CN118794061B

CN118794061B - Energy-saving air conditioner cooling system

Info

Publication number: CN118794061B
Application number: CN202411137414.9A
Authority: CN
Inventors: 蔡文; 张南城; 邓源源
Original assignee: Guangdong Lingfu Construction Co ltd
Current assignee: Guangdong Lingfu Construction Co ltd
Priority date: 2024-08-19
Filing date: 2024-08-19
Publication date: 2025-04-22
Anticipated expiration: 2044-08-19
Also published as: CN118794061A

Abstract

The present invention relates to the field of air conditioning technology, and specifically to an energy-saving air conditioning cooling system, which solves the problem that the external temperature of the existing air conditioning host is too high in a small space or in hot weather, resulting in a large refrigeration pressure of the air conditioning host, so that the operating power is always kept at a high level, and the energy-saving cooling effect cannot be achieved. An energy-saving air conditioning cooling system includes an atomizing heat-conducting mechanism and a hidden cleaning mechanism, a reflux heat dissipation mechanism is installed on one side of the atomizing heat-conducting mechanism, a protective mounting mechanism is installed on the outside of the reflux heat dissipation mechanism and the atomizing heat-conducting mechanism, and a hidden cleaning mechanism is installed on the inside of the atomizing heat-conducting mechanism. The protective mounting mechanism includes a main body mounting shell, a partition frame is fixedly installed on the inside of the main body mounting shell, and a storage water tank is fixedly installed on the inside of the middle of the partition frame. The present invention can effectively reduce the air conditioning refrigeration pressure by performing double-circulation cooling on the external airflow of the air conditioning host, and achieve energy-saving effects by reducing the operating power.

Description

Energy-saving air conditioner cooling system

Technical Field

The invention relates to the technical field of air conditioners, in particular to an energy-saving air conditioner cooling system.

Background

An air conditioner is an indispensable household appliance in modern life, and mainly has the functions of adjusting parameters such as temperature, humidity and the like of an indoor environment, providing a comfortable living environment, and the working principle of the air conditioner is mainly based on the circulation of a refrigerant, and heat transfer is realized through key components such as a compressor, a condenser, an expansion valve, an evaporator and the like, and the air conditioner generally comprises a cold source/heat source device, a cold and heat medium transmission and distribution system, an end device and the like, wherein the end device is responsible for processing air, so that the air parameter of the target environment meets the requirement.

The external temperature of the existing air conditioner main unit in a narrow space or high-temperature weather is too high, so that the refrigerating pressure of the air conditioner main unit is high, the running power is always kept at a high position, and the energy-saving cooling effect cannot be realized, therefore, the existing requirements are not met, and an energy-saving air conditioner cooling system is provided.

Disclosure of Invention

The invention aims to provide an energy-saving air conditioner cooling system, which aims to solve the problems that in the prior art, the external temperature of the existing air conditioner main machine is too high in a narrow space or in high-temperature weather, so that the refrigerating pressure of the air conditioner main machine is high, the running power is always kept at a high position, and the energy-saving cooling effect cannot be realized.

In order to achieve the aim, the invention provides the technical scheme that the energy-saving air conditioner cooling system comprises an atomization heat conduction mechanism and a hidden cleaning mechanism, wherein one side of the atomization heat conduction mechanism is provided with a backflow heat dissipation mechanism, the outer sides of the backflow heat dissipation mechanism and the atomization heat conduction mechanism are provided with a protection installation mechanism, the inner side of the atomization heat conduction mechanism is provided with the hidden cleaning mechanism, the protection installation mechanism comprises a main body installation shell, the inner side of the main body installation shell is fixedly provided with a separation frame, and the inner side of the middle part of the separation frame is fixedly provided with a water storage tank;

the atomizing heat conduction mechanism comprises a cold water input pipe, the cold water input pipe is fixedly connected with a main body installation shell, two split hollow plates are fixedly installed at one end of the cold water input pipe, one warm water output pipe is installed at the bottom of each split hollow plate, a plurality of second radiating fins are fixedly arranged between the split hollow plates, one side of each second radiating fin is provided with a plurality of waist-shaped air guide holes, a separation plate is fixedly installed on the inner side of each split hollow plate, a split cavity is formed in the upper side of each separation plate, a collecting cavity is formed in the lower side of each separation plate, a split frame is installed on the inner side of each split cavity, a plurality of atomizing nozzles are arranged on one side of each split frame, and the separation plate is installed on the lower side of each split frame.

