CN113672064B

CN113672064B - Computer auxiliary device for irrigation and water conservancy design

Info

Publication number: CN113672064B
Application number: CN202110928884.7A
Authority: CN
Inventors: 魏良余
Original assignee: Shuyang Xiangwei Ecological Agriculture Development Co ltd
Current assignee: Shuyang Xiangwei Ecological Agriculture Development Co ltd
Priority date: 2021-08-13
Filing date: 2021-08-13
Publication date: 2022-05-17
Anticipated expiration: 2041-08-13
Also published as: CN113672064A

Abstract

The invention discloses a computer auxiliary device for irrigation and water conservancy design, which comprises a box body, a heat dissipation cavity, a heating cavity, an air inlet pipe, a computer case, a heat exchange mechanism, a dust removal mechanism, a cleaning mechanism and a heat dissipation mechanism, wherein the heat dissipation cavity and the heating cavity are respectively formed in the inner wall of the box body, the air inlet pipe is fixedly connected to the inner wall of the box body in a penetrating mode, the heat exchange mechanism is fixedly connected into the heat dissipation cavity, the dust removal mechanism is fixedly connected into the air inlet pipe, the cleaning mechanism is fixedly connected to the inner wall of the heat dissipation cavity in a penetrating mode, and the heat dissipation mechanism is fixedly connected onto the computer case. According to the invention, through arranging the structures of the dust collection conducting wires, the magnets, the drainage grooves and the like, the plurality of dust collection conducting wires are powered to generate an electromagnetic field for adsorbing dust, the directions of currents in two adjacent dust collection conducting wires are the same, the two adjacent dust collection conducting wires are mutually attracted and bent when the currents flow, when the currents do not pass through the dust collection conducting wires, the attraction disappears, the vibration is generated when the deformation is recovered, and the dust attached to the surfaces of the dust collection conducting wires can be shaken down into the drainage grooves for collection.

Description

Computer auxiliary device for irrigation and water conservancy design

Technical Field

The invention relates to the technical field of computer auxiliary devices, in particular to a computer auxiliary device for irrigation and water conservancy design.

Background

Irrigation and water conservancy construction refers to a water conservancy project for developing agricultural production services. The basic task is to change the natural conditions which are not beneficial to the development of agricultural production through the technical measures of water conservancy engineering, and serve the agricultural high-yield and high-efficiency. Water conservancy facilities serving the farmland through the development and repair comprise irrigation, drainage, waterlogging removal, salt and water damage prevention and control and the like, and basic farmlands with drought and waterlogging conservation, high yield and stability are built.

Computer equipment need be used to the in-process at irrigation and water conservancy design, but often wind-force is great because of irrigation and water conservancy environment, air humidity is big at night, so at the in-process of use design, it is internal that more dust of adulteration easily enters into the computer in the wind body, thereby influence the electric elements work in the computer, when night, the moisture has rusty risk again in the easy access device, simultaneously when hot weather, also have certain requirement to the heat dispersion of computer organism.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a computer auxiliary device for irrigation and water conservancy design.

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

a computer auxiliary device for irrigation and water conservancy design comprises a box body, a heat dissipation cavity, a heating cavity, an air inlet pipe, a computer case, a heat exchange mechanism, a dust removal mechanism, a cleaning mechanism and a heat dissipation mechanism, a computer case is arranged in the case body, a heat dissipation cavity and a heating cavity are respectively arranged on the inner wall of the case body, the inner wall of the box body is fixedly connected with an air inlet pipe in a penetrating way, the heat dissipation cavity is internally and fixedly connected with a heat exchange mechanism for cooling the heat dissipated around the computer case, one end of the heat exchange mechanism far away from the heat dissipation cavity is fixedly connected with the inner wall of the heating cavity, a dust removal mechanism for removing dust from the gas is fixedly connected in the gas inlet pipe, a cleaning mechanism for removing the collected dust is fixedly communicated with the inner wall of the heat dissipation cavity in a penetrating manner, and the computer case is fixedly connected with a heat dissipation mechanism for discharging heat in the case body.

