CN116695407A - Ironing equipment - Google Patents

Abstract

The present invention relates to an ironing apparatus. The ironing device comprises a main body, wherein an ironing system is arranged in the main body and is used for performing steam ironing care on clothes; a water collecting system capable of collecting purified water and recovering steam, and supplying the collected purified water and the recovered steam to the ironing system to generate steam; the water collecting system comprises a compressor, an evaporator and a condenser which are connected through pipe fittings, and under the action of a fan, water molecules are separated out after air sequentially passes through the condenser and the evaporator, so that condensed water is formed and collected; the ironing system is communicated with the water collecting system through the air opening, and steam and external air of the ironing system enter the water collecting system through the air opening to be collected. The invention has the beneficial effects that: 1. the water collecting system is arranged, water vapor in the external air and steam generated by the ironing system are absorbed and condensed and then supplied to the ironing system, so that water circulation is realized, sufficient purified water in the water tank is ensured at any time, and the ironing system can be used without adding water into the water tank.

Description

Ironing equipment

Technical Field

The invention relates to the technical field of ironing, in particular to ironing equipment.

Background

The ironing equipment has several pain points to restrict the development of industry at present, wherein the most important is the influence of water quality on equipment performance stability and service life, bad water quality not only greatly shortens equipment service life, but also has dirty blowout phenomenon in ironing process, although manufacturers all recommend pure water to use, the pure water cost is higher, pure water is very inconvenient for special purchase of ironing clothes, most pure water in the market is added with mineral substances, calcium and magnesium ion content is very high, even if water purifiers are arranged in families, the filtration speed of most water purifiers is slower, and a long time is required for filling one barrel of water.

Another pain point of ironing equipment is that as ironing progresses, a large amount of steam enters the room, so that the humidity of the room rises, and when the humidity rises to a certain degree, the steam is condensed due to saturation of the humidity, and the condensed water may have bad influence on the indoor articles; the clothes become wet during ironing, and the existing ironing equipment has few dehumidifying functions.

Disclosure of Invention

In order to solve the above-mentioned problems occurring in the prior art, the present invention provides an ironing apparatus capable of absorbing and dehumidifying water vapor in the air, and supplying the absorbed water vapor into the ironing apparatus to form a cycle.

An ironing apparatus comprising a main body, on which is arranged,

an ironing system for performing steam ironing care on laundry;

a water collecting system capable of collecting purified water and recovering steam, and supplying the collected purified water and the recovered steam to the ironing system to generate steam;

the water collecting system comprises a compressor, an evaporator and a condenser which are connected through pipe fittings, and under the action of a fan, water molecules are condensed into liquid state after air passes through the evaporator to be separated out, so that condensed water is formed and collected;

the ironing system is communicated with the water collecting system through the air opening, and steam and external air of the ironing system enter the water collecting system through the air opening to be collected.

By adopting the technical scheme, the ironing system and the water collecting system are integrated, the ironing system can provide a large amount of steam, so that the humidity of the ambient air reaches or is close to 100%, the performance of the water collecting system reaches the strongest under the high-temperature and high-humidity environment, and the condensate water collecting efficiency is multiplied. The steam enters the water collecting system through the air port after penetrating the clothes, particularly when the steam passes through the evaporator, the steam with temperature can carry more water molecules, the carrying capacity of the water molecules is reduced sharply after the steam is absorbed by the evaporator, more water molecules are condensed out due to saturation of the humidity, and according to the results of the nominal dehumidification capacity (26 ℃ and 60% humidity) and the nominal dehumidification capacity (30 ℃ and 80% dehumidification capacity) of the dehumidifier on the market, the dehumidification capacity of the nominal dehumidification capacity is only about 60% of the nominal dehumidification capacity, the influence of the change of the temperature and the humidity on the dehumidification capacity is huge, the dehumidification capacity can reach 1L/h calculated according to the nominal dehumidification capacity of the household dehumidifier with lower horsepower, the ironing demand is 1.8L per hour for equipment with higher steam capacity of 30g/min, but the ironing process does not need to continuously output the steam, and actions such as clothes finishing, clothes changing, ironing and the like are not needed, so that the water consumption per hour is about 1L, the effect of the ironing process is realized, and the water circulating system is added between the ironing system and the water collecting system is realized, and the water circulating system is added to users.

