. low power processors, power management or thermal management
Abstract
The utility model discloses a kind of server radiating copper pipes that multiple tooth height is antipyretic, it is related to technical field of heat dissipation, including server cabinet, the server cabinet, the left side of the server cabinet offers ventilation hole, the inner bottom wall of the server cabinet is fixedly connected with heat generating components, and the right side of the server cabinet offers the heat release hole being spaced substantially equidistant.The antipyretic server radiating copper pipe of the multiple tooth height of the one kind, recycle heat-conducting medium in single copper pipe, the circulation loop of periphery is not needed, improve the service performance of copper pipe, reduce the use length of copper pipe, have the advantages that realize high efficiency and heat radiation with shorter copper pipe length, more it is applicable in the requirement in cooling system to copper pipe layout, the occupied space of cooling system is saved, it can be realized heat dissipation copper pipe independent loops function in this technology, reduce the dependence to other kinetic energy, and it is able to achieve the flexible Application and installation of heat dissipation copper pipe, it reduces it and uses the limitation of installation.
Description
Technical field
The utility model relates to technical field of heat dissipation, specially a kind of server radiating copper pipe that multiple tooth height is antipyretic.
Background technique
Electronic device in the market can all generate heat when working, and the operating temperature of electronic device directly affects electronic device
Service life and stability, for this purpose, heat dissipation technology is the fundamental of electronic circuit technology, and influence electronic device volume
With power critical technology, existing heat dissipation technology refers to that the heat that circuit is generated at work is conducted to the outside of circuit, with
Reach the temperature in circuit in reasonable range.
With the fast development of the communication technology, 5G mechanics of communication will be popularized, to the heat dissipation technology of communication server
It is required that also higher and higher, the heat dissipation technology of existing market is the heat generated by fin conductive heating device, bigger with it
Heat-conducting area conducts generated heat into air, reaches and increases heat transfer efficiency purpose, then by ventilation device or is
Install the thermal component that can circulate heat-conducting medium additional, to improve heat-conducting effect, the thermal component of server is mostly at present
It is radiated with the radiating mode of circulating heat conduction medium in copper pipe, wherein copper pipe used is mostly single wall copper pipe, for single wall copper pipe
Circulation loop layout requirements it is stringenter, and extra copper pipe closed loop is needed, so single wall copper pipe is in reality
It is inflexible in, and have higher requirements to the use length of copper pipe, the metal resource not only wasted, but also the heat dissipation system increased
The arrangement space of system occupies the space in server, increases the volume of server.
Utility model content
The purpose of this utility model is exactly in order to make up for the deficiencies of the prior art, to provide a kind of service that multiple tooth height is antipyretic
Device heat dissipation copper pipe, it has inside and outside double-layer tube wall structure, realizes heat-conducting medium in inner and outer tubes and recycles, does not need periphery
Circulation loop has the advantages that realize high efficiency and heat radiation with shorter copper pipe length, more be applicable in cooling system to copper pipe cloth
The requirement of office, has saved the occupied space of cooling system, can reduce the volume of server.
The utility model is in order to solve the above technical problems, provide the following technical solutions: a kind of server that multiple tooth height is antipyretic
The left side of heat dissipation copper pipe, including server cabinet, the server cabinet, the server cabinet offers ventilation hole, institute
The inner bottom wall for stating server cabinet is fixedly connected with heat generating components, and the right side of the server cabinet, which offers, to be spaced substantially equidistant
Heat release hole, the inner sidewall of the server cabinet is fixedly connected with exhaust fan, and the inner roof wall of the server cabinet is fixed to be connected
It is connected to mounting plate, the mounting plate bottom surface is fixedly connected with circulation mechanism, and the bottom surface of the circulation mechanism is equipped with deflector, institute
The lower part for stating deflector is arranged with sealing mechanism, and the lower part fixation of the deflector is communicated with cooling mechanism, the heat dissipation
Mechanism is communicated with reflux mechanism far from one end fixation of deflector.
