KR20160115271A - Air house - Google Patents

Abstract

According to the present invention, disclosed is an air house having an internal temperature adjusted by cold air and hot air and having an outer appearance maintained by air supplied to the inside thereof without a separate pillar. The air house formed in a multi-layered plastic structure, having an air discharging chamber formed in one side to discharge internal air to the outside thereof, and having a mechanical chamber formed in the other side to supply external air to the inside thereof comprises: an introduction unit installed in the outside of an outer part thereof to introduce external air; a discharging unit connected with a feeding unit, having an underground pipe buried in the ground, and disposed in the mechanical chamber to exchange heat of air fed through the feeding unit, and providing the air to an internal space; and a discharging chamber formed in a discharging direction side of the mechanical chamber, having a humidification discharging filter mounted in the front side thereof, having a circulation fan mounted in the upper side thereof, and filtering and circulating internal air.

Description

Air house {Air house}

The present invention relates to an air house, and more particularly, to an air house in which the inside temperature is controlled by cold air and warm air, and the external shape is maintained by air supplied to the inside without a separate support.

Generally, the vinyl house, which is one kind of greenhouse, is equipped with both heating and air conditioner, so that the temperature control range is wide, and temperature, humidity and light can be fully controlled.

These greenhouses can produce agricultural products throughout the year because they are capable of cultivating and inhibiting the growth of crops, and can cultivate and produce special crops that are not cultivated in the green field. Therefore, And it is possible to study the relationship between the environment and crop growth by examining the reaction of crops by controlling temperature, humidity, and light rays, and is widely used for cross breeding.

When choosing a place to build such a greenhouse, consideration should be given to the availability of sunlight, the height of groundwater, the quality of water, the condition of ventilation, and the convenience of performing various tasks. Greenhouses are usually long to east or west or long to north and south , Dongseo-dong is suitable for the use of the greenhouse only in the low season because the utilization of the solar heat is advantageous in the winter season. However, it is convenient for the South and North East to maintain the low temperature and ventilation and cooling of the high temperature. If you have to use the greenhouse, South and North East can be said to be suitable.

However, a general vinyl house requires a large amount of facility cost, maintenance cost, and is vulnerable to weather disasters such as heavy rains, heavy snowstorms, and typhoons.

The air-filled vinyl house developed to solve these problems combines the advantages of an air dome and a vinyl house. In the prior art, Korean Patent No. 0128228 discloses a technique for such an air-filled vinyl house.

However, in the case of the conventional air-filled vinyl house, the blowers 28 and 28 'are located on both left and right sides of the plastic house, and the ventilation holes 31 and 33 are formed in the vertical upper portion of the blowers 28 and 28' The wind blowing from the blowers 28 and 28 'installed on the left and right sides of the greenhouse interfere with each other to form a vortex, thus failing to smoothly discharge the air toward the ventilation openings 31 and 33.

<Prior Art>

Korea Patent No. 0128228 (published on October 22, 1996)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide an air conditioner capable of more efficiently controlling the internal temperature by circulating the inside air more efficiently, The purpose of the house is to provide.

According to an aspect of the present invention, there is provided an air cleaner comprising: a ventilating chamber formed of a multi-layered vinyl structure and discharging air to the outside at one side thereof; and a machine room for supplying air outside at the other side thereof Wherein the introduction part is provided outside the outer part for introducing outside air; A discharging unit connected to the inflow portion and having an underground pipe embedded in a ground layer to provide heat to the air flowing into the inflow portion to provide the air to the inside space; And a discharge chamber formed on the discharge side of the mechanical chamber, the discharge filter for humidifying being mounted on the front side and the circulation fan mounted on the upper side for circulating the air while filtering the inside air.

The ceiling of the discharge chamber may be formed to be inclined and the circulation fan may be inclined at a predetermined angle on the ceiling so that the upper air can be easily introduced into the discharge chamber.

The multi-vinyl structure is partitioned into inner and outer copper, and a discharge opening having a predetermined area may be formed in a central upper region of the ventilation chamber located in the inner copper.

The discharge port may be formed to be in line with the discharge filter.

