CN219268286U - UPS power supply cabinet - Google Patents

Abstract

The application discloses a UPS power case relates to power case technical field. The cooling device comprises a shell, wherein a cooling box is fixedly installed inside the shell, a liquid outlet pipeline is installed on the cooling box, a flow dividing block is connected to the liquid outlet pipeline, a plurality of radiating pipes are installed on the flow dividing block, a converging block is installed at the tail ends of the radiating pipes, the flow dividing block and the converging block are all installed on the outer side face of the shell, a communicating pipeline is connected to the converging block, a solution pump is installed on the communicating pipeline, and the solution pump is communicated with the cooling box. The design through adopting the cooling tank for the heat that the UPS power machine incasement produced can be absorbed by the cooling tank through the mode of transmission, flows through the water in the solution pump transfer cooling tank afterwards, can cool down the cooling tank, can dispel the heat to the water through the cooling tube afterwards, so that the temperature of UPS power machine incasement can be reduced.

Description

UPS power supply cabinet

Technical Field

The application relates to the technical field of power supply cabinets, in particular to a UPS power supply cabinet.

Background

The UPS is an uninterruptible power supply, which is mainly used for providing uninterruptible power supply for equipment with higher requirements on power stability, a case is generally arranged outside the UPS, and most of electronic elements matched with the UPS are arranged in the case.

The UPS power supply and the electronic element can emit a large amount of heat in the conductive working process, so that the inside of the UPS power supply case is overheated, most of the existing UPS power supply cases are cooled by installing aluminum cooling fins on the UPS power supply and the electronic element and matching with cooling fan blades, the heat generated by the UPS power supply and the electronic element is conducted through the aluminum sheets, then the heat on the aluminum sheets is taken away through the air flow generated by the rotation of the fan blades, but the cooling mode has certain limitation, under the condition that the electronic element is more, a plurality of aluminum sheets and the cooling fan blades are required to be installed for cooling, and the air flows generated by the plurality of cooling fan blades are easy to interfere with each other during rotation, so that the cooling efficiency of the UPS power supply case is lower.

Disclosure of Invention

The purpose of the present application is: in order to effectively and reasonably improve the problems presented in the background art, the application provides a UPS power supply case.

The application specifically adopts the following technical scheme for realizing the purposes:

a UPS power source enclosure comprising:

the cooling device comprises a shell, wherein a cooling box is fixedly arranged in the shell, a liquid outlet pipeline is arranged on the cooling box, a flow dividing block is connected to the liquid outlet pipeline, a plurality of radiating pipes are arranged on the flow dividing block, converging blocks are arranged at the tail ends of the radiating pipes, the flow dividing block and the converging blocks are all arranged on the outer side face of the shell, a communicating pipeline is connected to the converging blocks, a solution pump is arranged on the communicating pipeline, and the solution pump is communicated with the cooling box;

the interval sets up a plurality of guide plates in the cooling tank is inside, a plurality of dislocation set each other between the guide plate, the reposition of redundant personnel piece with the solution pump is through a plurality of the guide plate separates.

Further, the radiating hole is formed in one side of the shell, the air inlet pipeline is arranged on the other side of the shell, the filter screen is fixedly arranged at the end part of the air inlet pipeline, the rotating rod is rotatably arranged in the air inlet pipeline, the fan blade is arranged on the rotating rod, and the driving mechanism for driving the rotating rod to rotate is arranged on the shell.

Further, the driving mechanism comprises a solution cavity formed in the communication pipeline, the air inlet pipeline penetrates through the solution cavity, the impeller is rotatably installed in the solution cavity, the rotating wheel is fixedly installed at the tail end of the rotating rod, and the rotating wheel is magnetically connected with the impeller.

Further, a plurality of radiating pipes are arranged on the outer side face of the shell at intervals.

Further, the plurality of radiating pipes shield the radiating holes.

Further, an end of the rotating rod penetrates through the filter screen, and a cleaning scraper is mounted at the end of the rotating rod.

Further, the cleaning blade is constructed with a slope.

Further, a protective cover is fixedly arranged on the shell, the cleaning scraping plate is positioned in the protective cover, a protective net is fixedly arranged at the end part of the protective cover, and a dust falling port is formed in the bottom of the protective cover.

The beneficial effects of this application are as follows: the design through adopting the cooling tank for the heat that produces in the UPS power machine case can be absorbed by the cooling tank through the mode of transmission, flows through the water in the solution pump transfer cooling tank afterwards, can cool down the cooling tank, can dispel the heat to the water through the cooling tube afterwards, so that the temperature of UPS power machine case can be reduced, has improved radiating efficiency.

