CN113589908B - Overheat protection device for computer hardware - Google Patents

Abstract

The invention discloses a computer hardware overheat protection device, which comprises a shell, a hardware body fixed in the shell and an air cooling box fixed on the side wall of the shell, wherein an opening is formed in the air cooling box, the opening is communicated with the shell, a fan is fixed on the opening, a dust screen is fixed on the opening, a heat conducting sheet is fixed on one side of the hardware body far away from the fan, a condensing pipe is fixed on the heat conducting sheet, one end of the condensing pipe is fixedly connected with an output port of the circulating pump and the other end of the condensing pipe, a filter screen is arranged on the condensing pipe, a piece taking plate is rotatably arranged on the condensing pipe, a sealing ring is fixed on one end of the piece taking plate close to the inner side of the condensing pipe, a switch component for closing the opening is arranged on the opening, and a cleaning component for injecting liquid into the opening is arranged on the opening, so that the surface of the computer hardware can be quickly cooled, the hardware is prevented from being damaged due to long-term high Wen Yunzuo, and the service life of the hardware is prolonged.

Description

Overheat protection device for computer hardware

Technical Field

The invention relates to the technical field of computer hardware equipment, in particular to a computer hardware overheat protection device.

Background

Computer hardware refers to the general term for various physical devices in a computer system that are comprised of electronic, mechanical, and optoelectronic components. These physical devices form an organic whole to provide a material basis for computer software operation as required by the system architecture, and in short, the functions of the hardware are to input and store programs and data, and to execute the programs to process the data into a form that can be utilized.

The computer hardware on the market usually generates a large amount of heat in the use process, if the heat dissipation treatment is not carried out on the surface of the hardware in time, the hardware is easy to be damaged at high temperature under long-time high-temperature operation, the service life of the hardware is influenced, and even the host computer can be caused to self-ignite, so that the improvement space exists.

Disclosure of Invention

The invention aims to provide a computer hardware overheat protection device which can enable the surface of computer hardware to quickly dissipate heat, prevent the hardware from being damaged due to long-term high Wen Yunzuo and prolong the service life of the hardware.

The technical aim of the invention is realized by the following technical scheme:

The utility model provides a computer hardware overheat protection device, includes the casing, is fixed in the hardware body in the casing and is fixed in the air-cooled case on the casing lateral wall, the opening has been seted up on the air-cooled case, the opening is linked together with the casing, be fixed with the fan on the opening, be fixed with the dust screen on the opening, one side that the fan was kept away from to the hardware body is fixed with the conducting strip, be fixed with the condenser pipe on the conducting strip, the one end of condenser pipe is fixed with the circulating pump, the delivery outlet of circulating pump and the other end fixed connection of condenser pipe, be provided with the filter screen on the condenser pipe, it is provided with a board to get to rotate on the condenser pipe, it is fixed with the sealing washer to get the inboard one end of a board near the condenser pipe, be provided with the switch module that is used for closing the opening on the opening, be provided with on the opening and be used for annotating the washing subassembly of liquid in the opening.

