CN112363602A - Hardware equipment installation application protective equipment for cloud computing - Google Patents

Abstract

The invention discloses a hardware equipment installation application protection device for cloud computing, which comprises a floor stand, wherein a water cooling mechanism and a heat absorption mechanism are respectively arranged on the floor stand. The cooling support plate and the main output pipe which are of hollow structures are arranged in the floor support, the underground water tank which is positioned under the ground is arranged, the special pipe which is provided with the primary check valve and the secondary check valve is connected between the cooling support plate and the main output pipe, and the heat conducting frame which can absorb heat of hardware equipment is arranged on the special pipe, so that the high-temperature hardware equipment is cooled by utilizing the low-temperature special pipe; the driving impeller capable of continuously rotating is arranged in the special pipe by utilizing the directionally flowing pure water, the rotary table is driven to continuously rotate through the secondary rotating shaft, so that the pressurizing piston is driven to do telescopic motion in the curved pipe, the cooling liquid is extruded to be sprayed on the cooling bearing plate, and the high-temperature heat of hardware equipment can be efficiently and comprehensively absorbed and consumed in the evaporation process of the glycol-water solution.

Description

Hardware equipment installation application protective equipment for cloud computing

Technical Field

The invention relates to the technical field of application protection of cloud computing hardware facilities, in particular to hardware equipment installation application protection equipment for cloud computing.

Background

Cloud computing is one of distributed computing, and means that a huge data computing processing program is decomposed into countless small programs through a network cloud, and then the small programs are processed and analyzed through a system consisting of a plurality of servers to obtain results and are returned to a user. In the early development process, it was simply a distributed computation, solving task distribution and merging the computation results. By the technology, tens of thousands of data can be processed within a few seconds, so that strong network service is achieved. The cloud is a network in nature, and in a narrow sense, the cloud computing is a network for providing resources, so that a user can acquire the resources on the cloud at any time and use the resources according to the required quantity, and the cloud computing can be regarded as infinitely expanded and only needs to pay according to the used quantity; in a broad sense, cloud computing is a service related to information technology, software and the internet, the computing resource sharing pool is called cloud, the cloud computing integrates a plurality of computing resources, automatic management is realized through software, and the resources can be rapidly provided only by few people.

With the continuous development of scientific technology, cloud services at the present stage are not just distributed computing, but are the result of hybrid evolution and leap of computer technologies such as distributed computing, utility computing, load balancing, parallel computing, network storage, hot backup redundancy, virtualization and the like. The expansion of the function and the function benefits from the improvement of hardware equipment, and the hardware equipment of cloud computing mainly refers to a data center which not only comprises a computer server, communication equipment and storage equipment, but also comprises redundant data communication connection, environment monitoring equipment, a management system and various safety devices. Compared with the traditional computer architecture, the cloud computing hardware is very dispersed and independent, and accordingly, in order to adapt to the change, two technologies, namely virtualization and distribution, are applied, and are key technologies of cloud computing. The hardware facilities can meet the requirements of various functions only by performing extremely high-speed fussy operation, so that hardware equipment can correspondingly generate a large amount of loads to obviously generate high-temperature heat, the hardware equipment is cooled and radiated by adopting an air cooling way under the prior art, but the hardware equipment is highly concentrated, the heat productivity is extremely high, the duration is long, the effect is limited by adopting a single air cooling way, the hardware equipment can only operate and work in a high-temperature damp-heat environment, a large amount of energy resources are required to be invested, and the hardware equipment is not in accordance with the original intention of civilized development.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, a hardware facility for cloud computing has overhigh heat and is lack of heat dissipation maintenance, and provides a hardware equipment installation application protection device for cloud computing.

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

the protection equipment for installing and applying the hardware equipment for cloud computing comprises a floor stand, wherein a water cooling mechanism and a heat absorption mechanism are respectively arranged on the floor stand;

the water cooling mechanism comprises a cooling base plate fixedly arranged in the lower end of the floor stand, the lower end of the cooling base plate is fixedly connected with a main output tube penetrating and sleeved with the floor stand, an underground water tank used for filling purified water is fixedly connected onto the main output tube, special tubes connected with the cooling base plate and the main output tube are fixedly arranged in two sides of the floor stand, a primary check valve and a secondary check valve are respectively arranged on the special tubes, and a heat conducting frame is fixedly sleeved at the upper ends of the special tubes;

the heat absorption mechanism is including fixed the bin that sets up in cooling backing plate upper end and filling have the coolant liquid, and the bent type pipe of fixedly connected with on the bin, fixed being provided with on the bin with the corresponding cooling loading board in bent type pipe upper end, it is provided with the drive impeller to rotate in the mechanical tubes lower extreme, and rotates respectively in the support that falls to the ground and be provided with one-level pivot and second grade pivot, fixed cover is equipped with one-level gear and second grade gear respectively in drive impeller and the one-level pivot, and fixed cover is equipped with tertiary gear and the level four gear that the meshing is connected respectively in one-level pivot and the second grade pivot, fixedly connected with carousel in the second grade pivot, rotate on the carousel and be connected with the traction lever, and traction lever lower extreme round pin.