Preferably, the protection installation mechanism further comprises two sealing side plates fixedly connected with the front end face and the rear end face of the main body installation shell, an exhaust sleeve plate is fixedly installed on one side of each sealing side plate, an overhaul cover is fixedly installed on the upper end of the main body installation shell, a hot gas input pipe is fixedly installed at one end of the overhaul cover, a conical ash cleaning cover is fixedly installed on the inner side of the bottom end of the main body installation shell, a cooling output pipe is installed on one side of the conical ash cleaning cover, and a storage frame is fixedly installed on the upper end of the separation frame.

Preferably, the hidden cleaning mechanism comprises a transmission motor, the transmission motor is fixedly connected with an overhaul cover, a transmission screw is fixedly arranged at the output end of the transmission motor, a ventilation disc is rotationally connected to the bottom end of the transmission screw, a transmission cross bar is installed on the outer side of the transmission screw, a plurality of cleaning plates are fixedly arranged on the lower end face of the transmission cross bar, and cleaning cotton slivers are arranged on the lower end face of the cleaning plates.

Preferably, the reflux heat dissipation mechanism comprises a radiator, the radiator is fixedly connected with a separation frame, a conical flow distribution seat is fixedly arranged in the middle of the lower end face of the radiator, a plurality of first heat dissipation fins are arranged on two sides of the conical flow distribution seat, an air inlet seat is arranged below the radiator, a plurality of air guide sleeve rods are arranged on the inner side of the air inlet seat, and a fan box is fixedly arranged on the inner side of the air guide sleeve rods.

Preferably, the transmission screw is in threaded connection with the middle part of the transmission cross bar, each cleaning plate is inserted between two adjacent second radiating fins, and the transmission cross bar, the cleaning plates and the cleaning cotton sliver vertically slide back and forth along the axis of the transmission screw.

Preferably, the radiator is connected with the two current collecting cavities through warm water output pipes in a penetrating way, the radiator is connected with the interiors of the plurality of first radiating fins in a penetrating way, a water inlet pipe is arranged at the bottom end of the storage water tank, the storage water tank is connected with the radiator through the water inlet pipe in a penetrating way, and a one-way valve is arranged in the water inlet pipe.

Preferably, a fan blade and a fan motor are arranged in the fan box, a filter element is arranged between the fan box and the air guide sleeve, the air inlet seat is in through connection with the inside of the air guide sleeve, and the air flow direction of the inner side of the air guide sleeve is from bottom to top.

Preferably, one end of the cold water input pipe penetrates through the two split hollow plates and is inserted into the inner sides of the upper ends of the two split frames, the storage water tank is in through connection with the two split frames through the cold water input pipe, and the two split hollow plates are in through connection with the plurality of second radiating fins.

Preferably, the upper ends of the shunt frames are fixedly connected with the shunt hollow plates, the shunt frames are connected with the atomizing nozzles through threads, and the two shunt frames are symmetrically installed relative to the transmission screw.

Preferably, the cooling output pipe and the conical ash removal cover are all in through connection with the two split hollow plates, and the hot gas input pipe is in through connection with the two split hollow plates through the overhaul cover.

Compared with the prior art, the invention has the beneficial effects that:

1. According to the invention, when the air conditioner main machine operates, hot air is input to the inner sides of the two split hollow plates by utilizing the hot air input pipe and the overhaul cover, the storage water tank is used for injecting water into the two split frames by the cold water input pipe, so that the two split frames synchronously perform atomization operation by the plurality of atomization nozzles, atomized water vapor circulates in the split hollow plates and the second cooling fins, the hot air and the water vapor can be fully isolated and contacted by the plurality of second cooling fins and the waist-shaped air guide holes, and the second cooling fins can perform heat exchange on the water vapor and the hot air, so that the refrigeration pressure of the air conditioner main machine is conveniently reduced, and the operation power of the air conditioner is further reduced to realize the energy-saving effect;

2. According to the invention, water vapor is gathered into water drops after heat exchange and falls into the flow collecting cavity, the radiator returns the water body after heat exchange to the inside of the radiator through the warm water output pipe, the plurality of fan boxes extract external air to the lower part of the radiator, so that the radiator and warm water in the first radiating fins can be subjected to heat exchange again, and the radiator and the storage water tank are connected through the water inlet pipe, so that the radiator returns the water cooled to the inside of the storage water tank through the water inlet pipe after water cooling, double-circulation operation of air and water is realized, and the energy-saving cooling effect is met;

