KR20180115987A - Dehumidifying and humidifying water cycling system and a multi-functional storage system and an appliance for dehumidifying and humidifying comprising the same - Google Patents

Abstract

The present invention provides a dehumidifying and humidifying water circulation system, and a multifunctional storage system and a dehumidifying device having the same. The present invention comprises: a dehumidifying and humidifying water tank (100) storing water for dehumidification and humidification; a filter unit (200) filtering the water stored in the humidifying and dehumidifying water tank (100); a humidification filter (500) supplying the filtered water; and a dehumidifying and humidifying water tank (700) storing the water provided from the humidification filter (500). The water stored in the dehumidifying and humidifying water tank (700) is filtered in the filter unit (200) again, and supplied to the dehumidifying and humidifying water tank (100) again.

Description

The present invention relates to a dampening circulation system and a multifunctional storage system including the dampening circulation system and a damping system including a humidifying and humidifying water cycling system and a multi-functional storage system and an appliance for dehumidifying and humidifying the same,

The present invention relates to a system for circulating humid water and a multifunctional containment system and a humidifier comprising the same.

The dehumidification refers to the removal of moisture in the air, and when the humidifier is introduced into the apparatus, the principle of condensing by passing through a heat exchanger is generally applied. The condensate generated in this process is collected in a separate reservoir, and the user must remove the reservoir and discard the condensate.

Humidification means raising the humidity of the air. For this purpose, the water stored in the water tank is evaporated or supersaturated and discharged into the air. In this process, the user must periodically remove the separate water tank, fill it with water, and then mount it again.

In both the dehumidifier and the humidifier, the process of dumping or filling the water should be done every 1 to 2 days, and the water tank cleaning must also be done separately.

Therefore, if dehumidification and humidification can be carried out simultaneously in one machine, it is preferable to discard water or to replenish water, and to reduce the number of buckets.

Techniques for this are disclosed.

Korean Patent No. 10-2016-0068115 filed by the present applicant discloses a technique in which a humidifying filter is placed in one water tank, water is supplied to the humidifying filter in the water tank during humidification and humidification is performed, And introduces a technique for accumulating condensed water again in the corresponding tank.

In Korean Patent No. 10-0675801, a dehumidifying function is added to a humidifier, and dehumidification is performed in a passage for humidification.

In this type of wet scrubbing apparatus, a single water tank can be used to smooth the supply and discharge of water to the user, and the user's workload is reduced to improve convenience.

However, condensed water after dehumidification contains many contaminants in the air, and when it is humidified and discharged, the air quality deteriorates. Of course, in order to prevent this, there is a dehumidifying device having a separate filter. However, since the dehumidified water and the water for humidifying are filtered through a plurality of separate filters, the flow path is complicated and accordingly many valves, So that breakdowns frequently occur or initial manufacturing costs increase.

In addition, the introduction of the concept of collecting or evaporating water in a single tank increases the amount of water that must be filtered by mixing the dehumidified and humidified water in the same water tank, Loses.

Particularly, in a general clothes manager, it is necessary to keep the inside of the clothes kept at a high humidity or keep the humidity low, and it is highly likely to cause a failure, and the flow path is complicated, If it is replaced, it is not effective for user convenience as well as for clothing management.

Furthermore, even when garment is sprayed to clothes at a high temperature and a high pressure, garment damage may occur.

(Patent Document 1) Korean Patent No. 10-2016-0068115

(Patent Document 2) Korean Patent No. 10-2016-0039137

(Patent Document 3) Korean Patent No. 10-2015-0077775

(Patent Document 4) Korean Patent No. 10-0675801

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems.

Specifically, a damping water circulation system capable of simultaneously performing dehumidification and humidification is introduced, which simplifies the flow path and reduces the number of valves and pumps installed therein, thereby reducing the possibility of failure and saving the manufacturing cost .

Further, in order to increase the lifetime of the filter, only a minimum number of filters are employed, but only the water requiring filtration can be filtered, that is, the dehumidified water can be filtered and the water just before humidification can be filtered, And to improve the filtration effect.

