CN221781039U - A kind of air-cooled and water-cooled module auxiliary heat dissipation refrigerator - Google Patents

Abstract

The utility model relates to the technical field of refrigerators, and specifically to an air-cooled and water-cooled module auxiliary heat dissipation refrigerator. It includes a casing, a filter, and an auxiliary mechanism; a partition divides the casing into a refrigeration chamber and a placement chamber distributed up and down; the refrigeration chamber is arranged above the placement chamber; a compressor is installed in the placement chamber; a condenser is arranged on one side of the compressor; a fan is arranged on the side of the condenser away from the compressor; the auxiliary mechanism is arranged at the filter, including a sliding plate, a recoil assembly, and a power assembly. The sliding plate moves up and down to sweep away impurities grid by grid, and the corresponding parts of the auxiliary groove and the filter form a relatively independent space, and the impurities are collected by the collecting assembly, which not only avoids the scattering of impurities and polluting the use environment of the refrigerator, but also reduces the replacement frequency of the refrigerator filter and improves the use efficiency of the refrigerator.

Description

Auxiliary heat dissipation refrigerator of air-cooled water-cooled module

Technical Field

The utility model relates to the technical field of refrigerators, in particular to an auxiliary heat dissipation refrigerator of an air-cooled water cooling module.

Background

The refrigerator is a machine for transferring heat of a cooled object with lower temperature to an environment medium to obtain cold, the heat transferred from the object with lower temperature is conventionally called cold, working media which are used in the refrigerator and are changed in a thermodynamic process are called refrigerants, the temperature range of refrigeration is usually above 120K, the temperature range below 120K belongs to a deep low temperature technical range, and the refrigerator is widely applied to industrial and agricultural production and daily life. The refrigerating machine is characterized in that chilled water in a water storage tank continuously circulates through a plate-type or grid-divided evaporator by a water pump, then the compressor is operated and then is subjected to air suction, compression, air discharge, condensation (liquefaction) and throttling, and then the chilled water is evaporated in the evaporator by low-temperature evaporation heat absorption of 18 ℃ below zero to 10 ℃ below zero, and the chilled water is continuously condensed on the surface of the lower-temperature evaporator in the water temperature of 0 ℃. Air cooling is a common heat dissipation mode of a refrigerator. A fan is generally adopted to provide lower-temperature airflow for higher-temperature components such as a condenser pipe to take away heat of the condenser pipe.

In the prior art, as in the chinese patent with the publication number CN114877581B, the name of the chinese patent is an air-cooled refrigerating unit, the disclosure technical scheme records that a filter plate is installed at the air inlet of the casing to filter the air entering the refrigerating machine to dissipate the heat of components such as the condenser tube, so as to prevent the dust from adhering to the surface of the condenser tube and affecting the heat exchange efficiency of the condenser tube, but after the filter plate is used for a period of time, the outside adhering impurities are unfavorable for the air to pass through the filter plate, resulting in the reduction of the air quantity passing through the condenser tube, thereby affecting the refrigerating effect of the refrigerating machine.

Disclosure of utility model

The utility model provides an auxiliary heat dissipation refrigerator of an air-cooled water-cooled module so as to solve the problems.

The utility model adopts the following technical scheme: an auxiliary heat dissipation refrigerator of an air-cooled water-cooled module comprises a shell, a filter screen and an auxiliary mechanism; a partition board is arranged in the shell; the partition board divides the interior of the shell into a refrigerating cavity and a placement cavity which are distributed up and down; the refrigerating cavity is arranged above the placement cavity; a compressor is arranged in the placement cavity; one side of the compressor is provided with a condensing tube; a fan is arranged at one side of the condensing tube far away from the compressor; an air inlet is arranged at one side of the placement cavity close to the fan, an air outlet is arranged at one side far away from the fan; a water cooling component is arranged between the fan and the condensing pipe; the filter screen is detachably arranged at the air inlet;

