KR101460596B1 - pot for air-conditioning and air-conditioning system with the same - Google Patents

Abstract

Disclosed are an air-purifying plant pot and an air purification system including same. The air-purifying plant pot according to an embodiment of the present invention includes a plate body; a pot main body that is provided to form an upwardly-open water storage space in the front of a bottom portion of the plate body; a perforation hole that is provided in the bottom portion of the plate body to communicate with the water storage space; and a guide that is provided on a back surface of the plate body so as to guide a fluid which flows downward along the back surface of the plate body toward the perforation hole side. The air purification system according to another embodiment of the present invention includes a blowing space that is provided to be open forward; a plurality of air-purifying plant pots, each of which includes a plate body, a pot main body that is provided to form an upwardly-open water storage space in the front of a bottom portion of the plate body, a perforation hole that is provided in the bottom portion of the plate body to communicate with the water storage space, and a guide that is provided on a back surface of the plate body so as to guide a fluid which flows downward along the back surface of the plate body toward the perforation hole side, the plurality of air-purifying plant pots being arranged to block the open front surface of the blowing space through the plate bodies; a water tank; a water supply device that is provided to supply water in the water tank to the back surfaces of the plate bodies of the air-purifying plant pots; and a blowing device that is provided to blow an external air into the blowing space to allow the air circulate through the water storage space.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air-

The present invention relates to an air purifying plant port and an air purifying system having the same, which are provided for purifying indoor air.

The plant has an air purifying function that absorbs foreign matter in the air while purifying air through the process of introducing air through photosynthesis or breathing.

Therefore, a variety of plants have been used for a long period of time in consideration of the air purification effect as well as the tubular effect in the indoor landscaping. Recently, methods for maximizing the air purification efficiency are being explored in various forms.

Korean Patent Laid-Open Publication No. 10-2002-0049839 discloses a plant plant structure in which indoor air is circulated while passing through planted planting soil, thereby improving air purification efficiency by adding filtering function of soil.

Published Patent Application No. 10-2002-0049839

However, in the case of the air purification structure using the conventional plant disclosed in the above publication, since the indoor air has a large resistance due to the passage of the indoor air, the energy consumption due to the forced air blowing of the indoor air is excessive, thereby increasing the air purification efficiency.

In addition, in the air purification structure using the conventional plants, besides the action of allowing the plant itself to release the moisture, there is a limit to improve the efficiency of the indoor humidification because it can not perform any action to promote the humidification action of the indoor air.

An embodiment of the present invention is to provide an air purification plant port and air purification system equipped with the same, which are provided to more smoothly induce the flow of indoor air for air purification, thereby further improving air purification efficiency.

The present invention also provides an air purification plant port and an air purification system equipped with the same, which are provided to maximize the moisture content of the indoor air and effectively increase the humidification efficiency of the indoor space.

According to an aspect of the present invention, A port body provided to form a water storage space opened upward at an upper portion of the plate body bottom portion; A perforated hole provided at the bottom of the plate to communicate with the water storage space; And a guide provided on the back surface of the plate to guide fluid flowing from the top to the bottom along the back surface of the plate toward the perforation hole.

The back surface of the plate body on the upper side of the perforation hole may be inclined to be adjacent to the front side where the water storage space is formed as it goes from the upper part to the lower part and the back surface of the plate body on the perforation hole may be perpendicular to the ground surface.

Wherein the perforation hole comprises a horizontal perforation hole provided in a horizontal direction and a vertical perforated hole provided in a vertical direction, the horizontal and vertical perforated holes are provided in the form of a slender and long elongated hole, And may be spaced apart from each other along the longitudinal direction of the horizontal perforation hole at the bottom of the perforated hole.

According to another aspect of the present invention, there is provided a water storage apparatus comprising: a water storage space formed at an upper portion of the water storage tank; And the foreign matter in the air guided to the water storage space through the hole is adsorbed and removed from the water film in the process of passing through the perforation hole.