The circulation mechanism includes seal casinghousing, micromotor, centrifugal chamber, sealing plate, centrifuge blade, drive rod, thrust
Cap, the first sealing ring and through-hole.
The deflector includes flow concentration hole, diversion cavity, water conservancy diversion valve body, diversion rod, deflector hole, the first external screw thread cylinder, close
Sealing groove and the second sealing ring.
The sealing mechanism includes the first internal screw thread cylinder, third sealing ring and the first seal cap.
The cooling mechanism includes copper pipe, tube wall internal tooth, diversion cavity, supporting walls, return pipe and back cavity.
The reflux mechanism includes return valve body, back cavity, the second external screw thread cylinder, the second internal screw thread cylinder, the 4th sealing ring
With the second seal cap.
Further, the right side of the mounting plate is fixedly connected with seal casinghousing, is placed with inside the seal casinghousing
Micromotor, the left side of the micromotor are fixedly connected with the right side of mounting plate, and the inner wall of the seal casinghousing is fixed
It is connected with sealing plate, the inside of the sealing plate offers through-hole, and the right side of the sealing plate is equipped with centrifugal chamber, the centrifugal chamber
Inside be placed with centrifuge blade, the output end of the micromotor is fixedly connected with drive rod, and the drive rod is far from miniature
One end of motor runs through through-hole and extends to the left side of centrifuge blade, the drive rod one end and centrifugation far from micromotor
The left side of blade is fixedly connected.
By using above-mentioned technical proposal, make the radiator copper pipe in this technology that there is matched circulation member to provide circulation
Power, can circulation cooling heat-conducting medium within the organization, do not need other circulation devices, reduce to the dependences of other power.
Further, the right side of the seal casinghousing is fixedly connected with water conservancy diversion valve body, the left side of the water conservancy diversion valve body
Flow concentration hole is offered, the inside fixation of the water conservancy diversion valve body is inlaid with diversion rod, and the inside of the diversion rod offers deflector hole,
Diversion rod is run through in the left and right ends of the deflector hole, and extends respectively to the left side of diversion rod and the right side of diversion rod,
The outer surface of the water conservancy diversion valve body is arranged with the first external screw thread cylinder, and the outer surface of the inner wall of the first external screw thread cylinder and water conservancy diversion valve body
It is fixedly connected.
By using above-mentioned technical proposal, have the function of circulation mechanism independent using mating this technology can be suitable for
In copper pipe section at, use process is more flexible and convenient, by the first external screw thread cylinder, is easily installed its matched sealer
Structure.
Further, the inner wall sleeve of the water conservancy diversion valve body is equipped with copper pipe, and the inner wall of the copper pipe is fixedly connected in tube wall
Tooth and supporting walls, the inside of the copper pipe offer diversion cavity, and the inside of the diversion cavity is placed with return pipe, the return pipe
Inside offer back cavity, the outer surface of the return pipe is fixedly connected by supporting walls with the inner wall of copper pipe.
By using above-mentioned technical proposal, make cooling mechanism in this technology can be with water conservancy diversion heat-conducting medium, in a copper pipe
A plurality of independent flow-guiding channel can be achieved, the use length of copper pipe itself can be saved, be fixedly connected by the inner wall of its copper pipe
The contact area of heat-conducting medium and copper pipe inner wall can be improved in tube wall internal tooth, increases the capacity of heat transmission of copper pipe.
Further, the outer surface thread of the first external screw thread cylinder is connected with the first internal screw thread cylinder, spiral shell in described first
The outer surface of line cylinder is arranged with the first seal cap, the fixed company in the outer surface of the inner wall of first seal cap and the first internal screw thread cylinder
It connects, the internal sleeve of first seal cap is equipped with third sealing ring, the outer surface phase of the inner wall and copper pipe of the third sealing ring
Socket.
