CN116390410A - Indoor data equipment for 5G big data - Google Patents

Abstract

The invention is suitable for the field of big data equipment, and provides indoor data equipment for 5G big data, which comprises a data equipment sealing shell and a driving box, wherein a cooling gap is formed between the data equipment sealing shell and a cooling shell, and a water conveying top is additionally arranged on the top of a data equipment main body; the cooling shell consists of a plurality of unit cooling pieces; the plurality of unit cooling pieces are hinged through a driving chain which is respectively arranged at two ends of the unit cooling pieces, the driving chain is arranged in a closed loop shape, and the plurality of unit cooling pieces are connected in the closed loop shape and sleeved on the sealing shell of the data equipment; the driving box is connected to the driving chain in a power transmission way; driving a plurality of unit cooling pieces to be attached to a sealing shell of the data equipment to carry out periodic closed-loop movement; the unit cooling piece cleans and scrapes impurities on the outer surface of the sealing shell of the data equipment on the basis of cooling a water source in the stirring cooling gap, and the sealing shell of the data equipment is prevented from being corroded and damaged due to long-term adhesion.

Description

Indoor data equipment for 5G big data

Technical Field

The invention relates to the field of big data equipment, in particular to indoor data equipment for 5G big data.

Background

With the development of information technology, in order to promote the comprehensive and deep revolution of life style, the 5G technology is slowly introduced into our field of vision; 5G is a communication technology, which is an iteration opportunity of an ecological system for industry, industry and consumers; in the 5G era, mobile communication will greatly promote the service use experience of mobile Internet with human centers, and continuously bring surprise to users.

The 5G big data in the 5G technology comprises data storage, data processing, data security and the like, and the data storage needs to store the acquired data so as to support the storage and the quick access of mass data; data processing, which is to support efficient processing and analysis of big data, including data cleaning, data mining, data analysis, etc.; the data security needs to ensure the security and reliability of the data, and prevent the data from being revealed and damaged.

Furthermore, the data storage, data processing and data security of the mass data require uninterrupted operation of the server group, so that a large amount of heat is generated; therefore, cooling equipment, especially some data equipment arranged indoors, needs to be additionally arranged; at present, in order to reduce energy consumption, some treatment modes in the prior art can put data equipment into river water, or sea water, or introduce river water and sea water into a room, and fully utilize cold water in a natural river or sea to cool; for example, a large data center (CN 114715360B) attached to a large offshore substation in china patent is also placed in the sea; however, data equipment which is in water for a long time is attached by moss, living organisms and the like in water, and is corroded and damaged.

Disclosure of Invention

The invention aims to solve the defects in the prior art: some prior art data equipment is placed in river water or sea water, or river water and sea water are introduced into a room, and cold water in a natural river or sea is fully utilized for cooling; however, the data equipment in water for a long time can be attached by moss, living organisms and the like in water to be corroded and damaged, and the indoor data equipment for 5G big data is provided.

It should be noted that: the cooling water source mentioned below may be sea water, river water, etc., and specifically means that there is no limitation as long as it can satisfy the requirement of cooling by cold water in nature, and the preferred reference is sea water and river water.

The specific technical scheme is as follows:

an indoor data device for 5G big data comprises a data device main body, wherein a cooling shell is sleeved around the data device main body, and the cooling shell is movably attached to a data device sealing shell arranged on the outer side of the data device main body; a cooling gap is formed between the data equipment sealing shell and the cooling shell, and a water conveying top is additionally arranged at the top of the data equipment main body; the water delivery top is used for uniformly providing a cooling water source for the cooling gap in the longitudinal direction of the main body of the data equipment; the cooling shell consists of a plurality of unit cooling pieces which are positioned in the cooling gaps; the plurality of unit cooling pieces are hinged through a driving chain which is respectively arranged at two ends of the unit cooling pieces, the driving chain is arranged in a closed loop shape, and the plurality of unit cooling pieces are connected in the closed loop shape and sleeved on the sealing shell of the data equipment; the unit cooling piece is movably attached to the sealing shell of the data equipment; the device also comprises a driving box, wherein the driving box is arranged on the side edge of the main body of the data device and is connected with a driving chain in a power transmission way; in the process that the driving box outputs power to drive the driving chain to perform closed-loop movement, a plurality of unit cooling pieces are driven to be attached to the sealing shell of the data equipment to perform periodic closed-loop movement; the unit cooling piece cleans and scrapes impurities on the outer surface of the sealing shell of the data equipment on the basis of cooling a water source in the stirring cooling gap;