3. According to the invention, the transmission motor drives the transmission cross bar to move downwards through the transmission screw, and then the transmission cross bar drives the plurality of cleaning cotton slivers to move downwards synchronously through the cleaning plate and scrape the two sides of the second radiating fins, and dust is discharged through the ventilation disc and the conical ash removal cover, so that a self-cleaning effect is realized, and the heat exchange efficiency of the second radiating fins is conveniently kept.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a rear side view of the entirety of the present invention;

FIG. 3 is a front view of the body mounting shell of the present invention;

FIG. 4 is a schematic cross-sectional view of the whole structure of the present invention;

FIG. 5 is a schematic view showing a partial cross-sectional structure of a main body mounting case of the present invention;

FIG. 6 is a schematic view of a partial cross-sectional structure of a reflow heat dissipation mechanism according to the present invention;

FIG. 7 is a schematic diagram of an atomization heat conduction mechanism according to the present invention;

FIG. 8 is a schematic view of the mounting structure of the splitter post of the present invention;

FIG. 9 is a schematic cross-sectional view of a split hollow slab of the present invention;

FIG. 10 is a schematic cross-sectional view of a hidden cleaning mechanism according to the present invention.

In the figure, 1, a protection installation mechanism, 101, a main body installation shell, 102, a sealing side plate, 103, an exhaust sleeve plate, 104, an overhaul cover, 105, a hot gas input pipe, 106, a cooling output pipe, 107, a separation frame, 108, a storage water tank, 109, a storage frame, 110, a conical ash removal cover, 2, a backflow heat dissipation mechanism, 201, a radiator, 202, a first heat dissipation fin, 203, an air inlet seat, 204, a fan box, 205, a conical shunt seat, 206, an air guide sleeve barrel, 3, an atomization heat conduction mechanism, 301, a cold water input pipe, 302, a warm water output pipe, 303, a shunt hollow plate, 304, a second heat dissipation fin, 305, a shunt frame, 306, a waist-shaped air guide hole, 307, an atomization nozzle, 308, a separation plate, 309, a shunt cavity, 310, a current collecting cavity, 4, a hidden cleaning mechanism, 401, a transmission motor, 402, a transmission screw rod, 403, an air permeable disc, 404, a transmission horizontal bar, 405, a cleaning plate, 406 and cleaning cotton sliver.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

The gearmotor 401 according to the invention (model GV50-3.7 KW-60-S) is available commercially or custom-made.

Referring to fig. 1 to 6, an energy-saving air conditioner cooling system provided by the embodiment of the invention comprises an atomization heat conduction mechanism 3 and a hidden cleaning mechanism 4, wherein a backflow heat dissipation mechanism 2 is installed on one side of the atomization heat conduction mechanism 3, a protection installation mechanism 1 is installed on the outer sides of the backflow heat dissipation mechanism 2 and the atomization heat conduction mechanism 3, the hidden cleaning mechanism 4 is installed on the inner side of the atomization heat conduction mechanism 3, the protection installation mechanism 1 comprises a main installation shell 101, a separation frame 107 is fixedly installed on the inner side of the main installation shell 101, a storage water tank 108 is fixedly installed on the inner side of the middle part of the separation frame 107, two sealing side plates 102 are fixedly connected to the front end surface and the rear end surface of the main installation shell 101, an exhaust sleeve plate 103 is fixedly installed on one side of the sealing side plates 102, an overhaul cover 104 is fixedly installed on the upper end of the main installation shell 101, a hot gas input pipe 105 is fixedly installed on one end of the overhaul cover 104, a conical ash removal cover 110 is fixedly installed on the inner side of the bottom end of the main installation shell 101, a cooling output pipe 106 is installed on one side of the conical ash removal cover 110, a storage frame 109 is fixedly installed on the upper end of the separation frame 107, and the hot gas output of the main air conditioner can be circulated and conveyed and cooled down through the hot gas input pipe 105 and the output pipe 106.