By using above-mentioned technical proposal, the first seal cap is made to pass through the cooperation of the first external screw thread cylinder and the first internal screw thread cylinder
Work clamps third sealing ring, realizes fixed effect and sealing effect between copper pipe and water conservancy diversion valve body.
Further, the outer surface of the copper pipe is arranged with return valve body, and the inside of the return valve body offers reflux
Chamber, the outer surface of the return valve body are arranged with the second external screw thread cylinder, the inner wall of the second external screw thread cylinder and return valve body
Outer surface is fixedly connected, and the second external screw thread cylinder outer surface thread is connected with the second internal screw thread cylinder, the second internal screw thread cylinder
Outer surface be fixedly connected with the second seal cap, the internal sleeve of second seal cap is equipped with the 4th sealing ring, and the described 4th is close
The inner wall of seal and the outer surface of copper pipe socket-connect.
By using above-mentioned technical proposal, the second seal cap is made to pass through the cooperation of the second external screw thread cylinder and the second internal screw thread cylinder
Work clamps the 4th sealing ring, realizes fixed effect and sealing effect between copper pipe and water conservancy diversion valve body, and make by back cavity
Back cavity is connected to diversion cavity holding, easily facilitates the layout and installation of cooling mechanism.
Further, the inside of the mounting plate offers mounting hole, and the quantity at least two of mounting hole.
By using above-mentioned technical proposal, circulation mechanism and deflector in this technology are installed more conveniently
In the inside of server cabinet, and increase its fixed effect.
Further, the outer surface of the drive rod is arranged with thrust cap and the first sealing ring, and the first sealing ring is outer
Surface is in contact with the inner surface of thrust cap, and the right side of the thrust cap is fixedly connected with the left side of sealing plate.
By using above-mentioned technical proposal, make to realize between centrifugal chamber and micromotor in the circulation mechanism in this technology
Sealing effect prevents heat-conducting medium from overflowing from through-hole and damaging micromotor,
Further, the inner bottom wall of the server cabinet and the inner roof wall of server cabinet are fixedly connected to fixation
Block, fixed block one side close to each other are fixedly connected with the outer surface of copper pipe.
By using above-mentioned technical proposal, make the inside for being fixed on server cabinet that copper pipe is stronger, keeps heat dissipation
The stability of system.
Further, the inside of the water conservancy diversion valve body offers diversion cavity, and the right end of the diversion rod runs through diversion cavity simultaneously
The inside of back cavity is extended to, the outer surface of the diversion rod offers seal groove, and the inner wall sleeve of the seal groove is equipped with second
The outer surface of sealing ring, second sealing ring is in contact with the inner wall of return pipe.
By using above-mentioned technical proposal, make to realize sealing function between diversion cavity and back cavity, make deflector and dissipates
It is mating more convenient to connection function between heat engine structure.
Compared with prior art, the antipyretic server radiating copper pipe of the multiple tooth height of the one kind have it is following the utility model has the advantages that
1, the utility model leads to its inside and outside double-deck tube wall design, and heat-conducting medium can be made to recycle in single copper pipe, be not required to
The circulation loop for wanting periphery, improves the service performance of copper pipe, reduces the use length of copper pipe, has with shorter copper pipe
Length realizes the advantages of high efficiency and heat radiation, is more applicable in the requirement in cooling system to copper pipe layout, has saved accounting for for cooling system
Use space.
2, the utility model crosses its matched circulation mechanism, deflector, sealing mechanism and the design of reflux mechanism, Neng Goushi
Heat dissipation copper pipe independent loops function in existing this technology, reduces the dependence to other kinetic energy, and be able to achieve the flexible of heat dissipation copper pipe
Using and installation, reduce its using installation limitation.