The technical scheme is further provided as follows: the water collecting system also comprises a water tank, the water tank is positioned below the water collecting system, and condensed water generated by the water collecting system can be collected to a water inlet of the water tank; the water tank is communicated with the ironing system through a pipe fitting.

The technical scheme is further provided as follows: and a throttling device is arranged between the condenser and the evaporator, and the condenser, the throttling device and the evaporator are sequentially connected through pipes.

The technical scheme is further provided as follows: the main body is internally provided with a fan cover, the fan is positioned at the air inlet of the fan cover, and the air outlet of the fan cover is communicated with the outside air.

The technical scheme is further provided as follows: the air inlet is provided with a filter, and steam enters the water collecting system after being filtered when passing through the air inlet.

The technical scheme is further provided as follows: the water tank is internally provided with a water quantity sensing structure, the water quantity sensing structure feeds water quantity in the water tank back to the main control board, and the water collecting system is controlled to be started and stopped.

The technical scheme is further provided as follows: the water quantity sensing structure comprises a floating ball, a high water level proximity switch and a low water level proximity switch, wherein the floating ball is arranged in a floating groove, and can move up and down in the floating groove according to water quantity, so that the floating ball is contacted with the high water level proximity switch and the low water level proximity switch, and the water quantity is fed back to a main control board.

The technical scheme is further provided as follows: the ironing system comprises an ironing board, a steam generating device, a water pump and a spray head, wherein the water pump pumps liquid water from the water tank to enter the steam generating device, the steam generating device heats the liquid water to form steam, and the steam is sprayed out from the spray head to care clothes on the ironing board; the air port is arranged at the bottom of the ironing board.

The technical scheme is further provided as follows: the ironing system is arranged in the first chamber, and the ironing plate is positioned at the top of the first chamber and communicated with the outside; the water collecting system is arranged in the second chamber, a condensing tank and an evaporating tank are arranged in the second chamber, a water discharging tank is arranged at the bottom of the condensing tank, and the water discharging tank is communicated with a water injection port of the water tank.

The technical scheme is further provided as follows: the drying assembly comprises a clothes hanger and a hot air box; the clothes hangers are arranged on the side part of the ironing board, the hot air box is communicated with the fan cover, and the hot air opening faces the ironing board.

Through adopting above-mentioned technical scheme, the air becomes the medium temperature dry air after the heating of condenser, has very strong dehumidification ability, gets into the fan housing under the traction of fan to blow out through the hot-blast mouth of hot-blast box, clothes hanger setting is in hot-blast mouth top, and the dry hot-blast also can be accepted to the below of clothing, and hot-blast lighter air consequently can rise along the clothing, rises the process and accomplishes the exchange of heat and moisture with the clothing.

The invention has the beneficial effects that:

1. the water collecting system is arranged, water vapor in the external air and steam generated by the ironing system are absorbed and condensed and then supplied to the ironing system, so that water circulation is realized, sufficient purified water in the water tank is ensured at any time, and the ironing system can be used without adding water into the water tank;

2. the air port is provided with the filtering device for filtering steam or air entering the water collecting system, and meanwhile, the air port is matched with the sterilizing lamp in the water tank to ensure that liquid water entering the ironing system is purified water, so that scale can not be generated in the ironing system, the performance stability of the steam generating device is improved, and the service life of the steam generating device is prolonged; the sprayed steam is not polluted;

3. the recovery of the steam solves the problem of waste caused by diffusion of the steam into the air after the steam is sprayed out, reduces the humidity of the environment, avoids discomfort caused by humidity rise due to the fact that a large amount of steam enters the environment, and solves the problem of overhigh indoor humidity;

4. the hot air generated by the water collecting system supplies heat to the drying system, so that the ironing system and the drying system are integrated, the using function of the equipment is increased, and the using efficiency is improved.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic view of the position structure of the water collecting system and the water tank.