According to another aspect of the present invention, there is provided an air conditioner comprising: a blowing space provided so as to open forward; A port body provided so as to form a water storage space opened upward at the front of the plate body bottom portion; a perforation hole provided at the bottom of the plate body so as to communicate with the water storage space; and a fluid flowing from the upper portion to the lower portion along the plate body rear surface A plurality of air purifying plant ports arranged to cover the open front face of the air blowing space through the plate body including a guide provided on the back face of the plate body so as to guide toward the perforation hole; water tank; A water supply device arranged to supply the water in the water tank to the plate body rear surface of the air cleaning plant ports; And an air blowing device for blowing outside air to the blowing space so as to circulate through the water storage space.

In the air purification plant port and the air purification system having the air purification plant port according to the embodiment of the present invention, water supplied to the water storage space of the air purification plant port for hydroponic cultivation of the plant forms a water film in the course of passing through the rear surface of the air purification plant port , This water film is provided to cross the air passing through the air purification plant port.

Therefore, according to the air cleaning plant port and the air purification system equipped with the same, the flow of the indoor air passing through the water film can be easily guided, It is possible to maximize the humidification efficiency of the indoor space by increasing the moisture content of the indoor air.

1 is a perspective view of an air purification system according to an embodiment of the present invention.
2 is a side sectional view of an air purification system according to an embodiment of the present invention.
3 is a perspective view of a plant port for air purification according to an embodiment of the present invention.
FIG. 4 is a perspective view of a plant port for air purification according to an embodiment of the present invention, which is viewed from a direction different from FIG. 3. FIG.
5 is a rear view of a plant port for air purification according to an embodiment of the present invention.
Fig. 6 is an enlarged view of the other side in Fig.
7 is a side cross-sectional view of an air cleaning plant port in accordance with an embodiment of the present invention.
8 is a bottom view of an air purification plant port according to an embodiment of the present invention.
9 is a cross-sectional view of an air purifying system according to an embodiment of the present invention, illustrating the flow of water and air during operation of the air purifying system.
Fig. 10 is an enlarged view of the plant port side structure for air purification in Fig.
FIG. 11 is a horizontal sectional view of a plant port for air purification according to an embodiment of the present invention, illustrating the flow of water through the water storage space during operation of the air purification system.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below are provided by way of example so that those skilled in the art can fully understand the present invention. The present invention is not limited to the embodiments described below, but may be embodied in other forms. In order to clearly explain the present invention, parts not related to the description are omitted in the drawings, and the width, length, thickness, etc. of the components may be exaggerated for convenience. Like reference numerals designate like elements throughout the specification.

1 and 2, an air purifying system according to an embodiment of the present invention provides an appearance through a main body 10.

A ventilation space 11 is provided at the center between the upper and lower portions of the main body 10 so that the ventilation space 11 can be opened forward. A plurality of air purification plant ports 20, Lt; / RTI >

3 to 8, the plant port 20 includes a plate body 21, a port body 22 provided to form a water storage space 20a opened upward in front of the bottom of the plate body 21, And a holder 23 coupled to an upper portion of the space 20a. A plurality of ventilation holes 23b may be formed in the holder 23 around the plant mounting groove 23a and a plurality of ventilation holes 23b may be formed in the center of the holder 23, . The ventilation holes 23b can be designed in various forms within a range in which ventilation is possible.

The plant port 20 and the valve body 20 constituting the plant port 20 may be made of one another in the process of manufacturing the plant port 20. [ Or they may be assembled so as to form one body in a separately manufactured state. In this embodiment, the port body 22 is formed in a box shape that opens to the rear and top, and is connected to the front of the bottom of the plate body 21 to form a water storage space 20a opened upwardly from the plate body 21 And the holder 23 is detachably assembled to the open upper portion of this water storage space 20a. Therefore, when the plant is planted in the plant port 20, the stem of the plant is fixed to the plant mounting groove 23a by the rear of the plant mounting groove 23a, and the plant in this state is routed to the bottom of the water storage space 20a So that it can be fixed to the plant port 20 in an extended state.

