CN212183944U - Cloud computing power water-cooling structure modularization device - Google Patents

Abstract

The utility model provides a cloud computing power water-cooling structure modularization device belongs to water-cooling heat dissipation equipment technical field. The cloud computing power water-cooling structure modular device is characterized in that a cabinet is provided with cloud computing power water-cooling modules and a power distribution cabinet module, the cloud computing power water-cooling modules are arranged on the cabinet in rows, a strong current area, a weak current area and a network area are arranged in the power distribution cabinet module, and a power socket of the weak current area is arranged in an area close to the cloud computing power water-cooling modules; the cloud computing power water cooling module comprises a plurality of heat absorption groups and a chassis, wherein the heat absorption groups are composed of a first water cooling plate, a computing power plate and a second water cooling plate, and the first water cooling plate and the second water cooling plate are connected with the primary water distributor. This application sets up the switch board module inside the rack to with supply socket along the range orientation setting of cloud computing power water-cooling module, be close to cloud computing power water-cooling module, can simplify being connected of cloud computing power water-cooling module and switch board module.

Description

Cloud computing power water-cooling structure modularization device

Technical Field

The utility model belongs to the technical field of the water-cooling heat dissipation equipment, concretely relates to power water-cooling structure modularization device is calculated to cloud.

Background

The traditional cloud computing power machine room is an air cooling machine room, and even if a water cooling machine room is adopted, the collected heat is only dissipated; when the traditional electric boiler is used for heating a residential area or a home, the traditional electric boiler is used for purely heating.

With the rapid development of cloud computing power servers and mining markets, the consumed electric energy is larger and larger, and the generated heat is wasted, so that the recycling of the wasted energy is a very big problem.

Patent document "a server cooling system and heating system, patent application number CN 201911362239.2" discloses a scheme of utilizing the server heat dissipation as the heating source, in placing the integrated circuit board module radiating element with the rack in this patent, set up the switch board in one side of rack, because the integrated circuit board module radiating element is equipped with the multiunit, has the chaotic problem of line of connecting when being connected multiunit integrated circuit board module radiating element with the switch board.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a cloud computing power water-cooling structure modularization device to solve above-mentioned technical problem.

In order to achieve the above object, the technical solution of the present invention is:

a cloud computing power water-cooling structure modularization device comprises a cabinet, wherein cloud computing power water-cooling modules and a power distribution cabinet module are arranged on the cabinet, the cloud computing power water-cooling modules are arranged on the cabinet in rows, a strong current area, a weak current area and a network area are arranged in the power distribution cabinet module, and a power socket of the weak current area is arranged in an area close to the cloud computing power water-cooling modules; the cloud computing power water cooling module comprises a plurality of heat absorption groups and a chassis, wherein each heat absorption group is composed of a first water cooling plate, a computing power plate and a second water cooling plate, the heat absorption groups are arranged on the chassis, the computing power plate is arranged between the first water cooling plate and the second water cooling plate, the first water cooling plate and the second water cooling plate are connected with a primary water distributor, and the primary water distributor is connected with a secondary water distributor arranged on the cabinet.

Preferably, the rack layering sets up, and the power water-cooling module is calculated to cloud sets up in switch board module both sides, supply socket sets up in switch board module both sides, sets up along the range direction of the power water-cooling module that calculates to cloud.

Preferably, the force calculation plate and the second water cooling plate in the heat absorption group are fixedly arranged on a first water cooling plate, and the first water cooling plate is fixedly arranged on the chassis.

Preferably, the first-stage water separator comprises a first-stage water inlet pipe and a first-stage water outlet pipe; the first water cooling plate is provided with screw holes connected with the first-stage water distributor and the chassis, and a water inlet and a water outlet on the first water cooling plate and the second water cooling plate are respectively connected with a first-stage water inlet pipe and a first-stage water outlet pipe.

Preferably, the first water cooling plate and the second water cooling plate are connected with a first-stage water inlet pipe and a first-stage water outlet pipe through hoses, and the first-stage water inlet pipe and the first-stage water outlet pipe are respectively connected with a second-stage water inlet pipe and a second-stage water outlet pipe of the second-stage water separator through a water inlet pipeline and a water outlet pipeline.

