CN115867006B - Distributed liquid cooling cabinet - Google Patents

Abstract

The invention discloses a distributed liquid cooling cabinet, and belongs to the field of liquid cooling cabinets. The distributed liquid cooling cabinet comprises a cabinet body, wherein U-shaped clamping plates are fixedly connected to the left side wall and the right side wall of the cabinet body at equal intervals, mounting plates are connected between the two corresponding U-shaped clamping plates in a sliding mode, first locking holes are formed in the right side face of the mounting plates, first locking mechanisms used for limiting the first locking holes are arranged in the right side face of the cabinet body, and groove blocks are fixedly connected to the tops of the U-shaped clamping plates; according to the invention, through the arrangement of the U-shaped block, the pull rod, the connecting strip, the moving strip, the reset spring and the first inserting rod, the restriction on the first locking hole is removed, and the mounting plate is separated from the U-shaped clamping plate, so that the mounting plate can be taken down, the adjacent mounting plates can be disassembled, liquid accumulation boxes with different heights can be conveniently placed, and devices with different sizes can be placed.

Description

Distributed liquid cooling cabinet

Technical Field

The invention relates to the technical field of liquid cooling cabinets, in particular to a distributed liquid cooling cabinet.

Background

With the high-speed development of cloud computing, the requirements on the data processing capability of equipment such as a server and a switch are higher and higher, so that the power consumption of the equipment is increased sharply, the traditional air cooling heat dissipation mode cannot meet the heat dissipation requirement of high-power equipment, and therefore, an efficient and advanced liquid cooling heat dissipation mode is developed, at present, the liquid cooling heat dissipation technology of the equipment mainly comprises a submerged liquid cooling mode, a direct cooling plate type liquid cooling mode, an indirect cooling plate type liquid cooling mode and the like, wherein the submerged liquid cooling mode is widely applied due to high heat dissipation efficiency and good heat dissipation effect.

When the liquid cooling cabinet is used, the liquid accumulation box is usually placed between the adjacent partition plates, so that heating equipment is placed in the liquid accumulation box to realize distributed heat dissipation, but the size of the placed equipment is required to be corresponding to the size of the partition plates because the positions of the partition plates are fixed, so that when the heat dissipation of the heating equipment with a larger volume is carried out, the cabinet body is required to be replaced for heat dissipation, and a certain limitation is brought to the use of the liquid cooling cabinet.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, the size of placed equipment is required to be corresponding to the size of the placed equipment because the position of a baffle is fixed, so that when heat dissipation is carried out on heating equipment with a large volume, a cabinet body is required to be replaced again for heat dissipation, and certain limitation is brought to the use of a liquid cooling cabinet.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a distributed liquid cooling rack, includes the cabinet body, the equal equidistance fixedly connected with U type splint of the left and right sides wall of the cabinet body, corresponding two equal sliding connection has the mounting panel between the U type splint, first locking hole has been seted up to the right flank of mounting panel, the right flank of the cabinet body is provided with the first locking mechanism that is used for spacing first locking hole, the equal fixedly connected with groove block in the top of U type splint, equal joint has the connecting block in the groove block, corresponding two equal fixedly connected with hydrops box between the connecting block, the right side the second locking hole has been seted up at the middle part of connecting block, first locking mechanism's surface is provided with the second locking mechanism that is used for spacing second locking hole through coupling assembling linkage, still be provided with assist mechanism on the first locking mechanism, one side of the cabinet body is provided with the liquid subassembly that gets that is used for coolant submergence firing equipment, the front of the cabinet body articulates through the hinge has the sealing door, first locking mechanism includes two U-shaped pieces of fixed connection at cabinet body right flank, two equal joint have the connecting block in the connecting block, corresponding fixedly connected with the side of U-shaped block between the connecting block, two equal fixedly connected with hydrops box between the connecting block, the equal fixedly connected with top of connecting block and the equal sliding connection has the side of connecting block, the equal fixedly connected with one side of connecting block has the side of connecting block to the connecting rod, the equal sliding connection has the equal side of connecting block, the equal side of connecting block has the equal side of connecting block, the equal sliding connection has the equal side of connecting bar, the equal side of connecting block has the equal side of connecting box, the equal side of plug bar has the equal side of plug bar, the installation box and the supporting block are both connected with a rotating rod through a bearing in a rotating mode, the left end of the rotating rod is fixedly connected with a connecting gear, the connecting gear is connected with a corresponding connecting rack in a meshed mode, the right end of the rotating rod is fixedly connected with a main bevel gear disc, the outer surface of the main bevel gear disc is fixedly connected with a secondary bevel gear disc in a meshed mode, the second locking mechanism comprises a screw rod fixedly connected to the axis of the secondary bevel gear disc, the screw rod is connected with the installation box in a rotating mode through a bearing, threads of the outer surface of the screw rod are connected with threaded blocks, one side face of each threaded block is fixedly connected with lifting bars, rectangular grooves are formed in one side face of the installation box, the lifting bars are connected with the corresponding rectangular grooves in a sliding mode, one side face of each lifting bar is fixedly connected with a second inserting rod, and one end of each second inserting rod penetrates through the adjacent side wall of each groove block in a sliding mode and is clamped with each second locking hole.

