CN219099611U - Washing and drying integrated dry cleaner based on air source heat pump - Google Patents

Abstract

The utility model provides a washing and drying integrated dry cleaner based on an air source heat pump, which comprises a heat pump box body, wherein a controller is arranged at the front side of the heat pump box body; the heating assembly is arranged on the inner side of the heat pump box body; the dry-cleaning roller is rotatably connected in the dry-cleaning outer box; the air type condenser is arranged in the heat pump box body; the waste heat absorbing device is arranged on the upper right side of the heat pump box body, and a waste heat recovery pipe of the waste heat absorbing device is fixedly connected with the dry-cleaning outer box; the right end of the conveying pipeline is fixedly connected with the outlet of the heat pump box body, and the left end of the conveying pipeline is fixedly connected with the inlet of the dry-cleaning outer box; the dryer has wide application range, can be suitable for places with indoor air temperature higher than-10 ℃, is particularly suitable for places with concentrated clothes cleaning of factories and the like, can realize quick cleaning and quick drying, and is used throughout the year; environmental protection products, no pollution, no combustion emission substances, no harm to human bodies and good social benefit.

Description

Washing and drying integrated dry cleaner based on air source heat pump

Technical Field

The utility model belongs to the technical field of dry-cleaning dryers, and particularly relates to a washing and drying integrated dry-cleaning machine based on an air source heat pump.

Background

The existing dryer completely adopts a heating mode of electric energy heating, an electric heating tube is electrified to generate high temperature, then a fan blows the electric heating tube, thereby generating hot air, and then the hot air is utilized to dry clothes, so that the clothes are dried.

For example, application number: CN200510120397.9 the present utility model discloses a washing dryer/dryer comprising a cooling water supply device installed at one side of a tub for supplying cooling water into the tub. A condensing plate is installed on an inner wall of the tub, which is cooled by the cooling water. The air for drying the laundry is condensed by the condensing plate.

Based on the search of the above patent and the structural discovery in the combined prior art, the electric heating tube is similar to the electric heating tube in the above patent in long-time power on, and the electric heating tube must input larger power to realize, because a large amount of energy is generated in a shorter time, the generated heat cannot be absorbed well, thereby causing the waste of electric energy.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a washing and drying integrated dry cleaner based on an air source heat pump, which solves the problems that the electric heating tube similar to the electric heating tube in the patent is electrified for a long time, and the electric heating tube can be realized only by inputting larger power, and the generated heat cannot be well absorbed due to the fact that a large amount of energy is generated in a shorter time, so that the waste of electric energy is caused.

The utility model discloses a washing and drying integrated dry cleaner based on an air source heat pump, which is realized by the following specific technical means:

the washing and drying integrated dry cleaner based on the air source heat pump comprises a heat pump box body, wherein a controller is arranged on the front side of the heat pump box body, the heat pump box body is a rectangular box body, four areas are arranged on the heat pump box body, the heat pump box body comprises a compression box, and the compression box is arranged on the lower left side of the heat pump box body; the evaporation box is arranged at the right lower side of the heat pump box body; the condensing box is arranged at the left upper side of the heat pump box body; the filter box is arranged on the upper right side of the heat pump box body; the condensing box comprises an asbestos inner layer which is fixedly connected to the side wall of the condensing box and is a double-layer asbestos plate; the heating assembly is arranged on the inner side of the heat pump box body; the dry-cleaning roller is rotatably connected in the dry-cleaning outer box; the air type condenser is arranged in the heat pump box body; the waste heat absorbing device is arranged on the upper right side of the heat pump box body, and a waste heat recovery pipe of the waste heat absorbing device is fixedly connected with the dry-cleaning outer box; the right end of the conveying pipeline is fixedly connected with the outlet of the heat pump box body, and the left end of the conveying pipeline is fixedly connected with the inlet of the dry-cleaning outer box; the inner cover box is fixedly connected to the inner wall of the dry-cleaning outer box; the driving piece is fixedly connected to the rear wall of the box body of the dry-cleaning outer box, the driving piece is connected with and drives the rear driven wheel through the driving belt, the recovery component is fixedly connected in the heat pump box, and the recovery component is connected with the output end of the air condenser.

Further, the filter box comprises an air inlet, wherein the air inlet is arranged on the right side of the filter box, and the air inlet is of a rectangular opening structure.