Preferably, the first water cooling plate is connected with the first-stage water inlet pipe and the first-stage water outlet pipe through screws, and sealing rings are arranged on a water inlet and a water outlet of the first water cooling plate; the second water cooling plate is connected with the first-stage water inlet pipe and the first-stage water outlet pipe through hoses.

Preferably, the cloud computing power water-cooling module further comprises a bracket arranged above the heat absorption set, a control module is placed on the bracket, and the control module is connected with the computing power plate.

Preferably, the cloud computing power water-cooling module is further provided with a fan.

Preferably, a plurality of sets of crosspiece slideways are arranged on the machine cabinet, and two sides of the chassis are fixed on the crosspiece slideways through screws.

Preferably, the secondary water separator is mounted on the cabinet, the primary water separator of each layer on the cabinet is connected with the secondary water separator through a water inlet pipeline and a water outlet pipeline, and valves or water stop quick plugs are arranged on the water pipelines and the water outlet pipeline.

The utility model has the advantages that:

1. this application sets up the switch board module inside the rack to with supply socket along the range orientation setting of cloud computing power water-cooling module, be close to cloud computing power water-cooling module, can simplify being connected of cloud computing power water-cooling module and switch board module.

2. Set up the switch board module into strong electric district, weak current district, network district, through the subregion, water and electricity separation has been realized to whole rack, high low pressure subregion, network and electricity subregion. Through the regionalization design, when a certain region has a problem, only the problem of the corresponding region needs to be solved, other modules do not need to be involved, and the method is suitable for batch production.

3. A valve or a water stop quick plug is arranged between the first-stage water distribution and the second-stage water distribution, so that water is cut off during maintenance conveniently.

4. The heat absorption group is arranged on the chassis, can be produced, assembled and tested on a production line, and is pushed into a crosspiece slideway of a cabinet after the test is qualified, so that electricity connection, water connection and network cable connection are carried out; is beneficial to batch production and processing and is convenient to maintain.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a schematic rear view of the present invention.

Fig. 4 is a schematic structural diagram of the cloud computing power water-cooling module.

Fig. 5 is a schematic view of the structure of the heat absorbing set.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components in a specific posture (as shown in the drawings), the cloud motion condition, etc., and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, descriptions in the present application as to "first", "second", and the like are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In addition, the technical solutions between the embodiments of the present invention can be combined with each other, but it is necessary to be able to be realized by a person having ordinary skill in the art as a basis, and when the technical solutions are contradictory or cannot be realized, the combination of such technical solutions should be considered to be absent, and is not within the protection scope of the present invention.

Referring to fig. 1 to 5, a cloud computing power water-cooling structure modular device includes a cabinet 10, on which a cloud computing power water-cooling module 20 and a power distribution cabinet module 30 are arranged, the cloud computing power water-cooling module 20 is arranged on the cabinet 10 in rows, a strong current area 31, a weak current area 32 and a network area 33 are arranged in the power distribution cabinet module 30, and a power socket 34 of the weak current area 32 is arranged in an area close to the cloud computing power water-cooling module 20; the cloud computing power water cooling module 20 comprises a plurality of heat absorption groups and a chassis 24, wherein the heat absorption groups are composed of a first water cooling plate 21, a computing power plate 22 and a second water cooling plate 23, the heat absorption groups are arranged on the chassis 24, the computing power plate 22 is arranged between the first water cooling plate 21 and the second water cooling plate 23, the first water cooling plate 21 and the second water cooling plate 23 are connected with a first-level water distributor 40, the first-level water distributor 40 is connected with a second-level water distributor 50 arranged on a cabinet, and the second-level water distributor is connected with a heating system. Preferably, the rack 10 sets up in a hierarchical manner, and the cloud computing power water-cooling module 20 sets up in switch board module 30 both sides, supply socket 34 sets up in switch board module 30 both sides, sets up along the array direction of the cloud computing power water-cooling module 20.

