CN216713193U - Ultra-clean type air water making system with automatic control function - Google Patents

Abstract

The utility model discloses an ultra-clean air water making system with an automatic control function, which comprises an outer water making machine box, wherein the outer water making machine box is provided with an air inlet, and an air water making device and a water storage purification treatment device are arranged in the outer water making machine box; the water storage purification treatment device comprises a source water tank, the source water tank is connected with a water purifier through a water pump, and the water purifier is connected with a water purification tank; the air water making device is provided with an evaporator, a fan and a compressor; a first float switch is arranged at the upper part of the inner cavity of the source water tank, and a second float switch and a third float switch are respectively arranged at the upper part and the lower part of the water purification tank; the fan, the compressor, the first floating ball switch, the second floating ball switch, the third floating ball switch and the water pump are connected with a controller, and the controller acquires signals of the first floating ball switch, the second floating ball switch and the third floating ball switch to control the fan, the compressor and the water pump to work. The utility model can obtain the moisture in the air to produce water and has certain room dehumidification effect.

Description

Ultra-clean type air water making system with automatic control function

Technical Field

The utility model relates to the technical field of air water making, in particular to an ultra-clean air water making system with an automatic control function.

Background

In daily life, the situations that water pipes are difficult to arrange and normal drinking water areas are difficult to establish usually exist in small and medium-sized public places and temporarily-established residences, so that people are inconvenient to take water.

The system and the device for producing water through air in the prior art have certain limitations, and the produced water needs to be stored for taking and using because the air production is a long process. Furthermore, the produced water needs to be purified to meet drinking standards.

Because southern rainwater is more, and air humidity is great, if humidity is higher in the room, damp easily on the ware and breed the bacterium, need dehumidify the room to reduce breeding of bacterium.

The defect of the prior art is that an ultra-clean air water making system with an automatic control function is lacked, so that water in the air can be obtained to make water, the water is purified by a purifier and then stored, and meanwhile, a certain room dehumidification effect is also achieved.

SUMMERY OF THE UTILITY MODEL

According to the technical problem, the utility model provides an ultra-clean air water making system with an automatic control function, which can obtain moisture in air to make water, is purified by a purifier and then stored, and has a certain room dehumidification effect.

In light of the above technical problems to be solved, the following technical solutions are proposed:

the utility model provides an ultra-clean air water making system with an automatic control function, which comprises an outer water making machine box, wherein the outer water making machine box is provided with an air inlet, and an air water making device and a water storage purification treatment device are arranged in the outer water making machine box; the water storage purification treatment device comprises a water purifier, a source water tank and a purified water tank, wherein the source water tank is used for storing water prepared by the air water preparation device, the purified water tank is used for storing purified water, the source water tank is connected with the water purifier through a water pump, and the water purifier is used for discharging the purified water into the purified water tank for storage;

the air water making device comprises an evaporator for condensing air into water, a condenser for alternating temperature, a fan for sucking air and a compressor for compressing gaseous refrigerants into liquid refrigerants; the evaporator is positioned on the inner side of the air inlet, the condenser is arranged between the evaporator and the fan, the air inlet of the fan faces the condenser, the air outlet of the fan is communicated with the air exhaust channel, and the evaporator, the condenser and the compressor form a refrigerant circulation loop through refrigerant pipelines;

a first float switch is arranged at the upper part of the inner cavity of the source water tank, and a second float switch and a third float switch are respectively arranged at the upper part and the lower part of the inner cavity of the water purification tank;

the fan, the compressor, the first floating ball switch, the second floating ball switch, the third floating ball switch and the water pump are connected with a controller, the controller acquires signals of the first floating ball switch to control the fan and the compressor to work, and the controller acquires signals of the second floating ball switch and the third floating ball switch to control the water pump to work.

Air sucked from the air inlet is condensed by a condensing system formed by parts such as a compressor, an evaporator and the like to form condensed water, the condensed water flows into the source water tank for storage, and then the condensed water is purified by the water purifier and then is discharged into the water purifying tank for storage.

The water purifier comprises a front water purification assembly and a rear active carbon bacteriostatic component, water in the source water tank is purified by the front water purification assembly and then discharged into the water purification tank for storage, and purified water in the water purification tank is purified by the rear active carbon bacteriostatic component and then provides drinking water.