By adopting the technical scheme, when the temperature of the hardware body is too high after long-time use, the staff controls the fan to rotate positively, the fan can form air flow in the opening positively, so that external air flows towards the hardware body, the air can reenter the shell through the dust screen, the dust screen can filter the external air, the external air is prevented from carrying dust into the shell, the use of the hardware body is affected, the air after dust removal can be blown on the surface of the hardware body, thereby the hardware body is blown and radiated, meanwhile, the temperature of the surface of the hardware body can be transmitted to the condensing tube through the heat conducting fin, the staff controls the circulating pump to start, the circulating pump can drive condensate in the condensing tube to do circulating motion, thereby cooling the heat conducting fin through the condensation effect of the condensate in the condensing tube, and further realizing the cooling of the hardware body, thereby the cooling of the condensing tube is realized through the combination of two cooling modes of the fan, the condensate can generate impurities in the condensing tube, and under the circulating flow of the condensate, the impurities can be attached to the filter screen, thereby the staff can pull a piece plate, and take out the plate, then the filter screen can be cleaned, the filter screen can be periodically cleaned, the filter screen can be cleaned, the filter screen is cleaned, the assembly is closed, the cleaning assembly is periodically is cleaned, the two ends of the opening is closed, the filter assembly is cleaned, and the cleaning assembly is closed, and then the assembly is closed, and the assembly is cleaned after the opening is closed, and the opening is closed is opened, and the assembly is cleaned is opened, and the assembly is opened, then control fan rotates, wash the dust through the stirring of fan to liquid, after fan and dust screen wash the completion, control fan pauses, then discharge abluent liquid, control switch module starts again, open the opening both ends, then control fan reversal, the fan reversal can drive the air and flow outside the cooler bin, thereby it is air-dried to carry out the remaining liquid in the opening through the flow of air, after the liquid in the opening is air-dried, control fan pauses, thereby accomplish the washing of fan and dust screen, prevent that the dust from spreading fan and dust screen, reduce the radiating effect to the hardware body.

Preferably, the switch assembly comprises a plurality of sector plates which are arranged in the air cooling box in a sliding manner and racks which are fixed on the side walls of the sector plates, the sector plates are annularly arranged, the racks are located on one side of the sector plates, which is far away from the fan, a rotating ring is arranged in the air cooling box, a threaded strip is fixed on one side, which is close to the racks, of the rotating ring, the threaded strip is meshed with the racks, a first gear is sleeved on the rotating ring, the switch assembly is provided with two groups and is symmetrically arranged in the opening, the fan and the dust screen are located between the two groups of switch assemblies, and a power assembly which is used for driving the two groups of gears to rotate simultaneously is arranged in the air cooling box.

By adopting the technical scheme, when dust is generated on the surfaces of the fan and the dust screen, the power assembly is controlled to be started by a worker, the power assembly is started to drive the gear to rotate forward, the gear to rotate forward can drive the rotating ring to rotate forward, the rotating ring can drive the threaded strips to rotate forward, the threaded strips can drive the fan-shaped plate to move towards the center direction of the rotating ring, the fan-shaped plate can gradually close the two ends of the opening, after the fan and the dust screen are cleaned, the power assembly is controlled to be started by the worker, the gear to rotate reversely is controlled, the gear to rotate reversely can drive the rotating ring to rotate reversely, the threaded strips can be driven to rotate reversely by the rotating ring, and the fan-shaped plate can be driven to move away from the center direction of the rotating ring by the threaded strip to open the two ends of the opening.

Preferably, the cleaning assembly comprises a watering can and a cylinder, wherein the watering can and the cylinder are fixed in the air cooling box, an output shaft of the cylinder is fixedly connected with a pressing plate of the watering can, a spout of the watering can is communicated with the opening, two groups of cleaning assemblies are arranged in total, and the two groups of cleaning assemblies are symmetrically arranged about the opening.

By adopting the technical scheme, after two ends of the opening are closed, a worker controls two groups of air cylinders to start the extension program, the two groups of air cylinders start the extension program to press the pressing plate of the watering can, the pressing plate of the watering can is pressed to enable cleaning fluid and water in the watering can to be sprayed into the opening, when the opening is full of water and cleaning fluid, the worker controls the air cylinders to start the contraction program, the watering can stops touching water and cleaning fluid in the opening, when the fan and dust are removed, the worker controls one group of air cylinders to start the extension program, the water-containing watering can continuously spray water into the opening, the residual cleaning fluid is flushed clean, and then the group of air cylinders are controlled to start the contraction program, so that the cleaning action is completed.

Preferably, the power assembly comprises a double-shaft motor fixed in the air cooling box and a gear II fixed on an output shaft of the double-shaft motor, and the gear II is meshed with the gear I.

