KR20190035395A - Multifunctional storage system including a flow path changing member capable of forming a variable flow path inside - Google Patents

Abstract

Disclosed is a multifunctional storage system. More specifically, the multifunctional storage system includes: a storage part (100) providing an internal storage space; a flow path storage part (200) located on one side of the storage part (100); a common flow path part (300) stored on one side of the flow path storage part (200); a variable flow path part (500) having one side connected to the common flow path part (300) so as to communicate through fluids; and an indoor air circulating part (800) connecting the storage part (100) to the variable flow path part (500) so as to communicate through fluids. The variable flow path part (500) includes a first flow path switching member (510) and a second flow path switching member (520) which are able to be rotated. The indoor air circulating part (800) includes: an indoor air inflow part (810) located near the first flow path switching member (510); and an indoor air discharge part (820) located near the second flow path switching member (520).

Description

[0001] The present invention relates to a multifunctional storage system including a flow path changing member capable of forming a variable flow path therein,

The present invention relates to a multifunctional housing system, and more particularly, to a multifunctional housing system including a flow path changing member for forming a variable flow path therein.

In recent years, air pollution due to fine dust has been a problem. Accordingly, devices related to air purification such as air cleaners are attracting attention.

However, since the air purifier and the like can purify only the air in the enclosed indoor space, it is difficult to remove all the dust and the like that may come on the clothes after going out.

In order to remove this, a physical method was used to clothe clothes outdoors. However, in recent years, it has been difficult to use this method because of high contamination of outdoor air.

Accordingly, a clothing manager for removing fine dust or the like, which may be buried in clothes worn outdoors, has been developed and used.

The clothes manager can physically shake the clothes accommodated in the storage space, or spray the fluid to remove dust and the like on the clothes. In addition, not only a function of removing dust and the like on clothes but also a function of performing deodorization and the like have been developed and applied.

However, since the air used for garment management may be contaminated, the clothes manager generally has a facility for purifying the clothes before they are discharged to the outside. Techniques for introducing outside air into the room as well as the outside air introduced for garment management to perform the indoor air cleaning function have been disclosed.

Korean Patent Registration No. 10-1751777 discloses a multifunctional smart wardrobe. Specifically, a multifunctional smart wardrobe capable of performing functions such as air cleaning, dehumidification, humidification, sterilization steam, ultraviolet ray sterilization, and the like including an air cleaning dehumidification multifunction device, a sterilizing steamer, and an ultraviolet sterilizing lamp is disclosed.

However, there is a limit in that a multifunction smart chest of the type described above must be provided with a separate air cleaning, dehumidifying and humidifying multifunctional apparatus for performing an air purifying function.

Korean Patent Registration No. 10-0757434 discloses an article storage type air cleaner. Specifically, a filter unit having a plurality of filters stacked thereon and a blower unit disposed on the filter unit and rotating the blower fan to discharge the purified air introduced through the suction port through the discharge port are installed in the unused space of the air cleaner An article storage type air cleaner capable of storing articles.

However, the above-described type of the article storage type air cleaner has a limit that the size of the storage space is limited because it only uses the empty space of the existing air cleaner as a storage space.

Korean Patent Registration No. 10-1751777 (June 27, 2017) Korean Patent Registration No. 10-0757434 (2007.09.04)

It is therefore an object of the present invention to provide a multifunctional storage system capable of removing dust and the like housed in a storage space and capable of removing dust and the like stored in the storage space, And a flow path changing member capable of forming a variable flow path therein so as to be able to carry out the multi-function storage system.

In order to achieve the above-mentioned object, the present invention is characterized by comprising: a storage part (100) for providing a storage space inside; A flow path accommodating part 200 located at one side of the accommodating part 100; A common flow path portion 300 accommodated in one side of the flow path accommodating portion 200; A variable passage part 500 connected at one side in fluid communication with the common passage part 300; And an internal circulation unit 800 for fluidly connecting the accommodating unit 100 and the variable passage unit 500. The variable passage unit 500 includes a rotatable first passage changing member 510, And a second flow path changing member (520), and the inside circulation unit (800) includes an inflow inflow portion (810) positioned adjacent to the first flow path changing member (510); And a tail discharge unit (820) positioned adjacent to the second flow path changing member (520).

The first flow path changing member 510 has a rectangular column shape including a first opening portion 512 having two side surfaces facing each other, and the second flow path changing member 520 has an outside air opening A triangular columnar diaphragm member 527 is formed on the inner side of the second flow path changing member 520 so that the triangular columnar diaphragm member 527 is rotatable Respectively.

The first flow path changing member 510 can be rotated between a first position where the inflow inlet 810 is opened and a second position where the inflow inlet 810 is closed, The diaphragm member 527 of the changing member 520 may be rotated between a third position where the inner discharging unit 820 is opened and a fourth position where the inner discharging unit 820 is closed.