Preferably, heat exchange mechanism includes heat dissipation case, electrically conductive spring, piston, back flow, circulating pipe, screwed pipe, permanent magnet, intercommunicating pore, control valve, heat dissipation intracavity wall fixedly connected with heat dissipation case, heat dissipation roof portion inner wall fixedly connected with electrically conductive spring, electrically conductive spring's one end fixedly connected with piston, piston seal sliding connection is in the heat dissipation case.

Preferably, the inside roof fixedly connected with permanent magnet of heating chamber, heating intracavity wall fixedly connected with screwed pipe, the screwed pipe is the screw structure, the both ends of screwed pipe are fixed intercommunication respectively and have back flow, circulating pipe, the one end that the screwed pipe was kept away from to back flow, circulating pipe is fixed the intercommunication with the heat dissipation case respectively, all be equipped with the check valve in back flow, the circulating pipe, the heating chamber passes through intercommunicating pore and the inside fixed intercommunication of box, be equipped with the control valve in the intercommunicating pore.

Preferably, dust removal mechanism includes inlet fan, pivot, wire frame, filter screen frame, dust absorption wire, magnet, the inlet duct inner wall rotates through the fixed block and is connected with the bull stick, the one end fixedly connected with inlet fan of fixed block is kept away from to the bull stick, fixedly connected with magnet on the bull stick, the inner wall fixedly connected with wire frame of intake pipe, the inlet duct inner wall fixedly connected with filter screen frame, many dust absorption wires of both ends fixedly connected with of filter screen frame, the dust absorption wire is made by elasticity deformable material.

Preferably, the wiper mechanism includes retaining chamber, water drainage tank, pressure valve and drain pipe, water drainage tank has been seted up to the diapire of intake pipe, water drainage tank is certain angle setting with the horizontal direction, the retaining chamber has been seted up to the inner wall that the box is located position between heat dissipation chamber and the intake pipe, retaining chamber and heat dissipation chamber intercommunication, the retaining chamber passes through the fixed intercommunication of drain pipe and water drainage tank, be equipped with the pressure valve in the drain pipe.

Preferably, heat dissipation mechanism includes air duct, drive wheel, temperature control piece, magnetism base, solenoid valve, venthole and electro-magnet, the venthole has been seted up to heat dissipation chamber top inner wall, fixedly connected with air duct is run through to the inside wall of venthole, the fixed intercommunication of louvre of one end and computer machine case that the venthole was kept away from to the air duct, venthole inner wall fixed connection has the magnetism base.

Preferably, the inner wall of the air outlet hole is connected with a driving wheel in an axial rotating mode, each fan blade of the driving wheel is embedded with a temperature control sheet and an electromagnet, each temperature control sheet is electrically connected with one electromagnet adjacent to the temperature control sheet in the clockwise direction, and an electromagnetic valve is arranged in the air outlet hole.

Preferably, the temperature control sheets are electrically connected with the electromagnetic valves, one of the temperature control sheets is electrically connected with the conductive spring, and the metal wire frame is electrically connected with the dust collection lead.

The invention has the following beneficial effects:

1. through the arrangement of the structures such as the dust collection conducting wires, the magnets, the drainage grooves and the like, the air inlet fan drives the rotating rod and the magnets to synchronously rotate, the metal wire frame periodically cuts magnetic field lines of the magnets, so that a plurality of dust collection conducting wires are powered to generate an electromagnetic field for adsorbing dust, the directions of currents in two adjacent dust collection conducting wires are the same, when the currents flow, the two adjacent dust collection conducting wires attract each other to be close to each other and are bent, when the current does not pass through the dust collection conducting wires, the attraction force between the two adjacent dust collection conducting wires disappears, the vibration is generated in the deformation recovery process, and the dust attached to the surfaces of the dust collection conducting wires can be shaken down into the drainage grooves for collection;