Detailed description of the invention
Fig. 1 is the cross-sectional view of the utility model water conservancy diversion valve body front view;
Fig. 2 is the cross-sectional view of the utility model copper pipe side view;
Fig. 3 is the cross-sectional view of the utility model diaphragm valve body-side view;
Fig. 4 is the enlarged diagram of structure at A in the utility model Fig. 1;
Fig. 5 is the enlarged diagram of structure at B in the utility model Fig. 1;
Fig. 6 is the cross-sectional view of the utility model return valve body front view;
Fig. 7 is the enlarged diagram of structure at C in the utility model Fig. 1;
Fig. 8 is the cross-sectional view of the utility model server cabinet front view;
Fig. 9 is the perspective view of the utility model server cabinet front view.
In figure: 1, mounting plate;2, mounting hole;3, circulation mechanism;301, seal casinghousing;302, micromotor;303, it is centrifuged
Chamber;304, sealing plate;305, centrifuge blade;306, drive rod;307, thrust cap;308, the first sealing ring;309, through-hole;4, it leads
Flow mechanism;401, flow concentration hole;402, the first diversion cavity;403, water conservancy diversion valve body;404, diversion rod;405, deflector hole;406, first
External screw thread cylinder;407, seal groove;408, the second sealing ring;5, sealing mechanism;501, the first internal screw thread cylinder;502, third seals
Circle;503, the first seal cap;6, cooling mechanism;601, copper pipe;602, the second diversion cavity;603, return pipe;604, the first reflux
Chamber;605, supporting walls;606, tube wall internal tooth;7, flow back mechanism;701, the second back cavity;702, return valve body;703, outside second
Thread barrel;704, the second internal screw thread cylinder;705, the 4th sealing ring;706, the second seal cap;8, server cabinet;9, heating part
Part;10, ventilation hole;11, fixed block;12, exhaust fan;13, heat release hole.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
Every other embodiment obtained, fall within the protection scope of the utility model.
Fig. 1-9 is please referred to, the utility model provides a kind of technical solution: a kind of server radiating copper that multiple tooth height is antipyretic
Pipe, including server cabinet 8, server cabinet 8, the left side of server cabinet 8 offer ventilation hole 10, server cabinet 8
Inner bottom wall be fixedly connected with heat generating components 9, the right side of server cabinet 8 offers the heat release hole 13 being spaced substantially equidistant, clothes
The inner sidewall of business device cabinet 8 is fixedly connected with exhaust fan 12, and the inner roof wall of server cabinet 8 is fixedly connected with mounting plate 1, installation
1 bottom surface of plate is fixedly connected with circulation mechanism 3, and the bottom surface of circulation mechanism 3 is equipped with deflector 4, and the lower part of deflector 4 is arranged with
The lower part fixation of sealing mechanism 5, deflector 4 is communicated with cooling mechanism 6, and cooling mechanism 6 is fixed far from one end of deflector 4
It is communicated with reflux mechanism 7.
Circulation mechanism 3 include seal casinghousing 301, micromotor 302, centrifugal chamber 303, sealing plate 304, centrifuge blade 305,
Drive rod 306, thrust cap 307, the first sealing ring 308 and through-hole 309.
Deflector 4 include flow concentration hole 401, the first diversion cavity 402, water conservancy diversion valve body 403, diversion rod 404, deflector hole 405,
First external screw thread cylinder 406, seal groove 407 and the second sealing ring 408.
Sealing mechanism 5 includes the first internal screw thread cylinder 501, third sealing ring 502 and the first seal cap 503.
Cooling mechanism 6 includes copper pipe 601, tube wall internal tooth 606, the second diversion cavity 602, supporting walls 605,603 and of return pipe
First back cavity 604.
The mechanism 7 that flows back includes return valve body 702, the second back cavity 701, the second external screw thread cylinder 703, the second internal screw thread cylinder
704, the 4th sealing ring 705 and the second seal cap 706.