Further, when the first flow path changing member 510 is located at the first position, the intervening member 527 of the second flow path changing member 520 is located at the third position, A circulation circulation flow path including the inflow portion 810, the common flow path portion 300, the variable flow path portion 500, and the inside air discharge portion 820 may be formed.

In addition, a detachable air purifying unit 700 is connected to the other side of the common channel unit 300 so as to be fluidly communicable. And a discharge passage portion 600 fluidly connected to the other side of the variable passage portion 500. When the first passage changing member 510 is located at the second position, The diaphragm member 527 of the second flow path changing member 520 is located at the fourth position and the air flow restrictor 700, the common flow path portion 300, the variable flow path portion 500, An outside air purifying flow path including the flow path portion 600 may be formed.

According to the present invention, a variable flow path is formed inside a conventional multifunctional storage system using the flow path changing member, and air or room air inside the storage unit can be selectively cleaned while using facilities related to air purification as it is.

Therefore, the indoor air cleaning function can be performed using a filter or the like existing in the existing multifunctional housing system only by forming the variable flow path, so that the indoor air cleaning function can be performed without adding another air cleaning device .

1 is a perspective view showing a multifunctional storage system according to an embodiment of the present invention.
2 is a schematic view of the inside of the flow path accommodating portion of the multifunctional accommodating system of FIG.
FIG. 3 is a view showing an air purifier positioned in the passage accommodating portion of FIG. 2. FIG.
FIG. 4 is a view showing a state where the outside air blocking member of the air purifying unit of FIG. 3 is slidably moved.
5 is a perspective view showing a first flow path changing member according to an embodiment of the present invention.
6 is a perspective view showing a second flow path changing member according to an embodiment of the present invention.
7 is a cross-sectional view showing a third position (a) and a fourth position (b) of the second flow path changing member of Fig. 6;
FIG. 8 is a view showing an outside air purifying flow path formed inside the flow path accommodating portion of FIG. 2. FIG.
Fig. 9 is a view showing the circulation circulation flow path formed inside the flow path accommodating portion of Fig. 2. Fig.

Hereinafter, a multifunctional storage system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The terms "front", "rear", "upper", "lower", "left", "right" as used below will be understood through the coordinate system shown in FIG.

The term " outside air " used in the following description means air existing outside the multifunctional housing system 10, and the term " inside air "means air existing inside the housing part 100 to be described later.

1. Description of Configuration of Multifunctional Storage System 10

Referring to FIG. 1, a multifunctional storage system 10 according to an embodiment of the present invention includes a storage unit 100 and a flow path accommodating unit 200.

(1) Description of the storage section (100)

The storage unit 100 forms the upper side of the multifunctional storage system 10 and has a rectangular shape. The position and shape of the storage portion 100 can be changed.

The storage unit 100 can store an object inside. In one embodiment, the storage portion 100 may be provided with clothes. To this end, the storage unit 100 may be provided with a hanger.

A door 110 is openably and closably connected to the front side of the storage unit 100 to store the object in the storage unit 100.

(2) In the receiving portion 200  Explanation

The flow path accommodating portion 200 is located below the accommodating portion 100 and has a rectangular shape. The position and shape of the flow path accommodating portion 200 can be changed, but it is preferable to match the shape of the accommodating portion 100.

The variable passage may be formed in the passage accommodating part 200 according to the embodiment of the present invention.

2, the flow path accommodating portion 200 includes a separating opening 210, a discharge opening 220, a common flow passage 300, a blowing portion 400, a variable passage portion 500, a discharge passage portion 600, An air purification unit 700, and an air circulation unit 800. [

The separation opening portion 210 provides a passage through which the humidification portion 310, the heat exchange portion 320, and the air purifying portion 700, which will be described later, can be separated from the flow path accommodating portion 200. During use of the multifunctional housing system 10, the separation opening 210 is closed by the separation blocking member 211.

The separating blocking member 211 opens the separating opening 210 when the humidifier 310, the heat exchanging unit 320 and the air purifying unit 700 are to be separated, The opening 210 is closed.

To this end, the separating blocking member 211 may be rotatably coupled to one side of the flow path accommodating part 200, and may be provided in various ways for opening and closing the separating opening 210.

The discharge opening 220 is fluidly connected to a discharge passage portion 600 to be described later, and provides a passage through which the fluid passing through the outside air purification passage, which will be described later, can be discharged to the outside of the passage receiving portion 200. When the circulating flow path to be described later is formed, the discharge opening portion 220 is closed by the discharge blocking member 221.

The discharge shutoff member 221 opens the discharge opening 220 so that the fluid can be discharged when the outside air purifying flow passage to be described later is formed in the flow passage accommodating portion 200 and the discharge opening 220 is closed do.

To this end, the discharge blocking member 221 may be rotatably coupled to one side of the flow path accommodating portion 200, and may be provided in various ways to close the discharge opening 220.