By adopting the structure, purified water can be safely and effectively stored, water supply is timely, and drinking water with extremely poor taste and bacteria exceeding standard caused by overlong storage time can be effectively prevented from being drunk when drinking is needed.

The preposed water purifying component comprises a PP cotton filtering piece, an active carbon adsorption piece and a reverse osmosis RO membrane filtering piece; the source water tank is filtered piece and water purification case intercommunication through the cotton filter piece of PP, active carbon adsorption spare and reverse osmosis RO membrane in proper order, the water purification case is through the rearmounted antibacterial piece connection of active carbon set up the delivery port in water generator outer box one side.

By adopting the structure, the purified water in the source water tank can be respectively discharged into the purified water tank for storage through the PP cotton filter element, the activated carbon adsorption element and the reverse osmosis RO membrane filter element; when the drinking water is needed, the stored water is subjected to bacteriostasis treatment by the rear active carbon bacteriostasis piece and then is discharged from the water outlet.

The water making machine outer box body comprises an upper box body and a lower box body, wherein an air water making device is installed in the upper box body, and a water storage purification treatment device is installed in the lower box body.

Go up one side of box and be provided with the air intake of connecting air water making device, be provided with the passageway of airing exhaust of connecting air water making device between source water tank and the water purification case, the passageway of should airing exhaust is vertical to be extended to down the bottom half and is formed the air exit, one side that source water tank was kept away from to the water purification case is laid the water purifier, source water tank, water purifier and water purification case loop through the raceway intercommunication.

Adopt the structure for the air flow path is for the side to advance down and goes out, can prevent effectively that the foreign matter from dropping the air intake and producing the trouble, and the air outlet sets up can be better hidden in the bottom of the outer box body of water generator, promotes whole aesthetic feeling.

And a water collecting tray is arranged between the upper tank body and the lower tank body and is used for collecting water prepared by the air water preparation device and introducing the water into the source water tank.

And introduced into a source water tank; by adopting the structure, the water collecting tray can collect water and uniformly discharge the water into the source water tank, so that the source water tank can be effectively prevented from entering foreign matters, and the water quality is ensured.

The water collecting tray is positioned under the evaporator, and the source water tank is positioned under the water collecting tray.

By adopting the structure, the flow path of cold water and still water can be reduced, and the water quality is effectively prevented from changing in the output process.

The inner side of the air inlet is provided with a filter screen, and the filter screen is positioned between the air inlet and the evaporator.

By adopting the structure, the air sucked in can be filtered for the first time, and large-particle impurities are removed.

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

the ultra-clean air water making system with the automatic control function, which adopts the technical scheme, can obtain the moisture in the air to make water, and the water is stored after being purified by the purifier, and meanwhile, the ultra-clean air water making system also has a certain room dehumidification effect.

Drawings

Fig. 1 is a schematic perspective view of an ultra-clean air water making system with an automatic control function according to the present invention;

FIG. 2 is a schematic diagram of the internal structure of an ultra-clean air water production system with automatic control function in the embodiment;

FIG. 3 is a schematic view showing an installation structure of the water purifier of FIG. 2;

FIG. 4 is a view showing the positions of the air inlet and the air outlet in FIG. 2;

FIG. 5 is a circuit block diagram of the present invention;

FIG. 6 is a circuit diagram of a microprocessor;

FIG. 7 is a circuit diagram of a power module;

FIG. 8 is a circuit diagram of the microprocessor connected to the blower, compressor, and water pump;

FIG. 9 is a circuit diagram of the microprocessor connected to the first float switch, the second float switch and the third float switch;

FIG. 10 is a schematic view of the installation of one of the first float switch, the second float switch and the third float switch.

Detailed Description

The present invention will be further described with reference to the following examples and the accompanying drawings.