Drawings

FIG. 1 is a perspective view of the present application;

FIG. 2 is a schematic view of the internal structure of the housing of the present application in semi-section;

FIG. 3 is a schematic view of the internal structure of the cooling box of the present application;

FIG. 4 is a schematic view of the air intake duct structure of the present application;

FIG. 5 is a schematic diagram of a solution chamber structure in half section of the present application;

FIG. 6 is a schematic view of a semi-section of the protective cover structure of the present application;

reference numerals: 1. a housing; 2. a cooling box; 3. a liquid outlet pipe; 4. a shunt block; 5. a heat radiating pipe; 6. a converging block; 7. a communication pipe; 8. a solution pump; 9. a deflector; 10. a heat radiation hole; 11. an air intake duct; 12. a filter screen; 13. a rotating lever; 14. a fan blade; 15. a driving mechanism; 16. a solution chamber; 17. an impeller; 18. a rotating wheel; 19. a cleaning blade; 20. an inclined plane; 21. a protective cover; 22. a protective net; 23. an ash falling port; 24. a strong magnet.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

As shown in fig. 1 to 3, a UPS power supply chassis according to an embodiment of the present application includes:

the cooling box 2 is fixedly arranged in the shell 1, the cooling box 2 is made of an aluminum alloy material with good heat conduction effect, a water injection port for adding water is formed in the cooling box 2, the water injection port is sealed by a silica gel plug, electronic elements such as a UPS (uninterrupted power supply) are all arranged at the top of the cooling box 2, so that heat generated during operation of the electronic elements can be transferred to the cooling box 2, a liquid outlet pipeline 3 is arranged on the cooling box 2, a split flow block 4 is connected to the liquid outlet pipeline 3, the split flow block 4 is communicated with the inside of the cooling box 2 through the liquid outlet pipeline 3, a plurality of radiating pipes 5 are arranged on the split flow block 4, a converging block 6 is arranged at the tail ends of the radiating pipes 5, the split flow block 4 and the converging block 6 are all arranged on the outer side surface of the shell 1, the split flow block 4 can be dispersed through the water body so as to facilitate heat transfer, a communicating pipeline 7 is connected to the converging block 6, a solution pump 8 is arranged on the communicating pipeline 7, the solution pump 8 is communicated with the cooling box 2, the solution pump 8 is used for mobilizing the water in the cooling box 2, so that the electronic elements such as to take away the heat transferred to the cooling box 2, and the electronic elements such as the UPS can radiate the heat;

the interval sets up a plurality of guide plates 9 in cooling tank 2 inside, misplaces each other between a plurality of guide plates 9, and a plurality of channels are divided into with cooling tank 2 inside to the setting of guide plate 9 to this extension water gets into cooling tank 2's transit time, and then has improved the area of contact at water and cooling tank 2 top, can the furthest absorb UPS power and electronic component transfer give the heat at cooling tank 2 top, and diverter block 4 and solution pump 8 separate through a plurality of guide plates 9.

This application is through adopting the design of cooling tank 2 for the heat that the UPS power machine incasement produced can be absorbed by cooling tank 2 through the mode of transmission, moves the water in the cooling tank 2 through solution pump 8 later and flows, can cool down cooling tank 2, can dispel the heat to the water through cooling tube 5 later, so that the temperature of UPS power machine incasement can be reduced, has improved radiating efficiency.

As shown in fig. 1, fig. 2, fig. 4, fig. 5 and fig. 6, in some embodiments, a heat dissipation hole 10 is formed on one side of a casing 1, the heat dissipation hole 10 is uniformly distributed on the casing 1, an air inlet pipe 11 is installed on the other side of the casing 1, a filter screen 12 is fixedly installed at the end of the air inlet pipe 11, the filter screen 12 is used for filtering inlet air, dust is reduced, a rotating rod 13 is rotatably installed in the air inlet pipe 11, a fan blade 14 is installed on the rotating rod 13, a driving mechanism 15 for driving the rotating rod 13 to rotate is installed on the casing 1, when the driving mechanism 15 works, the rotating rod 13 can drive the fan blade 14 thereon to rotate, air enters the casing 1 from the air inlet pipe 11 and passes through electronic components such as a UPS (uninterrupted power supply) installed at the top of the cooling box 2, and is discharged from the heat dissipation hole 10 on the other side of the casing 1, so that air inside the casing 1 can be driven to interact with external air, and the heat dissipation effect is improved.

As shown in fig. 2, 4 and 5, in some embodiments, the driving mechanism 15 includes a solution chamber 16 configured on the communicating pipe 7, the air inlet pipe 11 penetrates the solution chamber 16, the solution chamber 16 is an annular chamber made of a thin plastic plate, the impeller 17 is rotatably mounted in the solution chamber 16, the impeller 17 is mounted on an annular inner wall of the solution chamber 16, when a water body passes through the communicating pipe 7 from top to bottom, the water body contacts with blades of the impeller 17 and generates thrust force for pushing the impeller 17 to rotate, the rotating rod 13 is fixedly mounted with a rotating wheel 18, a small space is provided between the rotating wheel 18 and the solution chamber 16, the rotating wheel 18 is magnetically matched with the impeller 17, strong magnets 24 are mounted on opposite sides of the rotating wheel 18 and the impeller 17, the strong magnets 24 are uniformly distributed on the rotating wheel 18 and the impeller 17 along an axis of the air inlet pipe 11 and are in one-to-one correspondence with each other, when the water body pushes the impeller 17 to rotate, the rotating wheel 18 does not need to rotate under the traction of magnetic force, so that the rotating rod 13 can drive the fan blades 14 to rotate, by adopting the technical characteristics, and the energy-saving effect can be achieved by driving the water body by relying on the rotation of the rotating blades 17 in the rotation process of the fan blades 14.