An inflow filter may be formed on at least one side of the outer wall of the machine room, and the inflow filter may be provided with a shut-off membrane device for automatically blocking inflow of external air into the inflow filter.

The inflow filter may be arranged on the outer side wall in a &quot; C &quot; shape on a plane.

The shielding film device includes an electric motor; A rotating pipe connected to the electric motor and rotated; A blocking film wound on the rotating pipe and covered by the front surface of the inflow filter; A plurality of rails formed perpendicular to an outer wall of the machine room; And a roller portion formed at both ends of the rotary pipe and sliding along the rail portion.

Wherein the discharging portion comprises: a wall communicating with the underground pipe; A support frame formed inside the wall; And a heating pipe installed in the support frame for heating external air flowing through the underground pipe.

According to the present invention, the discharge chamber is formed in front of the machine room for discharging the air introduced into the underground pipe, and the air inside the house can be easily circulated through the circulation fan installed on the ceiling of the discharge chamber to improve the air conditioning performance There is an effect that can be.

According to the present invention, since the discharge port of the discharge chamber is positioned in line with the discharge fan of the discharge chamber, the internal air can be discharged to the outside quickly.

In addition, according to the present invention, it is possible to form an inflow filter for sucking outside air on the outer side surface of a machine room and to block or open the inflow filter automatically through the blocking membrane device, It is effective.

 In addition, according to the present invention, since the heating pipe is installed inside the wall connected to the underground pipe, reheating of the external air heated by the geothermal heat can be performed, thereby improving air conditioning performance.

In addition, according to the present invention, a plurality of support pipes are embedded in the inner edge of the house, and wires are connected to the ends of the support pipes to connect the inner and outer ends of the support pipes. There is an effect that can be prevented.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a structural view showing a side cross section of a conventional air-
2 is a side view of an air house according to an embodiment of the present invention;
FIG. 3 is a front view of an air house of an air house according to an embodiment of the present invention,
FIG. 4 is an installation view showing an installation state of a discharge filter of an air house according to an embodiment of the present invention; FIG.
FIG. 5 is a partial structural view showing the installation state of the circulation fan of the air house according to the embodiment of the present invention; FIG.
FIG. 6 is a view illustrating an apparatus for blocking external air in an air house according to an embodiment of the present invention. FIG.
FIG. 7 is a state diagram showing a state in which the blocking film is lowered in the state of FIG. 6,
FIG. 8 is a sectional view showing the configuration of a discharge portion of an air house according to an embodiment of the present invention, FIG.
9 is a state diagram showing a wire connection state of a support pipe of an air house according to an embodiment of the present invention, and Fig.
10 is a state diagram showing the configuration of a discharge filter of an air house according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 2, the present invention is made of a multi-vinyl structure, and is composed of an inner copper layer 20, an outer copper layer 10, and an intermediate layer 15 therebetween. At this time, a mesh 11 is put on the inner copper 20 and the outer copper 10 at this time. In this case, since the mesh 11 is placed in a square grid, the inner and outer floats 10 and 20 are easily swung (That is, a grid is arranged in a square rather than a grid in a diagonal direction has a proof in a flow due to an external force).

In the meantime, the air house of the present invention is provided with a ventilation chamber (50) in front and a machine room (40) in which outside air flows in the rear.

Further, a plurality of lead-in portions 30 may be formed on the outer side of the outer copper layer 10. At this time, the introduction part 30 is formed with an introduction fan 31 therein to allow external air to flow through the underground pipe 60, thereby allowing heat exchange with the geothermal heat.

Further, a discharging portion 70 is connected to the end of the underground pipe 60, and the discharging portion 70 is located inside the machine room 40.

Specifically, the machine room 40 is a means for supplying outside air to the inside of the air house. The machine room 40 is provided with a discharge unit 70 through which external air supplied through the underground pipe 60 is discharged, A discharge fan 42 for discharging the outside air supplied from the discharging portion 70 forward and an inflow filter 41 formed on the outside wall for directly introducing outside air outside the outside copper 10 .