Further, the temperature rising assembly further comprises a gas-liquid separator, the gas-liquid separator is fixedly connected in the compression box, and the input end of the gas-liquid separator is fixedly connected with the output end of the evaporator; the compressor is fixedly connected in the compression box, and the input end of the compressor is fixedly connected with the output end of the gas-liquid separator.

Further, the heating assembly comprises a big fan, two big fans are arranged at the big fan, and the two big fans are fixedly connected to the right side wall of the heat pump box body; the evaporator is fixedly connected in the evaporation box.

Further, the dry cleaning roller comprises a rear supporting shaft fixedly connected to the middle of the rear surface of the dry cleaning roller, and a rear driven wheel is fixedly connected to the rear of the rear supporting shaft.

Further, the recovery assembly comprises a liquid storage tank which is fixedly connected with the output end of the air condenser; the input end of the drying filter is connected with the liquid storage tank; the input end of the expansion valve is fixedly connected with the output end of the drying filter, and the output end of the expansion valve is connected with the evaporator.

Further, the air type condenser comprises an inner circulating fan which is fixedly connected in the condensing box and is arranged below the air type condenser; the air extraction fan is fixedly connected to the upper wall of the condensing box.

Further, the inner cover box is a cover body with an arch structure, the inner cover box comprises a cover body air inlet, the cover body air inlet is arranged at the middle position above the inner cover box, and the cover body air inlet is positioned below the opening at the left end of the conveying pipeline; the limiting grooves are arranged on the two side surfaces of the inner surface of the inner cover box and the upper arc-shaped surface, and are longitudinally arranged groove bodies; the reflux mouth is arranged on the rear surface of the inner cover box, and the reflux mouth is connected with the left end of the waste heat recovery pipe.

Further, the waste heat absorbing device comprises a waste heat recovery pipe, the right end of the waste heat recovery pipe is fixedly connected with the upper part of the waste heat absorbing device, and the left end of the waste heat recovery pipe is fixedly connected to the rear surface of the dry cleaning outer box; the recovery driving fan is arranged at the left end of the waste heat recovery pipe and is fixedly connected with the rear wall gas transmission port of the dry cleaning outer box.

Compared with the prior art, the utility model has the following beneficial effects:

the utility model provides a heat source by using the heat pump formed by combining the air source heating components to generate 70-80 ℃ high-temperature air, and the fan is used for conveying hot air generated by the heat pump into the dry cleaner to dry clothes; meanwhile, the heat pump is used for conveying the air with the temperature reduced in the dry cleaner back to the heat pump, on one hand, the heat in the air conveyed by the back-pumping fan is absorbed through the waste heat absorbing device arranged in the heat pump, and meanwhile, the heat is used for preheating the air led into the condensing chamber, so that the initial temperature of the air in the condensing chamber is increased, the air heating time is shortened, meanwhile, the hot air with the temperature reduced again can continuously flow into the evaporating chamber, and the temperature of the hot air is slightly higher than that of the air conveyed into the evaporating chamber by the fan, so that the working medium evaporation speed in the evaporator is increased, the heat efficiency of the heat pump is increased, and meanwhile, the hot air which is originally directly discharged to the outside is reused, so that the energy utilization rate is greatly improved, and the cost is saved.

The utility model has the advantages that the air source heat pump is used for heating the air, and the waste heat absorbing device is used for absorbing the energy in the air originally discharged to the outside, so that the energy utilization rate is improved, and the working cost is reduced. The air heating device using the air source heat pump as the dry cleaning machine has the following advantages:

the air conditioner has wide application range, can be suitable for places with indoor air temperature higher than-10 ℃, is particularly suitable for places with concentrated clothes cleaning of factories and the like, can realize quick cleaning and quick drying, and is used throughout the year.

Environmental protection products, no pollution, no combustion emission substances, no harm to human bodies and good social benefit.

The operation cost is low, the energy-saving effect is outstanding, the return on investment period is short, and the air source heat pump can save 70% of energy; compared with the traditional natural gas and electric heating tube for heating air, the cost is lowest, which is about 1/3 of that of gas type drying, and 1/4 of that of electric heating tube drying.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic diagram of the distribution structure of the internal area of the heat pump tank of the present utility model.

Fig. 3 is a schematic view of the rear structure of the present utility model.

Fig. 4 is a schematic structural view of a heat pump module combined with an air condenser according to the present utility model.

Fig. 5 is a schematic view showing the internal structure of the dry cleaning outer case of the present utility model.

