CN119521597A - A liquid cooling center distributed liquid cooling cabinet - Google Patents

Abstract

The invention provides a liquid cooling center distributed liquid cooling cabinet, which belongs to the technical field of liquid cooling cabinets and mainly aims at the problem that the existing liquid cooling cabinet is inconvenient to manage and inquire server clusters, and the distributed liquid cooling cabinet comprises a cabinet main body, an air inlet box and an MCU liquid cooling distribution unit, wherein two groups of connecting frames are symmetrically arranged on the inner walls of two sides of the cabinet main body, one sides of four groups of connecting frames are respectively provided with a plurality of groups of bearing plates, a control assembly is arranged between the two groups of bearing plates, the tops of the plurality of groups of bearing plates are respectively provided with a plurality of groups of separation plates, each group of bearing plates is divided into four groups of placement areas by each group of separation plates, RFID identification assemblies are arranged in the plurality of groups of placement areas, liquid cooling assemblies are arranged at the bottoms of the plurality of groups of server main bodies, and passive heat dissipation assemblies are arranged on the periphery of the plurality of groups of separation plates, and the plurality of groups of liquid cooling assemblies are connected with the MCU liquid cooling distribution unit; by setting the RFID identification component, information of different servers in the server cluster can be read.

Description

Liquid cooling center distributing type liquid cooling rack

Technical Field

The invention belongs to the technical field of liquid cooling cabinets, and particularly relates to a liquid cooling center distributed liquid cooling cabinet.

Background

At the current time of high-speed development of technology, the leading-edge fields of cloud computing, artificial intelligence, big data analysis and the like are vigorous, so that a data center is used as a key infrastructure for supporting the technologies, the scale and the complexity of the data center are exponentially increased, a large number of high-performance server clusters are densely deployed, the power density of equipment is rapidly increased, a liquid cooling cabinet is used for carrying out liquid cooling heat dissipation on the server clusters, the server clusters are inconvenient to manage and inquire due to the fact that the number of servers in the server clusters is large, and the heat dissipation effect of the traditional liquid cooling cabinet on the server clusters is poor.

Disclosure of Invention

In order to solve the technical problems, the invention provides a liquid cooling center distributed liquid cooling cabinet, which aims to solve the technical problems that in the prior art, a traditional liquid cooling cabinet is inconvenient to manage and inquire a server cluster and the heat dissipation effect of the traditional liquid cooling cabinet on the server cluster is poor.

The invention discloses a liquid cooling center distributed liquid cooling cabinet, which is characterized by comprising the following specific technical means:

The utility model provides a liquid cooling center distributing type liquid cooling rack, includes rack main part, air inlet case and MCU liquid cooling distribution unit, be provided with dustproof subassembly on the air inlet case, rack main part both sides inner wall equal symmetry is provided with two sets of link, and four sets of link one side is provided with multiunit loading board respectively, and wherein two sets of be provided with control assembly between the loading board, multiunit the loading board all arranges in proper order along the vertical direction, multiunit the loading board top is provided with multiunit division board respectively, every group the division board will every group the loading board divide into four sets of and places the district, multiunit place all be provided with in the district and slide place board and slide base, multiunit all be provided with RFID identification component in the district, multiunit slide place the board top all is provided with the server main part, multiunit server main part bottom all is provided with liquid cooling component, multiunit division board week side all is provided with passive heat dissipation component, multiunit liquid cooling component all with MCU liquid cooling distribution unit connects.

As a further scheme of the invention, a plurality of groups of server fixing pieces are respectively arranged at the tops of the plurality of groups of sliding placement plates, a plurality of groups of server main bodies are respectively arranged in the plurality of groups of server fixing pieces, the RFID identification component comprises RFID readers, RFID electronic tags and mounting frames, the RFID readers are respectively arranged on the plurality of groups of separation plates, the mounting frames are respectively arranged at one ends of the plurality of groups of server fixing pieces, the mounting positions of the mounting frames are respectively corresponding to one group of heat dissipation openings of the plurality of groups of server main bodies, the RFID electronic tags are respectively arranged in the mounting frames, the RFID electronic tags are respectively corresponding to the RFID readers, the RFID readers are electrically connected with the control component, and one ends of the server fixing pieces are respectively provided with a plurality of groups of ventilation openings.

As a further scheme of the invention, the mounting frame comprises a plurality of tag clamping pieces, four groups of tag fixing pieces and tag mounting pieces, wherein a plurality of groups of tag mounting pieces are respectively mounted at one ends of the plurality of groups of server fixing pieces, a plurality of groups of tag mounting pieces are respectively clamped at one ends of the plurality of groups of tag mounting pieces, tag mounting grooves are respectively formed at one ends of the plurality of groups of tag mounting pieces, the tag mounting grooves are respectively identical to the plurality of groups of RFID electronic tags, the RFID electronic tags are respectively arranged in the plurality of groups of tag mounting grooves, a plurality of groups of sponge pads are respectively arranged at four corners of the RFID electronic tags, release pieces are respectively arranged at four corners of the tag mounting pieces, a plurality of groups of springs are respectively connected to one sides of the tag fixing pieces, and one ends of the springs are respectively connected with the inner walls of the tag mounting pieces.

As a further scheme of the invention, a plurality of groups of heat conducting fixing pieces are arranged at the tops of the plurality of groups of the partition boards, a first air deflector is arranged at the top of one group of the partition boards, a plurality of groups of second air deflectors are arranged at the tops of the rest of the partition boards, the passive heat radiating component comprises a first heat radiating fin, a plurality of groups of second heat radiating fins and a heat conducting plate, the tops of the plurality of groups of server main bodies are respectively provided with the plurality of groups of heat conducting plates, the two sides of the plurality of groups of heat conducting plates are respectively connected with a plurality of groups of heat conducting connecting pieces, one ends of the plurality of groups of heat conducting connecting pieces are respectively clamped in the plurality of groups of heat conducting fixing pieces, the two sides of the plurality of groups of heat conducting plates are respectively provided with a plurality of groups of first heat radiating fins, one sides of the plurality of first heat radiating fins are respectively connected with the plurality of groups of heat conducting plates in a penetrating manner, one ends of the plurality of the first heat radiating fins are respectively provided with the plurality of groups of second heat radiating fins, one sides of the plurality of groups of second heat radiating fins are respectively wavy, one sides of the plurality of the second heat radiating fins are respectively provided with a plurality of groups of auxiliary heat conducting holes in a penetrating manner, and one ends of the plurality of the second heat radiating fins are respectively connected with one ends of the heat conducting plates.