The auxiliary mechanism is arranged at the filter screen and comprises a sliding plate, a recoil assembly and a power assembly; the sliding plate is arranged at one side of the filter screen far away from the compressor; the sliding plate is arranged on the outer wall of the shell in a vertical sliding way; the sliding plate being adjacent to the screen the side wall is provided with an auxiliary groove; the auxiliary groove is rotatably provided with a brush roller; the brush roller is abutted with the outer surface of the filter screen; the lower end of the auxiliary groove is provided with a collecting component; a rotating component is arranged between the sliding plate and the shell; the rotating assembly is used for driving the brush roller to rotate when the sliding plate moves up and down so as to sweep impurities on the filter screen into the collecting assembly for collection; the back flushing assembly is arranged on one side of the filter screen close to the compressor and is used for back flushing the filter screen part corresponding to the auxiliary groove when the sliding plate slides up and down to sweep impurities, and the auxiliary impurities fall to the collecting assembly; the power assembly is used for driving the sliding plate and the recoil assembly to synchronously move up and down.

Further, the rotating assembly comprises a rotating wheel and a rack; the rotating wheel is fixed at the end part of the brush roller; the rack is arranged at one side of the rotating wheel far away from the compressor; the rack is fixed on the casing and meshed with the rotating wheel. When the sliding plate drives the brush roller to move up and down, the rack drives the brush roller to rotate through the rotating wheel.

Further, the collection assembly includes a collection box; the collecting box is inserted on the sliding plate in a sliding way, and is in a U shape with an upward opening; the collection box is communicated with the auxiliary groove. The brush roller rotates to sweep impurities on the filter screen into the collecting box, and after the refrigerator is used for a period of time, the collecting box is pulled out, and the impurities in the collecting box are poured out.

Further, a hanging needle is fixed on the side wall of the collecting box, which is close to the brush roller. The hanging needle is used for hanging impurities such as flocks adhered on the brush roller away from the surface of the brush roller.

Further, the recoil assembly includes a recoil plate; the back-flushing plate is arranged on the inner wall of the shell in a vertical sliding manner; the back-flushing plate being adjacent to the screen the side wall is provided with a back-flushing groove; a piston plate is slidably arranged in the recoil groove; the piston plate being adjacent to the screen one end is provided with a one-way valve; check valve for allowing air to move away from the piston plate one side of the filter screen flows to one side of the piston plate close to the filter screen, preventing air from approaching the filter screen from the piston plate one side of the piston plate is far away from the filter screen; a spring is connected between the piston plate and the recoil plate;

A slide bar is fixed at one end of the back flushing plate, which is close to the compressor; one end of the slide bar close to the compressor is fixed with a connecting rod perpendicular to the slide bar; the connecting rod being adjacent to the filter screen a top bulge is fixed on the side wall; the top bulge is arc-shaped; a matching rod which is arranged up and down is arranged between the top bulge and the filter screen; the matching rod is fixed on the inner wall of the shell; the upper and lower intervals of the side wall of the matching rod, which is close to the top bulge, are uniformly provided with matching bulges; the matching convex is arc-shaped; initially, the crown and mating rod abut. When the recoil plate moves up and down, the top protrusion is matched with the matched protrusion in a pushing way to drive the piston plate to periodically reciprocate, so that air on one side of the piston plate, which is close to the filter screen, is pushed to the filter screen to form recoil air flow, and auxiliary impurities fall into the collecting box.

Further, the power assembly comprises an outer screw rod and an inner screw rod; the outer screw rod is arranged up and down; the outer screw rod rotates on the outer wall of the shell and is in threaded fit with the sliding plate; the inner screw rod is arranged up and down; the inner screw rod rotates on the inner wall of the shell and is in threaded fit with the recoil plate; the outer screw rod and the inner screw rod are driven by a belt pulley; the motor is connected to the inner screw rod; the motor is fixed on the inner wall of the shell. The motor drives the inner screw rod to rotate, and the inner screw rod drives the outer screw rod to rotate through the belt pulley, so that the back-flushing plate and the sliding plate synchronously move up and down.

Further, the water cooling assembly comprises a water cooling pipe; the water cooling pipe is arranged between the fan and the condensing pipe, and a spray head is arranged on the water cooling pipe; the end part of the water cooling pipe is provided with a water tank; the water tank is fixed on the inner wall of the shell; the water tank is close to the inner wall of the shell the side wall is provided with a water inlet; a water adding door is arranged at the position of the casing corresponding to the water adding port; a water pump is arranged in the water tank. The water pump pumps the water tank into the spray head to spray water mist, and the water mist drifts towards the condensing pipe along with wind, so that the condensing pipe is subjected to evaporation and heat dissipation.

