CN114498479B - Liquid cooling reason line frame of quick heat dissipation - Google Patents

Abstract

The invention provides a liquid cooling reason line frame capable of rapidly radiating, which is suitable for cable arrangement and internal heat radiation in a server and comprises two reason line frame arms which are oppositely arranged, wherein a liquid cooling component and a reason line component are arranged on the two reason line frame arms, the liquid cooling component comprises a liquid cooling square box and a liquid cooling water pipe, the liquid cooling water pipe is fixed on the reason line frame arms, and the liquid cooling square box is positioned between the two reason line frame arms. The two wire management frame arms and the liquid cooling water pipes on the two wire management frame arms are movably connected to the liquid cooling square box, and the liquid cooling water pipes and the wire management frame arms can coaxially rotate relative to the liquid cooling square box; the reason line subassembly is including setting up the top reason fastener on the liquid cooling square box and being located a plurality of side reason fastener on two reason line frame arms, top reason fastener detachable installs in the liquid cooling square box, side reason fastener detachable installs in reason line frame arm. The liquid cooling reason line frame capable of rapidly radiating is reasonable in structure, prolongs the service life of the whole reason line frame, and is beneficial to radiating.

Description

Liquid cooling reason line frame of quick heat dissipation

Technical Field

The invention relates to the technical field of cable fixing, in particular to a liquid cooling wire frame capable of rapidly radiating heat.

Background

With the increasing functions of the server, the number of functional modules in the server is increased, and various cables are needed for connection between the modules in the server, so that the number of the cables can be increased, in order to enable the cables in the server to be relatively orderly, wire arranging clamps are usually added at two ends of the cables, the cables are fixedly supported, but the middle of the cables can traverse the inner space of a server case, so that equipment maintenance is not facilitated, and heat dissipation in the case is also not facilitated.

Therefore, it is necessary to provide a liquid cooling coil holder with reasonable structure and fast heat dissipation.

Disclosure of Invention

The invention aims to provide a liquid cooling wire frame which is reasonable in structure and beneficial to heat dissipation and can quickly dissipate heat.

In order to achieve the above purpose, the invention provides a liquid cooling reason rack capable of rapidly radiating heat, which is suitable for cable arrangement and internal heat radiation in a server, and comprises two reason wire rack arms which are arranged oppositely, wherein the two reason wire rack arms are provided with a liquid cooling component and a reason wire component, the liquid cooling component comprises a liquid cooling square box arranged between the two reason wire rack arms, the two reason wire rack arms are movably connected with the liquid cooling square box, the liquid cooling component also comprises a plurality of liquid cooling water pipes, the liquid cooling water pipes are distributed on the two reason wire rack arms, one end of each liquid cooling water pipe is fixed on the reason wire rack arm through a connector component, the other end of each liquid cooling water pipe is movably connected with the liquid cooling square box, and the liquid cooling water pipe and the reason wire rack arm can coaxially rotate relative to the liquid cooling square box; one ends of the two wire arranging frame arms, which are far away from the liquid cooling square box, are movably connected to a sliding rail in the server; the reason line subassembly is including setting up the top reason fastener on the liquid cooling square box and being located a plurality of side reason fastener on two reason line frame arms, top reason fastener detachable installs in the liquid cooling square box, side reason fastener detachable installs in reason line frame arm.

Preferably, the side wire arranging clamp comprises a first accommodating cavity positioned at the outer side of the wire arranging frame arm and a second accommodating cavity positioned at the inner side of the wire arranging frame arm, wherein the first accommodating cavity is used for fixing a cable, and the second accommodating cavity is used for fixing a liquid cooling water pipe.

Preferably, the side wire arranging clamp comprises a first fixing piece, a first movable piece and a second movable piece, wherein the first movable piece and the second movable piece are connected to the first fixing piece, the first fixing piece is detachably arranged on the wire arranging frame arm, and the first movable piece and the second movable piece are rotatably connected to the first fixing piece.