2. through the arrangement of the driving wheel, the temperature control pieces, the electromagnets and other structures, hot air exhausted from the heat dissipation holes of the computer case is sprayed on one fan blade of the driving wheel, so that the temperature control pieces on the fan blade of the driving wheel generate current and supply power to one clockwise adjacent electromagnet, the electrified electromagnet drives the fan blade to rotate towards the direction of the magnetic base under the action of magnetic attraction, after one end of the rotating magnet rotates for a distance, the temperature control pieces do not supply power to the corresponding electromagnets, the temperature control pieces on the fan blade anticlockwise adjacent to the fan blade continue to repeat the process, and therefore the driving wheel is driven to rotate quickly, and heat in the box body is extracted;

3. by arranging the structures such as the threaded pipe, the control valve, the circulating pipe and the like, magnetic fluid is arranged in the threaded pipe, the return pipe and the circulating pipe, the magnetic fluid generates a magnetic heating phenomenon when flowing through the position of the permanent magnet, the spiral threaded pipe can increase the heat exchange area and improve the heat exchange efficiency, gas in a heating cavity is heated and accumulated, when the computer case enters night, moisture needs to be prevented from entering the computer case due to high humidity of the farmland water conservancy environment, so that the electric element is prevented from rusting, after the air inlet pipe and the air outlet hole are sealed, a user can open the control valve, so that the heat accumulated in the heating cavity enters the case body for drying, and the proper drying of the environment where the computer case is located is ensured;

4. by arranging the structures of the heat dissipation box, the magnetic fluid, the water storage cavity and the like, after the magnetic fluid enters the heat dissipation box, the interior of the magnetic fluid is changed from order to disorder due to the loss of magnetization of the permanent magnet, in the process, the magnetic fluid absorbs heat from the outside to reduce the ambient temperature in the heat dissipation cavity, thereby driving the ambient temperature in the case body to drop, avoiding the working performance of the electrical elements in the computer case from being influenced by overhigh heat in the computer case, meanwhile, the air flow flowing from the box body to the heat dissipation cavity is liquefied due to the rapid reduction of the temperature, small water drops are formed for collection, thereby final little drop of water flows to retaining intracavity, and inside the water body when retaining intracavity had certain pressure back from the drain pipe circulation to the water drainage tank, the dust of collecting the water drainage tank inside is washed totally, avoids artifical regularly to wash, and the automatic production washing operation reduces the human cost.

Drawings

FIG. 1 is a schematic structural diagram of a computer-aided device for irrigation and water conservancy design according to the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1;

FIG. 3 is a schematic perspective view of the box, the heat dissipation chamber, the heating chamber and the water storage chamber shown in FIG. 1;

FIG. 4 is a perspective view of a portion of the heat exchange mechanism of FIG. 1;

fig. 5 is a perspective view of the driving wheel portion.

In the figure: 1 box body, 2 heat dissipation cavities, 3 heating cavities, 4 air inlet pipes, 5 heat exchange mechanisms, 501 heat dissipation boxes, 502 conductive springs, 503 pistons, 504 return pipes, 505 circulating pipes, 506 threaded pipes, 507 permanent magnets, 508 communication holes, 509 control valves, 6 dust removal mechanisms, 601 air inlet fans, 602 rotating rods, 603 metal wire frames, 604 filter screen frames, 605 dust collection leads, 606 magnets, 7 cleaning mechanisms, 701 water storage cavities, 702 water drainage grooves, 703 pressure valves, 704 water drainage pipes, 8 heat dissipation mechanisms, 801 air guide pipes, 802 driving wheels, 803 temperature control sheets, 804 magnetic bases, 805 electromagnetic valves, 806 air outlet holes, 807 electromagnets and 9 computer cases.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, but rather should be construed as broadly as the present invention is capable of modification in various respects, all without departing from the spirit and scope of the present invention.