As a further scheme of the invention, the first air guide plate and the plurality of groups of second air guide plates are in T-shaped shapes, air guide grooves are formed in the bottoms of two sides of the first air guide plate and the plurality of groups of second air guide plates, air guide channels communicated with the air guide grooves are formed in two sides of the first air guide plate and the plurality of groups of second air guide plates, the plurality of groups of air guide channels are respectively forward to the plurality of groups of first radiating fins and the plurality of groups of second radiating fins, air inlet grooves are formed in one end of the plurality of groups of second air guide plates in a penetrating manner, a plurality of groups of air outlet grooves are symmetrically formed in the tops of the plurality of groups of second air guide plates, air guide fans are arranged in the tops of the plurality of groups of air outlet grooves, and air inlet ends of the plurality of air guide fans are respectively oriented to the plurality of groups of air guide grooves, and the plurality of groups of second air guide plates are respectively connected with the tops of the plurality of partition plates through a plurality of groups of screws.

As a further scheme of the invention, one side of the cabinet main body is provided with the MCU liquid cooling distribution unit, the liquid cooling assembly comprises liquid cooling blocks, liquid cooling pipelines and liquid cooling pumps, a plurality of groups of liquid cooling fixing pieces are respectively arranged in the sliding placement plates, two ends of each group of liquid cooling fixing pieces are respectively connected with the sliding placement plates through a plurality of groups of screws, a plurality of groups of fixing convex parts are respectively arranged at the tops of the plurality of groups of liquid cooling fixing pieces, the plurality of groups of liquid cooling blocks and the plurality of groups of liquid cooling pumps are respectively clamped in the plurality of groups of fixing convex parts, the tops of the plurality of groups of liquid cooling blocks are respectively contacted with the plurality of groups of server main bodies, and the plurality of groups of liquid cooling blocks, the plurality of groups of liquid cooling pumps and the MCU liquid cooling distribution unit are respectively connected through the plurality of groups of liquid cooling pipelines.

As a further scheme of the invention, the bottom of the cabinet main body is provided with the air inlet box, the dustproof component comprises a coarse effect filter screen, a medium effect filter screen and an electrostatic adsorption filter screen, one side of the air inlet box is provided with a filter screen mounting part, the coarse effect filter screen is mounted in the filter screen mounting part, the coarse effect filter screen is made of non-woven fabrics, one end of the coarse effect filter screen is provided with a connecting magnet in a clamping manner, the inner side surface of one end of the filter screen mounting part is provided with a fixed magnet in a clamping manner, the inner wall of the air inlet box is provided with two groups of filter screen mounting grooves, one group of filter screen mounting grooves is internally provided with the medium effect filter screen, the medium effect filter screen is made of polyester fiber materials, the other group of filter screen mounting grooves is internally provided with the electrostatic adsorption filter screen, one end of the air inlet box is provided with a filter screen mounting door, the inner side surface of the bottom of the cabinet main body is provided with a plurality of groups of air inlet fans in an array manner, and the bottom of the cabinet main body is communicated with the air inlet box.

As a further scheme of the invention, a control board is arranged between two groups of bearing boards, a control base is arranged at the top of the control board, a slidable control placing board is arranged in the control base, four groups of control fixing pieces are arranged at the top of the control placing board, two groups of limiting pieces are arranged at one end of the control base, a control mounting board is arranged at one side of the control base, two sides of the control board are respectively connected with four groups of connecting frames, the control component comprises a control module, a data acquisition module and a storage module, the control module is clamped in the four groups of control fixing pieces, the data acquisition module and the storage module are clamped at the top of the control mounting board, a plurality of groups of sensor mounting frames are arranged at the top of the slideway base, a plurality of groups of digital infrared temperature sensors are respectively arranged in the sensor mounting frames, and the detection ends of the digital infrared temperature sensors face to the server main bodies.

As a further scheme of the invention, a plurality of groups of sliding placement plates are respectively arranged in a plurality of groups of slide way bases, two groups of limit magnets are respectively clamped at one ends of the plurality of groups of sliding placement plates, a trigger piece is arranged between each two groups of limit magnets, a plurality of groups of trigger pieces are respectively clamped at one ends of the plurality of groups of sliding placement plates, two groups of electromagnets are respectively clamped at the inner side surfaces of one ends of the plurality of groups of slide way bases, one ends of the plurality of groups of electromagnets are respectively and magnetically connected with the plurality of groups of limit magnets, a trigger switch is arranged between each two groups of electromagnets, a plurality of groups of trigger switches are respectively clamped at the inner side surfaces of one ends of the plurality of groups of slide way bases, and pop-up buttons are respectively arranged at one ends of the plurality of groups of sliding placement plates.

As a further scheme of the invention, a plurality of groups of sliding placement plates are respectively arranged in a plurality of groups of slide way bases, a plurality of groups of laser mounting grooves are respectively formed in the tops of the bearing plates, a plurality of groups of laser emitters are respectively clamped in the laser mounting grooves, glass protection plates are respectively arranged at the tops of the laser emitters, four groups of laser receivers are respectively clamped in four corners of the bottoms of the sliding placement plates, the mounting positions of the laser emitters respectively correspond to the laser receivers, a plurality of groups of fixing mounting frames are respectively arranged at the tops of the slide way bases, a plurality of groups of electric push rods are respectively arranged in the fixing mounting frames, a plurality of groups of fixing pins are respectively arranged at one ends of the electric push rods, a plurality of groups of fixing holes are respectively formed in the slide way bases and the tops of the sliding placement plates, the diameters of the fixing holes are the same as the diameters of the fixing pins, the fixing pins are respectively clamped in the fixing holes, and one ends of the sliding placement plates are respectively provided with a pop-up button.

Compared with the prior art, the invention has the following beneficial effects:

1. When the RFID electronic tag is used, a user can prestore different information of servers in the server cluster, then, the user can pull two groups of release pieces outwards, so that two groups of tag fixing pieces move outwards, then, the user can clamp the RFID electronic tag into the tag mounting piece, after the clamping is completed, the two groups of release pieces are loosened, the release pieces and the tag fixing piece are reset through the driving of springs, four corners of the RFID electronic tag are fixed through four groups of tag fixing pieces, then, the user can clamp the tag clamping piece into one side of the tag mounting piece to fix the RFID electronic tag for the second time, the fixing effect of the RFID electronic tag is improved, the disassembly and assembly are simpler, the RFID reader can read information stored in the RFID electronic tag after the RFID electronic tag is installed and a sliding placement plate provided with the server is pushed into a slideway base, the data acquisition module acquires the read information, meanwhile, the data acquisition module forwards the information to the control module in a mode of electric signals, and the user can inquire information of different servers through the control module, and the partition plate is divided into different placement areas by the partition plate, the partition plate is convenient to place the service cluster, and the service area is convenient to place the service cluster.

2. Through passive cooling module's setting, can dispel the heat to the top of server, and when passive cooling module dispels the heat to the server, the air inlet fan that sets up in the rack main part can blow in the rack main part with outside air, upwards flow through the loading board afterwards, through the cooperation of first aviation baffle, second aviation baffle and air-guiding fan, can accelerate the air flow through passive cooling module, the cooling effect of passive cooling module has been promoted, the air that flows is discharged from the top of rack main part at last, through the cooperation of liquid cooling module and MCU liquid cooling distribution unit, can dispel the heat to the bottom of server, thereby the cooling effect has been promoted.

