CN218120035U - Mobile air conditioner with ice making function - Google Patents

Abstract

The utility model discloses a mobile air conditioner with ice making function, which comprises an air cooler body, wherein the air cooler body is provided with at least one air inlet and one air outlet, a water tank placing cavity is arranged at the position close to the bottom of the air cooler body, a water tank is placed in the water tank placing cavity, and a water pump is connected outside or inside the water tank; an ice machine subassembly, this ice machine subassembly is connected with the water pump through a water pipe, the utility model has the advantages of reasonable design, through design ice machine subassembly and ice-cube dispersion devices, can make the air-cooler have the ice-making function simultaneously concurrently, and then utilize the water in the water tank among the air-cooler to reach the ice-making function, the ice-cube of making is carried through the dispersion of ice-cube dispersion devices, with the even air-out position of arranging in the air-cooler of ice-cube, thereby can reach further refrigeration effect when realizing the cold wind function, the wasting of resources has also been avoided, the consumption of manpower has been reduced, the practicality of air-cooler has wholly been promoted.

Description

Mobile air conditioner with ice making function

Technical Field

The utility model relates to a mobile air conditioning technology field especially relates to a mobile air conditioning who has system ice function concurrently.

Background

At present, the mobile air conditioner for industrial use compresses gaseous refrigerant into high-temperature high-pressure gaseous refrigerant through a scroll compressor, the gaseous refrigerant is sent to a condenser through a high-pressure pipe to be cooled into normal-temperature high-pressure liquid refrigerant, the heat generated by the condenser is discharged through a fan, the scroll compressor set enables the refrigerant to enter an evaporator through a low-pressure pipe, the space of the refrigerant after entering an evaporator assembly is increased, the pressure is reduced, the liquid refrigerant is changed into the gaseous low-temperature refrigerant, and therefore a large amount of heat is absorbed, and the evaporator generates cold air.

The bottom of the mobile air conditioner is provided with a water tank structure, so that water continuously generated by a condenser can be collected in the working and using process of the air cooling unit and is stored in the water tank through a pipeline, and when the water amount in the water tank reaches a certain amount, the water tank can be dumped, so that the treatment mode not only wastes resources, but also consumes manpower, and the industrial air cooler is inconvenient to use; present air-cooler does not all possess the system ice function, consequently, urgently need one kind can be when make full use of water tank ponding, can make the air-cooler possess the machine of system ice effect again, solves above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to prior art's current situation, a mobile air conditioner who has the system ice function is provided, this air-cooler has had the system ice function simultaneously, can utilize the water in the water tank to reach the system ice function in the air-cooler, the ice-cube of making is carried to the air-out position of air-cooler to can reach the refrigeration effect when realizing the cold wind function, and then avoid the wasting of resources, reduced consumeing of manpower, wholly promoted the practicality of air-cooler.

The utility model provides a technical scheme that above-mentioned technical problem adopted does:

a mobile air conditioner with ice making function comprises

The air cooler body is provided with at least one air inlet and one air outlet, a water tank placing cavity is formed in the position, close to the bottom, of the air cooler body, a water tank is placed in the water tank placing cavity, and a water pump is connected to the outside or the inside of the water tank;

the ice making machine assembly is connected with the water pump through a water pipe, a water storage tank is arranged in the ice making machine assembly, the water pump pumps water in the water tank into the water storage tank, an ice making system connected with the water storage tank is arranged in the ice making machine assembly, an ice storage pool connected with the ice making system is arranged on the ice making assembly, and the ice making system makes ice from the water in the water storage tank and stores the ice in the ice storage pool;

the ice cube dispersing device is arranged at the air outlet or a position close to the air outlet, the ice cube dispersing device is integrally or separately connected to the ice maker assembly, and the ice cube dispersing device can disperse ice cubes in the ice storage tank to the position of the air outlet.

As an improvement, the ice cube dispersing device comprises a fixed cover which is arranged corresponding to the air outlet, a spiral conveying unit and a plurality of ice cube distribution plates are arranged in the fixed cover, the ice cube distribution plates are connected to the fixed cover, and the spiral conveying unit conveys ice cubes in the ice storage pool to the ice cube distribution plates respectively when rotating.