Further, a refrigerating pipe is arranged in the refrigerating cavity; the refrigeration pipe is arranged above the partition plate; one end of the refrigerating pipe is communicated with the condensing pipe through an expansion valve, and the other end of the refrigerating pipe is communicated with the compressor.

The beneficial effects are that: when using the refrigerator, the fan starts so that air carries out forced air cooling to condenser pipe etc. after the filter screen gets into, simultaneously, water-cooling assembly carries out water-cooling heat dissipation, power component drives sliding plate and recoil subassembly and reciprocates in step, rotating assembly drives the brush roller rotation and sweeps impurity on the filter screen and fall to collecting the subassembly in, simultaneously, recoil subassembly slides from top to bottom in order to sweep impurity in the sliding plate, carry out the recoil to the filter screen part that the auxiliary tank corresponds, the sliding plate reciprocates and sweeps impurity by the grid, auxiliary tank and filter screen correspond the part and enclose into relatively independent space, and collect impurity through collecting the subassembly, not only avoid impurity scattering, pollute the refrigerator service environment, and realized reducing the change frequency of refrigerator filter screen, refrigerator availability factor has been improved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic diagram of an embodiment of an auxiliary heat dissipation refrigerator of an air-cooled water-cooled module according to the present utility model;

FIG. 2 is a schematic view of another angle of an embodiment of the present utility model;

FIG. 3 is a side view of an embodiment of the present utility model;

FIG. 4 is a cross-sectional view at A-A in FIG. 3;

FIG. 5 is an enlarged view at B in the drawing;

FIG. 6 is a schematic view of a placement cavity of an embodiment of the present utility model;

FIG. 7 is a schematic view of a screen, accessory mechanism according to an embodiment of the present utility model;

FIG. 8 is a schematic view of another angle of a screen, accessory mechanism according to an embodiment of the present utility model;

FIG. 9 is a schematic view of a sliding plate according to an embodiment of the present utility model;

FIG. 10 is a schematic view of a kick plate of an embodiment of the utility model;

fig. 11 is a schematic view of a mating lever according to an embodiment of the present utility model.

In the figure: 100. a housing; 110. a partition plate; 120. a refrigerating chamber; 130. a placement cavity; 140. an air outlet; 210. a water-cooled tube; 300. a compressor; 310. a condensing tube; 320. a blower; 330. a refrigeration tube; 400. a filter screen; 500. a sliding plate; 510. a brush roller; 610. a collection box; 620. hanging a needle; 710. a rotating wheel; 720. a rack; 810. an outer screw rod; 820. an inner screw rod; 830. a motor; 910. a kick plate; 920. a back-flushing groove; 930. a piston plate; 940. a one-way valve; 950. a top bulge; 960. matching with the convex; 970. and a mating rod.

Detailed Description

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

An embodiment of an air-cooled water-cooled module auxiliary heat dissipation refrigerator of the present utility model is shown in fig. 1 to 11: an auxiliary heat dissipation refrigerator of an air-cooled water-cooled module comprises a casing 100, a filter screen 400 and an auxiliary mechanism; a partition plate 110 is arranged in the machine shell 100; the partition plate 110 divides the interior of the cabinet 100 into a refrigerating chamber 120 and a placement chamber 130 which are vertically distributed; the refrigerating chamber 120 is disposed above the seating chamber 130; the compressor 300 is installed in the installation cavity 130; a refrigerating tube 330 is arranged in the refrigerating cavity 120; the refrigerating pipe 330 is disposed above the partition 110; one end of the cooling pipe 330 is communicated with the condensing pipe 310 through an expansion valve, and the other end is communicated with the compressor 300. A condensing tube 310 is provided at one side of the compressor 300; a fan 320 is arranged at one side of the condensing tube 310 away from the compressor 300; an air inlet is formed in one side, close to the fan 320, of the placement cavity 130, and an air outlet 140 is formed in one side, far away from the fan 320; a water cooling component is arranged between the fan 320 and the condensing pipe 310; the filter screen 400 is detachably arranged at the air inlet; the water cooling assembly includes a water cooling tube 210; the water cooling pipe 210 is arranged between the fan 320 and the condensing pipe 310, and a spray head is arranged on the water cooling pipe 210; the end of the water cooling pipe 210 is provided with a water tank; the water tank is fixed on the inner wall of the casing 100; the water tank being adjacent to the inner wall of the casing 100 the side wall is provided with a water inlet; a water adding door is arranged at the position of the casing 100 corresponding to the water adding port; a water pump is arranged in the water tank. The water pump pumps the water in the water tank into the spray head to spray water mist, and the water mist drifts towards the condensation pipe 310 along with wind, so that the condensation pipe 310 is subjected to evaporation and heat dissipation.