By adopting the technical scheme, when dust is generated on the surfaces of the fan and the dust screen and needs to be cleaned, the double-shaft motor is controlled by a worker to start to rotate positively, the double-shaft motor starts to rotate positively to drive the gear to rotate positively, and when the fan and the dust screen are cleaned, the double-shaft motor is controlled by the worker to start to rotate reversely, the gear is driven to rotate reversely, and the gear is driven to rotate reversely.

Preferably, sealing gaskets are fixed on the side walls of the fan-shaped plates.

By adopting the technical scheme, the sealing gasket is arranged to seal the opening, so that liquid in the opening is prevented from overflowing through the connection part of the sector plates, and the cleaning effect is influenced.

Preferably, the lower end face of the opening is provided with a sewer pipe, the lower end face of the sewer pipe is provided with a sealing plate in a sliding mode, and the sealing plate penetrates through the side wall of the air cooling box.

By adopting the technical scheme, after the fan and the dust screen are cleaned, the staff pulls the sealing plate, the sealing plate pulls the channel of the sewer pipe to be opened, so that liquid in the opening can be discharged through the sewer pipe, and after the liquid in the opening is discharged, the staff pushes the sealing plate to move, and the sealing plate moves to gradually close the channel of the sewer pipe.

Preferably, the air cooling box is provided with a water storage box in a sliding manner, the sewer pipe is communicated with a cavity where the water storage box is located, and a handle is fixed on the side wall of the water storage box.

By adopting the technical scheme, liquid can flow into the water storage tank after being discharged through the sewer pipe, when the liquid in the opening is discharged, a worker pulls the handle, the handle is pulled to drive the water storage tank to move outwards of the air cooling tank, when the worker completely pulls out the water storage tank, the liquid in the water storage tank can be poured out, and then the water storage tank is pushed into the air cooling tank.

Preferably, a temperature sensor is fixed in the housing.

By adopting the technical scheme, the temperature in the shell is detected through the temperature sensor, so that when the temperature in the shell is higher than a set standard value, the hardware body heat dissipation program is started, and when the temperature in the shell is lower than the set standard value, the hardware body heat dissipation program is suspended.

Drawings

FIG. 1 is a schematic diagram of an embodiment;

FIG. 2 is a schematic diagram showing the position and structure of a cleaning assembly and a switch assembly according to an embodiment;

FIG. 3 is a schematic diagram showing the positions of a dual-shaft motor, a rotating ring and a water storage tank according to an embodiment;

FIG. 4 is a schematic diagram showing the position of the water reservoir and closure plate according to an embodiment;

FIG. 5 is a schematic view showing the internal structure of an opening according to an embodiment;

FIG. 6 is a schematic diagram showing condenser tube and circulation pump positions according to an embodiment;

Fig. 7 is a schematic diagram showing the positions of the pick-up plate and the filter screen according to the embodiment.

Reference numerals: 1. a housing; 2. a hardware body; 3. an air cooling box; 4. an opening; 5. a fan; 6. a dust screen; 7. a heat conductive sheet; 8. a condensing tube; 9. a circulation pump; 10. a filter screen; 11. a piece taking plate; 12. a seal ring; 13. a switch assembly; 14. cleaning the assembly; 15. a sector plate; 16. a rack; 17. a rotating ring; 18. a thread strip; 19. a first gear; 20. a power assembly; 21. spraying kettle; 22. a cylinder; 23. a biaxial motor; 24. a second gear; 25. a sealing gasket; 26. a water supply pipe; 27. a closing plate; 28. a water storage tank; 29. a handle; 30. a temperature sensor.

Detailed Description

The following description is only of the preferred embodiments of the present invention, and the scope of the present invention should not be limited to the examples, but should be construed as falling within the scope of the present invention. It should also be noted that modifications and adaptations to those skilled in the art without departing from the principles of the present invention are intended to be comprehended within the scope of the present invention.