Further, the right side of mounting plate 1 is fixedly connected with seal casinghousing 301, is placed with inside seal casinghousing 301 micro-
The left side of type motor 302, micromotor 302 is fixedly connected with the right side of mounting plate 1, and the inner wall of seal casinghousing 301 is fixed
It is connected with sealing plate 304, the inside of sealing plate 304 offers through-hole 309, and the right side of sealing plate 304 is equipped with centrifugal chamber 303, from
The inside of the chambers of the heart 303 is placed with centrifuge blade 305, and the output end of micromotor 302 is fixedly connected with drive rod 306, drive rod
306 one end far from micromotor 302 run through through-hole 309 and extend to the left side of centrifuge blade 305, and drive rod 306 is separate
One end of micromotor 302 is fixedly connected with the left side of centrifuge blade 305, has the radiator copper pipe 601 in this technology
Matched circulation member provides circulation power, can heat-conducting medium in circulation cooling mechanism 6, do not need other circulation devices,
Reduce the dependence to other power.
Further, the right side of seal casinghousing 301 is fixedly connected with water conservancy diversion valve body 403, the left side of water conservancy diversion valve body 403
Flow concentration hole 401 is offered, the inside fixation of water conservancy diversion valve body 403 is inlaid with diversion rod 404, and the inside of diversion rod 404, which offers, leads
Diversion rod 404 is run through in discharge orifice 405, the left and right ends of deflector hole 405, and extends respectively to the left side of diversion rod 404 and lead
The right side of flow post 404, the outer surface of water conservancy diversion valve body 403 are arranged with the first external screw thread cylinder 406, and the first external screw thread cylinder 406
Inner wall is fixedly connected with the outer surface of water conservancy diversion valve body 403, make circulation mechanism 3 have the function of it is independent using, mating can be suitable for
At the section of copper pipe 601 in this technology, use process is more flexible and convenient, by the first external screw thread cylinder 406, is easily installed it
Matched sealing mechanism 5.
Further, the inner wall sleeve of water conservancy diversion valve body 403 is equipped with copper pipe 601, and the inner wall of copper pipe 601 is fixedly connected in tube wall
Tooth 606 and supporting walls 605, the inside of copper pipe 601 offer the second diversion cavity 602, and the inside of the second diversion cavity 602 is placed with back
Flow tube 603, the inside of return pipe 603 offer the first back cavity 604, and the outer surface of return pipe 603 passes through supporting walls 605 and copper
The inner wall of pipe 601 is fixedly connected, and cooling mechanism 6 in this technology can be achieved can in one copper pipe 601 with water conservancy diversion heat-conducting medium
A plurality of independent flow-guiding channel can save the use length of copper pipe 601 itself, is fixedly connected by the inner wall of its copper pipe 601
The contact area of 601 inner wall of heat-conducting medium and copper pipe can be improved in tube wall internal tooth 606, increases the capacity of heat transmission of copper pipe 601.
Further, the outer surface thread of the first external screw thread cylinder 406 is connected with the first internal screw thread cylinder 501, the first internal screw thread
The outer surface of cylinder 501 is arranged with the first seal cap 503, the outer surface of the inner wall of the first seal cap 503 and the first internal screw thread cylinder 501
It is fixedly connected, the internal sleeve of the first seal cap 503 is equipped with third sealing ring 502, the inner wall and copper pipe 601 of third sealing ring 502
Outer surface socket-connect, make the first seal cap 503 by the cooperating of the first external screw thread cylinder 406 and the first internal screw thread cylinder 501,
Third sealing ring 502 is clamped, realizes fixed effect and sealing effect between copper pipe 601 and water conservancy diversion valve body 403.
Further, the outer surface of copper pipe 601 is arranged with return valve body 702, and the inside of return valve body 702 offers second
Back cavity 701, the outer surface of return valve body 702 are arranged with the second external screw thread cylinder 703, the inner wall of the second external screw thread cylinder 703 with return
The outer surface of stream valve body 702 is fixedly connected, and 703 outer surface thread of the second external screw thread cylinder is connected with the second internal screw thread cylinder 704, and second
The outer surface of internal screw thread cylinder 704 is fixedly connected with the second seal cap 706, and the internal sleeve of the second seal cap 706 is equipped with the 4th sealing
Circle 705, the outer surface of the inner wall and copper pipe 601 of the 4th sealing ring 705 socket-connects, and the second seal cap 706 is made to pass through the second outer spiral shell
The cooperating of line cylinder 703 and the second internal screw thread cylinder 704 clamps the 4th sealing ring 705, realizes copper pipe 601 and water conservancy diversion valve body 403
Between fixed effect and sealing effect, and protect the first back cavity 604 and the second diversion cavity 602 by the second back cavity 701
Connection is held, the layout and installation of cooling mechanism 6 are easily facilitated.