The discharge blocking member 221 may be driven corresponding to the driving of the first flow path changing member 510 and the second flow path changing member 520, which will be described later.

That is, when the first flow path changing member 510 and the second flow path changing member 520 are driven so that the outside air purifying flow path is formed in the flow path accommodating portion 200, the discharge blocking member 221 opens the discharge opening portion 220 .

In addition, when the first flow path changing member 510 and the second flow path changing member 520 are driven so that the circulation flow path is formed in the flow path accommodating portion 200, the discharge blocking member 221 may close the discharge opening portion 220 .

1) common In the channel portion 300,  Explanation

The common flow path portion 300 is a flow path common to the outside air purifying flow path and the inside air circulation flow path formed in the flow path accommodating portion 200. In the illustrated embodiment, the common flow path portion 300 is provided in the form of a tube, and the form of the common flow path portion 300 is not limited thereto.

The common flow path portion 300 includes a humidifying portion 310 and a heat exchanging portion 320.

The humidifying unit 310 functions to humidify the fluid flowing inside the flow path accommodating unit 200. The humidifying unit 310 includes a water container 311, a humidifying filter 312, and a water receiving unit 313.

The water tank 311 receives water supplied to the humidifying filter 312. In the illustrated embodiment, the water tank 311 is detachably received at the outermost side of the air passage accommodating portion 200 adjacent to the air purifying portion 700 to be described later.

The shape of the water container 311 adjacent to the air purifying unit 700 is preferably determined according to the shape of the air purifying unit 700. In the illustrated embodiment, the side of the water tank 311 adjacent to the air purifying unit 700 is formed to have a predetermined inclination with respect to the surface of the air according to the shape of the air purifying unit 700.

A water tube portion 313 capable of supplying water to the humidifying filter 312 is fluidly connected to one side of the water tank 311.

The humidifying filter (312) humidifies the fluid passing through the common flow path portion (300). The humidifying filter 312 is disposed on the common flow path portion 300 so as to face the water tank 311 with the air purifying portion 700 interposed therebetween. Can be humidified. The position of the humidifying filter 312 can be changed.

The water for humidifying the fluid by the humidifying filter 312 is supplied through the water pipe section 313 from the water container 311.

The water tube portion 313 fluidly connects the water tank 311 and the humidifying filter 312. Specifically, the water stored in the water container 311 is supplied to the humidifying filter 312 through the water pipe section 313. [

The water tube portion 313 may be provided in any form capable of fluidly connecting the water tank 311 and the humidifying filter 312. [

The heat exchanging part 320 exchanges heat remaining in the fluid passing through the common flow path part 300 to increase the heat efficiency of the multifunctional accommodating system 10 as a whole. The heat exchanging part 320 may be provided in any form capable of exchanging heat with the fluid passing therethrough.

In the illustrated embodiment, the heat exchanging part 320 is located on the rear side of the flow path accommodating part 200 adjacent to the humidifying filter 312, and the position of the heat exchanging part 320 can be changed.

2) In the power supply 400,  Explanation

The blowing section (400) provides a conveying force by which the fluid can flow in the passage accommodating section (200).

In the illustrated embodiment, the inflow portion 400 is located at the most rear side of the flow path accommodating portion 200 adjacent to the heat exchanging portion 320, and the inflow portion 400 is located in the flow path accommodating portion 200, Can be located at any position that can provide a transfer force that can flow.

The blowing unit 400 includes a blowing fan 410 and a blowing motor 420.

The blowing fan 410 is powered by the blowing motor 420 and rotates to provide a feed force that allows the fluid to flow in the flow path accommodating portion 200. In the illustrated embodiment, the blowing fan 410 is provided in the form of a blade and may be provided in any form capable of providing a transfer force to the fluid.

The blowing fan 410 is rotatably coupled to the blowing motor 420.

The blowing motor 420 is rotatably coupled to the blowing fan 410 to provide power for rotating the blowing fan 410. A separate electric wire (not shown) and an electric device (not shown) for supplying electric power to the blowing motor 420 may be provided.

3) Variable In the channel portion 500,  Explanation

The variable flow path unit 500 changes the flow path so that the fluid flowing in the flow path accommodating unit 200 flows through any one of the outside air purifying flow path and the inside air circulating flow path.

The variable passage portion 500 is fluidly connected to the common passage portion 300, the discharge passage portion 600, and the internal circulation portion 800 to be described later.

The variable flow path portion 500 includes a first flow path changing member 510, a second flow path changing member 520, and a variable section 530.

The first flow path changing member 510 is located adjacent to the inflow inlet portion 810 of the air circulating portion 800 to be described later. A first flow path changing motor 511 is provided adjacent to the first flow path changing member 510 for driving the first flow path changing member 510. [

The first flow path changing member 510 rotates to open or close a flow path through which the variable flow path portion 500 is connected to any one of the discharge flow path portion 600 and the inflow air inflow portion 810. Accordingly, any one of the outside air purifying flow path and the inside air circulating flow path is formed, and the first flow path changing member 510 can open or close the exhaust flow path portion 600 or the air inflow portion 810 in various ways.