3. When carrying out the fan and blowing in the rack main part with outside air, can filter the dust of great granule through the coarse filtration screen, afterwards, through the setting of medium-effect filter screen, carry out secondary filtering to the air after once filtering, finally, through the setting of electrostatic adsorption filter screen, carry out tertiary filtration to the air, and rack main part top also is equipped with the dust screen, prevents that the dust from entering into the rack main part and causing the harm, has prolonged the life of this liquid cooling rack and inside server cluster.

Drawings

FIG. 1 is a schematic diagram of a first embodiment of a liquid-cooled center distributed liquid-cooled cabinet according to the present invention;

FIG. 2 is a schematic diagram of the structure of an MCU liquid cooling distribution unit and an air inlet box in a liquid cooling center distributed liquid cooling cabinet of the invention;

FIG. 3 is a front view of an MCU liquid cooling distribution unit and an air inlet box in a liquid cooling center distributed liquid cooling cabinet of the invention;

FIG. 4 is a schematic diagram of a blower in a liquid cooled center distributed liquid cooled cabinet according to the present invention;

FIG. 5 is a schematic view of the structure of the split dustproof assembly in a liquid cooling center distributed liquid cooling cabinet according to the present invention;

FIG. 6 is a schematic diagram of a control assembly in a liquid cooled center distributed liquid cooled cabinet according to the present invention;

FIG. 7 is a schematic diagram of the control assembly of the distributed liquid cooling cabinet with liquid cooling center after being disassembled;

FIG. 8 is a schematic diagram of an RFID reader in a liquid cooled center distributed liquid cooled cabinet according to the present invention;

FIG. 9 is a schematic diagram of the RFID electronic tag and tag mounting in a liquid cooled center distributed liquid cooled cabinet according to the present invention;

FIG. 10 is a schematic diagram of a structure of a liquid cooling center distributed liquid cooling cabinet according to the present invention after the RFID electronic tag is detached from the tag mounting member;

FIG. 11 is a schematic diagram of a connection rack in a liquid-cooled center distributed liquid-cooled cabinet according to the present invention;

FIG. 12 is a schematic diagram of a passive heat sink assembly in a liquid cooled center distributed liquid cooled cabinet according to the present invention;

FIG. 13 is a schematic diagram of a first heat sink fin and a second heat sink fin in a liquid-cooled center-distributed liquid-cooled cabinet according to the present invention;

FIG. 14 is a schematic view of a divider plate in a liquid cooled center distributed liquid cooled cabinet according to the present invention;

FIG. 15 is a schematic view of the control panel and carrier plate in a liquid-cooled center-distributed liquid-cooled cabinet according to the present invention;

FIG. 16 is a schematic diagram of a liquid cooling fixture in a liquid cooling center distributed liquid cooling cabinet according to the present invention;

FIG. 17 is a schematic diagram illustrating a structure of a server main body and a liquid cooling assembly in a liquid cooling center distributed liquid cooling cabinet according to the present invention after being disassembled;

FIG. 18 is a schematic view of the first and second air deflectors in a liquid cooled center distributed liquid cooled cabinet according to the present invention;

FIG. 19 is a front view of a second air deflection plate in a liquid cooled center distributed liquid cooled cabinet in accordance with the present invention;

FIG. 20 is a cross-sectional view of A-A of FIG. 19;

FIG. 21 is a schematic diagram of a trigger in a liquid cooled center distributed liquid cooled cabinet according to the present invention;

FIG. 22 is a schematic diagram of a toggle switch in a liquid cooled center distributed liquid cooled cabinet according to the present invention;

FIG. 23 is a top view of a server body in a liquid cooled center distributed liquid cooled cabinet in accordance with the present invention;

FIG. 24 is a schematic diagram of a second exemplary embodiment of a liquid-cooled center distributed liquid-cooled cabinet according to the present invention;

FIG. 25 is an exploded view of a second embodiment of a liquid cooled center distributed liquid cooled cabinet in accordance with the present invention;

Fig. 26 is a schematic structural diagram of an electric push rod and a fixing pin in a second embodiment of a liquid cooling center distributed liquid cooling cabinet of the present invention;

fig. 27 is a schematic structural diagram of a liquid cooling center distributed liquid cooling cabinet according to a second embodiment of the present invention after an electric push rod is separated from a fixing pin;

fig. 28 is a schematic block diagram of a control module in a liquid cooled center distributed liquid cooled cabinet in accordance with the present invention.

In the figure, the correspondence between the component names and the drawing numbers is:

100. A cabinet body; 101, an MCU liquid cooling distribution unit; 102, an air inlet box; 103, a connecting frame, 104, a bearing plate, 105, a separation plate, 106, a placing area, 107, a slideway base, 108, a sliding placing plate, 109, a limit magnet, 110, an electromagnet, 111, a trigger, 112, a trigger switch, 113, a pop-up button, 114, a sensor mounting bracket, 115, a digital infrared temperature sensor, 116, a server fixing piece, 117, a server main body, 118, an RFID reader, 119, a tag mounting piece, 120, an RFID electronic tag, 121, a tag clamping piece, 122, a tag fixing piece, 123, a foam-rubber cushion, 124, a connecting rod, 125, a release piece, 126, a heat conducting fixing piece, 127, a heat conducting connecting piece, 128, a heat conducting plate, 129, a first radiating fin, 130, a second radiating fin, 131, a first air conducting plate, 132, a second air conducting plate, 133, an air conducting slot, 134, an air conducting channel, 135, an air inlet slot, 136, an air outlet slot, 137, an air conducting fan, 138, a liquid cooling block, 139, a liquid cooling pump, 140, a liquid cooling pipeline, 141, a liquid cooling fixing piece, 142, a mounting piece, a filter screen, a fan, a filter screen, a control plate, a filter, a control plate, a filter, a control plate, a control filter, an air, an electromagnetic filter, a control, an air, an control filter, an control, and control, an control device, control, control, control, control.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the technical scheme of the present invention, but are not intended to limit the scope of the present invention.