Fig. 6 is a rear structural view of the dry cleaning drum according to the present utility model.

Fig. 7 is a schematic view of the structure of the inner housing of the present utility model.

Fig. 8 is a schematic view of the structure of the recovery assembly of the present utility model.

Fig. 9 is a schematic view of a partially enlarged structure at a of fig. 2 according to the present utility model.

Fig. 10 is a schematic view of a partially enlarged structure of fig. 3B according to the present utility model.

Fig. 11 is a schematic view of a partially enlarged structure at C of fig. 7 according to the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

1. a heat pump box; 101. a compression box; 102. an evaporation tank; 103. a condensing box; 1031. an asbestos inner layer; 104. a filter box; 1041. an air inlet; 2. a controller; 3. dry-cleaning the outer box; 4. a temperature raising component; 401. a large fan; 402. an evaporator; 403. a gas-liquid separator; 404. a compressor; 5. a dry cleaning drum; 501. a rear support shaft; 5011. a rear driven wheel; 6. an air-type condenser; 601. an internal circulation fan; 602. an air extraction fan; 7. a waste heat absorbing device; 701. a waste heat recovery pipe; 7011. recovering the driving fan; 8. a delivery conduit; 9. an inner cover case; 901. a cover air inlet; 902. a flow limiting groove; 903. a return port; 10. a driving member; 11. a recovery assembly; 1101. a liquid storage tank; 1102. drying the filter; 1103. an expansion valve.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more; the terms "upper," "lower," "left," "right," "inner," "outer," "front," "rear," "head," "tail," and the like are used as an orientation or positional relationship based on that shown in the drawings, merely to facilitate description of the utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the utility model. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

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

Examples:

as shown in fig. 1 to 11:

the utility model provides a washing and drying integrated dry cleaner based on an air source heat pump, which comprises a heat pump box body 1, wherein a controller 2 is arranged at the front side of the box body of the heat pump box body 1, a filter box 104 is arranged at the upper right side of the heat pump box body 1, the filter box 104 comprises an air inlet 1041, the air inlet 1041 is arranged at the right side of the filter box 104, and the air inlet 1041 is of a rectangular opening structure; the heating assembly 4 is arranged on the inner side of the heat pump box body 1; the dry cleaning roller 5 is rotatably connected in the dry cleaning outer box 3, the dry cleaning roller 5 comprises a rear support shaft 501 fixedly connected in the middle of the rear surface of the dry cleaning roller 5, and a rear driven wheel 5011 is fixedly connected at the rear of the rear support shaft 501; the air type condenser 6 is arranged in the heat pump box body 1; the waste heat absorbing device 7 is arranged on the upper right side of the heat pump box body 1, and a waste heat recovery pipe 701 of the waste heat absorbing device 7 is fixedly connected with the dry cleaning outer box 3; the right end of the conveying pipeline 8 is fixedly connected with the outlet of the heat pump box body 1, and the left end of the conveying pipeline 8 is fixedly connected with the inlet of the dry-cleaning outer box 3; the inner cover box 9 is fixedly connected to the inner wall of the dry cleaning outer box 3; the driving piece 10 is fixedly connected to the rear wall of the box body of the dry cleaning outer box 3, the driving piece 10 is connected with and drives the rear driven wheel 5011 through a driving belt, the recovery component 11 is fixedly connected in the heat pump box body 1, and the recovery component 11 is connected with the output end of the air condenser 6.

The heating assembly 4 comprises a big fan 401, wherein the big fan 401 is provided with two parts, and the two big fans 401 are fixedly connected to the right side wall of the heat pump box body 1; the evaporator 402 is fixedly connected in the evaporation tank 102, as shown in fig. 4, the temperature rising assembly 4 with the structure is arranged in the evaporation tank 102, the evaporation tank 102 is arranged at the right lower side of the heat pump box body 1, when the large fan 401 is electrified to work, external natural wind can be extracted and acts on the tube fin type evaporator 402 to form forced convection, working medium in the evaporator 402 can absorb energy of external air and is heated to evaporate, and low-temperature and low-pressure steam is formed.