Referring to fig. 1 to 10, the utility model provides an ultra-clean air water making system with an automatic control function, which comprises a water making machine outer box 1, wherein the water making machine outer box 1 is provided with an air inlet 11, and an air water making device and a water storage purification treatment device are installed in the water making machine outer box 1; the water storage purification treatment device comprises a water purifier 9, a source water tank 7 for storing water prepared by the air water preparation device and a purified water tank 8 for storing purified water, wherein the source water tank 7 is connected with the water purifier 9 through a water pump, and the water is purified by the water purifier 9 and then discharged into the purified water tank 8 for storage;

the air water making device comprises an evaporator 3 for condensing air into water, a condenser 4 for alternating temperature, a fan 5 for sucking air and a compressor 6 for compressing gaseous refrigerants into liquid refrigerants; the evaporator 3 is positioned at the inner side of the air inlet 11, the condenser 4 is arranged between the evaporator 3 and the fan 5, the air inlet of the fan 5 faces the condenser 4, the air outlet of the fan is communicated with the air exhaust channel 5a, and the evaporator 3, the condenser 4 and the compressor 6 form a refrigerant circulation loop through refrigerant pipelines;

a first float switch is arranged at the upper part of the inner cavity of the source water tank 7, and a second float switch and a third float switch are respectively arranged at the upper part and the lower part of the inner cavity of the water purification tank 8;

the fan 5, the compressor 6, the first float switch, the second float switch, the third float switch and the water pump are connected with a controller, the controller acquires signals of the first float switch to control the fan 5 and the compressor 6 to work, and the controller acquires signals of the second float switch and the third float switch to control the water pump to work.

Air sucked from the air inlet 11 is condensed by a condensing system formed by the parts of the compressor 6, the evaporator 3 and the like to form condensed water, the condensed water flows into the source water tank 7 to be stored, and then the condensed water is purified by the water purifier 9 and then is discharged into the purified water tank 8 to be stored.

The first float switch, the second float switch and the third float switch can adopt side-mounted float switches or connecting rod float switches.

The upper portion of the inner cavity of the source water tank 7 is provided with a first float switch, the first float switch is located at the upper limit position of the water level of the source water tank 7, when the water level of the source water tank 7 is lower than the upper limit position, the controller acquires a signal of the first float switch, the fan 5 and the compressor 6 are controlled to work, air sucked from the air inlet 11 is condensed by a condensing system formed by the compressor 6, the evaporator 3 and the like, condensed water is formed, and the condensed water flows into the source water tank 7 to be stored. When the water level of the source water tank 7 rises to reach the upper limit position, the first float switch floats, and the controller acquires a signal of the first float switch and controls the fan 5 and the compressor 6 to stop working.

Preferably, the controller is also provided with a timer, and the fan 5 and the compressor 6 are controlled to work intermittently in the water making process, so that cold water is prevented from being condensed into ice on the evaporator 3.

The bottom of the outer wall of the source water tank 7 is provided with a water pump, the water inlet of the water pump is connected with the source water tank 7, and the water outlet of the water pump is connected with the water purifier 9.

The upper part and the lower part of the inner cavity of the water purifying tank 8 are respectively provided with a second float switch and a third float switch; the water level upper limit position and the water level lower limit position are respectively arranged on the purified water tank 8, when the water level of the purified water tank 8 is lower than the lower limit position, the third float switch gives a signal to the controller, the controller controls the water pump to work, and the water in the source water tank 7 is pumped and is discharged into the purified water tank 8 for storage after being purified by the water purifier 9. When the water level of the water purifying tank 8 rises to reach the upper limit position of the water level of the water purifying tank 8, the second float switch floats, the second float switch gives a signal to the controller, and the controller controls the water pump to stop working.

The controller can be a microprocessor or an analog comparison circuit, the analog comparison circuit acquires signals of the first float switch to control the fan 5 and the compressor 6 to work after comparison, and acquires signals of the second float switch and the third float switch to control the water pump to work after comparison. The circuit diagram of the analog comparison circuit is not shown.

As shown in fig. 7, the device further comprises a power module, wherein the power module supplies power to the microprocessor, the water pump, the compressor and the like.

Through foretell structure setting, can acquire the moisture in the air and make water, purify the back storage through the clarifier, with its setting in the room, can absorb the moisture of room interior air, have certain room dehumidification effect.

As shown IN fig. 9, the end P SIG IN 0 is connected to the first float switch, the end P SIG IN 2 is connected to the second float switch, the end P SIG IN 3 is connected to the third float switch, and the other terminals are reserved input terminals.