This application sets up the switch board module inside the rack to with supply socket along the range orientation setting of cloud computing power water-cooling module, be close to cloud computing power water-cooling module, can simplify being connected of cloud computing power water-cooling module and switch board module. Set up the switch board module into strong electric district, weak current district, network district, through the subregion, water and electricity separation has been realized to whole rack, high low pressure subregion, network and electricity subregion. Through the regionalization design, when a certain region has a problem, only the problem of the corresponding region needs to be solved, other modules do not need to be involved, and the method is suitable for batch production.

Preferably, the force calculation plate 22 and the second water-cooling plate 23 in the heat absorption set are fixedly mounted on the first water-cooling plate 21, and the first water-cooling plate 21 is fixedly mounted on a bracket on the chassis 24 through screws. The first water cooling plate is arranged on the chassis, the force calculation plate and the second water cooling plate are arranged on the first water cooling plate, and the second water cooling plate and the force calculation plate can be in a suspended state relative to the chassis. When the force calculating plate is transported or operated, the vibration is generated, so that the whole vibration is completely transferred to the first water cooling plate, and the force calculating plate cannot be damaged due to the fact that staggered torsion is formed among the first water cooling plate, the second water cooling plate and the force calculating plate.

Preferably, the primary water separator 40 comprises a primary water inlet pipe 41 and a primary water outlet pipe 42; the first water cooling plate 21 is provided with a screw hole 25 connected with the first-stage water distributor 40 and the chassis 24, and a water inlet and a water outlet on the first water cooling plate 21 and the second water cooling plate 23 are respectively connected with a first-stage water inlet pipe and a first-stage water outlet pipe.

Preferably, the first water-cooling plate 21 and the second water-cooling plate 23 are connected with a first-stage water inlet pipe and a first-stage water outlet pipe through hoses, and the first-stage water inlet pipe 41 and the first-stage water outlet pipe 42 are respectively connected with a second-stage water inlet pipe 51 and a second-stage water outlet pipe 52 of the second-stage water separator 50 through a water inlet pipe 43 and a water outlet pipe 44. In another preferred embodiment, the first water cooling plate 21 is connected with the first-stage water inlet pipe 41 and the first-stage water outlet pipe 42 through screws, and sealing rings are arranged on the water inlet 211 and the water outlet 212 of the first water cooling plate; the water inlet 231 and the water outlet 232 of the second water-cooling plate 23 are connected with the first-stage water inlet pipe and the first-stage water outlet pipe through hoses. The first water cooling plate is connected with the first-stage water inlet pipe and the first-stage water outlet pipe through screws in a hard connection sealing mode, and meanwhile, the fixing reinforcing function is achieved.

Preferably, the cloud computing power water-cooling module 20 further comprises a bracket 27 arranged above the heat absorption unit, a control module 26 is placed on the bracket, and the control module 26 is connected with the computing power board. Preferably, the cloud computing power water-cooling module is further provided with a fan. Preferably, a plurality of sets of crosspiece slideways are arranged on the cabinet, and two sides of the chassis 40 are fixed on the crosspiece slideways through screws.

The fan is arranged on the cloud computing power water-cooling module 20, so that the trouble of arranging the fan and power supply wiring on the cabinet panel is reduced. 15 groups of cloud computing power water-cooling modules 20 are placed in each chassis, and the number is not limited in the actual use process and can be adjusted according to the actual condition. The primary water separator is integrated on the chassis, but not independent, and the chassis only needs to connect two water pipes of the water inlet pipeline and the water outlet pipeline to the secondary water separator. On this application, the chassis of cloud computing power server modularization installation, solve water-cooling, electricity, net twine on the chassis, each module both can work alone, also can push away the rack on, the group work.

Preferably, the secondary water separator 50 is installed on the cabinet, the primary water separator of each layer on the cabinet is connected with the secondary water separator through a water inlet pipeline and a water outlet pipeline, and valves or water stop quick plugs are arranged on the water pipelines and the water outlet pipeline, so that water is cut off during maintenance conveniently. The second grade outlet pipe of second grade water knockout drum is connected with the heating end of the heat pump system among the heating system, is used for the residential area heating with hot water, and the heating end of heat pump system and the second grade of second grade water knockout drum advance water piping connection, and the second grade inlet tube sends cold water into the one-level inlet tube, reentrants first water-cooling board and second water-cooling board, so circulate, had both satisfied the water-cooling heat dissipation's of cloud computing power server needs, can be used for the residential area heating with the heat again.

