CN117739594A

CN117739594A - Water cooling circulation system

Info

Publication number: CN117739594A
Application number: CN202311684747.9A
Authority: CN
Inventors: 王宏九; 王子杨; 赵亮; 郭菊红
Original assignee: Anhui Hongjiu Water Pump Equipment Co ltd
Current assignee: Anhui Hongjiu Water Pump Equipment Co ltd
Priority date: 2023-12-11
Filing date: 2023-12-11
Publication date: 2024-03-22

Abstract

The invention discloses a water cooling circulation system, which relates to the field of water cooling circulation, and comprises a water cooling system for cooling equipment in a water-cooling manner, a heat energy conversion system and a flow control system, wherein the water cooling system comprises a water pump, a water reservoir and a first cooling water pipe for cooling the equipment; this application cools down equipment through water-cooling system, heat energy conversion system and flow control system, guarantees the steady operation of equipment, cools down through increasing cooling pipeline and cooling flow, guarantees the cooling effect, through setting up heat energy conversion system in cooling equipment outside, absorbs the transmission and utilizes the heat that needs cooling equipment, converts the heat energy into the electric energy, saves the resource.

Description

Water cooling circulation system

Technical Field

The invention mainly relates to the technical field of water cooling circulation, in particular to a water cooling circulation system.

Background

The water cooling cycle is a system for cooling and circulating a liquid by using water for radiating the surfaces of the devices which generate heat, thereby preventing them from becoming overheated and protecting the associated devices from damage. The advantage of the water cooling cycle is that it is able to efficiently absorb and transfer heat, thereby protecting the equipment and machinery from overheating. It can also reduce the operating temperature of the equipment, prolong the service life of the equipment and reduce the maintenance time and cost of the equipment.

In the prior art, the cooling effect is single through a single cooling water pipe, along with the conduction of cooling heat, the temperature inside the cooling water pipe, which is close to the end part of the water outlet, gradually rises, the two-stage differentiation phenomenon occurs between the cooling water inlet and the cooling water outlet, so that the cooling effect of the equipment, which is closer to the cooling water outlet, is poor, and the operation of the equipment is affected.

Disclosure of Invention

Based on this, the present invention aims to provide a water cooling circulation system to solve the technical problems set forth in the above background art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the water cooling circulation system comprises a water cooling system for water cooling and cooling equipment, a heat energy conversion system and a flow control system, wherein the water cooling system comprises a water pump, a water reservoir and a first cooling water pipe for cooling the water reservoir, a water inlet of the water pump is connected with a water outlet of the water reservoir through a pipeline, a pump body water cooling circulation pipe for cooling a pump body of the water pump is connected to the water pump, the water inlet of the pump body water cooling circulation pipe is connected with a water outlet of the water pump in a penetrating way, the pump body water cooling circulation pipe penetrates through a cavity of a pump shell of the water pump and is connected with the water inlet of the water pump in a penetrating way, a water outlet of the water pump is connected with a cooling branch pipe through a water inlet of the water pump, the flow control system is positioned on the cooling branch pipe, and the first cooling water pipe is connected with the flow control system through a triggering mechanism near the top of the water outlet.

This technical scheme is specific, trigger mechanism is including triggering drive assembly, fixing base and trigger lever, the fixed cover of fixing base is located first condenser tube is close to the delivery port top, the fixing base in the bottom with be provided with the heat conduction copper between the first condenser tube top, the trigger lever bottom runs through the fixing base top and extends to its inside, it is equipped with the fixed plate to run through the cover on the trigger lever, is located the fixing base top with the cover is equipped with reset spring on the trigger lever outer circumference wall between the fixed plate, reset spring bottom with the fixing base top is fixed mutually, reset spring top inner wall with the trigger lever outer wall is fixed mutually.

The technical scheme is that the triggering driving assembly comprises an air bag, wherein the air bag is located inside a fixing seat on the heat conducting copper plate, the air bag is located right below the bottom of the triggering rod, and the top of the air bag is movably connected with the bottom of the triggering rod.

