CN112433587B - Enhanced heat dissipation device for computer - Google Patents

Abstract

The invention relates to the technical field of computers and discloses a reinforced heat dissipation device for a computer. This an reinforce heat abstractor for computer, through setting up water circle device, realize first water ring canal, the second water ring canal, the third water ring canal, the circulation of developments circulation is realized to the water in first cooling tube and the second cooling tube intracavity, the first water ring canal of the water at the intracavity of quick-witted case of developments circulation, dispel the heat in second water ring canal and the third water ring canal, the intracavity of first cooling tube and second cooling tube is injected into through the drain pipe to the water after the heat dissipation, contact the cooling to the heat dissipation metalwork, thereby realize carrying out direct taking away with the heat on the heat dissipation metalwork, the radiating efficiency of computer body cooling has been improved, thereby realize the radiating purpose of reinforceing.

Description

Enhanced heat dissipation device for computer

Technical Field

The invention relates to the technical field of computers, in particular to an enhanced heat dissipation device for a computer.

Background

The computer is in the environment of long-time work, it airs exhaust to need dispel the heat, get rid of the heat of quick-witted incasement, the general design of computer water-cooling heat dissipation of prior art is comparatively simple, often there is following technical defect in the in-process of using, quick-witted incasement is arranged in to first circulating water device, the heat that leads to the long-time work of computer to produce heats the hydrologic cycle body easily, and the water flow circulation this moment has then reduced the radiating efficiency to quick-witted incasement metal radiating part, and second, the hydrologic cycle heat dissipation water pipe design is comparatively simple, only laminate with the metal radiating part, take away the heat on metalwork surface, can't play and jet-propelled and the superstrong efficient heat dissipation to the metal radiating part. Therefore, in order to solve the above problems, it is desirable to provide an enhanced heat dissipation device for a computer.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an enhanced heat dissipation device for a computer.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: a reinforced heat dissipation device for a computer comprises a case, a body is fixedly installed in the cavity of the case, a heat dissipation metal part is fixedly installed at the top of the body, a water circulation device is arranged on the left side wall surface of the case and comprises a first water ring pipe and a water pump, the first water ring pipe is a hollow ring body, the first water ring pipe is fixedly installed on the left side wall surface of the case, a second water ring pipe is fixedly installed in the ring cavity of the first water ring pipe, a third water ring pipe is fixedly installed in the ring cavity of the second water ring pipe, the first water ring pipe, the second water ring pipe and the third water ring pipe are all located at the same circle center, the water pump is fixedly installed on the wall surface in the cavity of the first water ring pipe, a communicating water pipe A is fixedly installed between the first water ring pipe and the second water ring pipe, the output end of the water pump is fixedly connected to the top of the communicating water pipe A, a communicating water pipe B is fixedly installed between the second water ring pipe and the third water ring pipe, and the communicating water pipe B communicates the second water ring pipe with the third water ring pipe, a drain pipe is fixedly arranged on the inner wall of the top in the annular cavity of the third water ring pipe, the drain pipe penetrates through the left side wall surface of the case, the drain pipe extends into the case cavity, first cooling pipes are fixedly arranged on the outer walls of the front side and the rear side of the heat dissipation metal piece, second cooling pipes are fixedly arranged on the outer walls of the left side and the right side of the heat dissipation metal piece and the top wall surface of the heat dissipation metal piece, the output end of the drain pipe is fixedly connected with the second cooling pipe on the left side wall surface of the heat dissipation metal piece, return pipes are fixedly arranged between the left side second cooling pipe and the rear side first cooling pipe on the heat dissipation metal piece, the rear side first cooling pipe and the right side second cooling pipe on the rear side of the heat dissipation metal piece, and the output end of the first cooling pipe on the top of the heat dissipation metal piece is fixedly connected with a return pipe, and the output end of the water return pipe penetrates through the left side wall surface of the case, and the output end of the water return pipe extends into the cavity at the top of the air pump.

Preferably, inclined partition plates are fixedly mounted at the tops of the cavities of the second water ring pipe and the third water ring pipe, the bottom end of the communication water pipe A is located above the inclined outer wall of the partition plate in the cavity of the second water ring pipe, the top end of the communication water pipe B is located below the inclined outer wall of the partition plate in the cavity of the second water ring pipe, and the bottom end of the communication water pipe B is located above the inclined outer wall of the partition plate in the cavity of the third water ring pipe.

