CN113409835A - Energy-saving storage equipment cooling device for software engineering - Google Patents

Abstract

The invention discloses an energy-saving storage equipment cooling device for software engineering, which relates to the technical field of cooling devices and comprises a storage equipment body, a cooling water tank and a single-side heat dissipation tank, wherein the cooling water tank and the single-side heat dissipation tank are respectively arranged on two sides of the storage equipment body, a cooling water pump is arranged on one side of the cooling water tank, a long water delivery hose is arranged at the water delivery end of the cooling water pump, an evaporation heat dissipation component is arranged at one end of the long water delivery hose, a water absorption wiping pad is arranged on the evaporation heat dissipation component, and the water absorption wiping pad is attached to the inner wall of one side, close to the storage equipment body, of the single-side heat dissipation tank. According to the invention, the water absorption wiping pad is soaked by cooling water, the wiping pad driving motor drives the wet water absorption wiping pad to wipe the inner wall of the single-side heat dissipation box, so that the water film is covered on the wiping pad, and the evaporation heat dissipation fan is matched to blow for heat dissipation and accelerate the evaporation of the water film for heat absorption.

Description

Energy-saving storage equipment cooling device for software engineering

Technical Field

The invention relates to the technical field of cooling devices, in particular to an energy-saving type storage device cooling device for software engineering.

Background

Software engineering is an effective, practical and high-quality software discipline established and maintained by an engineering method for research, and relates to the aspects of programming languages, databases, software development tools, system platforms and the like.

The existing cooling device for the storage equipment has two cooling modes of air cooling and water cooling, but the air cooling equipment has low heat dissipation speed, so that the cooling effect is difficult to achieve expectation, the water cooling equipment has high manufacturing cost and needs to independently cool the returned cooling water, the energy consumption is high, the single heat dissipation mode has respective defects, and the two cooling modes are combined to generate a new energy-saving heat dissipation device for providing cooling service for the storage equipment.

Disclosure of Invention

The present application aims to provide an energy-saving storage device cooling apparatus for software engineering to solve the problems set forth in the above background art.

In order to achieve the above purpose, the present application provides the following technical solutions: an energy-saving storage equipment cooling device for software engineering comprises a storage equipment body, a cooling water tank and a single-side heat dissipation tank which are respectively arranged at two sides of the storage equipment body, a cooling water pump is arranged on one side of the cooling water tank, a water delivery end of the cooling water pump is provided with a long water delivery hose, one end of the water delivery long hose is provided with an evaporation heat dissipation component, a water absorption wiping pad is arranged on the evaporation heat dissipation component, the water absorption wiping pad is attached to the inner wall of one side of the single-side heat dissipation box close to the storage equipment body, the evaporation heat dissipation component can drive the water absorption wiping pad to coat cooling water on the inner wall of the unilateral heat dissipation box to form a water film and carry out air-cooled evaporation to realize heat dissipation, the cooling water tank, install roll adjustment subassembly between the unilateral heat dissipation case, roll adjustment subassembly adjustable the unilateral heat dissipation case, the interval of unilateral heat dissipation case makes the two adaptation the specification of storage device body.

Borrow by above-mentioned structure, setting through evaporation cooling assembly, make cooling water pump carry the cooling water in with the cooling water tank to evaporation cooling assembly in through the long hose of water delivery, it soaks to absorb water the cleaning pad, and drive moist the cleaning pad that absorbs water by evaporation cooling assembly and carry out the back and forth to the inner wall of unilateral heat dissipation case and clean, it has one deck cooling water film to make this side inner wall coats, the forced air cooling is carried out in the blast air simultaneously, and accelerate water film evaporation rate, improve the cooling effect, thereby realize triple cooling, setting through the roll adjustment subassembly, adjustable cooling water tank, distance between the unilateral heat dissipation case, make the two both sides that can laminate the storage device body dispel the heat, the specification of adaptation storage device body.

Preferably, the evaporation heat dissipation assembly comprises a hard water pipe installed at one end of the water delivery long hose, a water pipe sliding hole is formed in the top of the unilateral heat dissipation box, the hard water pipe is connected to the inside of the water pipe sliding hole in a sliding mode, a transverse water pipe is installed at the bottom end of the hard water pipe, a plurality of shunt pipes are installed on the side wall of the transverse water pipe, a plurality of flow guide boxes are installed at one ends of the shunt pipes, coating blocks are installed inside the flow guide boxes, water absorption wiping pads are installed on one sides of the coating blocks, a plurality of uniformly distributed water distribution holes are formed in the side portions of the coating blocks, a flow guide inclined plate is installed at the bottom of the unilateral heat dissipation box, an evaporation heat dissipation machine is installed on the side wall of the flow guide inclined plate, a driving unit is installed inside the unilateral heat dissipation box, and the driving unit is connected with the flow guide boxes.