Fig. 3 is a schematic structural view of the ironing system.

Fig. 4 is a spatial distribution diagram of the body.

Figure 5 is an isometric cross-sectional view of a blower.

Fig. 6 is a schematic sectional structure of the water tank.

Fig. 7 is a schematic diagram of the distribution structure of each component of the present invention.

Fig. 8 is a schematic structural view of the present invention in a storage state.

Fig. 9 is a schematic view of a position structure between the evaporation tank and the water tank.

The drawings are marked: 100. a main body; 101. a first chamber; 102. a second chamber; 103. a storage space; 210. a compressor; 220. a condenser; 230. an evaporator; 240. a blower; 250. a throttle device; 300. a water tank; 310. a hand is pulled out; 320. a valve core; 330. a spring; 340. a seal ring; 350. a water outlet adapter; 410. an ironing board; 411. an air port; 412. a side plate; 420. a steam generating device; 430. a water pump; 440. a spray head; 413. clamping the spray head; 500. a fan housing; 600. a filter; 710. a high water level floating ball; 720. a low water level floating ball; 730. a high water level proximity switch; 740. a low water level proximity switch; 701. a floating tank; 810, a step of performing step 810; a hot air box; 811. a hot air port; 820. a clothes hanger; 900. a main control board; b. a condensing tank; a. an evaporation tank; c. and a water discharging groove.

Detailed Description

In order to further describe the technical means and effects adopted by the present invention for achieving the intended purpose, the following detailed description will refer to the specific implementation, structure, characteristics and effects according to the present invention with reference to the accompanying drawings and preferred embodiments.

As shown in fig. 1 to 9, the present embodiment discloses an ironing apparatus.

With particular reference to fig. 1, 2 and 7, an ironing device comprises a main body 100, said main body 100 being provided with,

an ironing system for performing steam ironing care on laundry;

a water collecting system capable of collecting purified water and recovering steam, and supplying the collected purified water and the recovered steam to the ironing system to generate steam;

the water collecting system comprises a compressor 210, an evaporator 230 and a condenser 220 which are connected through pipes, and under the action of a fan 240, water molecules are separated out after air passes through the evaporator 230, so that condensed water is formed and collected;

the ironing system is communicated with the water collecting system through the air opening 411, and steam and external air of the ironing system enter the water collecting system through the air opening 411 to be collected.

The above is the basic scheme of the invention. The device is started, the ironing system generates steam to iron and care clothes, and meanwhile, the generated steam is emitted into the surrounding air, so that the humidity in the air is increased. The air mixed with water vapor enters the water collecting system through the air port 411, the water vapor is liquefied to form condensed water to be collected under the action of the water collecting system, and the collected condensed water enters the ironing system again to generate steam, so that the circulation is realized. The ironing system and the water collecting system can circulate water without water replenishment, so as to meet the requirements of the ironing system.

The compressor 210 is a driven fluid machine that lifts low-pressure gas to high-pressure gas, and is the heart of a refrigeration system. The refrigerating cycle is powered by sucking low-temperature low-pressure refrigerant gas from the air suction pipe, compressing the refrigerant, and discharging high-temperature high-pressure refrigerant gas to the air discharge pipe.

Evaporation is the physical process of converting a liquid state into a gaseous state. Generally, the evaporator 230, i.e., a liquid substance, is converted into a gaseous object. There are a large number of evaporators 230 in industry, one of which is the evaporator 220 applied to a refrigeration system. The evaporator 230 is an important component in four refrigeration components, and low-temperature refrigerant liquid passes through the evaporator 230 to exchange heat with the outside air, so that gasification absorbs heat and the refrigeration effect is achieved. The evaporator 230 is mainly composed of two parts, a heating chamber and an evaporating chamber.

The condenser 220, which is a component of a refrigeration system, is a type of heat exchanger that converts a gas or vapor into a liquid and transfers heat from a tube to air in the vicinity of the tube in a rapid manner. The condenser 220 operation is exothermic, so the condenser 220 temperature is relatively high.