Preferably, the first fixing piece is provided with a first clamping part matched with the first movable piece, the first movable piece is clamped and fixed on the first clamping part to form a first accommodating cavity, and the first movable piece is separated from the first clamping part and rotates relative to the first fixing piece so as to be placed in the first accommodating cavity; the wire arranging frame arm is provided with a second clamping part matched with the second movable part, the second movable part is clamped and fixed on the second clamping part to form a second accommodating cavity, and the second movable part is separated from the second clamping part and rotates relative to the first fixed part so that the liquid cooling water pipe can be placed into the second accommodating cavity.

Preferably, the side wire arranging clamp is provided with a first installation part matched with the wire arranging frame arm, the wire arranging frame arm is provided with a second installation part matched with the first installation part, and the first installation part is matched with the second installation part so that the side wire arranging clamp can be detachably installed on the wire arranging frame arm.

Preferably, the second installation part is a calabash hole, and the first installation part is in a ladder shape matched with the calabash hole.

Preferably, protruding bumps are arranged on the matched surfaces of the wire management frame arms and the liquid cooling water pipes, and the liquid cooling water pipes are mounted on the wire management frame arms in a reinforcing mode through the matching of the protruding bumps and the liquid cooling water pipes.

Preferably, the liquid cooling square box is provided with a movable joint communicated with the liquid cooling water pipe, and the wire management frame arm is connected to the movable joint, so that the liquid cooling water pipe and the wire management frame arm can simultaneously rotate relative to the liquid cooling square box by virtue of the movable joint.

Preferably, the connector assembly comprises a water pipe connector and a screw cap, the liquid cooling water pipe penetrates through the wire management frame arm and is connected to the water pipe connector, the screw cap is sleeved on the liquid cooling water pipe, the screw cap and the water pipe connector are respectively located on two sides of the wire management frame arm, and the water pipe connector is in threaded connection with the screw cap so as to fix one end of the liquid cooling water pipe on the wire management frame arm.

Preferably, the liquid-cooled water pipe is a rigid water pipe.

Preferably, one end of the wire arranging frame arm far away from the liquid cooling square box is movably connected with a connecting plate, and the connecting plate is slidably arranged on a sliding rail in the server.

Compared with the prior art, the liquid cooling reason line frame capable of rapidly radiating heat is suitable for servers, not only can arrange cables in the servers, but also can rapidly radiate heat, and has a simple structure and high practicability. The liquid cooling reason line frame of quick radiating includes two reason line frame arms of relative setting, is provided with liquid cooling subassembly and reason line subassembly on two reason line frame arms. The liquid cooling assembly comprises a liquid cooling square box and a liquid cooling water pipe, the liquid cooling water pipe is fixed on the wire arranging frame arms, and the liquid cooling square box is positioned between the two wire arranging frame arms. The two wire management frame arms and the liquid cooling water pipes on the two wire management frame arms are movably connected to the liquid cooling square box, and the liquid cooling water pipes and the wire management frame arms can coaxially rotate relative to the liquid cooling square box. The phenomenon that the liquid cooling water pipe and the wire management frame arm move relatively due to different rotation radiuses can be avoided, and therefore damage to the liquid cooling water pipe can be avoided. One ends of the two wire arranging frame arms, which are far away from the liquid cooling square box, are movably connected with a connecting plate, and the connecting plate is slidably arranged on a sliding rail in the server. The liquid cooling reason line frame of quick heat dissipation can slide on the slide rail through the connecting plate, is convenient for control and adjust the angle of reason line frame arm, and liquid cooling water pipe and reason line frame arm are coaxial rotation for the liquid cooling square box, can avoid damaging liquid cooling water pipe when adjusting reason line frame arm. The liquid cooling water pipe is the rigidity water pipe, does not have deformation after the installation, and the liquid cooling water pipe is fixed in the reason line arm completely promptly, can not produce relative motion between liquid cooling water pipe and the reason line arm, bigger improvement the life of liquid cooling water pipe, more convenient maintenance to the reason line frame. On the other hand, reason line subassembly is including setting up the top reason fastener on the liquid cooling square box and being located a plurality of side reason fastener on two reason line frame arms, top reason fastener detachable installs in the liquid cooling square box, side reason fastener detachable installs in reason line frame arm. The side management wire clamp can fix a cable and a liquid cooling water pipe. The liquid cooling reason line frame capable of rapidly radiating disclosed by the invention has the advantages that the whole service life of the whole reason line frame is greatly prolonged due to reasonable structure, the heat radiation is facilitated, and the liquid cooling reason line frame is suitable for being widely popularized and used.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a block diagram of a fast heat dissipation liquid cooling coil holder according to an embodiment of the present invention.