Referring to fig. 3 to 9, the atomizing heat conduction mechanism 3 includes a cold water input pipe 301, the cold water input pipe 301 is fixedly connected with the main body mounting shell 101, two split hollow plates 303 are fixedly installed at one end of the cold water input pipe 301, the cooling output pipe 106 and the conical ash removal cover 110 are all in through connection with the two split hollow plates 303, the hot gas input pipe 105 is in through connection with the two split hollow plates 303 through the overhaul cover 104, a warm water output pipe 302 is installed at the bottom ends of the two split hollow plates 303, and water body subjected to heat exchange can be input and output through the cold water input pipe 301 and the warm water output pipe 302;

A plurality of second radiating fins 304 are fixedly arranged between the two split hollow plates 303, the two split hollow plates 303 are in through connection with the plurality of second radiating fins 304, a plurality of waist-shaped air guide holes 306 are formed in one side of each second radiating fin 304, a separation plate 308 is fixedly arranged on the inner side of each split hollow plate 303, a split cavity 309 is arranged above each separation plate 308, a flow collecting cavity 310 is arranged below each separation plate 308, and water vapor can be split and water drops can be collected through the split cavities 309 and the flow collecting cavities 310;

the inside of reposition of redundant personnel chamber 309 is installed reposition of redundant personnel frame 305, the inboard of two reposition of redundant personnel hollow plates 303 is run through to one end of cold water input tube 301 and peg graft to two reposition of redundant personnel frame 305 upper ends, storage water tank 108 and two reposition of redundant personnel frames 305 pass through cold water input tube 301 through being connected, one side of every reposition of redundant personnel frame 305 all is equipped with a plurality of atomizing nozzles 307, the upper end and the reposition of redundant personnel hollow plate 303 fixed connection of reposition of redundant personnel frame 305, reposition of redundant personnel frame 305 and atomizing nozzle 307 pass through threaded connection, division board 308 is installed to the below of reposition of redundant personnel frame 305, make two reposition of redundant personnel frames 305 carry out atomizing operation in step through a plurality of atomizing nozzles 307, the second radiating fin 304 of being convenient for carries out the heat exchange.

Referring to fig. 4 and 10, the hidden cleaning mechanism 4 includes a driving motor 401, the driving motor 401 is fixedly connected with the overhaul cover 104, a driving screw 402 is fixedly installed at the output end of the driving motor 401, two split frames 305 are symmetrically installed relative to the driving screw 402, the bottom end of the driving screw 402 is rotationally connected with a ventilation disk 403, a driving transverse bar 404 is installed at the outer side of the driving screw 402, the driving screw 402 is in threaded connection with the middle part of the driving transverse bar 404, a plurality of cleaning plates 405 are fixedly installed at the lower end face of the driving transverse bar 404, each cleaning plate 405 is inserted between two adjacent second radiating fins 304, cleaning cotton strips 406 are arranged at the lower end face of each cleaning plate 405, the driving transverse bar 404, the cleaning plates 405 and the cleaning cotton strips 406 slide vertically in a reciprocating manner along the axis of the driving screw 402, so that the driving motor 401 drives the driving transverse bar 404, the cleaning plates 405 and the cleaning cotton strips 406 to synchronously move downwards and scrape two sides of the second radiating fins 304, and the heat exchange efficiency of the second radiating fins 304 is convenient to keep.

Referring to fig. 3 to 6, the reflow heat dissipation mechanism 2 includes a heat sink 201, the heat sink 201 is fixedly connected with a partition frame 107, a conical split seat 205 is fixedly installed in the middle of the lower end surface of the heat sink 201, a water inlet pipe is arranged at the bottom end of a storage water tank 108, the storage water tank 108 is connected with the heat sink 201 through the water inlet pipe, a one-way valve is arranged in the water inlet pipe, so that the heat sink 201 can reflow water to the inside of the storage water tank 108 through the water inlet pipe after cooling, double circulation operation of air and water is realized, and energy-saving cooling effect is satisfied;

The two sides of the conical flow distribution seat 205 are respectively provided with a plurality of first radiating fins 202, the radiator 201 and the two flow collecting cavities 310 are in through connection through warm water output pipes 302, the radiator 201 is in through connection with the interiors of the plurality of first radiating fins 202, the air inlet seat 203 is arranged below the radiator 201, the inner side of the air inlet seat 203 is provided with a plurality of air guide sleeve barrels 206, the air inlet seat 203 is in through connection with the interiors of the air guide sleeve barrels 206, the inner side of the air guide sleeve barrels 206 is fixedly provided with a fan box 204, fan blades and a fan motor are arranged in the fan box 204, a filter element is arranged between the fan box 204 and the air guide sleeve barrels 206, the air flow direction of the inner side of the air guide sleeve barrels 206 is from bottom to top, the air flow is distributed through the conical flow distribution seat 205 and is fully contacted with the plurality of first radiating fins 202, and then the radiator 201 and the first radiating fins 202 perform secondary heat exchange on warm water in the radiator.