The temperature raising assembly 4 further comprises a gas-liquid separator 403, the gas-liquid separator 403 is fixedly connected in the compression box 101, and the input end of the gas-liquid separator 403 is fixedly connected with the output end of the evaporator 402; the compressor 404 is fixedly connected in the compression box 101, the input end of the compressor 404 is fixedly connected with the output end of the gas-liquid separator 403, the temperature rising assembly 4 with the structure is shown in fig. 4, the gas-liquid separator 403 and the compressor 404 are fixedly connected in the compression box 101, the compression box 101 is arranged at the left lower side of the heat pump box body 1, low-temperature low-pressure steam flows to the gas-liquid separator 403 through the working medium outlet of the evaporator 402, water is absorbed in the gas-liquid separator, meanwhile, the working medium gas flows to the compressor 404 in the compression box 101, and the compressor 404 compresses the low-temperature low-pressure working medium gas into high-temperature high-pressure gas.

The air type condenser 6 comprises an inner circulating fan 601, the inner circulating fan 601 is fixedly connected in the condensing box 103, and the inner circulating fan 601 is arranged below the air type condenser 6; the air extraction fan 602 is fixedly connected to the upper wall of the condensing box 103, the air condenser 6 with the structure is shown in fig. 8, the air condenser 6 is fixedly connected in the condensing box 103, and the condensing box 103 is arranged on the upper left side of the heat pump box body 1; the side wall of the condensing box 103 is provided with an asbestos inner layer 1031, the asbestos inner layer 1031 is a double-layer asbestos plate, the heat preservation effect is achieved, the heat loss in the condensing box 103 is slowed down, high-temperature and high-pressure gas flows through the air type condenser 6, meanwhile, energy is conducted to the surface of the air type condenser 6, the temperature of the air in the condensing box 103 is lower than that of working media in the air type condenser 6, the air can absorb the temperature of the surface of the condensing box 103, accordingly, the air is heated, the air in the condensing box 103 is circulated due to the effect of an inner circulating fan 601, the air is uniformly heated, the temperature is gradually increased, at the moment, a suction fan 602 pumps hot air heated to a certain temperature into a conveying pipeline 8, the hot air is conveyed into the dry cleaning outer box 3 through the conveying pipeline 8, the tail end of the conveying pipeline 8 is connected with a cover body air inlet 901 of the inner cover box 9, and the hot air is input through the cover body air inlet 901.

As can be seen in fig. 8, the recovery assembly 11 includes a liquid storage tank 1101, and the liquid storage tank 1101 is fixedly connected with the output end of the air condenser 6; the input end of the drying filter 1102 is connected with the liquid storage tank 1101; the input end of the expansion valve 1103 is fixedly connected with the output end of the drying filter 1102, the output end of the expansion valve 1103 is connected with the evaporator 402, the high-temperature and high-pressure gas in the air condenser 6 is subjected to energy exchange and gradually becomes low-temperature and high-pressure gas, and then the low-temperature and high-pressure gas flows through the liquid storage tank 1101, and the liquid storage tank 1101 has the function of adapting to the requirement of the load fluctuation of the evaporator 402 on the supply quantity, when the evaporation load is increased, the supply quantity is also increased, and the liquid is fed by the liquid storage of the liquid storage tank 1101; when the load becomes smaller, the required liquid amount becomes smaller, and the excess liquid is stored in the liquid storage tank 1101. Then flows through a drying filter 1102, where dust and dirt in the pipeline can be absorbed, ensuring the cleanness and drying of the system, and finally flows through an expansion valve 1103 to convert low-temperature high-pressure working medium steam into low-temperature low-pressure working medium steam, and finally returns to the evaporator 402 from a working medium inlet of the evaporator 402 to complete an internal circulation.

The inner cover box 9 is a cover body with an arch structure, the inner cover box 9 comprises a cover body air inlet 901, the cover body air inlet 901 is arranged at the middle position above the inner cover box 9, and the cover body air inlet 901 is positioned below the left end opening of the conveying pipeline 8; the flow limiting grooves 902 are arranged on two side surfaces and the upper arc surface of the inner cover box 9, and the flow limiting grooves 902 are longitudinally arranged groove bodies; the reflow port 903 is formed on the rear surface of the inner casing 9, and the reflow port 903 is connected with the left end of the waste heat recovery pipe 701, the inner casing 9 with the structure is shown in fig. 7, the inner casing 9 is wrapped outside the dry cleaning drum 5, the dry cleaning drum 5 is driven to rotate by the rear driven wheel 5011 and the driving piece 10 to stir the internal clothes, hot air is input through the inlet above the inner casing 9, the hot air is filled in the inner casing 9, the heat loss in the dry cleaning drum 5 can be reduced, the flow limiting groove 902 plays a guiding role, the hot air is uniformly distributed on the periphery of the dry cleaning drum 5, the air uniformly enters from the periphery of the dry cleaning drum 5, the hot air is concentrated, and the utilization rate of the hot air is more beneficial to improving, thereby improving the dry cleaning efficiency.