Fig. 2 is an exploded view of the structure of fig. 1.

Fig. 3 is a view showing a structure of the slide rail of fig. 1.

Fig. 4 is a view of the structure of fig. 1 at another angle.

Fig. 5 is a block diagram of a wire management arm of fig. 4 mated with a liquid cooling assembly and a wire management assembly.

Fig. 6 is a structural view of the wire management arm of fig. 5.

Fig. 7 is a structural view of another angle of fig. 6.

Fig. 8 is an enlarged view at a in fig. 7.

Fig. 9 is a structural view of the liquid-cooled square box in fig. 5.

Fig. 10 is a partially cut-away block diagram of fig. 9.

Fig. 11 is a block diagram of the liquid cooling assembly of fig. 5.

Fig. 12 is a structural view of the side management clip of fig. 1.

Fig. 13 is a view of the structure of fig. 12 at another angle.

Fig. 14 is a block diagram of the top management clip of fig. 1.

Reference numerals illustrate:

100. liquid cooling reason line frame of quick heat dissipation; 101. a rotation point;

10. a wire arranging arm; 11. a bump; 12. a first connection portion; 13. a second connecting portion; 14. a second mounting portion; 15. a clamping hole; 16. a mounting hole; 17. a heat radiation hole; 18. a second engaging portion;

20. a liquid cooling assembly; 21. liquid cooling square box; 211. a hollow cavity; 212. a connection hole; 213. a partition plate; 22. a liquid cooling water pipe; 23. a joint assembly; 231. a water pipe joint; 232. a screw cap; 24. a movable joint; 241. a third connecting portion;

30. a wire arranging assembly; 31. a side wire arranging clamp; 311. a first fixing member; 3111. a first engagement portion; 312. a first movable member; 3121. a first locking portion; 313. a second movable member; 3131. a second locking portion; 314. a first accommodation chamber; 315. a second accommodation chamber; 3151. a clamping part; 316. a first mounting portion; 317. a clamping protrusion; 32. a top wire arranging clamp; 321. a second fixing member; 3211. a third engagement portion; 322. a third movable member; 3221. a third locking portion; 323. a fourth engagement portion;

40. a connecting plate; 41. a fourth connecting portion;

50. a slide rail.

Detailed Description

In order to describe the technical content and constructional features of the present invention in detail, the following description will be made with reference to the embodiments in conjunction with the accompanying drawings.