Referring to fig. 1 to 7, a computer hardware overheat protection device comprises a casing 1, a hardware body 2 fixed in the casing 1, and an air cooling box 3 fixed on the side wall of the casing 1, wherein a temperature sensor 30 is fixed in the casing 1, an opening 4 is arranged on the air cooling box 3, the opening 4 is communicated with the casing 1, a fan 5 is fixed on the opening 4, and a dust screen 6 is fixed on the opening 4.

Detect the temperature in the casing 1 through temperature-sensing ware 30, when the temperature in the casing 1 is higher than the standard value of settlement, staff control fan 5 corotation, fan 5 corotation can form the air current in opening 4, make outside air flow towards hardware body 2 direction, the air can reentrant casing 1 through dust screen 6, dust screen 6 can filter outside air, prevent outside air from carrying dust and getting into casing 1, influence the use of hardware body 2, the air after the dust removal can blow at hardware body 2 surface, thereby carry out the heat dissipation of blowing to hardware body 2.

One side of the hardware body 2 far away from the fan 5 is fixed with a heat conducting fin 7, a condensation pipe 8 is fixed on the heat conducting fin 7, one end of the condensation pipe 8 is fixed with a circulating pump 9, an output port of the circulating pump 9 is fixedly connected with the other end of the condensation pipe 8, and a filter screen 10 is arranged on the condensation pipe 8.

When the fan 5 starts, the temperature on the surface of the hardware body 2 can be transferred to the condensation pipe 8 through the heat conducting fin 7, the staff controls the circulation pump 9 to start, the circulation pump 9 starts to drive condensate in the condensation pipe 8 to do circulation motion, so that the temperature of the heat conducting fin 7 is reduced through the condensation effect of the condensate in the condensation pipe 8, the temperature reduction of the hardware body 2 is realized, and the heat dissipation efficiency of the hardware body 2 is accelerated through the combination of two cooling modes of air cooling of the fan 5 and water cooling of the condensation pipe 8.

When the temperature in the housing 1 is lower than the set standard value, the worker controls the fan 5 and the circulation pump 9 to be suspended, thereby preventing an increase in power consumption and causing waste of resources.

The condenser pipe 8 is rotatably provided with a fetching plate 11, and one end of the fetching plate 11 close to the inner side of the condenser pipe 8 is fixed with a sealing ring 12.

After the condenser pipe 8 is used for a long time, the condensate can generate impurities in the condenser pipe 8, and under the circulating flow of the condensate, the impurities can be attached to the filter screen 10, so that a worker can regularly pull the piece taking plate 11 out, take out the filter screen 10 and then clean the filter screen 10, after the filter screen 10 is cleaned, the worker installs the filter screen 10 back to the condenser pipe 8, then closes the piece taking plate 11, and after the piece taking plate 11 is closed, the joint of the piece taking plate 11 and the condenser pipe 8 is sealed through the sealing ring 12, so that the condensate in the condenser pipe 8 is prevented from leaking.

The wind cooling box 3 is rotationally provided with a rotating ring 17, a first gear 19 is sleeved on the rotating ring 17, a power assembly 20 for driving the two groups of first gears 19 to rotate simultaneously is arranged in the wind cooling box 3, the power assembly 20 comprises a double-shaft motor 23 fixed in the wind cooling box 3 and a second gear 24 fixed on an output shaft of the double-shaft motor 23, and the second gear 24 is meshed and matched with the first gear 19.

When dust is generated on the surfaces of the fan 5 and the dust screen 6 and needs to be cleaned, a worker controls the double-shaft motor 23 to start forward rotation, and the double-shaft motor 23 starts forward rotation to drive the gear II 24 to forward rotate, so that the gear I19 is simultaneously driven to forward rotate.