in summary, the data equipment main body is erected in a water source introduced into the room from the outside, a cooling water source enters from a cooling gap at the top of the data equipment main body by utilizing the water delivery top and flows downwards along the longitudinal direction of the data equipment main body, and the data equipment main body is cooled in an energy-saving way through the data equipment sealing shell; after the water delivery top uniformly provides a cooling water source for the cooling gap in the longitudinal direction of the data equipment main body, the cooling water source downwards flows along the longitudinal direction of the data equipment main body, the driving chain is driven to carry out closed-loop movement by using the output power of the driving box, and after that, the driving chain drives a plurality of unit cooling pieces to be attached to the data equipment sealing shell for periodic closed-loop movement; the unit cooling piece cleans and scrapes impurities on the outer surface of the sealing shell of the data equipment on the basis of cooling a water source in the stirring cooling gap; the cooling water source is fully contacted with the sealing shell of the data equipment, and the cleanliness of the main body of the data equipment is guaranteed by using the unit cooling piece on the basis of improving the cooling effect, so that the sealing shell of the data equipment is prevented from being attached for a long time and corroded and damaged; the cooling shell cover is arranged outside the main body of the data equipment, the cooling water source is positioned in a cooling gap between the sealing shell and the cooling shell of the data equipment, so that the cooling water source outside the cooling shell continuously provides a cold source for the cooling water source in the cooling gap, and the cooling effect of the cooling water source in the cooling gap is ensured; and the cooling shell cover is arranged outside the data equipment main body, so that the stability of the data equipment main body is also ensured, and the damage to the data equipment main body or loose damage to parts inside the data equipment main body caused by the impact of foreign matters in an external cooling water source is avoided.

In the detailed technical scheme of the invention, the water delivery roof comprises a top cover plate and a water pumping groove; the water pumping groove is arranged at the top of the top cover plate and is in a closed loop shape; the water pumping groove is provided with a plurality of water pumps which are distributed in the water pumping groove at equal intervals; a plurality of water suction pumps are used for uniformly providing a cooling water source for the cooling gap in the longitudinal direction of the main body of the data equipment.

In a further technical scheme of the invention, a wire harness collecting pipe is fixedly penetrated on the water delivery roof, and the wire harness collecting pipe is used for collecting and guiding out cables penetrated in the data equipment main body; the wire harness collecting pipe comprises an elastic sealing sleeve, and an anti-pulling knot is additionally arranged on the elastic sealing sleeve; the anti-pulling knot consists of an elastic rubber sleeve and a plurality of springs arranged in the elastic rubber sleeve; the anti-pulling knot is used for coping with and adapting to the stirring of the flowing cooling water source. Building a building on the side of a water source, and introducing the water source into a room; the data equipment main body is erected in water, after cables which are inserted in the data equipment main body are summarized in the elastic sealing sleeve, the elastic rubber sleeve and the springs are matched with each other to flexibly cope with stirring of a flowing cooling water source, stability is improved, and loosening of thread ends is avoided.

In the detailed technical scheme of the invention, the cooling shell further comprises an elastic sleeve, and the elastic sleeve is covered outside the plurality of unit cooling pieces; the cooling gap is a gap enclosed between the elastic sleeve and the sealing shell of the data equipment.

In a further technical scheme of the invention, the unit cooling piece comprises a water guide cover and a water regulating piston pipe; the water regulating piston pipes are arranged in a plurality and are distributed at equal intervals along the water guide cover main body; the water guide covers are distributed along the longitudinal direction of the data device main body; the driving chain is fixed at the end part of the water guide cover. By means of flowing cooling water sources, the cooling water sources in the cooling gap are transversely pushed by the water regulating piston pipe to be close to the data equipment sealing shell, are attached to the data equipment sealing shell by a plurality of unit cooling pieces, and perform periodic closed-loop movement along the data equipment sealing shell; the water source is cooled in the stirring cooling gap in an all-round manner, and the cooling effect of the cooling water source is ensured.

In the optimizing scheme of the invention, the water regulating piston tube comprises an inner push rod and an outer sleeve, wherein the outer sleeve is fixedly inserted into the elastic sleeve in a penetrating way, the inner push rod is movably inserted into the outer sleeve, the outer sleeve is fixedly arranged on a water guide cover, a water inlet hole is formed in the water guide cover, and the water guide cover is fixedly inserted into the water inlet hole in a penetrating way; the inner pushing rod is fixed with a pushing disc at one end far away from the outer sleeve, and a limiting ring for preventing the inner pushing rod from falling off is arranged at the port of the outer sleeve; the water guide cover is strip-shaped.

The inner pushing rod is fixed with an inner pushing column at the end head of the inner part of the outer sleeve, and the surface of the inner pushing column is smooth. The side walls positioned at two sides of the water guide cover are provided with a plurality of water permeable holes which are used for scattering the cooling water source in the process of transversely pushing the cooling water source by the water guide cover; the water guide cover is fixed with a cleaning scraper on the contact surface with the sealing shell of the data equipment.