And then, the improvement is that each group of ice splitter plates are respectively arranged on the inner walls of the two sides of the fixed cover in a splayed shape, and an ice cavity convenient for placing ice cubes is reserved between the adjacent ice splitter plates.

And a plurality of water through holes are uniformly distributed on each ice block flow distribution plate.

The improved structure is characterized by further comprising a return pipe, wherein one end of the return pipe is connected to the bottom of the fixed cover, and the other end of the return pipe penetrates through the air cooler body and is connected into the water tank.

Improve again, the spiral transports the unit and includes the motor and connects the spiral auger on the motor, spiral auger upper end coupling is in fixed cover upper end, spiral auger outer wall has a plurality of helicla flutes, motor drive spiral auger rotates to carry the ice-cube flow distribution plate to different positions through the helicla flute with the ice-cube in the ice-cube storage pond on.

And the two sides of the bottom end of the fixed cover are provided with support columns connected with the ice machine assembly.

The improved ice making system comprises an ice making cylinder, a compressor, a condenser, an evaporator, a drying filter, an expansion valve and a one-way valve, wherein the compressor is connected with the condenser through a first pipeline, the condenser is connected with the drying filter through a second pipeline, the drying filter is connected to the evaporator through a third pipeline, the evaporator is arranged on the inner wall of the ice making cylinder, the expansion valve used for adjusting the flow of refrigerant and controlling the pressure of the refrigerant is connected onto the third pipeline, a water tank is connected with an ice making chamber through a fourth pipeline, the one-way valve used for preventing the backflow and the air leakage of the refrigerant is arranged on the fourth pipeline, and a reversing valve is further arranged between the compressor and the evaporator.

And the ice making device is further improved, a speed reducer is connected outside the ice making cylinder, a main shaft is connected on the speed reducer, an ice blade is connected on the main shaft, a water separator corresponding to the evaporator is connected at the upper end of the ice making cylinder, a water inlet pipe connected with a water storage tank is arranged at the lower end of the ice making cylinder, the water inlet pipe is connected with the water separator, and an ice outlet convenient for ice cubes to enter the ice storage tank is formed in the side part of the ice making cylinder.

Compared with the prior art, the utility model has the advantages of: the utility model has the advantages of reasonable design, through design ice machine subassembly and ice-cube dispersion devices, can make the air-cooler have the system ice function simultaneously concurrently, and then utilize the water in the water tank in the air-cooler to reach the system ice function, the ice-cube of making is carried through ice-cube dispersion devices's dispersion, with the even arrangement of ice-cube in the air-out position of air-cooler, thereby can reach further refrigeration effect when realizing the cold wind function, the wasting of resources has also been avoided, the consumption of manpower has been reduced, the practicality of air-cooler has wholly been promoted.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic diagram of the ice maker assembly separating structure of the present invention;

FIG. 3 is a schematic view of the ice dispenser of the present invention;

FIG. 4 is an internal structural layout view of the ice maker assembly of the present invention;

FIG. 5 is a schematic structural view of the ice skate of the present invention;

FIG. 6 is a schematic structural view of example 3;

FIG. 7 is another schematic structure of embodiment 3.

Reference numerals: 1. an air cooler body; 2. an ice maker assembly; 10. an air inlet; 11. an air outlet; 12. a water tank placing cavity; 13. a water tank; 14. a water pump; 15. a fourth pipeline; 16. a one-way valve; 20. a water storage tank; 21. an ice making system; 22. an ice cube dispersing device; 210. an ice storage tank; 23. an ice making cylinder; 24. a compressor; 25. a condenser; 26. an evaporator; 27. drying the filter; 110. a cold air pipe; 220. a fixed cover; 221. a screw conveyance unit; 222. an ice diverter plate; 230. a speed reducer; 231. a main shaft; 232. an ice skate blade; 233. a water separator; 234. a water inlet pipe; 235. an ice outlet; 240. a first pipeline; 250. a second pipeline; 270. a third pipeline; 271. an expansion valve; 2200. A return pipe; 2201. a support column; 2210. a motor; 2211. a spiral auger; 2212. a helical groove; 2220. an ice cube chamber; 2221. and water passing holes.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