The technical scheme is that the flow control system comprises a ball valve, wherein an automatic closing ball valve spring is arranged on a handle at the top of the ball valve, and the automatic closing ball valve spring is a torsion spring.

The technical scheme is specific, be equipped with the trigger plate on the outer wall of trigger lever top one side, the trigger plate is triangle-shaped structure setting, trigger plate top outer wall and ball valve top handle open one side outer wall looks butt.

The heat energy conversion system comprises a heat source aluminum plate, a cold block, a copper wire, a constantan wire, a conductive block and a connecting aluminum plate, wherein the conductive block is connected to the copper wire, one end of the copper wire is connected with one end of the heat source aluminum plate, the other end of the copper wire is connected with one end of the connecting aluminum plate, one end of the constantan wire is far away from the heat source aluminum plate and is connected with one end of the copper wire, and the other end of the constantan wire is far away from the connecting aluminum plate and is connected with one end of the copper wire.

The technical scheme is that the outer wall of one side of the heat source aluminum plate is connected with the outer wall of equipment needing cooling.

According to the technical scheme, the outer wall of one side of the connecting aluminum plate is connected with the outer wall of one side of the cooling block, and the outer wall of the other side of the cooling block is connected with the outer wall of the first cooling water pipe, which is close to the water inlet.

According to the technical scheme, the conductive block is electrically connected with the water pump through a wire.

In summary, the invention has the following advantages:

1. aiming at the problems in the background technology, the water cooling circulation system in the application cools equipment needing cooling through water cooling, and the cooling branch pipes are arranged on the single cooling pipe, so that when the temperature of the first cooling water pipe, which is close to the end part of the water outlet, is gradually increased along with the conduction of cooling heat, and the cooling efficiency is low, the first cooling water pipe is triggered to work when the temperature of the first cooling water pipe is increased to a preset temperature, the ball valve on the cooling branch pipe is opened, and the cooling is performed by increasing the cooling pipeline and the cooling flow, so that the cooling effect is ensured;

2. through set up heat energy conversion system in cooling equipment outside, heat to need cooling equipment carries out conduction, heat source aluminum plate absorbs and transmits the heat on the equipment that needs cooling, copper line is transmitted the heat source on the heat source aluminum plate, connect aluminum plate and be located first condenser tube and be close to on the outer wall of water inlet department, the cold piece is located and connects aluminum plate outer wall, the copper line carries out temperature transmission to the cold piece, thereby make the pencil produce the difference in temperature, produce electric power on the copper line through thermoelectric principle, the conducting block is electrified, thereby supply power to the water pump, absorb the heat that produces equipment and utilize, convert heat energy into electric energy, save the resource.

Drawings

FIG. 1 is a water cooling axonometric view of the invention;

FIG. 2 is a cross-sectional view of a water-cooled circulation tube of the pump body inside the water pump of the present invention;

FIG. 3 is a schematic diagram illustrating a connection between a heat energy conversion system and a first cooling water pipe according to the present invention;

FIG. 4 is a front view of the trigger mechanism of the present invention;

FIG. 5 is an isometric view of a ball valve of the present invention;

FIG. 6 is an enlarged view of area A of FIG. 5 in accordance with the present invention;

FIG. 7 is a side view of the trigger lever and trigger plate of the present invention;

fig. 8 is a cycle connection diagram of the thermal energy conversion system of the present invention.

Description of the drawings: 1. a water pump; 111. a pump body water-cooling circulation pipe; 101. a water outlet pipe; 2. a first cooling water pipe; 3. cooling the branched pipes; 5. a fixing seat; 50. a fixing plate; 501. a return spring; 51. a trigger lever; 511. a trigger plate; 52. a thermally conductive copper plate; 53. an air bag; 4. a ball valve; 41. automatically closing the ball valve spring; 6. a heat source aluminum plate; 7. a cold block; 8. copper wire; 9. a constantan wire; 10. a conductive block; 11. and (5) connecting an aluminum plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.

Hereinafter, an embodiment of the present invention will be described in accordance with its entire structure.