In the detailed technical scheme of the invention, a supporting base is arranged at the bottom of the main body of the data equipment; the support base comprises a first-stage cavity and a second-stage cavity, and the first-stage cavity is mounted at the bottom of the main body of the data equipment in a matched manner through a mounting plate and a plurality of screws; the plurality of secondary cavities are arranged at the bottom of the primary cavity side by side; the primary cavity and the secondary cavity are independently arranged; the first-stage cavity is connected with an air duct A which is connected with an exhaust fan A; the secondary cavity is connected with an air duct B which is connected with an exhaust fan B. Independently starting an exhaust fan A or an exhaust fan B to independently provide gas for the primary cavity and the secondary cavity, so that the buoyancy of the main body of the data equipment is improved, the supporting force of an additional rack of the main body of the data equipment is reduced, and the service life is prolonged; and adjusting one of the exhaust fan A and the exhaust fan B, or simultaneously starting and stopping, combining the amount of the gas filled, realizing the adjustment of the buoyancy of the data equipment main body, adapting to the buoyancy of different submitted data equipment main bodies in a cooling water source, reducing the supporting force of an additional rack of the data equipment main body, avoiding the long-term supporting of the additional rack in a complex water environment from being influenced by transition, and prolonging the service life.

In the detailed technical scheme of the invention, a motor is arranged in the driving box, a driving gear is fixed on an output shaft of the motor, and the driving gear is meshed with a driving chain.

Compared with the prior art, the invention can:

1. the data equipment main body is erected in a water source which is introduced into the room from the outside, a cooling water source enters from a cooling gap at the top of the data equipment main body by utilizing a water delivery top and flows downwards along the longitudinal direction of the data equipment main body, and the data equipment main body is cooled in an energy-saving way through the data equipment sealing shell;

2. after the water delivery top uniformly provides a cooling water source for the cooling gap in the longitudinal direction of the data equipment main body, the cooling water source downwards flows along the longitudinal direction of the data equipment main body, the driving chain is driven to carry out closed-loop movement by using the output power of the driving box, and after that, the driving chain drives a plurality of unit cooling pieces to be attached to the data equipment sealing shell for periodic closed-loop movement; the unit cooling piece cleans and scrapes impurities on the outer surface of the sealing shell of the data equipment on the basis of cooling a water source in the stirring cooling gap; the cooling water source is fully contacted with the sealing shell of the data equipment, and the cleanliness of the main body of the data equipment is guaranteed by using the unit cooling piece on the basis of improving the cooling effect, so that the sealing shell of the data equipment is prevented from being attached for a long time and corroded and damaged;

3. the cooling shell cover is arranged outside the main body of the data equipment, the cooling water source is positioned in a cooling gap between the sealing shell and the cooling shell of the data equipment, so that the cooling water source outside the cooling shell continuously provides a cold source for the cooling water source in the cooling gap, and the cooling effect of the cooling water source in the cooling gap is ensured; the cooling shell is arranged outside the data equipment main body, so that the stability of the data equipment main body is also ensured, and the damage to the data equipment main body or the loose damage to parts inside the data equipment main body caused by the impact of foreign matters in an external cooling water source is avoided;

4. after the flowing cooling water source impacts the surface of the cooling shell, the pushing disc on the water transfer piston pipe is extruded, the pushing disc pushes the cooling water source inside the outer sleeve pipe through the inner pushing rod, so that the water transfer piston pipe transversely pushes the cooling water source inside the cooling gap to be close to the data equipment sealing shell, the transverse mixing degree of the cooling water source is improved, the problem that the heat conduction effect is poor due to the fact that the unit cooling piece is attached to the data equipment sealing shell for longitudinal periodical movement after the water source is attached to the data equipment sealing shell is avoided;

5. by means of flowing cooling water sources, the cooling water sources in the cooling gap are transversely pushed by the water regulating piston pipe to be close to the data equipment sealing shell, are attached to the data equipment sealing shell by a plurality of unit cooling pieces, and perform periodic closed-loop movement along the data equipment sealing shell; the water source is cooled in the stirring cooling gap in an omnibearing way, so that the cooling effect of the cooling water source is ensured;

6. independently starting an exhaust fan A or an exhaust fan B to independently provide gas for the primary cavity and the secondary cavity, so that the buoyancy of the main body of the data equipment is improved, the supporting force of an additional rack of the main body of the data equipment is reduced, and the service life is prolonged; and adjusting one of the exhaust fan A and the exhaust fan B, or simultaneously starting and stopping, combining the amount of the gas filled, realizing the adjustment of the buoyancy of the data equipment main body, adapting to the buoyancy of different submitted data equipment main bodies in a cooling water source, reducing the supporting force of an additional rack of the data equipment main body, avoiding the long-term supporting of the additional rack in a complex water environment from being influenced by transition, and prolonging the service life.

Drawings

Fig. 1 is a schematic structural diagram of an indoor data device for 5G big data according to the present invention;

FIG. 2 is a schematic diagram of the assembly of the sealing shell, the cooling shell and the elastic sleeve of the data equipment in the invention;

FIG. 3 is a schematic diagram of the assembly structure of the sealing shell and the cooling shell of the data equipment in the invention;

FIG. 4 is a schematic diagram of a cooling shell according to the present invention;

FIG. 5 is an enlarged schematic view of the structure of FIG. 3A;

FIG. 6 is a schematic view of the unit cooling element of FIG. 4;

FIG. 7 is an enlarged schematic view of the structure of FIG. 6B;

FIG. 8 is a schematic cross-sectional view of the water transfer piston tube of FIG. 7;

FIG. 9 is a schematic cross-sectional view of a water deflector according to the present invention;

fig. 10 is a schematic structural view of a support base according to the present invention.