Example 1

As shown in fig. 1 to 5, the present invention provides a mobile air conditioner with ice making function, which comprises

The cooling fan comprises an air cooler body 1, wherein the air cooler body 1 is provided with at least one air inlet 10 and an air outlet 11, a water tank 13 placing cavity 12 is arranged at a position close to the bottom of the air cooler body 1, a water tank 13 is placed in the water tank 13 placing cavity 12, and a water pump 14 is connected to the outside or the inside of the water tank 13;

the ice maker assembly 2 is connected with the water pump 14 through a water pipe, a water storage tank 20 is arranged in the ice maker assembly 2, the water pump 14 pumps water in the water tank 13 into the water storage tank 20, an ice making system 21 connected with the water storage tank 20 is arranged in the ice maker assembly 2, an ice storage tank 210 connected with the ice making system 21 is arranged on the ice maker assembly, and the ice making system 21 makes ice from the water in the water storage tank 20 and then stores the ice into the ice storage tank 210;

the ice cube dispersing device 22 is arranged at the air outlet 11 or a position close to the air outlet 11, the ice cube dispersing device 22 is integrally or separately connected to the ice maker assembly 2, and the ice cube dispersing device 22 can disperse the ice cubes in the ice storage tank 210 to the position of the air outlet 11;

an air inlet 10 is arranged at the upper end of the air cooler body 1 or an air outlet 11 is arranged at the side part of the ice maker-free assembly 2, when the air inlet 10 is arranged at the upper end of the air cooler body 1, a cold air pipe 110 is further arranged at the same side position of the air outlet 11, so that cold air of an evaporator can be conveniently discharged, the air outlet 11 is arranged on the side surface corresponding to the ice maker assembly 2, ice cubes generated by an ice maker can be conveniently and uniformly dispersed to the position corresponding to the air outlet 11, and the refrigeration effect can be realized through the evaporation and heat absorption of the ice cubes during air outlet; the water tank 13 at the bottom of the air cooler body 1 is provided with a cavity 12, which is designed for accommodating the water tank 13 and is matched with the volume shape of the water tank 13, when the air cooler body 1 works and uses, the internal condenser 25 can continuously generate water and stores the water into the water tank 13 through a pipeline, when the water amount in the water tank 13 reaches a certain amount, the water level switch acts to switch on the water pump 14, and then the water in the water tank 13 is pumped into the ice maker assembly 2 through the filter and automatically enters an ice making mode; in the ice storage tank 210 for storing the prepared ice, the ice is prepared through the ice preparation system 21, the prepared ice blocks are uniformly sent to the front position of the air outlet cover through the ice block dispersing device 22, and finally the ice blocks are dispersed on the air outlet surface corresponding to the air outlet cover through the ice block splitter plate 222;

the ice block dispersing device 22 is arranged right in front of the air outlet 11, so that ice blocks in the ice storage tank can be conveniently dispersed to the area range corresponding to the air outlet 11 through the ice block dispersing device 22, the best refrigeration and cooling effects can be achieved, the ice storage tank 210 is arranged in the ice maker assembly 2 and extends to the upper end of the ice maker assembly 2, and the ice block dispersing device 22 can be conveniently installed and used;

through combining the air-cooler with the ice machine in this design, can make the air-cooler have the ice making function simultaneously concurrently, and then utilize the water in the water tank 13 in the air-cooler to reach the ice making function, the ice-cube of making is carried through the dispersion of ice-cube dispersion devices 22, arrange the even air-out position in the air-cooler of ice-cube, thereby can reach further refrigeration effect when realizing the cold wind function, the wasting of resources has also been avoided, the consumption of manpower has been reduced, the practicality of air-cooler has wholly been promoted.