Preferably, the auxiliary mechanism comprises a mounting groove formed in one side face of the U-shaped block, a first magnet is fixedly connected in the mounting groove, and a second magnet is fixedly connected to one side face, close to the first magnet, of the connecting strip.

Preferably, the liquid collecting cavity in the cabinet body is seted up to the liquid taking component, the internal fixedly connected with suction pump of cabinet, the feed liquor end of suction pump communicates with the liquid collecting cavity through the connecting pipe, the left surface fixedly connected with feed liquor pipe of the cabinet body, the play liquid end and the feed liquor pipe intercommunication of connecting pipe, the surface equidistance intercommunication of feed liquor pipe has first feed liquor interface, a side of hydrops box all communicates there is the second feed liquor interface, all communicate between first feed liquor interface and the corresponding second feed liquor interface has the hose, the left surface fixedly connected with drain pipe of the cabinet body, the surface equidistance intercommunication of drain pipe has first play liquid interface, a side of hydrops box still communicates there is the second play liquid interface, all communicate the hose between first play liquid interface and the corresponding second play liquid interface, the check valve is all installed with the surface of drain pipe to feed liquor pipe.

Preferably, a through hole for a hose to pass through is formed in the left side face of the cabinet body, and the second liquid inlet interface is located above the second liquid outlet interface.

Preferably, the bottom of hydrops box is symmetrical fixedly connected with two spacing, two spacing grooves have been seted up to the top symmetry of mounting panel, two spacing respectively sliding connection is in corresponding spacing groove.

Preferably, the position of the first liquid outlet interface is lower than the position of the corresponding second liquid outlet interface.

Compared with the prior art, the invention provides the distributed liquid cooling cabinet, which has the following beneficial effects:

1. this distributing type liquid cooling rack, through U-shaped piece, pull rod, connecting rod, removal strip, reset spring, the setting of first inserted bar for remove the restriction to first locking hole, make mounting panel and U type splint separation, thereby can take off the mounting panel, make adjacent mounting panel can dismantle, be convenient for place the hydrops box of not co-altitude, and then can place the equipment of equidimension, this kind of design has solved traditional liquid cooling rack and has placed the fixed problem of firing equipment volume.

2. This distributing type liquid cooling rack, through connecting rack, mounting box, supporting shoe, bull stick, connecting gear, main bevel gear dish, secondary bevel gear dish set up, when first locking mechanical system starts, can also drive second locking mechanical system operation, do not need to install independent actuating mechanism and order about second locking mechanical system operation, make the fixed more convenient of mounting panel and hydrops box, through the screw rod, the screw thread piece, the lifter strip, the rectangular channel, mutually support between the second inserted bar, when first locking mechanical system fixes a plurality of mounting panels, can also fix a plurality of hydrops boxes in step, when the installation, do not need to install alone, installation effectiveness has been increased.