Also, there is a new concept of multifunctional storage system, which is deviated from the concept of garment management, and moisture is to be provided by applying such a system.

In particular, in a multifunctional storage system, it is desired to provide a multifunctional storage system excellent in sterilization and deodorization effect without using steam.

According to an aspect of the present invention, there is provided an apparatus for cleaning an aqueous humectant, A filtration unit 200 through which the water stored in the agitation tank 100 is filtered; A humidifying filter (500) to which the filtered water is supplied; And a humidifying water tank (700) in which water provided in the humidifying filter (500) is stored. After the water stored in the humidifying tank (700) is re-filtered in the filtering unit (200) Which is re-supplied to the wet water tank 100, is provided.

The sterilizing unit 300 may further include a sterilizing unit 300 to sterilize the filtered water, and sterilized water may be supplied to the humidifying filter 500 from the sterilizing unit 300.

The apparatus may further include an instantaneous heating unit 400 provided at a front end of the humidifying filter 500 to instantaneously supply the heated water to the humidifying filter 500.

In the flow path connecting the wetting water tank 100 and the wetting water tank 700, a flow path connecting the wetting water tank 100 and the wetting water tank 700 is formed, The second valve V12 is located in the flow path toward the humidifier tank 700 and the first valve V11 is located on the flow path connecting the humidification filter 100 and the humidification filter 500 The humidifying pump P11 is positioned in the flow path toward the humidifying filter 500 and the dehumidifying pump P12 is connected to the flow path toward the humidifying water chamber 100. The dehumidifying pump P12 is connected to the dehumidifying pump P11, .

When the first valve V11 is opened and the second valve V12 is closed and the humidification pump P11 is activated, the humidification pump P11 is operated to humidify the humidification pump 100 It is preferable that the stored water is filtered by the filtration unit 200 and then supplied to the humidification filter 500.

When the first valve V11 is closed and the second valve V12 is opened and the dehumidification pump P12 is activated, the dehumidification pump P12 is operated to cause the dehumidification pump P12 It is preferable that the stored water is filtered in the filtration unit 200 and then supplied again to the wet bath 100.

A flow path switching valve V21 is located at a position connected to the inlet portion of the filtration unit 200 on the flow path connecting the desulfurizer 100 and the desiccant tank 700, The humidification pump P21 is positioned on the flow path connecting the humidifier filter 500 to the humidification filter 500 on the basis of the position where the humidification filter 500 is connected to the water outlet of the filtration unit 200, , It is preferable that the dehumidifying pump (P22) is located in the flow path toward the agitating tank (100).

When the humidification pump P21 is activated by the flow path switching valve V21 communicating the flow path between the adsorption tower 100 and the inlet portion of the filtration unit 200, The water stored in the humidification tank 100 may be filtered by the filtration unit 200 and then supplied to the humidification filter 500.

When the dehumidifying pump P22 is activated by the passage switching valve V21 communicating the flow path between the desiccant tank 700 and the inlet portion of the filtration unit 200, It is preferable that the water stored in the humidifying tank 700 is filtered by the filtering unit 200 and then supplied again to the humidifying tank 100. [

The first passage switching valve V31 is located at a position where the first passage switching valve V31 is connected to the inlet portion of the filtration unit 200 on the passage connecting the first wetting tank 100 and the second wetting tank 700, One point on the flow path connecting the humidification filter 100 and the humidification filter 500 is connected to the outlet of the filtration unit 200 and the second flow path switching valve V32 is located at the one point, It is preferable that the pump P31 is positioned between the outlet portion of the first flow control valve 200 and the second flow path switching valve V32.

The first flow path switching valve V31 communicates the flow path between the mist absorbing reservoir 100 and the intake portion of the filtration unit 200 and the second flow path switching valve V32 communicates with the filtration unit 200 and the humidification filter 500. When the pump P31 is activated, the water stored in the humidification tank 100 by the pump P31 flows into the humidification filter 500 through the filtration unit 500, And is then supplied to the humidifying filter 500 after being filtered through the filter 200.