In this embodiment, the ice dispenser 22 includes a fixing cover 220 disposed corresponding to the air outlet 11, a spiral conveying unit 221 and a plurality of ice dispenser units 222 are disposed in the fixing cover 220, the ice dispenser units 222 are connected to the fixing cover 220, and the spiral conveying unit 221 respectively conveys the ice cubes in the ice storage tank 210 to the ice dispenser units 222 when rotating;

the fixed cover 220 can be an air outlet cover body structure of the air cooler, and can also be an air cover body structure connected with the air outlet cover or directly corresponding to the air outlet cover, so that the air outlet with the largest area is realized when the air of the air cooler is exhausted, and a better refrigeration effect is achieved, the spiral conveying unit 221 in the fixed cover 220 can convey ice cubes upwards so as to convey the ice cubes to the ice cube distribution plates 222 with different heights, when the ice cubes on the ice cube distribution plate 222 on one layer are accumulated to a certain amount, the ice cubes can automatically enter the previous layer along with the spiral rotation of the spiral conveying unit 221, and finally the ice cubes are fully distributed on the ice cube distribution plates 222, the outer ends of the ice cube distribution plates 222 are respectively connected to the cover walls on the two sides in the fixed cover 220 and are uniformly distributed on the inner wall of the fixed cover 220, and the ice cube cavities 2220 between the upper ice cube distribution plate 222 and the lower ice cube distribution plate 222 are adapted to the ice making size of the ice making system 21.

In this embodiment, each set of ice splitter plates 222 is disposed on the inner walls of the two sides of the fixed cover 220 in an "eight" shape, and an ice cavity 2220 for placing ice is formed between the adjacent ice splitter plates 222;

the ice distribution plates 222 are arranged by taking the spiral conveying unit 221 as a central axis, and each group of ice distribution plates 222 is in an equilong splayed distributed design, so that equidistant ice cavities 2220 are formed between the upper and lower adjacent ice distribution plates 222, the size of ice made by the spiral conveying unit 221 is adapted, the ice conveying efficiency is improved, and the splayed design of the ice distribution plates 222 conforms to the position of the spiral conveying unit 221 for spirally conveying ice.

In this embodiment, each ice splitter plate 222 is distributed with a plurality of water through holes 2221; the water holes 2221 uniformly distributed on the ice cube distribution plate 222 are consistent in hole pattern size, so that water can flow through the water holes 2221 in the ice cube melting process conveniently, and finally flows to the bottom of the fixed cover 220, and further drainage is facilitated.

In this embodiment, the cooling device further includes a return pipe 2200, one end of the return pipe 2200 is connected to the bottom of the fixing cover 220, and the other end of the return pipe passes through the air cooler body 1 and is connected to the inside of the water tank 13;

when the ice blocks arranged on the ice block flow distribution plate 222 are melted, the ice blocks can converge to the bottom of the fixed cover 220, the bottom of the fixed cover 220 can be designed to be inclined, the inclined direction is the direction close to the return pipe 2200, so that water flow can conveniently collect the position of the return pipe 2200, when the water in the water tank 13 reaches a certain water amount, a new round of ice making link can be automatically entered, and the circulation is realized, so that the continuous ice making process of the ice maker is realized, and the refrigeration effect of the air cooler is improved.

In this embodiment, the spiral conveying unit 221 includes a motor 2210 and a spiral auger 2211 connected to the motor 2210, the upper end of the spiral auger 2211 is coupled to the upper end of the fixing cover 220, the outer wall of the spiral auger 2211 has a plurality of spiral grooves 2212, and the motor 2210 drives the spiral auger 2211 to rotate, so that the ice cubes in the ice storage tank 210 are conveyed to the ice cube diversion plates 222 at different positions through the spiral grooves 2212;

motor 2210 drive spiral auger 2211 rotates, spiral auger 2211 is at the rotation in-process, can send the ice-cube in the ice storage pond 210 to the top through the helicla flute 2212 of bottom, then disperse to on ice-cube flow distribution plate 222, all can hold a certain amount of ice-cube on the helicla flute 2212 on spiral auger 2211 outer wall, thereby can make things convenient for the transport of ice-cube, after the ice-cube is regularly carried and is accomplished, ice maker can automatic stop transport, according to the real-time change situation of ambient temperature, most of ice-cube melts after the use of a period of time, ice making system 21 starts the ice-cube once more, ice-cube dispersion devices 22 starts once more and transports the ice-cube simultaneously.

