KR101672353B1 - Assembling air house - Google Patents

Abstract

The present invention relates to an air-conditioning system, an air-conditioning system kit, and an assembly type air house to provide a new engineering technology capable of installing an air-conditioning system in a short time and at low costs. According to the present invention, the air-conditioning system (1) comprises: an assembly type plastic house forming a workspace (5) inside by expanding two sheets of films in a dome shape; a tank (31) burying a part in a lower surface (6) placed in the workspace (5) to store water so as to accumulate geothermal heat; a suction path (33) sucking the air of the workspace (5) to send the air to the tank (31); a circulation path (35) reconnected to the tank (31) through a predetermined part in the lower surface (6) of the tank (31), sending the water and the air included in the tank (31) in one direction of each path, and resupplying the water to the tank (31); and an exhaust path (37) buried in the workspace (5) from the circulation path (35) to send the sucked and sent air to the workspace (5).

Description

[0001] ASSEMBLING AIR HOUSE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to air and soil conditioning technology, and more particularly to a prefabricated air house.

BACKGROUND ART [0002] Many air conditioning systems using geothermal heat have been proposed using the difference between a ground temperature (room temperature, etc.) and an underground temperature. In this type of air conditioning system, most of the underground temperature is lower than outside air in summer, and is higher than outside air in winter.

For example, the following patent documents disclose various methods for providing geothermal heat and heat exchange to a support by providing a pipe capable of circulating a heating medium such as an antifreezing agent in the ground on the ground by concrete means using geothermal heat.

Japanese Patent Laid-Open Publication No. 09-98984 Japanese Patent Application Laid-Open No. 11-179693 Japanese Patent Application Laid-Open No. 2008-096063 Japanese Patent Application Laid-Open No. 2007-333296 Japanese Patent Application Laid-Open No. 2007-333295

In the conventional geothermal utilization system, large-scale civil works such as excavation of soil, foundation work and rebuilding work are required, which causes a prolonged construction period and a high installation cost.

It is an object of the present invention to provide a new assembly type air house that can be installed at a low cost in a short period of time.

The prefabricated air house of the present invention includes: an internal working space formed by dome-shaped multiple-piece multiple films and inflating air; An air layer formed between the plurality of films; A tank partially filled in the work space and storing a liquid heating medium to accumulate geothermal heat; An air intake path through which the air in the work space is sucked and sent to the tank, and a second air intake path which is arranged in the tank so as to pass through the lower surface of the working space and the lower surface of the air layer and to be connected to the tank again, A circulation path through which the air is circulated; And an exhaust path projecting from the circulation path to the work space and discharging a part of the air supplied from the circulation path to the work space, wherein the prefabricated air house comprises: And a film fixing base is disposed on the installation surface so as to surround the work space and fix the films to each other so that the air layer is formed between the plurality of films.

In the embodiment of the present invention, the plurality of films are composed of an inner film and an outer film, and the film fixing base comprises an inner film fixing wall for fixing the inner film and an outer film fixing wall for fixing the outer film .

In this case, the inner film fixing wall may be provided with a vent hole through which the air in the working space flows into the air layer.

In addition, the inner film fixing wall and the outer film fixing wall both have a L-shaped cross section, and by fitting the lower ends thereof, a space is formed between the inner film fixing wall and the outer film fixing wall do.

According to another embodiment of the present invention, there is provided a power generation device that generates power by using the flow of the sucked air on the intake path.

According to the present invention, the air conditioning system can be installed at a low cost in a short period of time by making the facility body a prefabricated air house.

1 is a view showing the appearance of an air conditioning system in which a part of a prefabricated air house is cut to form an air conditioning system kit
Fig. 2 schematically shows a configuration of the film-fixing base and a method of fixing the outer film and the inner film to the film-fixing base. Fig.
3 is a diagram schematically showing a state in which the air conditioning system is viewed from the side;
4 is a diagram schematically showing the state in which the air conditioning system is viewed from the upper side
5 is a diagram schematically showing a configuration of a circulation path and an exhaust path
Fig. 6 is a diagram schematically showing a cross-section taken along the line AA in Fig. 4
Fig. 7 is a view schematically showing the cross-sectional view taken along line BB in Fig. 4
8 is a diagram schematically showing a modification of the air conditioning system in a state viewed from the side
9 is a view schematically showing a modified example of the fixing method of the film fixing base of each film
10 is a diagram schematically showing a modified example of the air conditioning system as viewed from the upper side
11 is a schematic cross-sectional view of a side circulation path pipe in a fluid distribution facility
Fig. 12 is a diagram showing a piping schematically showing the configuration of the atmospheric pressure control section and a sectional view

Hereinafter, the air conditioning system 1, the air conditioning system kit, and the prefabricated air house 3 of the present invention will be described with reference to the drawings, and each component in the drawings is schematically shown, (For example, piping, quantity, size, and the like) are not limited to the contents shown in the drawings.

The prefabricated air house 3 of the present embodiment is one of the components of the air conditioning system 1 and the air conditioning system kit, and is configured such that each component (component) included in the air conditioning system is mounted on its installation surface Ground) so that the air conditioning system 1 is completed.

1 shows a state in which the exterior of the air conditioning system 1 constructed by cutting a part of the prefabricated air house 3 and assembling the air conditioning system kit.

