CN115867006A - Distributed liquid cooling cabinet - Google Patents

Abstract

The invention discloses a distributed liquid cooling cabinet, and belongs to the field of liquid cooling cabinets. A distributed liquid cooling cabinet comprises a cabinet body, wherein the left side wall and the right side wall of the cabinet body are fixedly connected with U-shaped clamp plates at equal intervals, a mounting plate is connected between every two corresponding U-shaped clamp plates in a sliding mode, a first locking hole is formed in the right side surface of the mounting plate, a first locking mechanism used for limiting the first locking hole is arranged on the right side surface of the cabinet body, and groove blocks are fixedly connected to the tops of the U-shaped clamp plates; according to the invention, through the arrangement of the U-shaped block, the pull rod, the connecting strip, the moving strip, the return spring and the first inserting rod, the limitation on the first locking hole is removed, so that the mounting plate is separated from the U-shaped clamping plate, the mounting plate can be taken down, the adjacent mounting plates can be detached, the liquid collecting boxes with different heights can be conveniently placed, and further, the 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 requirement on the data processing capacity of equipment such as a server and a switch is higher and higher, so that the power consumption of the equipment is rapidly increased, and the traditional air cooling heat dissipation mode cannot meet the heat dissipation requirement of high-power equipment, so that a high-efficiency and advanced liquid cooling heat dissipation mode is developed.

When the liquid cooling cabinet is used, the liquid storage box is usually placed between the adjacent partition plates, so that the heating equipment is placed in the liquid storage box, distributed heat dissipation is achieved, but the position of each partition plate is fixed, the size of the placed equipment also needs to correspond to the size of the placed equipment, so that when the heating equipment with a large size is subjected to heat dissipation, the cabinet body needs to be replaced again for heat dissipation, certain limitation is brought to the use of the liquid cooling cabinet, and therefore the distributed liquid cooling cabinet is provided.

Disclosure of Invention

The invention aims to solve the problem that in the prior art, the size of the placed equipment needs to be corresponding to the size of the placed equipment due to the fact that the position of a partition plate is fixed, so that when heat generating equipment with a large volume is radiated, a cabinet body needs to be replaced again for radiating, and certain limitation is brought to the use of a liquid cooling cabinet.

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

the utility model provides a distributing type 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 mechanical system who is used for spacing first locking hole, the equal fixedly connected with groove block in 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 second locking hole has all been seted up at the middle part of connecting block, the surface of first locking mechanical system has the second locking mechanical system who is used for spacing second locking hole through the coupling assembling linkage, still be provided with complementary unit on the first locking mechanical system, a side of the cabinet body is provided with the liquid subassembly of getting that is used for the coolant liquid to soak equipment that generates heat, the front of the cabinet body articulates through the hinge has sealing door.

Preferably, first locking mechanical system includes two U-shaped blocks of fixed connection at the cabinet body right flank, two equal sliding connection in middle part of U-shaped block has the pull rod, the top fixedly connected with connecting strip of pull rod, the bottom fixedly connected with of pull rod removes the strip, reset spring has all been cup jointed to the surface of pull rod, reset spring's both ends respectively with U-shaped block and removal strip fixed connection, remove the first inserted bar of a side equidistance fixedly connected with of strip, the one end of first inserted bar all slides and runs through the right side wall of the cabinet body and with corresponding first locking hole joint.

Preferably, the connecting assembly comprises a connecting rack fixedly connected to one side of the moving strip at equal intervals, a mounting box fixedly connected to the top of the U-shaped clamping plate, supporting blocks fixedly connected to the inside of the mounting box, rotating rods rotatably connected between the mounting box and the supporting blocks through bearings, connecting gears fixedly connected to the left ends of the rotating rods, the connecting gears are meshed with the corresponding connecting racks, main bevel gear discs are fixedly connected to the right ends of the rotating rods, and secondary bevel gear discs are meshed with the outer surfaces of the main bevel gear discs.