The end of the P SIG IN 0 is grounded through the first float switch, when the first float switch is closed, the end of the P SIG IN 0 is grounded, a low level signal is input to a pin of the controller, and when the first float switch is disconnected, the end of the P SIG IN 0 is disconnected, and a high level signal is input to the pin of the controller.

The SIG IN 2 end is grounded through the second float switch, and the P SIG IN 3 end is grounded through the third float switch. The working principle is the same.

As shown IN fig. 8, the microprocessor is connected with the ULN2003 current driving array through the control terminal group, and the signal input terminal groups IN 1-IN 7 of the ULN2003 current driving array are connected with the microprocessor; the OUT2 end of the ULN2003 current drive array controls the coil of the RLY8 relay to be switched on and off, and the normally open switch of the RLY8 relay controls the water pump to work and can control the water pump to be switched on and off; the OUT3 end of the ULN2003 current drive array controls the coil of the RLY9 relay to be switched on and off, and the normally open switch of the RLY9 relay controls the work of the germicidal lamp and controls the germicidal lamp to be switched on and off; the OUT5 end of the ULN2003 current drive array controls the coil of the RLY11 relay to be switched on and off, and the normally open switch of the RLY11 relay controls the fan to work; the OUT6 end of the ULN2003 current driven array controls the coil of the RLY12 relay to be switched on and off, and the normally open switch of the RLY12 relay controls the compressor to work.

As shown in fig. 1, the present invention mainly comprises an outer water producing machine case 1, wherein the outer water producing machine case 1 is composed of an upper case 1a and a lower case 1b, one side of the upper case 1a is provided with an air inlet 11, a filter screen 2 for filtering air impurities is arranged in the air inlet 11, and an evaporator 3, a condenser 4, a fan 5 and a compressor 6 are sequentially arranged in the upper case 1a corresponding to the air inlet 11 to form an air water producing device, which is used for completing the functions of water production and air dehumidification in a matching manner; the air water making device mainly realizes air condensation water through air contacting with the evaporator 3 and flows out of a water collecting tray 1c arranged below the evaporator 3, the working principle is that air with certain humidity is sucked through a fan 5, the air contacting with the evaporator 3 in a low-temperature state is condensed into water, the air cooled by the evaporator 3 passes through a condenser 4, the condenser 4 is in a heat release process in a working state, therefore, the temperature of the condenser 4 is higher, the temperature of gaseous refrigerant in the condenser 4 is replaced by the temperature of the air cooled by the evaporator 3, the constant-temperature and dry air is discharged into an air exhaust channel 5a extending vertically downwards of the fan 5 and is discharged from an air outlet 5b at the bottom of the water making machine outer box 1, and the gaseous refrigerant in the condenser 4 is transmitted to a compressor 6 through an input conduit connecting the condenser 4 and the compressor 6 after the temperature is replaced, this gaseous refrigerant is converted into liquid refrigerant through the compression of compressor 6, and then the output pipe through connecting compressor 6 and evaporimeter 3 transmits to evaporimeter 3, and the part that this output pipe is close to evaporimeter 3 sets up to capillary pipe, and when the liquid refrigerant that carries out the compression through compressor 6 passes through capillary pipe, can release its liquid pressure, convert into gaseous refrigerant by the liquid refrigerant, and the liquid refrigerant converts into gaseous refrigerant is a endothermic process, need absorb a large amount of heats, therefore gaseous refrigerant's temperature sharply drops, and transmit to on the evaporimeter 3, be used for cooling evaporimeter 3, make air intake 11 meet evaporimeter 3, can condense into water and flow into in the water-collecting tray 1 c.

Preferably, the lower tank 1b is provided with a water storage purification treatment device, which mainly comprises an active water tank 7, a water purifier 9 and a purified water tank 8, wherein the active water tank 7 is used for storing the water collected by the water collecting tray 1c, the active water tank 7 discharges the stored water into the water purifier 9 for filtering, adsorbing heavy metals in residual chlorine part for removing peculiar smell and sterilizing, then discharges the purified water into the purified water tank 8 for storage, and when the water in the purified water tank 8 needs to be discharged for drinking, the water is discharged through a water outlet 1d arranged on one side of the water generator outer tank 1 after being sterilized by the water purifier 9 again and improving water quality taste.