Embodiment one:

As shown in fig. 1 to 23 and 28:

the invention provides a liquid cooling center distributed liquid cooling cabinet, which comprises a cabinet main body 100, an air inlet box 102 and an MCU liquid cooling distribution unit 101, wherein both ends of the cabinet main body 100 are provided with cabinet doors which can be opened and closed, a user can open the cabinet doors to mount and dismount server clusters or use control components, the air inlet box 102 is provided with a dustproof component, dust can be prevented from entering the cabinet main body 100 through the dustproof component to hurt the server clusters inside, the top of the cabinet main body 100 is also provided with a dustproof screen to prevent the dust from entering the cabinet main body 100 from the top, the dustproof screen can be matched with the dustproof component, two groups of connecting frames 103 are symmetrically arranged on both inner walls of both sides of the cabinet main body 100, one sides of each of the four groups of connecting frames 103 are respectively provided with a plurality of bearing plates 104, the user can mount the bearing plates 104 on the connecting frames 103, the control components are arranged between the two groups of the bearing plates 104, the plurality of groups of bearing plates 104 are sequentially arranged along the vertical direction, spaces are reserved among the plurality of groups of bearing plates 104, the situation that the heat dissipation effect is reduced due to too dense placement of server clusters is avoided, a plurality of groups of partition plates 105 are respectively arranged at the tops of the plurality of groups of bearing plates 104, each group of bearing plates 104 is divided into four groups of placement areas 106 by each group of partition plates 105, distributed placement is adopted, a group of server main bodies 117 are arranged in each group of placement areas 106, the server clusters are conveniently numbered and managed by users, convenience is improved, sliding placement plates 108 and slide bases 107 are respectively arranged in the plurality of groups of placement areas 106, the sliding placement plates 108 can slide in the slide bases 107, one ends of the sliding placement plates 108 are provided with sliding handles, when a user installs or removes a server, the sliding placement plates 108 can be pulled out from the slide bases 107 through the sliding handles, or the sliding placement plates 108 are inserted into the slide bases 107, the RFID identification components are arranged in the multi-group placement area 106, information of servers in the server cluster can be read through the RFID identification components, the tops of the multi-group sliding placement plates 108 are provided with server main bodies 117, the bottoms of the multi-group server main bodies 117 are provided with liquid cooling components, the bottoms of the servers can be cooled through the liquid cooling components, passive cooling components are arranged on the periphery of the multi-component partition 105, the tops of the servers can be cooled, the multi-group liquid cooling components are connected with the MCU liquid cooling distribution unit 101, the MCU liquid cooling distribution unit 101 can be of FLTZ-002 types, the flow or the flow speed of cooling liquid circulating in the liquid cooling components can be controlled through the MCU liquid cooling distribution unit 101, and the cooling liquid can be cooled.

The top of the sliding placement plate 108 is respectively provided with a plurality of groups of server fixing pieces 116, the plurality of groups of server main bodies 117 are respectively arranged in the plurality of groups of server fixing pieces 116, the RFID identification component comprises RFID readers 118, RFID electronic tags 120 and mounting frames, the plurality of groups of RFID readers 118 are respectively arranged on the plurality of groups of separation plates 105, the RFID readers 118 can be of T2 UHF type, the RFID readers 118 can read information stored in the RFID electronic tags 120, the RFID readers 118 are electrically connected with the data acquisition module 157, the data acquisition module 157 can acquire information read by the RFID readers 118, the plurality of groups of mounting frames are respectively arranged at one end of the plurality of groups of server fixing pieces 116, the mounting positions of the plurality of groups of mounting frames respectively correspond to one group of heat dissipation openings of the plurality of groups of server main bodies 117, the plurality of groups of RFID electronic tags 120 are respectively arranged in the plurality of groups of mounting frames, the plurality of groups of RFID electronic tags 120 respectively correspond to the plurality of groups of RFID readers 118, a plurality of groups of vent openings are respectively formed in one end of the plurality of groups of server fixing pieces 116, and one end of the RFID identification component is prevented from being mounted by the server fixing pieces 116.

The mounting frame comprises a tag clamping part 121, four groups of tag fixing parts 122 and a tag mounting part 119, wherein the tag mounting parts 119 are respectively arranged at one end of the server fixing part 116, the tag mounting parts 119 are respectively clamped at one end of the tag mounting parts 119, tag mounting grooves are respectively formed in one end of the tag mounting parts 119, the shape of each tag mounting groove is the same as that of each RFID electronic tag 120, when the RFID electronic tag 120 is mounted, the RFID electronic tag 120 can be clamped into the tag mounting groove, the RFID electronic tags 120 are respectively arranged in the tag mounting grooves, tag fixing parts 122 are respectively arranged at four corners of the RFID electronic tags 120, the four corners of the RFID electronic tags 120 can be fixed through the tag fixing parts 122, a plurality of sponge pads 123 are respectively arranged between the tag fixing parts 122 and the RFID electronic tags 120, when the tag fixing piece 122 fixes the RFID electronic tag 120, energy is released due to the reset of the spring, the impact of the tag fixing piece 122 on the RFID electronic tag 120 is relieved through the foam-rubber cushion 123, damage to the RFID electronic tag 120 is prevented, the four corners of the plurality of groups of tag fixing pieces 119 are all provided with release pieces 125, a user can pull two groups of release pieces 125 outwards to install the RFID electronic tag 120, connecting rods 124 are arranged at the four corners of the plurality of groups of tag fixing pieces 119 in a penetrating mode, one side of the plurality of groups of tag fixing pieces 122 is connected with a plurality of groups of springs respectively, when the user pulls the release pieces 125 outwards, the springs are compressed, after the user releases the release pieces 125, the springs are released to reset, and accordingly the tag fixing pieces 122 are driven to reset to fix the RFID electronic tag 120, and the plurality of groups of connecting rods 124 penetrate the plurality of groups of springs and the four corners of the plurality of groups of tag fixing pieces 119 respectively and are connected with the plurality of groups of release pieces 125.

When in use, a user can prestore different information of servers in the server cluster in the RFID electronic tag 120, for example, the information such as the position information of the servers in the liquid cooling cabinet and the model information of the servers can be stored, then, the user can pull two groups of release members 125 outwards, so that two groups of tag fixing members 122 can move outwards, the user can clamp the RFID electronic tag 120 into the tag mounting member 119, after clamping is finished, the two groups of release members 125 are loosened, the release members 125 and the tag fixing members 122 are reset by the driving of springs, four corners of the RFID electronic tag 120 are fixed by the four groups of tag fixing members 122, then, the user can clamp the tag clamping member 121 to one side of the tag mounting member 119, the RFID electronic tag 120 is secondarily fixed, the fixing effect of the RFID electronic tag 120 is improved, the disassembly and assembly are simpler, the RFID electronic tag 120 is installed and the sliding placement plate 108 provided with the servers is pushed into the slideway base 107, the RFID reader 118 can read information 157 stored in the RFID electronic tag 120, the read 157 is read by the data acquisition module, the read information acquisition module is used for acquiring the information 155, and the information can be simultaneously queried by the user module 155.