Preferably, the cooling base plate and the main output pipe are respectively arranged horizontally and vertically, and the underground water tank is connected to the lower end of the main output pipe extending to the outside of the floor stand.

Preferably, the primary check valve is located at the upper end of the special pipe connected with the cooling base plate, and the secondary check valve is located at the lower end of the special pipe connected with the main output pipe.

Preferably, the first-stage rotating shaft is vertically arranged at the lower end of the floor stand, and the second-stage rotating shaft is horizontally arranged at the middle end of the floor stand.

Preferably, the first-stage gear and the second-stage gear are both flat gears, and the third-stage gear and the fourth-stage gear are both bevel gears.

Preferably, the cooling liquid is a glycol-water solution with a concentration of 33% -37%.

Compared with the prior art, the invention has the following advantages:

1. according to the invention, the cooling base plate and the main output pipe which are of a hollow structure are arranged in the floor support so as to be convenient for arranging the underground water tank under the ground, the special pipe provided with the primary check valve and the secondary check valve is connected between the cooling base plate and the main output pipe, and the heat conduction frame capable of absorbing heat of hardware equipment is arranged on the special pipe so as to heat low-temperature purified water in the special pipe, so that the water-cooling heat dissipation effect of consuming heat is achieved.

2. The invention utilizes directionally flowing pure water to arrange a continuously rotating driving impeller in a special pipe, utilizes a primary gear and a secondary gear which are connected in a meshed mode, and a tertiary gear and a quaternary gear to drive a rotary table to rotate continuously so as to drive a pressurizing piston to move in a telescopic mode in a curved pipe, so that cooling liquid is extruded to spray on a cooling bearing plate, and the heat consumption of hardware equipment is accelerated by utilizing the evaporation and heat absorption of glycol-water solution.

In summary, the cooling base plate and the main output pipe which are of hollow structures are arranged in the floor stand, so that an underground water tank under the ground can be conveniently arranged, the special pipe provided with the primary check valve and the secondary check valve is connected between the cooling base plate and the main output pipe, and the heat conducting frame capable of absorbing heat of hardware equipment is arranged on the special pipe, so that the high-temperature hardware equipment can be cooled by utilizing the low-temperature special pipe; the driving impeller capable of continuously rotating is arranged in the special pipe by utilizing the directionally flowing pure water, the rotary table is driven to continuously rotate through the secondary rotating shaft, so that the pressurizing piston is driven to do telescopic motion in the curved pipe, the cooling liquid is extruded to be sprayed on the cooling bearing plate, and the high-temperature heat of hardware equipment can be efficiently and comprehensively absorbed and consumed in the evaporation process of the glycol-water solution.

Drawings

Fig. 1 is a schematic structural diagram of a hardware device installation application protection device for cloud computing according to the present invention;

fig. 2 is an enlarged schematic view of a part a of a hardware device installation application protection device for cloud computing according to the present invention;

fig. 3 is an enlarged schematic view of a part B of the hardware device installation application protection device for cloud computing according to the present invention;

fig. 4 is a schematic structural view of a floor stand of a hardware device installation application protection device for cloud computing according to the present invention;

fig. 5 is a schematic view of a connection structure of a drive impeller, a primary support and a secondary support of a hardware device installation application protection device for cloud computing according to the present invention;

fig. 6 is a schematic view of a connection structure between a curved pipe and a booster piston of a protective device for installation and application of hardware equipment for cloud computing according to the present invention.

In the figure: the device comprises a floor support 1, a cooling base plate 2, a main output pipe 3, an underground water tank 4, a special pipe 5, a first-stage check valve 6, a second-stage check valve 7, a heat conduction frame 8, a storage tank 9, a bent pipe 10, a cooling bearing plate 11, a driving impeller 12, a first-stage rotating shaft 13, a second-stage rotating shaft 14, a first-stage gear 15, a second-stage gear 16, a third-stage gear 17, a fourth-stage gear 18, a turntable 19, a traction rod 20 and a pressurizing piston 21.