3. This distributing type liquid cooling rack, through the setting of mounting groove, first magnet and second magnet, after first locking mechanical system and second locking mechanical system are fixed mounting panel and hydrops box, utilize magnetism between first magnet and the second magnet, can hold the connecting strip, reduce the connecting strip and receive external force influence, make first locking mechanical system move by oneself to the probability that makes mounting panel and hydrops box take place to remove, the stability of hydrops box when reinforcing the heat dissipation.

The device has the advantages that the adjacent mounting plates can be detached, liquid accumulation boxes with different heights can be conveniently placed, and then equipment with different sizes can be placed, so that the problem that the traditional liquid cooling cabinet is fixed in volume by placing heating equipment is solved, meanwhile, the plurality of mounting plates are fixed by the first locking mechanism, and simultaneously, the plurality of liquid accumulation boxes can be synchronously fixed, and the independent installation is not needed during the installation, so that the installation efficiency is increased.

Drawings

Fig. 1 is a schematic diagram of a front view of a distributed liquid cooling cabinet according to the present invention;

FIG. 2 is a schematic diagram illustrating a side view of a distributed liquid cooling cabinet according to the present invention;

fig. 3 is a schematic diagram of an internal structure of a distributed liquid cooling cabinet according to the present invention;

fig. 4 is a schematic diagram illustrating a side view of an internal structure of a distributed liquid cooling cabinet according to the present invention;

fig. 5 is a schematic structural diagram of a mounting plate of a distributed liquid cooling cabinet according to the present invention;

fig. 6 is a schematic diagram of a rear view of a liquid collecting box structure of a distributed liquid cooling cabinet according to the present invention;

fig. 7 is a schematic structural diagram of a first locking mechanism of a distributed liquid cooling cabinet according to the present invention;

FIG. 8 is an enlarged schematic view of the structure A in FIG. 7 of a distributed liquid cooling cabinet according to the present invention;

fig. 9 is a schematic diagram of an internal structure of a mounting box of a distributed liquid cooling cabinet according to the present invention.

In the figure: 1. a cabinet body; 2. u-shaped clamping plates; 3. a mounting plate; 4. a first locking hole; 5. a first locking mechanism; 501. a U-shaped block; 502. a pull rod; 503. a connecting strip; 504. moving the bar; 505. a return spring; 506. a first plunger; 6. a trough block; 7. a connecting block; 8. a dropsy box; 9. a second locking hole; 10. a connection assembly; 1001. the connecting rack; 1002. a mounting box; 1003. a support block; 1004. a rotating rod; 1005. a connecting gear; 1006. a main bevel gear disk; 1007. a secondary bevel gear disk; 11. a second locking mechanism; 1101. a screw rod; 1102. a screw block; 1103. lifting bars; 1104. rectangular grooves; 1105. a second plunger; 12. an auxiliary mechanism; 1201. a mounting groove; 1202. a first magnet; 1203. a second magnet; 13. a liquid taking component; 1301. a liquid collection cavity; 1302. a liquid suction pump; 1303. a connecting pipe; 1304. a liquid inlet pipe; 1305. a first liquid inlet port; 1306. a second liquid inlet port; 1307. a liquid outlet pipe; 1308. a first liquid outlet interface; 1309. a second liquid outlet interface; 1310. a one-way valve; 14. sealing the door; 15. a through hole; 16. a limit bar; 17. and a limit groove.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Example 1:

referring to fig. 1-9, a distributed liquid cooling cabinet comprises a cabinet body 1, the left and right side walls of the cabinet body 1 are fixedly connected with U-shaped clamping plates 2 at equal intervals, a mounting plate 3 is connected between the two corresponding U-shaped clamping plates 2 in a sliding manner, a first locking hole 4 is formed in the right side surface of the mounting plate 3, a first locking mechanism 5 for limiting the first locking hole 4 is arranged on the right side surface of the cabinet body 1, a groove block 6 is fixedly connected to the top of the U-shaped clamping plates 2, connecting blocks 7 are clamped in the groove block 6, a liquid collecting box 8 is fixedly connected between the two corresponding connecting blocks 7, a second locking hole 9 is formed in the middle of the right connecting block 7, a second locking mechanism 11 for limiting the second locking hole 9 is connected to the outer surface of the first locking mechanism 5 through a connecting component 10 in a linkage manner, an auxiliary mechanism 12 is further arranged on the first locking mechanism 5, a liquid taking component 13 for cooling liquid immersing heating equipment is arranged on one side surface of the cabinet body 1, the front of the cabinet body 1 is hinged with a sealing door 14 through a hinge, the first locking mechanism 5 comprises two U-shaped blocks 501 fixedly connected to the right side surface of the cabinet body 1, the middle parts of the two U-shaped blocks 501 are respectively and slidably connected with a pull rod 502, the top end of the pull rod 502 is fixedly connected with a connecting strip 503, the bottom end of the pull rod 502 is fixedly connected with a moving strip 504, the outer surface of the pull rod 502 is respectively sleeved with a return spring 505, the two ends of the return spring 505 are respectively and fixedly connected with the U-shaped blocks 501 and the moving strip 504, one side surface of the moving strip 504 is fixedly connected with a first inserting rod 506 at equal intervals, one end of the first inserting rod 506 is respectively and slidably connected with the right side wall of the cabinet body 1 and is clamped with a corresponding first locking hole 4, the connecting assembly 10 comprises a connecting rack 1001 fixedly connected to one side surface of the moving strip 504 at equal intervals, the top of the U-shaped clamping plate 2 is fixedly connected with a mounting box 1002, the inside of the installation box 1002 is fixedly connected with a supporting block 1003, a rotary rod 1004 is rotatably connected between the installation box 1002 and the supporting block 1003 through bearings, the left end of the rotary rod 1004 is fixedly connected with a connecting gear 1005, the connecting gear 1005 is in meshed connection with a corresponding connecting rack 1001, the right end of the rotary rod 1004 is fixedly connected with a main bevel gear disk 1006, the outer surface of the main bevel gear disk 1006 is in meshed connection with a secondary bevel gear disk 1007, the second locking mechanism 11 comprises a screw rod 1101 fixedly connected at the axis of the secondary bevel gear disk 1007, the screw rod 1101 is rotatably connected with the installation box 1002 through bearings, the outer surface of the screw rod 1101 is in threaded connection with a threaded block 1102, one side surface of the threaded block 1102 is fixedly connected with a lifting bar 1103, one side surface of the installation box 1002 is provided with a rectangular groove 1104, the lifting bar 1103 is in sliding connection with the inside of the corresponding rectangular groove 1104, one side surface of the lifting bar 1103 is fixedly connected with a second inserting bar, one end of the second inserting rod 1105 is all in sliding connection with the adjacent side wall of the groove block 6 and is clamped with the second locking hole 9, the liquid taking component 13 is arranged in a liquid collecting cavity 1301 in the cabinet body 1, the liquid sucking pump 1302 is fixedly connected in the cabinet body 1, the liquid inlet end of the liquid sucking pump 1302 is communicated with the liquid collecting cavity 1301 through a connecting pipe 1303, the left side surface of the cabinet body 1 is fixedly connected with a liquid inlet pipe 1304, the liquid outlet end of the connecting pipe 1303 is communicated with the liquid inlet pipe 1304, the outer surface of the liquid inlet pipe 1304 is equidistantly communicated with a first liquid inlet interface 1305, one side surface of the liquid accumulating box 8 is communicated with a second liquid inlet interface 1306, hoses are all communicated between the first liquid inlet interface 1305 and the corresponding second liquid inlet interface 1306, the left side surface of the cabinet body 1 is fixedly connected with a liquid outlet pipe 1307, the outer surface of the liquid outlet pipe 1307 is equidistantly communicated with a first liquid outlet interface 1308, one side surface of the liquid accumulating box 8 is also communicated with a second liquid outlet interface 1309, the first liquid outlet port 1308 and the corresponding second liquid outlet port 1309 are communicated with each other, the outer surfaces of the liquid inlet pipe 1304 and the liquid outlet pipe 1307 are provided with one-way valves 1310, the left side surface of the cabinet body 1 is provided with a through hole 15 for the flexible pipe to pass through, the second liquid inlet port 1306 is positioned above the second liquid outlet port 1309, the bottom of the liquid accumulation box 8 is symmetrically and fixedly connected with two limit strips 16, the top of the mounting plate 3 is symmetrically provided with two limit grooves 17, the two limit strips 16 are respectively and slidably connected in the corresponding limit grooves 17, the position of the first liquid outlet port 1308 is lower than the position of the corresponding second liquid outlet port 1309, the bottom of the liquid accumulation box 8 is symmetrically and fixedly connected with two limit strips 16, the top of the mounting plate 3 is symmetrically provided with two limit grooves 17, and the two limit strips 16 are respectively and slidably connected in the corresponding limit grooves 17.