The top of each of the plurality of groups of partition boards 105 is provided with a plurality of groups of heat conducting fixing pieces 126, wherein the top of one group of partition boards 105 is provided with a first air guide plate 131, the top of the other groups of partition boards 105 is provided with a plurality of groups of second air guide plates 132, the air flow passing through the passive heat radiating component can be accelerated through the first air guide plates 131 and the second air guide plates 132, the cooling effect of the passive heat radiating component is improved, the passive heat radiating component comprises a first heat radiating fin 129, a second heat radiating fin 130 and a heat conducting plate 128, the top of each group of server main bodies 117 is respectively provided with a plurality of groups of heat conducting plates 128, the heat conducting plates 128 can conduct heat to the top of the server rapidly, two sides of each group of heat conducting plates 128 are respectively connected with a plurality of groups of heat conducting connecting pieces 127, one ends of each group of heat conducting connecting pieces 127 are respectively clamped in each group of heat conducting fixing pieces 126, one ends of the heat conducting connecting pieces 127 are connected with the heat conducting plates 128 through screws, the user can insert the heat conducting connecting piece 127 into the heat conducting fixing piece 126 so as to install the passive heat radiating component, two sides of the plurality of groups of heat conducting plates 128 are respectively provided with a plurality of groups of first heat radiating fins 129, the plurality of groups of first heat radiating fins 129 are rectangular, gaps are reserved among the plurality of groups of first heat radiating fins 129, the heat radiating effect is prevented from being influenced by too close distance of the plurality of groups of first heat radiating fins 129, one side of the plurality of groups of first heat radiating fins 129 is provided with a plurality of groups of auxiliary heat conducting grooves in a penetrating way, the contact area between the first heat radiating fins 129 and air can be increased through the arrangement of the auxiliary heat conducting grooves, the heat radiating effect of the first heat radiating fins 129 is improved, one ends of the plurality of groups of first heat radiating fins 129 are respectively connected with the plurality of groups of heat conducting plates 128, the tops of the plurality of groups of heat conducting plates 128 are respectively provided with a plurality of groups of second heat radiating fins 130, the plurality of groups of second heat radiating fins 130 are all in wave shapes, compared with the traditional linear heat radiating fins, the wave shape can increase the contact area with the air, the heat dissipation effect is enhanced, a plurality of groups of auxiliary heat conduction holes are formed in one side of each of the plurality of groups of second heat dissipation fins 130 in a penetrating manner, the contact area between the second heat dissipation fins 130 and air can be increased through the arrangement of the auxiliary heat conduction holes, and one ends of the bottoms of the plurality of groups of second heat dissipation fins 130 are respectively connected with the plurality of groups of heat conduction plates 128.

The first air guide plate 131 and the plurality of groups of second air guide plates 132 are in T-shaped, the bottoms of the two sides of the first air guide plate 131 and the plurality of groups of second air guide plates 132 are provided with air guide grooves 133, the two sides of the first air guide plate 131 and the plurality of groups of second air guide plates 132 are provided with air guide channels 134 communicated with the air guide grooves 133, the plurality of groups of air guide channels 134 respectively forward to the plurality of groups of first radiating fins 129 and the plurality of groups of second radiating fins 130, one end of the plurality of groups of second air guide plates 132 respectively penetrates through the plurality of groups of first radiating fins and the plurality of groups of second radiating fins 130, the tops of the plurality of groups of second air guide plates 132 are symmetrically provided with a plurality of groups of air outlet grooves 136, the tops of the plurality of groups of air outlet grooves 136 are respectively provided with air guide fans 137, the air inlet ends of the plurality of air guide fans 137 respectively face the plurality of air outlet grooves 136, the air guide fans 137 can blow towards the top direction of the cabinet main body 100, the first air guide plate 131 and the plurality of groups of second air guide plates 132 are respectively connected with the tops of the multi-component partition plates 105 through a plurality of groups of screws, the inner side surface of the bottom of the cabinet main body 100 is provided with a plurality of groups of air inlet fans 149 in an array manner, the air inlet fans 149 can blow external air into the cabinet main body 100, the air outlet ends of the air inlet fans 149 face the top of the cabinet main body 100, so that flowing air can flow normally upwards, a plurality of groups of ventilation grooves are formed in the top of the plurality of groups of bearing plates 104, wiring grooves are formed between every two groups of ventilation grooves, the wiring grooves correspond to the interface ends of the server main body 117, a user can pass external wires through the wiring grooves to electrically connect the server main body 117 with the control module 155, the user can conveniently arrange the wires, flowing air can pass through the bearing plates 104 from the ventilation grooves and accelerate the air in the cabinet main body 100 through the air guide fans 137, when the external air enters the cabinet main body 100, the air is blown by the air inlet fans 149, so that the air flows to the top of the cabinet main body 100, then, the air passes through the ventilation slot and enters the air guide slot 133, enters the air guide channel 134 through the air guide slot 133, and is blown out to the passive heat dissipation component, so that the heat dissipation effect of the passive heat dissipation component is improved, and then, the flowing air continues to flow upwards by blowing the air by the air guide fan 137, and the steps are repeated, and finally, the air is discharged from the top of the cabinet main body 100.

The top of the multi-group slide base 107 is provided with a sensor mounting frame 114, the multi-group sensor mounting frames 114 are respectively provided with a plurality of groups of digital infrared temperature sensors 115, the detection ends of the plurality of groups of digital infrared temperature sensors 115 face the multi-group server main body 117 respectively, the digital infrared temperature sensors 115 can be of TO46 type, the digital infrared temperature sensors 115 are electrically connected with a data acquisition module 157, real-time temperature of the server main body 117 can be detected, and the temperature data are acquired through the data acquisition module 157 and sent TO a control module 155 in an electric signal mode.

The MCU liquid cooling distribution unit 101 is arranged on one side of the cabinet main body 100, the liquid cooling assembly comprises a liquid cooling block 138, a liquid cooling pipeline 140 and a liquid cooling pump 139, a plurality of groups of liquid cooling fixing pieces 141 are respectively arranged in the plurality of groups of sliding placement plates 108, two ends of each group of liquid cooling fixing pieces 141 are respectively connected with the plurality of groups of sliding placement plates 108 through a plurality of groups of screws, a plurality of groups of fixing protruding parts are respectively arranged at the tops of the plurality of groups of liquid cooling fixing pieces 141, the plurality of groups of liquid cooling block 138 and the plurality of groups of liquid cooling pump 139 are respectively clamped in the plurality of groups of fixing protruding parts, the liquid cooling pump 139 serves as a relay effect to pump cooling liquid back to the MCU liquid cooling distribution unit 101, the plurality of groups of liquid cooling block 138 are arranged in a region with higher server heating value, the tops of the plurality of groups of liquid cooling block 138 are respectively contacted with the plurality of groups of server main bodies 117, the plurality of groups of liquid cooling block 138, the plurality of groups of liquid cooling pump 139 are respectively connected with the MCU liquid cooling distribution unit 101 through the plurality of groups of liquid cooling pipeline 140, the MCU liquid cooling distribution unit 101 is electrically connected with the control module 155, and the control module 155, when the control module 155 receives temperature data, if one or a plurality of groups of server temperatures are too high, the control module 155 sends an electric signal to the MCU liquid cooling distribution unit 101, so that the MCU liquid distribution unit 101 adjusts flow rates and flow rates of the liquid cooling liquid flows in the liquid cooling block 138 and the liquid cooling pipelines.