Referring to fig. 1 to 4, the present invention provides a liquid cooling coil holder 100 with rapid heat dissipation, which is suitable for cable arrangement and internal heat dissipation in a server. The liquid cooling reason line frame 100 of quick heat dissipation includes two reason line frame arms 10 that set up relatively, is provided with liquid cooling subassembly 20 and reason line subassembly 30 on two reason line frame arms 10. The liquid cooling assembly 20 includes a liquid cooling square box 21 disposed between two wire arranging arms 10, and the two wire arranging arms 10 are movably connected to the liquid cooling square box 21. The liquid cooling assembly 20 further comprises a plurality of liquid cooling water pipes 22, and the plurality of liquid cooling water pipes 22 are symmetrically distributed on the two wire management frame arms 10. The wire management assembly 30 comprises a top wire management clamp 32 arranged on the liquid cooling square box 21 and a plurality of side wire management clamps 31 arranged on the two wire management frame arms 10, wherein the top wire management clamp 32 is detachably arranged on the liquid cooling square box 21, and the side wire management clamps 31 are detachably arranged on the wire management frame arms 10. Specifically, the liquid-cooled water pipe 22 is fixed on the wire management arm 10 through the side wire management clamp 31 and does not generate relative motion with the wire management arm 10, that is, the wire management arm 10 and the liquid-cooled water pipe 22 thereon can be in an integral structure through the fixation of the side wire management clamp 31. One end of each liquid cooling water pipe 22 is fixed on the wire management arm 10 through a connector assembly 23, and the other end of the liquid cooling water pipe 22 is movably connected and communicated with the liquid cooling square box 21 through a movable connector 24. The wire management arm 10 is also connected to the movable joint 24, and the liquid cooling water pipe 22 is fixed to the wire management arm 10, so that the liquid cooling water pipe 22 and the wire management arm 10 can coaxially rotate relative to the liquid cooling square box 21. It can be appreciated that when the wire management arm 10 rotates relative to the liquid cooling square box 21, the liquid cooling water pipe 22 is driven to coaxially rotate relative to the liquid cooling square box 21, and the wire management arm 10 and the liquid cooling water pipe 22 both rotate relative to the liquid cooling square box 21 along the rotation point 101. On the other hand, the ends of the two wire management arms 10 far away from the liquid cooling square box 21 are movably connected to the sliding rail 50 in the server. Illustratively, a connecting plate 40 is movably connected to an end of the wire management arm 10 away from the liquid cooling square box 21, and the connecting plate 40 is slidably disposed on a sliding rail 50 in the server. The wire management frame arms 10 slide on the slide rails 50 through the connecting plates 40 so as to conveniently adjust the position of the whole wire management frame in the server, and the angle between the two wire management frame arms 10 is convenient to control and adjust. Of course, the wire management arm 10 may be movably mounted on the sliding rail 50 in other manners. The liquid cooling reason line frame 100 for rapid heat dissipation of the invention is convenient for controlling and adjusting the angle of the reason line frame arm 10, has reasonable structure and convenient use, greatly prolongs the whole service life of the whole reason line frame, and is beneficial to heat dissipation.

Referring to fig. 5 to 10, in some alternative embodiments, the connection plate 40 between the two wire management arms 10 may be replaced by a liquid cooling square box 21, which can not only perform the function of cooling and heat dissipation, but also save the cost. In this embodiment, two wire management arms 10 are symmetrical at two ends of the liquid cooling square box 21, and two liquid cooling water pipes 22 are provided on each wire management arm 10. The liquid cooling water pipes 22 and the liquid cooling square box 21 at corresponding positions on the two wire management frame arms 10 form a liquid cooling loop. Wherein, the liquid cooling square box 21 is internally provided with a hollow structure, the hollow structure is divided into two hollow cavities 211 by a baffle 213, and two ends of the two hollow cavities 211 are respectively provided with a connecting hole 212 which is connected and communicated with the liquid cooling water pipe 22. That is, the hollow cavity 211 in the liquid cooling square box 21 and the liquid cooling water pipes 22 at the two ends form one liquid cooling loop, and the embodiment comprises two liquid cooling loops. The two liquid cooling water pipes 22 are respectively connected to the liquid cooling square box 21 through one movable joint 24, the two liquid cooling water pipes 22 are arranged on the wire management frame arm 10 in parallel, and one end part of the wire management frame arm 10 is fixedly connected with a third connecting part 241 on the two movable joints 24 through two first connecting parts 12. When the wire management arm 10 rotates relative to the liquid cooling square box 21 through the movable joint 24, the liquid cooling water pipe 22 also rotates relative to the liquid cooling square box 21 along with the rotation point 101 of the wire management arm 10 along the movable joint 24. The structure is reasonable, and the whole arrangement is compact. Of course, according to actual needs, one, three, four or more liquid cooling loops may be further provided, and by increasing the water amount of the liquid cooling water pipe 22 on the wire management frame arm 10 and correspondingly increasing the number of the hollow cavities 211 in the liquid cooling square box 21, the number of the liquid cooling loops can be increased. The liquid cooling loop can effectively cool the cable and surrounding components in the use process, can rapidly dissipate heat, and effectively prolongs the service life of the components.