The shape of the first flow path changing member 510 can be variously determined. However, it is preferable that any one of the outside air purifying flow path and the inside air circulating flow path is completely opened, and one of the flow paths is completely closed.

The second flow path-changing member 520 is located adjacent to the air discharge portion 820 of the air circulation portion 800 to be described later. The second flow path changing motor 521 is provided adjacent to the second flow path changing member 520 for driving the second flow path changing member 520. [

The second flow path changing member 510 rotates to open or close any one of the flow path connecting the exhaust gas discharge unit 820 and the variable flow path unit 500 and the flow path toward the variable space 530 . Accordingly, any one of the outside air purifying passage and the inside air circulating passage can be formed, and the second flow path changing member 520 can open or close the common flow path portion 300 or the inside air discharging portion 820 in various ways.

The shape of the second flow path-changing member 520 can be variously determined. However, it is preferable that any one of the outside air purifying flow path and the inside air circulating flow path is completely opened, and one of the flow paths is completely closed.

The first flow path changing member 510 and the second flow path changing member 520 are driven corresponding to each other.

That is, when the first flow path changing member 510 is driven to form the outside air purifying flow path, the second flow path changing member 520 is driven so as to form the outside air purifying flow path.

Further, when the first flow path changing member 510 is driven to form the circulation circulation flow path, the second flow path changing member 520 is driven to form the circulation flow path corresponding thereto.

The first flow path changing member 510 and the second flow path changing member 520 are driven in accordance with the driving of the outside air blocking member 720 of the air purifying unit 700 to be described later, which will be described later.

The variable area 530 is located between the first flow path changing member 510 and the second flow path changing member 520 and is in fluid communication with the first flow path changing member 510 and the second flow path changing member 520 Connect.

When the outside air purifying flow path to be described later is formed, the variable area 530 is opened by the first flow path changing member 510 and the second flow path changing member 520 to allow fluid to flow. Further, when the following circulation circulation flow path is formed, the variable area 530 is closed by the first flow path changing member 510 and the second flow path changing member 520, so that no vapors are introduced.

A detailed description of the shape and operation of the first passage-changing member 510 and the second passage-changing member 520 will be given later.

4) Emissions In the channel portion 600,  Explanation

When the outside air purifying passage is formed in the passage accommodating portion 200, the exhaust passage portion 600 provides a passage through which the purified outside air is discharged to the outside of the passage accommodating portion 200 again.

One side of the discharge channel portion 600 is fluidly connected to the variable passage portion 500 and the other side is fluidly connected to the discharge opening portion 220.

More specifically, when the outside air purifying flow path is formed in the flow path accommodating portion 200 by driving the first flow path changing member 510 and the second flow path changing member 520, the discharge blocking member 221 is separated And is driven to open the opening 210.

At this time, the discharge passage portion 600 provides a passage through which the fluid that has passed through the variable passage portion 500 can be discharged to the separation opening portion 210.

5) Betting In the circulation part 800  Explanation

The circulation circulation unit 800 connects the storage unit 100 and the flow path storage unit 200 in fluid communication so that the inside of the storage unit 100 flows into the flow path storage unit 200, 100). ≪ / RTI >

For this purpose, the internal circulation unit 800 is fluidly connected to the variable passage unit 500.

The internal circulation unit 800 includes an internal air inlet 810 and an internal air outlet 820.

The air inflow portion 810 provides a passage through which the air inside the storage portion 100 flows into the air passage accommodating portion 200. For this purpose, the inflow inlet portion 810 is fluidly connected to the variable flow passage portion 500.

At this time, the air inflow portion 810 is located adjacent to the first flow path changing member 510, and the connecting portion of the air inflow portion 810 and the variable flow path portion 500 is connected to the first flow path changing member 510 by the first flow path changing member 510 Can be opened and closed.

The inflow inlet portion 810 is provided with an inflow inlet filter 811 so that the inflow of the inside air into the inlet portion 200 can be purified.

The air discharge portion 820 provides a passage through which the air flowed into the passage accommodating portion 200 flows into the storage portion 100. For this purpose, the exhaust unit 820 is fluidly connected to the variable passage unit 500.

At this time, the exhaust unit 820 is positioned adjacent to the second flow path changing member 520, and the connecting portion of the air exhaust unit 820 and the variable flow path unit 500 is connected by the second flow path changing member 520 Can be opened and closed.

The inside air discharge portion 820 is provided with an inside air discharge filter 821 and can be cleaned when discharged into the inside of the storage portion 100.

As described above, the first flow path changing member 510 and the second flow path changing member 520 are driven corresponding to each other to form any one of the outside air purifying flow path and the inside air circulating flow path.