The water collection principle of this embodiment is: the compressor 210 performs work, the low-temperature low-pressure gaseous refrigerant in the evaporator 230 is sucked and compressed into the high-temperature high-pressure gaseous refrigerant, and then the high-pressure gaseous refrigerant is discharged into the condenser 220, the gaseous refrigerant conducts heat to the fins of the condenser 220, meanwhile, the gaseous refrigerant releases heat to form medium-temperature high-pressure liquid, the medium-temperature high-pressure liquid enters the throttling device 250, the throttling device 250 is arranged in a thin pipe, when the medium-temperature high-pressure liquid refrigerant enters the evaporator 230 from the throttling device 250, the space is suddenly increased, the pressure is reduced, the liquid refrigerant needs to absorb heat, the temperature of the fins on the evaporator 230 is reduced, and the liquid refrigerant quickly becomes the low-temperature low-pressure gaseous refrigerant after absorbing the heat, and then enters the compressor 210 again for circulation.

The air mixed with water vapor from outside enters the water collecting system through the air port 411, passes through the evaporator 230 and the condenser 220 in sequence under the action of the fan 240, and contacts with the fins of the low-temperature evaporator 230 when passing through the evaporator 230, so that the water vapor in the air is liquefied and adsorbed on the fins of the evaporator 230. The more minute water droplets are collected, the gravity overcomes the adsorption of tension and the like, and falls from the fins.

In order to collect the condensed water, the water collecting system further includes a water tank 300, the water tank 300 is located below the water collecting system, the condensed water is formed on the fins of the evaporator 230, and when more water drops are accumulated, the condensed water flows into the water tank 300 to be collected. The water tank 300 is communicated with the ironing system through a pipe fitting, and water is supplied to the ironing system.

Referring to fig. 3, in this embodiment, the ironing system includes an ironing board 410, a steam generating device 420, a water pump 430 and a nozzle 440, the water pump 430 draws liquid water from the water tank 300 into the steam generating device 420, the steam generating device 420 heats the liquid water to form steam, and the steam is sprayed from the nozzle 440 to care the clothes on the ironing board 410; the tuyere 411 is provided at the bottom of the ironing board 410.

The working principle of the ironing system is identical to that of ironing devices in the prior art, and will not be described in detail here.

Preferably, the ironing board 410 is provided with a cavity, the upper surface of the ironing board 410 is provided with a downwind hole, the downwind hole is communicated with the air inlet 411, and steam can enter the cavity through the downwind hole and then enter the water collecting system from the air inlet 411. When the clothes are laid on the ironing board 410 for steam care, the steam on the clothes is sucked into the air opening 411, so that the clothes are quickly dried.

The present embodiment can realize that the user does not need to add water into the water tank 300 even when using the ironing function for a long time. The volume of the water tank 300 is as large as possible, and antibacterial materials are selected, and a sterilizing lamp is arranged above the water tank 300, so that the long-time storage of water stored in the water tank 300 can be ensured due to the extremely small impurity content of condensed water and the sterilizing effect of the sterilizing lamp.

The user begins to work after finishing ironing function, stop work after making full water fast, supposing that the condensed water collecting efficiency of water collecting system is 0.5L/h, make water tank 300 of 5L need 10h, afterwards the user begins to use ironing clothes, calculated according to 30g/min of steam output of shower nozzle 440, 1h steam output is 1.8L, but normal use is not continuous steam output, during which the user needs to finish clothes and change clothes continuously, 1h steam output is about 1L according to 60% total steam output time, even if the user uses 5h ironing function continuously, the water stored is used up, but in the 5h process of this use, the condensed water can be collected more efficiently by adding steam recovery to 0.5L/h clean water collecting capacity of water collecting system, namely, the condensed water of about 5L can be collected again after 5h of this use, in summary, the user only needs to collect condensed water for a long time when using for the first time, the later-period equipment can be automatically supplemented from environment when using.

The condensed water collected by the water collecting system has extremely high purity, and the TDS is usually less than 20ppm, so that the scale formation in the steam generating device 420 is difficult, the performance stability and the service life of the steam generating device 420 are greatly improved, a drain pipe is further arranged in the embodiment, and when the working time of the steam generating device 420 is long and the concentration ratio of the liquid water in the water collecting system is too high, the liquid water is discharged to enable the performance of the steam generating device to return to the high position again.