Referring to fig. 6 and 7, in some alternative embodiments, the liquid-cooled water pipe 22 and the cable are disposed on two sides of the wire management arm 10, respectively, so as to avoid friction between the cable and the liquid-cooled water pipe 22, thereby increasing the service life of the components. In the present embodiment, the liquid cooling water pipe 22 is located inside the wire management arm 10 and can be fixed by a side management clamp 31. Wherein, the matching surface of the wire management arm 10 and the liquid cooling water pipe 22 is provided with a protruding bump 11, and the matching of the bump 11 and the liquid cooling water pipe 22 is used for reinforcing the installation of the liquid cooling water pipe 22 on the wire management arm 10. Be provided with a plurality of bellied lugs 11 on reason line frame arm 10, can reduce the clearance that moves between reason line frame arm 10 and the liquid cooling water pipe 22 to make liquid cooling water pipe 22 can be more firm be fixed in on reason line frame arm 10, furthest reduced the relative activity between reason line frame arm 10 and the liquid cooling water pipe 22, promoted the life of whole quick radiating liquid cooling line frame 100 greatly, reduced the problem that produces in the use.

Referring to fig. 12 and 13, in some alternative embodiments, the side management clip 31 includes a first receiving cavity 314 located on the outside of the management arm 10 and a second receiving cavity 315 located on the inside of the management arm 10. The first accommodating cavity 314 is used for fixing cables, and the second accommodating cavity 315 is used for fixing the liquid cooling water pipe 22. Specifically, the side wire clip 31 includes a first fixing member 311, and a first movable member 312 and a second movable member 313 connected to the first fixing member 311, where the first fixing member 311 is detachably mounted on the wire clip arm 10, and the first movable member 312 and the second movable member 313 are both rotatably connected to the first fixing member 311. The first fixing member 311 is provided with a first engaging portion 3111 engaged with the first movable member 312, the first movable member 312 is provided with a first locking portion 3121 engaged with the first engaging portion 3111, and the first locking portion 3121 is engaged with the first engaging portion 3111 to form the first accommodating chamber 314. Before cable arrangement, the first locking portion 3121 is separated from the first engaging portion 3111, and the first movable member 312 can rotate relative to the first fixing member 311, so that the cable can be placed into the first accommodating cavity 314, which is convenient to operate and arrange the cable. On the other hand, the wire management arm 10 is provided with a second engaging portion 18 engaged with the second movable member 313, and the second movable member 313 is provided with a second locking portion 3131 engaged with the second engaging portion 18. The second locking portion 3131 is fastened to the second fastening portion 18 to form a second accommodating cavity 315, and fastening portions 3151 having the same number as the liquid cooling water tubes 22 are disposed in the second accommodating cavity 315, so that different liquid cooling water tubes 22 are firmly fastened in the second accommodating cavity 315 through the fastening portions 3151, and relative movement between the liquid cooling water tubes 22 and the wire management frame arm 10 is reduced to the greatest extent. Before the liquid cooling water pipe 22 is installed, the second locking portion 3131 is separated from the second engaging portion 18, so that the second movable member 313 rotates relative to the first fixed member 311, and the liquid cooling water pipe 22 is placed in the second accommodating cavity 315. The side management wire clamp 31 not only can fix the cable, but also can fix the liquid cooling water pipe 22, and is simple in structure and reasonable in design.

Referring to fig. 14, in some alternative embodiments, the top wire clip 32 is fastened to the liquid cooling square box 21 by a fourth fastening portion 323, and the top wire clip 32 is used for fixing a cable. The top wire clip 32 includes a second fixed member 321 and a third movable member 322, the second fixed member 321 and the third movable member 322 forming a cavity for fixing the cable. Specifically, the second fixing member 321 is provided with a third engaging portion 3211, the third movable member 322 is provided with a third locking portion 3221, and the third locking portion 3221 cooperates with the third engaging portion 3211 to form the cavity for fixing the cable. Before the cable is put into, the third locking portion 3221 is separated from the third clamping portion 3211, and the third moving member 322 is rotated, so that the cable can be conveniently and rapidly put into the top wire management clamp 32, and then the third locking portion 3221 is matched with the third clamping portion 3211, so that the cable is prevented from being separated from the top wire management clamp 32.