In the invention, when the equipment is used, a plurality of mounting plates 3 slide in from between two corresponding U-shaped clamping plates 2, the interior of a cabinet body 1 is distributed into a plurality of heat dissipation areas by the mounting plates 3, a plurality of groups of heating equipment can be simultaneously subjected to heat dissipation to realize distributed heat dissipation, equipment needing heat dissipation is placed in a liquid accumulation box 8, two limit strips 16 are placed in corresponding limit grooves 17 and pushed forward until connecting blocks 7 are clamped in corresponding groove blocks 6, a plurality of liquid accumulation boxes 8 are initially installed at the tops of the corresponding mounting plates 3, the positions of the liquid accumulation boxes 8 during installation can be quickly found through the arrangement of the limit strips 16 and the limit grooves 17, the installation efficiency is improved, after the plurality of mounting plates 3 and the liquid accumulation boxes 8 are initially installed, a first locking mechanism 5 is started for limiting a first locking hole 4, so that the mounting plates 3 and the U-shaped clamping plates 2 are fixed, and the second locking mechanism 11 is driven to operate through the linkage action of the connecting component 10, the second locking mechanism 11 can synchronously limit the second locking holes 9 while the first locking mechanism 5 fixes the mounting plates 3, so that the installation of the liquid accumulation boxes 8 is completed, the heating equipment placed in the liquid accumulation boxes 8 cannot move after being impacted by cooling liquid, the stability is enhanced, after the liquid accumulation boxes 8 are installed, a plurality of hoses pass through the corresponding through holes 15, the first liquid inlet 1305 is connected with the corresponding second liquid inlet 1306, the first liquid outlet 1308 is connected with the corresponding second liquid outlet 1309, cooling liquid is added into the liquid collecting cavity 1301 from the liquid inlet formed at the side surface of the cabinet body 1, the one-way valve 1310 on the liquid inlet pipe 1304 is opened when heat dissipation is needed, the liquid suction pump 1302 is started, the cooling liquid in the liquid collecting cavity 1301 is pumped into the liquid inlet pipe 1304 through the connecting pipe 1303, and is pumped into the corresponding liquid collecting box 8 through the first liquid inlet connector 1305, the hose and the second liquid inlet connector 1306, so that the cooling liquid submerges the heating equipment, the heating equipment is radiated by the cooling liquid, after the heat exchange temperature of the cooling liquid and the equipment is increased, the one-way valve 1310 on the liquid outlet pipe 1307 is opened, the heated cooling liquid in the liquid collecting box 8 flows out through the second liquid outlet connector 1309, the hose and the first liquid outlet connector 1308, the collecting box is placed at the bottom end of the liquid outlet pipe 1307, the cooling liquid is collected, the liquid sucking pump 1302 is started again, new cooling liquid is fed, and the circulation is performed, so that the cooling liquid is cooled and radiated by the equipment, the position of the first liquid outlet connector 1308 is lower than the position of the corresponding second liquid outlet connector 1309, and the position of the hose is downward, so that the cooling liquid in the liquid collecting box 8 can flow out.

