CN212691960U - Air conditioner with constant temperature defrosting function - Google Patents

Abstract

The utility model discloses an air conditioner with constant temperature defrosting function, which comprises an outer shell, the one end opening part of shell is provided with air exit and exhaust fan. Has the advantages that: the utility model discloses a liquid recovery fill, when the first nozzle of six groups sprays water, this part of water is via evaporative condenser surface, finally fall on one side of shaking the board, this process exhaust fan is operating condition, the outside air passes through first fresh air inlet, finally discharge from the air exit, this part air is from a plurality of built-in grooves of group, the first through-hole of a plurality of groups and a plurality of groups second through-hole process, in this process, two sets of expanding spring are in compression state, when the exhaust fan stop work, two sets of expanding spring receive self elasticity and inertial dual function, it acts on reciprocating motion to drive the vibration board, in this process, the water that vibrates the board surface can receive inertia and the effect of gravity, break away from the shake board, another group of liquid recovery fill can with the operation, the liquid recovery fill through setting, can collect spun water.

Description

Air conditioner with constant temperature defrosting function

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to an air conditioner with constant temperature defrosting function.

Background

The air conditioner is equipment for processing the temperature, the humidity, the purity, the air flow speed and the like of air, meets the production and living needs of people, has the possibility of frosting during refrigeration and heating, influences the use of the air conditioner if the defrosting is not timely after the frosting of the air conditioner, has the constant-temperature defrosting function according to the phenomenon, and has the advantages of constant-temperature defrosting, simple operation, convenient installation and the like in actual use.

The existing air conditioner with the constant-temperature defrosting function has the function of defrosting by using water spraying operation, if the equipment does not collect water spraying, the equipment is positioned inside the air conditioner with the constant-temperature defrosting function for a long time, the corrosion of an internal iron structure can be caused, the service life of the air conditioner with the constant-temperature defrosting function is shortened, secondly, when hot water is used for defrosting by heating in winter, a large amount of water vapor can be generated, if the water vapor is discharged in time, the water vapor drifts on the internal structure and is cooled, the water vapor can be frozen by cold air, the normal operation of the air conditioner with the constant-temperature defrosting function can be influenced seriously, and the inconvenience is brought to the use of the air conditioner with the constant-temperature defrosting function.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides an air conditioner with constant temperature defrosting function possesses the advantage of being convenient for collect the water spray, the inside vapor of being convenient for discharge, and then solves the problem among the above-mentioned background art.

(II) technical scheme

For the advantage of realizing the above-mentioned installation of being convenient for, being convenient for adjust, the utility model discloses a concrete technical scheme as follows:

an air conditioner with a constant-temperature defrosting function comprises a shell, wherein an air outlet and an exhaust fan are arranged at an opening at one end of the shell, a first water tank, a four-way valve, a compressor, a partition plate, an expansion valve and a second water tank are mounted at the bottom surface inside the shell, an air feeder and an air supply outlet are arranged at an opening at the other end of the shell, a first water pump, a group of liquid recovery hoppers, a group of water through holes and a first water baffle are arranged at the upper part of the first water tank, a first water guide pipe is mounted at one end of the first water pump in a clamping mode, one end of the first water guide pipe penetrates through the top surface inside the first water tank, a second water guide pipe is mounted at the other end of the first water pump in a clamping mode, six groups of first nozzles are mounted at one side of the second water guide pipe, an evaporative condenser is fixedly mounted at the upper part, the anti-leakage water heater is characterized in that a leakage-proof funnel is fixedly mounted on the top surface inside the shell, a heater is mounted on the bottom surface inside the first water tank, the four-way valve is connected with a compressor, an evaporative condenser and an evaporator, a first fresh air port and a second fresh air port are arranged on the end surface of the shell, five groups of exhaust valves are fixedly mounted on one side of the partition plate, the evaporative condenser is connected with the evaporator through an expansion valve, another group of liquid recovery hopper, another group of water through holes, a second water pump and a second water baffle are arranged on the upper portion of the second water tank, a third water guide pipe is clamped at one end of the second water pump, one end of the third water guide pipe penetrates through the top surface inside the second water tank, a fourth water guide pipe is clamped at the other end of the second water pump, and six groups of second.