Preferably, the second cooling pipe is in a spiral state, and the first cooling pipe is composed of an upper spiral disc-shaped pipe body and a lower spiral disc-shaped pipe body.

Preferably, be provided with the gas injection mechanism in the annular chamber of third water ring pipe, gas injection mechanism includes the air pump, air pump fixed mounting is on the left side wall of quick-witted case, and the air pump is located the annular chamber of third water ring pipe, fixed mounting has circular shape filter screen on the annular intracavity inner wall of third water ring pipe, what the air pump is output end fixedly connected with air duct, the air duct is crooked state, and the left side wall that the air duct runs through quick-witted case stretches into the intracavity at quick-witted case, the output fixed connection of air duct is on the bottom outer wall of space bar, the output top outer wall fixed mounting of air duct has one-way pneumatic valve.

Preferably, all be provided with evenly distributed's air injection mechanism on first cooling pipe and the second cooling pipe outer wall, air injection mechanism includes the air valve, and air valve fixed mounting is at the spiral outer wall top of first cooling pipe and second cooling pipe.

Preferably, the outer wall of the air valve is fixedly provided with an air outlet cover, the air outlet cover is a hollow cover body with the outer wall at the bottom in an annular arc shape, the output end of the air valve is a cavity of the air outlet cover,

preferably, the annular outer wall at the bottom of the air outlet cover is provided with evenly distributed air injection holes which face to the outer side wall surface of the heat dissipation metal piece,

preferably, an activated carbon net is arranged in the air outlet cover cavity, the activated carbon net is annular, and the activated carbon net is fixedly installed between the outer wall of the output end of the air valve and the inner wall of the air outlet cover.

(III) advantageous effects

Compared with the prior art, the invention provides an enhanced heat dissipation device for a computer, which has the following beneficial effects:

1. this an enhanced heat abstractor for computer, through setting up water circle device, realize first water ring canal, the second water ring canal, the third water ring canal, the circulation of developments circulation is realized to the water in first cooling tube and the second cooling tube intracavity, the first water ring canal of the water at the intracavity of quick-witted case of developments circulation, dispel the heat in second water ring canal and the third water ring canal, the intracavity of first cooling tube and second cooling tube is injected into through the drain pipe to the water after the heat dissipation, contact the cooling to the heat dissipation metalwork, thereby realize carrying out direct taking away with the heat on the heat dissipation metalwork, under the state that the water pump is closed, the water in first cooling tube and the second cooling tube intracavity also can carry out contact's cooling heat dissipation to the heat dissipation metalwork, computer body cooling radiating efficiency has been improved, thereby realize the purpose of enhanced heat dissipation.

2. The enhanced heat dissipation device for the computer is characterized in that a partition plate is arranged, the partition plate in the second water ring pipe cavity separates water in the second water ring pipe cavity, so that the water entering the second water ring pipe cavity through a communicating water pipe A performs circular motion for a circle in the second water ring pipe, the partition plate in the third water ring pipe cavity separates the water in the third water ring pipe cavity again, the water in the third water ring pipe cavity performs circular motion for a circle in the third water ring pipe cavity, the circulation time and the circulation path of the water in the case cavity are increased, the cooling and heat dissipation efficiency of the water in the case cavity are increased, meanwhile, the water performs circular motion in the second water ring pipe and the third water ring pipe cavity, the contact area between the circulating water and air is increased, the heat dissipation of the cooling and contact water of the heat dissipation metal piece is further improved, and the heat dissipation of the heat dissipation metal piece by the water re-circulation is facilitated, thereby improving the efficiency of cooling the case.

3. This a reinforce heat abstractor for computer, through setting up first cooling tube and second cooling tube, first cooling tube and second cooling tube all are the spiral disc, the water is when first cooling tube and second cooling tube intracavity flow, the first cooling tube of disciform and second cooling tube have increased the route that dynamic water flows, thereby increased the water and driven the thermal efficiency in heat dissipation metalwork surface, and help the direct heat dissipation of heat dissipation metalwork outer wall between first cooling tube and the second cooling tube spiral disc pipe wall, reduce the rate of covering to the heat dissipation metalwork wall, thereby better plays supplementary radiating effect to the heat dissipation metalwork.