Referring to fig. 1-5, a computer auxiliary device for irrigation and water conservancy design comprises a box body 1, a heat dissipation cavity 2, a heating cavity 3 and an air inlet pipe 4, computer machine case 9, heat exchange mechanism 5, dust removal mechanism 6, wiper mechanism 7 and heat dissipation mechanism 8, computer machine case 9 has been placed in the box 1, heat dissipation chamber 2 and heating chamber 3 have been seted up respectively to 1 inner wall of box, the inner wall of box 1 runs through fixedly connected with intake pipe 4, heat dissipation chamber 2 interior fixedly connected with carries out refrigerated heat exchange mechanism 5 to the heat that gives off around the computer machine case 9, the one end fixed connection that heat dissipation chamber 2 was kept away from to heat exchange mechanism 5 is at the heating chamber 3 inner wall, fixedly connected with carries out the dust removal mechanism 6 that removes dust to the gas in the intake pipe 4, heat dissipation chamber 2 inner wall runs through fixed intercommunication has the wiper mechanism 7 of cleaing away the dust of collecting, fixedly connected with carries out exhaust heat dissipation mechanism 8 to the heat in the box 1 on the computer machine case 9.

The heat exchange mechanism 5 comprises a heat dissipation box 501, a conductive spring 502, a piston 503, a return pipe 504, a circulation pipe 505, a threaded pipe 506, a permanent magnet 507, a communication hole 508 and a control valve 509, wherein the inner wall of the heat dissipation cavity 2 is fixedly connected with the heat dissipation box 501, the inner wall of the top of the heat dissipation box 501 is fixedly connected with the conductive spring 502, one end of the conductive spring 502 is fixedly connected with the piston 503, the piston 503 is hermetically and slidably connected in the heat dissipation box 501, magnetic fluids are respectively arranged in the threaded pipe 506, the return pipe 504 and the circulation pipe 505, the piston 503 is hermetically and reciprocally slid in the heat dissipation box 501 under the elastic action of the conductive spring 502, while the one-way valve in return line 504 only allows magnetic fluid to flow from heat sink tank 501 into threaded pipe 506, while the one-way valve in circulation tube 505 only allows the magnetic fluid in threaded tube 506 to flow into heat dissipation tank 501, thereby causing the magnetic fluid to circulate in heat dissipation tank 501, threaded pipe 506, return pipe 504, and circulation pipe 505.

The permanent magnet 507 is fixedly connected to the top wall inside the heating cavity 3, the threaded pipe 506 is fixedly connected to the inner wall of the heating cavity 3, the threaded pipe 506 is of a spiral structure, two ends of the threaded pipe 506 are respectively and fixedly communicated with the return pipe 504 and the circulating pipe 505, one ends of the return pipe 504 and the circulating pipe 505, which are far away from the threaded pipe 506, are respectively and fixedly communicated with the heat dissipation box 501, one-way valves are respectively arranged in the return pipe 504 and the circulating pipe 505, the heating cavity 3 is fixedly communicated with the inside of the box body 1 through a communication hole 508, a control valve 509 is arranged in the communication hole 508, and the magnetic fluid materials filled in the threaded pipe 506, the circulating pipe 505 and the return pipe 504 enable the magnetic heat phenomenon to be generated when the magnetic fluid flows through the position of the permanent magnet 507, the spiral threaded pipe 506 can increase the heat exchange area and improve the heat exchange efficiency.

The dust removing mechanism 6 comprises an air inlet fan 601, a rotating rod 602, a metal wire frame 603, a filter screen frame 604, dust collection conducting wires 605 and a magnet 606, wherein the inner wall of the air inlet pipe 4 is rotatably connected with the rotating rod 602 through a fixing block, one end of the rotating rod 602, which is far away from the fixing block, is fixedly connected with the air inlet fan 601, the magnet 606 is fixedly connected on the rotating rod 602, the metal wire frame 603 is fixedly connected with the inner wall of the air inlet pipe 4, the filter screen frame 604 is fixedly connected with the inner wall of the air inlet pipe 4, two ends of the filter screen frame 604 are fixedly connected with a plurality of dust collection conducting wires 605, the dust collection conducting wires 605 are made of an elastic deformable material, the air inlet fan 601 rotates under the blowing of external air, so as to drive the rotating rod 602 and the magnet 606 to synchronously rotate, so that the metal wire frame 603 periodically cuts magnetic field lines of the magnet 606, thereby generating current to supply power to the plurality of dust collection conducting wires 605, generating current in the dust collection conducting wires 605, and simultaneously generating an electromagnetic field around, the dust doped in the wind body is adsorbed to the dust absorption wires 605, the dust is prevented from entering the box body 1, meanwhile, the dust absorption wires 605 are arranged to be close to each other in a group, the current directions in the two adjacent dust absorption wires 605 are the same, when current flows in the two adjacent dust absorption wires 605 under the action of an electromagnetic field, the two adjacent dust absorption wires 605 are mutually attracted and close to each other to be bent, when the current does not pass through the dust absorption wires 605, the attraction between the two adjacent dust absorption wires 605 disappears, the vibration is generated in the deformation recovery process, and the dust attached to the surfaces of the dust absorption wires can be shaken down into the drainage groove 702 for collection.