Furthermore, one end of the evaporative condenser is fixedly provided with two groups of expansion springs, one end of each of the two groups of expansion springs is fixedly provided with an oscillating plate, a plurality of groups of built-in grooves are formed in the oscillating plate, first through holes are formed in one sides of the inside of the built-in grooves, and second through holes are formed in the other sides of the inside of the built-in grooves.

Furthermore, the two groups of liquid recovery hoppers are identical in installation structure, and the two groups of liquid recovery hoppers are respectively identical in connection mode with the evaporative condenser and the evaporator.

Furthermore, the insides of the two groups of liquid recovery buckets are in inverted cone shapes.

Further, the lateral wall of gas port looses is provided with the built-in convex groove of first built-in convex groove and second, the inside slidable mounting of first built-in convex groove has first semicircle baffle, and the one end fixed mounting of first semicircle baffle has first magnet board, the upper portion of first semicircle baffle is provided with first built-in blind hole, the inside slidable mounting of the built-in convex groove of second has second semicircle baffle, and the one end fixed mounting of second semicircle baffle has the second magnet board, the upper portion of second semicircle baffle is provided with the built-in blind hole of second.

Further, the first magnet plate and the second magnet plate are adsorbed to each other and located on the same horizontal line.

Further, the air diffusing port and the leakage-proof funnel are positioned above the six groups of first nozzles.

Furthermore, the group of the limber holes and the group of the openings on the bottom surface inside the liquid recovery bucket are all positioned on the same vertical line.

(III) advantageous effects

Compared with the prior art, the utility model provides an air conditioner with constant temperature defrosting function possesses following beneficial effect:

(1) the utility model adopts the liquid recycling hopper, when six groups of first nozzles spray water, part of the water passes through the surface of the evaporative condenser and finally falls on one side of the oscillating plate, the exhaust fan is in a working state in the process, the external air passes through the first fresh air port, the evaporative condenser and the first water baffle and is finally discharged from the air outlet, when the part of the air passes through the oscillating plate, the air passes through the plurality of groups of built-in grooves, the plurality of groups of first through holes and the plurality of groups of second through holes, in the process, two groups of expansion springs are in a compression state, when the exhaust fan stops working, the two groups of expansion springs are under the dual functions of self elasticity and inertia to drive the oscillating plate to do reciprocating motion, when the exhaust fan stops moving, the exhaust fan reaches the original position, in the reciprocating motion process, the water on the surface of the oscillating plate can be under the functions of inertia and gravity, the exhaust fan is separated from the oscillating plate, and enters the inside of the first water tank through the, the other group of liquid recovery hoppers can be obtained by operating the same way, and the sprayed water can be collected through the arranged liquid recovery hoppers, so that the situation that the internal iron structure is corroded due to the fact that the sprayed water is located inside the air conditioner with the constant-temperature defrosting function for a long time is avoided.

(2) The utility model adopts the air diffuser, when the air diffuser is used in winter for defrosting operation, the heater in the first water tank can heat the water in the first water tank, the first water pump is utilized to spray hot water out of six groups of first nozzles, steam can be produced when the hot water is sprayed out, the steam can move upwards because the density of the steam is less than the atmospheric density, the first semicircular baffle and the second semicircular baffle can move oppositely to separate the first magnet plate and the second magnet plate, the steam can be discharged from the air diffuser at the moment, the first built-in blind hole and the second built-in blind hole can conveniently move the first semicircular baffle and the second semicircular baffle, the leakage-proof funnel can prevent the steam from deviating from the air diffuser, the first built-in convex groove and the second built-in convex groove can store and use the first semicircular baffle and the second semicircular baffle, and the steam in the air conditioner with the constant temperature defrosting function can be conveniently discharged through the air diffuser, the situation that the water vapor is attached to the surface of the internal structure to be cooled and frozen due to untimely discharge of the water vapor is avoided, and convenience is brought to the use of the air conditioner with the constant-temperature defrosting function.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an air conditioner with a constant temperature defrosting function according to the present invention;

FIG. 2 is a cross-sectional view of the oscillating plate of the present invention;

FIG. 3 is a schematic structural view of a first semicircular baffle plate of the present invention;

fig. 4 is an enlarged view of a in fig. 1 according to the present invention.