Furthermore, through the arrangement of the hard water pipe, the water pipe slide holes, the transverse water pipe, the shunt pipes, the flow guide box, the coating block, the flow guide inclined plate, the evaporation heat dissipation machine and the driving unit, the long water conveying hose conveys cooling water to each shunt pipe through the hard water pipe, finally enters the flow guide box, and is soaked by the water absorption wiping pad through the plurality of shunt holes on the coating block, the driving unit drives the wet water absorption wiping pad to wipe the inner wall of the single-side heat dissipation box back and forth, so that the inner wall of the single-side heat dissipation box is covered with a layer of cooling water film, the storage device body is dissipated heat, meanwhile, the evaporation heat dissipation machine blows air to cool down, the water film evaporation speed is increased, the cooling effect is improved, and water drops condensed by water vapor on other inner walls of the single-side heat dissipation box can also flow back along the flow guide inclined plate.

Preferably, the drive unit including install in the pad driving motor is cleaned to unilateral heat dissipation case one side, the output drive of cleaning pad driving motor is connected with the transmission shaft, first rotation hole has been seted up on the lateral wall of unilateral heat dissipation case, the one end of transmission shaft runs through first rotation hole, it is connected with the driven shaft to rotate on the inner wall of unilateral heat dissipation case, the transmission shaft all fixed the band pulley that has cup jointed on the driven shaft, two the tensioning has drive belt on the band pulley, fixed joint sleeve that has cup jointed on the drive belt, fixed gangbar is all installed to the both sides of water conservancy diversion box, one of them the one end of fixed gangbar is installed on the lateral wall of joint sleeve.

Furthermore, through the arrangement of the wiping pad driving motor, the transmission shaft, the driving belt wheel, the driving belt, the coupling sleeve and the fixed linkage rod, the wiping pad driving motor drives the transmission shaft to rotate, so that the driving belt is driven to move through the driving belt wheel, the flow guide box is driven to move up and down through the coupling sleeve and the fixed linkage rod, and the coating of a water film can be realized.

Preferably, the included angle between the plane of the inclined diversion plate and the evaporation heat dissipation fan and the plane of the bottom of the unilateral heat dissipation box is set to be degree-degree.

Furthermore, through the arrangement of the included angle, the cooling wind blown out by the evaporation heat dissipation machine can be obliquely blown upwards onto the inner wall of the unilateral heat dissipation box coated with the cooling water film, so that the cooling wind can directly blow the water film, and meanwhile, the upward movement direction is also provided, and the air exchange speed is improved.

Preferably, the inside of unilateral heat dissipation case is installed and is stabilized the guide arm, it has stabilized the lantern ring to stabilize the guide arm and go up the slip cap, and one of them one end of fixed gangbar is installed stabilize on the lateral wall of lantern ring.

Furthermore, through the arrangement of the stabilizing guide rod and the stabilizing lantern ring, the stabilizing guide rod and the stabilizing lantern ring are matched with each other to play a role in guiding the movement of the fixed linkage rod, so that the coating work of the cooling water film is performed more stably.

Preferably, the roll adjustment subassembly including set up in cooling water tank mounting box between the unilateral heat dissipation case, the slide bar through-hole has all been seted up in the both sides portion of mounting box, two equal sliding connection has L shape slide bar in the slide bar through-hole, it is connected with the control pivot to rotate on the inner wall of mounting box, the fixed cover that has cup jointed double-meshed gear in the control pivot, double-roll adjustment rack, two are all installed to the one end of L shape slide bar double-roll adjustment rack, two double-roll adjustment rack is located respectively double-meshed gear's both sides and all with double-meshed gear meshes mutually, the spliced pole is all installed, two to the other end of L shape slide bar install respectively of spliced pole cooling water tank on the lateral wall of unilateral heat dissipation case, the control unit is installed to the one end of control pivot.