In the drawings, the list of components represented by the various numbers is as follows:

110. harness manifold: 111. elastic sealing sleeve, 112, tensile tear-knot;

120. water conveying roof: 121. a water pumping tank 122, a top cover plate;

130. a data device body: 131. a data equipment sealing shell, 132, a cooling shell, 133 and an elastic sleeve; 1321. a driving chain 1322, a unit cooling member; 13221. the water guide cover 13222, the water regulating piston tube, 13223, the water permeable hole, 13224, the pushing disc, 13225, the inner pushing rod, 13226, the outer sleeve, 13227, the inner pushing column, 13228 and the water inlet;

140. the device comprises a supporting base, 141, a mounting plate, 142, a primary cavity, 143, a secondary cavity, 144, air ducts A,145 and an air duct B;

150. and a driving box.

Detailed Description

The present invention will be described in further detail with reference to specific embodiments in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that: the cooling water source mentioned below may be sea water, river water, etc., and specifically means that there is no limitation as long as it can satisfy the requirement of cooling by cold water in nature, and the preferred reference is sea water and river water.

Embodiments of the invention

As shown in fig. 1: an indoor data device for 5G big data comprises a data device main body 130, wherein a cooling shell 132 is sleeved around the data device main body 130, and the cooling shell 132 is movably attached to a data device sealing shell 131 arranged on the outer side of the data device main body 130;

thus, building a building on the side of the water source and introducing the water source into the room; the data equipment main body 130 is erected in water, and the data equipment main body 130 is subjected to energy-saving cooling on the data equipment sealing shell 131 by matching with the cooling shell 132;

it should be noted that, the undescribed components inside the main body 130 of the data device are in the prior art, the detailed structure thereof can be known from the journal of the existing literature, and meanwhile, the detailed structure can also be directly purchased in the market, or the components can be purchased in the market to form the components, etc.; which are not intended to be protected by the present invention and are not described in detail herein nor are they drawn in the accompanying drawings;

as shown in fig. 1: the data device sealing case 131 and the cooling case 132 are formed with cooling gaps, and the data device main body 130 is additionally provided with the water delivery roof 120 at the top thereof; the water delivery top 120 is used for uniformly providing a cooling water source for the cooling gap in the longitudinal direction of the data device main body 130;

therefore, the data device main body 130 is erected in a water source introduced from the outside into the room, the cooling water source is introduced from the cooling gap at the top of the data device main body 130 by the water delivery top 120 and flows downwards along the longitudinal direction of the data device main body 130, and the data device main body 130 is cooled in an energy-saving manner through the data device sealing shell 131;

as shown in fig. 1-5: the cooling shell 132 is composed of a plurality of unit cooling pieces 1322, and the plurality of unit cooling pieces 1322 are positioned in the cooling gap; the plurality of unit cooling pieces 1322 are hinged through a driving chain 1321 respectively arranged at two ends of the unit cooling pieces 1322, the driving chain 1321 is arranged in a closed loop shape, and the plurality of unit cooling pieces 1322 are connected in the closed loop shape and sleeved on the data equipment sealing shell 131; the unit cooling piece 1322 is movably attached to the data equipment sealing shell 131;

in detail, the plurality of chain links of the driving chain 1321 and the plurality of unit cooling members 1322 achieve flexible movement of the plurality of unit cooling members 1322 along with the driving chain 1321;

the device further comprises a drive box 150, wherein the drive box 150 is arranged at the side of the main body 130 of the data device and is connected to a drive chain 1321 in a power transmission manner; in the process of driving the driving chain 1321 to perform closed-loop movement by the power output by the driving box 150, a plurality of unit cooling pieces 1322 are driven to be attached to the data equipment sealing shell 131 to perform periodic closed-loop movement; the unit cooling piece 1322 cleans and scrapes impurities on the outer surface of the sealing shell 131 of the data equipment on the basis of cooling a water source in the stirring cooling gap;

therefore, after the water delivering roof 120 uniformly provides the cooling water source for the cooling gap from the longitudinal direction of the data device main body 130, the cooling water source flows downwards along the longitudinal direction of the data device main body 130, the driving chain 1321 is driven to perform closed-loop movement by using the output power of the driving box 150, and after that, the driving chain 1321 drives the plurality of unit cooling pieces 1322 to be attached to the data device sealing shell 131 to perform periodic closed-loop movement; the unit cooling piece 1322 cleans and scrapes impurities on the outer surface of the sealing shell 131 of the data equipment on the basis of cooling a water source in the stirring cooling gap; the cooling water source is fully contacted with the data equipment sealing shell 131, and the cleanliness of the data equipment main body 130 is guaranteed by using the unit cooling piece 1322 on the basis of improving the cooling effect, so that the data equipment sealing shell 131 is prevented from being attached for a long time and corroded and damaged;