The first flow path switching valve V31 communicates the flow path between the feed water tank 700 and the inlet portion of the filtration unit 200 and the second flow path switching valve V32 communicates with the filtration unit And the pump P31 is operated so that the water stored in the agitating tank 700 by the pump P31 flows into the filtration tank 100 through the filtration It is preferable that the water is re-supplied to the wet bath 100 after being filtered in the unit 200.

Another embodiment of the present invention for solving the above problems provides a multifunctional storage system comprising the above-described dampening circulation system.

Further, it is preferable that a blower is further provided on one side of the humidifying filter 500, and the water supplied to the humidifying filter 500 is blown into the inside of the multifunctional housing system as humid air by the blower.

The humidifying filter 500 is further provided with a heat exchanger 600 and water contained in the humidifying filter 500 is supplied to the humidifying water tank 700 by the heat exchanger 600 .

It is preferable that the agitation tank 100 is detachable, and the agitation tank 700 is mounted inside the multifunctional housing system.

Yet another embodiment of the present invention for solving such a problem is that the above-mentioned lid including the dampening circulation system provides moisture.

Further, it is preferable that a blower is further provided on one side of the humidifying filter 500, and the water supplied to the humidifying filter 500 is discharged as humid air by the blower to perform a humidifying function.

The humidifying filter 500 is further provided with a heat exchanger 600 and water contained in the humidifying filter 500 is supplied to the humidifying water tank 700 by the heat exchanger 600 It is desirable to perform a dehumidifying function.

Also, it is preferable that the agitating tank 100 is detachable, and the agitating tank 700 is preferably mounted inside the wetting tank.

According to the present invention, the wastewater is continuously circulated while the pollutants are small.

If dehumidification or humidification is desired through this, it is possible to construct a semi-automated dehumidification system because the additional operation of the user is not necessary, such as throwing out dehumidifying water or filling humidifying water.

Filtration and sterilization are continuously performed, so that contaminants that may occur during dehumidification are treated, and clean air can be sprayed during humidification or wet air injection for garment management.

When applied to a multi-functional storage system, the sterilizing and deodorizing effect is excellent, and the problem of damage to clothes due to the use of steam can be solved.

When applied to moisture, the user does not need to empty the water bottle frequently, fill the water bottle, or clean the water bottle, thereby increasing the convenience.

1 shows a first embodiment of a fresh water circulation system according to the present invention. Fig. 1A shows the flow path as a whole, Fig. 1B shows the flow of the fluid at the time of humidification, and Fig. 1C shows the flow of the fluid at the time of dehumidification.
Fig. 2 shows a second embodiment of a fresh water circulating system according to the present invention. Fig. 2 (a) shows the flow path as a whole, Fig. 2 (b) shows the fluid flow at the time of humidification, and Fig. 2 (c) shows the fluid flow at the time of dehumidification.
Fig. 3 shows a third embodiment of a fresh water circulation system according to the present invention. Fig. 3A shows the flow path as a whole, Fig. 3B shows the fluid flow at the time of humidification, and Fig. 3C shows the fluid flow at the time of dehumidification.

Hereinafter, a fresh water circulation system according to the present invention will be described with reference to the drawings.

First Embodiment

Referring to Fig. 1, a first embodiment of a fresh water circulating system according to the present invention will be described.

The dampening circulation system according to the present invention includes the dampening water bottle 100, the filtration unit 200, the sterilizing unit 300, the instantaneous heating unit 400, the humidification filter 500, do.

The humidifier 100 stores the water used for humidification. Removable, so that when applied to moisture, the multifunctional housing system or liner can be mounted on the moisture after the user removes it and supplies water. In addition, water is supplied again from the humidifier tank 700. As described later, the water stored in the humidifier tank 700 is water containing various contaminants (fine dust, odor particles, fungi, etc.) in the air since it is provided in the humidifying filter 500, The water is filtered and then re-supplied, so that the contamination degree of the water stored in the wet tub 100 can be continuously managed.