Referring to fig. 6 and 8, in some alternative embodiments, the side wire clip 31 is provided with a first mounting portion 316 that mates with the wire management arm 10, and the first mounting portion 316 is disposed on the first fixing member 311. The wire management frame arm 10 is provided with a second mounting portion 14 matched with the first mounting portion 316, and the first mounting portion 316 is matched with the second mounting portion 14 so that the side wire management clamp 31 can be detachably mounted on the wire management frame arm 10. Before the side wire clip 31 is mounted on the wire clip arm 10, the second movable member 313 is turned to expose the first mounting portion 316, so that the first mounting portion 316 can be mounted on the second mounting portion 14. Specifically, the second mounting portion 14 is a gourd hole, and the first mounting portion 316 is stepped to match the gourd hole. The second mounting portion 14 enters the wire management frame arm 10 from the large hole end of the hoist hole, and slides in the hoist hole through the smaller diameter part of the stepped first mounting portion 316, and is clamped in the small hole of the hoist hole. Wherein, still offered card hole 15 on reason line frame arm 10, and still be provided with card protruding 317 on the first mounting 311, through card protruding 317 and card hole 15 cooperation for the connection between side reason fastener 31 and the reason line frame arm 10 is more firm.

Referring to fig. 6, 7 and 11, in some alternative embodiments, mounting holes 16 for mounting the liquid-cooled water pipe 22 are provided in the wire management arm 10. One end of the liquid-cooled water pipe 22 passes through the mounting hole 16 to be connected with the joint assembly 23, and is fixed on the wire management arm 10 through the joint assembly 23. Specifically, the connector assembly 23 includes a water pipe connector 231 and a nut 232, the liquid cooling water pipe 22 passes through the mounting hole 16 on the wire management arm 10 and is connected to the water pipe connector 231, the nut 232 is sleeved on the liquid cooling water pipe 22, and the nut 232 and the water pipe connector 231 are respectively located at two sides of the wire management arm 10. The water connection 231 is screwed with a nut 232 to fix one end of the liquid-cooled water pipe 22 to the wire management arm 10. Simple structure, the connection is firm. Preferably, the liquid cooling water pipe 22 is a rigid water pipe, that is, after the liquid cooling water pipe 22 is mounted in cooperation with the wire management frame arm 10, no relative movement is generated between the liquid cooling water pipe 22 and the wire management frame arm 10, and the liquid cooling water pipe 22 does not deform on the wire management frame arm 10. Compared with a flexible water pipe, the rigid water pipe does not generate motion friction, and the service lives of the liquid cooling water pipe 22 and the wire management frame arm 10 are prolonged. The rigid water pipe will not shrink, so as to reduce the leakage problem. The rigid water pipe is adopted, so that the service life of the integral structure is greatly prolonged, the requirement of high temperature on the water pipe material is avoided, and the maintenance of the wire management frame is facilitated. On the other hand, the wire management arm 10 can be further provided with heat dissipation holes 17, so that the liquid cooling assembly 20 can better take away heat, and the number of the heat dissipation holes 17 is reasonable, so that the integral structure of the wire management arm 10 is not affected.

Referring to fig. 1 to 5, in some alternative embodiments, the connection board 40 may be first connected to the wire management arm 10 by a pin, and the connection board 40 is provided with a fourth connection portion 41 connected to the second connection portion 13 of the wire management arm 10, where the second connection portion 13 and the fourth connection portion 41 may be connected by the pin. Next, one end of the liquid-cooling water pipe 22 is fixed to the wire management arm 10 via the joint assembly 23, and the other end of the liquid-cooling assembly 20 is connected to the top liquid-cooling square box 21. Again, the above steps are repeated to complete the assembly of the other side of the liquid cooling line frame 100 for rapid heat dissipation. Finally, the side wire management clamp 31 is installed through the hoist hole and the clamping hole 15 on the wire management frame arm 10, and the top wire management clamp 32 is clamped and fixed on the liquid cooling square box 21.