In this embodiment, two sides of the bottom end of the fixed cover 220 are provided with support columns 2201 connected with the ice maker assembly 2;

the supporting columns 2201 at the bottom end of the fixed cover 220 are respectively fixed on the shell of the ice maker assembly 2, so that the two sides of the fixed cover 220 are effectively supported; the front side of the fixed cover 220 is designed to be a grid structure, so that air can be conveniently discharged.

In this embodiment, the ice making system 21 includes an ice making cylinder 23, a compressor 24, a condenser 25, an evaporator 26, a dry filter 27, an expansion valve 271, and a check valve 16, where the compressor 24 is connected to the condenser 25 through a first pipeline 240, the condenser 25 is connected to the dry filter 27 through a second pipeline 250, the dry filter 27 is connected to the evaporator 26 through a third pipeline 270, the evaporator 26 is disposed on an inner wall of the ice making cylinder 23, the third pipeline 270 is connected to the expansion valve 271 for adjusting a flow rate of a refrigerant and controlling a pressure of the refrigerant, the water tank 13 is connected to an ice making chamber through a fourth pipeline 15, the fourth pipeline 15 is provided with the check valve 16 for preventing backflow and air leakage of the refrigerant, and a direction change valve is further disposed between the compressor 24 and the evaporator 26;

the evaporator 26 is disposed on the inner wall of the ice making cylinder 23 to facilitate making ice from water entering the ice making cylinder 23, and after making ice, the ice is discharged from the ice outlet 235 and stored in the ice storage tank 210, and then the ice is transported to the ice splitter 222 by the spiral transporting unit 221;

when the ice making system 21 makes ice, the water in the water storage tank 20 is pumped to the water separator 233 by the water pump 14, the water separator 233 can uniformly flow the water to the evaporator 26 cooled by the low-temperature liquid refrigerant, and the evaporator 26 can generate an ice making effect on the water; when the water is cooled to the freezing point, the water cooled to the freezing point is solidified into ice, and the water which is not frozen by the evaporator 26 flows into the water storage tank 20 again to start the cycle again through the water pump 14;

when the ice blocks reach the required thickness, the ice blocks enter the deicing state, high-pressure hot gas discharged by the compressor 24 is guided to the evaporator 26 through the reversing valve, a water film is formed between the ice blocks and the evaporator 26, the water film enables the ice blocks to be separated from the evaporator 26, and the ice blocks freely fall into an ice storage tank below under the action of gravity, so that the whole ice making process is realized.

In this embodiment, a speed reducer 230 is connected outside the ice making cylinder 23, a main shaft 231 is connected to the speed reducer 230, an ice blade 232 is connected to the main shaft 231, a water separator 233 corresponding to the evaporator 26 is connected to the upper end of the ice making cylinder 23, a water inlet pipe 234 connected to the water storage tank 20 is arranged at the lower end of the ice making cylinder 23, the water inlet pipe 234 is connected to the water separator 233, and an ice outlet 235 facilitating ice cubes to enter the ice storage tank 210 is formed in the side portion of the ice making cylinder 23;

a flow control valve is arranged between the water storage tank 20 and the water separator 233, and the flow of water flow can be accurately controlled through the arranged flow control valve, so that a uniform ice making effect is realized;

when the ice making cylinder 23 cuts ice cubes in the ice storage tank 210, the speed reducer 230 drives the main shaft 231 to rotate, the ice blade 232 rotates synchronously during the rotation, the ice cubes in the ice storage tank 210 are cut during the rotation of the ice blade 232, and the crushed ice cubes are accordingly obtained, and then the ice cubes run onto the ice cube distribution plate 222 through the spiral conveying unit 221, a water inlet pipe 234 on the ice making cylinder 23 controls the water amount to enter the water separator 233 through a flow control valve, the water separator 233 continuously flows through the evaporator 26 and then flows back into the water storage tank 20 through a water pipe, while the water separator 233 continuously flows through the ice maker, the evaporator 26 on the outer wall of the ice making cylinder 23 continuously refrigerates, so that the water gradually drops to the freezing point in the ice maker to form ice cubes, and the ice cubes are stored in the ice storage tank 210; the ice maker adopts a plastic soft film structure, so that the ice cubes can be conveniently demoulded.