The prefabricated air house 3 has a plurality of films which are expanded in a dome manner so as to form an internal work space 5 and can be assembled and installed in the installation site (hereinafter, House] is referred to as [vinyl house]).

The greenhouse 3 is arranged on the mounting surface so as to surround the working space 5 and is spaced apart from each other so that the air layer 7 can be formed therebetween. And a fixing base 9 for fixing the film.

In the present embodiment, as the lower surface 6 of the work space 5 in the greenhouse 3, a soil material that can be walked by the operator is disposed optimally for cultivating plants and vegetables.

It is also conceivable to use soil materials, sand, gravel, porous materials (such as ores and artificially made porous materials) as a soil material to be used, or to use (mixed or laminated) one or more of them. The arrangement of the soil material according to this embodiment will be described later.

The greenhouse 3 of the present embodiment stores the exterior shape by pneumatic pressure (specifically, the air pressure of the working space 5 and the air layer 7 is increased) and is a synthetic resin film (for example, polyvinyl chloride Film) is composed of double structure with outer wall, and it becomes a working space for gardening and agriculture. Specifically, the vinyl house 3 is loaded with the outside air to produce a film (the outer film 10 and the inner film 11) made of a synthetic resin that forms an outer wall expanding in a dome form, (Wind chill chambers) 13 and 14, and is constituted by a film fixing base 9 and the like. A method of inserting the used outside air will be described later.

On the other hand, the entrance / air blowing room 13 is provided with a machine room (hereinafter, referred to as [machine room 13]) in which mechanical equipment such as a blower necessary for expanding the outer film 10 and the inner film 11, Quot;).

As shown in Fig. 1, when the outer film 10 and the inner film 11 of the greenhouse 3 are expanded in the form of a dome, a dome-shaped working space 5 is formed in the house, And an air layer (7) is formed between the inner film (11) and the inner film (11).

A rope 16 is fixed or rolled, for example, in a lattice shape on the outer side (front surface side) of each of the outer film 10 and the inner film 11, Is fixed to the film fixing base (9) on both the outer film (10) and the inner film (11). As a result, even when the outside film 10 and the inside film 11 rise in the inside of the house or receive external force (for example, external pressure caused by wind, snow, etc.) .

Fig. 2 schematically shows the configuration of the film fixing base 9 and a method of fixing the outer film 10 and the inner film 11 to the film fixing base 9. Fig. In Fig. 2, the illustration of each member disposed in the film fixing base 9 is omitted.

The film fixing base 9 includes an inner film fixing wall 21 for fixing the inner film 11 and an outer film fixing wall 23 for fixing the outer film 10, And the like. More specifically, both the inner film fixing wall 21 and the outer film fixing wall 23 are members made of a rigid, relatively large material (for example, iron and resin or the like) having an "L" cross section. It is suitably used in accordance with the size of the plastic house 3 and used. When connecting the inner film fixing wall 21, it is possible to connect the inner film fixing wall 21 by, for example, inserting a buffer material such as a rubber sheet and attaching it with bolts or the like. The connection of the outer film fixing wall 23 is also performed in the same manner. The same holds true for connecting the inner film fixing wall 21 and the outer film 23 according to need, for example, in order to construct a more stable facility.

The inner film fixing wall 21 and the outer film fixing wall 23 are arranged in such a manner that the lower end portions of the inner film fixing wall 21 and the outer film fixing wall 23 are fitted to each other, (See Fig. 1) in which soil is disposed as a part 24, and is stably installed on the installation surface.

Next, a method of fixing the outer film 10 and the inner film 11 to the film fixing base 9 will be described.

In the present embodiment, the outer film fixing wall 23 is arranged (for example, on the outer side) in the vicinity of the lower end of the outer film 10, and a belt-like elastic member Two metal plates (an elastic material such as an iron plate) are overlapped with the flat plate 27 before and after (left and right in Fig. 2), and a plurality of metal plates And fixed to the outer film fixing wall 23 by securing it with bolts and nuts. The method of fixing the inner film fixing wall 21 of the inner film 11 and the method of fixing each film to the outer wall of the entrance and air conditioning rooms 13 and 14 are also the same.

When the vinyl house 3 is installed as described above, the film fixing base 9 is disposed on the mounting surface, and the film (the outer film 10 and the inner film 11) It is not necessary to carry out foundation work for fixing on the surface, and it is possible to obtain the effect of shortening the air and reducing the cost (cost).

FIG. 3 is a schematic view showing a configuration of an air conditioning system 1 made using an air conditioning system kit from the side, and FIG. 4 is a schematic view showing a configuration of the air conditioning system 1, It is expressed in the enemy.

The air conditioning system 1 is designed to prevent the inoperable state due to the high temperature in the work space 5 of the greenhouse 3, which is changed by the outside air and the sunlight, Thereby controlling the temperature and humidity of the air inside the work space 5 and creating a comfortable space. In order to carry out the necessary air conditioning, the air conditioning system 1 and the air conditioning system kit, the aforementioned prefabricated air house 3 in which the work space 5 is formed by multiplying the plurality of films in a dome- A tank 31 partially buried in the lower surface 6 disposed inside the work space 5 for accumulating the geothermal heat by accumulating the liquid heating medium (water in the present embodiment) An intake path 33 for absorbing the air to the tank 31 and a circulation path 35 for contacting the tank 31 again via the lower surface 6 of the tank 31, A circulation path 35 for circulating the liquid heating medium and air in the circulation path 35 from one side of each path to supply each liquid heating medium to the tank 31; And an exhaust path (37) for sending the air sent from the working space (5) do.

