KR20150115492A - Insulation pad for double vinyl-layered greenhouses, double vinyl-layered greenhouses using the same, and its construction method - Google Patents

Abstract

The present invention relates to a double greenhouse for culturing various crops. Provided is an insulation pad apparatus for a double greenhouse to construct the double green house. The apparatus comprises: an insulating material layer which maintains a space between double sheet layers overlapped on a steel frame at regular intervals, and in which an upper side is made of an insulating material tightly maintained on an upper sheet layer; and a fixing means which is located in a lower part of the insulating material layer, and integrally fixing and maintaining the insulating material layer along the frame. According to the present invention, as the insulating material layer can perfectly block a flow of air between the sheet layers, the double greenhouse of the present invention can effectively prevent a dust accumulation and a dew formation phenomenon in an air layer between the double sheet layers, and significantly increase an insulation effect of the double greenhouse. In addition, the insulating material layer of the insulation pad apparatus can effectively prevent a thermal bridge phenomenon between a frame of a steel pipe and the upper sheet layer due to a high insulation factor. Therefore, the double greenhouse of the present invention can prevent a heat leakage as a direct heat conduction phenomenon, connected to the upper sheet layer from the frame of the existing same steel pipe, is blocked. Accordingly, the insulation effect inside the greenhouse can be more excellently maintained, heating costs can be significantly reduced in winter season, and the double greenhouse can be quickly installed with low installation investment costs.

Description

TECHNICAL FIELD [0001] The present invention relates to a double greenhouse insulation pad device, a double greenhouse and a dual greenhouse construction method using the same,

The present invention relates to a dual greenhouse for cultivating various crops, and more particularly, to a method for efficiently securing a space between light-transmitting sheet layers by using an insulating pad installed along a frame of a double greenhouse, The present invention also relates to a double-greenhouse insulating pad device capable of rapid installation at low cost and a dual greenhouse and a dual greenhouse construction method using the same.

Generally, vinyl house is a house facility for cultivation of various crops. In winter, it protects the outside air actively and transmits natural light to keep the air in the vinyl house room at a proper temperature, thereby cultivating various crops ≪ / RTI >

In such a conventional vinyl house, a frame made by connecting metal pipes is installed on the bottom surface. In such a frame, a steel pipe is installed in a lattice shape to form a round tunnel-shaped frame, And the upper surface is generally formed in the form of a round tunnel, and a vinyl sheet, which is a synthetic resin, is mainly used as the light transmitting sheet to be put on the frame. Further, glass or polycarbonate (PC) material may be used as the light transmitting sheet. For the sake of convenience, the present invention is based on a broad concept including various types of greenhouses made of transparent sheets such as vinyl, glass and polycarbonate. However, for convenience of explanation, Technologies. However, such fact should not be construed as limiting the scope of rights of the present invention to the vinyl house, but it should be construed as a concept including a broad dual greenhouse.

The frame forms a gap of approximately 60 cm between the steel pipes. Most of the vinyl sheets are covered with a strut or a frame over the frame.

Therefore, the conventional vinyl house has a drawback that the insulation performance for blocking the outside air is poor, and the durability of the vinyl sheet is poor, shortening the service life of the vinyl house.

In recent years, in order to solve such a problem, a double vinyl house constructed by doubly building such a vinyl house is widely used. This double vinyl house has the advantage of saving the heating cost because the insulation effect and the greenhouse effect are much higher than the one-ply vinyl house. However, such a conventional double vinyl house has a problem in that it is very inconvenient to construct and demolish the double vinyl house by constructing a double frame and covering each frame with a translucent vinyl sheet, and repairing the vinyl house is troublesome when the vinyl house is broken.

In order to solve such a problem, Korean Patent Registration No. 10-1214809 entitled " Double vinyl house and double vinyl house fixing clamp and vinyl house construction method "have been proposed.

Such a conventional technique is configured such that the inner vinyl sheet is supported so as to be in the form of a tunnel by using a clamp fixed to the frame, so that unlike a conventional double vinyl house having a double frame structure, only one frame can be installed .