The multi-group sliding placement plate 108 is respectively arranged in the multi-group slide way base 107, two groups of limit magnets 109 are respectively clamped at one end of the multi-group sliding placement plate 108, a trigger piece 111 is arranged between every two groups of limit magnets 109, the multi-group trigger piece 111 is respectively clamped at one end of the multi-group sliding placement plate 108, two groups of electromagnets 110 are respectively clamped at the inner side surfaces of one end of the multi-group slide way base 107, one end of each multi-group electromagnet 110 is respectively magnetically connected with the multi-group limit magnets 109, a trigger switch 112 is arranged between every two groups of electromagnets 110, when a user pushes the sliding placement plate 108 with a server into the slide way base 107, the trigger piece 111 presses the trigger switch 112, so that the electromagnet 110 is electrified and magnetically attracted and fixed with the limit magnets 109, the sliding placement plate 108 is fixed, misoperation of the user is prevented, damage is caused to the server, the multi-group trigger switch 112 is respectively clamped at the inner side surfaces of one end of the multi-group slide way base 107, the multi-group sliding placement plate 108 is respectively provided with an ejecting button 113, and when the user needs to cancel the fixing, the sliding placement plate 108 is taken out, the button 113 can be pressed down, so that the electromagnet 110 is powered off and magnetically connected with the limit magnets 109.

The bottom of the cabinet main body 100 is provided with an air inlet box 102, a dustproof component comprises a coarse filter screen 143, a medium filter screen 146 and an electrostatic adsorption filter screen 147, one side of the air inlet box 102 is provided with a filter screen mounting piece 142, the coarse filter screen 143 is mounted in the filter screen mounting piece 142, the coarse filter screen 143 is made of non-woven fabrics, the coarse filter screen 143 can filter impurities such as dust with larger particles, for example, hair or granular impurities, the coarse filter screen 143 can be filtered once, one end of the coarse filter screen 143 is clamped with a connecting magnet 144, the inner side surface of one end of the filter screen mounting piece 142 is clamped with a fixed magnet 145, when a user installs the filter screen, the user only needs to directly insert the coarse filter screen 143 into the filter screen mounting piece 142, the coarse filter screen 143 is fixed in a magnetic attraction connection mode, and the filter screen mounting groove can also be directly inserted and pulled when the filter screen is detached or replaced, the inner wall of the air inlet box 102 is provided with two groups of filter screen mounting grooves, the middle-effect filter screen 146 is arranged in one group of filter screen mounting grooves, the middle-effect filter screen 146 is made of polyester fiber materials, smaller particles can be intercepted, the middle-effect filter screen 146 can carry out secondary filtration on air which is subjected to primary filtration, the electrostatic adsorption filter screen 147 is arranged in the other group of filter screen mounting grooves, finally, the air is filtered for three times by the electrostatic adsorption filter screen 147, the dustproof effect is improved, the filter screen mounting door 148 is arranged at one end of the air inlet box 102, when the middle-effect filter screen 146 and the electrostatic adsorption filter screen 147 are arranged, the middle-effect filter screen 146 and the electrostatic adsorption filter screen 147 can be inserted into the two groups of filter screen mounting grooves, then the filter screen mounting door 148 is closed, when the middle-effect filter screen 146 and the electrostatic adsorption filter screen 147 are required to be disassembled, the opposite steps are executed, the mounting sequence of the filter screens is the coarse-effect filter screen 143, the middle-effect filter screen 146 and the electrostatic adsorption filter screen 147, the bottom of the cabinet main body 100 is communicated with the air inlet box 102, and the dustproof assembly is arranged, the damage caused by dust entering the cabinet main body 100 can be prevented, and the service lives of the liquid cooling cabinet and the internal server cluster are prolonged.

The control board 150 is arranged between the two groups of bearing boards 104, a control base 151 is arranged at the top of the control board 150, a slidable control placing board 152 is arranged in the control base 151, a user can pull the control placing board 152 to pull out the control placing board 152, so that the control module 155 is used, four groups of control fixing pieces 153 are arranged at the top of the control placing board 152, the control fixing pieces 153 are used for fixing the control module 155, two groups of limiting pieces 154 are arranged at one end of the control base 151, the limiting pieces 154 prevent the control placing board 152 from being separated from the control base 151, a control mounting plate 156 is arranged at one side of the control base 151, two sides of the control board 150 are respectively connected with the four groups of connecting frames 103, the control assembly comprises a control module 155, a data acquisition module 157 and a storage module 158, the control module 155 is arranged in the four groups of control fixing pieces 153 in a clamping mode, the control module 155 can be BOOKPRO, a user can check related information of a server through the control module 155, the data acquisition module 157 and the storage module 158 are all clamped at the top of the control mounting plate 156, the data acquisition module 157 and the storage module 158 are electrically connected with the control module 155, the data acquisition module 157 can be selectively used for storing related information of the control module 158, the control module 157 can be stored in the storage module 158, the related to the HF module is also can be stored in the storage module 158, and the related information can be stored in the control module model 5.

The multi-group sliding placement plate 108 is respectively arranged in the multi-group slide way base 107, two groups of limit magnets 109 are respectively clamped at one end of the multi-group sliding placement plate 108, a trigger piece 111 is arranged between every two groups of limit magnets 109, the multi-group trigger piece 111 is respectively clamped at one end of the multi-group sliding placement plate 108, two groups of electromagnets 110 are respectively clamped at the inner side surfaces of one end of the multi-group slide way base 107, one end of each multi-group electromagnet 110 is respectively magnetically connected with the multi-group limit magnets 109, a trigger switch 112 is arranged between every two groups of electromagnets 110, when a user pushes the sliding placement plate 108 with a server into the slide way base 107, the trigger piece 111 presses the trigger switch 112, so that the electromagnet 110 is electrified and magnetically attracted and fixed with the limit magnets 109, the sliding placement plate 108 is fixed, misoperation of the user is prevented, damage is caused to the server, the multi-group trigger switch 112 is respectively clamped at the inner side surfaces of one end of the multi-group slide way base 107, the multi-group sliding placement plate 108 is respectively provided with an ejecting button 113, and when the user needs to cancel the fixing, the sliding placement plate 108 is taken out, the button 113 can be pressed down, so that the electromagnet 110 is powered off and magnetically connected with the limit magnets 109.

Embodiment two:

based on the first embodiment of the application, a liquid cooling center distributed liquid cooling cabinet is provided. The second embodiment is merely a preferred embodiment of the first embodiment, and the implementation of the second embodiment does not affect the single implementation of the first embodiment. A second embodiment of the present application will be further described below.