The filtration unit 200 not only filters the water supplied from the wet tub 100 to the humidifying filter 500 for humidifying but also re-supplies the water from the wet tub 700 to the wet tub 100 And performs a function of filtering water. UF filters, but may include any other filters or filters such as MF filters, NF filters, and the like.

The filtration unit 200 is provided with a water inlet and an outlet. The water inlet portion of the filtration portion 200 is provided on the flow path connecting the wetting water passage 100 and the wetting water tank 700 in the first embodiment, And is provided on the flow passage connecting the humidifying filter 500.

The sterilizing unit 300 functions to sterilize the water supplied to the humidifying filter 500. EW sterilization method may be adopted, but any other sterilization method may be adopted. The humidifying filter 500 is preferably provided in a flow path connected to the humidifying filter 500, which is a function necessary for humidifying rather than dehumidifying.

The instantaneous heating unit 400 performs a function of instantaneously heating the water supplied to the humidifying filter 500. In the multifunctional housing system described later, it is preferable for blowing hot humid air to the inside of the multifunctional housing system for sterilizing and deodorizing effect, and the instantaneous heating unit 400 heats the water and supplies hot water to the humidifying filter 500.

In the present invention, either only one of the sterilizing unit 300 and the instantaneous heating unit 400 may be applied, or both of them may or may not be applied.

The humidifying filter 500 performs both humidification and dehumidification functions.

In order to carry out the humidification function, a separate sump (not shown) adjacent to the humidifying filter 500 generates air by supplying water to the humidifying filter 500, and discharges the humidified air to the outside. In the case of the multifunctional storage system, the hot water heated by the instantaneous heating unit 400 is supplied to the humidifying filter 500 and then discharged by a blower (not shown) to bring about sterilization and deodorizing effect. In the case of humidity, ordinary cold water is supplied to the humidifying filter 500 and then discharged by a blower (not shown) to humidify the outside air.

In order to carry out the dehumidifying function, the humidifying filter 500 absorbs moisture in the outside air without receiving water. Due to the natural shape for maintaining the equilibrium state, or using the heat exchanger 600 or the like, moisture contained in the humidifying filter 500 is supplied to the humidifier tank 700. This process dehumidifies.

The humidifier filter 500 is supplied with water. The supplied water is circulated through the filtration part 200 to the wetted water bottle 100.

As shown in FIG. 1A, in the first embodiment, on the basis of the position of the flow path connecting the wetting water tank 100 and the wetting water tank 700 to the inlet portion of the filtration unit 200, The first valve V11 is positioned in the flow path toward the wetting water tank 100 and the second valve V12 is located in the flow path toward the wetting water tank 700. [

The humidifying pump P11 is connected to the flow path toward the humidifying filter 500 on the basis of the position where the humidifying filter 500 is connected to the water outlet of the filtration unit 200 on the flow path connecting the humidification filter 100 and the humidification filter 500. [ And the dehumidifying pump P12 is located in the flow path toward the wetting water tank 100. [

The first valve V11 and the second valve V12 are selectively opened and closed and the humidification pump P11 or the dehumidification pump P12 is operated to naturally humidify or dehumidify by the power provided by each pump.

As shown in Fig. 1B, for humidification, the first valve V11 is opened, the second valve V12 is closed, and the humidification pump P11 is activated. In this case, the water stored in the humidification tank 100 flows into the water intake part of the filtration part 200 by the humidification pump P11 and flows out through the water outlet part of the filtered air filtering part 200, And is humidified.

As shown in Fig. 1C, for dehumidification, the first valve V11 is closed, the second valve V12 is opened, and the dehumidification pump P12 is activated. In this case, the water stored in the humidifying tank 700 is introduced into the wetting chamber 100 through the water outlet of the filtration unit 200 after the water stored in the humidifying tank 700 is introduced into the water receiving unit of the filtration unit 200 by the dehumidification pump P12, Re-supplied and dehumidified.

Second Embodiment

The second embodiment is an embodiment in which two pumps are used and one flow path switching valve is used as compared with the first embodiment using two pumps and two valves.