Accordingly, the conventional art has an advantage that it is easy to construct and demolish, and can be easily maintained when damage occurs to the plastic house.

However, since the conventional double vinyl house has an air flow through the air layer between the double vinyl sheets, dust and the like accumulate in the space between the double vinyl sheets when used for a certain period of time, Thereby deteriorating the heat insulating performance.

In addition, since the conventional double vinyl house has a large air layer between the double vinyl sheets, the air layer contains a large amount of moisture, so that a dew condensation frequently occurs in the morning when there is a great temperature difference between day and night, Dew-force phenomenon occurs, which still deteriorates the light transmission performance and deteriorates the heat insulation performance.

Since such a conventional technique requires the use of a specially-manufactured fixed clamp, the actual construction and production costs are not as high and inexpensive as before, and thus it is difficult to actually use the clamp.

SUMMARY OF THE INVENTION It is an object of the present invention to overcome the above-described problems of the prior art by providing a narrow gap between the double sheet layers and completely blocking the air flow between the sheet layers, The present invention provides an improved double glowing thermal pad device improved in that the dew condensation phenomenon can be effectively prevented, thereby enhancing the heat insulation effect of the dual greenhouse, and a dual greenhouse and a dual greenhouse construction method using the same.

Another object of the present invention is to provide a double-glazed heat insulating pad capable of installing a double greenhouse at a low cost by forming a double sheet structure easily through a simple structure without using a special fixing clamp, Device, a dual greenhouse using the same, and a method for constructing a dual greenhouse.

According to an aspect of the present invention,

A heat insulating material layer made of a heat insulating material in which a space between the double sheet layers superimposed on the iron frame is kept at a constant interval and the upper surface is kept in close contact with the upper sheet layer; And

And fixing means located below the heat insulating material layer and integrally fixing the heat insulating material layer along the frame,

Wherein the upper surface of the fixing means is integrally attached to the lower surface of the heat insulating material layer through an adhesive and the lower surface thereof is attached to the steel pipe side of the frame by the magnetic force transmitting through the lower sheet layer, And a magnet member.

Preferably, the magnet member is formed into a curved structure having a curvature corresponding to the iron pipe curvature of the frame.

More preferably, the fixing means comprises a chemical adhesive layer which adheres the heat insulating material layer integrally to the lower sheet layer.

Most preferably, the heat insulating material layer is characterized in that the second magnet member is added between the upper sheet layer and the upper sheet layer to increase the bonding force with the frame made of the steel pipe.

Preferably, the heat insulating material layer and the fixing means are formed in a strip shape extending along the frame made of a steel pipe.

More preferably, the heat insulating material layer and the fixing means are composed of a plurality of members arranged at regular intervals along the frame.

Most preferably, the heat insulating material layer is continuously disposed along the frame, and the fixing means is composed of a plurality of members arranged at regular intervals along the frame.

According to another embodiment of the present invention, there is provided a double greenhouse comprising: a frame made of a steel pipe; A double sheet layer vertically stacked on the frame; And a heat insulating pad device for a dual warm room installed between the double sheet layers.

According to another embodiment of the present invention, there is provided a method of constructing a dual greenhouse, comprising: installing a frame made of a steel pipe in a lattice form; Placing a lower sheet layer on the frame to construct a round tunnel type one-ply greenhouse; Installing a heat insulating pad device for a dual warming room on the lower sheet layer along the frame; And a step of covering the upper sheet layer on the heat insulating pad device to construct a round tunnel type two-ply greenhouse.

According to the present invention, it is possible to form the air gap between the double sheet layers narrowly or thinly, for example, about 2 to 9 cm, through the heat insulating pad device composed of the heat insulating material layer and the fixing means, It is possible to effectively prevent dust accumulation and dew formation in the air layer between the double sheet layers and to greatly enhance the heat insulating effect of the double greenhouse.