Detailed Description

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

Referring to fig. 1-6, the protection device for installation and application of the hardware equipment for cloud computing comprises a floor stand 1, wherein the floor stand 1 is of a U-shaped structure and is fixedly installed in a ground groove structure, and a water cooling mechanism and a heat absorption mechanism are respectively arranged on the floor stand 1;

the water cooling mechanism comprises a cooling base plate 2 fixedly arranged in the lower end of a floor support 1, the lower end of the cooling base plate 2 is fixedly connected with a main output pipe 3 penetrating and sleeved on the floor support 1, an underground water tank 4 filled with purified water is fixedly connected to the main output pipe 3, the underground water tank 4 is deeply buried in the ground with the depth of 1.2-2 m so as to cool the purified water in the underground water tank 4 under the low-temperature condition of the ground to realize the repeated cooling effect of the purified water, special pipes 5 connected with the cooling base plate 2 and the main output pipe 3 are fixedly arranged in two sides of the floor support 1, a primary check valve 6 and a secondary check valve 7 are respectively arranged on the special pipes 5, the flow direction of the purified water in the special pipes 5 is controlled by arranging the primary check valve 6 and the secondary check valve 7 so as to ensure the directional flow of the purified water, and a heat conducting frame 8 is fixedly sleeved on the upper end of, high-temperature heat on hardware equipment can be transferred to purified water in the special pipe 5 through the heat conduction frame 8, so that the purified water is enabled to perform backflow movement due to temperature difference, and the special pipe 5 is cooled by using low-temperature purified water so as to perform cold compress on the hardware equipment;

the heat absorption mechanism comprises a storage box 9 which is fixedly arranged at the upper end of a cooling cushion plate 2 and filled with cooling liquid, wherein an electromagnetic valve is arranged in the storage box 9 so as to periodically supplement the cooling liquid for a curved pipe 10, the storage box 9 is fixedly connected with the curved pipe 10, a cooling bearing plate 11 corresponding to the upper end of the curved pipe 10 is fixedly arranged on the storage box 9, the cooling bearing plate 11 is used for bearing hardware equipment and absorbing heat for the hardware equipment, a driving impeller 12 is rotatably arranged in the lower end of a special pipe 5, the driving impeller 12 can be driven by directionally flowing purified water so as to enable the driving impeller 12 to continuously rotate, a first-stage rotating shaft 13 and a second-stage rotating shaft 14 are respectively rotatably arranged in a ground falling support 1, a first-stage gear 15 and a second-stage gear 16 are respectively fixedly sleeved on the driving impeller 12 and the first-stage rotating shaft 13, and a third-stage gear 17 and a fourth-stage gear 18 which are respectively and fixedly, the second-stage rotating shaft 14 is fixedly connected with a rotating disc 19, the rotating disc 19 is rotatably connected with a traction rod 20, the lower end of the traction rod 20 is connected with a pressurizing piston 21 which is slidably sleeved in the lower end of the curved pipe 10 through a pin shaft, and the pressurizing piston 21 moves up and down to repeatedly apply pressure to the cooling liquid in the curved pipe 10.

The cooling base plate 2 and the main output tube 3 are horizontally and vertically arranged respectively, the underground water tank 4 is connected to the lower end of the main output tube 3 extending out of the floor support 1, and the purified water in the underground water tank 4 can be cooled by utilizing the underground low-temperature environment so as to realize the repeated cooling effect of the purified water.

The first-stage one-way valve 6 is positioned at the upper end position of the special pipe 5 connected with the cooling base plate 2, and the second-stage one-way valve 7 is positioned at the lower end position of the special pipe 5 connected with the main output pipe 3, so that the purified water can flow directionally, and the driving impeller 12 can be driven continuously.

Specifically, referring to fig. 1 of the specification, the first-stage rotating shaft 13 is vertically disposed at the lower end of the floor stand 1, and the second-stage rotating shaft 14 is horizontally disposed at the middle end of the floor stand 1.

The first gear 15 and the second gear 16 are both flat gears, and the third gear 17 and the fourth gear 18 are both bevel gears.

The cooling liquid is ethylene glycol-water solution with the concentration of 33% -37%, and the ethylene glycol-water solution absorbs a large amount of high-temperature heat in the evaporation process to realize rapid evaporation, so that the cooling and heat dissipation effects on hardware equipment are achieved.