On the other hand, a discharge chamber 80 can be formed in front of the machine chamber 40. A discharge filter 81 is formed in front of the discharge chamber 80. The ceiling of the discharge chamber 80 is formed obliquely, The circulation fan 82 is inclined with an inclined ceiling so that the outside air can be circulated and supplied to the inside of the inner copper 20 through the discharge filter.

Referring to FIG. 3, a door 51 and an outlet 52 are formed on the front surface of the ventilation chamber 50 located in the inner shell 20. The outlet port 52 is provided with a discharge fan 42 and an outlet port 52 so that the internal air discharged through the discharge fan 42 can be directly introduced through the outlet port 52 of the ventilation chamber 50, Are preferably located on a straight line. That is, the outlet port 52 of the ventilation chamber 50 and the discharge fan 41 of the machine room 40 are arranged in a straight line with respect to the longitudinal direction so as to ensure smooth air flow and prevent stagnation of the internal air flow. And the size of the outlet 52 may be formed to have a size sufficient to ensure the outflow of air.

A plurality of support pipes 80 are embedded in the inner copper 20 along the edge of the inner copper 20 at regular intervals and wires 81 are connected to the tips of the support pipes 80 on both sides A support structure may be provided. Accordingly, since the air is not supplied to the inner and outer rods 20 and 10 in the event of an emergency such as a power failure, the inner and outer rods 20 and 10 sag to the bottom, It is possible to prevent damage.

In other words, it is possible to prevent the vinyl house from being stuck even when no air is injected into the inner copper 20 and the outer copper 10, thereby preventing damage to the crop due to house sagging in an emergency.

4, a discharge filter 81 for filtering the air to be discharged and humidifying the inside of the house is provided in the front wall of the discharge chamber 80. The discharge filter 81 is provided in the circulation frame 83, And the water is supplied to the discharge filter 81 by being connected to the water storage tank 80 through the pipe 87 so that humidification can be performed.

Referring to FIG. 5, the discharge chamber 80 is formed with a discharge filter 81 on its front surface, and an inclined surface 88 inclined at a predetermined angle is formed on the ceiling. The circulation fan 82 is installed on the inclined surface 88. The circulation fan 82 may be installed in a tilted state along the inclination of the inclined surface 88. [ In this way, the ceiling of the discharge chamber 80 is formed obliquely, and the circulation fan 82 is inclined along the inclined surface 88, so that the inner air of the inner copper 20 easily flows into the circulation fan 82, And is discharged along the filter 81, thereby enabling smooth circulation of the internal air.

Referring to 10, the discharge filter 81 is provided with a water stream at an upper portion thereof through a water supply pipe 89 to wet the discharge filter 81. This can be used to vaporize the water absorbed in the discharge filter 81 to humidify it. A drain passage 89a is provided below the discharge filter 81 and a drain pipe 89a is formed below the drain passage 89a. Accordingly, water can be controlled by supplying water through the pump P to the water supply pipe 89 and controlling the water via the valve (v / v). Accordingly, the air discharged into the machine room can be supplied to the interior of the house through the discharge filter 81.

6 and 7, an inflow filter 41 is formed on a wall surface of the outside of the machine room 40. The inflow filter 41 may be provided with side filters 42 on both side edges thereof. Accordingly, the inflow filter 41 is formed to have a 'C' shape in a substantially planar view.

This inflow filter 41 is a means for filtering the outside air into the machine room, and it is necessary to block the inflow of outside air into the inflow filter 41 in a situation such as a winter season where the outside temperature is low.

To this end, the present invention provides a barrier membrane device for automatically providing a barrier membrane (92) on the front and side surfaces of an inflow filter (41).

Specifically, the shielding film device includes a shielding film 92, a rotating pipe 93 wound with a shielding film 92, an electric motor 91 for rotating the rotating pipe 93, And a roller portion 94 which rotates and moves along the portion 95 and the rail portion 95.

The shielding membrane device constructed as described above can drive the rotary pipe 93 by the power of the electric motor 91 so that the shielding membrane 92 can be installed or opened on the entire surface of the inflow filter 41. 7, the electric motor 91 rotates and the rotary pipe 93 descends, and a blocking membrane 92 connected to the rotary pipe 93 is installed on the front surface of the inflow filter 41. At this time, a support rope may be installed vertically in the center to prevent the barrier film 92 from being lifted by the wind.