meanwhile, the cooling shell 132 is covered outside the data equipment main body 130, and the cooling water source is positioned in the cooling gap between the data equipment sealing shell 131 and the cooling shell 132, so that the cooling water source outside the cooling shell 132 continuously provides a cooling source for the cooling water source in the cooling gap, and the cooling effect of the cooling water source in the cooling gap is ensured; and the cooling shell 132 is covered outside the data equipment main body 130, so that the stability of the data equipment main body 130 is also ensured, and the damage to the data equipment main body 130 or the loose damage to parts inside the data equipment main body 130 caused by the impact of foreign matters in an external cooling water source is avoided.

Embodiments of the invention

As shown in fig. 1: the water delivery roof 120 comprises a top cover plate 122 and a water pumping groove 121; the water pumping groove 121 is arranged at the top of the top cover plate 122 and is in a closed loop shape; the water pumping groove 121 is provided with a plurality of water pumping pumps which are distributed in the water pumping groove 121 at equal intervals; a plurality of water pumps are used to uniformly provide a cooling water source for the cooling gap in the longitudinal direction of the data device body 130.

Therefore, the data device main body 130 is installed in a water source introduced from the outside into the room, the water pumping groove 121 uniformly provides a cooling water source for the cooling gap in the longitudinal direction of the data device main body 130 by using a plurality of water pumping pumps, the cooling water source flows downward along the longitudinal direction of the data device main body 130, and the data device main body 130 is cooled in an energy-saving manner through the data device sealing case 131.

Embodiments of the invention

As shown in fig. 1: a harness assembly pipe 110 is fixed on the water delivery roof 120 in a penetrating manner, and the harness assembly pipe 110 is used for gathering and guiding out cables inserted in the data equipment main body 130;

the wire harness collecting pipe 110 comprises an elastic sealing sleeve 111, and an anti-pulling knot 112 is additionally arranged on the elastic sealing sleeve 111; the anti-pulling knot 112 is composed of an elastic rubber sleeve and a plurality of springs arranged inside the elastic rubber sleeve; the anti-drag knot 112 is provided to address and accommodate the pulling of a flowing cooling water source.

Thus, building a building on the side of the water source and introducing the water source into the room; the data equipment main body 130 is erected in water, after cables inserted in the data equipment main body 130 are gathered in the elastic sealing sleeve 111, the elastic rubber sleeve on the tensile pulling knot 112 is matched with a plurality of springs, stirring of a flowing cooling water source is flexibly coped, stability is improved, and loosening of thread ends is avoided.

Embodiments of the invention

As shown in fig. 2: the cooling shell 132 further comprises an elastic sleeve 133, and the elastic sleeve 133 is covered outside the plurality of unit cooling pieces 1322;

the cooling gap is a gap enclosed between the elastic sleeve 133 and the sealing shell 131 of the data equipment.

It should be noted that: the elastic sleeve 133 and the elastic sealing sleeve 111 mentioned above may be made of rubber, or may be made of elastic plastic, etc., and specific materials are not limited, and may be elastic, and rubber is preferred.

Embodiments of the invention

As shown in fig. 5-7: the unit cooling member 1322 comprises a water guiding cover 13221 and a water regulating piston tube 13222; the water diversion piston tube 13222 is provided with a plurality of water diversion piston tubes and is distributed at equal intervals along the main body of the water diversion cover 13221;

the water guide cover 13221 is distributed along the longitudinal direction of the data device main body 130; the drive chain 1321 is fixed to the end of the water guide housing 13221.

Thus, building a building on the side of the water source and introducing the water source into the room; the data equipment main body 130 is erected in water, after a flowing cooling water source impacts the surface of the cooling shell 132, the water transfer piston tube 13222 is extruded, the cooling water source in the cooling gap is transversely pushed by the water transfer piston tube 13222, the cooling water source is close to the data equipment sealing shell 131, the transverse mixing degree of the cooling water source is improved, the problem that the heat conduction effect is poor due to the fact that the water source which is attached to the data equipment sealing shell 131 and subjected to heat conduction is attached to the data equipment sealing shell 131 after the unit cooling piece 1322 is attached to the data equipment sealing shell 131 for a long time is avoided;

namely, by means of flowing cooling water sources, the cooling water source in the cooling gap is transversely pushed by the water diversion piston tube 13222 to be close to the data equipment sealing shell 131, and the cooling water source is attached to the data equipment sealing shell 131 by a plurality of unit cooling pieces 1322 and periodically moves in a closed loop along the data equipment sealing shell 131; the water source is cooled in the stirring cooling gap in an all-round manner, and the cooling effect of the cooling water source is ensured.