2A, in the second embodiment, a flow path switching valve (not shown) is provided at a position connected to the water inlet portion of the filtration unit 200 on the flow path connecting the wetting water tank 100 and the wetting water tank 700, V21).

The humidifying pump P21 is connected to the flow path toward the humidifying filter 500 on the basis of the position where the humidifying filter 500 is connected to the water outlet of the filtration unit 200 on the flow path connecting the humidification filter 100 and the humidification filter 500. [ And the dehumidifying pump P22 is located in the flow path toward the wetting water tank 100. [

2B, for the purpose of humidification, the flow path switching valve V21 communicates the flow path between the wetting water tank 100 and the water receiving portion of the filtration unit 200, and the humidification pump P21 is operated. In this case, the water stored in the humidification tank 100 by the humidification pump P21 flows into the water intake portion of the filtration unit 200 and is filtered and then supplied to the humidification filter 500 to be humidified.

2C, in order to dehumidify, the flow path switching valve V21 communicates the flow path between the wetting water tank 700 and the inlet portion of the filtration unit 200, and the dehumidifying pump P22 is operated. In this case, the water stored in the humidifying tank 700 is introduced into the inlet portion of the filtration unit 200 by the dehumidification pump P22, and then filtered to be supplied again to the humidification tank 100 to be dehumidified.

Third Embodiment

The third embodiment differs from the first embodiment in that two pumps and two valves are used and one pump is used in comparison with the second embodiment in which two pumps are used and one flow switching valve is used It is an embodiment in which two flow path switching valves are used.

3A, in the third embodiment, the first flow path is formed at a position on the flow path connecting the wetting water tank 100 and the wetting water tank 700 to the inlet portion of the filtration unit 200, The switching valve V31 is located and one point on the flow path connecting the humidification filter 100 and the humidification filter 500 is connected to the outlet of the filtration unit 200 and the second flow path switching valve V32).

Further, one pump P31 is positioned between the outlet portion of the filtration unit 200 and the second flow path switching valve V32.

3B, for the purpose of humidification, the first flow-line switching valve V31 communicates the flow path between the wet-type water tank 100 and the inlet portion of the filtration unit 200, and the second flow-line switching valve V32 Communicates a flow path between the water outlet portion of the filtration unit 200 and the humidifier filter 500, and the pump P31 is operated. In this case, the water stored in the moist chamber 100 by the pump P31 flows into the inlet portion of the filtration portion 200 and is filtered and supplied to the humidification filter 500 through the outlet portion of the filtration portion 200 It is humidified.

3C, the first flow path switching valve V31 communicates the flow path between the wetting water tank 700 and the inlet portion of the filtration unit 200, and the second flow path switching valve V32 Communicates a flow path between the water outlet portion of the filtration unit 200 and the agitation water tank 100, and the same pump P31 as in the humidification is operated. In this case, the water stored in the humidifying tank 700 by the pump P31 flows into the water receiving portion of the filtration unit 200 and is filtered and then supplied to the wetting tank 100 through the water outlet of the filtration unit 200 Re-supplied and dehumidified.

Multifunctional storage system

The dampening circulation system according to the present invention can be applied to a multifunctional storage system. In this case, hot water heated by the instantaneous heater 400 to 50 to 70 degrees Celsius is supplied to the humidifying filter 500, and then hot air is supplied as a blower (not shown) to humidify the hot humid air to the inside of the multifunctional housing system It is preferable to blow air. By this means, it is possible to remove the contaminants in the clothes located inside the multifunctional storage system, to bring about a deodorizing and sterilizing effect, and also to prevent damages of clothing which may occur due to direct separation of high temperature and high pressure steam of about 100 degrees or more.

When the dehumidification is applied to the multifunctional storage system, the atmosphere containing many contaminants (fine dust, odor particles, fungi, etc.) excited from the clothes can be included in the humidifying filter 500, Contamination may be included. Accordingly, the filtration unit 200 must be provided in the flow path between the wetting water tank 700 and the wetting water tank 100 in which the water flows for circulation.