Examples

Referring to fig. 1-8, the water cooling circulation system comprises a water cooling system for water cooling and cooling equipment, a heat energy conversion system and a flow control system, wherein the water cooling system comprises a water pump 1, a reservoir and a first cooling water pipe 2 for cooling the equipment, a water inlet of the water pump 1 is connected with a water outlet of the reservoir through a pipeline, a pump body water cooling circulation pipe 111 for cooling a pump body of the water pump 1 is connected to the water pump 1, a water inlet of the pump body water cooling circulation pipe 111 is connected with a water outlet of the water pump 1 in a penetrating way, the pump body water cooling circulation pipe 111 penetrates through a cavity of a shell of the water pump 1 to be connected with the water inlet of the water pump 1 in a penetrating way, a water outlet of the water pump 1 is connected with a water inlet of the first cooling water pipe 2 through a water inlet of the first cooling water pipe 2, the flow control system is positioned on the cooling branch pipe 3, and the first cooling water pipe 2 is connected with the flow control system through a triggering mechanism near the top of the water outlet.

It should be noted that, the top of the pump body of the water pump 1 is provided with the exhaust valve, the top of the other side is provided with the water injection valve, the pump body water-cooling circulation pipe 111 is arranged at the water outlet and the water inlet of the pump body of the water pump 1, the pump body of the water pump 1 is cooled by the pump body water-cooling circulation pipe 111, the cooling effect of the pump body of the water pump 1 is good, the pressure of the water outlet of the impeller rotary water pump 1 is greater than the pressure of the water inlet, the water of the water outlet of the water pump 1 enters the pump body water-cooling circulation pipe 111 through the pressure, the pump body water-cooling circulation pipe 111 carries out the circulating cooling of the water pump 1 through the pump body shell of the water pump 1, and then the water inlet of the water pump 1 is discharged without an additional driving source, and the cooling circulation cooling effect is good;

the water cooling system, the heat energy conversion system and the flow control system are arranged to cool the equipment, so that the stable operation of the equipment is ensured;

further, by arranging the cooling branch pipes on the single cooling pipe, when the temperature of the inner part of the cooling water pipe, which is close to the end part of the water outlet, is gradually increased along with the conduction of cooling heat, and the cooling efficiency is lowered, the triggering mechanism is triggered to work when the temperature of the first cooling water pipe 2 is increased to a preset temperature, the ball valve 4 on the cooling branch pipe 3 is opened, and the cooling is performed by increasing the cooling pipeline and the cooling flow, so that the cooling effect is ensured;

further, as the temperature of the first cooling water pipe 2 is gradually increased, the opening of the valve of the ball valve 4 is gradually increased, and the flow of cooling water in the cooling branch pipe 3 is gradually increased, so that the cooling effect is ensured;

further, through setting up heat energy conversion system in cooling equipment outside, heat to need cooling equipment carries out conduction, heat source aluminum plate 6 absorbs and transmits the heat on the equipment that needs cooling, copper line 8 carries out the transmission with the heat source on the heat source aluminum plate 6, connect aluminum plate 11 to be located on the outer wall that first condenser tube 2 is close to water inlet department, cold piece 7 is located on connecting aluminum plate 11 outer wall, copper line 8 carries out temperature transmission to cold piece 7, thereby make the pencil produce the difference in temperature, produce electric power on making copper line 8 through the thermoelectric principle, conducting block 10 is electrified, thereby carry out the power supply to water pump 1, absorb the heat that utilizes equipment produced, convert heat energy into electric energy, save the resource.