The cleaning mechanism 7 comprises a water storage cavity 701, a water drainage groove 702, a pressure valve 703 and a water drainage pipe 704, wherein the water drainage groove 702 is formed in the bottom wall of the air inlet pipe 4, the water drainage groove 702 is arranged at a certain angle with the horizontal direction, the water storage cavity 701 is formed in the inner wall of the box body 1 positioned between the heat dissipation cavity 2 and the air inlet pipe 4, the water storage cavity 701 is communicated with the heat dissipation cavity 2, the water storage cavity 701 is fixedly communicated with the water drainage groove 702 through the water drainage pipe 704, the pressure valve 703 is arranged in the water drainage pipe 704, after the magnetic fluid enters the heat dissipation box 501, the magnetization of the permanent magnet 507 is lost, the interior of the magnetic fluid is changed from ordered state to disordered state, the magnetic fluid absorbs heat to the outside in the process, the ambient temperature in the heat dissipation cavity 2 is reduced, the ambient temperature in the box body 1 is driven to be reduced, the overhigh heat in the computer case 9 is avoided, the working performance of electric elements in the computer case 9 is influenced, and meanwhile, the air flow flowing from the box body 1 to the heat dissipation cavity 2 is rapidly reduced due to the temperature, make self take place the liquefaction, form the drop of water and collect to final drop of water flows to the water storage chamber 701 in, flows to water drainage tank 702 from drain pipe 704 after the water in the water storage chamber 701 has certain pressure inside, washes the dust of the inside collection of water drainage tank 702 clean, avoids artifical regularly to wash, produces the cleaning operation automatically and reduces the human cost.

The heat dissipation mechanism 8 comprises an air duct 801, a driving wheel 802, a temperature control plate 803, a magnetic base 804, an electromagnetic valve 805, an air outlet 806 and an electromagnet 807, the air outlet 806 is formed in the inner wall of the top of the heat dissipation cavity 2, the air duct 801 is fixedly connected to the inner side wall of the air outlet 806 in a penetrating mode, one end, away from the air outlet 806, of the air duct 801 is fixedly communicated with a heat dissipation hole of the computer case 9, and the magnetic base 804 is fixedly connected to the inner wall of the air outlet 806.

The inner wall of the air outlet 806 is connected with a driving wheel 802 in an axial direction in a rotating manner, each fan blade of the driving wheel 802 is embedded with a temperature control sheet 803 and an electromagnet 807, each temperature control sheet 803 is electrically connected with one electromagnet 807 adjacent to the clockwise direction, an electromagnetic valve 805 is arranged in the air outlet 806, hot air exhausted from a heat dissipation hole of the computer case 9 is sprayed on one fan blade of the driving wheel 802 through an air guide pipe 801, so that the temperature control sheet 803 on the fan blade of the driving wheel 802 generates current and supplies power to one electromagnet 807 adjacent to the clockwise direction, the electromagnet 807 is electrified to generate magnetism, the polarities of the electrified electromagnet 807 and the magnetic base 804 are the same and mutually form magnetic attraction, under the action of the magnetic attraction, the electrified electromagnet 807 drives the fan blade to rotate towards the magnetic base 804, and the temperature control sheet 803 does not supply power to the corresponding electromagnet 807 due to the temperature reduction on the fan blade after rotating by one end distance, the temperature control sheet 803 on the fan blade counterclockwise adjacent to the fan blade continuously repeats the above process, so as to drive the driving wheel 802 to rotate rapidly, and the heat in the box body 1 is extracted.