Preferably, referring to fig. 4 and 9, in this embodiment, a first chamber 101 and a second chamber 102 are provided in the main body 100, the ironing system is disposed in the first chamber 101, and the ironing board 410 is located at the top of the first chamber 101 and is in communication with the outside; the water collecting system is arranged in the second chamber 102, a condensing tank b and an evaporating tank a are arranged in the second chamber 102, a lower water tank c is arranged at the bottom of the evaporating tank a, and the lower water tank c is communicated with a water injection port of the water tank 300.

The condensed water on the fins of the evaporator 230 drops to the bottom of the evaporation tank a, and enters the water tank 300 from the water injection port of the water tank 300 through the water discharging tank c at the bottom of the evaporation tank to be collected.

Preferably, the condenser 220, the throttling device 250 and the evaporator 230 are sequentially connected through pipes.

Referring to fig. 5, in the present embodiment, in order to circulate air inside and outside the main body 100, a fan housing 500 is further provided inside the main body 100. The blower 240 is located at the air inlet 411 of the fan housing 500, and the air outlet 411 of the fan housing 500 communicates with the outside.

Preferably, in the present embodiment, the air outlet 411 of the fan housing 500 is disposed at the bottom of the main body 100.

Preferably, in this embodiment, the evaporator 230, the condenser 220 and the fan 240 are sequentially arranged in a horizontal direction, and the fan 240 is a centrifugal fan 240, and air is taken in from the center of the fan 240 and then is taken out from the side of the fan 240. Under the action of the fan 240, air sequentially passes through the evaporator 230 and the condenser 220 and then enters the fan 240, and is blown out from the side part of the fan 240 into the fan housing 500, and is released to the outside through the air outlet 411 of the fan housing 500.

When air mixed with water vapor from the outside or steam generated by the ironing system enters the water collecting system through the air inlet 411, impurities or filth on clothes are generally mixed, in order to avoid unclean condensed water generated in the water collecting system due to the impurities or filth entering the water collecting system, a filter 600 is arranged at the air inlet 411, and the steam enters the water collecting system after being filtered when passing through the air inlet 411. Air or steam is introduced into the filter 600 through the air port 411, and impurities or filings mixed in the water vapor are filtered and introduced into the water collecting system.

Preferably, the sterilizing lamp is arranged in the water tank 300, so that the liquid water in the water tank 300 can be sterilized, the sterile environment in the water tank is ensured, and the water quality is further purified.

Preferably, in this embodiment, the air port 411 and the water collecting system are sealed by an air duct, so that only air can be taken in from the air port 411 and air can be discharged from the fan 240, so as to obtain the best condensate water collecting efficiency. The filter 600 is installed in the duct.

In the case of operation of the ironing system, the steam is continuously sprayed from the spray head 440, so that the humidity of the ambient air reaches or approaches 100%, and in the case of high temperature and high humidity, the performance of the water collecting system is strongest, and the collecting efficiency of condensed water is doubled.

In this embodiment, the water tank 300 is configured as a water tank 300 to which water can be added, and the water collecting system automatically stops collecting water when the amount of water in the water tank 300 exceeds a set value. The water tank 300 is internally provided with a water quantity sensing structure, the water quantity sensing structure feeds water quantity in the water tank 300 back to the main control board 900, and the water collecting system is controlled to be started and stopped.

Referring to fig. 6, in particular, the water quantity sensing structure includes a floating ball provided in the water tank 300, a high water level proximity switch 730, and a low water level proximity switch 740, the floating ball being provided in the floating tank 701 and being capable of moving up and down in the floating tank 701 according to the quantity of water, thereby contacting the high water level proximity switch 730 and the low water level proximity switch 740 and feeding back the quantity of water to the main control board 900.