Referring to fig. 1, 4, 5, 6 and 7, the trigger mechanism comprises a trigger driving assembly, a fixed seat 5 and a trigger rod 51, wherein the fixed seat 5 is fixedly sleeved on the top of the first cooling water pipe 2 close to the water outlet, a heat conducting copper plate 52 is arranged between the bottom in the fixed seat 5 and the top of the first cooling water pipe 2, the bottom of the trigger rod 51 penetrates through the top of the fixed seat 5 and extends into the inside of the fixed seat, a fixed plate 50 is sleeved on the trigger rod 51 in a penetrating manner, a reset spring 501 is sleeved on the outer circumferential wall of the trigger rod 51 between the top of the fixed seat 5 and the fixed plate 50, the bottom of the reset spring 501 is fixed with the top of the fixed seat 5, and the inner wall of the top of the reset spring 501 is fixed with the outer wall of the trigger rod 51; the triggering driving component comprises an air bag 53, the air bag 53 is positioned in the fixed seat 5 on the heat conducting copper plate 52, the air bag 53 is positioned right below the bottom of the triggering rod 51, and the top of the air bag 53 is movably connected with the bottom of the triggering rod 51; the flow control system comprises a ball valve 4, an automatic closing ball valve spring 41 is arranged on a handle at the top of the ball valve 4, and the automatic closing ball valve spring 41 is a torsion spring; the trigger plate 511 is arranged on the outer wall of one side of the top of the trigger rod 51, the trigger plate 511 is arranged in a triangular structure, and the outer wall of the top of the trigger plate 511 is abutted with the outer wall of one side of the top handle of the ball valve 4.

In this embodiment, by arranging the trigger mechanism on the first cooling water pipe 2 near the top of the water outlet, the air bag 53 gradually increases as the temperature of the first cooling water pipe 2 increases, when the air bag 53 increases to a predetermined temperature, the trigger mechanism is triggered to operate, the air bag 53 pushes the trigger rod 51 to move upwards, the trigger plate 511 moves upwards along with the trigger rod 51, the outer wall of the trigger plate 511 moves upwards to squeeze the handle at the top of the ball valve 4, the ball valve 4 is opened according to the change of the temperature, the valve opening of the ball valve 4 gradually increases as the temperature of the first cooling water pipe 2 gradually increases, and the flow rate of cooling water in the cooling branch pipe 3 gradually increases, so as to ensure the cooling effect;

further, when the temperature of the first cooling water pipe 2 is reduced, the air bag 53 is gradually reduced, the trigger rod 51 is driven to move downwards to reset through the reset spring 501, the trigger plate 511 is gradually separated from the top handle of the ball valve 4, the ball valve 4 is closed and reset by automatically closing the ball valve spring 41, the cooling effect is guaranteed by controlling the flow in the cooling branch pipe 3 and the cooling branch pipe 3, and the cooling efficiency is high.

Referring to fig. 3 and 8, the heat energy conversion system comprises a heat source aluminum plate 6, a cold block 7, a copper wire 8, a constantan wire 9, a conductive block 10 and a connecting aluminum plate 11, wherein the conductive block 10 is connected and positioned on the copper wire 8, one end of the copper wire 8 is connected with one end of the heat source aluminum plate 6, the other end of the copper wire 8 is connected with one end of the connecting aluminum plate 11, one end of the constantan wire 9 is connected with one end of the heat source aluminum plate 6 far away from the copper wire 8, and the other end of the constantan wire 9 is connected with one end of the connecting aluminum plate 11 far away from the copper wire 8, and the outer wall of one side of the heat source aluminum plate 6 is connected with the outer wall of equipment needing cooling; the outer wall of one side of the connecting aluminum plate 11 is connected with the outer wall of one side of the cooling block 7, and the outer wall of the other side of the cooling block 7 is connected with the outer wall of the first cooling water pipe 2 close to the water inlet; the conductive block 10 is electrically connected with the water pump 1 through a wire.

In this embodiment, the heat energy conversion system is arranged outside the cooling device to conduct the heat of the cooling device, the heat source aluminum plate 6 absorbs and transmits the heat of the cooling device, the copper wire 8 transmits the heat source of the heat source aluminum plate 6, the connecting aluminum plate 11 is positioned on the outer wall of the first cooling water pipe 2 close to the water inlet, the cooling block 7 is positioned on the outer wall of the connecting aluminum plate 11, the copper wire 8 carries out temperature transmission on the cooling block 7, so that the wire harness generates a temperature difference, the copper wire 8 generates electric power through the thermoelectric principle, the conductive block 10 is electrified, the water pump 1 is powered, the heat generated by the device is absorbed and utilized, the heat energy is converted into electric energy, and resources are saved;