The tank 31 is entirely or partly embedded in the lower surface 6 of the work space 5 so as to accumulate water (or ground water) supplied from the water supply path 39 , And accumulates geothermal heat in the water which is accumulated by exchanging water with the soil material constituting the lower surface (6). Thereby, the water in the tank 31 maintains a temperature close to the temperature in the soil (for example, about 15 degrees) regardless of the season. The water supply path 39 may be in contact with the water supply port, for example, under the mounting surface (for example, the paper surface) of the greenhouse 3.

The supply of water to the tank 31 in the water supply path 9 does not necessarily have to be continued and the water in the tank 31 may be reduced to a predetermined amount When it is done, it is good to be executed. The necessary amount of adjustment may be automatically performed by a member such as a sensor or a solenoid valve for managing the water level.

The tank 31 can be made of a metal having high corrosion resistance (including a painted metal) and a material such as resin. If there is no problem in cost, it is preferable to use a metal material having a high thermal conductivity.

The absorption path 33 is formed in such a manner that an end portion of the suction port 41 is disposed inside the work space 5 (for example, at a higher temperature and higher in the atmospheric pressure working space 5) The intake path 33 is formed in the work space 5 by using a supporting member as necessary so that the intake path 33 is in contact with the upper part of the tank 31, 5 into the intake port 41 of the intake path 33 connected to the inside of the tank 31 having a lower air temperature and a lower air pressure and is sent to the tank 31. [ The associated intake path 33 may be constructed by using a metal tube (including a painted metal) and a built-in tube (e.g., a hard vinyl chloride tube) made of resin or the like with high corrosion resistance.

The air sucked into the intake path 33 is sent to the tank 31 and is heat-exchanged with the accumulated water (indirectly, heat exchange with the soil material constituting the lower surface 6). Accordingly, when the temperature inside the work space 5 is higher than the internal temperature of the soil in the summer season, the air is lowered inside the tank 31. In the winter, when the internal temperature of the work space 5 is lower than the internal temperature of the soil, (31).

The intake path 33 is provided with one or a plurality of (here, two) power generation devices 43 generating power using the flow of air absorbed by the intake port 41, the respective power generation devices 43, (For example, a damper) 44 capable of adjusting the flow rate of the air (the effective area inside the passage of the air) is provided on the upper side of the flow path 43.

For example, by adjusting the air flow rate of the intake path 33 by means of the flow rate adjusting means, the inflow speed is further increased, and the power generation efficiency can be increased.

The electricity generated by the power generation device 43 is stored in a capacitor and is used for operating various kinds of devices such as a blower in the greenhouse 3 as well as for use in a power failure. It is possible.

The circulation path 35 discharges water and air in the tank 31 from one side of each path (for example, a place in contact with a place higher than the tank 31), and water and air And then supplies each air to the exhaust path 37, and the water is supplied to the tank 31 again.

The machine room 13 of the greenhouse 3 is provided with a blower 36 for expanding the film of the greenhouse (that is, for inserting air into the work space 5), a machine room (Hereinafter referred to as "control unit") 38 for controlling the blower 40 for blowing air to the upper side of the air conditioner 13 and other devices.

The blower 36 has an air intake duct (not shown) communicating with the outside and operates according to an instruction from the control unit 38 or manually turning on / off the power, Supply. Specifically, as shown in Fig. 3, the blower 36 is arranged to blow air from the machine room 13 side toward the entrance / air-conditioning room 14 side.

The air blower 40 is disposed upstream of the air inlet and air chamber 14 and is controlled to operate simultaneously with the blower 36 to move the air in the working space 5 to the suction port (41). The air blower 40 may be configured to suck and supply outside air. However, in the present embodiment, the air inside the working space 5 is configured to be blown upward.

In addition, the air conditioning system 1 is provided with a sensor S1 (not shown) for detecting the air pressure in the work space 5 and a sensor S2 (not shown) for detecting the air pressure in the air layer 7, The control unit 38 is configured to control the starting and stopping of the blower 36 so that each of the atmospheric pressures (for example, 1 atm) detected by the sensors S1 and S2 meet a predetermined condition.

Specifically, the condition of the associated atmospheric pressure satisfies a predetermined conditional formula (P0? P1? P2) when the air pressure in the work space 5 is P0, the air pressure of the air layer is P1, and the outside air pressure is P2. The control unit 38 controls the operation of the blower 36 and regulates the expansion maintaining state of the outer film 10 and the inner film 11 depending on whether the relationship condition is satisfied. By adjusting the expansion states of the outer film 10 and the inner film 11 as described above, even when a large pressure such as snow and wind is applied to the outer film 10, the pressure applied is dispersed in the air layer 7, Almost no vibration is maintained in the inner film 11 as well as in the outer film 10.