Referring to fig. 24 and 27, the plurality of sets of sliding placement plates 108 are respectively disposed in the plurality of sets of slide bases 107, the tops of the plurality of sets of bearing plates 104 are respectively provided with a plurality of sets of laser transmitters 201, the plurality of sets of laser transmitters 201 are respectively clamped in the plurality of sets of laser mounting grooves, the laser transmitters 201 can transmit laser outwards, the laser transmitters 201 can be selected from FRL15DDBA-A31-18730-E models, the tops of the plurality of sets of laser transmitters 201 are respectively provided with a glass protection plate 202, the glass protection plates 202 can prevent the laser transmitting ends of the laser transmitters 201 from being scratched, four sets of laser receivers 203 are respectively clamped in four corners at the bottom of each set of sliding placement plates 108, the laser receivers 203 can receive the laser transmitted by the laser transmitters 201, the laser receivers 203 can be selected from ISM4-10 models, and four corners can be positioned through the cooperation of the four sets of laser receivers 203 and the laser transmitters 201, the mounting positions of the plurality of groups of laser transmitters 201 respectively correspond to the plurality of groups of laser receivers 203, the tops of the plurality of groups of slide bases 107 are respectively provided with a plurality of groups of fixed mounting frames 204, a plurality of groups of electric push rods 205 are respectively mounted on the plurality of groups of fixed mounting frames 204, one ends of the plurality of groups of electric push rods 205 are respectively provided with a plurality of groups of fixed holes, the tops of the plurality of groups of slide bases 107 and the plurality of groups of sliding placement plates 108 are respectively provided with a plurality of groups of fixed holes, the diameters of the plurality of groups of fixed holes are the same as the diameters of the fixed holes 206, the plurality of groups of fixed pins 206 are respectively clamped in the plurality of groups of fixed holes, when a user pushes the sliding placement plates 108 into the slide bases 107, after four groups of laser receivers 203 are positioned with the four corners of laser transmitters 201, the electric push rods 205 are started, and then the fixed pins 206 are pushed downwards, so that the sliding placement plates 108 are fixed, and misoperation of the user is prevented from pulling out the sliding placement plates 108, the plurality of groups of sliding placement plates 108 are each provided with an eject button 113 at one end, and the electric push rod 205 is reset by the eject button 113, so that the fixation of the sliding placement plates 108 is canceled.

Compared with the first embodiment, which only adopts the manner of fixing the sliding placement plate 108 by the electromagnet 110 and the limit magnet 109, in the second embodiment, the laser receiver 203 is disposed at four corners of the sliding placement plate 108, and the laser emitter 201 corresponding to the laser receiver 203 is disposed on the carrier plate 104, and the electric push rod 205 is triggered to work by positioning four corners of the laser receiver 203 and the laser emitter 201, the main difference is that the sliding placement plate 108 can be better fixed, and compared with the triggering piece 111 pressing the triggering switch 112, the triggering manner of positioning four corners has longer service life, the triggering piece 111 pressing the triggering switch 112 has shorter service life, and the user can easily cause the triggering switch 112 to be damaged when the strength is too large, and other conditions are identical to those of the first embodiment, so that the embodiment is not repeated.

The foregoing embodiments are merely illustrative of the technical solutions of the present invention, and not restrictive, and although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that modifications may still be made to the technical solutions described in the foregoing embodiments or equivalent substitutions of some technical features thereof, and that such modifications or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides a distributed liquid cooling rack in liquid cooling center, its characterized in that includes rack main part (100), air inlet case (102) and MCU liquid cooling distribution unit (101), be provided with dustproof subassembly on air inlet case (102), rack main part (100) both sides inner wall all symmetry is provided with two sets of link (103), four sets of link (103) one side is provided with multiunit loading board (104) respectively, and wherein two sets of be provided with control assembly between loading board (104), multiunit loading board (104) all arrange in proper order along the vertical direction, multiunit loading board (104) top is provided with multiunit division board (105) respectively, every group division board (105) divide into every group loading board (104) four sets of place district (106), multiunit place board (108) and slide base (107) are all provided with RFID identification component in placing district (106), multiunit place board (108) top all is provided with server main part (117), multiunit server main part (117) bottom all is provided with liquid cooling component, multiunit division board (105) all are connected with liquid cooling distribution unit (101) all.

2. The distributed liquid cooling cabinet of claim 1, wherein a plurality of groups of server fixing pieces (116) are respectively arranged at the tops of the sliding placement plates (108), a plurality of groups of server main bodies (117) are respectively arranged in a plurality of groups of server fixing pieces (116), the RFID identification component comprises RFID readers (118), RFID electronic tags (120) and mounting frames, the RFID readers (118) are respectively arranged on a plurality of groups of separation plates (105), the mounting frames are respectively arranged at one ends of the server fixing pieces (116), the mounting positions of the mounting frames are respectively corresponding to one group of heat dissipation openings of the server main bodies (117), the RFID electronic tags (120) are respectively arranged in the mounting frames, the RFID electronic tags (120) are respectively corresponding to the RFID readers (118), the RFID readers (118) are electrically connected with the control component, and a plurality of groups of ventilation openings are respectively formed in one ends of the server fixing pieces (116).

3. The liquid cooling center distributed liquid cooling cabinet according to claim 2, wherein the installation frame comprises a label clamping member (121), four groups of label fixing members (122) and label installation members (119), the groups of label installation members (119) are respectively installed at one ends of the groups of server fixing members (116), the groups of label installation members (119) are respectively clamped with the groups of label installation members (119), one ends of the groups of label installation members (119) are respectively provided with label installation grooves, the groups of label installation grooves are respectively identical to the groups of RFID electronic labels (120), the groups of RFID electronic labels (120) are respectively arranged in the groups of label installation grooves, the four corners of the groups of RFID electronic labels (120) are respectively provided with the label fixing members (122), a plurality of groups of sponge pads (123) are respectively arranged between the groups of RFID electronic labels (122), the four corners of the groups of label installation members (119) are respectively provided with release members (125), the groups of label installation members (119) are respectively provided with label installation grooves, the groups of label installation members (119) are respectively identical to the groups of RFID electronic labels (120), the groups of RFID electronic labels (119) are respectively connected with the groups of label installation springs (119), the groups of label installation members are respectively connected with one sides of the connecting rods (124), and are connected to a plurality of sets of said release members (125).

4. The liquid cooling center distributed liquid cooling cabinet according to claim 1, wherein a plurality of groups of heat conducting fixing members (126) are respectively arranged at the tops of the plurality of groups of partition plates (105), a first air deflector (131) is arranged at the top of one group of partition plates (105), a plurality of groups of second air deflector (132) are respectively arranged at the tops of the other groups of partition plates (105), the passive heat radiating assembly comprises a first heat radiating fin (129), a second heat radiating fin (130) and a heat conducting plate (128), a plurality of groups of heat conducting plates (128) are respectively arranged at the tops of the plurality of groups of server main bodies (117), a plurality of groups of heat conducting connecting members (127) are respectively connected to two sides of the plurality of groups of heat conducting plates (128), one ends of the plurality of groups of heat conducting connecting members (127) are respectively clamped in the plurality of groups of heat conducting fixing members (126), a plurality of groups of first heat radiating fins (129) are respectively arranged at two sides of the plurality of groups of heat conducting plates (128), a plurality of groups of first heat radiating fins (129) are respectively rectangular, a plurality of groups of first heat radiating fins (129) are respectively arranged at one sides of the plurality of groups of auxiliary heat radiating fins (130) are respectively arranged at one sides of the plurality of groups of heat conducting plates (128) respectively, and one ends of the bottoms of the plurality of groups of second radiating fins (130) are respectively connected with the plurality of groups of heat conducting plates (128).