Preferably, the second locking mechanism comprises a screw rod fixedly connected to the shaft center of the secondary bevel gear disc, the screw rod is rotatably connected with the mounting box through a bearing, a thread block is connected to the outer surface of the screw rod in a threaded manner, a lifting bar is fixedly connected to one side face of the thread block, a rectangular groove is formed in one side face of the mounting box, the lifting bar is slidably connected to the inside of the corresponding rectangular groove, a second inserting rod is fixedly connected to one side face of the lifting bar, and one end of the second inserting rod slidably penetrates through the adjacent side wall of the groove block and is connected with a suitable second locking hole in a clamped manner.

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, get the liquid subassembly and set up the internal collection liquid chamber of cabinet, the internal fixedly connected with of cabinet inhales the liquid pump, the feed liquor end of inhaling the liquid pump passes through connecting pipe and collection liquid chamber intercommunication, 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 to go out the liquid interface, all communicate between first play liquid interface and the corresponding second play liquid interface has the hose, the check valve is all installed with the surface of drain pipe to the feed liquor pipe.

Preferably, a through hole for the 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 the liquid accumulating box is symmetrically and fixedly connected with two limiting strips, the top of the mounting plate is symmetrically provided with two limiting grooves, and the two limiting strips are respectively connected in the corresponding limiting grooves in a sliding manner.

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

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

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

2. This distributed liquid cooling rack, through connecting the rack, the mounting box, the supporting shoe, the bull stick, connecting gear, main bevel gear dish, the setting of time bevel gear dish, when first locking mechanical system starts, can also drive the operation of second locking mechanical system, need not install solitary actuating mechanism and order about the operation of second locking mechanical system, it is more convenient to make the fixed of mounting panel and hydrops box, again through the lead screw, the thread piece, the lifting 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 the independent installation, installation effectiveness has been increased.

3. This distributed 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 operate by oneself to make the probability that mounting panel and hydrops box took place to remove, stability of hydrops box during the reinforcing heat dissipation.

The parts which are not involved in the device are the same as or can be realized by adopting the prior art, the adjacent mounting plates can be detached, the liquid accumulating boxes with different heights can be placed conveniently, equipment with different sizes can be placed, the problem that the heating equipment is fixed when the traditional liquid cooling cabinet is placed is solved, meanwhile, the first locking mechanism fixes the mounting plates, the liquid accumulating boxes can be fixed synchronously, and the device does not need to be installed independently during installation, so that the installation efficiency is increased.

Drawings

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

fig. 2 is a schematic structural side view of a distributed liquid-cooled cabinet according to the present invention;

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

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

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

fig. 6 is a schematic diagram of a liquid accumulation 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-cooled cabinet according to the present invention;

fig. 8 is an enlarged schematic view of a structure at a point a in fig. 7 of a distributed liquid-cooled cabinet according to the present invention;

fig. 9 is a schematic view 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. a U-shaped splint; 3. mounting a 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. a moving bar; 505. a return spring; 506. a first plunger; 6. a groove block; 7. connecting blocks; 8. a liquid accumulation box; 9. a second locking hole; 10. a connecting assembly; 1001. connecting the racks; 1002. mounting a box; 1003. a support block; 1004. a rotating rod; 1005. a connecting gear; 1006. a main bevel gear disc; 1007. a secondary bevel gear disc; 11. a second locking mechanism; 1101. a screw rod; 1102. a thread block; 1103. a lifting bar; 1104. a rectangular groove; 1105. a second plunger; 12. an auxiliary mechanism; 1201. mounting grooves; 1202. a first magnet; 1203. a second magnet; 13. a liquid taking assembly; 1301. a liquid collection cavity; 1302. a liquid suction pump; 1303. a connecting pipe; 1304. a liquid inlet pipe; 1305. a first liquid inlet interface; 1306. a second liquid inlet interface; 1307. a liquid outlet pipe; 1308. a first liquid outlet port; 1309. a second liquid outlet interface; 1310. a one-way valve; 14. a sealing door; 15. a through hole; 16. a limiting strip; 17. a limiting groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