Fig. 5 schematically shows the configurations of the circulation path 35 and the exhaust path 37. Fig.

Hereinafter, the configuration of the circulation path 35 will be described with reference to Figs. 3 and 5. Fig.

The circulation path 35 is a path that contacts the exhaust path 37 in the tank 31 at the downstream side of the contact portion with the final contact portion (for example, contact with the exhaust path 37 located at the lowermost part in Fig. 4) And a water channel 47 for re-supplying the water supplied from the channel 45 to the tank 31 so that the water is supplied to the lower portion of the tank 31 in a descending order design (in this embodiment, Down pipe), and the water supplied from the tank 31 flows to the downstream side.

The piping 45 of the circulation path 35 is disposed in the water of the tank 31 and a pump 49 for supplying water into the circulation path 35 is arranged and even in the respective pipelines 45, Heat exchange occurs between air and water.

More specifically, the pipeline 45 of the circulation path 35 is located in the tank 31 disposed in the lower portion 6 near the machine room 13 of the greenhouse 3, And is disposed and installed so as to pass through the weight portion 24 over the film fixing base 9 arranged so as to surround the work space 5. [

A ventilation path 48 connected to the ventilator 46 is in contact with the pipeline 45 at a more upstream side than the connecting connection with the ventilating path 37 and the air in the ventilator 46, (Downstream side) of the air flowing in the air flow passage 45. As a result, a negative pressure in the tank 31 is generated and the pressure of the air flowing into the tank 31 through the intake path 33 in the work space 5 rapidly moves in the advancing direction, The power generation efficiency by the power generation device 43 also increases.

4, the front end thereof is connected to the work space 5 through the inner film fixing wall 21, for example, and the blower path 46 is connected to the work space 5 5) to the pipeline 45. [0050] On the other hand, a known filter (for example, a filter made of an inorganic material such as porous ceramics) having a sterilizing effect may be provided on the upper portion of the blower 46, for example, in the air blowing path 48.

Thus, contamination of water or air flowing through the pipeline 45 with bacteria can be suppressed.

The water channel 47 connected to the pipeline 45 is located in the lower surface 6 of the work space 5 so that the vicinity of the center of the work space 5 in the filter fixing base 9 To the tank (31). The upper portion of the upper half of the channel 45 is in contact with the exhaust path 37 in which the gap is appropriately arranged and the air supplied from the tank 31 side Is naturally supplied to the exhaust path (37). The associated exhaust path 37 is arranged so as to pass through the inner film fixing wall 21 and the inner film 11 of the film fixing base 9 as shown in Fig. When the exhaust path 37 is passed through the inner film fixing wall 21 and the inner film 11 as described above, auxiliary materials and materials that can obtain a buffering effect with rubber ceramics, It is better to suppress leakage. Further, in the case where the various ducts and ducts pass through several members, it is preferable to carry out the above description. It is also possible to use the same material as that of the intake path 33 in the piping 45.

The water channel 47 of the circulation channel 35 is located at the bottom of the channel 45 as viewed in the cross section of the channel 45 as shown in Figs. 4 and 5, Shaped normal member 53 for flowing the water flowing out from the tip end of each channel 51 to the downstream side and the respective normal members 53 U "-shaped channel 56 made of a porous material having excellent water absorbency and flowing to the downstream side is brought into contact with the same absorption path 55 and the tank 31 to form the absorption path 55 And an end channel 57 for sending the flowing water to the tank 31.

The channel 51 of the water channel 47 can be made of the same material as the channel 45 on the upper side and the inner film fixing wall 21 and the inner film 11 of the film fixing base 9, As shown in FIG. The normal member 53 may be made of the same material.

The absorption path 55 of the water channel 47 is formed by passing through a water channel 56 having a U-shaped cross section on the surface side of a porous material having high absorbency such as a ceramic or carbon nanotube, Is made. Accordingly, the water flowing into the normal member 53 on the upstream side is first absorbed into the absorption path 55, and after reaching the saturated state, the water on the downstream side (the end channel 57) It flows towards.

The end channel 57 of the channel 47 prepares a sterilizing filter (not shown), sterilizes the water flowing through the circulation channel 35, and sends it to the tank 31. As a result, the interior of the tank 31 is in a state of good water quality, and the air to be heat-exchanged is clean. The filter used is, for example, a filter using an inorganic material such as a porous ceramic filter, It is possible to use a certified filter with

One end of the exhaust path 37 is in contact with the pipeline 45 of the circulation path 35 at an appropriate interval and the other end is disposed inside the working space 5 of the plastic greenhouse 3, And sends the flowing air to the work space (5). It is also possible to use the same material as the intake path 33 in the exhaust path 37 as well.

4 and 5, the inner film fixing wall 21 of the film fixing base 9 is provided with a ventilation hole (not shown) for introducing air in the working space 5 into the air layer 7 59 are installed.

The ventilation hole 59 is a plurality of ventilating holes formed at a predetermined position in the longitudinal direction (horizontal direction) at a position lower than the inner film fixing wall 21, Is designed to be lower than the respective surfaces of the inner weight portion (24).