The temperature control sheets 803 are electrically connected with the electromagnetic valves 805, one of the temperature control sheets 803 is electrically connected with the conductive spring 502, the wire frame 603 is electrically connected with the dust suction wire 605, the temperature control sheets 803 are heated and then electrified to enable the electromagnetic valve 805 to be in a normally open state, one of the temperature control sheets 803 periodically generates current in the rotation process of the driving wheel 802, and the conductive spring 502 is periodically powered, so that the conductive spring 502 drives the piston 503 to periodically slide in a reciprocating sealing manner in the heat dissipation box 501.

In the invention, when the device is used for designing irrigation and water conservancy, because the environment such as farmland is usually in strong wind environment, the air inlet fan 601 rotates under the blowing of external wind body, so as to drive the rotating rod 602 and the magnet 606 to synchronously rotate, the metal wire frame 603 periodically cuts the magnetic field lines of the magnet 606, so as to generate current to supply power to a plurality of dust absorption leads 605, current is generated in the dust absorption leads 605, an electromagnetic field is generated around the dust absorption leads, dust doped in the wind body is adsorbed to the plurality of dust absorption leads 605, the dust is prevented from entering the box body 1 and adsorbing floating dust in the box body 1, meanwhile, the plurality of dust absorption leads 605 are arranged to be close to each other in a group two by two, the current direction in the two adjacent dust absorption leads 605 is ensured to be the same, when current flows in the two adjacent dust absorption leads 605 under the action of the electromagnetic field, the adjacent dust absorption leads are mutually attracted to be close to each other and bent, when the current is not passed through the dust suction conducting wire 605, the attractive force between two adjacent dust suction conducting wires 605 disappears, and the dust attached to the surface of the dust suction conducting wire is shaken in the drainage groove 702 to be collected in the process of restoring the deformation.

Hot air exhausted from heat dissipation holes of the computer case 9 is sprayed on one fan blade of the driving wheel 802 through the air duct 801, so that the temperature control sheet 803 on the fan blade of the driving wheel 802 generates current and supplies power to one electromagnet 807 which is adjacent clockwise, the electromagnet 807 is electrified to generate magnetism, the polarities of the electrified electromagnet 807 and the magnetic base 804 are the same and are magnetic attraction force, under the action of the magnetic attraction force, the electrified electromagnet 807 drives the fan blade to rotate towards the magnetic base 804, the temperature on the fan blade is reduced after one end of the electromagnet is rotated for a distance, the temperature control sheet 803 does not supply power to the electromagnet 807 which corresponds to the electromagnet, the temperature control sheet 803 on the fan blade which is adjacent anticlockwise to the fan blade continues to repeat the process, and therefore the driving wheel 802 is driven to rotate quickly, and heat in the case 1 is extracted.

Magnetic fluid is filled in the threaded pipe 506, the return pipe 504 and the circulating pipe 505, the piston 503 slides in the heat dissipation box 501 in a reciprocating sealing manner under the elastic action of the periodically electrified conductive spring 502, the magnetic fluid is circulated in the heat radiation tank 501, the threaded pipe 506, the return pipe 504 and the circulation pipe 505, the magnetothermal phenomenon is generated when the magnetofluid flows through the permanent magnet 507, the spiral threaded pipe 506 can increase the heat exchange area, improve the heat exchange efficiency, the gas in the heating cavity 3 is heated and accumulated, when entering into the night, because the humidity of the farmland and water conservancy environment is high, the computer case 9 needs to avoid entering moisture so as to avoid the situation that the electric elements are rusted, after sealing the air inlet pipe 4 and the air outlet hole 806, the user can open the control valve 509 to let the heat accumulated in the heating cavity 3 enter the box body 1 for drying, so as to ensure that the environment of the computer case 9 is properly dried.