The first embodiment is as follows:

referring to fig. 1-9, a distributed liquid cooling cabinet comprises a cabinet body 1, wherein the left side wall and the right side wall of the cabinet body 1 are fixedly connected with U-shaped clamp plates 2 at equal intervals, a mounting plate 3 is slidably connected between two corresponding U-shaped clamp plates 2, 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 each U-shaped clamp plate 2, a connecting block 7 is clamped in each groove block 6, a liquid accumulating box 8 is fixedly connected between two corresponding connecting blocks 7, a second locking hole 9 is formed in the middle of each connecting block 7, a second locking mechanism 11 for limiting the second locking hole 9 is linked to the outer surface of each first locking mechanism 5 through a connecting assembly 10, an auxiliary mechanism 12 is further arranged on each first locking mechanism 5, a liquid taking assembly 13 for cooling liquid immersion 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 liquid taking assembly 13 is arranged in a liquid collecting cavity 1301 in the cabinet body 1, a liquid suction pump 1302 is fixedly connected in the cabinet body 1, a liquid inlet end of the liquid suction 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 of the cabinet body 1, a liquid outlet end of the connecting pipe 1303 is communicated with the liquid inlet pipe 1304, a first liquid inlet interface 1305 is 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 of the cabinet body 1, a first liquid outlet interface 1308 is communicated with the outer surface of the liquid outlet pipe 1307 at equal intervals, a second liquid outlet interface 1309 is also communicated with one side surface of the liquid accumulating box 8, hoses are communicated between the first liquid outlet interface 1308 and the corresponding second liquid outlet interface 1309, check valves 1310 are installed on the outer surfaces of the liquid inlet pipe 1304 and the liquid outlet pipe 1307, a through hole 15 for a hose to pass through is formed in the left side surface of the cabinet body 1, the second liquid inlet port 1306 is located above the second liquid outlet port 1309, two limiting strips 16 are symmetrically and fixedly connected to the bottom of the liquid accumulation box 8, two limiting grooves 17 are symmetrically formed in the top of the mounting plate 3, the two limiting strips 16 are respectively connected in the corresponding limiting grooves 17 in a sliding manner, and the position of the first liquid outlet port 1308 is lower than that of the corresponding second liquid outlet port 1309.

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

Example two:

referring to fig. 1-9, a distributed liquid cooling cabinet, including cabinet 1, the equal equidistance fixedly connected with U type splint 2 of the left and right sides wall of cabinet 1, equal sliding connection has mounting panel 3 between two corresponding U type splint 2, first locking hole 4 has been seted up to the right flank of mounting panel 3, the right flank of cabinet 1 is provided with the first locking mechanism 5 that is used for spacing first locking hole 4, the equal fixedly connected with groove block 6 in top of U type splint 2, equal joint has connecting block 7 in the groove block 6, equal fixedly connected with hydrops box 8 between two corresponding connecting blocks 7, second locking hole 9 has all been seted up at the middle part of connecting block 7, the surface of first locking mechanism 5 has the second locking mechanism 11 that is used for spacing second locking hole 9 through coupling assembling 10 linkage, still be provided with complementary unit 12 on first locking mechanism 5, a side of cabinet 1 is provided with the liquid taking component 13 that is used for the coolant soaks the equipment that generates heat, the front of cabinet 1 has sealed door 14 through hinged joint, first locking mechanism 5 includes two U type locking mechanisms that fixed connection are connected at the right flank of cabinet 1 right flank, the equal sliding connection has the equal distance connect with the draw bar 502 that moves, the top of the slide connection has the slide bar 502 that the draw bar 502 that the fixed rod moves, the pull rod 502 that the fixed rod moves the pull rod 502 that the pull rod moves, the right side of the corresponding first locking mechanism 502 that the fixed connection has the corresponding pull rod 502 that the fixed connection has the corresponding U type draw bar 502, the corresponding connection 504, the fixed connection 504, the corresponding pull rod 502 that the right side bar 502 that the cabinet 1, the fixed connection has the fixed connection is connected with the corresponding pull rod 502, the right side of the corresponding pull rod 502 that the slide connection is connected with the cabinet 1, the corresponding pull rod 502, the right side of the cabinet 1, the corresponding connection 504, the slide connection is connected with the slide connection of the slide bar 502, the corresponding connection of the right side of the slide bar 502, the slide connection 504, the slide bar 502, the cabinet 1, the corresponding connection 504, the slide bar 502.