4. The enhanced heat dissipation device for the computer is characterized in that the gas injection mechanism and the gas injection mechanism are arranged, air is injected into the cavity of the drain pipe through the gas guide pipe by the working of the gas pump, the one-way gas valve plays a role of preventing water in the cavity of the drain pipe from entering the gas guide pipe, the pressure in the water is increased by injecting outside air into the water in the cavity of the drain pipe, a large amount of bubbles are generated by the flowing water at the same time, the flow rate of the water in the cavity of the drain pipe is reduced, the flow rate of the water in the first cooling pipe and the second cooling pipe is reduced, the contact time between the water and the outer wall of the heat dissipation metal piece is increased by reducing the flow rate of the water in the first cooling pipe and the second cooling pipe, more heat on the surface of the heat dissipation metal piece can be taken away by the water in the first cooling pipe and the second cooling pipe, and the bubbles in the water in the first cooling pipe and the second cooling pipe are discharged through the air valve, the injected cold air realizes the effect of cooling the water in the water discharge pipe, the first cooling pipe and the second cooling pipe cavity, and further improves the cooling efficiency of the water in the first cooling pipe and the second cooling pipe cavity to the heat dissipation metal piece, thereby improving the efficiency of cooling and heat dissipation of the computer.

5. This an intensive heat abstractor for computer, after the air valve discharges through the bubble in first cooling tube and the air outlet cover intracavity water, the combustion gas spouts once more to the outer wall of heat dissipation metalwork through the fumarole on the air outlet cover, realizes that the combustion gas is direct to blow radiating purpose to the heat dissipation metalwork, has further improved and has cooled radiating efficiency to the heat dissipation metalwork to the radiating efficiency of computer cooling has been improved.

6. This an reinforce heat abstractor for computer, after air valve discharge is passed through to the bubble in first cooling tube and the air outlet cover intracavity water, exhaust partial gas blows to the outer wall of first cooling tube and second cooling tube, then realized the radiating purpose of blowing to the water of this time in first cooling tube and the second cooling tube intracavity, thereby make the water of first cooling tube and second cooling tube intracavity can be better carry out the contact cooling heat dissipation to heat dissipation metalwork outer wall, further improved the radiating efficiency of computer cooling.

7. This a strengthen heat abstractor for computer through setting up the activated carbon net, filters through the air valve combustion gas through the activated carbon net, adsorbs the filtration with the steam in the gas to reduce the corrosivity influence of steam to heat dissipation metalwork outer wall metal, thereby improved the protection of heat dissipation metalwork, then be favorable to the heat dissipation metalwork to the radiating purpose of cooling down of computer.

Drawings

FIG. 1 is a side cross-sectional view of the present invention;

FIG. 2 is an enlarged view taken at A of FIG. 1 in accordance with the present invention;

FIG. 3 is an enlarged view of the invention at B of FIG. 1;

FIG. 4 is a front cross-sectional view of the present invention;

FIG. 5 is an enlarged view of the invention at C of FIG. 4;

FIG. 6 is a schematic view of a second structure of the temperature reducing tube according to the present invention;

fig. 7 is a cross-sectional view of the air injection mechanism of the present invention.