In summary, the hot air input pipe 105 and the cooling output pipe 106 are respectively connected with the air outlet and the air inlet of the air conditioning host, the power supply is turned on, the inside of the storage water tank 108 is filled with water, the hot air is input to the insides of the two split hollow plates 303 by using the hot air input pipe 105 and the overhaul cover 104 when the air conditioning host operates, the storage water tank 108 and the two split frames 305 are connected through the cold water input pipe 301, a booster pump is arranged in the storage water tank 108, the storage water tank 108 fills water to the two split frames 305 through the cold water input pipe 301, and a plurality of atomizing nozzles 307 are arranged on one side of the split frames 305, so that the two split frames 305 synchronously perform atomizing operation through the plurality of atomizing nozzles 307;

the reposition of redundant personnel hollow slab 303 and a plurality of second fin 304 through connection for the inside circulation of steam after the atomizing at reposition of redundant personnel hollow slab 303 and second fin 304 is equipped with a plurality of waist type air guide holes 306 in one side of second fin 304, makes through a plurality of second fin 304 and waist type air guide holes 306 can fully keep apart the contact to steam and steam, and the second fin 304 can carry out the heat exchange to steam and steam this moment, and then realizes the rapid cooling to steam and flows back to the air conditioner host computer through cooling output tube 106, is convenient for reduce the refrigeration pressure of air conditioner host computer, and then reduces the air conditioner running power and realize energy-conserving effect.

After heat exchange, water vapor gathers into water drops and falls into the current collecting cavities 310, the radiator 201 and the two current collecting cavities 310 are in through connection through the warm water output pipes 302, so that the radiator 201 returns water after heat exchange to the inside of the radiator 201 through the warm water output pipes 302, at this time, the temperature of the water after heat exchange is higher, the plurality of fan boxes 204 extract outside air to the lower part of the radiator 201 under the supporting action of the air guide sleeve barrel 206, at this time, the air flow is split through the conical split seats 205 and fully contacted with the plurality of first radiating fins 202, and then the water is laterally discharged through the two exhaust sleeve plates 103, so that warm water in the radiator 201 and the first radiating fins 202 can be subjected to heat exchange again;

Radiator 201 and storage water tank 108 pass through inlet tube through connection for radiator 201 is with the inside of water cooling back to storage water tank 108 through the inlet tube, realize the double circulation operation to air and water, satisfy energy-conserving cooling effect, in the second radiating fin 304 carries out long-term heat exchange process, its surface is piled up and is had the dust, start driving motor 401, make driving motor 401 drive transmission horizontal bar 404 through drive screw 402 under the supporting action of maintenance cover 104 and move down, and then transmission horizontal bar 404 drives a plurality of clean silver 406 and moves down and scrape the both sides of second radiating fin 304 through clean board 405 in step, and discharge the dust through ventilation disk 403 and toper deashing cover 110, be convenient for keep the heat exchange efficiency of second radiating fin 304.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. An energy-saving air conditioning cooling system, comprising an atomizing heat conducting mechanism (3) and a hidden cleaning mechanism (4), characterized in that: a reflux heat dissipation mechanism (2) is installed on one side of the atomizing heat conducting mechanism (3), a protective mounting mechanism (1) is installed on the outer sides of the reflux heat dissipation mechanism (2) and the atomizing heat conducting mechanism (3), a hidden cleaning mechanism (4) is installed on the inner side of the atomizing heat conducting mechanism (3), the protective mounting mechanism (1) comprises a main body mounting shell (101), a partition frame (107) is fixedly installed on the inner side of the main body mounting shell (101), and a storage water tank (108) is fixedly installed on the inner side of the middle part of the partition frame (107);

The atomizing heat-conducting mechanism (3) comprises a cold water input pipe (301), the cold water input pipe (301) being fixedly connected to the main body mounting shell (101), two diversion hollow plates (303) being fixedly mounted on one end of the cold water input pipe (301), a warm water output pipe (302) being mounted on the bottom ends of the two diversion hollow plates (303), a plurality of second heat-dissipating fins (304) being fixedly mounted between the two diversion hollow plates (303), and a second heat-dissipating fin (304) having a heat-dissipating fin (302) on one side thereof. A plurality of waist-shaped air guide holes (306), a partition plate (308) is fixedly installed on the inner side of the diversion hollow plate (303), a diversion chamber (309) is provided above the partition plate (308), a collecting chamber (310) is provided below the partition plate (308), a diversion rack (305) is installed on the inner side of the diversion chamber (309), a plurality of atomizing nozzles (307) are provided on one side of each diversion rack (305), and a partition plate (308) is installed below the diversion rack (305);