Further, through the mounting box, L shape slide bar, the spliced pole, the control pivot, two meshing gears, two roll adjustment racks, the setting of the control unit, it is rotatory to make the control unit can drive the control pivot, thereby it is rotatory to drive two meshing gears through the control pivot, thereby it slides to drive two L shape slide bars through the two roll adjustment racks of engaged with, thereby it removes simultaneously to drive cooling water tank and unilateral heat dissipation case through the spliced pole, thereby adjust cooling water tank, distance between the unilateral heat dissipation case, make the both sides that the two can laminate the storage device body, the specification of adaptation storage device body, the going on of the work of being convenient for dispel the heat.

Preferably, the control unit is including installing the electronic auto-lock push rod of mounting box one side, single pitch rack is installed to electronic auto-lock push rod's flexible end, seted up the second on the lateral wall of mounting box and rotated the hole, the one end of control pivot runs through the second rotates the hole and fixed the cover has been connect single meshing gear, single pitch rack with single meshing gear meshes mutually.

Furthermore, through the arrangement of the single-meshing gear, the electric self-locking push rod and the single-pitch rack, the electric self-locking push rod automatically stretches and retracts to drive the single-pitch rack to move, so that the meshed single-meshing gear is driven to rotate, the control rotating shaft is driven to rotate, and the adjustment of the pitch is realized.

Preferably, a connecting plate is installed at the top of the installation box, a plurality of guide rings are installed on the side wall of the connecting plate, and the water delivery long hose is located inside the guide rings.

Further, through the setting of guide ring for a plurality of guide rings can carry on spacingly to the long hose of water delivery, thereby play direction, restriction effect to the motion of the long hose of water delivery, avoid longer long hose of water delivery to lead to the wearing and tearing of the long hose of water delivery at will under the drive of external force.

Preferably, a plurality of ventilation screen windows are installed at the top of the single-side heat dissipation box, a backflow water tank is installed at the bottom of the single-side heat dissipation box, and a plurality of backflow holes are formed in the inner wall of the bottom of the single-side heat dissipation box.

Further, through the setting of return water tank, the screen window of ventilating, backward flow hole for in the coating water film process, unnecessary cooling water can flow down along the lateral wall of unilateral heat dissipation case and retrieve in the wash port inflow return water tank, simultaneously, when the cooling water evaporation, the higher steam of temperature that produces can be through the screen window discharge of ventilating of a plurality of unilateral heat dissipation roof portions, realizes the air exchange, accelerates cooling rate.

In conclusion, the technical effects and advantages of the invention are as follows:

1. according to the invention, the cooling water is conveyed to the diversion box by the cooling water pump to soak the water absorption wiping pad, the wet water absorption wiping pad is driven by the wiping pad driving motor to wipe the inner wall of the unilateral heat dissipation box back and forth, so that a layer of cooling water film is covered on the unilateral heat dissipation box to cool, and the air blowing heat dissipation is matched with the evaporation heat dissipation machine to accelerate the water film evaporation to absorb heat, so that triple heat dissipation is realized, and the cooling effect is improved.

2. According to the invention, the device can be placed on one side of the storage equipment body in advance, the single-meshed gear is driven to rotate by the electric self-locking push rod, so that the two L-shaped slide rods are driven to slide, the cooling water tank and the single-side heat dissipation box are driven to move simultaneously through the connecting column, the distance between the cooling water tank and the single-side heat dissipation box is adjusted, the cooling water tank and the single-side heat dissipation box can be attached to two sides of the storage equipment body, the specification of the storage equipment body is adapted, and the heat dissipation work is facilitated.

3. According to the invention, when the water absorbing wiping pad is coated with a water film, redundant cooling water flows into the return water tank to be recycled, meanwhile, when the cooling water is evaporated, the generated water vapor with higher temperature is discharged through the plurality of ventilation screen windows at the top of the single-side heat dissipation box, so that air exchange is realized, the cooling speed is accelerated, and water drops condensed from the water vapor on other inner walls of the single-side heat dissipation box also flow into the return water tank along the flow guide inclined plate, so that part of the cooling water is recycled, and the energy-saving effect is improved.

4. According to the invention, the plurality of flow dividing pipes and the plurality of water dividing holes enable injected cooling water to uniformly soak the water absorption wiping pad, uneven water film coating caused by cooling water accumulation is avoided, a certain included angle exists between the plane where the evaporation heat dissipation machine is located and the bottom plane of the unilateral heat dissipation box, so that cooling air can be obliquely upwards blown on the inner wall of the unilateral heat dissipation box coated with the cooling water film, and therefore, the cooling wind energy directly blows the water film, and meanwhile, the upward movement direction is provided, and the air exchange speed is improved.