As shown in fig. 1 to 14, the liquid cooling management frame 100 for rapid heat dissipation of the present invention is suitable for servers, and not only can arrange cables in the servers, but also can rapidly dissipate heat, and has a simple structure and high practicality. The liquid cooling reason line frame 100 of quick heat dissipation includes two reason line frame arms 10 that set up relatively, is provided with liquid cooling subassembly 20 and reason line subassembly 30 on two reason line frame arms 10, compact structure, rationally distributed. The liquid cooling assembly 20 comprises a liquid cooling square box 21 and a liquid cooling water pipe 22, wherein the liquid cooling water pipe 22 is fixed on the wire arranging frame arms 10, and the liquid cooling square box 21 is positioned between the two wire arranging frame arms 10. Both the two wire management frame arms 10 and the liquid cooling water pipes 22 thereon are movably connected to the liquid cooling square box 21, and the liquid cooling water pipes 22 and the wire management frame arms 10 can coaxially rotate relative to the liquid cooling square box 21. That is, the liquid cooling water pipe 22 and the wire arranging arm are integrated and can coaxially rotate relative to the rotating point 101 on the liquid cooling square box 21. The liquid cooling water pipe 22 and the wire management frame arm 10 which coaxially rotate can avoid the phenomenon that the liquid cooling water pipe 22 and the wire management frame arm 10 have relative movement when the liquid cooling water pipe 22 moves in the wire management frame arm 10 due to different rotation radiuses, thereby avoiding damaging the liquid cooling water pipe 22. A connecting plate 40 is movably connected to one end of each of the two wire arranging frame arms 10 far away from the liquid cooling square box 21, and the connecting plate 40 is slidably arranged on a sliding rail 50 in the server. The liquid cooling reason line frame 100 of quick heat dissipation can slide on slide rail 50 through connecting plate 40, is convenient for control and adjustment reason line frame arm 10's angle, and liquid cooling water pipe 22 and reason line frame arm 10 are coaxial rotation for liquid cooling square box 21, can avoid damaging liquid cooling water pipe 22 when adjusting reason line frame arm 10. The liquid cooling water pipe 22 is the rigidity water pipe, does not have deformation after the installation, and liquid cooling water pipe 22 is fixed in reason line frame arm 10 completely promptly, can not produce relative motion between liquid cooling water pipe 22 and the reason line frame arm 10, bigger improvement liquid cooling water pipe 22's life, more convenient maintenance to reason line frame. On the other hand, the wire management assembly 30 includes a top wire management clamp 32 disposed on the liquid cooling square box 21 and a plurality of side wire management clamps 31 disposed on the two wire management arms 10, the top wire management clamp 32 is detachably mounted on the liquid cooling square box 21, and the side wire management clamps 31 are detachably mounted on the wire management arms 10. The side management clamp 31 can secure both the cable and the liquid-cooled water pipe 22. The liquid cooling reason line frame 100 for rapid heat dissipation has reasonable structure, greatly prolongs the whole service life of the whole reason line frame, is beneficial to heat dissipation and is suitable for wide popularization and use.

The foregoing disclosure is only illustrative of the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims (11)