Thereby, the air in the work space 5 penetrates into the lower surface 6 by the difference in air pressure between the work space 5 and the air layer 7 (higher pressure of the working space 5) It is possible to keep the air pressure P1 of the air layer 7 higher than the outside air pressure P2 so as to flow into the air layer 7 through the air passage 59 and raise and hold the air pressure of the air layer 7. [ In addition, by allowing the air to pass through the lower surface 6 in this manner, it is possible to suppress the decay of the lower surface 6 (soil 63 described later) and the water contained therein, State (condition).

Fig. 6 schematically shows a cross section taken along the line A-A in Fig. 4, and Fig. 7 schematically shows a cross section taken along the line B-B in Fig. The arrangement of the lower surface 6 of the work space 5, the weight portion 24 of the film fixing base 9, and the circulation path 35 will now be described with reference to Figs.

In this embodiment, the channel 45 of the circulation channel 35 is connected to a channel (not shown in the figure) that is embedded in the weight portion 24 (earth in this case) and connected to the downstream side in the channel 45 47) (the channel 51, the normal member 53, the absorption path 55, and the end channel 57) are buried in the lower surface 6 of the work space 5.

In the illustrated example, the lower surface 6 is composed of a porous member 61 which is laid down to a predetermined height from the ground, soil 63 suitable for growing plants and vegetables buried thereon, and the like The channel 47 of the circulation path 35 is configured to be inclined downstream from upstream to downstream. The mesh member 65 is laid on the porous member 61 and the porous member 61 and the water passage 47 on the upper side of the porous member 61 or the porous member 61 at appropriate intervals. Put it in the air.

The mesh sheet 65 is preferably made of a special material that is as thin and dense as possible, allowing water and air to pass through. When it is not necessary to extend the porous member 61 located below the roots of plants and vegetables cultivated on the lower surface 63, the netting sheet 65 employs a net having a finer mesh than the particles of the soil 63 It is good. Accordingly, it is possible to prevent the soil 63 from flowing into the water channel 47.

Since the lower surface 6 is absorbed by the laid porous member 61 even when water flowing in the water passage 47 is flooded by using the porous member 61 as the material thereof, It is possible to maintain the moisturizing state.

[Installation Order]

The procedure for assembling the air conditioning system 1 using the air conditioning system kit will be described below.

(1) First, the air conditioning system kit, the material of the weight portion 24, the material of the lower surface 6, and other necessary materials are carried into the installation place of the air conditioning system 1. In addition, when water is used as the liquid heating medium, a water source such as waterworks is secured when necessary.

(2) The film fixing base 9 on the mounting surface is placed and the weight portion 24 (soil) is covered in the film fixing base 9 slightly less than the finished state, and the lower surface 6 of the working space 5 The porous material 61 is spread and covered. At this time, the blower 36 and the control unit 38 may be provided in the machine room 13 as well.

(3) The tank 31, the intake path 33, the circulation path 35, the exhaust path 37, and the water supply path 39 are assembled and installed, and the water path 47 of the circulation path 35 is included. The whole of the material 61 is covered with the mesh net sheet 65. [

(4) The weight portion 24 is laid on the portion remaining in the film fixing base 9, and at the same time, the soil 63 is spread on the mesh sheet 65 and covered. It is also conceivable to fix the absorption path 33 by using the supporting member put on the lower surface 6 in order to stably install the intake path 33. [

(5) The outer film 10 and the inner film 11 are fixed to the film fixing base 9 and the blower 36 is operated to expand the inner film and the outer film 10 in a dome shape.

(6) The water supply is performed until the water level in the tank 31 reaches a predetermined position. The installation of the air conditioning system 1 is completed.

[Operation example]

Next, the operation of the air conditioning system 1 in the case of lowering the temperature of the work space 5, such as a summer season, will be described.

First, the blower 36 is allowed to be controlled by the control unit 38, and the pump 49 in the tank 31 and the blower 46 for sending air to the pipe 45 of the circulation path 35 are started . Here, when the temperature of the work space 5 becomes higher than the outside air temperature in the summer season, the atmospheric pressure in the work space 5 becomes higher than the atmospheric pressure. In this case, the air in the work space 5 is naturally blown into the tank 31 having a lower air pressure (air temperature) via the absorption path 33 and sucked. At this time, if the power generation device 43 on the intake path 33 is operated, it is possible to generate electricity using the flow of the flowing air.

The air introduced into the tank 31 is heat-exchanged (cooled) with water in the tank 31 and is sent to the pipe 45 of the intake path 35 by the blower 46, Exchanged (cooled) with the flowing water and supplied to the work space 5.

Further, the water flowing through the channel 45 flows back to the tank 31 along the water channel 47. More specifically, since the water flowing in the water passage 47 is absorbed by the absorption path 55 at the beginning of the start of water delivery in the tank 31, It is preferable that the water supply to the tank 31 is continued by the water supply valve 39. When the absorption path 55 is saturated, the water flowing in the water channel 47 is supplied again to the tank 31.

The air in the work space 5 is gradually harmonized by repeating the series of flows of the air and the water concerned.

(Not shown) that detects the air pressure in the operating space 5 and a sensor S2 (not shown) that detects the air pressure of the air layer 7 are detected by the operation of the air conditioning system 1 The start and stop of the blower 36 is controlled so as to reach a predetermined condition so that the degree of expansion of the outer film 10 and the inner film 11 can be controlled by monitoring the respective atmospheric pressures and the atmospheric pressures (for example, 1 atmospheric pressure) .