In the figure:

1. a housing; 2. an air outlet; 3. an exhaust fan; 4. a first water tank; 5. a four-way valve; 6. a compressor; 7. a partition plate; 8. an expansion valve; 9. a second water tank; 10. a blower; 11. an air supply outlet; 12. a heater; 13. a first water pump; 14. a first water conduit; 15. a second water conduit; 16. a first nozzle; 17. a liquid recovery hopper; 18. a water through hole; 19. an evaporative condenser; 20. a first water baffle; 21. an air diffuser; 22. a leakage-proof funnel; 23. a first fresh air port; 24. a second fresh air port; 25. an air return opening; 26. an evaporator; 27. a second water pump; 28. a third water conduit; 29. a fourth aqueduct; 30. a second nozzle; 31. a second water baffle; 32. an exhaust valve; 33. a tension spring; 34. a vibrating plate; 35. a built-in groove; 36. a first through hole; 37. a second through hole; 38. a first built-in convex groove; 39. a second built-in convex groove; 40. a first semicircular baffle; 41. a first magnet plate; 42. a first built-in blind hole; 43. a second semicircular baffle; 44. a second magnet plate; 45. the second built-in blind hole.

Detailed Description

For further explanation of the embodiments, the drawings are provided as part of the disclosure and serve primarily to illustrate the embodiments and, together with the description, to explain the principles of operation of the embodiments, and to provide further explanation of the invention and advantages thereof, it will be understood by those skilled in the art that various other embodiments and advantages of the invention are possible, and that elements in the drawings are not to scale and that like reference numerals are generally used to designate like elements.

According to the utility model discloses an embodiment provides an air conditioner with constant temperature defrosting function.

Referring to the drawings and the detailed description, as shown in fig. 1-4, an air conditioner with a constant temperature defrosting function according to an embodiment of the present invention includes a housing 1, an air outlet 2 and an air exhauster 3 are disposed at an opening of one end of the housing 1, a first water tank 4, a four-way valve 5, a compressor 6, a partition plate 7, an expansion valve 8 and a second water tank 9 are mounted at an inner bottom surface of the housing 1, an air blower 10 and an air outlet 11 are disposed at an opening of the other end of the housing 1, a first water pump 13, a set of liquid recycling hoppers 17, a set of water through holes 18 and a first water baffle 20 are disposed at an upper portion of the first water tank 4, a first water guide pipe 14 is mounted at one end of the first water pump 13 in a snap-fit manner, one end of the first water guide pipe 14 penetrates through an inner top surface of the first water tank 4, a second water guide pipe 15 is mounted at the other end of the first water pump 13 in a snap-fit, an evaporative condenser 19 is fixedly installed on the upper part of a group of liquid recovery hoppers 17, an air diffuser 21 and an air return opening 25 are arranged on the upper part of the shell 1, a leakage-proof funnel 22 is fixedly installed on the inner top surface of the shell 1, a heater 12 is installed on the inner bottom surface of the first water tank 4, the four-way valve 5 is connected with the compressor 6, the evaporative condenser 19 and the evaporator 26, a first fresh air opening 23 and a second fresh air opening 24 are arranged on the end surface of the shell 1, five groups of exhaust valves 32 are fixedly installed on one side of the partition plate 7, the evaporative condenser 19 and the evaporator 26 are connected through the expansion valve 8, the other group of liquid recovery hoppers 17, the other group of water through holes 18, a second water pump 27 and a second water baffle 31 are arranged on the upper part of the second water tank 9, a third water guide pipe 28 is clamped at one end of the second water pump 27, one end of the third water guide pipe 28 penetrates through the inner top, and one side of the fourth water guiding pipe 29 is provided with six groups of second nozzles 30, the air outlet 2, the exhaust fan 3, the first water tank 4, the four-way valve 5, the compressor 6, the partition 7, the expansion valve 8, the second water tank 9, the blower 10, the air supply outlet 11, the heater 12, the first water pump 13, the evaporative condenser 19, the evaporator 26, the second water pump 27 and five groups of exhaust valves 32 which are all of the existing structures and will not be described in detail herein.