Embodiments of the invention

As shown in fig. 7-9: the water-adjusting piston tube 13222 comprises an inner pushing rod 13225 and an outer sleeve 13226, the outer sleeve 13226 is inserted and fixed on the elastic sleeve 133, the inner pushing rod 13225 is movably inserted and fixed inside the outer sleeve 13226, the outer sleeve 13226 is fixed on the water guiding cover 13221, the water guiding cover 13221 is provided with a water inlet 13228, and the water guiding cover 13221 is inserted and fixed inside the water inlet 13228;

the inner pushing rod 13225 is fixed with a pushing disc 13224 at one end far away from the outer sleeve 13226, and the outer sleeve 13226 is provided with a limiting ring at the port thereof for preventing the inner pushing rod 13225 from falling off;

the water guide cover 13221 is in a strip shape.

Therefore, after the flowing cooling water source hits the surface of the cooling shell 132, the pushing disc 13224 on the water transfer piston tube 13222 is extruded, the pushing disc 13224 pushes the cooling water source inside the outer sleeve 13226 through the inner pushing rod 13225, so that the cooling water source inside the cooling gap is transversely pushed by the water transfer piston tube 13222, the cooling water source is close to the data equipment sealing shell 131, the transverse mixing degree of the cooling water source is improved, the problem that the heat conduction effect is poor due to the fact that the water source attached to the data equipment sealing shell 131 after heat conduction is avoided, and the unit cooling piece 1322 attached to the data equipment sealing shell 131 is longitudinally and periodically moved along for a long time is solved.

It should be further explained that, after the cooling water source is stabilized, in the process that the water delivering roof 120 uniformly provides the cooling water source for the cooling gap in the longitudinal direction of the data device main body 130, the inner pushing rod 13225 inside the outer sleeve 13226 is pushed out by the torrent; meanwhile, the cooling water source in the cooling gap is discharged from the bottom after heat exchange.

Embodiments of the invention

As shown in fig. 8 and 9: the inner pushing rod 13225 is fixed with an inner pushing post 13227 at the end inside the outer sleeve 13226, and the surface of the inner pushing post 13227 is smooth.

As shown in fig. 8 and 9: the side walls on two sides of the water guide cover 13221 are provided with a plurality of water permeable holes 13223, and the water permeable holes 13223 are used for scattering the cooling water source in the process that the water guide cover 13221 transversely pushes the cooling water source;

the water guide cover 13221 is fixed with a cleaning blade on the contact surface with the data device sealing case 131.

Therefore, the driving box 150 is used for outputting power to drive the driving chain 1321 to move in a closed loop, and after that, the driving chain 1321 drives the plurality of unit cooling pieces 1322 to be attached to the data equipment sealing shell 131 to perform periodic closed loop movement, the cooling water source is scattered by the plurality of water permeable holes 13223 in the process that the water guide cover 13221 transversely pushes the cooling water source, so that the unit cooling pieces 1322 are used for cleaning impurities on the outer surface of the data equipment sealing shell 131 on the basis of cooling the water source in the stirring cooling gap; the cooling water source is fully contacted with the data equipment sealing shell 131, and the cleanliness of the data equipment main body 130 is guaranteed by using the unit cooling piece 1322 on the basis of improving the cooling effect, so that the data equipment sealing shell 131 is prevented from being attached for a long time and corroded and damaged.

Embodiments of the invention

As shown in fig. 1 and 10: a support base 140 is installed at the bottom of the data device main body 130;

the supporting base 140 comprises a first-stage cavity 142 and a second-stage cavity 143, and the first-stage cavity 142 is arranged at the bottom of the data equipment main body 130 through the matching of the mounting plate 141 and a plurality of screws; the secondary cavities 143 are arranged in a plurality, and the plurality of secondary cavities 143 are arranged at the bottom of the primary cavity 142 side by side; the primary cavity 142 and the secondary cavity 143 are independently arranged;

the primary cavity 142 is connected with an air duct A144, and the air duct A144 is connected with an exhaust fan A; the secondary cavity 143 is connected with an air duct B145, and the air duct B145 is connected with an exhaust fan B.

Therefore, the exhaust fan A or the exhaust fan B is independently started to independently provide gas for the primary cavity 142 and the secondary cavity 143, so that the buoyancy of the data equipment main body 130 is improved, the supporting force of an additional rack of the data equipment main body 130 is reduced, and the service life is prolonged; and adjusting one of the exhaust fan A and the exhaust fan B or simultaneously starting and stopping, combining the amount of the gas filled, realizing the adjustment of the buoyancy of the data equipment main body 130, adapting to the buoyancy of different submitted data equipment main bodies 130 in a cooling water source, reducing the supporting force of an additional rack of the data equipment main body 130, avoiding the long-term supporting of the data equipment main body 130 of the additional rack in a complex water environment from being influenced by transition, and prolonging the service life.

Embodiments of the invention

As shown in fig. 1 and 4: the driving box 150 is internally provided with a motor, a driving gear is fixed on an output shaft of the motor, and the driving gear is meshed with the driving chain 1321.