In the figure: 1. a chassis; 11. a body; 12. a heat-dissipating metal member; 2. a water circulation device; 21. a first water ring pipe; 22. a second water ring pipe; 23. a third water ring pipe; 24. a water pump; 25. a water pipe A is communicated; 26. a partition plate; 27. a water pipe B is communicated; 29. a drain pipe; 3. a gas injection mechanism; 31. an air pump; 32. filtering with a screen; 33. an air duct; 34. a one-way air valve; 4. a first cooling pipe; 41. a second cooling pipe; 43. a return pipe; 5. an air injection mechanism; 51. an air outlet cover; 52. an air valve; 53. an activated carbon mesh; 54. a gas injection hole; 6. a water return pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: an enhanced heat dissipation device for a computer comprises a case 1, a body 11 is fixedly installed in a cavity of the case 1, a heat dissipation metal part 12 is fixedly installed at the top of the body 11, the body 11 and the heat dissipation metal part 12 are both in the prior art, and are not described herein any more, a water circulation device 2 is arranged on a left side wall surface of the case 1, the water circulation device 2 comprises a first water ring pipe 21 and a water pump 24, the first water ring pipe 21 is a hollow ring-shaped body, the first water ring pipe 21 is fixedly installed on the left side wall surface of the case 1, a second water ring pipe 22 is fixedly installed in a ring-shaped cavity of the first water ring pipe 21, a third water ring pipe 23 is fixedly installed in a ring-shaped cavity of the second water ring pipe 22, the first water ring pipe 21, the second water ring pipe 22 and the third water ring pipe 23 are all located at the same circle center, the water pump 24 is fixedly installed on a wall surface in the cavity of the first water ring pipe 21, a communication water pipe A25 is fixedly installed between the first water ring pipe 21 and the second water ring pipe 22, the output end of the water pump 24 is fixedly connected to the top of a communicating water pipe A25, a communicating water pipe B27 is fixedly installed between the second water ring pipe 22 and the third water ring pipe 23, the communicating water pipe B27 communicates the second water ring pipe 22 with the third water ring pipe 23, inclined partition plates 26 are fixedly installed at the top parts in the cavities of the second water ring pipe 22 and the third water ring pipe 23, the bottom end of the communicating water pipe A25 is located above the inclined outer wall of the partition plate 26 in the cavity of the second water ring pipe 22, the top end of the communicating water pipe B27 is located below the inclined outer wall of the partition plate 26 in the cavity of the second water ring pipe 22, the bottom end of the communicating water pipe B27 is located above the inclined outer wall of the partition plate 26 in the cavity of the third water ring pipe 23, a drain pipe 29 is fixedly installed on the inner wall of the top part of the cavity of the third water ring pipe 23, the drain pipe 29 penetrates through the left side wall surface of the case 1, the drain pipe 29 extends into the cavity of the case 1, first cooling pipe 4 is fixedly installed on the outer walls of the front and back sides of the cooling metal part 12, the outer walls of the left side and the right side of the heat dissipation metal part 12 and the wall surface of the top of the heat dissipation metal part 12 are both fixedly provided with a second cooling pipe 41, the output end of the drain pipe 29 is fixedly connected to the second cooling pipe 41 of the left side wall surface of the heat dissipation metal part 12, the left side second cooling pipe 41 and the rear side first cooling pipe 4 on the heat dissipation metal part 12, the rear side first cooling pipe 4 and the right side second cooling pipe 41, the right side second cooling pipe 41 and the front side first cooling pipe 4 as well as the front side first cooling pipe 4 and the second cooling pipe 41 of the top of the heat dissipation metal part 12 are both fixedly provided with a return pipe 43, the output end of the first cooling pipe 4 of the top of the heat dissipation metal part 12 is fixedly connected with a return pipe 6, the output end of the return pipe 6 penetrates through the left side wall surface of the case 1, the output end of the return pipe 6 extends into the cavity of the top of the air pump 31, the second cooling pipe 41 is in a spiral state, the first cooling tube 4 is composed of an upper spiral disk-shaped tube body and a lower spiral disk-shaped tube body, the specific shapes and positions of the first cooling tube 4 and the second cooling tube 41 are as shown in fig. 3 and fig. 6, the gas injection mechanism 3 is arranged in the annular cavity of the third water ring tube 23, the gas injection mechanism 3 comprises a gas pump 31, the gas pump 31 is fixedly arranged on the left side wall surface of the case 1, the gas pump 31 is positioned in the annular cavity of the third water ring tube 23, a circular filter screen 32 is fixedly arranged on the inner wall of the annular cavity of the third water ring tube 23, the output end of the gas pump 31 is fixedly connected with a gas guide tube 33, the gas guide tube 33 is in a bent state, the gas guide tube 33 penetrates through the left side wall surface of the case 1 and extends into the cavity of the case 1, the output end of the gas guide tube 33 is fixedly connected to the bottom outer wall of the partition plate 26, a one-way gas valve 34 is fixedly arranged on the top outer wall of the output end of the gas guide tube 33, the one-way gas valve 34 is the prior art, and will not be described herein, all be provided with air injection mechanism 5 on first cooling tube 4 and the 41 outer wall of second cooling tube, air injection mechanism 5 includes air valve 52, air valve 52 fixed mounting is at the spiral outer wall top of first cooling tube 4 and the 41 outer wall of second cooling tube, air valve 52 is prior art, it is no longer repeated here, the outer wall fixed mounting of air valve 52 has air outlet cover 51, air outlet cover 51 is the hollow cover body of bottom outer wall for the annular arcuation, and the air valve 52 output is the intracavity of air outlet cover 51, set up evenly distributed's fumarole 54 on the annular outer wall of air outlet cover 51 bottom, and fumarole 54 is towards the outside wall of heat dissipation metalwork 12, be provided with activated carbon net 53 in the air outlet cover 51 intracavity, activated carbon net 53 is the annular, activated carbon net 53 fixed mounting is between air valve 52 output outer wall and air outlet cover 51 inner wall.