In addition, since the heat insulating layer of the heat insulating pad device of the present invention has a low thermal conductivity, it is possible to effectively block the thermal bridge between the frame of the metal pipe and the upper sheet layer. Therefore, the heat conduction phenomenon directly from the frame of the same steel pipe to the upper sheet layer is blocked, thereby preventing the heat leakage, thereby keeping the heat insulation effect in the greenhouse more excellent and greatly reducing the heating cost in the winter season Of course.

According to the present invention, it is possible to easily form the double sheet structure through a simple heat insulating pad device structure in which a frame of a steel pipe frame is not installed in a double manner as in the conventional method, or a special multiple clamping clamp is not used. Accordingly, it is possible to install a dual greenhouse quickly even at a low facility investment cost, and to provide a double greenhouse having an excellent thermal insulation effect over time.

Further, according to the present invention, when the double greenhouse using the heat insulating pad device is demolished, the heat insulating pad device can be recovered and can be recycled for the installation of the other double greenhouses, .

1 is an explanatory view showing a dual greenhouse structure in which a heat insulating pad device for dual greenhousing according to the present invention is used.
2A is a front view showing a structure in which a fixing means is a magnet member in a heat insulating pad device for a dual warming room according to the present invention.
2B is a side cross-sectional view showing a structure in which the fixing means is made of a magnet member in the heat insulating pad device for dual warming according to the present invention.
3A is a front view showing a structure in which a fixing means is made of a chemical adhesive layer in a heat insulating pad device for dual warming according to the present invention.
FIG. 3B is a side cross-sectional view showing a structure in which the fixing means is made of a chemical adhesive layer in the heat insulating pad device for dual warming according to the present invention.
4A is a front view showing a structure in which the fixing means is made of a magnet member and the second magnet member is provided on the heat insulating material layer in the heat insulating pad device for dual warming according to the present invention.
4B is a front view showing a structure in which the fixing means is made of a chemical adhesive layer and the second magnet member is provided on the heat insulating material layer in the heat insulating pad device for dual warming according to the present invention.
FIG. 5 is an explanatory view showing a structure in which a double heat insulating pad apparatus according to the present invention is made up of a plurality of members and a space is formed therebetween.
FIG. 6A is an explanatory view showing a structure in which the double-glazing heat insulating pad apparatus according to the present invention is composed of a plurality of members, a gap is formed therebetween, and the fixing means is a magnet member.
FIG. 6B is an explanatory view showing a structure in which the double-glazing heat insulating pad device according to the present invention is composed of a plurality of members to form a gap therebetween, and the fixing means is a chemical adhesive layer.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

As shown in FIG. 1, the heat insulating pad apparatus 100 for a dual warming room according to the present invention includes a plurality of iron pipes 110, which are spaced apart by a distance of about 60 cm, And is mounted between the upper and lower sheet layers 120a and 120b to be installed.

The spacing of steel pipe is indicated by 50, 60, 70, 80, 90cm, etc. in accordance with the thickness of steel pipe, wind speed, and snowfall in the disaster type house design notified by the Ministry of Agriculture, Forestry and Fisheries, Construction.

The heat insulating pad device 100 according to the present invention includes a heat insulating material layer 130 made of a heat insulating material which maintains a space between the double sheet layers at a predetermined interval and the upper surface thereof is held in close contact with the upper sheet layer 120a, .

The heat insulating material layer 130 is disposed under the heat insulating material layer 130 and fixed to the lower sheet layer 120b while fixing the heat insulating material layer 130 integrally along the frames 110 of the grid- (140).

A preferred structure of such a dual thermal insulation pad apparatus 100 of the present invention is shown in Fig.

The heat insulating material layer 130 may be made of a material such as a sponge and the upper surface of the fixing means 140 may be made of the same material as the heat insulating material layer 130, And a lower surface thereof is attached to the steel pipe side of the frame 110 by a magnetic force transmitting through the lower sheet layer 120b so that the lower sheet layer 120b is attached to the lower sheet layer 120b, And a magnet member 142 that is in close contact with the magnet member 142.