5. According to the invention, when the water absorption wiping pad wipes up and down, the hard water conveying pipe can drive the long water conveying hose to move together, the guide ring can play a role in guiding and limiting the movement of the long water conveying hose, so that the long water conveying hose is prevented from being worn due to random movement driven by external force, and meanwhile, the stable guide rod and the stable lantern ring are matched with each other to play a role in guiding the movement of the diversion box, so that the diversion box can drive the water absorption wiping pad to wipe the inner wall of the single-side heat dissipation box more stably.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a first perspective view of a cooling apparatus for a storage device in accordance with the present invention;

FIG. 2 is a first perspective view of the cooling apparatus of the storage device in this embodiment;

FIG. 3 is a schematic view of a cooperative enlarged three-dimensional structure of the electric self-locking push rod and the control rotating shaft;

FIG. 4 is an enlarged perspective view of the interior of the mounting box;

FIG. 5 is a first perspective internal enlarged perspective view of a single-sided heat sink case;

FIG. 6 is an enlarged perspective view of the interior of the pod;

FIG. 7 is a second perspective internal enlarged perspective view of the single-sided heat sink case;

fig. 8 is an enlarged schematic view of a portion a in fig. 7.

Reference numerals: 1. a storage device body; 2. a cooling water tank; 3. a single-sided heat dissipation case; 4. a cooling water pump; 5. a long water delivery hose; 6. a hard water delivery pipe; 7. a transverse water conveying pipe; 8. a shunt tube; 9. a flow guiding box; 10. a water absorbent wiping pad; 11. coating blocks; 12. a wiping pad drive motor; 13. a drive shaft; 14. a drive pulley; 15. a drive belt; 16. a coupling sleeve; 17. fixing the linkage rod; 18. stabilizing the guide rod; 19. a stabilizing collar; 20. a flow guiding sloping plate; 21. an evaporation heat dissipation fan; 22. a return water tank; 23. a ventilation screen window; 24. a guide ring; 25. mounting a box; 26. an L-shaped sliding rod; 27. connecting columns; 28. a control rotating shaft; 29. a double-meshed gear; 30. a double pitch rack; 31. a single-meshed gear; 32. an electric self-locking push rod; 33. a single pitch rack.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): referring to fig. 1-8, an energy-saving storage device cooling apparatus for software engineering includes a storage device body 1, a cooling water tank 2 and a single-side heat dissipation tank 3 respectively disposed at two sides of the storage device body 1, where the cooling water tank 2 and the single-side heat dissipation tank 3 may be any metal tank in the art, such as a metal tank with a magnetic adhesive strip, for facilitating heat dissipation by attaching to the storage device body 1, a cooling water pump 4 is installed at one side of the cooling water tank 2, a long water delivery hose 5 is installed at a water delivery end of the cooling water pump 4, an evaporation heat dissipation assembly is installed at one end of the long water delivery hose 5, a water absorption wiping pad 10 is installed on the evaporation heat dissipation assembly, and the water absorption wiping pad 10 may enable any one of the cushions in the prior art with good water absorption performance, such as a sponge pad, the water absorption wiping pad 10 is attached to a side wall of the single-side heat dissipation tank 3 close to the storage device body 1, the evaporation heat dissipation assembly can drive the water absorption wiping pad 10 to coat cooling water on the inner wall of the single-side heat dissipation box 3 to form a water film and perform air-cooled evaporation to realize heat dissipation, the distance adjusting assembly is installed between the cooling water tank 2 and the single-side heat dissipation box 3, and the distance between the single-side heat dissipation box 3 and the single-side heat dissipation box 3 can be adjusted by the distance adjusting assembly to enable the single-side heat dissipation box 3 and the single-side heat dissipation box 3 to be matched with the specification of the storage device body 1.

Borrow by above-mentioned structure, setting through evaporation cooling assembly, make cooling water pump 4 carry the cooling water in with cooling water tank 2 to evaporation cooling assembly in through long hose 5 of water delivery, it soaks to absorb water to clean pad 10, and drive moist absorption by evaporation cooling assembly and clean pad 10 and carry out the back and forth to the inner wall of unilateral radiator box 3 and clean, it has one deck cooling water film to make this side inner wall coat, the forced air cooling is carried out in the blast air simultaneously, and accelerate water film evaporation rate, improve the cooling effect, thereby realize triple cooling, through the setting of roll adjustment subassembly, adjustable cooling water tank 2, the distance between the unilateral radiator box 3, make the two can laminate the both sides of storage device body 1 and dispel the heat, adaptation storage device body 1's specification.