Accordingly, when the connecting portion between the air inflow portion 810 and the variable passage portion 500 is opened, the connecting portion of the air outlet portion 820 and the variable passage portion 500 is opened corresponding to the air inflow portion 810 and the variable air passage portion 500, When the connection portion of the flow path portion 500 is closed, the connection portion of the exhaust gas discharge portion 820 and the variable flow path portion 500 is closed accordingly.

6) Air [0050]  Explanation

The air purifying part 700 provides a passage through which the outside air flows into the flow path accommodating part 200 when the outside air purifying flow path is formed in the flow path accommodating part 200 and simultaneously performs an air purifying function for purifying the incoming outside air do.

In the illustrated embodiment, the air purifying portion 700 is located between the water container 311 and the common flow path portion 300, and the position of the air purifying portion 700 can be changed.

In addition, one side of the air purifying unit 700 is formed to have a predetermined inclination with respect to the ground surface. This is to allow the outside air introduced into the lower portion of the air purifying portion 700 to flow into the common flow path portion 300 through the variable opening portion 710 as described later.

The shape of the air purifying unit 700 is not limited thereto and may be formed in a different shape. It is preferable that the shape of the air purifying portion 700 adjacent to the water container 311 is formed to correspond to the shape of the water container 311 adjacent to the air purifying portion 700.

Hereinafter, the air purifier 700 according to the embodiment of the present invention will be described in more detail with reference to FIGS. 3 and 4. FIG.

The air purifying part 700 includes a variable opening part 710, an outside air blocking member 720, a filter case 730, a clean filter 740 and a filter motor 750.

The variable opening portion 710 is formed at one side of the air purifying portion 700 adjacent to the common flow path portion 300 to provide a passage through which the outside air flows into the flow path accommodating portion 200.

The variable opening 710 is fluidly connected to the common flow path 300. Therefore, the outside air flowing into the air purifying part 700 can be introduced into the common flow path part 300 through the variable opening part 710.

The outside air blocking member 720 is located outside the variable opening portion 710 to open or close the variable opening portion 710. To this end, the outside air blocking member 720 can slide between a position where the variable opening portion 710 is opened and a position where the variable opening portion 710 is closed.

In the illustrated embodiment, the outside air blocking member 720 is slidably coupled to the upper side and the lower side and is connectable in other manners in which the variable opening 710 can be opened and closed.

The outside air shutoff member 720 is driven to correspond to the driving of the first flow path changing member 510 and the second flow path changing member 520. [

That is, when the outside air purifying flow path is formed inside the flow path accommodating portion 200 by driving the first flow path changing member 510 and the second flow path changing member 520, the outside air blocking member 720 is provided with the variable opening portion 710 .

When the circulation flow path is formed inside the flow path accommodating portion 200 by the driving of the first flow path changing member 510 and the second flow path changing member 520, the outside air blocking member 720 has the variable opening portion 710 Lt; / RTI >

The filter case 730 is accommodated in one side of the air purifying portion 700 and accommodates the clean filter 740 to be described later.

The filter case 730 is slidable in a first direction accommodated in the air purifying part 700 and in a second direction separated from the air purifying part 70 '. The position and the manner of accommodating the filter case 730 are changeable.

The filter case 730 includes a filter opening 731, a filter grill 732, and an inlet opening 333.

The filter opening 731 is formed in fluid communication with the lower side of the filter case 730 and provides a space in which the clean filter 740 is accommodated. The length and width of the filter opening 731 can be determined by the length and width of the clean filter 740. Further, the filter opening 731 is formed to be fluid-communicable to provide a passage through which ambient air flows.

The filter grille 732 is detachably coupled to the outside of the filter opening 731 to prevent any clearance of the clean filter 740 contained in the filter case 730.

The inflow opening 733 provides a passage through which the outside air introduced through the filter opening 731 flows into the variable opening 710. [ The inflow opening 733 is formed to be in fluid communication with the filter grill 732 on the upper side of the filter case 730.

In the illustrated embodiment, the inlet opening 733 is formed as a collection of small openings, or alternatively may be formed as one large opening.

The clean filter 740 purifies the outside air flowing into the flow path accommodating portion 200. To this end, the clean filter 740 may be provided with any filter associated with air purification, such as a functional filter, a deodorization filter, a HEPA filter, and the like.

The clean filter 740 is detachably received in the filter case 730.

The filter motor 750 is located adjacent to the outside air blocking member 720 on the upper side of the air filtering unit 700 to provide a power for allowing the outside air blocking member 720 to slide.

In other embodiments, the filter motor 750 may be provided with other equipment capable of powering the ambient air shut-off member 720.

A filter gear 751 is disposed between the filter motor 750 and the outside air blocking member 720 to transmit the power of the filter motor 750 to the outside air blocking member 720.