Even in this case, two or more filtration units can be used individually for each humidification and dehumidification, but it is preferable for one filtration unit to function according to each function for a more compact multifunctional storage system configuration, manufacturing cost reduction, Do. This effect is achieved by the inherent flow path configuration of the present invention.

In addition, it is preferable that the wetting water tank 700 is mounted inside the multifunctional housing system to be a part that can not be accessed by the user, and that only the wetting water tank 100 is detachable. For the user, only one water bottle can be removed, and water can be supplied or washed if necessary. That is, there is no need for the user to continuously supply or wash water to two or more water bottles or tanks, thereby enhancing ease of use.

I am moisture

The damping circulation system according to the present invention can be applied to dampness (or wet dampener). Humidification by cold water is also possible, and the instantaneous heater 400 is optional.

The contaminants that may be contained in the atmosphere during dehumidification may be filtered by the filtration unit 100.

Similarly to the multifunctional housing system, it is preferable that the wetting water tank 700 is a member which is mounted inside the moisture and is inaccessible to the user, so that only the wetting water tank 100 is detachable. For the user, only one water bottle can be removed, and water can be supplied or washed if necessary. That is, there is no need for the user to continuously supply or wash water to two or more water bottles or tanks, thereby enhancing ease of use.

Particularly, in the case of the humidifier to which the humidification circulation system according to the present invention is applied, it is convenient that the user does not need to supply water to the water storage every day unlike a general humidifier. Of course, as described above in the background part of the present invention, this effect can be achieved even in the conventional humidifier, but the dehumidified water is not filtered, so there is a problem that the humidifier smells or the water reservoir needs to be frequently cleaned. These problems are solved by the filtration unit 200 and the sterilizing unit 300.

While the present invention has been described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims. It will be appreciated that embodiments are possible. Accordingly, the scope of protection of the present invention should be determined by the claims.

100: I wet water bottle
200:
300: sterilizing unit
400: Instantaneous heating part
500: Humidification filter
600: heat exchanger
700: When I was in the wet bath
V11: first valve
V12: Second valve
V21: Flow switching valve
V31: First-flow switching valve
V32: Second flow switching valve
P11, P21: Humidifying pump
P21, P22: Dehumidification pump
P: Pump

Claims (20)