After the magnetic fluid enters the heat dissipation box 501, the interior of the magnetic fluid is changed from ordered to disordered due to the loss of the magnetization of the permanent magnet 507, in the process, the magnetic fluid absorbs heat from the outside, so that the ambient temperature in the heat dissipation cavity 2 is reduced, thereby driving the ambient temperature in the case body 1 to drop, avoiding the over-high heat in the computer case 9 from influencing the working performance of the electrical elements in the computer case 9, meanwhile, the temperature of the airflow flowing from the box body 1 to the heat dissipation cavity 2 is rapidly reduced, so that the airflow is liquefied to form small water drops for collection, thereby final little drop of water flows to the retaining chamber 701 in, and inside water storage chamber 701 water had certain pressure back to circulate to water drainage tank 702 from drain pipe 704, the dust of collecting in water drainage tank 702 washed cleanly, avoids artifical regularly to wash, and the automatic washing operation that produces to reduce the human cost.

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

Claims

1. The utility model provides a computer auxiliary device for irrigation and water conservancy design, its characterized in that, includes box (1), heat dissipation chamber (2), heating chamber (3), intake pipe (4), computer machine case (9), heat exchange mechanism (5), dust removal mechanism (6), wiper mechanism (7) and heat dissipation mechanism (8), computer machine case (9) have been placed in box (1), heat dissipation chamber (2) and heating chamber (3) have been seted up respectively to box (1) inner wall, the inner wall of box (1) runs through fixedly connected with intake pipe (4), heat dissipation chamber (2) internal fixation is connected with carries out refrigerated heat exchange mechanism (5) to the heat that gives off around computer machine case (9), the one end fixed connection that heat dissipation chamber (2) was kept away from in heat exchange mechanism (5) is at heating chamber (3) inner wall, fixedly connected with dust removal mechanism (6) that remove dust to gas in intake pipe (4), the cleaning mechanism (7) for removing collected dust is fixedly communicated with the inner wall of the heat dissipation cavity (2) in a penetrating mode, the heat dissipation mechanism (8) for discharging the heat in the box body (1) is fixedly connected to the computer case (9), the heat exchange mechanism (5) comprises a heat dissipation box (501), a conductive spring (502), a piston (503), a return pipe (504), a circulation pipe (505), a threaded pipe (506), a permanent magnet (507), a communication hole (508) and a control valve (509), the heat dissipation cavity (2) inner wall is fixedly connected with the heat dissipation box (501), the conductive spring (502) is fixedly connected to the top inner wall of the heat dissipation box (501), the piston (503) is fixedly connected to one end of the conductive spring (502), the piston (503) is connected to the heat dissipation box (501) in a sealing and sliding mode, and the permanent magnet (507) is fixedly connected to the top wall inside the heating cavity (3), the inner wall of the heating cavity (3) is fixedly connected with a threaded pipe (506), the threaded pipe (506) is of a spiral structure, two ends of the threaded pipe (506) are respectively and fixedly communicated with a return pipe (504) and a circulating pipe (505), one ends, far away from the threaded pipe (506), of the return pipe (504) and the circulating pipe (505) are respectively and fixedly communicated with the heat dissipation box (501), one-way valves are respectively arranged in the return pipe (504) and the circulating pipe (505), the heating cavity (3) is fixedly communicated with the interior of the box body (1) through a communicating hole (508), and a control valve (509) is arranged in the communicating hole (508); magnetic fluid is arranged in the threaded pipe (506), the return pipe (504) and the circulating pipe (505), a piston (503) slides in the heat dissipation box (501) in a reciprocating sealing manner under the elastic action of the periodically electrified conductive spring (502), so that the magnetic fluid forms circulation in the heat dissipation box (501), the threaded pipe (506), the return pipe (504) and the circulating pipe (505), the magnetic fluid generates a magnetocaloric phenomenon when flowing through the position of the permanent magnet (507), gas in the heating cavity (3) is heated and accumulated, and when the user enters night, the user opens the control valve (509) to enable the heat stored in the heating cavity (3) to enter the box body (1) for drying;