The working principle of the invention is as follows:

the data equipment main body 130 is erected in a water source introduced from the outside into the room, the cooling water source enters from a cooling gap at the top of the data equipment main body 130 by utilizing the water conveying top 120 and flows downwards along the longitudinal direction of the data equipment main body 130, and the data equipment main body 130 is cooled in an energy-saving way through the data equipment sealing shell 131;

after the water delivering roof 120 uniformly provides a cooling water source for the cooling gap from the longitudinal direction of the data equipment main body 130, the cooling water source flows downwards along the longitudinal direction of the data equipment main body 130, the driving chain 1321 is driven to move in a closed loop by using the power output by the driving box 150, and after that, the driving chain 1321 drives the plurality of unit cooling pieces 1322 to be attached to the data equipment sealing shell 131 for periodic closed loop movement; the unit cooling piece 1322 cleans and scrapes impurities on the outer surface of the sealing shell 131 of the data equipment on the basis of cooling a water source in the stirring cooling gap; the cooling water source is fully contacted with the data equipment sealing shell 131, and the cleanliness of the data equipment main body 130 is guaranteed by using the unit cooling piece 1322 on the basis of improving the cooling effect, so that the data equipment sealing shell 131 is prevented from being attached for a long time and corroded and damaged;

the cooling shell 132 is covered outside the data equipment main body 130, and the cooling water source is positioned in a cooling gap between the data equipment sealing shell 131 and the cooling shell 132, so that the cooling water source outside the cooling shell 132 continuously provides a cooling source for the cooling water source in the cooling gap, and the cooling effect of the cooling water source in the cooling gap is ensured; the cooling shell 132 is covered outside the data equipment main body 130, so that the stability of the data equipment main body 130 is also ensured, and the damage to the data equipment main body 130 or the loose damage to parts inside the data equipment main body 130 caused by the impact of foreign matters in an external cooling water source is avoided;

after the flowing cooling water source impacts the surface of the cooling shell 132, the pushing disc 13224 on the water diversion piston tube 13222 is extruded, the pushing disc 13224 pushes the cooling water source inside the outer sleeve 13226 through the inner pushing rod 13225, so that the water diversion piston tube 13222 transversely pushes the cooling water source inside the cooling gap to be close to the data equipment sealing shell 131, the transverse mixing degree of the cooling water source is improved, the problem that the heat conduction effect is poor due to the fact that the water source attached to the data equipment sealing shell 131 after heat conduction is generated and the unit cooling piece 1322 attached to the data equipment sealing shell 131 for a long time periodically moves along the longitudinal direction is avoided;

by means of flowing cooling water sources, the cooling water source in the cooling gap is transversely pushed by the water diversion piston tube 13222 to be close to the data equipment sealing shell 131, and the cooling water source is attached to the data equipment sealing shell 131 by the plurality of unit cooling pieces 1322 and periodically moves in a closed loop along the data equipment sealing shell 131; the water source is cooled in the stirring cooling gap in an omnibearing way, so that the cooling effect of the cooling water source is ensured;

independently starting an exhaust fan A or an exhaust fan B to independently provide gas for the primary cavity 142 and the secondary cavity 143, so that the buoyancy of the data equipment main body 130 is improved, the supporting force of an additional rack of the data equipment main body 130 is reduced, and the service life is prolonged; and adjusting one of the exhaust fan A and the exhaust fan B or simultaneously starting and stopping, combining the amount of the gas filled, realizing the adjustment of the buoyancy of the data equipment main body 130, adapting to the buoyancy of different submitted data equipment main bodies 130 in a cooling water source, reducing the supporting force of an additional rack of the data equipment main body 130, avoiding the long-term supporting of the data equipment main body 130 of the additional rack in a complex water environment from being influenced by transition, and prolonging the service life.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present invention.

Claims (10)

1. The indoor data equipment for 5G big data comprises a data equipment main body (130), wherein a cooling shell (132) is sleeved around the data equipment main body (130), and the indoor data equipment is characterized in that the cooling shell (132) is movably attached to a data equipment sealing shell (131) arranged on the outer side of the data equipment main body (130);

a cooling gap is formed between the data equipment sealing shell (131) and the cooling shell (132), and a water conveying top (120) is additionally arranged on the top of the data equipment main body (130); the water delivery top (120) is used for uniformly providing a cooling water source for the cooling gap in the longitudinal direction of the data equipment main body (130);

the cooling shell (132) is composed of a plurality of unit cooling pieces (1322), and the unit cooling pieces (1322) are positioned in the cooling gap; the plurality of unit cooling pieces (1322) are hinged through a driving chain (1321) respectively arranged at two ends of the unit cooling pieces, the driving chain (1321) is arranged in a closed loop shape, and the plurality of unit cooling pieces (1322) are connected in a closed loop shape and sleeved on the sealing shell (131) of the data equipment; the unit cooling piece (1322) is movably attached to the data equipment sealing shell (131);

the device also comprises a driving box (150), wherein the driving box (150) is arranged at the side of the main body (130) of the data device and is connected to a driving chain (1321) in a power transmission way; in the process that the driving box (150) outputs power to drive the driving chain (1321) to move in a closed loop, a plurality of unit cooling pieces (1322) are driven to be attached to the sealing shell (131) of the data equipment to perform periodic closed loop movement; the unit cooling piece (1322) cleans and scrapes impurities on the outer surface of the sealing shell (131) of the data equipment on the basis of cooling a water source in the stirring cooling gap.