A wetting water tank (100) in which the wetting water is stored;
A filtration unit 200 through which the water stored in the agitation tank 100 is filtered;
A humidifying filter (500) to which the filtered water is supplied; And
And a humidifying water tank (700) in which water provided in the humidifying filter (500) is stored,
The water stored in the humidifying tank 700 is re-filtered in the filtering unit 200 and then supplied again to the humidifying tank 100,
I damp circulation system.
The method according to claim 1,
Further comprising a sterilizing unit (300) in which the filtered water is sterilized,
And sterilized water is supplied to the humidifying filter 500 from the sterilizing unit 300,
I damp circulation system.
The method according to claim 1,
And an instantaneous heating unit (400) provided at a front end of the humidifying filter (500) for instantly heating the inflowed water to supply it to the humidifying filter (500)
I damp circulation system.
The method according to claim 1,
The flow path connecting the wetting water tank 100 and the wetting water tank 700 is provided with a flow path to the wetting water tank 100 on the basis of a position where the wetting water tank 100 is connected to the water receiving portion of the filtration unit 200, The first valve V11 is located and the second valve V12 is located in the flow path toward the humidifier tank 700,
A humidifying pump (500) is connected to the flow path toward the humidifying filter (500) on the basis of a position where the humidifying filter (500) is connected to the outlet of the filtering unit (200) And the dehumidifying pump P12 is located in the flow path toward the agitating hopper 100,
I damp circulation system.
5. The method of claim 4,
When the first valve V11 is opened and the second valve V12 is closed and the humidification pump P11 is activated, the humidification pump P11 is operated to cool the humidification pump P11, Water is filtered by the filtration unit 200 and then supplied to the humidification filter 500,
I damp circulation system.
6. The method of claim 5,
When the first valve V11 is closed and the second valve V12 is opened and the dehumidification pump P12 is activated, the dehumidification pump P12 is operated to stop the dehumidifying pump P12 The water is filtered at the filtration unit 200 and then supplied again to the wetting tank 100,
I damp circulation system.
The method according to claim 1,
A flow path switching valve V21 is located at a position connected to the water inlet of the filtration unit 200 on the flow path connecting the wetting water tank 100 and the wetting water tank 700,
A humidifying pump (500) is connected to the flow path toward the humidifying filter (500) on the basis of a position where the humidifying filter (500) is connected to the outlet of the filtering unit (200) P21), and a dehumidifying pump (P22) is located in a flow path toward the agitating hopper (100)
I damp circulation system.
8. The method of claim 7,
The flow path switching valve V21 communicates a flow path between the agent supply reservoir 100 and the inlet portion of the filtration unit 200 and the humidification pump P21 is activated by the humidification pump P21 The water stored in the humidification tank 100 is filtered by the filtration unit 200 and then supplied to the humidification filter 500,
I damp circulation system.
8. The method of claim 7,
When the dehumidification pump P22 is activated by the passage switching valve V21 communicating the flow path between the desiccant tank 700 and the inlet portion of the filtration unit 200, The water stored in the humidifier tank 700 is filtered by the filtration unit 200 and then supplied to the humidification tank 100,
I damp circulation system.
The method according to claim 1,
The first flow path switching valve V31 is located at a position connected to the water inlet of the filtration unit 200 on the flow path connecting the wetting water tank 100 and the wetting water tank 700,
One point on the flow path connecting the wet scrubber 100 and the humidification filter 500 is connected to the outlet of the filtration unit 200 and the second flow path switching valve V32 is located at the one point,
(P31) is positioned between the outlet portion of the filtration unit (200) and the second flow path switching valve (V32)
I damp circulation system.
11. The method of claim 10,
The first flow path switching valve V31 communicates a flow path between the mist removing chamber 100 and the inlet portion of the filtration unit 200 and the second flow path switching valve V32 communicates with the filtration unit 200, When the pump P31 is operated, the water stored in the absorber 100 by the pump P31 flows into the filtration unit 200 And then supplied to the humidifying filter 500,
I damp circulation system.
11. The method of claim 10,
The first flow path switching valve V31 communicates the flow path between the feed water tank 700 and the inlet part of the filtration part 200 and the second flow path switching valve V32 communicates with the filtration part 200, When the pump P31 is operated, the water stored in the wet-type water tank 700 by the pump P31 flows into the filtration unit (not shown) 200 and then re-supplied to the wet bath 100,
I damp circulation system.
A multifunctional containment system comprising a dampening circulation system according to any one of claims 1 to 12.
14. The method of claim 13,
The humidifying filter 500 further includes a blower at one side thereof,
Wherein the water supplied to the humidifying filter (500) is blown into humidified air inside the multifunctional housing system by the blower,
Multifunctional storage system.
14. The method of claim 13,
A heat exchanger (600) is further provided on one side of the humidifying filter (500)
Wherein the water contained in the humidification filter (500) is supplied to the humidifying tank (700) by the heat exchanger (600)
Multifunctional storage system.
14. The method of claim 13,
The humidifier tank (100) is detachable, and the humidifier tank (700) is mounted inside the multifunctional housing system.
Multifunctional storage system.
13. A dampening system comprising a dampening circulation system according to any one of claims 1 to 12.
18. The method of claim 17,
The humidifying filter 500 further includes a blower at one side thereof,
The water supplied to the humidifying filter (500) is discharged as wet air to perform a humidifying function by the blower,
I'm wet.
18. The method of claim 17,
A heat exchanger (600) is further provided on one side of the humidifying filter (500)
The water contained in the humidifying filter (500) is supplied to the humidifying tank (700) by the heat exchanger (600)
I'm wet.
18. The method of claim 17,
The humidifier tank (100) is detachable, and the humidifier tank (700) has a humidifier
I'm wet.

Images