Further, the inside of mounting plate 1 offers mounting hole 2, and the quantity at least two of mounting hole 2, makes this skill
Circulation mechanism 3 and deflector 4 in art are installed on the inside of server cabinet 8 more conveniently, and increase it and fix
Effect.
Further, the outer surface of drive rod 306 is arranged with thrust cap 307 and the first sealing ring 308, and the first sealing ring
308 outer surface is in contact with the inner surface of thrust cap 307, and the right side of thrust cap 307 and the left side of sealing plate 304 are fixed
Connection, makes to realize sealing effect between centrifugal chamber 303 and micromotor 302 in the circulation mechanism 3 in this technology, prevent thermally conductive
Medium overflows from through-hole 309 and damages micromotor 302.
Further, the inner roof wall of the inner bottom wall of server cabinet 8 and server cabinet 8 is fixedly connected to fixed block
11, the one side close to each other of fixed block 11 is fixedly connected with the outer surface of copper pipe 601, makes copper pipe 601 is stronger to consolidate
It is scheduled on the inside of server cabinet 8, keeps the stability of cooling system.
Further, the inside of water conservancy diversion valve body 403 offers the first diversion cavity 402, and the right end of diversion rod 404 runs through first
Diversion cavity 402 and the inside for extending to the first back cavity 604, the outer surface of diversion rod 404 offer seal groove 407, seal groove
407 inner wall sleeve is equipped with the second sealing ring 408, and the outer surface of the second sealing ring 408 is in contact with the inner wall of return pipe 603, makes
Sealing function is realized between first diversion cavity 402 and the first back cavity 604, is made mating between deflector 4 and cooling mechanism 6
It is more convenient to connection function.
Working principle: reflux mechanism 7 makes the second diversion cavity 602 and the first back cavity 604 in cooling mechanism 6 keep connecting
Logical, the inside of the other end socket and deflector 4 of cooling mechanism 6 guarantees deflector 4 and heat dissipation machine by sealing mechanism 5
The leakproofness connected between structure 6, the other end of deflector 4 are linked with circulation mechanism 3, are connected to power supply, micro- in circulation mechanism 3
Type motor 302 drives 305 high speed rotation of centrifuge blade to generate centrifugal force, and the heat-conducting medium in the first back cavity 604 can be made to pass through
Deflector hole 405 flows into centrifugal chamber 303, then successively flows into flow concentration hole 401, deflector hole 405 and the second diversion cavity 602 again,
Realize that heat-conducting medium circulates in copper pipe 601, realizes the high efficiency and heat radiation ability to server heat generating components 9.
The terms "include", "comprise" or its any other variant are intended to non-row in the description of the present invention,
His property includes, so that the process, method, article or equipment for including a series of elements not only includes those elements, and
And further include other elements that are not explicitly listed, or further include for this process, method, article or equipment institute it is intrinsic
Element.In the absence of more restrictions, the element limited by sentence " including a reference structure ", it is not excluded that wrapping
Include in the process, method, article or equipment of the element that there is also other identical elements.It should be noted that herein
In, the relational terms of such as " first ", " second " or the like be used merely to by an entity or operation with another entity or
Operation distinguishes, without necessarily requiring or implying between these entities or operation there are any this actual relationship or
Sequentially.
While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art,
It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired
Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.