A hook 11a and a support 11b are installed in the main body 10 on the front face of the air blowing space 11 and the hook 11a and the support 11b are arranged alternately spaced apart from each other in the vertical direction have. The plant pot 20 is hooked on the hook 11a through the hook 21a provided on both sides of the upper surface of the upper surface of the plate body 21 and the plant pot 20 is attached to the body 10 in a state in which the center of the back surface of the plate body 21 is supported by the support table 11b. The plurality of plant ports 20 can be mounted in the same manner so that the respective plates 21 are in close contact with each other so as to cover the entire surface of the air discharge space 11. [

A water tank 12 may be installed at the bottom of the main body 10 and water of the water tank 12 may be supplied to the rear surface of the plant pots 20 through the water supply device 13. The water tank 12 can be installed at the bottom of the main body 10 through a space defined by the upper air blowing space 11 and the partition plate 14. [ The water supply device 13 may include a motor pump 13a and a water supply pipe 13b for guiding the water of the water tank 12 pumped by the motor pump 13a to the upper portion of the main body 10. [ The motor pump 13a may be installed inside the water tub 12 and the water supply pipe 13b may be installed through the air blowing space 11 to connect the water tub 12 and the upper portion of the main body 10. [

The water tank 12 can also be used as a real fish tank for feeding fish. In this case, excretion such as excreta or residue from the fish is mixed into the water of the water tank (12). When plants are hydroponically grown by using such water, the plant picks up the water contained in the effluent, And at the same time, by the action of the plant roots, the water can be purified naturally. Therefore, at this time, water in the water tank used for hydroponics can be used for a long period of time, and water consumption can be effectively saved even if the water in the water tank 12 is frequently replaced or a separate water purification facility is not used. A window may be installed on the main body 10 in front of the water tank 12 so that the water tank 12 can be seen from the outside so that the interior effect of the water tank 12 can be enhanced.

An upper casing 15 may be provided on the main body 10 above the air blowing space 11. A plurality of suction ports 15a may be formed on the front surface of the upper casing 15 and a blowing device for blowing the outside air into the blowing space 11 through the suction port 15a 16 may be installed. The rear portion of the upper casing 15 can be connected to the blowing space 11 and the blowing unit 16 can be installed in the blowing space 11. [ The indoor air around the main body 10 is forcedly blown into the air blowing space 11 through the suction port 15a when the air blowing device 16 is driven and the room air is blown through the air blowing action of the blowing device 16 And circulates through the water storage space 20a of the plant port 20 through the perforation hole 30 of the plant port 20 to be described later.

An operation panel 15b for the operation of the motor pump 13a and the blower unit 16 may be provided on the front surface of the upper casing 15, A control unit 15c can be installed.

The water contained in the water supply device 13 is supplied to the inner bottom of the upper casing 15 through the water supply pipe 13b to the bottom surface of the uppermost plant pots 20 A water supply stand 13c may be provided. The water supply stand 13c has a plurality of discharge ports 13d corresponding to the number of the uppermost plant ports 20 and each discharge port 13d is connected to the upper surface of the uppermost plant pots 20, As shown in FIG.

The water supplied to the back surface of the plate body 21 of the plant port 20 is supplied to the water storage space 20a of the plant port 20 and the water film 100 is formed on the back surface of the plate body 21, A perforation hole 30 is provided at the bottom of the plate body 21 of the port 20 so as to communicate with the water storage space 20a.

6, the water flowing from the upper part to the lower part along the back surface of the plate body 21 flows around the perforation hole 30 due to the surface tension of the water and the viscosity of water in the process of passing through the perforation hole 30 A minute water film 100 may be formed on the back surface of the plate body 21 around the perforation hole 30 due to a narrow gap between the perforation holes 30 It will be.

The perforation holes 30 are formed concentrically on the backside of the bottom of the plate body 21 corresponding to the upper portion of the bottom of the water storage space 20a to constitute the treads 21b. 30 may be divided into an upper horizontal perforation hole 31 provided in the horizontal direction and a lower vertical perforation hole 32 provided in the vertical direction. Here, the horizontal perforation holes 31 guide the water delivered to the treads 21b uniformly along the horizontal direction, and the vertical perforation holes 32 guide the water delivered through the horizontal perforation holes 31 to the bottom You will be promptly notified.