When the water level in the water tank 300 is too low, the floating ball is in a low position and contacts with the low water level proximity switch 740, the low water level proximity switch 740 is activated, so that the main control board 900 obtains the feedback of the low water level, and at the moment, a user can add water into the water tank 300 to meet the long-time ironing requirement. When the water level in the water tank 300 is at a high level, the floating ball is at a high level and contacts the high level proximity switch 730, and the high level proximity switch 730 is activated to enable the main control board 900 to obtain high level feedback, at this time, the water collecting system stops working and water collection is not performed any more.

In this embodiment, the water volume sensing structure may also be provided with two floating balls, a high water level floating ball 710 and a low water level floating ball 720, and separate the floating tank 701 up and down, the high water level floating ball 710 is located at the upper portion of the floating tank 701, the low water level floating ball 720 is located at the lower portion of the floating tank 701, and when the water level is low, the low water level floating ball 720 can contact with liquid water and float under the action of the floating force, and float at the lower portion of the floating tank 701, and contact with the low water level proximity switch 740 or be far away from the low water level proximity switch 740; when the water level is high, the high water level float 710 can contact the liquid water and float under the influence of buoyancy, contacting the high water level proximity switch or being far from the high water level proximity switch 730.

Preferably, in this embodiment, in order to avoid the situation that the water collecting system is still working when the user takes out the water tank 300 to add water, a touch switch is provided on the water tank 300, and when the water tank 300 is drawn out to add water, the touch switch is tripped, and the water collecting system stops working.

In this embodiment, a handle 310 is further provided on the water tank, and a user can withdraw the water tank 300 from the main body 100 through the handle 310. The side part of the water tank 300 is provided with a water outlet near the lower end, a leakage-proof mechanism is arranged in the water outlet, the leakage-proof mechanism comprises a valve core 320 penetrating through the water outlet, a spring 330 positioned at the outer side of the water tank 300 and a sealing ring 340, and the spring 330 is propped between the valve core 320 and the water tank 300. When the leakage preventing mechanism is not supported by the supporting force, the valve core 320 is supported outwards by the spring 330, so that the sealing ring 340 is tightly contacted with the inner wall of the water tank 300, and the water outlet is blocked. When the water tank 300 is placed in the main body 100, the valve core 320 is pushed open towards the inside of the water tank 300 by the water outlet adapter 350 in the main body 100, the sealing ring 340 is separated from the inner wall of the water tank 300, the water outlet is opened, and the liquid water in the water tank 300 can be output to the ironing system through the water outlet adapter 350.

Preferably, the water tank 300 is disposed at the bottom of the main body 100, so as to prevent water leakage from affecting other parts, reduce the center of gravity of the whole machine, and have better stability.

In this embodiment, in the process of liquefying the water vapor by the water collecting system, the temperature of the fins of the condenser 220 is raised, the air passes through the evaporator 230 and then passes through the condenser 220, and the heat on the fins of the condenser 220 is transferred to the air to form hot air, so that the hot air is utilized, and the drying assembly further comprises a drying assembly, wherein the drying assembly comprises a clothes hanger 820 and a hot air box 810; the hanger 820 is provided at a side of the ironing board 410, the hot air box 810 communicates with the hood 500, and the hot air ports 811411 are directed toward the ironing board 410.

Preferably, in the present embodiment, the hanger 820 is protruded from the main body 100 and extended upward, the hot air hole 811 of the hot air box 810 is provided upward, and hot air is blown upward to dry the laundry hung on the hanger 820.

Referring to fig. 8, in this embodiment, the ironing board 410 is provided to be foldable, and a side board 412 is provided at a side portion through a rotating shaft, so that the side board 412 can be unfolded when in use and folded when in storage, thereby reducing the occupied space. Meanwhile, the body 100 is provided with a receiving space 103, which can be used for placing accessories. The shower nozzle 440 is a hand-held shower nozzle 440, is connected to the steam generating device 420 through a pipe fitting, the bottom of the ironing board 410 is provided with a shower nozzle clamping position 413, the shower nozzle 440 can be placed in the shower nozzle clamping position 413 for temporary storage when in use, and the shower nozzle 440 can be placed in the storage space 103 when not in use.