When the water circulation cooling device is used, the working switch of the water pump 24 is turned on, the water pump 24 works to inject water in the cavity of the first water ring pipe 21 into the cavity of the second water ring pipe 22 through the communicating water pipe A25, the partition plate 26 in the cavity of the second water ring pipe 22 partitions water in the cavity of the second water ring pipe 22, so that the water entering the cavity of the second water ring pipe 22 through the communicating water pipe A25 circularly moves in the second water ring pipe 22 for a circle, then the water is injected into the cavity of the third water ring pipe 23 through the communicating water pipe B27, the partition plate 26 in the cavity of the third water ring pipe 23 partitions the water in the cavity of the third water ring pipe 23 again, so that the water in the cavity of the third water ring pipe 23 circularly moves in the cavity of the third water ring pipe 23 for a circle, finally the water is injected into the cavities of the first cooling pipe 4 and the second cooling pipe 41 on the wall surface of the cooling metal piece 12 through the water discharge pipe 29, and finally flows back to the cavity of the first water ring pipe 21 again through the water return pipe 6, therefore, by arranging the water circulation device 2, the circulation of dynamic circulation of the water in the first water ring pipe 21, the second water ring pipe 22, the third water ring pipe 23, the first cooling pipe 4 and the second cooling pipe 41 is realized, the dynamically circulating water dissipates heat in the first water ring pipe 21, the second water ring pipe 22 and the third water ring pipe 23 in the cavity of the case 1, the dissipated water is injected into the cavities of the first cooling pipe 4 and the second cooling pipe 41 through the drain pipe 29 to cool the heat dissipation metal part 12 in a contact manner, so as to directly take away the heat on the heat dissipation metal part 12, when the water pump 24 is closed, the water in the cavities of the first cooling pipe 4 and the second cooling pipe 41 can also cool and dissipate the heat dissipation metal part 12 in a contact manner, thereby improving the efficiency of cooling and dissipating heat of the computer body, and realizing the purpose of enhancing heat dissipation, by arranging the spacing plate 26, the partition plate 26 in the cavity of the second water ring pipe 22 separates the water in the cavity of the second water ring pipe 22, so that the water entering the cavity of the second water ring pipe 22 through the communicating water pipe A25 moves circularly in the second water ring pipe 22 for a circle, the partition plate 26 in the cavity of the third water ring pipe 23 separates the water in the cavity of the third water ring pipe 23 again, so that the water in the cavity of the third water ring pipe 23 moves circularly in the cavity of the third water ring pipe 23, the cooling and heat dissipation efficiency of the water in the cavity of the case 1 is increased by increasing the circulating time and distance of the water in the cavity of the case 1, meanwhile, the water moves circularly in the cavities of the second water ring pipe 22 and the third water ring pipe 23, the contact area between the circulating water and the air is increased, the heat dissipation of the cooling metal piece 12, which contacts the water to generate heat, and is favorable for the heat dissipation of the cooling metal piece 12 through the circulation again, thereby improving the efficiency of cooling the cabinet 1.