Be provided with on the opening 4 and be used for closing opening 4's switch module 13, switch module 13 is including sliding a plurality of sector plates 15 that set up in the air-cooled box 3 and be fixed in the rack 16 on the side wall of a plurality of sector plates 15, a plurality of sector plates 15 are the annular and arrange, rack 16 is located sector plate 15 and is kept away from fan 5 one side, be fixed with screw thread 18 on the one side that the rotation circle 17 is close to rack 16, screw thread 18 and rack 16 meshing cooperation, switch module 13 is provided with two sets of, and the symmetry sets up in opening 4, fan 5 and dust screen 6 all are located between two sets of switch module 13, be fixed with sealed pad 25 on the lateral wall of a plurality of sector plates 15.

The gear I19 starts the forward rotation and can drive the rotating ring 17 forward rotation, and the rotating ring 17 forward rotation can drive the screw thread strip 18 forward rotation, and the screw thread strip 18 forward rotation can drive the sector plate 15 to the central direction of rotating ring 17 and remove to the sector plate 15 can gradually close opening 4 both ends, through the setting of sealed pad 25, prevents that the liquid in the opening 4 from overflowing through sector plate 15 junction, influences cleaning performance.

The opening 4 is provided with a cleaning component 14 for injecting liquid into the opening 4, the cleaning component 14 comprises a watering can 21 and an air cylinder 22 which are fixed in the air cooling box 3, an output shaft of the air cylinder 22 is fixedly connected with a pressing plate of the watering can 21, a spout of the watering can 21 is communicated with the opening 4, two groups of cleaning components 14 are arranged in total, and the two groups of cleaning components 14 are symmetrically arranged about the opening 4.

When the two ends of the opening 4 are closed, the two groups of air cylinders 22 are controlled by a worker to start an extension program, the two groups of air cylinders 22 start the extension program to press the pressing plate of the spray can 21, the cleaning liquid and water in the spray can 21 are sprayed into the opening 4 when the pressing plate of the spray can 21 is pressed, when the opening 4 is full of water and cleaning liquid, the spray can 21 stops spraying water and cleaning liquid in the opening 4 when the air cylinders 22 start a contraction program, then the worker controls the fan 5 to rotate, and dust is cleaned by stirring the liquid by the fan 5.

The lower terminal surface of opening 4 has seted up downcomer 26, and the lower terminal surface of downcomer 26 slides and is provided with closure plate 27, and closure plate 27 runs through the lateral wall of forced air cooling case 3, and forced air cooling case 3 is gone up to slide and is provided with water storage tank 28, and downcomer 26 is linked together with the cavity that water storage tank 28 is located, is fixed with handle 29 on the lateral wall of water storage tank 28.

When the fan 5 and dust screen 6 are cleaned, the operator controls the fan 5 to halt and then pulls the closing plate 27, the closing plate 27 pulling opens the passage of the drain pipe 26, so that the liquid in the opening 4 is discharged through the drain pipe 26 and flows into the water reservoir 28.

When the liquid in the opening 4 is exhausted, the worker controls a group of air cylinders 22 to start an elongation program, so that the watering can 21 containing water continuously sprays water into the opening 4 to wash out residual cleaning liquid, the sprayed water is finally exhausted through the sewer pipe 26 and flows into the water storage tank, and then controls the group of air cylinders 22 to start a contraction program, so that the cleaning action is completed.

When the fan 5 and the dust screen 6 are cleaned, a worker controls the double-shaft motor 23 to start reversing, the double-shaft motor 23 starts reversing and drives the gear II 24 to reverse, so that the gear I19 is driven to reverse simultaneously, the gear I19 starts reversing and drives the rotating ring 17 to reverse, the rotating ring 17 reverses and drives the threaded strip 18 to reverse, and the threaded strip 18 reverses and drives the sector plate 15 to move in the direction away from the center of the rotating ring 17, so that two ends of the opening 4 are opened.

After opening 4 both ends are opened, control fan 5 reversal, fan 5 reversal can drive the air and flow outside air-cooled box 3 to air-dry the liquid that remains in the opening 4 through the flow of air, after the liquid in the opening 4 is air-dried, control fan 5 is paused, thereby accomplishes the washing and the drying action in the opening 4, prevents that the dust from spreading fan 5 and dust screen 6, reduces the radiating effect to hardware body 2.