As a preferred embodiment of this embodiment, as shown in fig. 5 and 6, the evaporative heat dissipation assembly includes a hard water pipe 6 installed at one end of a long water pipe 5, a water pipe sliding hole is formed at the top of a single-side heat dissipation box 3, the hard water pipe 6 is slidably connected in the water pipe sliding hole, a horizontal water pipe 7 is installed at the bottom end of the hard water pipe 6, a plurality of shunt pipes 8 are installed on the side wall of the horizontal water pipe 7, a diversion box 9 is installed at one end of the plurality of shunt pipes 8, a coating block 11 is installed inside the diversion box 9, a water absorption wiping pad 10 is installed at one side of the coating block 11, a plurality of evenly distributed water diversion holes are formed at the side part of the coating block 11, a diversion inclined plate 20 is installed at the bottom of the single-side heat dissipation box 3, an evaporative heat dissipation machine 21 is installed on the side wall of the diversion inclined plate 20, a driving unit is installed inside the single-side heat dissipation box 3, and the driving unit is connected with the diversion box 9, the benefit that sets up like this, long hose 5 of water delivery carries the cooling water to each shunt tubes 8 through stereoplasm raceway 6, and finally get into diversion box 9 and soak the pad 10 of wiping that absorbs water through a plurality of distributive holes on the coating piece 11, and drive moist the pad 10 of wiping that absorbs water by drive unit and carry out the back and forth wiping to the inner wall of unilateral radiator box 3, make this side inner wall coat have one deck cooling water film, thereby dispel the heat to storage device body 1, carry out the forced air cooling by evaporation radiator fan 21 air-blast simultaneously, and accelerate water film evaporation rate, improve the cooling effect, the drop of water condensed by steam on the other inner walls of unilateral radiator box 3 also can flow back along water conservancy diversion swash plate 20.

In this embodiment, as shown in fig. 7 and 8, the driving unit includes a wiping pad driving motor 12 installed at one side of the single-side heat dissipation box 3, an output end of the wiping pad driving motor 12 is drivingly connected with a transmission shaft 13, a first rotation hole is formed on a side wall of the single-side heat dissipation box 3, one end of the transmission shaft 13 passes through the first rotation hole, a driven shaft is rotatably connected to an inner wall of the single-side heat dissipation box 3, driving pulleys 14 are fixedly sleeved on the transmission shaft 13 and the driven shaft, driving belts 15 are tensioned on the two driving pulleys 14, a coupling sleeve 16 is fixedly sleeved on the driving belts 15, fixed linkage rods 17 are installed at two sides of the diversion box 9, one end of one of the fixed linkage rods 17 is installed on a side wall of the coupling sleeve 16, which is advantageous in that the wiping pad driving motor 12 drives the transmission shaft 13 to rotate, so as to drive the driving belts 15 to move through the driving pulleys 14, thereby driving the diversion box 9 to move up and down through the coupling sleeve 16 and the fixed linkage rod 17, and realizing the coating of the water film.

In the present embodiment, as shown in fig. 7, the included angle between the plane of the diversion inclined plate 20 and the evaporation heat sink 21 and the bottom plane of the single-side heat sink box 3 is set to be 30 degrees to 60 degrees, which is advantageous in that the cooling wind blown by the evaporation heat sink 21 can be obliquely blown upwards onto the inner wall of the single-side heat sink box 3 coated with the cooling water film, so that the cooling wind can directly blow the water film, and at the same time, the upward movement direction is provided, thereby increasing the air exchange speed.

In this embodiment, as shown in fig. 7, a stabilizing guide rod 18 is installed inside the single-side heat dissipation box 3, a stabilizing sleeve ring 19 is slidably sleeved on the stabilizing guide rod 18, and one end of one of the fixing linkage rods 17 is installed on a side wall of the stabilizing sleeve ring 19, so that the stabilizing guide rod 18 and the stabilizing sleeve ring 19 are matched with each other to guide the movement of the fixing linkage rod 17, and the coating work of the cooling water film is performed more stably.