The reflux heat dissipation mechanism (2) comprises a heat sink (201), the heat sink (201) is fixedly connected to the partition frame (107), a conical flow divider seat (205) is fixedly installed in the middle of the lower end surface of the heat sink (201), a plurality of first heat dissipation fins (202) are arranged on both sides of the conical flow divider seat (205), an air intake seat (203) is installed below the heat sink (201), a plurality of air guide sleeve rod cylinders (206) are installed on the inner side of the air intake seat (203), and a fan box (204) is fixedly installed on the inner side of the air guide sleeve rod cylinder (206);

The radiator (201) is connected to the two manifolds (310) via a warm water output pipe (302); the radiator (201) is connected to the inside of the plurality of first heat dissipation fins (202); a water inlet pipe is provided at the bottom end of the storage water tank (108); the storage water tank (108) is connected to the radiator (201) via the water inlet pipe; a one-way valve is provided inside the water inlet pipe;

The fan box (204) is provided with fan blades and a fan motor inside, a filter element is provided between the fan box (204) and the air guide sleeve rod barrel (206), the air intake seat (203) is connected to the inside of the air guide sleeve rod barrel (206), and the airflow direction inside the air guide sleeve rod barrel (206) is from bottom to top;

One end of the cold water input pipe (301) passes through the two diversion hollow plates (303) and is plugged into the inner side of the upper ends of the two diversion racks (305); the storage water tank (108) is connected to the two diversion racks (305) via the cold water input pipe (301); and the two diversion hollow plates (303) are connected to the plurality of second heat dissipation fins (304).

2. An energy-saving air-conditioning cooling system according to claim 1, characterized in that: the protective mounting mechanism (1) also includes two sealing side plates (102) fixedly connected to the front and rear end surfaces of the main mounting shell (101), an exhaust sleeve (103) is fixedly mounted on one side of the sealing side plate (102), an inspection cover (104) is fixedly mounted on the upper end of the main mounting shell (101), a hot air input pipe (105) is fixedly mounted on one end of the inspection cover (104), a conical cleaning cover (110) is fixedly mounted on the inner side of the bottom end of the main mounting shell (101), a cooling output pipe (106) is mounted on one side of the conical cleaning cover (110), and a storage rack (109) is fixedly mounted on the upper end of the partition frame (107).

3. An energy-saving air-conditioning cooling system according to claim 2, characterized in that: the hidden cleaning mechanism (4) comprises a transmission motor (401), the transmission motor (401) is fixedly connected to the inspection cover (104), a transmission screw (402) is fixedly installed at the output end of the transmission motor (401), the bottom end of the transmission screw (402) is rotatably connected to a ventilation plate (403), a transmission cross bar (404) is installed on the outer side of the transmission screw (402), a plurality of cleaning plates (405) are fixedly installed on the lower end surface of the transmission cross bar (404), and a cleaning cotton strip (406) is provided on the lower end surface of the cleaning plate (405).

4. An energy-saving air-conditioning cooling system according to claim 3, characterized in that: the transmission screw (402) is connected to the middle part of the transmission cross bar (404) by a thread, each of the cleaning plates (405) is plugged between two adjacent second heat dissipation fins (304), and the transmission cross bar (404), the cleaning plate (405) and the cleaning cotton strip (406) slide vertically back and forth along the axis of the transmission screw (402).

5. An energy-saving air conditioning cooling system according to claim 3, characterized in that: the upper end of the diverter frame (305) is fixedly connected to the diverter hollow plate (303), the diverter frame (305) is connected to the atomizing nozzle (307) by threads, and the two diverter frames (305) are symmetrically installed relative to the transmission screw (402).

6. An energy-saving air conditioning cooling system according to claim 2, characterized in that: the cooling output pipe (106) and the conical cleaning cover (110) are both connected through the two diversion hollow plates (303), and the hot air input pipe (105) is connected through the two diversion hollow plates (303) via the inspection cover (104).