After the cleaning and drying actions are completed in the opening 4, a worker pushes the sealing plate 27 to move, the channel of the sewer pipe 26 is gradually closed by the movement of the sealing plate 27, then the worker pulls the handle 29, the handle 29 is pulled to drive the water storage tank 28 to move outwards of the air cooling tank 3, after the worker completely pulls out the water storage tank 28, liquid in the water storage tank 28 can be poured out, and then the water storage tank 28 is pushed into the air cooling tank 3.

Claims (6)

1. The utility model provides a computer hardware overheat protection device, includes casing (1), its characterized in that still includes hardware body (2) that are fixed in casing (1) and air-cooled case (3) that are fixed in on casing (1) lateral wall, offer opening (4) on air-cooled case (3), opening (4) are linked together with casing (1), be fixed with fan (5) on opening (4), be fixed with dust screen (6) on opening (4), one side that fan (5) were kept away from to hardware body (2) is fixed with conducting strip (7), be fixed with condenser pipe (8) on conducting strip (7), the one end of condenser pipe (8) is fixed with circulating pump (9), the delivery outlet of circulating pump (9) is fixed with the other end of condenser pipe (8), be provided with filter screen (10) on condenser pipe (8) and rotate on being provided with get piece board (11), be close to one end (12) of condenser pipe (8) inboard, be provided with on opening (4) seal ring (14) and be used for annotating opening (4) and be used for carrying out the washing assembly (14) in the opening (4) and closing assembly (14);

The switch assembly (13) comprises a plurality of sector plates (15) which are arranged in the air cooling box (3) in a sliding manner and racks (16) which are fixed on the side walls of the sector plates (15), the sector plates (15) are annularly arranged, the racks (16) are positioned on one side, away from the fan (5), of the sector plates (15), a rotating ring (17) is rotationally arranged in the air cooling box (3), a threaded strip (18) is fixed on one side, close to the racks (16), of the rotating ring (17), the threaded strip (18) is meshed with the racks (16), a gear I (19) is sleeved on the rotating ring (17), the switch assembly (13) is provided with two groups and is symmetrically arranged in the opening (4), the fan (5) and the dustproof net (6) are positioned between the two groups of switch assemblies (13), and a power assembly (20) for driving the two groups of gears (19) to rotate simultaneously is arranged in the air cooling box (3);

the cleaning assembly (14) comprises a watering can (21) and an air cylinder (22) which are fixed in the air cooling box (3), an output shaft of the air cylinder (22) is fixedly connected with a pressing plate of the watering can (21), a nozzle of the watering can (21) is communicated with the opening (4), two groups of cleaning assemblies (14) are arranged in total, and the two groups of cleaning assemblies (14) are symmetrically arranged with respect to the opening (4).

2. A computer hardware overheat protection device according to claim 1, wherein the power assembly (20) comprises a double-shaft motor (23) fixed in the air cooling box (3) and a gear two (24) fixed on an output shaft of the double-shaft motor (23), and the gear two (24) is meshed with the gear one (19).

3. A computer hardware overheat protection device according to claim 1, characterised in that a gasket (25) is fixed to the side walls of a plurality of the sector plates (15).

4. A computer hardware overheat protection device according to claim 1, wherein a sewer pipe (26) is provided at the lower end face of the opening (4), a closing plate (27) is provided at the lower end face of the sewer pipe (26) in a sliding manner, and the closing plate (27) penetrates through the side wall of the air cooling box (3).

5. The computer hardware overheat protection device according to claim 4, wherein a water storage tank (28) is slidably arranged on the air cooling tank (3), the sewer pipe (26) is communicated with a cavity where the water storage tank (28) is located, and a handle (29) is fixed on the side wall of the water storage tank (28).

6. A computer hardware overheat protection device according to claim 1, wherein a temperature sensor (30) is fixed in the housing (1).