further, the higher the heat generated by the operation of the operation equipment is, the larger the temperature difference is, the stronger the power output to the water pump 1 is, the higher the temperature on the radiator is, the heat source aluminum plate 6 on the operation equipment is high, the temperature of the cold block 7 outside the first cooling water pipe 2 is low, thus generating thermoelectric power, which is a differential power phenomenon, the reversible conversion phenomenon between the heat energy and the electric energy which occurs in the conductors, the two different conductors are connected into a closed loop, if the temperature difference exists at the two joints, the so-called thermoelectric force is generated in the loop, and the loop formed by the above is called a thermoelectric couple or thermocouple; conversely, when current flows through the closed circuit, heat will be released or absorbed at the junction, respectively, a phenomenon known as the peltier effect;

further, the copper wire 8 generates electric power through the thermoelectric principle, the conductive block 10 is electrified, so that the water pump 1 is powered, heat generated by equipment is absorbed and utilized, the heat energy is converted into electric energy, and resources are saved.

The working principle of the invention is as follows:

when the water pump 1 is started, the pressure of the water outlet of the impeller rotary water pump 1 is larger than the pressure of the water inlet, water at the water outlet of the water pump 1 enters the pump body water-cooling circulation pipe 111 through the pressure, the pump body water-cooling circulation pipe 111 carries out circulating cooling on the water pump 1 through the pump body shell of the water pump 1, then the water inlet of the water pump 1 is used for discharging, the pump body water-cooling circulation pipe 111 is arranged at the water outlet and the water inlet of the water pump 1, the pump body of the water pump 1 is cooled through the pump body water-cooling circulation pipe 111, an additional driving source is not needed, and the cooling effect of the cooling circulation is good;

the device is cooled by the first cooling water pipe 2, when the first cooling water pipe 2 is conducted by cooling heat, the temperature of the inner part of the cooling water pipe, which is close to the end part of the water outlet, is gradually increased, and the cooling efficiency is reduced, by arranging a trigger mechanism at the top part of the first cooling water pipe 2, which is close to the water outlet, and gradually enlarging an air bag 53 along with the temperature increase of the first cooling water pipe 2, when the air bag 53 is enlarged to a preset temperature, the trigger mechanism is triggered to work, the air bag 53 pushes the trigger rod 51 to move upwards, the trigger plate 511 moves upwards along with the trigger rod 51, the outer wall of the trigger plate 511 moves upwards to squeeze the top handle of the ball valve 4, the ball valve 4 is opened according to the change of the temperature, the valve opening of the ball valve 4 is gradually enlarged along with the gradual increase of the temperature of the first cooling water pipe 2, the flow of cooling water inside the cooling branch pipe 3 is gradually enlarged, the cooling effect is ensured, when the temperature of the first cooling water pipe 2 is reduced, the air bag 53 is gradually reduced, the trigger rod 51 is driven to move downwards to reset through the reset spring 501, at this time, the trigger plate 511 is gradually separated from the handle at the top of the ball valve 4, the ball valve 4 is closed and reset by automatically closing the ball valve spring 41, the cooling effect is guaranteed by controlling the cooling branch pipe 3 and the flow in the cooling branch pipe 3, the cooling efficiency is high, the heat energy of the cooling equipment is conducted through arranging a heat energy conversion system outside the cooling equipment, the heat source aluminum plate 6 absorbs and transmits the heat energy of the cooling equipment, the copper wire 8 transmits the heat source of the heat source aluminum plate 6, the connecting aluminum plate 11 is positioned on the outer wall of the first cooling water pipe 2 close to the water inlet, the cold block 7 is positioned on the outer wall of the connecting aluminum plate 11, the copper wire 8 transmits the temperature of the cold block 7, so that the wire harness generates a temperature difference, the copper wire 8 generates electricity through a thermoelectric principle, the conductive block 10 is electrified, so that the water pump 1 is powered, heat generated by equipment is absorbed and utilized, heat energy is converted into electric energy, and resources are saved.

Although embodiments of the invention have been shown and described, the detailed description is to be construed as exemplary only and is not limiting of the invention as the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples, and modifications, substitutions, variations, etc. may be made in the embodiments as desired by those skilled in the art without departing from the principles and spirit of the invention, provided that such modifications are within the scope of the appended claims.