As a preferred embodiment of this embodiment, as shown in fig. 2 and 4, the distance adjusting assembly includes a mounting box 25 disposed between the cooling water tank 2 and the single-side heat dissipation box 3, two side portions of the mounting box 25 are both provided with through-holes for sliding rods, two through-holes for sliding rods are both connected with L-shaped sliding rods 26, the inner wall of the mounting box 25 is rotatably connected with a control rotating shaft 28, a double-meshed gear 29 is fixedly sleeved on the control rotating shaft 28, one end of the L-shaped sliding rod 26 is provided with a double-distance adjusting rack 30, the two double-distance adjusting racks 30 are respectively located at two sides of the double-meshed gear 29 and are both meshed with the double-meshed gear 29, the other end of the L-shaped sliding rod 26 is provided with a connecting column 27, the two connecting columns 27 are respectively mounted on the side walls of the cooling water tank 2 and the single-side heat dissipation box 3, one end of the control rotating shaft 28 is provided with a control unit, so that the control unit can drive the control rotating shaft 28 to rotate, thereby it is rotatory to drive double-meshed gear 29 through control pivot 28, thereby drive two L shape slide bars 26 through engaged with double pitch-adjusting rack 30 and slide, thereby drive coolant tank 2 and unilateral heat dissipation case 3 and remove simultaneously through spliced pole 27, thereby adjust the distance between coolant tank 2, the unilateral heat dissipation case 3, make the both sides that the two can laminate storage device body 1, the specification of adaptation storage device body 1, the going on of the work of being convenient for dispel the heat.

In this embodiment, as shown in fig. 3, the control unit includes an electric self-locking push rod 32 installed on one side of the installation box 25, a single-pitch rack 33 is installed at a telescopic end of the electric self-locking push rod 32, a second rotation hole is formed in a side wall of the installation box 25, one end of the control rotating shaft 28 penetrates through the second rotation hole and is fixedly sleeved with a single-meshing gear 31, and the single-pitch rack 33 is meshed with the single-meshing gear 31.

In this embodiment, as shown in fig. 2, the connecting plate is installed at the top of mounting box 25, install a plurality of guide rings 24 on the lateral wall of connecting plate, long hose 5 of water delivery is located the inside of a plurality of guide rings 24, the benefit of setting up like this is, a plurality of guide rings 24 can carry on spacingly to long hose 5 of water delivery to play direction, restriction effect to long hose 5 of water delivery's motion, avoid long hose 5 of water delivery to lead to long hose 5 of water delivery's wearing and tearing at will under the drive of external force.

As a preferred implementation manner of this embodiment, as shown in fig. 1 and 7, a plurality of ventilation screen windows 23 are installed at the top of the single-side heat dissipation box 3, a return water tank 22 is installed at the bottom of the single-side heat dissipation box 3, and a plurality of return holes are opened on the inner wall of the bottom of the single-side heat dissipation box 3, so that the advantage of the arrangement is that, in the process of coating a water film, redundant cooling water flows down along the side wall of the single-side heat dissipation box 3 and flows into the return water tank 22 through a drain hole for recycling, and meanwhile, when the cooling water evaporates, the generated water vapor with higher temperature is discharged through the ventilation screen windows 23 at the top of the single-side heat dissipation box 3, thereby realizing air exchange and accelerating the cooling speed.

The working principle of the invention is as follows: this cooling device is when using, as shown in fig. 1, can place whole device in one side of storage device body 1 in advance, as shown in fig. 3, as shown in fig. 2, utilize electronic auto-lock push rod 32 drive list pitch rack 33 to remove, thereby it is rotatory to drive engaged with list mesh gear 31, thereby it is rotatory to drive two mesh gears 29 through control pivot 28, thereby it slides to drive two L shape slide bars 26 through engaged with list pitch rack 30, thereby it removes simultaneously to drive cooling water tank 2 and unilateral heat dissipation case 3 through spliced pole 27, thereby adjust cooling water tank 2, the distance between the unilateral heat dissipation case 3, make the both sides that the two can laminate storage device body 1, the specification of adaptation storage device body 1, the going on of the work of dispelling the heat of being convenient for.