Finally, the flow of air flowing in the air conditioning system 1 will be described.

The air sucked into the work space 5 by the blower 36 inflates the inner film 11 and flows into the air layer 7 through the lower surface 6 so that the outer film 10 Expand. The related outside air flows from the machine room 13 to the opposite entrance and air chamber 14 on the opposite side and flows in the upper direction in the work space 5 by U turn by the blower 40, Flows into the inlet port (41) of the suction port (33). The air introduced into the intake port 41 is supplied into the work space 5 through the exhaust path 37 via the pipeline 45 of the circulation path 35 and spreads inside the work space 5 , Flows into the air layer 7 through the lower surface 6, or flows into the intake path 33.

Thus, the air conditioning system 1 circulates the air sucked by the blower 36 in the air conditioning system 1, (1) maintains the expansion of the outer film 10 and the inner film 11, (2) performing air conditioning in the working space, (3) suppressing soil decay on the lower surface 6, (4) generating electricity in the intake path 33, and the like.

On the other hand, since the greenhouse 3 is constituted by expanding the film in multiple, the air layer 7 formed between the films has a heat insulating effect. Therefore, even when the flow control means 44 of the absorption path 33 is closed to stop the flow of the water and the air in the winter season, the temperature in the work space 5 is warmer than the outside temperature State.

As described above, the air conditioning system (1), the air conditioning system kit and the prefabricated air house (3) of the present invention do not require large-scale civil works such as digging of the soil, foundation work, It can be installed with short and low cost. Particularly, it is possible to make the installation of the air conditioning system 1 easier by making the air conditioning system a prefabricated air house (prefabricated vinyl house).

Further, according to the present invention, the air is circulated by using the pressure rise of the air in the work space 5 by the diffusion of heat by sunlight, and the air and the geothermal heat are exchanged by heat exchange, more specifically, It is possible not only to air-condition the inside of the work space 5 through heat exchange, but also to generate electric power. That is, according to the present invention, it is possible to realize air conditioning of the work space 5 with low power consumption, that is, low maintenance cost, by efficiently utilizing natural energy of sunlight and geothermal heat. Further, the related effect is more effective when the airtight state of the work space 5 is further increased, since the air staying in the upper part of the inside of the work space 5 is easily in a high pressure state.

Although the air conditioning system 1, the air conditioning system kit, and the assembled air house 3 of the embodiment have been described above, the configuration of the present invention is not limited to the above description, and may be modified into various forms. Modifications of the present invention will be described below. Further, in explaining one modification example, it is also possible to use the same components and the same functions as those of the above-described air conditioning system 1, air conditioning system kit, prefabricated air house 3, The same names and codes may be used for convenience. In addition, in the range where no technical contradiction arises, (1) a part of the configuration of the above-described embodiment is applied to the configuration other than the modification and the installation variant, A plurality of modified examples may be applied.

3, the lower end of the intake path 33 is in contact with the tank 31 so as to supply air to the upper side of the tank 31, and the intake path 33 is, for example, 31) so as to penetrate the liquid heating medium (for example, water). In this case, it is preferable to provide a blower in the intake path 33 to promote intake. As a result, water is stirred in the air supplied to the tank 31, so that heat exchange between air and water is further promoted.

8, the aeration device 81 may be installed in the water of the tank 31 and the water in the tank 31 may be actively aerated to promote heat exchange. A large amount of water bubbles generated in the tank 31 by the aeration is supplied to the circulation path 35 as a liquid heating medium so that water accumulated in the tank 31 in the circulation path 35 flows into the pump 49, The heat exchange with the air in the channel 45 of the circulation path 35 is more efficient than the heat exchange with the air.

For example, the following method may be employed as a method of fixing the outer film 10 and the inner film 11 to the film-fixing base 9. 9, the outer film 10 is attached and arranged (for example, on the outer side) to the outer film fixing wall 23 in the vicinity of the lower end thereof to form a thin elastic member Rubber or the like) 91 in the longitudinal direction (horizontally), and then they are inserted in front of and behind the flat plate 92 of the same length and a slightly smaller width of metal material (steel plate or the like) And then fastened to the outer film securing wall 23 by tightening with bolts and nuts passing therethrough. The method of fixing the inner film 11 to the inner film fixing wall 21 and the method of fixing the inner film 11 to the outer walls of the air conditioning rooms 13 and 14 for the entrance / exit of each film can also be performed as described above. The rigid member 91 is pressed against the film fixing wall base 9 by the flat plate 92 having the same width and length as the outer film 10 and the inner film 11 and the film fixing wall 9 The leakage of air can be suppressed and the air pressure can be more easily managed.

10 and 12, the channel 45 of the circulation channel 35 is formed by burying a part of the channel (for example, a section of the channel) in each channel 45 in the inside of the channel And a plurality of fluid stopping plates 101 and air pressure control chambers 103 and the like that do not flow into the exhaust path 37 but flow through the pipeline 45 and make a space for evacuating air reaching the end of the pipeline 45 .