The utility model has the advantages that:

according to the cloud computing power server, the cloud computing power server is modularly installed below the cloud computing power server, so that batch production and processing are facilitated, and maintenance is convenient; meanwhile, the power distribution cabinet module is arranged in the middle of the cabinet, so that the cloud computing power water-cooling modules on two sides can be conveniently wired.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings, or direct or indirect clouds are used in other related technical fields, and the same principle is included in the patent protection scope of the present invention.

Claims (10)

1. A cloud computing power water-cooling structure modularization device is characterized by comprising a cabinet, wherein cloud computing power water-cooling modules and a power distribution cabinet module are arranged on the cabinet, the cloud computing power water-cooling modules are arranged on the cabinet in rows, a strong current area, a weak current area and a network area are arranged in the power distribution cabinet module, and a power socket of the weak current area is arranged in an area close to the cloud computing power water-cooling modules; the cloud computing power water cooling module comprises a plurality of heat absorption groups and a chassis, wherein each heat absorption group is composed of a first water cooling plate, a computing power plate and a second water cooling plate, the heat absorption groups are arranged on the chassis, the computing power plate is arranged between the first water cooling plate and the second water cooling plate, the first water cooling plate and the second water cooling plate are connected with a primary water distributor, and the primary water distributor is connected with a secondary water distributor arranged on the cabinet.

2. The modular device with the cloud computing power water-cooling structure according to claim 1, wherein the cabinets are arranged in a layered mode, the cloud computing power water-cooling modules are arranged on two sides of the power distribution cabinet module, and the power sockets are arranged on two sides of the power distribution cabinet module and arranged along the arrangement direction of the cloud computing power water-cooling modules.

3. The cloud computing power water-cooling structural modular device of claim 1, wherein the computing power plate and the second water-cooling plate in the heat absorption group are fixedly installed on a first water-cooling plate, and the first water-cooling plate is fixedly installed on a chassis.

4. The cloud computing power water-cooled structural modular device of claim 3, wherein the primary water knockout vessel comprises a primary water inlet pipe and a primary water outlet pipe; the first water cooling plate is provided with screw holes connected with the first-stage water distributor and the chassis, and a water inlet and a water outlet on the first water cooling plate and the second water cooling plate are respectively connected with a first-stage water inlet pipe and a first-stage water outlet pipe.

5. The cloud computing power water-cooling structure modularization device of claim 4, wherein the first water-cooling plate and the second water-cooling plate are connected with a first-stage water inlet pipe and a first-stage water outlet pipe through hoses, and the first-stage water inlet pipe and the first-stage water outlet pipe are respectively connected with a second-stage water inlet pipe and a second-stage water outlet pipe of a second-stage water separator through a water inlet pipeline and a water outlet pipeline.

6. The cloud computing power water-cooling structure modularization device of claim 4, wherein the first water-cooling plate is connected with the first-stage water inlet pipe and the first-stage water outlet pipe through screws, and sealing rings are arranged on a water inlet and a water outlet of the first water-cooling plate; the second water cooling plate is connected with the first-stage water inlet pipe and the first-stage water outlet pipe through hoses.

7. A cloud computing power water-cooling structure modularization device as claimed in any one of claims 1 to 6, wherein the cloud computing power water-cooling module further comprises a bracket arranged above the heat absorption set, a control module is placed on the bracket, and the control module is connected with the computing power plate.

8. The cloud computing power water-cooling structure modularization device of claim 7, wherein the cloud computing power water-cooling module is further provided with a fan.

9. The cloud computing power water-cooling structure modularization device of claim 8, wherein a plurality of sets of crosspiece slideways are arranged on the cabinet, and two sides of the chassis are fixed on the crosspiece slideways through screws.

10. The cloud computing power water-cooling structure modularization device of claim 9, wherein the secondary water segregator is mounted on a cabinet, the primary water segregator of each layer on the cabinet is connected with the secondary water segregator through a water inlet pipeline and a water outlet pipeline, and valves or water stopping quick plugs are arranged on the water inlet pipeline and the water outlet pipeline.

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