The auxiliary mechanism is arranged at the filter screen 400 and comprises a sliding plate 500, a recoil assembly and a power assembly; the sliding plate 500 is provided at a side of the filter screen 400 remote from the compressor 300; the sliding plate 500 is installed on the outer wall of the cabinet 100 to slide up and down; the sliding plate 500 is provided with an auxiliary groove on the side wall close to the filter screen 400; a brush roller 510 is rotatably installed in the auxiliary groove; the brush roller 510 is abutted against the outer surface of the filter screen 400; the lower end of the auxiliary groove is provided with a collecting component; the collection assembly includes a collection box 610; the collecting box 610 is slidably inserted on the sliding plate 500, and the collecting box 610 is in a U shape with an upward opening; the collection box 610 communicates with the auxiliary tank. The brush roller 510 rotates to sweep the foreign matters on the filter screen 400 into the collecting box 610, and when the refrigerator is used for a while, the collecting box 610 is drawn out to pour out the foreign matters in the collecting box 610. A hanging needle 620 is fixed to the side wall of the collecting box 610 adjacent to the brush roller 510. The hanging needle 620 is used to hang foreign matters such as lint adhered to the brush roller 510 from the surface of the brush roller 510.

A rotating assembly is provided between the sliding plate 500 and the cabinet 100; the rotating assembly is used for driving the brush roller 510 to rotate to sweep impurities on the filter screen 400 into the collecting assembly for collection when the sliding plate 500 moves up and down; the rotating assembly comprises a rotating wheel 710 and a rack 720; the rotating wheel 710 is fixed to the end of the brush roller 510; the rack 720 is provided at a side of the rotating wheel 710 remote from the compressor 300; the rack 720 is fixed to the casing 100 and is engaged with the rotating wheel 710. When the sliding plate 500 drives the brush roller 510 to move up and down, the rack 720 drives the brush roller 510 to rotate through the rotating wheel 710.

The backflushing assembly is provided at one side of the filter 400 near the compressor 300 for backflushing a portion of the filter 400 corresponding to the auxiliary tank when the sliding plate 500 slides up and down to sweep off the foreign substances, and the auxiliary foreign substances drop to the collecting assembly. The recoil assembly includes a recoil plate 910; the back flushing plate 910 is installed on the inner wall of the casing 100 to slide up and down; the kick plate 910 is adjacent to the screen 400 the side wall is provided with a back-flushing groove 920; a piston plate 930 is slidably mounted in the recoil groove 920; one end of the piston plate 930 near the filter screen 400 is provided with a one-way valve 940; the check valve 940 is used to allow air to flow from the side of the piston plate 930 away from the filter screen 400 to the side of the piston plate 930 near the filter screen 400, and to prevent air from flowing from the side of the piston plate 930 near the filter screen 400 to the side of the piston plate 930 away from the filter screen 400; a spring is connected between the piston plate 930 and the recoil plate 910;

A slide bar is fixed to one end of the back flushing plate 910 adjacent to the compressor 300; one end of the slide bar, which is close to the compressor 300, is fixed with a connecting rod perpendicular to the slide bar; a top protrusion 950 is fixed on the side wall of the connecting rod close to the filter screen 400; the top convex 950 is arc-shaped; a matching rod 970 is arranged between the top convex 950 and the filter screen 400; the fitting rod 970 is fixed on the inner wall of the casing 100; the matching rod 970 is provided with matching protrusions 960 which are uniformly distributed on the side wall of the matching rod near the top protrusion 950 at intervals up and down; the mating protrusion 960 is arcuate; initially, the top tab 950 and the mating lever 970 abut. When the back flushing plate 910 moves up and down, the top protrusion 950 and the matching protrusion 960 are matched in a pushing manner, so that the piston plate 930 is driven to periodically reciprocate, and the air on one side of the piston plate 930 close to the filter screen 400 is pushed to the filter screen 400 to form back flushing air flow, so that auxiliary impurities fall into the collecting box 610.