Claims (10)
1. a kind of server radiating copper pipe that multiple tooth height is antipyretic, including server cabinet (8), the server cabinet (8) are described
The left side of server cabinet (8) offers ventilation hole (10), and the inner bottom wall of the server cabinet (8) is fixedly connected with fever
Component (9), the right side of the server cabinet (8) offer the heat release hole (13) being spaced substantially equidistant, the server cabinet
(8) inner sidewall is fixedly connected with exhaust fan (12), and the inner roof wall of the server cabinet (8) is fixedly connected with mounting plate (1)
It is characterized by: mounting plate (1) bottom surface is fixedly connected with circulation mechanism (3), the bottom surface of the circulation mechanism (3), which is equipped with, is led
It flows mechanism (4), the lower part of the deflector (4) is arranged with sealing mechanism (5), and the lower part of the deflector (4) is fixed to be connected
It is connected with cooling mechanism (6), the one end of the cooling mechanism (6) far from deflector (4) is fixed to be communicated with reflux mechanism (7);
The circulation mechanism (3) include seal casinghousing (301), micromotor (302), centrifugal chamber (303), sealing plate (304), from
Lobus cardiacus piece (305), drive rod (306), thrust cap (307), the first sealing ring (308) and through-hole (309);
The deflector (4) include flow concentration hole (401), the first diversion cavity (402), water conservancy diversion valve body (403), diversion rod (404),
Deflector hole (405), the first external screw thread cylinder (406), seal groove (407) and the second sealing ring (408);
The sealing mechanism (5) includes the first internal screw thread cylinder (501), third sealing ring (502) and the first seal cap (503);
The cooling mechanism (6) includes copper pipe (601), tube wall internal tooth (606), the second diversion cavity (602), supporting walls (605), returns
Flow tube (603) and the first back cavity (604);
The reflux mechanism (7) include return valve body (702), the second back cavity (701), the second external screw thread cylinder (703), in second
Thread barrel (704), the 4th sealing ring (705) and the second seal cap (706).
2. the antipyretic server radiating copper pipe of the multiple tooth height of one kind according to claim 1, it is characterised in that: the mounting plate
(1) right side is fixedly connected with seal casinghousing (301), is placed with micromotor (302) inside the seal casinghousing (301),
The left side of the micromotor (302) is fixedly connected with the right side of mounting plate (1), the inner wall of the seal casinghousing (301)
It is fixedly connected with sealing plate (304), the inside of the sealing plate (304) offers through-hole (309), the sealing plate (304)
Right side is equipped with centrifugal chamber (303), and the inside of the centrifugal chamber (303) is placed with centrifuge blade (305), the micromotor
(302) output end is fixedly connected with drive rod (306), and the drive rod (306) is run through far from the one end of micromotor (302)
Through-hole (309) and the left side for extending to centrifuge blade (305), the one end of the drive rod (306) far from micromotor (302)
It is fixedly connected with the left side of centrifuge blade (305).
3. the antipyretic server radiating copper pipe of the multiple tooth height of one kind according to claim 1, it is characterised in that: the capsul
The right side of body (301) is fixedly connected with water conservancy diversion valve body (403), and the left side of the water conservancy diversion valve body (403) offers flow concentration hole
(401), the inside fixation of the water conservancy diversion valve body (403) is inlaid with diversion rod (404), and the inside of the diversion rod (404) opens up
Have deflector hole (405), diversion rod (404) are run through in the left and right ends of the deflector hole (405), and extend respectively to diversion rod
(404) right side of left side and diversion rod (404), the outer surface of the water conservancy diversion valve body (403) are arranged with the first external screw thread
Cylinder (406), and the inner wall of the first external screw thread cylinder (406) is fixedly connected with the outer surface of water conservancy diversion valve body (403).