The first cooling pipe 4 and the second cooling pipe 41 are both in spiral disc shapes, when a water body flows in the cavities of the first cooling pipe 4 and the second cooling pipe 41, the dynamic water body flowing path is increased by the disc-shaped first cooling pipe 4 and the disc-shaped second cooling pipe 41, so that the efficiency of driving the surface heat of the heat dissipation metal part 12 by the water body is increased, the direct heat dissipation of the outer wall of the heat dissipation metal part 12 is facilitated between the spiral disc-shaped pipe walls of the first cooling pipe 4 and the second cooling pipe 41, the covering rate of the wall surface of the heat dissipation metal part 12 is reduced, and the auxiliary heat dissipation effect on the heat dissipation metal part 12 is better achieved, by arranging the air injection mechanism 3 and the air injection mechanism 5, the air pump 31 works to inject air into the cavity of the drain pipe 29 through the air guide pipe 33, the one-way air valve 34 plays a role in preventing the water body in the cavity of the drain pipe 29 from entering the air guide pipe 33, and injects outside air into the water body in the cavity of the drain pipe 29, the pressure in the water is increased, a large amount of bubbles are generated by the flowing water body, the flow speed of the water body in the cavity of the water discharge pipe 29 is reduced, so that the flow speed of the water body in the cavities of the first cooling pipe 4 and the second cooling pipe 41 is reduced, the contact time between the water body and the outer wall of the heat dissipation metal part 12 is increased due to the reduction of the flow speed of the water body in the cavities of the first cooling pipe 4 and the second cooling pipe 41, more heat on the surface of the heat dissipation metal part 12 is taken away by the water body in the cavities of the first cooling pipe 4 and the second cooling pipe 41, meanwhile, the bubbles in the water body in the cavities of the first cooling pipe 4 and the second cooling pipe 41 are discharged through the air valve 52, the injected cold air realizes the effect of cooling the water body in the cavities of the water discharge pipe 29 and the first cooling pipe 4 and the second cooling pipe 41, the cooling efficiency of the water body in the cavities of the first cooling pipe 4 and the second cooling pipe 41 to the heat dissipation metal part 12 is further improved, and the cooling efficiency of the computer is improved, after the bubbles in the water in the cavities of the first cooling pipe 4 and the air outlet cover 51 are discharged through the air valve 52, the discharged air is sprayed to the outer wall of the heat dissipation metal part 12 again through the air spraying holes 54 on the air outlet cover 51, so that the purpose of directly blowing and dissipating the heat of the heat dissipation metal part 12 by the discharged air is realized, the efficiency of cooling and dissipating the heat of the heat dissipation metal part 12 is further improved, the efficiency of cooling and dissipating the heat of the computer is improved, after the bubbles in the water in the cavities of the first cooling pipe 4 and the air outlet cover 51 are discharged through the air valve 52, part of the discharged air is blown to the outer walls of the first cooling pipe 4 and the second cooling pipe 41, the purpose of blowing and dissipating the heat of the water in the cavities of the first cooling pipe 4 and the second cooling pipe 41 is realized, so that the water in the cavities of the first cooling pipe 4 and the second cooling pipe 41 can better cool and dissipate the outer wall of the heat dissipation metal part 12 in a contact manner, further improved the radiating efficiency of computer cooling, through setting up activated carbon net 53, filtered through air valve 52 combustion gas through activated carbon net 53, adsorb the steam in the gas and filter to reduce the corrosivity influence of steam to heat dissipation metalwork 12 outer wall metal, thereby improved the protection of heat dissipation metalwork 12, then be favorable to heat dissipation metalwork 12 to the radiating purpose of cooling down of computer.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides an intensive heat abstractor for computer, includes quick-witted case (1), quick-witted case (1) intracavity fixed mounting organism (11), organism (11) top fixed mounting have heat dissipation metalwork (12), its characterized in that: the water circulation device (2) is arranged on the left side wall surface of the case (1), the water circulation device (2) comprises a first water ring pipe (21) and a water pump (24), the first water ring pipe (21) is a hollow annular body, the first water ring pipe (21) is fixedly arranged on the left side wall surface of the case (1), a second water ring pipe (22) is fixedly arranged in an annular cavity of the first water ring pipe (21), a third water ring pipe (23) is fixedly arranged in an annular cavity of the second water ring pipe (22), the first water ring pipe (21), the second water ring pipe (22) and the third water ring pipe (23) are all positioned at the same circle center, the water pump (24) is fixedly arranged on the wall surface in the cavity of the first water ring pipe (21), a communicating water pipe A (25) is fixedly arranged between the first water ring pipe (21) and the second water ring pipe (22), and the output end of the water pump (24) is fixedly connected to the top of the communicating water pipe A (25), a communicating water pipe B (27) is fixedly installed between the second water ring pipe (22) and the third water ring pipe (23), the communicating water pipe B (27) is used for communicating the second water ring pipe (22) with the third water ring pipe (23), a drain pipe (29) is fixedly installed on the inner wall of the top in the annular cavity of the third water ring pipe (23), the drain pipe (29) penetrates through the left side wall surface of the case (1), and the drain pipe (29) extends into the cavity of the case (1);