In the invention, basically the same as embodiment 1, further, when the mounting plate 3 needs to be mounted, the connecting bar 503 is pulled rightwards, the connecting bar 503 drives the pull rod 502 to slide rightwards in the middle of the U-shaped block 501, so as to drive the moving bar 504 and the first insertion bar 506 to slide rightwards along, two reset springs 505 are compressed, at this time, an external device can be used to abut against between the U-shaped block 501 and the connecting bar 503, the connecting bar 503 is supported, the self-reset of the connecting bar 503 is avoided, so that a worker can more conveniently mount a heat dissipation device in the cabinet body 1, then, the mounting plate 3 passes through the corresponding U-shaped clamping plate 2, 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 reset through the elastic force of the reset springs 505, so that the first insertion bar 506 is inserted into the corresponding first locking hole 4, a plurality of mounting plates 3 can be simultaneously fixed, and do not need to be independently fixed, when the mounting plate 3 needs to be dismounted, the connecting bar 503 is pulled rightwards, so as to slide out of the first locking hole 4 from the corresponding locking hole 503, and the mounting plate 3 can be placed in a liquid cooling device, thereby solving the problem of different sizes of traditional liquid cooling devices, and the traditional cabinet 3, and the problem of different sizes can be solved.

Example three:

referring to fig. 1-9, a distributed liquid cooling cabinet comprises a cabinet body 1, wherein the left side wall and the right side wall of the cabinet body 1 are fixedly connected with U-shaped clamp plates 2 at equal intervals, a mounting plate 3 is slidably connected between two corresponding U-shaped clamp plates 2, 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 each U-shaped clamp plate 2, a connecting block 7 is clamped in each groove block 6, a liquid accumulating box 8 is fixedly connected between two corresponding connecting blocks 7, a second locking hole 9 is formed in the middle of each connecting block 7, a second locking mechanism 11 for limiting the second locking hole 9 is linked to the outer surface of each first locking mechanism 5 through a connecting assembly 10, an auxiliary mechanism 12 is further arranged on each first locking mechanism 5, a liquid taking assembly 13 for cooling liquid immersion 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 connecting assembly 10 comprises connecting racks 1001 fixedly connected with one side surface of the moving bar 504 at equal intervals, the tops of the U-shaped clamping plates 2 are fixedly connected with mounting boxes 1002, supporting blocks 1003 are fixedly connected inside the mounting boxes 1002, rotating rods 1004 are rotatably connected between the mounting boxes 1002 and the supporting blocks 1003 through bearings, connecting gears 1005 are fixedly connected at the left ends of the rotating rods 1004, the connecting gears 1005 are meshed with the corresponding connecting racks 1001, a main bevel gear disc 1006 is fixedly connected at the right end of each rotating rod 1004, a secondary bevel gear disc 1007 is meshed with the outer surface of each main bevel gear disc 1006, the second locking mechanism 11 comprises a screw rod 1101 fixedly connected at the axis of the secondary bevel gear disc 1007, the screw rod 1101 is rotatably connected with the mounting boxes 1002 through bearings, and a thread block 1102 is connected to the outer surface of the screw rod 1101, the equal fixedly connected with of a side of screw block 1102 goes up and down the strip 1103, and rectangular channel 1104 has all been seted up to the side of mounting box 1002, goes up and down strip 1103 sliding connection in the inside of corresponding rectangular channel 1104, and a side fixedly connected with second inserted bar 1105 of strip 1103 goes up and down the one end of second inserted bar 1105 and all slides and run through the adjacent lateral wall of groove block 6 and with suitable second locking hole 9 joint.