4. the antipyretic server radiating copper pipe of the multiple tooth height of one kind according to claim 1, it is characterised in that: the diaphragm valve
The inner wall sleeve of body (403) is equipped with copper pipe (601), and the inner wall of the copper pipe (601) is fixedly connected with tube wall internal tooth (606) and support
The inside of wall (605), the copper pipe (601) offers the second diversion cavity (602), and the inside of second diversion cavity (602) is put
It is equipped with return pipe (603), the inside of the return pipe (603) offers the first back cavity (604), the return pipe (603)
Outer surface is fixedly connected by supporting walls (605) with the inner wall of copper pipe (601).
5. the antipyretic server radiating copper pipe of the multiple tooth height of one kind according to claim 1, it is characterised in that: outside described first
The outer surface thread of thread barrel (406) is connected with the first internal screw thread cylinder (501), the outer surface of the first internal screw thread cylinder (501)
It is arranged with the first seal cap (503), the outer surface of the inner wall of first seal cap (503) and the first internal screw thread cylinder (501) is solid
The internal sleeve of fixed connection, first seal cap (503) is equipped with third sealing ring (502), the third sealing ring (502) it is interior
Wall and the outer surface of copper pipe (601) socket-connect.
6. the antipyretic server radiating copper pipe of the multiple tooth height of one kind according to claim 1, it is characterised in that: the copper pipe
(601) outer surface is arranged with return valve body (702), and the inside of the return valve body (702) offers the second back cavity
(701), the outer surface of the return valve body (702) is arranged with the second external screw thread cylinder (703), the second external screw thread cylinder (703)
Inner wall be fixedly connected with the outer surface of return valve body (702), the second external screw thread cylinder (703) outer surface thread is connected with
The outer surface of two internal screw thread cylinders (704), the second internal screw thread cylinder (704) is fixedly connected with the second seal cap (706), and described
The internal sleeve of two seal caps (706) is equipped with the 4th sealing ring (705), inner wall and copper pipe (601) of the 4th sealing ring (705)
Outer surface socket-connect.
7. the antipyretic server radiating copper pipe of the multiple tooth height of one kind according to claim 1, it is characterised in that: the mounting plate
(1) inside offers mounting hole (2), and the quantity at least two of mounting hole (2).
8. the antipyretic server radiating copper pipe of the multiple tooth height of one kind according to claim 1, it is characterised in that: the drive rod
(306) outer surface is arranged with thrust cap (307) and the first sealing ring (308), and the outer surface of the first sealing ring (308) with only
The inner surface for pushing away cap (307) is in contact, and the right side of the thrust cap (307) is fixedly connected with the left side of sealing plate (304).
9. the antipyretic server radiating copper pipe of the multiple tooth height of one kind according to claim 1, it is characterised in that: the server
The inner bottom wall of cabinet (8) and the inner roof wall of server cabinet (8) are fixedly connected to fixed block (11), fixed block (11) phase
Mutually close one side is fixedly connected with the outer surface of copper pipe (601).
10. the antipyretic server radiating copper pipe of the multiple tooth height of one kind according to claim 1, it is characterised in that: the water conservancy diversion
The inside of valve body (403) offers the first diversion cavity (402), and the right end of the diversion rod (404) runs through the first diversion cavity (402)
And the inside of the first back cavity (604) is extended to, the outer surface of the diversion rod (404) offers seal groove (407), described close
The inner wall sleeve of sealing groove (407) is equipped with the second sealing ring (408), the outer surface and return pipe (603) of second sealing ring (408)
Inner wall be in contact.
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CN201920404972.5U CN209327971U (en) | 2019-03-28 | 2019-03-28 | A kind of server radiating copper pipe that multiple tooth height is antipyretic |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109814695A (en) * | 2019-03-28 | 2019-05-28 | 江西耐乐铜业有限公司 | A kind of server radiating copper pipe that multiple tooth height is antipyretic |
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2019
- 2019-03-28 CN CN201920404972.5U patent/CN209327971U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109814695A (en) * | 2019-03-28 | 2019-05-28 | 江西耐乐铜业有限公司 | A kind of server radiating copper pipe that multiple tooth height is antipyretic |
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