first cooling pipes (4) are fixedly mounted on outer walls of the front side and the rear side of the heat dissipation metal part (12), second cooling pipes (41) are fixedly mounted on outer walls of the left side and the right side of the heat dissipation metal part (12) and a wall surface at the top of the heat dissipation metal part (12), an output end of a drain pipe (29) is fixedly connected to the second cooling pipes (41) on the left side of the heat dissipation metal part (12), the second cooling pipes (41) on the left side of the heat dissipation metal part (12) and the first cooling pipes (4) on the rear side, the first cooling pipes (4) on the rear side and the second cooling pipes (41) on the right side, return pipes (43) are fixedly mounted between the second cooling pipes (41) on the right side and the first cooling pipes (4) on the front side and the second cooling pipes (41) on the top of the heat dissipation metal part (12), and return pipes (6) are fixedly connected to an output end of the first cooling pipes (4) at the top of the heat dissipation metal part (12), and the output end of the water return pipe (6) penetrates through the left side wall surface of the case (1), and the output end of the water return pipe (6) extends into the cavity at the top of the air pump (31).

2. An enhanced heat dissipation device for computers as claimed in claim 1, wherein: the top of the cavity of the second water ring pipe (22) and the top of the cavity of the third water ring pipe (23) are fixedly provided with inclined partition plates (26), the bottom end of a communication water pipe A (25) is positioned above the inclined outer wall of the partition plates (26) in the cavity of the second water ring pipe (22), the top end of a communication water pipe B (27) is positioned below the inclined outer wall of the partition plates (26) in the cavity of the second water ring pipe (22), and the bottom end of the communication water pipe B (27) is positioned above the inclined outer wall of the partition plates (26) in the cavity of the third water ring pipe (23).

3. An enhanced heat dissipation device for computers as claimed in claim 1, wherein: the second cooling pipe (41) is in a spiral state, and the first cooling pipe (4) is composed of an upper spiral disc-shaped pipe body and a lower spiral disc-shaped pipe body.

4. An enhanced heat dissipation device for computers as claimed in claim 1, wherein: be provided with gas injection mechanism (3) in the annular chamber of third water ring pipe (23), gas injection mechanism (3) are including air pump (31), air pump (31) fixed mounting is on the left side wall of quick-witted case (1), and air pump (31) are located the annular chamber of third water ring pipe (23), fixed mounting has circular shape filter screen (32) on the annular intracavity inner wall of third water ring pipe (23), what air pump (31) was output end fixedly connected with air duct (33), air duct (33) are the state of bending, and air duct (33) run through the left side wall of quick-witted case (1) and stretch into the intracavity at quick-witted case (1), the output fixed connection of air duct (33) is on the bottom outer wall of space bar (26), the output top outer wall fixed mounting of air duct (33) has one-way air valve (34).

5. An enhanced heat dissipation device for computers as claimed in claim 1, wherein: the cooling device is characterized in that air injection mechanisms (5) which are uniformly distributed are arranged on the outer walls of the first cooling pipe (4) and the second cooling pipe (41), each air injection mechanism (5) comprises an air valve (52), and the air valves (52) are fixedly arranged at the tops of the spiral outer walls of the first cooling pipe (4) and the second cooling pipe (41).

6. An enhanced heat dissipation device for computers as claimed in claim 5, wherein: an air outlet cover (51) is fixedly mounted on the outer wall of the air valve (52), the air outlet cover (51) is a hollow cover body with the outer wall of the bottom in an annular arc shape, and the output end of the air valve (52) is a cavity of the air outlet cover (51).

7. An enhanced heat dissipation device for computers as claimed in claim 6, wherein: the annular outer wall at the bottom of the air outlet cover (51) is provided with evenly distributed air injection holes (54), and the air injection holes (54) face the outer side wall surface of the heat dissipation metal piece (12).

8. An enhanced heat dissipation device for computers as claimed in claim 6, wherein: the air outlet cover (51) is internally provided with an activated carbon net (53), the activated carbon net (53) is annular, and the activated carbon net (53) is fixedly arranged between the outer wall of the output end of the air valve (52) and the inner wall of the air outlet cover (51).

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