Specifically, the fluid stopper plate 101 is provided so as to hang the central portion of the pipeline 45 at the upper portion, for example, immediately after the contact piping with the respective exhaust paths 37 associated with the pipeline 45 11). Thus, by partially installing the fluid stopper plate 101 in the channel 45, air and water strongly supplied by the blower 46 hit each fluid stopper plate 101, and air and water flow Heat exchange is further promoted.

12, the air pressure control chamber 103 includes a barometric pressure control chamber main body 121 having a larger volume per unit length in the extending direction of the channel 45 than the channel 45, And a damper 123 for discharging air by being opened and closed. The air pressure control chamber 103 opens the damper 123 to allow the air to flow back into the pipeline 45 when the air flowing through the pipeline 45 flows out to the respective exhaust paths 37 and reaches the end of the pipeline 45 constantly. It can be prevented. The opening and closing operation of the damper 123 may be performed automatically by monitoring the rise of the air pressure by providing an air pressure sensor in the air control unit main body 121 and by manually monitoring the flow of air in the channel 45. The entirety of the air pressure control chamber 103 may be disposed in the weight portion 24 and some of the air pressure control chamber 103 may be disposed on the surface of the weight portion 24 so as to be exposed.

10, in addition to the air vents 59, a plurality of air vents 59 (four of which are shown in the drawing, for example) may be provided as the air vents 59 in the working space 5 , (105a to 105d) of the inner film fixing wall (21) may be provided on the inner film fixing wall (21). For example, one ventilation hole 105a to 105d is provided on both sides of the machine room 13 and the entrance / air-conditioning room 14 (left and right as viewed in FIG. 10). For example, it is conceivable to construct a filter having a sterilization effect in a duct in the hole formed in the inner film fixing wall 21 and the inner film 11. Alternatively, a hole provided in the inner film fixing wall 21 may be used as it is in the vent holes 105a to 105d, or a filter having a germicidal effect may be attached to the hole. When the ventilation holes 105a to 105d are provided on the lower surface 6 and the weight portion 24 of the work space, it is preferable that the ventilation holes 105a to 105d are provided above the respective surfaces.

Alternatively, in the above-described embodiment, the inner film fixing wall 21 and the outer film fixing wall 23 of the fixing base 9 of the film are, for example, as shown in Fig. 2, Shaped member is used, but a T-shaped member may be used as a member having an inverted upper side or a lower side, or a plate member may be fixed to the lower surface of the mounting surface, or the soil may be placed on the mounting surface have.

In the above-described embodiment, soil (soil) is disposed as the weight portion 24 between the inner film fixing wall 21 and the outer film fixing wall 23. Alternatively or additionally, A material having a relatively large weight such as sand, gravel, wood, or iron may be disposed.

The blower 36 for blowing air to the work space 5 of the greenhouse 3 is provided in the machine room 13 in the example of Figs. 3 and 4. However, the blower 36 is not limited to this, As shown in FIG. At this time, for example, it may be considered that the intake duct communicating with the outside is extended to the working space 5 via the inside of the machine room 13.

6 and 7, the lower surface 6 of the work space is provided with a porous material 61 laid up to a predetermined height from the ground, and a plant material 61 laid on the porous material 61, But it is not limited to this and may be constituted by, for example, soil 63, porous material 61, sand, gravel or the like, and even if some of them are mixed, Or may be laminated.

Further, in the embodiment, the lower surface 6 of the work space is made for cultivating plants and vegetables, but the present invention is not limited thereto. For example, a person can walk or run It can also be made into a place.

4 and 7, the circulation path 35 of the circulation path 35 is embedded in the weight portion 24 in the film fixing base 9, For example, in the lower surface 6 of the work space 5. In this case,

6, the waterway 47 of the circulation path 35 is embedded in the soil (soil) 63 constituting the lower surface 6 of the work space, but in the embodiment, However, the present invention is not limited to this, and the water channel 47 may be buried in the vicinity of the surface of the lower surface 6 of the work space.

In addition, on the surfaces of the inner film fixing wall 21, the outer film fixing wall 23, the machine room 13, and the entrance / air-conditioning chamber 14 constituting the film fixing base 9, rubber for anti- It is preferable to increase the degree of adhesion between the film fixing base 9 and each of the films (the outer film 10 and the inner film 11) by applying cement (waterproof, elastic paint). Thus, air leakage in the air space 7 in the work space 5 can be suppressed and the air pressure can be more easily managed.

As another example, in the embodiment, the vinyl house 3 is installed on the ground, for example, but it can be installed on asphalt and concrete floor such as a roof of a building and a road and a parking lot. Accordingly, it can be installed in places where there is no soil or water that is essential for cultivation of plants and vegetables. That is, a multipurpose facility cultivation system that can be installed in any place is possible.

As another example, when the lower surface 6 of the greenhouse 3 is arranged, a sheet having no air permeability is laid on the installation surface. Thereby preventing leakage and leakage of air and moisture on the installation surface side via the lower surface 6 in the work space 5 and preventing intrusion of air and moisture (water) from the outside, And a complete enclosed type planting system is completed which is free from external influences (such as contamination and temperature change).