1. The liquid cooling reason line frame is suitable for cable arrangement and internal heat dissipation in a server, and is characterized by comprising two reason line frame arms which are oppositely arranged, wherein a liquid cooling component and a reason line component are arranged on the two reason line frame arms, the liquid cooling component comprises a liquid cooling square box which is arranged between the two reason line frame arms, the two reason line frame arms are movably connected with the liquid cooling square box, the liquid cooling component further comprises a plurality of liquid cooling water pipes, the liquid cooling water pipes are distributed on the two reason line frame arms, one end of each liquid cooling water pipe is fixed on the reason line frame arm through a joint component, the other end of each liquid cooling water pipe is movably connected with the liquid cooling square box, the liquid cooling water pipes at corresponding positions on the two reason line frame arms and the liquid cooling square box form a liquid cooling loop, and the liquid cooling water pipes and the reason line frame arms can coaxially rotate relative to the liquid cooling square box; one ends of the two wire arranging frame arms, which are far away from the liquid cooling square box, are movably connected to a sliding rail in the server; the wire arranging assembly comprises a top wire arranging clamp arranged on the liquid cooling square box and a plurality of side wire arranging clamps arranged on the two wire arranging frame arms, wherein the top wire arranging clamp is detachably arranged on the liquid cooling square box, and the side wire arranging clamp is detachably arranged on the wire arranging frame arms.

2. The fast cooling liquid cooling wire rack of claim 1, wherein the side wire clamp comprises a first receiving cavity located outside the wire rack arm and a second receiving cavity located inside the wire rack arm, the first receiving cavity being used for fixing a cable, the second receiving cavity being used for fixing the liquid cooling water pipe.

3. The rapid cooling liquid cooling wire management frame of claim 2, wherein the side wire management clamp comprises a first fixing member, a first movable member and a second movable member, wherein the first movable member and the second movable member are connected to the first fixing member, the first fixing member is detachably mounted on the wire management frame arm, and the first movable member and the second movable member are rotatably connected to the first fixing member.

4. The rapid cooling liquid cooling reason line frame according to claim 3, wherein the first fixing piece is provided with a first clamping part matched with the first movable piece, the first movable piece is clamped and fixed on the first clamping part to form the first accommodating cavity, and the first movable piece is separated from the first clamping part and rotates relative to the first fixing piece so as to be placed in the first accommodating cavity; the wire arranging frame arm is provided with a second clamping part matched with the second movable part, the second movable part is clamped and fixed on the second clamping part to form a second accommodating cavity, and the second movable part is separated from the second clamping part and rotates relative to the first fixed part so as to be placed in the second accommodating cavity by the liquid cooling water pipe.

5. The rapid heat dissipation liquid cooling wire management frame of claim 1, wherein the side wire management clamp is provided with a first mounting portion matched with the wire management frame arm, the wire management frame arm is provided with a second mounting portion matched with the first mounting portion, and the first mounting portion is matched with the second mounting portion so that the side wire management clamp can be detachably mounted on the wire management frame arm.

6. The fast cooling liquid cooling wire rack of claim 5, wherein the second mounting portion is a gourd hole, and the first mounting portion is stepped to mate with the gourd hole.

7. The fast cooling liquid cooling wire rack of claim 1, wherein the wire rack arm and the liquid cooling water pipe are provided with protruding bumps on the mating surfaces, and the liquid cooling water pipe is reinforced by the cooperation of the bumps and the liquid cooling water pipe to mount the liquid cooling water pipe on the wire rack arm.

8. The rapid heat dissipation liquid cooling wire management frame according to claim 1, wherein the liquid cooling square box is provided with a movable joint communicated with the liquid cooling water pipe, the wire management frame arm is connected to the movable joint, and the liquid cooling water pipe and the wire management frame arm can simultaneously rotate relative to the liquid cooling square box by virtue of the movable joint.

9. The rapid heat dissipation liquid cooling wire management frame of claim 1, wherein the joint assembly comprises a water pipe joint and a screw cap, the liquid cooling water pipe passes through the wire management frame arm and is connected to the water pipe joint, the screw cap is sleeved on the liquid cooling water pipe, the screw cap and the water pipe joint are respectively positioned at two sides of the wire management frame arm, and the water pipe joint is in threaded connection with the screw cap so as to fix one end of the liquid cooling water pipe on the wire management frame arm.

10. The fast cooling liquid cooling wire rack of claim 1, wherein the liquid cooling water pipe is a rigid water pipe.

11. The rapid cooling liquid cooling wire rack of claim 1, wherein a connecting plate is movably connected to one end of the wire rack arm away from the liquid cooling square box, and the connecting plate is slidably arranged on a sliding rail in the server.