In one embodiment, two sets of extension springs 33 are fixedly installed at one end of the evaporative condenser 19, an oscillating plate 34 is fixedly installed at one end of each of the two sets of extension springs 33, a plurality of sets of built-in grooves 35 are formed in the oscillating plate 34, first through holes 36 are formed in one sides of the plurality of sets of built-in grooves 35, second through holes 37 are formed in the other sides of the plurality of sets of built-in grooves 35, when the six sets of first nozzles 16 spray water, the water passes through the surface of the evaporative condenser 19 and finally falls on one side of the oscillating plate 34, the exhaust fan 3 is in a working state, external air passes through the first fresh air port 23, the evaporative condenser 19 and the first water baffle 20 and is finally exhausted from the exhaust port 2, when the air passes through the oscillating plate 34, the air passes through the plurality of sets of built-in grooves 35, the plurality of sets of first through holes 36 and the plurality of sets of second through holes 37, two sets of expanding spring 33 are in compression state, when exhaust fan 3 stop work, two sets of expanding spring 33 receive self elasticity and inertial dual function, drive shake board 34 and do effect reciprocating motion, when the stop motion, reach the normal position, in the reciprocating motion process, the water that shakes board 34 surface can receive inertia and the effect of gravity, break away from shake board 34, get into the inside of first water tank 4 through a set of liquid recovery fill 17 and a set of limbers 18, another group of liquid recovery fill 17 can with the operation, through the liquid recovery fill 17 that sets up, can collect spun water, avoid being in the inside air conditioner that has constant temperature defrosting function for a long time because of the water spray, lead to the condition emergence of its inside iron structure corrosion.

In one embodiment, the two sets of liquid recycling hoppers 17 are installed in the same structure, and the two sets of liquid recycling hoppers 17 are connected to the evaporative condenser 19 and the evaporator 26 in the same manner, so that the two sets of liquid recycling hoppers 17 can collect water on the surface of the evaporative condenser 19 and the evaporator 26.

In one embodiment, the interior of each of the two sets of liquid recovery hoppers 17 is inverted cone shaped to facilitate delivery of water to one end of each of the two sets of water passing holes 18.

In one embodiment, the side wall of the air diffuser 21 is provided with a first built-in convex groove 38 and a second built-in convex groove 39, a first semicircular baffle 40 is slidably installed inside the first built-in convex groove 38, a first magnetic plate 41 is fixedly installed at one end of the first semicircular baffle 40, a first built-in blind hole 42 is arranged at the upper part of the first semicircular baffle 40, a second semicircular baffle 43 is slidably installed inside the second built-in convex groove 39, a second magnetic plate 44 is fixedly installed at one end of the second semicircular baffle 43, a second built-in blind hole 45 is arranged at the upper part of the second semicircular baffle 43, when the defrosting operation is performed in winter, the heater 12 inside the first water tank 4 heats the water inside, the hot water is sprayed out from the six groups of first nozzles 16 by using the first water pump 13, steam is generated during spraying, and the steam moves upwards because the density of the steam is less than the atmospheric density, the first semicircular baffle 40 and the second semicircular baffle 43 move oppositely to separate the first magnet plate 41 from the second magnet plate 44, at the moment, water vapor can be emitted from the air diffusing port 21, the first built-in blind hole 42 and the second built-in blind hole 45 facilitate the movement of the first semicircular baffle 40 and the second semicircular baffle 43, the leakage-proof funnel 22 prevents the water vapor from deviating from the air diffusing port 21, the first built-in convex groove 38 and the second built-in convex groove 39 can store and use the first semicircular baffle 40 and the second semicircular baffle 43, through the arranged air diffusing port 21, the water vapor in the air conditioner with the constant-temperature defrosting function can be conveniently discharged, the phenomenon that the water vapor is attached to the surface of the internal structure to be cooled and frozen due to untimely discharge of the water vapor is avoided, and convenience is brought to the use of the air conditioner with the constant-temperature defrosting function.