The horizontal and vertical perforation holes 31 and 32 may be arranged in a slender and elongated form so as to be closely packed. The vertical perforation holes 32 may be formed in the horizontal perforation hole 31 at the bottom of the horizontal perforation hole 31, And can be spaced apart from each other in a state in which they are in close contact with each other in parallel with each other along the longitudinal direction.

A guide 40 is provided on the back surface of the plate body 21 so that the fluid flowing from the upper part to the lower part along the back surface of the plate body 21 smoothly guides toward the ridge 21b.

The guide 40 may be constituted by a pair of protruding ribs 41 and 42 protruding from both sides of the back face of the plate body 21. The pair of protruding ribs 41 and 42 constituting the guide An inlet portion 40a provided on the upper portion of the upper portion 21b to narrow the width between the upper portion and the lower portion and to collect the water supplied to the upper portion of the rear surface of the plate body 21 and transmit the collected water to the lower portion 21b, The width between the bottom portion of the tread portion 40a and the opposite side of the tread portion 21b may be provided to form a guard portion 40b which is constantly held in the vertical direction corresponding to the width of the ridge portion 21b. The guide 40 guides the water flowing through the back surface of the plate body 21 so that the water flowing along the back surface of the plate body 21 can be safely transferred to the tread 21b, The water film forming efficiency is improved.

The back surface of the plate body 21 on the upper part of the tread 21b is formed with a water storage space 20a as it goes from the upper part to the lower part so that the water guided to the lower part through the introduction part 40a can be more smoothly guided toward the ridge 21b. And the rear surface of the plate body 21 at the bottom of the inlet portion 40a is preferably formed to be perpendicular to the paper surface in order to form a water film. In the drawing, reference numeral 21c denotes an inclined surface on the upper surface of the tread 21b. When the inclination of the inclined surface 21c is excessively large, there is a fear that the water that has flowed along the inclined surface 21c falls into the trough 21b while it is not flowing into the trough 21b. It is preferable that the thickness is set within a range of about 30 degrees.

The water guided to the rudder 21b by the guiding portion 40a and the upper portion of the guard portion 40b receives a force in an inclined direction of the inclined surface 21c and flows through the perforation hole 30 into the water storage space 20a The water flowing to the bottom along the back surface of the plate body 21 is accelerated in the process of passing through the tread 21b provided perpendicular to the inclined surface 21c inclined with respect to the paper surface, The air around the rim 21b is reduced and the air guided to the air blowing space 11 is discharged through the perforation hole 30 along the water flowing on the rear surface of the rim 21c and the rim 21b, So that it can be smoothly guided to the space 20a.

Therefore, in the structure of the plant port 20 as described above, the flow of the indoor air passing through the plant port 20 can be guided more smoothly, and at this time, the flow of the indoor air passing through the plant port 20 The air introduced into the water storage space 20a is removed by adsorbing foreign matter contained in the water film 100 and the back surface of the plate body 21 and thus the air purification efficiency due to the foreign matter adsorption action of the water film 100 It can be effectively increased. The back surface of the upper plate 21 on the upper side of the introduction part 40a where the hook 21a is provided may be provided so as to be perpendicular to the paper surface so as to be stably supported on the hook 11a.

The plate body 21 may be provided with a pair of water outlets 51 and 52 communicating with the water storage space 20a on both sides of the bottom of the ridge 21b. 20a. ≪ / RTI >

The water flowing into the water storage space 20a through the perforation hole 30 is discharged to the back surface of the plate body 21 through the water outlet holes 51 and 52 in a state where the water storage space is filled up to the height of the water outlet holes 51 and 52 do. At this time, the water flowing into the water storage space 20a flows into the central portion of the rear surface of the water storage space 20a through the perforation holes 30 and then flows into the water discharge hole 51 The water flow in the water storage space 20a functions to flow through the plant roots located in the water storage space 20a, It is possible not only to increase the nutrient absorption capacity but also to prevent the microorganisms adsorbed from the indoor air into the water storage space 20a from adhering to the plant roots.