2. Description of the channel changing members 510 and 520

The multifunctional housing system 10 according to an embodiment of the present invention includes a first flow path changing member 510 and a second flow path changing member 520 for forming a variable flow path in the flow path accommodating portion 200.

Hereinafter, this will be described in detail with reference to Fig. 5 and Fig.

(One) The first euros  Description of Change Member 510

Referring to FIG. 5, the first flow path changing member 510 of the illustrated embodiment has the shape of a quadrangle with a square bottom. The shape of the first flow path changing member 510 is variable.

The first flow path changing member 510 includes a first opening 512, a first closing surface 513, and a first rotating shaft 514.

The first opening 512 is a portion that is formed in a transverse direction and is fluid-communicable. More specifically, the first openings 512 are formed through two opposite side surfaces of the four side surfaces of the first flow path changing member 510.

The first closing surface 513 is formed by the other two sides except for the two sides on which the first opening 512 is formed. In the illustrated embodiment, the first closing surface 513 is formed on both sides of the first flow path changing member 510, and the first closing surface 513 may be formed in other shapes capable of blocking fluid communication have.

The first rotating shaft 514 is located in the longitudinal direction of the first flow path changing member 510 and is a portion where the first flow path changing member 510 is rotatably mounted on the variable flow path portion 500. In the illustrated embodiment, the first rotation axis 514 is located at the center of the bottom surface of the first flow path changing member 510, and the position of the first rotation axis 514 is changeable.

The first flow path-changing member 510 is rotatably positioned adjacent to the inflow inlet 810.

The first flow path changing motor 511 allows the first flow path changing member 510 to rotate between a first position where the air inflow portion 810 is opened and a second position where the air inflow portion 810 is closed have.

(2) The second euros  Description of changing member 520

6 and 7, the second flow path-changing member 520 of the illustrated embodiment has the shape of a quadrangular prism whose bottom surface is trapezoidal. The shape of the second flow path changing member 520 is variable.

The second flow path changing member 520 includes a common opening portion 522, an outside air opening portion 523, an inside air opening portion 524, a second closing surface 525, a second rotation shaft 526, .

The common open portion 522 is formed as an opening at one side of the second flow path changing member 520 and is fluidly connected to the common flow path portion 300. In the illustrated embodiment, the common opening 522 is formed on one side corresponding to the height of the second flow path-changing member 520 having a trapezoidal shape, and its position can be changed.

The common passage portion 522 includes a passage through which the outside air or the inside air flows from the common passage portion 300 to the second flow path changing member 520 . That is, the common opening 522 is always open.

The open air portion 523 is formed as an opening at the other side of the second flow path changing member 520 and is fluidly connected to the variable flow path 530 of the variable flow path portion 500. In the illustrated embodiment, the outer air opening 523 is formed on one side corresponding to the upper surface of the second flow path changing member 520 having a trapezoidal shape, and its position can be changed.

The vent opening 524 is formed as an opening at the other side of the second flow path changing member 520 and is fluidly connected to the venting outlet 820 of the inside air circulation unit 800. In the illustrated embodiment, the void opening 524 is formed on one side corresponding to the oblique face of the second flow path changing member 520 having a trapezoidal shape, and the position can be changed.

The second closing surface 525 is formed on the other side of the second flow path changing member 520 so that the outside air or the inside air flowing into the second flow path changing member 520 does not flow out to the second closing surface 525 .

The second rotation shaft 526 is located in the longitudinal direction of the second flow path changing member 520 and is a portion where a later-described diaphragm member 527 is rotatably mounted on the variable flow path portion 500. In the illustrated embodiment, the second rotary shaft 526 is located at the center of the side surface of the second flow path changing member 520 and at a vertex of the diaphragm member 527 to be described later, and its position is changeable.

The diaphragm member 527 is rotatably coupled to the inside of the second flow path changing member 520. More specifically, the diaphragm member 527 is rotatably received in the second flow path changing member 520.

In the illustrated embodiment, the diaphragm member 527 is in the shape of a triangular prism and may be formed in any other shape that can completely close the outer air opening 523 or the air opening 524 left.

The diaphragm member 527 rotates between a third position at which the exhaust unit 820 is opened and a fourth position at which the exhaust unit 820 is closed so as to be in contact with the outside air opening 523 and the inside air opening 524 Any one of which can be selectively closed.

More specifically, when the diaphragm member 527 rotates to the third position where the vaginal discharge portion 820 is opened, the outside-air opening portion 523 is closed and the va- por opening portion 524 is opened.

In addition, when the diaphragm member 527 rotates to the fourth position where the vapors discharge unit 820 is closed, the outside air opening unit 523 is opened and the inside air opening unit 524 is closed.

The first flow path changing member 510 and the second flow path changing member 520 are driven corresponding to each other to form any one of the outside air purifying flow path and the internal circulation flow path described later.