The waste heat absorbing device 7 comprises a waste heat recovering pipe 701, wherein the right end of the waste heat recovering pipe 701 is fixedly connected with the upper part of the waste heat absorbing device 7, and the left end of the waste heat recovering pipe 701 is fixedly connected with the rear surface of the dry cleaning outer box 3; the recovery driving fan 7011 is arranged at the left end position of the waste heat recovery pipe 701, the recovery driving fan 7011 is fixedly connected to the position of the gas transmission port of the rear wall of the dry cleaning outer box 3, as shown in fig. 2, the waste heat absorbing device 7 with the structure is used for absorbing the energy in the waste heat absorbing device 7, the hot air is conveyed to the dry cleaning outer box 3 through the air suction fan 602, after the energy is released in the dry cleaning outer box 3, the temperature at the moment is changed from 70-80 ℃ to 40-50 ℃ from the original temperature, but the temperature is still higher than the temperature of normal air, the hot air is pumped by the recovery driving fan 7011, the energy in the conveyed gas is absorbed through the waste heat absorbing device 7, and meanwhile, the air flowing into the air condenser 6 from the air inlet 1041 flows through the waste heat absorbing device 7, so that the energy in the waste heat absorbing device 7 is preheated, the initial temperature in the air condenser 6 is increased, and the time for heating the whole air in the air condensing box 103 is shortened. Meanwhile, after a part of energy is absorbed by the waste heat absorbing device 7, the rest part of the hot air conveyed by the recovery driving fan 7011 is led into the evaporation box 102, and the temperature of the hot air is still kept about 30 ℃ and slightly higher than that of indoor air, so that the evaporation speed of working medium in the evaporator 402 can be accelerated after the hot air enters the evaporation box 102. So that the hot air which can only be discharged to the outside is reused, the energy utilization rate is greatly improved, and the cost is reduced.

In another embodiment, a control system is arranged in the dry cleaning equipment, and the control system can be divided into a heat pump air heating link and a dry cleaning machine washing and drying link, and is independently and intelligently controlled. After clothes are cleaned by the dry cleaner, the system sends a signal to the heat pump, the heat pump starts to work, high-temperature air is generated and conveyed into the dry cleaner, meanwhile, the roller in the dry cleaner performs slow circular motion, so that the clothes are heated uniformly and fully, moisture on the clothes is evaporated gradually, the moisture degree of the air in the dry cleaner is detected by the water mist sensor arranged in the dry cleaner, when the moisture degree of the air in the dry cleaner reaches a preset specified value, the clothes are dried, a signal is sent to the heat pump and the roller motor immediately, and the heat pump and the roller motor stop working.