The ice maker assembly 2 in this embodiment makes ice as follows:

1. pumping the water in the water tank 13 to the water storage tank 20 by the water pump 14, and then sending the water to the water separator 233 by the water pump 14 through the flow control valve;

2. the water in the water separator 233 is uniformly sprayed on the surface of the ice making cylinder 23, and the evaporator 26 is arranged on the surface of the ice making cylinder 23, at this time, the spraying effect is similar to a water curtain, the water flows through the inner wall surface of the ice making cylinder 23, the water is cooled to the freezing point, and the water which is not evaporated and frozen flows into the water storage tank 20 through the porous grooves on the ice making cylinder 23, and the cycle work is restarted;

3. when the ice reaches the required thickness, the hot gas discharged by the compressor 24 is led back into the interlayer wall of the ice making cylinder 23 to replace the low-temperature liquid refrigerant, a layer of water film is formed between the ice and the wall of the evaporation tube, and the water film plays a role of lubrication when the ice freely falls into the groove below under the action of gravity;

4. the water in the water storage tank 20 continuously circulates through the plate-type or cellular evaporator 26 through the water pump 14 to realize ice making;

5. after the compressor 24 is operated, the mixture is subjected to air suction, compression, air exhaust, condensation (liquefaction), throttling and evaporation with heat absorption at the low temperature of-10 to-18 ℃ in the evaporator 26;

6. the frozen water is continuously condensed into an ice layer on the surface of the evaporator 26 with lower temperature at the water temperature of 0 ℃, when the ice layer is condensed to a certain thickness, the evaporation temperature of the refrigerant reaches the set temperature of the temperature control, the defrosting electromagnetic valve is switched on, the heat pump type is usually adopted for deicing, and the next circulation is realized.

Example 2

As shown in fig. 1, the fixing cover 220 is set as an air outlet cover, the fixing cover 220 is connected with the air outlet 11 of the air cooler body 1, and meanwhile, the ice maker assembly 2 is partially embedded into the air cooler body 1, so that a bottom supporting column 2201 structure of the fixing cover 220 can be eliminated, and the matching between the air cooler body 1 and the ice maker assembly 2 structure can be improved while the number of assembling parts is reduced.

Example 3

As shown in fig. 6 to 7, the ice-cube distribution plates 222 in the fixing cover 220 are arranged in a "one" shape, when the screw auger 2211 is driven by the motor 2210 to rotate, ice cubes can enter the corresponding ice-cube distribution plates 222 under the driving of the spiral groove 2212, and each ice-cube distribution plate 222 is designed in a "one" shape with equal length and equal distance, so that when ice cubes enter the corresponding ice-cube cavities 2220, the newly entered ice cubes can be pushed forward by the later entered ice cubes until each ice-cube cavity 2220 is fully stacked, and when each ice-cube cavity 2220 is fully stacked, according to the time setting, the ice-making system 21 automatically stops ice-making transportation, and after a period of use, automatically starts to make ice again;

ice-cube flow distribution plate 222 in the fixed cover 220 is the setting of wave type, and ice-cube flow distribution plate 222's wave band length is the same moreover, and when the ice-cube got into ice-cube chamber 2220, the ice-cube is piled up the back, can further increase the storage of ice-cube, when improving refrigeration effect, can further increase the refrigeration time of air-cooler body 1, saves the system ice number of times simultaneously, promotes the life of ice machine subassembly 2.