3. Description of variable flow path

The outside air purifying passage and the inside air circulating passage may be formed through the variable passage portion 500 in the passage accommodating portion 200 of the multifunctional accommodating system 10 according to the embodiment of the present invention. Hereinafter, this will be described in detail with reference to Figs. 8 and 9. Fig.

(1) Description of the outside air purifying flow path

8, when an outside air purifying flow path is formed in the flow path accommodating part 200, the outside air flows into the air purifying part 700 and then flows through the common flow path part 300, the variable flow path part 500, (600) and discharged through the discharge opening (220).

The order of each configuration in the outside air purifying passage through which the outside air passes, which will be described below, can be changed, and some configurations may be omitted or added.

The feed force for the outside air to flow on the outside air purifying flow path is supplied by the blowing unit 400.

The outside air shutoff member 720 is slid upward by the filter motor 750 of the air purifying unit 700 to allow the outside air to flow and the variable opening 710 is opened. At this time, the outside air passes through the filter opening 731, the clean filter 740 accommodated in the filter case 730, the inflow opening 733, and the variable opening 710 in order, and flows into the common flow path portion 300.

The outside air flowing into the common flow path portion 300 passes through the humidifying filter 312 and the heat exchanging portion 320 of the humidifying portion 310 in order to be humidified and heat exchanged. At this time, the positions of the humidifying filter 312 and the heat exchanging part 320 can be changed.

The outside air heat exchanged in the heat exchanging part 320 reaches the second flow path changing member 520 located at the boundary between the common flow path part 300 and the variable flow path part 500.

The diaphragm member 527 of the second flow path changing member 520 is rotated to the fourth position to form the outside air purifying flow path to open the outside air opening portion 523 to open the common flow path portion 300 and the variable portion 530, And closes the inside air opening portion 524 to close the flow passage in which the variable flow passage portion 500 and the inside air discharge portion 820 are connected.

At this time, the first flow path changing member 510 is driven corresponding to the driving of the second flow path changing member 520. Accordingly, the first flow path changing member 510 is rotated to the second position to form the outside air purifying flow path to open the flow path connecting the variable flow path portion 500 and the discharge path portion 600, 500 and the air inflow portion 810 are closed.

Therefore, the outside air introduced into the variable flow path portion 500 flows through the second flow path changing member 520, the variable section 530, and the first flow path changing member 820 510) and flows into the discharge channel portion (600).

At this time, the discharge blocking member 221 is rotationally moved to open the discharge opening 220, and the outside air guided to the discharge passage portion 600 is discharged to the outside of the flow passage accommodating portion 200 through the discharge opening portion 220 .

In summary, the discharge opening 220, the first flow path changing member 510, the second flow path changing member 520, and the outside air blocking member 720 are correspondingly driven to form an outside air purifying flow path.

Therefore, since the outside air flowing into the flow path accommodating unit 200 is discharged after being subjected to a purification process, a humidifying process, and a heat exchange process, an effect of purifying, humidifying, and exchanging the air in the room where the multi- have.

(2) Explanation of circulating circulation flow path

9, when a circulation circulation flow path is formed in the flow path accommodating portion 200, the inside of the storage portion 100 flows through the inflow inlet portion 810 and flows into the variable flow path portion 500 and the common flow path portion 500. [ (300), and is discharged into the storage unit (100) through the exhaust unit (820).

The order of the respective constitutions in the internal air purifying passage through which the voucher described below passes may be changed, and some configurations may be omitted or added.

The feed force for flowing on the circulating flow path is supplied by the blowing section 400.

When the circulating flow path is formed, it is necessary to prevent the inflow of outside air. Therefore, the outside air shutoff member 720 is slid downward by the filter motor 750 of the air purifying portion 700, and the variable opening portion 710 is closed.

The first flow path changing member 510 is rotatably moved to the first position to form a circulating circulating flow path to open the flow path connecting the variable flow path portion 500 and the inflow air inflow portion 810, 500 and the discharge passage portion 600 are connected to each other.

At this time, the second flow path changing member 520 is driven corresponding to the driving of the first flow path changing member 510. Therefore, the diaphragm member 527 of the second flow path changing member 520 is rotated to the third position to open the air opening 524 to open the flow path 500, And closes the outside air opening portion 523 to close the flow path in which the common flow passage portion 300 and the variable section 530 are connected.

That is, the inside air inflow portion 810 and the inside air outlet portion 820 are opened at the same time.

Therefore, the inner air flowing into the variable flow path portion 500 through the air inflow portion 810 flows into the common flow path portion 300 by the first flow path changing member 510. At this time, the inside air passes through the inside air inflow filter 812 provided in the inside air inflow portion 810, and is inflowed and purified.

The internal air flowing into the common flow path portion 300 passes through the humidifying filter 312 and the heat exchanging portion 320 of the humidifying portion 310 in order to be humidified and heat exchanged. At this time, the positions of the humidifying filter 312 and the heat exchanging part 320 can be changed.