Specifically, a water collecting tray 1c is arranged right below the evaporator 3, a source water tank 7 is arranged right below the water collecting tray 1c, the source water tank 7 is communicated with the source water tank 7 through a water delivery joint at the bottom of the water collecting tray 1c, water in the water collecting tray 1c flows into the source water tank 7 through a pipeline connected with the water delivery joint for storage, a water flow path can be reduced, impurities are prevented from being generated in the conveying process, the source water tank 7 discharges the stored water into a water purifier 9 through a water suction pump for purification, the water purifier 9 is a four-stage water purifier and comprises a front water purifying component 91 and a rear active carbon antibacterial component 92, the front water purifying component 91 specifically comprises a PP cotton filtering piece 91a for filtering large-particle impurities such as sand iron rust, and the active carbon adsorbing component 91b for adsorbing heavy metal odor and removing; the reverse osmosis RO membrane filter 91c is used for filtering bacteria, heavy metals, viruses or antibiotics and the like to carry out high-efficiency bacteriostasis and improve the water quality and taste, and then is discharged into the purified water tank 8 for storage, and when water needs to be used, the purified water in the purified water tank 8 is discharged into the post-positioned active carbon bacteriostasis piece 92 for secondary treatment and then is discharged; this scheme is when water after the water purifier 9 purifies drains into water purification tank 8, does not use rearmounted active carbon antibacterial 92 to carry out antibacterial and improve quality of water taste, but when the water in water purification tank 8 need be drunk, carries out antibacterial and improvement quality of water taste with rearmounted active carbon antibacterial 92 with the water drainage again, and the benefit of doing so is: considering that bacteria can be bred in the storage process of the water purification tank 8 and the water quality and taste of the water can be gradually reduced in the storage process, the water is purified by the activated carbon again before drinking; the source water tank 7, the water purifier 9 and the purified water tank 8 are all connected through water pipes, one side of the lower tank body 1b is provided with a water outlet 1d, the water outlet 1d is connected with a rear activated carbon bacteriostatic piece 92 and is used for discharging water purified by activated carbon for the second time, and the discharged water can be directly drunk;

preferably, the source water tank 7, the clean water tank 8 and the water purifier 9 are sequentially arranged in the lower tank 1b, an exhaust passage 5a connected with the fan 5 is arranged between the source water tank 7 and the clean water tank 8, the fan 5 is provided with an air inlet and an air outlet, the air inlet corresponds to the condenser 4, the air outlet is connected with the exhaust passage 5a, and the exhaust passage 5a extends to the bottom of the lower tank 1b to form an air outlet 5 b; the water storage purification treatment device is characterized in that a source water tank 7 is communicated with a PP cotton filtering piece 91a, an active carbon adsorption piece 91b and a reverse osmosis RO membrane filtering piece 91c through a water delivery pipe, then the reverse osmosis RO membrane filtering piece 91c is connected with a water purification tank 8, the water purification tank 8 is finally connected with a post-positioned active carbon antibacterial piece 92 through the water delivery pipe, and drinkable water is discharged through a water outlet 1d arranged on one side of an outer tank body 1 of the water making machine.

Preferably, the water outlet 1d is provided with a water valve, and one side of the top of the purified water tank 8 is provided with an air inlet; is convenient to use.

Preferably, the air inlet 11 is provided with UV germicidal lamps in the inner side of the filter screen and the top of the water purification tank 8, wherein one UV germicidal lamp is used for cleaning bacteria in the discharged air, and the other UV germicidal lamp is used for cleaning bacteria in the water purification tank 8, so that the quality of the prepared water and the guarantee of the stored water are guaranteed, and the drinking water can be produced and stored more safely.

Floating balls are arranged in the source water tank 7 and the purified water tank 8 and are used for measuring the height of the water level so as to prevent the water from overflowing due to excessive stored water; and each raceway, drain pipe all provide the power supply through setting up the water pump, and realize the function of water pumping and drainage.