In this embodiment, the receiving space 103 is provided with an insertion tube, and the hanger 820 may be inserted into the insertion tube for installation. When the clothes rack 820 is stored, the clothes rack 820 is pulled out from the plug-in pipe and reversely installed, and the extension part is downward and closely attached to the side part of the main body 100 for storage.

The present invention is not limited to the above embodiments, but is capable of modification and variation in detail, and other modifications and variations can be made by those skilled in the art without departing from the scope of the present invention.

Claims (10)

1. An ironing apparatus, characterized in that: comprises a main body (100), wherein the main body (100) is provided with a plurality of grooves,

an ironing system for performing steam ironing care on laundry;

a water collecting system capable of collecting purified water and recovering steam, and supplying the collected purified water and the recovered steam to the ironing system to generate steam;

the water collecting system comprises a compressor (210), an evaporator (230) and a condenser (220) which are connected through pipes, and under the action of a fan (240), water molecules are condensed and separated out in a liquid state when air passes through the evaporator (230), so that condensed water is formed and collected;

the ironing system is communicated with the water collecting system through a wind opening (411), and steam and external air of the ironing system enter the water collecting system through the wind opening (411) to be collected.

2. Ironing apparatus as claimed in claim 1, characterized in that: the water collecting system further comprises a water tank (300), the water tank (300) is positioned below the water collecting system, and condensed water generated by the water collecting system can be collected into the water tank (300); the water tank (300) and the ironing system are communicated through a pipe fitting.

3. Ironing apparatus as claimed in claim 1, characterized in that: a throttling device (250) is arranged between the condenser (220) and the evaporator (230), and the condenser (220), the throttling device (250) and the evaporator (230) are sequentially connected through pipes.

4. Ironing apparatus as claimed in claim 1, characterized in that: the novel fan is characterized in that a fan cover (500) is further arranged in the main body (100), the fan (240) is located at an air inlet (411) of the fan cover (500), and an air outlet (411) of the fan cover (500) is communicated with outside air.

5. Ironing apparatus as claimed in claim 1, characterized in that: a filter (600) is arranged at the air port (411), and steam is filtered when passing through the air inlet (411) and then enters the water collecting system.

6. Ironing apparatus as claimed in claim 2, characterized in that: the water tank (300) is internally provided with a water quantity sensing structure, the water quantity sensing structure feeds water quantity in the water tank (300) back to the main control board (900) and controls the starting and stopping of the water collecting system.

7. Ironing apparatus as claimed in claim 6, characterized in that: the water quantity sensing structure comprises a floating ball, a high water level proximity switch (730) and a low water level proximity switch (740), wherein the floating ball is arranged in the floating groove (701), and can move up and down in the floating groove (701) according to the water quantity, so that the floating ball is in contact with the high water level proximity switch (730) and the low water level proximity switch (740), and the water quantity is fed back to the main control board (900).

8. Ironing apparatus as claimed in claim 2, characterized in that: the ironing system comprises an ironing board (410), a steam generating device (420), a water pump (430) and a spray head (440), wherein the water pump (430) pumps liquid water from the water tank (300) to enter the steam generating device (420), the steam generating device (420) heats the liquid water to form steam, and the steam is sprayed out of the spray head (440) to care clothes on the ironing board (410); the tuyere (411) is arranged at the bottom of the ironing board (410).

9. Ironing apparatus as claimed in claim 2, characterized in that: a first chamber (101) and a second chamber (102) are arranged in the main body (100), the ironing system is arranged in the first chamber (101), and an ironing board (410) is positioned at the top of the first chamber (101) and communicated with the outside; the water collecting system is arranged in a second chamber (102), an evaporation tank (a) and a condensation tank (b) are arranged in the second chamber (102), a water outlet is arranged at the bottom of the evaporation tank (b), and the water outlet is communicated with a water injection port of the water tank (300).

10. Ironing apparatus as claimed in claim 4, characterized in that: the clothes drying device also comprises a drying assembly, wherein the drying assembly comprises a clothes hanger (820) and a hot air box (810); the clothes hanger (820) is arranged at the side part of the ironing board (410), the hot air box (810) is communicated with the fan housing (500), and the hot air ports (811) (411) face the ironing board (410).