When cooling and heat dissipation are needed, as shown in fig. 2, a cooling water pump 4 conveys cooling water in a cooling water tank 2 to each shunt pipe 8 sequentially through a long water conveying hose 5, a hard water conveying pipe 6 and a transverse water conveying pipe 7, as shown in fig. 6, the cooling water finally enters a flow guide box 9 to soak a water absorption wiping pad 10 through a plurality of water diversion holes on a coating block 11, as shown in fig. 8, a wiping pad driving motor 12 drives a transmission shaft 13 to rotate, a driving belt 15 is driven to move through a driving belt wheel 14, the flow guide box 9 is driven to move up and down through a coupling sleeve 16 and a fixed linkage rod 17, so that the wet water absorption wiping pad 10 is driven to wipe the inner wall of a single-side heat dissipation box 3 back and forth, a layer of cooling water film is covered on the inner wall of the side, so as to dissipate heat of a storage device body 1, and simultaneously, an evaporation heat dissipation fan 21 blows air to cool and accelerate the evaporation speed of the water film, the cooling effect is improved.

In the water film coating process of the water absorption wiping pad 10, as shown in fig. 7, redundant cooling water flows down along the side wall of the unilateral heat dissipation box 3 and flows into the backflow water tank 22 through the drain hole for recycling, and meanwhile, as shown in fig. 1, when the cooling water evaporates, the generated water vapor with higher temperature is discharged through the plurality of ventilation screen windows 23 at the top of the unilateral heat dissipation box 3, so that air exchange is realized, the cooling speed is accelerated, water drops condensed by the water vapor on other inner walls of the unilateral heat dissipation box 3 also flow into the backflow water tank 22 along the diversion inclined plate 20, thereby recycling part of the cooling water, and the energy-saving effect is improved.

As shown in fig. 6, a plurality of shunt tubes 8 and a plurality of water diversion holes evenly distributed on the coating block 11 are arranged, so that the injected cooling water can more evenly soak the water absorption wiping pad 10, and uneven water film coating caused by the gathering of the cooling water is avoided, as shown in fig. 7, a certain included angle exists between the plane where the evaporation heat radiator 21 is located and the bottom plane of the unilateral heat radiation box 3, so that the cooling wind blown out by the evaporation heat radiator 21 can be obliquely blown upwards on the inner wall of the unilateral heat radiation box 3 coated with the cooling water film, and thus when the cooling wind directly blows the water film, the upward movement direction is also provided, and the air exchange speed is improved.

When the water absorption wiping pad 10 wipes up and down, as shown in fig. 2, the hard water pipe 6 can slide in the water pipe slide hole and drive the water delivery long hose 5 to move together, at the moment, the guide rings 24 can limit the water delivery long hose 5, thereby guiding and limiting the movement of the water delivery long hose 5, avoiding the long water delivery long hose 5 from being worn by the water delivery long hose 5 due to random movement under the driving of external force, and meanwhile, as shown in fig. 7, the stabilizing guide rod 18 and the stabilizing lantern ring 19 are matched with each other to guide the movement of the diversion box 9, so that the diversion box 9 can drive the water absorption wiping pad 10 to wipe the inner wall of the single-side heat dissipation box 3 more stably.

Finally, it should be noted that: 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 or portions thereof without departing from the spirit and scope of the invention.

Claims (9)

1. The utility model provides an energy-saving storage device cooling device for software engineering, includes storage device body (1), set up respectively in cooling water tank (2) and unilateral heat dissipation case (3) of storage device body (1) both sides, its characterized in that: a cooling water pump (4) is arranged on one side of the cooling water tank (2), a water delivery end of the cooling water pump (4) is provided with a long water delivery hose (5), one end of the water delivery long hose (5) is provided with an evaporation heat dissipation component, a water absorption wiping pad (10) is arranged on the evaporation heat dissipation component, the water absorption wiping pad (10) is attached to the inner wall of one side of the single-side radiating box (3) close to the storage equipment body (1), the evaporation heat dissipation component can drive the water absorption wiping pad (10) to coat cooling water on the inner wall of the unilateral heat dissipation box (3) to form a water film and carry out air-cooled evaporation to realize heat dissipation, a distance adjusting component is arranged between the cooling water tank (2) and the single-side radiating box (3), the distance adjusting assembly can adjust the single-side heat dissipation box (3) and the distance between the single-side heat dissipation box (3) to enable the single-side heat dissipation box and the single-side heat dissipation box to be matched with the specification of the storage equipment body (1).