Preferably, the middle or middle upper part of the source water tank 7 is further provided with a fourth float switch, the fourth float switch is located below the first float switch, the fourth float switch is connected with the microprocessor, the microprocessor acquires a water level lower limit signal of the purified water tank 8 detected by the third float switch and then acquires a water level signal of the source water tank 7 detected by the fourth float switch to start the water pump, and the water pump is started when the water level of the purified water tank 8 reaches the lower limit and the water level of the source water tank 7 reaches the middle part, so that the water pump can be started under the condition that the water in the source water tank 7 is sufficient.

Reference is made above in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described above with reference to the drawings are exemplary and intended to be illustrative of the utility model and are not to be construed as limiting the utility model.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Finally, it should be noted that the above-mentioned description is only a preferred embodiment of the present invention, and that those skilled in the art can make various similar representations without departing from the spirit and scope of the present invention.

Claims (7)

1. The utility model provides an ultra-clean type air water making system with automatic control function which characterized in that: the water making device comprises a water making machine outer box body (1), wherein the water making machine outer box body (1) is provided with an air inlet (11), and an air water making device and a water storage purification treatment device are arranged in the water making machine outer box body (1); the water storage purification treatment device comprises a water purifier (9), a source water tank (7) for storing water prepared by the air water preparation device and a purified water tank (8) for storing purified water, wherein the source water tank (7) is connected with the water purifier (9) through a water pump, and the purified water is discharged into the purified water tank (8) for storage after being purified by the water purifier (9);

the air water making device comprises an evaporator (3) for condensing air into water, a condenser (4) for alternating temperature, a fan (5) for sucking air and a compressor (6) for compressing gaseous refrigerant into liquid refrigerant; the evaporator (3) is positioned on the inner side of the air inlet (11), the condenser (4) is arranged between the evaporator (3) and the fan (5), the air inlet of the fan (5) faces the condenser (4), the air outlet of the fan is communicated with the air exhaust channel (5a), and the evaporator (3), the condenser (4) and the compressor (6) form a refrigerant circulation loop through refrigerant pipelines;

a first float switch is arranged at the upper part of the inner cavity of the source water tank (7), and a second float switch and a third float switch are respectively arranged at the upper part and the lower part of the inner cavity of the water purification tank (8);

the fan (5), the compressor (6), the first float switch, the second float switch, the third float switch and the water pump are connected with a controller, the controller obtains signals of the first float switch to control the fan (5) and the compressor (6) to work, and the controller obtains signals of the second float switch and the third float switch to control the water pump to work.

2. The ultra-clean air to water system with automatic control function of claim 1, wherein: purifier (9) are including leading water purification subassembly (91) and rearmounted active carbon antibacterial (92), the water in source water tank (7) is purified through leading water purification subassembly (91) and is arranged into storage in water purification case (8), the purification water rethread rearmounted active carbon antibacterial (92) in water purification case (8) purify and provide the drinking water to outside.

3. The ultra-clean air to water system with automatic control function of claim 1, wherein: the water maker outer box body (1) comprises an upper box body (1a) and a lower box body (1b), an air water making device is installed in the upper box body (1a), and a water storage purification treatment device is installed in the lower box body (1 b).

4. The ultra-clean air to water system with automatic control function as claimed in claim 3, wherein: go up one side of box (1a) and be provided with air intake (11) of connecting air water making device, be provided with between source water tank (7) and clean water tank (8) and be connected air water making device's air exhaust passageway (5a), should air exhaust passageway (5a) vertical extend to down box (1b) bottom and form air exit (5b), one side that source water tank (7) were kept away from in clean water tank (8) is laid water purifier (9), source water tank (7), water purifier (9) and clean water tank (8) loop through the raceway intercommunication.

5. The ultra-clean air to water system with automatic control function as claimed in claim 3, wherein: a water collecting tray (1c) is arranged between the upper box body (1a) and the lower box body (1b), and the water collecting tray (1c) is used for collecting water prepared by the air water preparation device and introducing the water into the source water tank (7).

6. The ultra-clean air to water system with automatic control function as claimed in claim 5, wherein: the water collecting tray (1c) is positioned right below the evaporator (3), and the source water tank (7) is positioned right below the water collecting tray (1 c).

7. The ultra-clean air to water system with automatic control function of claim 1, wherein: the inner side of the air inlet (11) is provided with a filter screen (2), and the filter screen (2) is positioned between the air inlet (11) and the evaporator (3).

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