When in use, the utility model is characterized in that: firstly, after clothes are cleaned by a dry cleaner, a heat pump starts to work, a big fan 401 and an evaporator 402 are arranged in an evaporation tank 102, the evaporation tank 102 is arranged at the right lower side of a heat pump tank body 1, when the big fan 401 is electrified to work, external natural wind is extracted and acts on the tube fin type evaporator 402 to form forced convection, working medium in the evaporator 402 absorbs energy of external air and is heated and evaporated to form low-temperature low-pressure steam, the low-temperature low-pressure steam flows to a gas-liquid separator 403 through a working medium outlet of the evaporator 402, water is absorbed at the position, meanwhile, working medium gas flows to a compressor 404 in a compression tank 101, the compressor 404 compresses the low-temperature low-pressure working medium gas into high-temperature high-pressure gas, the high-temperature high-pressure gas energy in an air condenser 6 is exchanged, and the high-temperature high-pressure gas is gradually changed into low-temperature high-pressure gas, the asbestos inner layer 1031 is a double-layer asbestos plate, has a heat preservation function, slows down the loss of heat in the condensing box 103, enables high-temperature and high-pressure gas to flow through the air type condenser 6, simultaneously transmits energy to the surface of the air type condenser 6, and as the temperature of air in the condensing box 103 is lower than the temperature of working medium in the air type condenser 6, the air can absorb the temperature of the surface of the condensing box 103, so that the air is heated, and due to the effect of the internal circulation fan 601, the air in the condensing box 103 is circulated, the air is uniformly heated, the temperature is gradually increased, at the moment, the air extraction fan 602 pumps the hot air heated to a certain temperature into the conveying pipeline 8, then conveys the hot air into the dry cleaning outer box 3 through the conveying pipeline 8, the tail end of the conveying pipeline 8 is connected with a cover body air inlet 901 of the internal cover box 9, and the hot air is conveyed through the cover body air inlet 901, the dry-cleaning drum 5 is driven to rotate by the rear driven wheel 5011 and the driving piece 10 to stir the internal clothes, hot air is input through the inlet above the inner cover box 9 and is filled in the inner cover box 9, so that the heat loss in the dry-cleaning drum 5 can be reduced, the flow-limiting groove 902 plays a guiding role, the hot air is uniformly distributed on the periphery of the dry-cleaning drum 5, air uniformly enters from the periphery of the dry-cleaning drum 5, hot air is concentrated, the utilization rate of the hot air is more favorably improved, thereby improving the dry-cleaning efficiency, high-temperature air is generated and conveyed into the dry-cleaning machine, meanwhile, the drum in the dry-cleaning machine performs slow circular motion to uniformly and fully heat clothes, the moisture on the clothes is gradually evaporated, the hot air is conveyed into the dry-cleaning outer box 3 through the air suction fan 602, after the energy is released in the dry-cleaning outer box 3, the temperature at the moment is changed from the original 70-80 degrees to 40-50 degrees, but the temperature is still higher than the temperature of the normal air, the hot air is still recovered and is conveyed by the driving fan 7011, the waste heat absorber 7, the energy in the conveyed air is absorbed by the waste heat absorber 1041, and the energy in the air is fully heated by the waste heat absorber 7, and the air is initially heated by the condenser air in the condenser 6, and the air absorber 103 is heated by the air heater, and the time is shortened. Meanwhile, after a part of energy is absorbed by the waste heat absorbing device 7, the rest part of the hot air conveyed by the recovery driving fan 7011 is led into the evaporation box 102, and the temperature of the hot air is still kept about 30 ℃ and slightly higher than that of indoor air, so that the evaporation speed of working medium in the evaporator 402 can be accelerated after the hot air enters the evaporation box 102. The hot air which is only discharged to the outside is reused, so that the energy utilization rate is greatly improved, the cost is reduced, on the other hand, the high-temperature and high-pressure gas in the air condenser 6 is exchanged, and gradually becomes low-temperature and high-pressure gas, and then the gas flows through the liquid storage tank 1101, and the liquid storage tank 1101 has the function of adapting to the load fluctuation of the evaporator 402, so that when the evaporation load is increased, the supply is increased, and the liquid is fed by the liquid storage of the liquid storage tank 1101; when the load becomes smaller, the required liquid amount becomes smaller, and the excess liquid is stored in the liquid storage tank 1101. Then flows through a drier-filter 1102, where dust and dirt in the pipeline is absorbed, ensuring the cleanliness and dryness of the system, and finally flows through an expansion valve 1103, converting low-temperature high-pressure working medium steam into low-temperature low-pressure working medium steam, and finally returns to the evaporator 402 from the working medium inlet of the evaporator 402.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (10)

1. A washing and drying integrated dry cleaner based on an air source heat pump is characterized in that: comprises a heat pump box body (1); the front side of the heat pump box body (1) is provided with a controller (2);

a temperature raising component (4), wherein the temperature raising component (4) is arranged on the inner side of the heat pump box body (1); the dry-cleaning roller (5), the said dry-cleaning roller (5) rotates and connects in the dry-cleaning outer container (3);

the recovery assembly (11), the said recovery assembly (11) is fixedly connected in heat pump box (1), and the recovery assembly (11) connects the output end of the air type condenser (6); the air type condenser (6) is arranged in the heat pump box body (1);

the waste heat absorbing device (7), the waste heat absorbing device (7) is arranged on the right upper side of the heat pump box body (1), and a waste heat recovery pipe (701) of the waste heat absorbing device (7) is fixedly connected with the dry cleaning outer box (3);

the right end of the conveying pipeline (8) is fixedly connected with the outlet of the heat pump box body (1), and the left end of the conveying pipeline (8) is fixedly connected with the inlet of the dry-cleaning outer box (3); an inner cover box (9) is fixedly connected to the inner wall of the dry-cleaning outer box (3);

the driving piece (10), driving piece (10) fixed connection is on the box back wall of dry cleaning outer container (3), and driving piece (10) are connected and drive back driven round (5011) through the drive belt.