2. The energy-saving storage device cooling device for software engineering according to claim 1, characterized in that: the evaporation heat dissipation assembly comprises a hard water pipe (6) installed at one end of a long water delivery hose (5), a water pipe sliding hole is formed in the top of a unilateral heat dissipation box (3), the hard water pipe (6) is connected in the water pipe sliding hole in a sliding mode, a transverse water pipe (7) is installed at the bottom end of the hard water pipe (6), a plurality of shunt pipes (8) are installed on the side wall of the transverse water pipe (7), a flow guide box (9) is installed at one end of the shunt pipes (8), a coating block (11) is installed inside the flow guide box (9), a water absorption wiping pad (10) is installed on one side of the coating block (11), a plurality of water distribution holes which are uniformly distributed are formed in the side portion of the coating block (11), a flow guide inclined plate (20) is installed at the bottom of the unilateral heat dissipation box (3), and an evaporation heat dissipation machine (21) is installed on the side wall of the flow guide inclined plate (20), the inside of unilateral heat dissipation case (3) is installed with drive unit, drive unit with it is connected to lead flow box (9).

3. The energy-saving storage device cooling device for software engineering according to claim 2, characterized in that: the driving unit comprises a wiping pad driving motor (12) arranged at one side of the single-side radiating box (3), the output end of the wiping pad driving motor (12) is connected with a transmission shaft (13) in a driving way, a first rotating hole is arranged on the side wall of the single-side radiating box (3), one end of the transmission shaft (13) penetrates through the first rotating hole, the inner wall of the unilateral heat dissipation box (3) is rotatably connected with a driven shaft, the transmission shaft (13) and the driven shaft are fixedly sleeved with driving belt wheels (14), two driving belt wheels (14) are tensioned with driving belts (15), a connecting sleeve (16) is fixedly sleeved on the driving belt (15), two sides of the flow guide box (9) are respectively provided with a fixed linkage rod (17), one end of one of the fixed linkage rods (17) is arranged on the side wall of the coupling sleeve (16).

4. The energy-saving storage device cooling device for software engineering according to claim 2, characterized in that: the included angle between the plane of the flow guide sloping plate (20) and the evaporation heat dissipation fan (21) and the plane of the bottom of the unilateral heat dissipation box (3) is set to be 30-60 degrees.

5. The energy-saving storage device cooling device for software engineering according to claim 3, characterized in that: the inside mounting of unilateral heat dissipation case (3) has stable guide arm (18), it has stabilized lantern ring (19) to slide to cup joint on stable guide arm (18), and one of them the one end of fixed gangbar (17) is installed on the lateral wall of stabilized lantern ring (19).

6. The energy-saving storage device cooling device for software engineering according to claim 1, characterized in that: the roll adjustment assembly comprises a mounting box (25) arranged between a cooling water tank (2) and a unilateral heat dissipation box (3), slide bar through holes are formed in two sides of the mounting box (25), an L-shaped slide bar (26) is connected in each slide bar through hole in a sliding manner, a control rotating shaft (28) is connected to the inner wall of the mounting box (25) in a rotating manner, a double-meshed gear (29) is fixedly sleeved on the control rotating shaft (28), double-roll adjustment racks (30) are installed at one end of each L-shaped slide bar (26), the double-roll adjustment racks (30) are respectively located on two sides of the double-meshed gear (29) and are meshed with the double-meshed gear (29), connecting columns (27) are installed at the other end of each L-shaped slide bar (26), the connecting columns (27) are respectively installed on the cooling water tank (2) and the side wall of the unilateral heat dissipation box (3), and a control unit is arranged at one end of the control rotating shaft (28).

7. The energy-saving storage device cooling device for software engineering according to claim 6, characterized in that: the control unit is including installing electronic auto-lock push rod (32) of mounting box (25) one side, monotonic distance rack (33) are installed to the flexible end of electronic auto-lock push rod (32), the second rotation hole has been seted up on the lateral wall of mounting box (25), the one end of control pivot (28) is run through the second rotates the hole and is fixed cup jointed single meshing gear (31), monotonic distance rack (33) with single meshing gear (31) mesh mutually.

8. The energy-saving storage device cooling device for software engineering according to claim 6, characterized in that: the connecting plate is installed at the top of mounting box (25), install a plurality of guide rings (24) on the lateral wall of connecting plate, long hose for water delivery (5) are located a plurality of the inside of guide ring (24).

9. The energy-saving storage device cooling device for software engineering according to claim 1, characterized in that: a plurality of ventilation screen windows (23) are installed at the top of the unilateral heat dissipation box (3), a backflow water tank (22) is installed at the bottom of the unilateral heat dissipation box (3), and a plurality of backflow holes are formed in the inner wall of the bottom of the unilateral heat dissipation box (3).

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