As shown in fig. 2, in some embodiments, a plurality of radiating pipes 5 are provided at intervals on the outer side surface of the case 1, and by adopting such a design, the radiating pipes 5 have a space between adjacent ones, and external air can pass through between the plurality of radiating pipes 5, thereby improving the radiating effect of the radiating pipes 5.

As shown in fig. 2, in some embodiments, the heat dissipating pipes 5 block the heat dissipating holes 10, and have a space with the heat dissipating holes 10, when the fan blade 14 rotates and external air enters the casing 1 from the air inlet pipe 11, the air inside the casing 1 can be discharged from the heat dissipating holes 10, and by adopting such a design, the air around the heat dissipating pipes 5 can be driven to flow when being discharged, so that the heat of the water body in the heat dissipating pipes 5 can be better dissipated.

As shown in fig. 6, in some embodiments, the end of the rotating rod 13 penetrates the filter screen 12, and the cleaning blade 19 is mounted at the end of the rotating rod 13, so that the filter screen 12 is easy to be blocked due to the fact that the windward side of the filter screen 12 is easy to be attached by dust under the long-time use, and the air inflow of the air inlet pipeline 11 is easily affected.

As shown in fig. 6, in some embodiments, the cleaning blade 19 is provided with a slope 20, and the slope 20 is designed such that dust and other impurities under cleaning can slide down the slope 20, and accumulation is not easily generated in the cleaning blade 19.

As shown in fig. 1 and 6, in some embodiments, a protecting cover 21 is fixedly installed on a casing 1, a cleaning scraper 19 is located in the protecting cover 21, the cleaning scraper 19 can be protected by arranging the protecting cover 21 and a protecting net 22, so that the cleaning scraper 19 is not easy to be damaged due to impact of external force, the protecting net 22 is fixedly installed at the end part of the protecting cover 21, the aperture of the protecting net 22 is far greater than that of the filtering net 12, the protecting net is used for blocking fingers, a dust falling opening 23 is formed in the bottom of the protecting cover 21, the dust falling opening 23 is located below the filtering net 12, and when impurities on the filtering net 12 are cleaned by the cleaning scraper 19, the impurities can slide along an inclined plane 20 and are discharged from the dust falling opening 23 under the action of gravity.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. A ups power source enclosure comprising:

   the cooling device comprises a shell (1), wherein a cooling box (2) is fixedly installed inside the shell (1), a liquid outlet pipeline (3) is installed on the cooling box (2), a flow dividing block (4) is connected to the liquid outlet pipeline (3), a plurality of radiating pipes (5) are installed on the flow dividing block (4), a converging block (6) is installed at the tail ends of the radiating pipes (5), the flow dividing block (4) and the converging block (6) are all installed on the outer side face of the shell (1), a communicating pipeline (7) is connected to the converging block (6), a solution pump (8) is installed on the communicating pipeline (7), and the solution pump (8) is communicated with the cooling box (2);

   the interval sets up a plurality of guide plates (9) inside cooler bin (2), a plurality of dislocation set each other between guide plate (9), reposition of redundant personnel piece (4) and solution pump (8) are through a plurality of guide plate (9) separate.
2. 2. The UPS power source cabinet according to claim 1, wherein a heat dissipation hole (10) is formed in one side of the housing (1), an air intake pipe (11) is installed in the other side of the housing (1), a filter screen (12) is fixedly installed at an end portion of the air intake pipe (11), a rotating rod (13) is rotatably installed in the air intake pipe (11), a fan blade (14) is installed on the rotating rod (13), and a driving mechanism (15) for driving the rotating rod (13) to rotate is installed on the housing (1).
3. 3. The UPS power source cabinet according to claim 2, wherein the driving mechanism (15) includes a solution chamber (16) configured on the communication pipe (7), the air intake pipe (11) penetrates through the solution chamber (16), an impeller (17) is rotatably installed in the solution chamber (16), a rotating wheel (18) is fixedly installed at the end of the rotating rod (13), and the rotating wheel (18) is magnetically connected with the impeller (17).
4. 4. A UPS power source enclosure as claimed in claim 3, characterised in that a plurality of the radiating pipes (5) are provided at intervals on the outer side of the housing (1).
5. 5. The UPS power source enclosure of claim 4 wherein a plurality of the heat pipes (5) shield the heat sink (10).
6. 6. The UPS power source enclosure of claim 2 wherein an end of the rotating lever (13) penetrates the screen (12), and a cleaning blade (19) is mounted to an end of the rotating lever (13).
7. 7. The UPS power source enclosure of claim 6 wherein the cleaning blade (19) is configured with a bevel (20).
8. 8. The UPS power source cabinet of claim 7 wherein the housing (1) is fixedly provided with a protective cover (21), the cleaning blade (19) is located in the protective cover (21), an end portion of the protective cover (21) is fixedly provided with a protective screen (22), and a dust falling port (23) is formed in the bottom of the protective cover (21).

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