Claims

1. The water cooling circulation system comprises a water cooling system for carrying out water cooling on equipment, a heat energy conversion system and a flow control system, and is characterized in that the water cooling system comprises a water pump (1), a water reservoir and a first cooling water pipe (2) for cooling the equipment, wherein the water inlet of the water pump (1) is connected with the water outlet of the water reservoir through a pipeline, the water pump (1) is connected with a pump body water cooling circulation pipe (111) for cooling a pump body of the water pump (1), the water inlet of the pump body water cooling circulation pipe (111) is communicated with the water outlet of the water pump (1), the pump body water cooling circulation pipe (111) penetrates through a shell cavity of the water pump (1) and is communicated with the water inlet of the water pump (1), the water outlet of the water pump (1) is communicated with the water inlet of the first cooling water pipe (2) through a water outlet pipe (101), the first cooling water pipe (2) is communicated with a cooling branch pipe (3) near the top of an inlet, and the flow control system is located on the cooling branch pipe (3), and the first cooling water pipe (2) is communicated with the flow control system near the top of the water outlet.

2. The water cooling circulation system according to claim 1, wherein the triggering mechanism comprises a triggering driving assembly, a fixing seat (5) and a triggering rod (51), the fixing seat (5) is fixedly sleeved on the top of the water outlet of the first cooling water pipe (2), a heat conducting copper plate (52) is arranged between the bottom of the fixing seat (5) and the top of the first cooling water pipe (2), the bottom of the triggering rod (51) penetrates through the top of the fixing seat (5) and extends into the fixing seat, a fixing plate (50) is sleeved on the triggering rod (51), a reset spring (501) is sleeved on the outer circumferential wall of the triggering rod (51) between the top of the fixing seat (5) and the fixing plate (50), the bottom of the reset spring (501) is fixed on the top of the fixing seat (5), and the inner wall of the top of the reset spring (501) is fixed on the outer wall of the triggering rod (51).

3. The water cooling circulation system according to claim 2, wherein the triggering driving assembly comprises an air bag (53), the air bag (53) is located inside a fixing seat (5) on the heat conducting copper plate (52), the air bag (53) is located right below the bottom of the triggering rod (51), and the top of the air bag (53) is movably connected with the bottom of the triggering rod (51).

4. The water cooling circulation system according to claim 1, wherein the flow control system comprises a ball valve (4), an automatic closing ball valve spring (41) is arranged on a top handle of the ball valve (4), and the automatic closing ball valve spring (41) is a torsion spring.

5. A water cooling circulation system according to claim 3, wherein a trigger plate (511) is arranged on the outer wall of one side of the top of the trigger rod (51), the trigger plate (511) is arranged in a triangular structure, and the outer wall of the top of the trigger plate (511) is abutted against the outer wall of one side of the top handle opening of the ball valve (4).

6. The water cooling circulation system according to claim 1, wherein the heat energy conversion system comprises a heat source aluminum plate (6), a cold block (7), a copper wire (8), a constantan wire (9), a conductive block (10) and a connecting aluminum plate (11), wherein the conductive block (10) is connected and positioned on the copper wire (8), one end of the copper wire (8) is connected with one end of the heat source aluminum plate (6), the other end of the copper wire (8) is connected with one end of the connecting aluminum plate (11), one end of the constantan wire (9) is connected with one end of the heat source aluminum plate (6) away from the copper wire (8), and the other end of the constantan wire (9) is connected with one end of the connecting aluminum plate (11) away from the copper wire (8).

7. The water cooling circulation system according to claim 6, wherein the heat source aluminum plate (6) is connected to the equipment outer wall requiring cooling.

8. The water cooling circulation system according to claim 6, wherein the outer wall of one side of the connecting aluminum plate (11) is connected with the outer wall of one side of the cold block (7), and the outer wall of the other side of the cold block (7) is connected with the outer wall of the first cooling water pipe (2) close to the water inlet.

9. The water cooling circulation system according to claim 6, wherein the conductive block (10) is electrically connected with the water pump (1) through a wire.