It should be noted that the circuit control principle involved in the present invention is a conventional technical means known to those skilled in the art, and therefore, is not described in detail.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (9)

1. A mobile air conditioner with ice making function is characterized in that: comprises that

The air cooler body is provided with at least one air inlet and one air outlet, a water tank placing cavity is formed in the position, close to the bottom, of the air cooler body, a water tank is placed in the water tank placing cavity, and a water pump is connected to the outside or the inside of the water tank;

the ice making machine assembly is connected with the water pump through a water pipe, a water storage tank is arranged in the ice making machine assembly, the water pump pumps water in the water tank into the water storage tank, an ice making system connected with the water storage tank is arranged in the ice making machine assembly, an ice storage pool connected with the ice making system is arranged on the ice making assembly, and the ice making system makes ice from the water in the water storage tank and stores the ice in the ice storage pool;

the ice cube dispersing device is arranged at the air outlet or a position close to the air outlet, the ice cube dispersing device is integrally or separately connected to the ice maker assembly, and the ice cubes in the ice storage tank are dispersed to the position of the air outlet by the ice cube dispersing device.

2. A mobile air conditioner with an ice making function according to claim 1, wherein: the ice cube dispersion devices are including the fixed cover that corresponds the setting with the air outlet, be equipped with the spiral in the fixed cover and transport unit and a plurality of group ice cube flow distribution plate, the ice cube flow distribution plate is connected on fixed cover, the spiral transports the unit and delivers to the ice cube flow distribution plate respectively with the ice cube in the ice storage pond when rotating on.

3. A mobile air conditioner with an ice making function according to claim 2, wherein: each group of ice splitter plates are respectively arranged on the inner walls of two sides of the fixed cover in a splayed shape, and an ice cavity convenient for placing ice cubes is reserved between the adjacent ice splitter plates.

4. A mobile air conditioner with an ice making function according to claim 2, wherein: each ice-cube flow distribution plate is evenly distributed with a plurality of water through holes.

5. A mobile air conditioner with an ice making function according to claim 2, wherein: the air cooler is characterized by further comprising a return pipe, wherein one end of the return pipe is connected to the bottom of the fixed cover, and the other end of the return pipe penetrates through the air cooler body and is connected into the water tank.

6. A mobile air conditioner with an ice making function according to claim 2, wherein: the spiral transports the unit and includes the motor and connects the spiral auger on the motor, spiral auger upper end coupling is in fixed cover upper end, spiral auger outer wall has a plurality of helicla flutes, motor drive spiral auger rotates to carry the ice-cube in the ice storage pond to the ice-cube flow distribution plate of different positions through the helicla flute on.

7. A mobile air conditioner with an ice making function according to claim 2, wherein: and supporting columns connected with the ice maker assembly are arranged on two sides of the bottom end of the fixed cover.

8. The mobile air conditioner with an ice making function according to claim 6, wherein: the ice making system comprises an ice making cylinder, a compressor, a condenser, an evaporator, a drying filter, an expansion valve and a one-way valve, wherein the compressor is connected with the condenser through a first pipeline, the condenser is connected with the drying filter through a second pipeline, the drying filter is connected to the evaporator through a third pipeline, the evaporator is arranged on the inner wall of the ice making cylinder, the third pipeline is connected with the expansion valve used for adjusting the flow of refrigerant and controlling the pressure of the refrigerant, the water tank is connected with an ice making chamber through a fourth pipeline, the fourth pipeline is provided with the one-way valve used for preventing the backflow of the refrigerant from crossing the air, and a reversing valve is further arranged between the compressor and the evaporator.

9. A mobile air conditioner with an ice making function according to claim 8, wherein: the ice making machine is characterized in that a speed reducer is connected outside the ice making cylinder, a main shaft is connected onto the speed reducer, an ice blade is connected onto the main shaft, a water distributor corresponding to the evaporator is connected to the upper end of the ice making cylinder, a water inlet pipe connected with a water storage tank is arranged at the lower end of the ice making cylinder, the water inlet pipe is connected with the water distributor, and an ice outlet through which ice cubes can conveniently enter the ice storage tank is formed in the side portion of the ice making cylinder.

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