Example 2:

referring to fig. 1-9, a distributed liquid cooling cabinet comprises a cabinet body 1, the left and right side walls of the cabinet body 1 are fixedly connected with U-shaped clamping plates 2 at equal intervals, a mounting plate 3 is connected between the two corresponding U-shaped clamping plates 2 in a sliding manner, a first locking hole 4 is formed in the right side surface of the mounting plate 3, a first locking mechanism 5 for limiting the first locking hole 4 is arranged on the right side surface of the cabinet body 1, a groove block 6 is fixedly connected to the top of the U-shaped clamping plates 2, connecting blocks 7 are clamped in the groove block 6, a liquid collecting box 8 is fixedly connected between the two corresponding connecting blocks 7, a second locking hole 9 is formed in the middle of the right connecting block 7, a second locking mechanism 11 for limiting the second locking hole 9 is connected to the outer surface of the first locking mechanism 5 through a connecting component 10 in a linkage manner, an auxiliary mechanism 12 is further arranged on the first locking mechanism 5, a liquid taking component 13 for cooling liquid immersing heating equipment is arranged on one side surface of the cabinet body 1, the front of the cabinet body 1 is hinged with a sealing door 14 through a hinge, the first locking mechanism 5 comprises two U-shaped blocks 501 fixedly connected to the right side surface of the cabinet body 1, the middle parts of the two U-shaped blocks 501 are respectively and slidably connected with a pull rod 502, the top end of the pull rod 502 is fixedly connected with a connecting strip 503, the bottom end of the pull rod 502 is fixedly connected with a moving strip 504, the outer surface of the pull rod 502 is respectively sleeved with a return spring 505, the two ends of the return spring 505 are respectively and fixedly connected with the U-shaped blocks 501 and the moving strip 504, one side surface of the moving strip 504 is fixedly connected with a first inserting rod 506 at equal intervals, one end of the first inserting rod 506 is respectively and slidably connected with the right side wall of the cabinet body 1 and is clamped with a corresponding first locking hole 4, the connecting assembly 10 comprises a connecting rack 1001 fixedly connected to one side surface of the moving strip 504 at equal intervals, the top of the U-shaped clamping plate 2 is fixedly connected with a mounting box 1002, the inside of installation box 1002 all fixedly connected with supporting shoe 1003, all be connected with bull stick 1004 through the bearing rotation between installation box 1002 and the supporting shoe 1003, the equal fixedly connected with connecting gear 1005 of left end of bull stick 1004, connecting gear 1005 is all engaged with corresponding connecting rack 1001 and is connected, the equal fixedly connected with main bevel gear dish 1006 of right-hand member of bull stick 1004, the surface of main bevel gear dish 1006 all engaged with and is connected with secondary bevel gear dish 1007, second locking mechanical system 11 includes the lead screw 1101 of fixed connection in secondary bevel gear dish 1007 axle center department, lead screw 1101 passes through the bearing and is connected with installation box 1002 rotation, the surface threaded connection of lead screw 1101 has screw block 1102, a side of screw block 1102 all fixedly connected with lifter 1103, rectangular channel 1104 has all been seted up to a side of installation box 1002, lifter 1103 sliding connection is in the inside of corresponding rectangular channel 1104, a side fixedly connected with second inserted bar of lifter 1103, the one end of second inserted bar 1105 all slides through the adjacent lateral wall of groove block 6 and with second locking hole 9 joint.