In the present invention, basically the same as embodiment 1, further, when the moving bar 504 is pulled, the connecting rack 1001 is driven to slide together, the connecting rack 1001 is meshed with the connecting gear 1005 to drive the connecting gear 1005 and the rotating rod 1004 to rotate, the rotating rod 1004 is supported by the supporting block 1003 to enhance the stability when the rotating rod 1004 rotates, the main bevel gear disc 1006 is driven to rotate, because the main bevel gear disc 1006 is meshed with the secondary bevel gear disc 1007, the secondary bevel gear disc 1007 and the lead screw 1101 are driven to rotate, in this design, when the first locking mechanism 5 operates, the second locking mechanism 11 is driven to operate synchronously, there is no need to install a separate driving mechanism to drive the second locking mechanism 11 to operate, so that the mounting plate 3 and the liquid accumulating box 8 are more conveniently fixed, when the 1101 rotates, because the screw block is in threaded connection with the lead screw 1101 and the limiting function of the rectangular groove 1104, so that the lifting bar is driven to slide downwards inside the groove 1104, so that the second inserting bar 1105 slides downwards along with the second inserting bar 1102, and the second inserting bar 1102 is inserted into the mounting hole 1102, and the corresponding mounting efficiency of the second inserting bar 1102 is increased, and when the mounting plate 3 is installed, and the mounting plate 1103 is installed, and the multiple mounting efficiency is increased.

Example four:

referring to fig. 1-9, a distributed liquid cooling cabinet, including a cabinet body 1, the equal equidistance fixedly connected with U type splint 2 of the left and right sides wall of the cabinet body 1, equal sliding connection has a mounting panel 3 between two corresponding U type splint 2, first locking hole 4 has been seted up to the right flank of mounting panel 3, the right flank of the cabinet body 1 is provided with first locking mechanism 5 that is used for spacing first locking hole 4, the equal fixedly connected with groove block 6 in top of U type splint 2, equal joint has connecting block 7 in the groove block 6, equal fixedly connected with hydrops box 8 between two corresponding connecting blocks 7, second locking hole 9 has all been seted up at the middle part of connecting block 7, the surface of first locking mechanism 5 links through coupling assembling component 10 has second locking mechanism 11 that is used for spacing second locking hole 9, still be provided with complementary unit 12 on first locking mechanism 5, a side of the cabinet body 1 is provided with the liquid taking component 13 that is used for the coolant liquid to soak equipment that generates heat, the front of the cabinet body 1 hinges has sealing door 1203, complementary unit 12 includes the mounting groove 1201 that is established in a side of U type splint 501, a side of the connecting bar 503 is close to first magnet 1202.

In the invention, basically the same as the embodiment 1, further, after the connecting block 7 is clamped into the groove block 6, the connecting strip 503 is released, the connecting strip 503 and the moving strip 504 are driven to reset through the elastic force of the reset spring 505, after the connecting strip 503 is reset, the first magnet 1202 and the second magnet 1203 are attached through the magnetism of the first magnet 1202 and the second magnet 1203, in this design, the connecting strip 503 can be sucked by utilizing the magnetism between the first magnet 1202 and the second magnet 1203, the influence of external force on the connecting strip 503 is reduced, the first locking mechanism 5 operates automatically, so that the probability of movement of the mounting plate 3 and the effusion box 8 is increased, the stability of the effusion box 8 during heat dissipation is enhanced, and the mounting groove 1201 is used for mounting the first magnet 1202.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (9)

1. The utility model provides a distributing type liquid cooling rack, includes the cabinet body (1), its characterized in that, the equal equidistance fixedly connected with U type splint (2) of the left and right sides wall of the 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 the 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 block (6) in top of U type splint (2), equal joint has connecting block (7), corresponding two in groove block (6) equal fixedly connected with hydrops box (8) between connecting block (7), second locking hole (9) have all been seted up at the middle part of connecting block (7), the surface of first locking mechanism (5) has second locking mechanism (11) that are used for spacing second locking hole (9) through coupling assembling (10) linkage, still be provided with complementary unit (12) on first locking mechanism (5), a side of the cabinet body (1) is provided with the equipment that is used for getting the cooling liquid through hinge joint (13) the sealed door that the cabinet body does not have, the heating assembly (14) hinge.