As another example, in the embodiment, the greenhouse 3 is described as a prefabricated air house, but the greenhouse 3 is not necessarily constructed as a prefabricated type. For example, it is possible to install the film-fixing base 9 or the base made of concrete having the same function without digging the floor, and the lower surface 6 of the working space 5 to be the existing floor The air conditioning system includes an air house in which a work space is formed by expanding a plurality of films in a dome-shaped manner, at least a part of which is embedded in a lower surface disposed in the work space, There is a circulation path for bringing the air in the work space back into the tank through a part of the lower surface in the tank, A circulation path for sending a liquid heating medium and air from one side of each path and supplying each liquid heating medium to the tank again, Is disposed between, may be configured to include an exhaust path, send eojin the air sent to the work area. It is possible to suitably apply some or a plurality of the above-described modifications to the related air conditioning system within a range that does not have a technical contradiction, for example, by providing a plurality of fluid stopping portions 101 in the piping 45.

Although the present invention has been described above with reference to the modified examples, the present invention is not limited to the above-described embodiments and modifications, and appropriate modifications can be made using known techniques.

1 --- Air conditioning system
3 --- vinyl house
5 --- Workspace
7 --- Air layer
9 --- Film fixing base
10 --- Outer film
11 --- Inner film
13,14 --- Entrance and air-conditioning room
16 --- rope
21 --- Inner film fixing wall
23 --- outer film fixing wall
25,91 --- Elastic member
27,92 --- Flat plate
31 --- tank
33 --- intake path
35 --- Circulation path
36,40,46 --- Blower
37 --- exhaust path
39 --- Water supply path
41 --- intake port
43 --- Generator
44 --- Flow regulating means (flow regulating means)
45 --- Pipeline (Kan Road)
47 --- Waterway
49 --- pump
51 --- Pipeline (菅 路)
53 --- Normal member (cylindrical member)
55 --- Absorption path
56 --- channel
57 --- termination channel
59, 105a, 105b, 105c, 105d --- Ventilation holes
61 --- Porous member (Porous member)
63 --- soil
65 --- mesh sheet
81 --- Aeration device
101 --- Fluid stop
103 --- Pressure control room
121 --- Pressure control chamber body
123 --- Damper

Claims (5)

An internal working space (5) formed by dome-shaped multi-plies of a plurality of inner and outer films (11, 10) and inflated air; An air layer (7) formed between the plurality of inner and outer films (11, 10); A tank 31 partially filled in the work space 5 to store the liquid heating medium to accumulate geothermal heat; An intake path 33 for sucking air in the work space 5 to the tank 31 and a lower surface of the working space 5 and the lower surface of the air layer 7 in the tank 31, A circulation path (35) arranged to be connected to the tank (31) again through which the liquid heating medium in the tank (31) and the air are circulated; And an exhaust path (37) protruding from the circulation path (35) to the work space (5) and discharging part of the air supplied from the circulation path (35) to the work space (5) As a prefabricated air house,
And a plurality of the inner and outer films 11 and 10 are disposed so as to surround the work space 5 on the upper surface of the installation surface and are spaced apart from each other such that the air layer 7 is formed between the inner and outer films 11 and 10. [ , 10) are arranged on the mounting surface,
The film fixing base 9 comprises an inner film fixing wall 21 for fixing the inner film 11 and an outer film fixing wall 23 for fixing the outer film 10,
Two elastic members 25 are spread on the surface of the outer film fixing wall 23 parallel to the horizontal plane and a metal plate 27 is stacked thereon before and after the bolts are passed, Is fixed to the outer film fixing wall (23) by being fixed,
The piping 45 of the circulation path 35 is formed in the tank 31 disposed in the lower portion 6 of the machine room 13 of the greenhouse 3 by one path to the left and right, , And is disposed so as to pass through the weight portion (24) in a superimposed manner on the film fixing base (9)
A water channel 47 connected to the channel 45 is provided on the lower surface 6 of the work space 5 and is connected to the filter fixing base 9 through the vicinity of the center of the work space 5, And the exhaust passage 37 is connected to the upper part of the pipeline 45 and the exhaust path 37 is connected to the pipeline 31. The air supplied from the tank 31 is supplied to the exhaust path 37, (37) is arranged to penetrate the inner film fixing wall (21) of the film fixing base (9) and the inner film (11) so as to suppress damage to the piping and air leakage. . delete The air conditioner according to claim 1, wherein the inner film fixing wall (21) is provided with a ventilation hole (59) through which the air in the working space (5) flows into the air layer (7)
The ventilation holes 59 are formed at a lower position than the inner film fixing wall 21 and at a predetermined interval in the longitudinal direction (horizontal direction), and the lower surface of the work space 5, (5) and the air layer (7) by a difference in air pressure between the work space (5) and the air layer (7) (P1) of the air layer (7) so as to increase the pressure of the air layer (7) while flowing into the air layer (7) through the air hole (59) (P2) and the air is passed into the lower surface (6), thereby suppressing the decay of the water contained in the lower surface (6) and the lower surface (6) (Condition) is maintained. The inner film fixing wall (21) and the outer film fixing wall (22) are both L-shaped in cross section, and the lower end portions of the inner film fixing wall And a space is formed between the outer film fixing wall (22) and the outer film fixing wall (22). The prefabricated air house according to any one of claims 1, 3, and 4, wherein a power generation device (43) is installed on the intake path (33) to generate electricity using the flow of the sucked air.

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