Such a magnet member 142 may be made of, for example, a rubber magnet, or alternatively, a metal magnet.

2B, the magnet member 142 may be formed in a curved structure having a curvature corresponding to the curvature of the iron pipe of the frame 110.

As shown in FIG. 1, the double-glazing heat insulating pad apparatus 100 of the present invention having the above-described structure is constructed such that a steel frame 110 (see FIG. 1), which forms a round tunnel- On the lower sheet layer 120b of the frame member 120 along the steel frame 110 via the fixing means 140. [

In this case, since the fixing means 140 is made of the magnet member 142, the fixing means 140 is firmly fixed on the steel pipe by the magnetic force transmitting the lower sheet layer 120b, and the lower sheet layer 120b ).

Therefore, the heat insulating pad device 100 fixed on the lower sheet layer 120b through the fixing means 140 forms a distance of 60 cm between the metal pipes because the metal pipes are spaced approximately 60 cm apart.

The upper sheet layer 120a is laid on the heat insulating pad device 100 for a dual warming room of the present invention through the fixing means 140 formed of the magnet member 142 to form a two- We will build a double greenhouse.

3A and 3B, the heat insulating material layer 130 may be integrally formed with the lower sheet layer 120b, as shown in FIGS. 3A and 3B, And a chemical adhesive layer 144 for adhering the adhesive layer 144 to the substrate.

The chemical adhesive layer 144 may be, for example, a bond adhesive layer, or may be protected as a medium (not shown), removed from the medium at the time of construction, and used as a heat insulating material layer 130 made of a sponge, Or may be an adhesive layer integrally formed in advance at one side of the factory.

The fixing means 140 of the chemical adhesive layer 144 is attached to the lower sheet layer 120b by an adhesive force rather than a magnetic force so as to replace the fixing means 140 comprising the magnet member 142, 130 can be integrally fixed.

The heat insulating material pad 100 according to the present invention is preferably such that the heat insulating material layer 130 is formed between the upper sheet layer 120a and the second magnet layer 120a, Member 146 may be added to increase the coupling force with the frame 110 made of a steel pipe.

In this structure, the second magnet member 146 may be integrally formed on the upper surface of the heat insulating material layer 130 with an adhesive before the application of the adhesive, and may be fixed to the lower surface of the heat insulating material layer 130 140), i.e., the magnet member 142 (see FIG. 4A), or the chemical adhesive layer 144 (see FIG. 4B), to generate a stronger clamping force.

The heat insulating layer 130 and the fixing means 140 are formed in a strip shape extending along the frame 110 made of a steel pipe.

Such a strip shape may be formed along the entire steel pipe to form a stable fixing structure, as shown in FIG.

5, the heat insulating material layer 130 and the fixing means 140 may be structured as a plurality of members arranged at regular intervals T along the frame 110 have.

That is, as shown in FIG. 6A, the fixing means 140 composed of the heat insulating material layer 130 and the magnet member 142 is made up of a plurality of members holding a constant interval T, A fixing means 140 composed of a heat insulating material layer 130 and a chemical adhesive layer 144 may be composed of a plurality of members which maintain a constant distance T. [

As described above, in a plurality of structures in which the heat insulating material layer 130 and the fixing means 140 are spaced apart from each other at a predetermined interval, the total amount of the heat insulating pad device 100 to be used can be reduced.

In addition, the present invention is also applicable to the case where the heat insulating material layer 130 is continuously arranged along the frame 110, that is, in the form of a strip extending along the frame 110, May be a structure composed of a plurality of members arranged at regular intervals along the frame 110.

Hereinafter, the double greenhouse 200 of the present invention manufactured using the double-glazing heat insulating pad device 100 of the present invention will be described in more detail with reference to FIG.

The dual greenhousing 200 of the present invention includes a frame 110 made of a steel pipe and the frame 110 is formed in a shape of a round tunnel- .

And a double sheet layer vertically stacked on the frame 110.

Such a double sheet layer is composed of upper and lower sheet layers 102a and 120b, and an air layer is formed therebetween.