The water discharged into the water outlet holes 51 and 52 flows into the water storage space 20a along the back surface of the plate body 21 of the bottom plant port 20 and is discharged to the water outlet holes 51 and 52. The water supply method is continuously continued up to the row of the lowest plant pot (20). The water discharged to the lower end of the bottom surface of the plate body 21 of the lowermost plant pot 20 is transferred to the water tub 12 through the water collecting part 14a provided in the partition plate 14 and is again The water in the water tank 12 is continuously circulated in this manner in accordance with this method.

The bottom of the valve body 21 of each plant port 20 and the port body 20 of the plant port 20 are arranged so that the water discharged to the water outlet holes 51 and 52 of the upper plant port 20 is smoothly guided to the back side of the plant port 20 The upper plant pot 20 is connected to the upper plant port 20 via the upper plant pot 20 and the lower plant pot 20 is connected to the lower plant pot 20 via the upper plant pot 20, 20 are inserted into the overlapping guide grooves 24 so that the step between the back surfaces can be reduced even when the plate bodies 21 of the upper and lower plant ports 20 are superimposed on each other.

A light emitting element 60 may be mounted on the bottom surface of the port body 22 of each plant port 20. The light emitting element 60 is electrically connected to the light emitting element 60 through a wiring provided through the hanger 11a and the support 11b, So that it can emit light. The light emitting device 60 can emit artificial light toward plants planted in the plant pot 20 on the bottom side to compensate for a shortage of natural light and to produce an indoor lighting effect.

The operation of the air purifying system constructed as described above will be described below.

9 to 11, when the user operates the operation panel 15b to drive the motor pump 13a and the blower unit 16, the water in the water tank 12 flows into the water supply pipe 13b, The water supplied to the water supply stand 13c is pumped to the plate body 21 of the plant pots 20 forming the uppermost row through the discharge port 13d, And is supplied to the back surface.

The water supplied to the back surface of the plate body 21 is guided to the ridge 21b by the guide 40 to form the water film 100 and the water storage space 20a of each plant port 20 through the perforation holes 50, And the bottom of the water storage space 20a is filled with water in the water storage space 20a through the pair of water outlet holes 51 and 52 to the both sides of the bottom of the back surface of the plate body 21 . The water flow formed in the water storage space 20a during the water inflow of the water storage space 20a increases the nutrient absorption power of the plant roots by providing the flow of the plant roots located in the water storage space 20a, Foreign matter adsorbed and removed on the water of the plant 20a is prevented from adhering to the plant roots.

The water discharged into the water outlet holes 51 and 52 is guided to the water storage space 20a along the back surface of each plate body 21 in the column of the bottom plant port 20, ) Heat continuously.

The water discharged to the lower end of the bottom surface of the plate bodies 21 of the lowermost plant pots 20 is transferred to the water tub 12 through the water collecting part 14a provided in the partition plate 14 and is returned again by the operation of the motor pump 13a The water in the water tank 12 is continuously circulated in such a manner that the water is supplied to the water supply stand 13c of the upper casing 15. The dashed arrows in Figs. 9 to 11 show the flow of water in this manner.

In addition to the circulation operation of the water, the indoor air outside the main body 10 flows into the air blowing space 11 through the suction port 15a by driving the air blowing device 16. The air introduced into the air discharge space 20a is guided to the rim 21b while being in contact with the back surface of each plant port 20 and flows into the water storage space 20a while passing through the water film 100, The indoor air is circulated while passing through the plant ports 20 mounted on the front surface of the main body 10 as the process is repeatedly carried out through the vent holes 23b of the holder 23. [ 9 to 11 show the flow of air circulated through the ventilation space 11 of the main body 10 and the plant pots 20. As shown in Fig.