2. The distributed liquid cooling cabinet according to claim 1, wherein the first locking mechanism (5) comprises two U-shaped blocks (501) fixedly connected to the right side of the cabinet body (1), a pull rod (502) is slidably connected to the middle of each of the two U-shaped blocks (501), a connecting strip (503) is fixedly connected to the top end of each pull rod (502), a moving strip (504) is fixedly connected to the bottom end of each pull rod (502), a return spring (505) is sleeved on the outer surface of each pull rod (502), two ends of each return spring (505) are fixedly connected to the U-shaped blocks (501) and the moving strip (504), first inserting rods (506) are fixedly connected to one side of each moving strip (504) at equal intervals, and one ends of the first inserting rods (506) slidably penetrate through the right side wall of the cabinet body (1) and are clamped with the corresponding first locking holes (4).

3. The distributed liquid cooling cabinet according to claim 2, wherein the connecting assembly (10) comprises connecting racks (1001) fixedly connected to one side of the moving bar (504) at equal intervals, the top of the U-shaped clamping plate (2) is fixedly connected with a mounting box (1002), supporting blocks (1003) are fixedly connected to the inside of the mounting box (1002), rotating rods (1004) are rotatably connected between the mounting box (1002) and the supporting blocks (1003) through bearings, connecting gears (1005) are fixedly connected to the left ends of the rotating rods (1004), the connecting gears (1005) are meshed with the corresponding connecting racks (1001), main bevel gears (1006) are fixedly connected to the right ends of the rotating rods (1004), and secondary bevel gears (1007) are meshed with the outer surfaces of the main bevel gears (1006).

4. A distributed liquid cooling cabinet according to claim 3, wherein the second locking mechanism (11) comprises a lead screw (1101) fixedly connected to the axis of the secondary bevel gear plate (1007), the lead screw (1101) is rotatably connected to the mounting box (1002) through a bearing, a thread block (1102) is connected to the outer surface of the lead screw (1101) in a threaded manner, a lifting bar (1103) is fixedly connected to one side of the thread block (1102), a rectangular groove (1104) is formed in one side of the mounting box (1002), the lifting bar (1103) is slidably connected to the inside of the corresponding rectangular groove (1104), a second inserting bar (1105) is fixedly connected to one side of the lifting bar (1103), and one end of the second inserting bar (1105) is slidably connected to the adjacent side wall of the groove block (6) and is connected to the appropriate second locking hole (9) in a clamping manner.

5. A distributed liquid cooled cabinet according to claim 2 wherein the auxiliary mechanism (12) comprises a mounting slot (1201) formed in one side of the U-shaped block (501), the mounting slot (1201) having a first magnet (1202) fixedly attached therein, and the connecting bar (503) having a second magnet (1203) fixedly attached thereto adjacent to one side of the first magnet (1202).

6. A distributed liquid cooling cabinet according to claim 1, wherein the liquid taking assembly (13) is provided in a liquid collecting cavity (1301) of the cabinet body (1), a liquid suction pump (1302) is fixedly connected in the cabinet body (1), a liquid inlet end of the liquid suction 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 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 ports (1305) are equidistantly communicated with the outer surface of the liquid inlet pipe (1304), second liquid inlet ports (1306) are respectively communicated with one side surface of the liquid collecting box (8), hoses are respectively communicated between the first liquid inlet ports (1305) and the corresponding second liquid inlet ports (1306), a liquid outlet pipe (1307) is fixedly connected to the left side of the cabinet body (1), first liquid outlet ports (1308) are equidistantly communicated with the outer surface of the liquid outlet pipe (1307), a second liquid outlet port (1309) is further communicated with one side surface of the liquid collecting box (8), and a liquid outlet valve (1308) is respectively provided with the corresponding liquid outlet port (1308).

7. A distributed liquid cooling cabinet according to claim 6, wherein a through hole (15) for passing a hose is opened on the left side surface of the cabinet body (1), and the second inlet port (1306) is located above the second outlet port (1309).

8. The distributed liquid cooling cabinet according to claim 1, wherein the bottom of the liquid accumulation box (8) is symmetrically and fixedly connected with two limiting strips (16), the top of the mounting plate (3) is symmetrically provided with two limiting grooves (17), and the two limiting strips (16) are respectively connected in the corresponding limiting grooves (17) in a sliding manner.

9. A distributed liquid cooled cabinet according to claim 6 wherein the first outlet port (1308) is at a lower level than the corresponding second outlet port (1309).

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