The inner heat exchanged in the heat exchanging portion 320 reaches the second flow path changing member 520 located at the boundary between the common flow path portion 300 and the variable flow path portion 500.

The passage through which the variable passage portion 500 and the inner air discharge portion 820 are connected is opened by the second flow path changing member 520 as described above so that the inner air flows into the inside of the storage portion 100 through the air discharge portion 820 Respectively. At this time, the inside air is discharged through the inside air discharge filter 822 provided in the inside air discharge portion 820.

In summary, the first flow path changing member 510, the second flow path changing member 520, and the outside air blocking member 720 are driven corresponding to each other to form an air circulation flow path.

Accordingly, since the inside of the storage unit 100 flows into the flow path accommodating unit 200 and is discharged to the inside of the storage unit 100 after the humidification process and the heat exchange process, the inside air of the storage unit 100 is cleaned, , A heat exchange effect can be obtained.

The multifunctional housing system 10 according to the embodiment of the present invention can form any one of the outside air purifying flow path and the inside air circulating flow path by using the variable flow path portion 500 and the outside air purifying flow path and the inside air circulating flow path And the humidification and heat exchange function can be performed in the common flow path portion 300.

In the case of the outside air purifying passage, the air purifying portion 700 can perform the air purifying function in the air inflow portion 810 and the inside air discharging portion 820 in the case of the inside air circulating flow path.

Therefore, it is possible to purify, humidify, and heat exchange the inside of the storage unit 100 of the multifunctional storage system 10 and the outside air of the room where the multifunctional storage system 10 is installed, without adding a separate device device.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It can be understood that it is possible.

10: Multifunctional storage system
100:
110: Door
200:
210:
211:
220: discharge opening
221:
300:
310: Humidifier
311: Bucket
312: Humidification filter
313:
320: Heat exchanger
400:
410: blowing fan
420: blowing motor
500: variable passage portion
500: variable passage portion
510: first flow path changing member
511: First-flow change-over motor
512: first opening
513: first closed face
514:
520: second flow path changing member
521: Second-flow change-over motor
522:
523:
524:
525: second closed face
526:
527: diaphragm member
530: variable zone
600: discharge channel portion
700:
710: Variable opening
720:
730: Filter case
731: filter opening
732: Filter grille
733: inlet opening
740: Clean filter
750: Filter motor
751: Filter gear
800:
810:
811: Filter inflow filter
820:
821: Blowout filter

Claims (5)

A storage portion 100 for providing a storage space on the inner side;
A flow path accommodating part 200 located at one side of the accommodating part 100;
A common flow path portion 300 accommodated in one side of the flow path accommodating portion 200;
A variable passage part 500 connected at one side in fluid communication with the common passage part 300; And
And an internal circulation unit (800) for fluidly connecting the storage unit (100) and the variable passage unit (500)
The variable passage unit 500 includes a rotatable first flow path changing member 510 and a second flow path changing member 520,
The internal circulation unit (800)
An inflow inlet portion 810 positioned adjacent to the first flow path changing member 510; And
And a tail discharge portion (820) positioned adjacent to the second flow path changing member (520).
Multifunctional storage system.
The method according to claim 1,
The first flow path changing member 510 has a rectangular column shape including a first opening 512 having two side surfaces opposed to each other,
The second flow path changing member 520 is formed in a triangular prism shape in which an outer air opening portion 523 is formed on one side surface and an air opening portion 524 is formed on the other side surface adjacent thereto,
A triangular columnar diaphragm member 527 is rotatably mounted on the inside of the second flow path changing member 520,
Multifunctional storage system.
3. The method of claim 2,
The first flow path changing member 510 can be rotated between a first position where the inflow inlet 810 is opened and a second position where the inflow inlet 810 is closed,
The diaphragm member 527 of the second flow path-changing member 520 is rotatably movable between a third position where the exhaust unit 820 is opened and a fourth position where the exhaust unit 820 is closed ,
Multifunctional storage system.
The method of claim 3,
When the first flow path changing member 510 is located at the first position, the diaphragm member 527 of the second flow path changing member 520 is located at the third position,
The circulation flow path including the air inflow portion 810, the common flow path portion 300, the variable flow path portion 500, and the inside air discharge portion 820 is formed,
Multifunctional storage system.
The method of claim 3,
A detachable air purifying unit 700, one side of which is fluidly connected to the other side of the common flow channel unit 300; And
And a discharge channel portion 600 fluidly connected to the other side of the variable channel portion 500,
When the first flow path changing member 510 is located at the second position, the diaphragm member 527 of the second flow path changing member 520 is located at the fourth position,
An air purifying flow path including the air purifying portion 700, the common flow path portion 300, the variable flow path portion 500, and the discharge flow path portion 600 is formed,
Multifunctional storage system.

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