At this time, the air passing through the plant port 20 passes through the water film 100 formed on the back surface of the plate body 21 and the water film 100 formed on the tread 21b, and foreign substances such as fine dust, volatile organic compounds, It is adsorbed and removed by moisture and purified, and at the same time, the moisture content is increased, thereby maximizing the humidification efficiency of the indoor space. In this way, indoor air with improved humidity is also beneficial to growth of hydroponic plants.

At this time, the air passing through the water storage space 20a increases the dissolved oxygen amount of the water stored in the water storage space 20a, thereby improving water quality in the water storage space 20a, increasing the cultivation efficiency of the hydroponic plant, The air discharged to the upper part through the holder 23 after passing through the space 20a also stimulates the leaves and stems of the cultivated plants and promotes their growth.

10: main body 11: air blowing space
11a: Cradle 11b: Support
12: Water tank 13: Water supply device
13a: motor pump 13b: water supply pipe
15: upper housing 15a: inlet
16: blower 20: plant pot
20a: water storage space 21: valve body
21a: hook 21b:
21c: inclined surface 22:
23: holder 23a: plant mounting groove
23b: vent hole 30: perforated hole
31: Horizontal perforation hole 32: Vertical perforation hole
40: guide 40a:
40b: guard portion 41, 42: protruding rib
51, 52: Outgoing hole 60: Light emitting element
100:

Claims (5)

Sheet body;
A port body provided to form a water storage space opened upward at an upper portion of the plate body bottom portion;
A perforated hole provided at the bottom of the plate to communicate with the water storage space; And
And a guide provided on the back surface of the plate to guide the fluid flowing from the top to the bottom along the back surface of the plate toward the perforation hole,
Wherein the perforation hole is provided in a plurality of concentrically arranged centers of the bottom of the plate corresponding to the upper portion of the bottom of the water storage space,
The guide includes a pair of protruding ribs protruding from both sides of the back surface of the plate,
A pair of the protruding ribs are formed in the upper portion of the tread provided with the perforation holes so that the width between them becomes narrower toward the lower portion and the width between the lower portion of the introduction portion and the tread portion on both sides of the tread is larger than the width of the tread And a guard portion provided so as to be constantly held in the up-and-down direction in correspondence with the shape of the guard portion. The method according to claim 1,
The back surface of the plate body on the upper side of the perforation hole is inclined so as to be closer to the front side where the water storage space is formed,
And the back surface of the plate body adjacent to the perforation hole is perpendicular to the ground surface. The method according to claim 1,
Wherein the perforation hole includes a horizontal perforation hole provided in a horizontal direction and a vertical perforated hole provided in a vertical direction,
Wherein the horizontal and vertical perforation holes are provided in the form of elongated narrow elongated holes,
Wherein the vertical perforation holes are spaced apart from each other along the longitudinal direction of the horizontal perforation hole at the bottom of the horizontal perforated hole. delete A blowing space provided so as to open forward;
A port body provided so as to form a water storage space opened upward at the front of the plate body bottom; a perforation hole provided at the bottom of the plate body so as to communicate with the water storage space; and a fluid flowing from the upper portion to the lower portion along the plate body rear surface A plurality of air purifying plant ports arranged to cover the open front face of the air blowing space through the plate body including a guide provided on the back face of the plate body so as to guide toward the perforation hole;
water tank;
A water supply device arranged to supply the water in the water tank to the plate body rear surface of the air cleaning plant ports; And
And an air blowing device for forcibly blowing outside air to the air blowing space so as to circulate through the water storage space,
Wherein the perforation hole is provided in a plurality of concentrically arranged centers of the bottom of the plate corresponding to the upper portion of the bottom of the water storage space,
The guide includes a pair of protruding ribs protruding from both sides of the back surface of the plate,
A pair of the protruding ribs are formed in the upper portion of the tread provided with the perforation holes so that the width between them becomes narrower toward the lower portion and the width between the lower portion of the introduction portion and the tread portion on both sides of the tread is larger than the width of the tread And a guard portion provided so as to be constantly held in a vertical direction in correspondence with the airflow.

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