2. The integrated washing and drying dry cleaner based on the air source heat pump as set forth in claim 1, wherein: the heat pump box (1) is rectangular, and the heat pump box (1) is provided with four areas, and the heat pump box (1) comprises:

the compression box (101) is arranged at the left lower side of the heat pump box body (1);

the evaporation box (102), the evaporation box (102) is set up in the right lower side of the heat pump box (1);

the condensing box (103) is arranged at the left upper side of the heat pump box body (1);

the filtering box (104), the upper right side that filtering box (104) set up in heat pump box (1).

3. The integrated washing and drying dry cleaner based on the air source heat pump as claimed in claim 2, wherein: the condensing box (103) comprises:

and the asbestos inner layer (1031), wherein the asbestos inner layer (1031) is fixedly connected to the side wall of the condensing box (103).

4. The integrated washing and drying dry cleaner based on the air source heat pump as claimed in claim 2, wherein: the filter box (104) comprises:

an air inlet (1041), the air inlet (1041) being provided on the right side of the filter box (104).

5. The integrated washing and drying dry cleaner based on the air source heat pump as set forth in claim 1, wherein: the temperature increasing component (4) comprises:

the big fans (401), the big fans (401) are arranged at two positions, and the two big fans (401) are fixedly connected to the right side wall of the heat pump box body (1);

the evaporator (402), the evaporator (402) is fixedly connected in the evaporation box (102);

the gas-liquid separator (403), the gas-liquid separator (403) is fixedly connected in the compression box (101), and the input end of the gas-liquid separator (403) is fixedly connected with the output end of the evaporator (402);

the compressor (404), the compressor (404) is fixedly connected in the compression box (101), and the input end of the compressor (404) is fixedly connected with the output end of the gas-liquid separator (403).

6. The integrated washing and drying dry cleaner based on the air source heat pump as set forth in claim 1, wherein: the recovery assembly (11) comprises:

the liquid storage tank (1101), the liquid storage tank (1101) is fixedly connected with the output end of the air type condenser (6);

the input end of the drying filter (1102) is connected with the liquid storage tank (1101);

and the input end of the expansion valve (1103) is fixedly connected with the output end of the drying filter (1102), and the output end of the expansion valve (1103) is connected with the evaporator (402).

7. The integrated washing and drying dry cleaner based on the air source heat pump as set forth in claim 1, wherein: the dry cleaning roller (5) comprises:

and the rear support shaft (501), the rear support shaft (501) is fixedly connected in the middle of the rear surface of the dry cleaning roller (5), and a rear driven wheel (5011) is fixedly connected at the rear of the rear support shaft (501).

8. The integrated washing and drying dry cleaner based on the air source heat pump as set forth in claim 1, wherein: the air-type condenser (6) comprises:

an inner circulation fan (601), wherein the inner circulation fan (601) is fixedly connected in the condensing box (103), and the inner circulation fan (601) is arranged below the air condenser (6);

the air extraction fan (602), the air extraction fan (602) is fixedly connected on the upper wall of the condensing box (103).

9. The integrated washing and drying dry cleaner based on the air source heat pump as set forth in claim 1, wherein: the waste heat absorbing device (7) comprises:

the right end of the waste heat recovery pipe (701) is fixedly connected with the upper part of the waste heat absorbing device (7), and the left end of the waste heat recovery pipe (701) is fixedly connected to the rear surface of the dry cleaning outer box (3);

the recovery driving fan (7011), the recovery driving fan (7011) is arranged at the left end position of the waste heat recovery pipe (701), and the recovery driving fan (7011) is fixedly connected to the rear wall gas transmission port of the dry cleaning outer box (3).

10. The integrated washing and drying dry cleaner based on the air source heat pump as set forth in claim 1, wherein: the inner cover box (9) comprises:

the cover air inlet (901) is formed in the middle position above the inner cover box (9), and the cover air inlet (901) is positioned below the left end opening of the conveying pipeline (8);

the flow limiting grooves (902) are arranged on the two side surfaces and the upper arc surface of the inner cover box (9);

the reflux port (903), the reflux port (903) is opened on the rear surface of inner cover case (9), and the left end of waste heat recovery pipe (701) is connected to reflux port (903).

Images