5. The liquid cooling center distributed liquid cooling cabinet according to claim 4, wherein the first air guide plates (131) and the second air guide plates (132) are in T-shaped structures, air guide grooves (133) are formed in the bottoms of the two sides of the first air guide plates (131) and the second air guide plates (132), air guide channels (134) communicated with the air guide grooves (133) are formed in the two sides of the first air guide plates (131) and the second air guide plates (132), the air guide channels (134) are respectively forward to the first radiating fins (129) and the second radiating fins (130), air inlet grooves (135) are formed in one end of each second air guide plate (132), air outlet grooves (136) are symmetrically formed in the top of each second air guide plate (132), air inlet ends of the air guide fans (137) face the air outlet grooves (136), and the air guide grooves (136) are respectively connected with the first air guide plates (132) through the air guide plates (132).

6. The distributed liquid cooling cabinet with the liquid cooling center of claim 1, wherein one side of the cabinet main body (100) is provided with the MCU liquid cooling distribution unit (101), the liquid cooling assembly comprises a liquid cooling block (138), liquid cooling pipelines (140) and liquid cooling pumps (139), a plurality of groups of liquid cooling fixing pieces (141) are respectively arranged in the sliding placement plate (108), two ends of the liquid cooling fixing pieces (141) are respectively connected with the sliding placement plate (108) through a plurality of groups of screws, a plurality of groups of fixing convex parts are respectively arranged at the tops of the liquid cooling fixing pieces (141), a plurality of groups of the liquid cooling blocks (138) and a plurality of groups of liquid cooling pumps (139) are respectively clamped in the fixing convex parts, the tops of the liquid cooling blocks (138) are respectively contacted with the server main body (117), and a plurality of groups of liquid cooling blocks (138), the liquid cooling pumps (139) and the MCU liquid cooling distribution unit (101) are respectively connected through the liquid cooling pipelines (140).

7. The liquid cooling center distributed liquid cooling cabinet according to claim 1, wherein the bottom of the cabinet main body (100) is provided with the air inlet box (102), the dustproof component comprises a coarse filter screen (143), a medium filter screen (146) and an electrostatic adsorption filter screen (147), one side of the air inlet box (102) is provided with a filter screen mounting piece (142), the coarse filter screen (143) is mounted in the filter screen mounting piece (142), the coarse filter screen (143) is made of a non-woven fabric material, one end of the coarse filter screen (143) is clamped with a connecting magnet (144), one end inner side surface of the filter screen mounting piece (142) is clamped with a fixed magnet (145), two groups of filter screen mounting grooves are formed in the inner wall of the air inlet box (102), one group of filter screen mounting grooves is provided with the medium filter screen (146), the other group of filter screen mounting grooves is provided with the electrostatic adsorption filter screen (147), one end of the air inlet box (102) is provided with a mounting door (148), the bottom of the cabinet main body (100) is provided with a plurality of groups of filter screen arrays (149), and the air inlet box (102) is communicated with the bottom of the cabinet main body.

8. The distributed liquid cooling cabinet of claim 1, wherein a control board (150) is arranged between two groups of bearing boards (104), a control base (151) is arranged at the top of the control board (150), a slidable control placing board (152) is arranged in the control base (151), four groups of control fixing pieces (153) are arranged at the top of the control placing board (152), two groups of limiting pieces (154) are arranged at one end of the control base (151), a control mounting board (156) is arranged at one side of the control base (151), two sides of the control board (150) are respectively connected with four groups of connecting frames (103), the control assembly comprises a control module (155), a data acquisition module (157) and a storage module (158), the control module (155) is clamped in the four groups of control fixing pieces (153), the data acquisition module (157) and the storage module (158) are respectively clamped at the top of the control fixing pieces (156), a plurality of groups of infrared sensors (114) are respectively arranged at the top of the slide base (107), and a plurality of groups of infrared sensors (114) are respectively arranged at the infrared sensors (115) and are respectively arranged at the plurality of groups of digital sensors (115) towards the digital sensor mounting boards.

9. The liquid cooling center distributed liquid cooling cabinet according to claim 1, wherein a plurality of groups of sliding placement plates (108) are respectively arranged in a plurality of groups of slide bases (107), two groups of limit magnets (109) are respectively clamped at one ends of the plurality of groups of sliding placement plates (108), a trigger piece (111) is arranged between each two groups of limit magnets (109), the plurality of groups of trigger pieces (111) are respectively clamped at one ends of the plurality of groups of sliding placement plates (108), two groups of electromagnets (110) are respectively clamped at the inner side surfaces of one ends of the plurality of groups of slide bases (107), one ends of the plurality of groups of electromagnets (110) are respectively and magnetically connected with the plurality of groups of limit magnets (109), a trigger switch (112) is arranged between each two groups of electromagnets (110), the plurality of groups of trigger switches (112) are respectively clamped at the inner side surfaces of one ends of the plurality of groups of slide bases (107), and one ends of the plurality of groups of sliding placement plates (108) are respectively provided with pop-up buttons (113).

10. The liquid cooling center distributed liquid cooling cabinet according to claim 1, wherein a plurality of groups of the sliding placement plates (108) are respectively arranged in a plurality of groups of the slide base (107), a plurality of groups of laser installation grooves are respectively formed in the tops of the bearing plates (104), a plurality of groups of laser transmitters (201) are respectively clamped in the laser installation grooves, glass protection plates (202) are respectively arranged at the tops of the plurality of groups of the laser transmitters (201), four groups of laser receivers (203) are respectively clamped in four corners of the bottoms of each group of the sliding placement plates (108), the installation positions of the plurality of groups of the laser transmitters (201) respectively correspond to the plurality of groups of the laser receivers (203), a plurality of groups of fixing installation frames (204) are respectively arranged at the tops of the plurality of groups of the slide base (107), a plurality of groups of electric push rods (205) are respectively arranged at one ends of the plurality of the electric push rods (205), a plurality of groups of fixing pins (206) are respectively arranged at the tops of the plurality of groups of the slide base (107) and the plurality of groups of the sliding placement plates (108), the diameters of the fixing holes are the same as the diameters of the plurality of groups of laser receivers (206), and the plurality of groups of fixing pins (108) are respectively arranged at one ends of the plurality of the fixing pins (113).