In one embodiment, the first magnet plate 41 and the second magnet plate 44 are attached to each other and located on the same horizontal line, so that the first magnet plate 41 and the second magnet plate 44 cannot be attached to each other due to the misalignment between the first magnet plate 41 and the second magnet plate 44, and the water vapor is not ejected from the non-control-ventilation opening 21.

In one embodiment, the air diffuser 21 and the leakage preventing funnel 22 are located above the six sets of first nozzles 16 to facilitate the discharge of the upwardly moving water vapor.

In one embodiment, the set of water passage holes 18 is positioned on the same vertical line as the opening on the bottom surface of the inside of the set of liquid recovery hoppers 17, so that the used water is collected back into the inside of the first and second water tanks 4 and 9.

The working principle is as follows:

when the air conditioner connecting circuit with the constant-temperature defrosting function is used, the exhaust fan 3 and the blower 10 enable indoor air to enter the interior of the shell 1 through the first fresh air port 23 and the second fresh air port 24 and finally pass through the evaporative condenser 19 and the evaporator 26 and be discharged from the exhaust port 2 and the air supply port 11, in cold weather, the evaporative condenser 19 (serving as an evaporation device) absorbs heat to maintain the circulation of refrigerant, the evaporator 26 generates a frosting phenomenon, the heater 12 heats water in the first water tank 4, the water passes through the first water guide pipe 14 and the second water guide pipe 15 by using the first water pump 13 and is finally sprayed out from the six groups of first nozzles 16 and falls on the surface of the evaporative condenser 19 to be defrosted, in summer, the six groups of first nozzles 16 and the six groups of second nozzles 30 are used for cooling protection, and when the six groups of first nozzles 16 spray water, part of the water passes through the surface of the evaporative condenser 19, finally falls on one side of the oscillating plate 34, the exhaust fan 3 is in a working state in the process, external air passes through the first fresh air port 23, the evaporative condenser 19 and the first water baffle 20 and is finally exhausted from the exhaust port 2, when the part of air passes through the oscillating plate 34, the air passes through the groups of built-in grooves 35, the groups of first through holes 36 and the groups of second through holes 37, in the process, the two groups of expansion springs 33 are in a compression state, when the exhaust fan 3 stops working, the two groups of expansion springs 33 are under the double action of self elasticity and inertia to drive the oscillating plate 34 to do reciprocating motion, when the motion stops, the oscillating plate reaches the original position, in the reciprocating motion process, water on the surface of the oscillating plate 34 is under the action of inertia and gravity to be separated from the oscillating plate 34, enters the inside of the first water tank 4 through the group of liquid recovery bucket 17 and the group of water through hole 18, the other group of liquid recovery bucket 17 can be operated simultaneously, the liquid recovery bucket 17 can collect the sprayed water, the situation that the iron structure inside the air conditioner is rusted due to the fact that the sprayed water is in the air conditioner with the constant-temperature defrosting function for a long time is avoided, meanwhile, when the air conditioner is used for defrosting operation in winter, the heater 12 inside the first water tank 4 can heat the water inside the air conditioner, the hot water is sprayed out from the six groups of first nozzles 16 through the first water pump 13, water vapor is generated during spraying, the water vapor moves upwards due to the fact that the density of the water vapor is smaller than the atmospheric density, the first semicircular baffle plate 40 and the second semicircular baffle plate 43 move in the opposite direction to separate the first magnet plate 41 from the second magnet plate 44, the water vapor can be emitted from the air emitting port 21 at the moment, the first built-in blind hole 42 and the second built-in blind hole 45 facilitate the movement of the first semicircular baffle plate 40 and the second semicircular baffle plate 43, the leakage-proof funnel 22 prevents the water vapor from deviating from the air emitting port 21, the first built-in convex groove 38 and the second built-in convex groove 39 can be used for storing the first semicircular baffle 40 and the second semicircular baffle 43, and water vapor in the air conditioner with the constant-temperature defrosting function can be conveniently discharged through the arranged air outlet 21, so that the phenomenon that the water vapor is attached to the surface of the internal structure to be cooled and frozen to be solid due to untimely discharge of the water vapor is avoided, and convenience is brought to the use of the air conditioner with the constant-temperature defrosting function.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The air conditioner with the constant-temperature defrosting function is characterized by comprising a shell (1), wherein an air outlet (2) and an exhaust fan (3) are arranged at an opening at one end of the shell (1), a first water tank (4), a four-way valve (5), a compressor (6), a partition plate (7), an expansion valve (8) and a second water tank (9) are arranged at an opening at the other end of the shell (1), an air feeder (10) and an air supply outlet (11) are arranged at an opening at the other end of the shell (1), a first water pump (13), a group of liquid recovery hoppers (17), a group of water through holes (18) and a first water baffle plate (20) are arranged on the upper portion of the first water tank (4), a first water guide pipe (14) is installed at one end of the first water pump (13) in a clamping manner, one end of the first water guide pipe (14) penetrates through the top surface inside the first water tank (4), a second water guide pipe (15) is installed at the, and one side of the second water guiding pipe (15) is provided with six groups of first nozzles (16), the upper part of one group of the liquid recovery hopper (17) is fixedly provided with an evaporative condenser (19), the upper part of the shell (1) is provided with an air diffusing port (21) and an air return port (25), the inner top surface of the shell (1) is fixedly provided with a leakage-proof funnel (22), the inner bottom surface of the first water tank (4) is provided with a heater (12), the four-way valve (5) is connected with the compressor (6), the evaporative condenser (19) and the evaporator (26), the end surface of the shell (1) is provided with a first fresh air port (23) and a second fresh air port (24), one side of the clapboard (7) is fixedly provided with five groups of exhaust valves (32), the evaporative condenser (19) and the evaporator (26) are connected through an expansion valve (8), the upper part of the second water tank (9) is provided with the other group of the liquid recovery hopper, Another group's limbers (18), second water pump (27) and second apron (31), the one end joint of second water pump (27) has third aqueduct (28), and the inside top surface of second water tank (9) is run through to the one end of third aqueduct (28), fourth aqueduct (29) are installed to the other end joint of second water pump (27), and six second nozzles (30) of group are installed to one side of fourth aqueduct (29).