The power assembly is used to drive the sliding plate 500 and the recoil assembly to move up and down in synchronization. The power assembly includes an outer lead screw 810 and an inner lead screw 820; the outer screw 810 is arranged up and down; the outer screw 810 rotates on the outer wall of the casing 100 and is in threaded engagement with the sliding plate 500; the inner screw 820 is arranged up and down; the inner screw 820 rotates on the inner wall of the casing 100 and is in threaded engagement with the recoil plate 910; the outer screw 810 and the inner screw 820 are driven by a belt pulley; the motor 830 is connected to the inner screw 820; the motor 830 is fixed to the inner wall of the cabinet 100. The motor 830 drives the inner lead screw 820 to rotate, and the inner lead screw 820 drives the outer lead screw 810 to rotate through a pulley, so that the recoil plate 910 and the sliding plate 500 move up and down synchronously.

In combination with the above embodiment, the use principle and working process of the present utility model are as follows: when the refrigerator is used, the fan 320 is started to enable air to enter through the filter screen 400 and then cool the condensation pipe 310 and the like through air, meanwhile, the water pump pumps water mist in the water tank into the spray head to spray out the water mist, the water mist floats towards the condensation pipe 310 along with wind, so that evaporation and heat dissipation are carried out on the condensation pipe 310, the motor 830 drives the inner screw rod 820 to rotate, and the inner screw rod 820 drives the outer screw rod 810 to rotate through the belt pulley, so that the recoil plate 910 and the sliding plate 500 synchronously move up and down. When the sliding plate 500 drives the brush roller 510 to move up and down, the rack 720 drives the brush roller 510 to rotate through the rotating wheel 710, and the brush roller 510 rotates to sweep impurities on the filter screen 400 into the collecting assembly for collection. When the back flushing plate 910 moves up and down, the top protrusion 950 and the matching protrusion 960 are pushed to match, so as to drive the piston plate 930 to periodically reciprocate, thereby pushing the air on one side of the piston plate 930 close to the filter screen 400 to form back flushing airflow, assisting impurities drop into the collecting box 610, realizing back flushing of the filter screen 400 part corresponding to the assisting groove, and the sliding plate 500 moves up and down to sweep impurities from the lattice to lattice, so that the assisting groove and the corresponding part of the filter screen 400 enclose relatively independent spaces, and impurities are collected through the collecting assembly, thereby not only avoiding scattering of the impurities and polluting the use environment of the refrigerator, but also realizing reduction of the replacement frequency of the filter screen 400 of the refrigerator and improving the use efficiency of the refrigerator.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (8)

1. An auxiliary heat dissipation refrigerator of air-cooled water-cooling module which characterized in that: comprises a shell, a filter screen and an auxiliary mechanism; a partition board is arranged in the shell; the partition board divides the interior of the shell into a refrigerating cavity and a placement cavity which are distributed up and down; the refrigerating cavity is arranged above the placement cavity; a compressor is arranged in the placement cavity; one side of the compressor is provided with a condensing tube; a fan is arranged at one side of the condensing tube far away from the compressor; an air inlet is arranged at one side of the placement cavity close to the fan, an air outlet is arranged at one side far away from the fan; a water cooling component is arranged between the fan and the condensing pipe; the filter screen is detachably arranged at the air inlet;

The auxiliary mechanism is arranged at the filter screen and comprises a sliding plate, a recoil assembly and a power assembly; the sliding plate is arranged at one side of the filter screen far away from the compressor; the sliding plate is arranged on the outer wall of the shell in a vertical sliding way; the sliding plate being adjacent to the screen the side wall is provided with an auxiliary groove; the auxiliary groove is rotatably provided with a brush roller; the brush roller is abutted with the outer surface of the filter screen; the lower end of the auxiliary groove is provided with a collecting component; a rotating component is arranged between the sliding plate and the shell; the rotating assembly is used for driving the brush roller to rotate when the sliding plate moves up and down so as to sweep impurities on the filter screen into the collecting assembly for collection; the back flushing assembly is arranged on one side of the filter screen close to the compressor and is used for back flushing the filter screen part corresponding to the auxiliary groove when the sliding plate slides up and down to sweep impurities, and the auxiliary impurities fall to the collecting assembly; the power assembly is used for driving the sliding plate and the recoil assembly to synchronously move up and down.