The invention can be illustrated by the following operating modes:

hardware equipment on the heat conduction bearing plate 11 transfers heat to the heat conduction frame 8 to heat the purified water in the special pipe 5, and the high-temperature expanded purified water flows back to the main output pipe 3 through the special pipe 5 and the secondary check valve 7;

high-temperature purified water in the main output pipe 3 flows back to the underground water tank 4 to realize cooling, is discharged into the cooling base plate 2 through the main output pipe 3 after being cooled to a lower temperature, and flows into the special pipe 5 through the primary check valve 6 to cool hardware equipment;

the directionally flowing pure water impacts the driving impeller 12 to enable the driving impeller 12 to continuously rotate, the driving impeller 12 drives the first-stage rotating shaft 13 to rotate through the first-stage gear 15 and the second-stage gear 16 which are connected in a meshed mode, and the first-stage rotating shaft 13 drives the second-stage rotating shaft 14 to rotate through the third-stage gear 17 and the fourth-stage gear 18 which are connected in a meshed mode;

the secondary rotating shaft 14 drives the rotating disc 19 to rotate continuously, so that the traction rod 20 deflects along with the rotating disc to draw the pressurizing piston 21 to stretch up and down in the curved pipe 10 so as to compress the cooling liquid in the curved pipe 10, and the stressed cooling liquid is sprayed onto the cooling bearing plate 11 through the outlet end of the stressed cooling liquid;

the cooling liquid quickly absorbs the high-temperature heat on the cooling bearing plate 11 in the evaporation process and is consumed, so that the cooling effect is achieved;

in the process, the storage tank 9 is periodically replenished with the coolant to the bent tubes 10 through the solenoid valve to ensure a sufficient amount of the coolant.

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

Claims (6)

1. The protection equipment for installing and applying the hardware equipment for cloud computing comprises a floor stand (1), and is characterized in that a water cooling mechanism and a heat absorption mechanism are respectively arranged on the floor stand (1);

the water cooling mechanism comprises a cooling base plate (2) fixedly arranged in the lower end of the floor support (1), the lower end of the cooling base plate (2) is fixedly connected with a main output pipe (3) penetrating through and sleeved with the floor support (1), the main output pipe (3) is fixedly connected with an underground water tank (4) used for filling purified water, special pipes (5) connected with the cooling base plate (2) and the main output pipe (3) are fixedly arranged in two sides of the floor support (1), a primary check valve (6) and a secondary check valve (7) are respectively arranged on the special pipes (5), and a heat conducting frame (8) is fixedly sleeved at the upper ends of the special pipes (5);

the heat absorption mechanism comprises a storage box (9) which is fixedly arranged at the upper end of a cooling base plate (2) and filled with cooling liquid, a bent pipe (10) is fixedly connected onto the storage box (9), a cooling bearing plate (11) corresponding to the upper end of the bent pipe (10) is fixedly arranged on the storage box (9), a driving impeller (12) is rotatably arranged in the lower end of the special pipe (5), a first-stage rotating shaft (13) and a second-stage rotating shaft (14) are respectively rotatably arranged in a landing support (1), a first-stage gear (15) and a second-stage gear (16) are respectively fixedly sleeved on the driving impeller (12) and the first-stage rotating shaft (13), a third-stage gear (17) and a fourth-stage gear (18) which are connected in a meshed manner are respectively fixedly sleeved on the first-stage rotating shaft (13) and the second-stage rotating shaft (14), a rotary disc (19) is fixedly connected onto the rotary, and the lower end of the traction rod (20) is connected with a pressurizing piston (21) which is sleeved in the lower end of the curved pipe (10) in a sliding way through a pin shaft.

2. The protection device for installing and applying the hardware equipment for cloud computing is characterized in that the cooling base plate (2) and the main output pipe (3) are respectively arranged horizontally and vertically, and the underground water tank (4) is connected to the lower end of the main output pipe (3) extending out of the floor stand (1).

3. The cloud computing hardware equipment installation and application protection device as claimed in claim 2, wherein the primary check valve (6) is located at an upper end position where the special pipe (5) is connected with the cooling base plate (2), and the secondary check valve (7) is located at a lower end position where the special pipe (5) is connected with the main output pipe (3).

4. The protection device for hardware equipment installation and application for cloud computing according to claim 2, wherein the primary rotating shaft (13) is vertically arranged at the lower end of the floor stand (1), and the secondary rotating shaft (14) is horizontally arranged at the middle end of the floor stand (1).

5. The cloud computing hardware device installation and application protection device is characterized in that the primary gear (15) and the secondary gear (16) are flat gears, and the tertiary gear (17) and the quaternary gear (18) are bevel gears.

6. The protective equipment for installation and application of hardware equipment for cloud computing according to claim 1, wherein the cooling liquid is a glycol-water solution with a concentration of 33% -37%.

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