8, a discharging portion 70 is formed in the machine room 40. The discharging portion 70 includes a supporting frame 74 mounted inside a wall 71 connected to the underground pipe 60 A plurality of heating pins 73 are formed on the heating pipe 72 and the fixing frame 75 is fixed to the supporting frame 74 by a fixture 75. [ . Accordingly, when electricity is supplied, the heating pipe 72 generates heat, so that external air supplied through the underground pipe 60 can be heated and supplied to the machine room 40.

According to the present invention thus constituted, the discharge chamber 80 is formed in front of the machine room 40 for discharging the air introduced into the underground pipe 60, and is discharged through the circulation fan 82 installed on the ceiling of the discharge chamber 80 The inside air can be circulated easily, and the air conditioning performance can be improved.

In addition, by positioning the discharge port (70) of the discharge chamber (50) in a straight line with the discharge fan (42) of the discharge chamber (80), the internal air can be quickly discharged to the outside.

In addition, an inflow filter 41 for sucking outside air is formed on the outer side surface of the machine room 40, and the inflow filter 41 is automatically blocked or opened through the shutoff device, Can be blocked.

 In addition, according to the present invention, since the heating pipe 72 is installed inside the wall body 71 connected to the underground pipe 60, it is possible to reheat the outside air first heated by the geothermal heat, .

9, according to the present invention, a plurality of support pipes 80 are embedded in the edges of the inner copper 20 of the house and the wires 81 are connected to the tips of the support pipes 80, It is possible to prevent the internal and external floats 10, 20 from falling down and damaging crops in an emergency where air is not supplied.

While the present invention has been particularly shown and described with reference to the particular embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

10: External connection
15: Middle layer
20: internal copper
30: Introduction
40: Machine room
50: Exhaust chamber
60: Underground piping
70:
80: Discharge chamber

Claims (8)

1. An air house comprising a multi-vinyl structure and having a ventilation chamber for discharging air to the outside on one side and a machine room for supplying air to the inside on the other side,
An introduction part installed outside the external motion for introducing outside air;
A discharging unit connected to the inflow portion and having an underground pipe embedded in a ground layer to provide heat to the air flowing into the inflow portion to provide the air to the inside space; And
And a discharge chamber formed on the discharge side of the mechanical chamber for discharging humid air, and a discharge chamber for circulating the air while filtering the inside air by installing a discharge filter on the front side and a circulation fan on the upper side. The method according to claim 1,
The ceiling of the discharge chamber is formed obliquely,
Wherein the circulation fan is installed on the ceiling so as to incline at a predetermined angle so that the upper air can be easily introduced into the discharge chamber. The method according to claim 1,
Wherein the multi-vinyl structure is divided into inner and outer copper and an intermediate layer therebetween,
Wherein an outlet opening is formed in a central upper region of the ventilation chamber located at the inner periphery of the ventilation chamber, the ventilation opening having a predetermined area. The method of claim 3,
And the discharge port is formed so as to be in line with the discharge filter. The method according to claim 1,
An inlet filter is formed on at least one side of an outer wall of the machine room,
Wherein the inflow filter is provided with a shut-off membrane device for automatically blocking inflow of external air into the inflow filter. 6. The method of claim 5,
Wherein the inflow filter is disposed on the outer wall in a &quot; C &quot; shape on a plane. 6. The method of claim 5,
The shielding film device comprises:
Electric motor;
A rotating pipe connected to the electric motor and rotated;
A blocking film wound on the rotating pipe and covered by the front surface of the inflow filter;
A plurality of rails formed perpendicular to an outer wall of the machine room; And
And a roller portion formed at both ends of the rotary pipe and sliding along the rail portion. The method according to claim 1,
The discharge unit
A wall communicating with the underground pipe;
A support frame formed inside the wall; And
And a heating pipe installed in the support frame for heating external air flowing through the underground pipe.

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