In the invention, basically the same as the embodiment 1, further, when the mounting plate 3 needs to be mounted, the connecting strip 503 is pulled rightwards, the connecting strip 503 drives the pull rod 502 to slide rightwards in the middle of the U-shaped block 501, thereby driving the moving strip 504 and the first inserting rod 506 to slide rightwards together, and compressing the two restoring springs 505, at the moment, an external device can be used to prop up the connecting strip 503 between the U-shaped block 501 and the connecting strip 503, so that the connecting strip 503 is prevented from independently resetting, a worker can more conveniently mount the heat dissipation device in the cabinet 1, then the mounting plate 3 passes through the corresponding U-shaped clamping plate 2, after the connecting block 7 is clamped into the groove block 6, the connecting strip 503 is loosened, the connecting strip 503 and the moving strip 504 are driven to reset by the elasticity of the restoring spring 505, the first inserting rod 506 is inserted into the corresponding first locking hole 4, and then the plurality of mounting plates 3 can be fixed simultaneously, when the mounting plate 3 is not required to be fixed independently and the mounting plate 3 is required to be dismounted, the connecting bar 503 is pulled rightward to slide out of the first locking hole 4, the mounting plate 3 is pulled out of the U-shaped clamping plate 2, the design can be used for dismounting the adjacent mounting plate 3 so as to place the liquid accumulation boxes 8 with different heights, and then equipment with different sizes can be placed, the problem that the traditional liquid cooling cabinet is fixed in volume when the heating equipment is placed is solved, when the moving bar 504 is pulled, the connecting rack 1001 is driven to slide together, as the connecting rack 1001 is meshed and connected with the connecting gear 1005, the connecting gear 1005 is driven to rotate with the rotating rod 1004, the rotating rod 1004 is supported by the arrangement of the supporting block 1003, the stability of the rotating rod 1004 is enhanced, when the rotating rod 1004 rotates, the main conical gear disc 1006 is driven to rotate, and as the main conical gear disc 1006 is meshed and connected with the secondary conical gear disc 1007, therefore, the secondary bevel gear disc 1007 and the screw rod 1101 are driven to rotate, when the first locking mechanism 5 is operated, the second locking mechanism 11 is synchronously driven to operate, an independent driving mechanism is not required to be installed to drive the second locking mechanism 11 to operate, the fixing of the mounting plate 3 and the effusion box 8 is more convenient, when the screw rod 1101 is rotated, the lifting bar 1103 is driven to slide downwards in the rectangular groove 1104 due to the threaded connection of the threaded block 1102 and the screw rod 1101 and the limiting function of the rectangular groove 1104, the second inserting rod 1105 slides downwards along with the lifting bar, the second inserting rod 1105 penetrates through the groove block 6 and is clamped into the corresponding second locking hole 9, and the mounting plate 3 can be synchronously fixed to a plurality of effusion boxes 8 when the first locking mechanism 5 is fixed, so that the mounting efficiency is not required to be independently installed when the mounting plate is installed.

Example 3:

referring to fig. 1-9, the auxiliary mechanism 12 includes a mounting groove 1201 formed in a side surface of the U-shaped block 501, a first magnet 1202 is fixedly connected in the mounting groove 1201, and a second magnet 1203 is fixedly connected to a side surface of the connecting bar 503 adjacent to the first magnet 1202.

In the present invention, the same as in the embodiments 1 and 2, further, after the connecting block 7 is clamped in the groove block 6, the connecting bar 503 is released, the connecting bar 503 and the moving bar 504 are driven to reset by the elastic force of the reset spring 505, after the connecting bar 503 is reset, the first magnet 1202 is attached to the second magnet 1203 by the magnetism of the first magnet 1202 and the second magnet 1203, the connecting bar 503 can be attracted by the magnetism between the first magnet 1202 and the second magnet 1203, the influence of external force on the connecting bar 503 is reduced, the first locking mechanism 5 is automatically operated, thereby the probability of moving the mounting plate 3 and the effusion box 8 is enhanced, the stability of the effusion box 8 is enhanced during heat dissipation, and the arrangement of the mounting groove 1201 is used for mounting the first magnet 1202.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides a distributed liquid cooling cabinet, includes cabinet body (1), its characterized in that, the equal equidistance fixedly connected with U type splint (2) of left and right sides wall of cabinet body (1), corresponding two equal sliding connection has mounting panel (3) between U type splint (2), first locking hole (4) have been seted up to the right flank of mounting panel (3), the right flank of cabinet body (1) is provided with first locking mechanism (5) that are used for spacing first locking hole (4), the equal fixedly connected with groove piece (6) in top of U type splint (2), equal joint has connecting block (7) in groove piece (6), corresponding two equal fixedly connected with hydrops box (8) between connecting block (7), the right side second locking hole (9) have been seted up at the middle part of connecting block (7), the surface of first locking mechanism (5) is provided with second locking mechanism (11) that are used for spacing second locking hole (9) through coupling assembling (10), still be provided with on first locking mechanism (5) auxiliary mechanism (12), it has hinge assembly (14) to get hinge assembly (1) to take side of the cooling body (1) to get the front of hinge equipment (14), the first locking mechanism (5) comprises two U-shaped blocks (501) fixedly connected to the right side surface of the cabinet body (1), two U-shaped blocks (501) are both connected with a pull rod (502) in a sliding mode, the top end of the pull rod (502) is fixedly connected with a connecting rod (503), the bottom end of the pull rod (502) is fixedly connected with a moving rod (504), the outer surface of the pull rod (502) is sleeved with a return spring (505), two ends of the return spring (505) are respectively fixedly connected with the U-shaped blocks (501) and the moving rod (504), one side surface of the moving rod (504) is fixedly connected with a first inserting rod (506) in an equidistant mode, one end of each first inserting rod (506) is connected with the right side wall of the cabinet body (1) in a clamping mode through a corresponding first locking hole (4), the connecting assembly (10) comprises a connecting rod (1001) fixedly connected to one side surface of the moving rod (504) in an equidistant mode, the top of the U-shaped clamping plate (2) is fixedly connected with a mounting box (1002), two ends of the mounting box (1002) are respectively fixedly connected with the U-shaped blocks (1003) and the two rotating rods (1004) are fixedly connected with a rotating bearing (1005) respectively, the connecting gear (1005) is connected with the corresponding connecting rack (1001) in an all-meshed mode, the right end of the rotating rod (1004) is fixedly connected with a main bevel gear disc (1006), the outer surface of the main bevel gear disc (1006) is connected with a secondary bevel gear disc (1007) in an all-meshed mode, the second locking mechanism (11) comprises a screw rod (1101) fixedly connected with the axis of the secondary bevel gear disc (1007), the screw rod (1101) is rotatably connected with the mounting box (1002) through a bearing, a threaded block (1102) is connected with the outer surface of the screw rod (1101) in a threaded mode, lifting strips (1103) are fixedly connected to one side face of the threaded block (1102), rectangular grooves (1104) are formed in one side face of the mounting box (1002), the lifting strips (1103) are slidably connected to the inner portions of the corresponding rectangular grooves (1104), one side face of the lifting strips (1103) is fixedly connected with a second inserting rod (1105), and one end of each second inserting rod (1105) is slidably connected with the side wall adjacent to the groove block (6) and is clamped with the second locking hole (9).