2. An indoor data device for 5G big data according to claim 1, wherein the water delivering roof (120) comprises a roof plate (122) and a water pumping tank (121); the water pumping groove (121) is arranged at the top of the top cover plate (122) and is in a closed loop shape; a plurality of water pumps are arranged on the water pumping groove (121), and the water pumps are distributed in the water pumping groove (121) at equal intervals; a plurality of water suction pumps are used to uniformly provide a cooling water source for the cooling gap in the longitudinal direction of the data device body (130).

3. An indoor data device for 5G big data according to claim 2,

a wire harness collecting pipe (110) is fixedly arranged on the water conveying roof (120) in a penetrating manner, and the wire harness collecting pipe (110) is used for collecting and guiding out cables inserted in the data equipment main body (130);

the wire harness collecting pipe (110) comprises an elastic sealing sleeve (111), and an anti-pulling knot (112) is additionally arranged on the elastic sealing sleeve (111); the anti-pulling knot (112) consists of an elastic rubber sleeve and a plurality of springs arranged in the elastic rubber sleeve; the anti-pulling knot (112) is configured to address and accommodate the pulling of a flowing cooling water source.

4. An indoor data device for 5G big data according to claim 1,

the cooling shell (132) further comprises an elastic sleeve (133), and the elastic sleeve (133) is covered outside the plurality of unit cooling pieces (1322);

the cooling gap is a gap enclosed between the elastic sleeve (133) and the sealing shell (131) of the data equipment.

5. An indoor data device for 5G big data according to claim 4,

the unit cooling piece (1322) comprises a water guide cover (13221) and a water regulating piston tube (13222); the water regulating piston pipes (13222) are arranged in a plurality and are distributed at equal intervals along the main body of the water guide cover (13221);

the water guide covers (13221) are distributed along the longitudinal direction of the data device main body (130); the driving chain (1321) is fixed at the end part of the water guide cover (13221).

6. An indoor data device for 5G big data according to claim 5,

the water regulating piston tube (13222) comprises an inner pushing rod (13225) and an outer sleeve (13226), the outer sleeve (13226) is fixedly inserted on the elastic sleeve (133), the inner pushing rod (13225) is movably inserted inside the outer sleeve (13226), the outer sleeve (13226) is fixedly arranged on the water guide cover (13221), the water guide cover (13221) is provided with a water inlet hole (13228), and the water guide cover (13221) is fixedly inserted inside the water inlet hole (13228);

the inner pushing rod (13225) is provided with a pushing disc (13224) at one end far away from the outer sleeve (13226), and the outer sleeve (13226) is provided with a limiting ring at the port for preventing the inner pushing rod (13225) from falling off;

the water guide cover (13221) is in a strip shape.

7. An indoor data equipment for 5G big data according to claim 6, wherein the inner pushing rod (13225) is fixed with an inner pushing post (13227) at the end inside the outer sleeve (13226), and the surface of the inner pushing post (13227) is smooth.

8. An indoor data device for 5G big data according to claim 6,

the side walls on two sides of the water guide cover (13221) are provided with a plurality of water permeable holes (13223), and the water permeable holes (13223) are used for scattering a cooling water source in the process that the water guide cover (13221) transversely pushes the cooling water source;

a cleaning blade is fixed on the contact surface of the water guide cover (13221) and the data equipment sealing shell (131).

9. An indoor data device for 5G big data according to any of claims 1-8, wherein,

a supporting base (140) is arranged at the bottom of the data equipment main body (130);

the supporting base (140) comprises a first-stage cavity (142) and a second-stage cavity (143), and the first-stage cavity (142) is arranged at the bottom of the data equipment main body (130) in a matched manner through a mounting plate (141) and a plurality of screws; the two-stage cavities (143) are arranged in a plurality, and the two-stage cavities (143) are arranged at the bottom of the first-stage cavity (142) side by side; the primary cavity (142) and the secondary cavity (143) are independently arranged;

an air duct A (144) is connected to the first-stage cavity (142), and the air duct A (144) is connected to the exhaust fan A; the secondary cavity (143) is connected with an air duct B (145), and the air duct B (145) is connected to the exhaust fan B.

10. An indoor data equipment for 5G big data according to claim 1, characterized in that the driving box (150) is internally installed with a motor, the output shaft of the motor is fixed with a driving gear, and the driving gear is meshed with the driving chain (1321).

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