the dust removal mechanism (6) comprises an air inlet fan (601), a rotating rod (602), a metal wire frame (603), a filter screen frame (604), dust collection leads (605) and a magnet (606), wherein the inner wall of the air inlet pipe (4) is rotatably connected with the rotating rod (602) through a fixed block, one end, far away from the fixed block, of the rotating rod (602) is fixedly connected with the air inlet fan (601), the rotating rod (602) is fixedly connected with the magnet (606), the inner wall of the air inlet pipe (4) is fixedly connected with the metal wire frame (603), the inner wall of the air inlet pipe (4) is fixedly connected with the filter screen frame (604), two ends of the filter screen frame (604) are fixedly connected with a plurality of dust collection leads (605), and the dust collection leads (605) are made of an elastic deformable material; the air inlet fan (601) rotates under the blowing of an external air body, so that the rotating rod (602) and the magnet (606) are driven to synchronously rotate, a metal wire frame (603) periodically cuts magnetic field lines of the magnet (606), current is generated to supply power to a plurality of dust suction conducting wires (605), the current is generated in the dust suction conducting wires (605), an electromagnetic field is generated around the dust suction conducting wires at the same time, dust doped in the air body is adsorbed to the plurality of dust suction conducting wires (605), the dust is prevented from entering the box body (1), under the action of the electromagnetic field, when current flows through the adjacent two dust suction conducting wires (605), the adjacent dust suction conducting wires are mutually attracted and close to each other to be bent, when the current does not pass through the dust suction conducting wires (605), the attractive force between the two adjacent dust suction conducting wires (605) disappears, jitter is generated in the recovery deformation process, and dust attached to the surface of the dust suction conducting wires can fall into the drainage groove (702) for collection; the cleaning mechanism (7) comprises a water storage cavity (701), a water drainage groove (702), a pressure valve (703) and a water drainage pipe (704), the water drainage groove (702) is formed in the bottom wall of the air inlet pipe (4), the water drainage groove (702) is arranged at a certain angle with the horizontal direction, the water storage cavity (701) is formed in the inner wall, located between the heat dissipation cavity (2) and the air inlet pipe (4), of the box body (1), the water storage cavity (701) is communicated with the heat dissipation cavity (2), the water storage cavity (701) is fixedly communicated with the water drainage groove (702) through the water drainage pipe (704), and the pressure valve (703) is arranged in the water drainage pipe (704); the air flow flowing into the heat dissipation cavity (2) from the box body (1) is rapidly reduced due to the temperature, so that the air flow is liquefied, small water drops are formed to be collected, and finally the small water drops flow into the water storage cavity (701), and the water in the water storage cavity (701) flows into the water drainage groove (702) from the water drainage pipe (704) after certain pressure exists, and the dust collected in the water drainage groove (702) is washed completely.

2. The computer auxiliary device for the agricultural water conservancy design according to claim 1, wherein the heat dissipation mechanism (8) comprises an air duct (801), a driving wheel (802), a temperature control plate (803), a magnetic base (804), an electromagnetic valve (805), an air outlet (806) and an electromagnet (807), the air outlet (806) is formed in the inner wall of the top of the heat dissipation cavity (2), the air duct (801) penetrates through the inner side wall of the air outlet (806), one end, far away from the air outlet (806), of the air duct (801) is fixedly communicated with a heat dissipation hole of the computer case (9), and the magnetic base (804) is fixedly connected to the inner wall of the air outlet (806).

3. The computerized auxiliary device for agricultural water conservancy design according to claim 2, wherein the inner wall of the air outlet hole (806) is connected with a driving wheel (802) in an axial rotation manner, each blade of the driving wheel (802) is embedded with a temperature control plate (803) and an electromagnet (807), each temperature control plate (803) is electrically connected with one electromagnet (807) adjacent to the clockwise direction, and an electromagnetic valve (805) is arranged in the air outlet hole (806).

4. The computer auxiliary device for agricultural water conservancy design according to claim 3, characterized in that the temperature control sheets (803) are all electrically connected with the electromagnetic valves (805), one of the temperature control sheets (803) is electrically connected with the conductive spring (502), and the wire frame (603) is electrically connected with the dust suction wire (605).