2. The air-cooled water-cooled module auxiliary heat dissipation refrigerator of claim 1, wherein: the rotating assembly comprises a rotating wheel and a rack; the rotating wheel is fixed at the end part of the brush roller; the rack is arranged at one side of the rotating wheel far away from the compressor; the rack is fixed on the casing and meshed with the rotating wheel.

3. The air-cooled water-cooled module auxiliary heat dissipation refrigerator of claim 2, wherein: the collection assembly includes a collection box; the collecting box is inserted on the sliding plate in a sliding way, and is in a U shape with an upward opening; the collection box is communicated with the auxiliary groove.

4. An air-cooled water-cooled module auxiliary heat dissipation refrigerator as set forth in claim 3, wherein: the side wall of the collecting box, which is close to the brush roller, is fixedly provided with a hanging needle.

5. The air-cooled water-cooled module auxiliary heat dissipation refrigerator of claim 4, wherein: the recoil assembly includes a recoil plate; the back-flushing plate is arranged on the inner wall of the shell in a vertical sliding manner; the back-flushing plate being adjacent to the screen the side wall is provided with a back-flushing groove; a piston plate is slidably arranged in the recoil groove; the piston plate being adjacent to the screen one end is provided with a one-way valve; check valve for allowing air to move away from the piston plate one side of the filter screen flows to one side of the piston plate close to the filter screen, preventing air from approaching the filter screen from the piston plate one side of the piston plate is far away from the filter screen; a spring is connected between the piston plate and the recoil plate;

A slide bar is fixed at one end of the back flushing plate, which is close to the compressor; one end of the slide bar close to the compressor is fixed with a connecting rod perpendicular to the slide bar; the connecting rod being adjacent to the filter screen a top bulge is fixed on the side wall; the top bulge is arc-shaped; a matching rod which is arranged up and down is arranged between the top bulge and the filter screen; the matching rod is fixed on the inner wall of the shell; the upper and lower intervals of the side wall of the matching rod, which is close to the top bulge, are uniformly provided with matching bulges; the matching convex is arc-shaped; initially, the crown and mating rod abut.

6. The air-cooled water-cooled module auxiliary heat dissipation refrigerator of claim 5, wherein: the power assembly comprises an outer screw rod and an inner screw rod; the outer screw rod is arranged up and down; the outer screw rod rotates on the outer wall of the shell and is in threaded fit with the sliding plate; the inner screw rod is arranged up and down; the inner screw rod rotates on the inner wall of the shell and is in threaded fit with the recoil plate; the outer screw rod and the inner screw rod are driven by a belt pulley; the motor is connected to the inner screw rod; the motor is fixed on the inner wall of the shell.

7. An air-cooled water cooling module auxiliary heat dissipation refrigerator according to any of claims 1-6 and characterized in that: the water cooling component comprises a water cooling pipe; the water cooling pipe is arranged between the fan and the condensing pipe, and a spray head is arranged on the water cooling pipe; the end part of the water cooling pipe is provided with a water tank; the water tank is fixed on the inner wall of the shell; the water tank is close to the inner wall of the shell the side wall is provided with a water inlet; a water adding door is arranged at the position of the casing corresponding to the water adding port; a water pump is arranged in the water tank.

8. The air-cooled water-cooled module auxiliary heat dissipation refrigerator of claim 1, wherein: a refrigerating pipe is arranged in the refrigerating cavity; the refrigeration pipe is arranged above the partition plate; one end of the refrigerating pipe is communicated with the condensing pipe through an expansion valve, and the other end of the refrigerating pipe is communicated with the compressor.