2. The distributed liquid cooling cabinet according to claim 1, wherein the auxiliary mechanism (12) comprises a mounting groove (1201) formed in one side surface of the U-shaped block (501), a first magnet (1202) is fixedly connected in the mounting groove (1201), and a second magnet (1203) is fixedly connected to one side surface of the connecting strip (503) close to the first magnet (1202).

3. The distributed liquid cooling cabinet according to claim 1, wherein the liquid taking component (13) is provided with a liquid collecting cavity (1301) in the cabinet body (1), a liquid sucking pump (1302) is fixedly connected in the cabinet body (1), a liquid inlet end of the liquid sucking pump (1302) is communicated with the liquid collecting cavity (1301) through a connecting pipe (1303), a liquid inlet pipe (1304) is fixedly connected to the left side surface of the cabinet body (1), a liquid outlet end of the connecting pipe (1303) is communicated with the liquid inlet pipe (1304), first liquid inlet interfaces (1305) are communicated with the outer surface of the liquid inlet pipe (1304) at equal intervals, a second liquid inlet interface (1306) is communicated with one side surface of the liquid accumulating box (8), hoses are communicated between the first liquid inlet interface (1305) and the corresponding second liquid inlet interface (1306), a liquid outlet pipe (1307) is fixedly connected to the left side surface of the cabinet body (1), a first liquid outlet interface (1308) is communicated with the outer surface of the liquid accumulating box (8), a liquid outlet valve (1309) is further communicated with the outer surface of the liquid inlet pipe (1307).

4. A distributed liquid cooling cabinet according to claim 3, wherein the left side of the cabinet body (1) is provided with a through hole (15) for a hose to pass through, and the second liquid inlet (1306) is located above the second liquid outlet (1309).

5. The distributed liquid cooling cabinet according to claim 1, wherein two limit strips (16) are symmetrically and fixedly connected to the bottom of the effusion box (8), two limit grooves (17) are symmetrically formed in the top of the mounting plate (3), and the two limit strips (16) are respectively and slidably connected to the corresponding limit grooves (17).

6. A distributed liquid cooled cabinet according to claim 3, characterized in that the first outlet port (1308) is located lower than the corresponding second outlet port (1309).

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