2. The air conditioner with the constant-temperature defrosting function according to claim 1, wherein two sets of expansion springs (33) are fixedly installed at one end of the evaporative condenser (19), an oscillating plate (34) is fixedly installed at one end of the two sets of expansion springs (33), a plurality of sets of built-in grooves (35) are formed in the oscillating plate (34), a first through hole (36) is formed in each of the plurality of sets of built-in grooves (35), and a second through hole (37) is formed in each of the plurality of sets of built-in grooves (35).

3. An air conditioner with constant temperature defrosting function according to claim 2, characterized in that the two sets of the liquid recovery hoppers (17) are installed in the same structure, and the two sets of the liquid recovery hoppers (17) are connected with the evaporative condenser (19) and the evaporator (26) respectively in the same way.

4. An air conditioner with constant temperature defrosting function according to claim 3 is characterized in that the insides of the two liquid recovery hoppers (17) are in the shape of reverse cones.

5. The air conditioner with the constant-temperature defrosting function is characterized in that a first built-in convex groove (38) and a second built-in convex groove (39) are arranged on the side wall of the air diffuser opening (21), a first semicircular baffle plate (40) is slidably mounted inside the first built-in convex groove (38), a first magnet plate (41) is fixedly mounted at one end of the first semicircular baffle plate (40), a first built-in blind hole (42) is arranged at the upper part of the first semicircular baffle plate (40), a second semicircular baffle plate (43) is slidably mounted inside the second built-in convex groove (39), a second magnet plate (44) is fixedly mounted at one end of the second semicircular baffle plate (43), and a second built-in blind hole (45) is arranged at the upper part of the second semicircular baffle plate (43).

6. An air conditioner with a thermostatic defrosting function according to claim 5, characterized in that the first magnet plate (41) and the second magnet plate (44) are attached to each other and are located on the same horizontal line.

7. An air conditioner with a thermostatic defrosting function according to claim 1 characterized in that the air diffuser (21) and the leakage preventing funnel (22) are located above six sets of the first nozzles (16).

8. An air conditioner with a constant temperature defrosting function according to claim 1, characterized in that a group of the water passing holes (18) and an opening of the inner bottom surface of a group of the liquid recovery hoppers (17) are all located on the same vertical line.

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