Between the double sheet layers, a dual thermal insulation pad device 100 manufactured according to the present invention is installed to maintain the space between the upper and lower sheet layers 120a and 120b at regular intervals.

In the dual greenhouse 200 of the present invention having such a structure, for example, the thickness of the air layer between the upper and lower sheet layers 120a and 120b may be thinned to several centimeters, for example, about 2 to 9 cm.

The thickness of the air layer depends on the thickness of the double heat insulating pad apparatus 100 of the present invention, and the air layer formed to be thinner than the conventional double greenhouse can significantly reduce the moisture content in the air, thereby effectively preventing the condensation phenomenon .

In addition, in a state in which the gap between the double sheet layers is narrowly formed, the double heat insulating pad apparatus 100 of the present invention can completely block air flow between the upper and lower sheet layers 120a and 120b, The dust accumulation is completely blocked in the air layer between the sheet layers to maintain excellent light transmittance. Therefore, an effect of excellently maintaining the adiabatic effect of the double greenhouse can be obtained.

Hereinafter, a construction method of the double greenhouse 200 of the present invention will be described in detail.

In the method of constructing the double greenhouse 200 of the present invention, first, a frame 110 made of a steel pipe is installed in a lattice shape of a round tunnel.

The step of installing the frame 110 made of steel pipes in the form of a round tunnel-like lattice is the same as that of the existing greenhouse, so a detailed description thereof will be omitted.

Next, a step of constructing a round tunnel-type one-ply greenhouse by covering the lower sheet layer 120b on the frame 110 is performed.

Since the step of installing the lower sheet layer 120b is the same as that of the existing greenhouse, the detailed description will be omitted.

Next, a step of installing the heat insulating pad device 100 for a dual warming room fabricated according to the present invention on the lower sheet layer 120b along the frame 110 is performed.

In this case, when the fixing means 140 is formed of the magnet member 142, if the heat insulating pad apparatus 100 for dual heating is disposed along the frame 110 on the lower sheet layer 120b, As shown in Fig.

If the fixing means 140 is formed of the chemical adhesive layer 144, the chemical adhesive layer 144 is applied along the frame 110 on the lower sheet layer 120b, and a heat insulating material layer 130) can be easily installed.

Next, a step of constructing a tunnel type two-ply greenhouse by covering the upper sheet layer 120a on the heat insulating pad device 100 is performed.

In such a step, the upper sheet layer 120a is laid on the heat insulating pad device 100 and the structure formed on the ground or the ground by pulling the four corners thereof, like the lower sheet layer 120b, Such as a steel pipe, and can be formed in the same manner as in the conventional method of fixing the upper sheet layer 120a.

As described above, the air gap between the upper and lower sheet layers 120a and 120b is narrowed or made thin through the heat insulating pad device 100, and air flows between the upper and lower sheet layers 120a and 120b. It is possible to effectively prevent dust accumulation and dew formation in the air layer between the upper and lower sheet layers 120a and 120b, thereby greatly increasing the heat insulating effect of the dual greenhouse.

In addition, since the heat insulating layer 130 of the heat insulating pad device of the present invention has a high heat insulating coefficient, the thermal bridge is effectively blocked between the frame 110 of the steel pipe and the upper sheet layer 120a, The heat conduction phenomenon directly from the frame 110 of the steel pipe to the upper sheet layer 120a is cut off, so that the heat insulation effect in the greenhouse is maintained to be excellent, and the heating cost can be reduced in the winter season.

In addition, the present invention can easily form the upper and lower sheet layers 120a and 120b through a simple insulation pad structure without installing the frame 110 in a conventional manner or by using a special fixing clamp , It is possible to install a double greenhouse quickly at a low investment cost, and the insulation effect can be maintained even after a lapse of time.

In addition, in the case of dismantling the double greenhouse 200 using the heat insulating pad device 100 of the present invention, the recovered heat insulating pad device 100 can be recycled for installation of the other double greenhouses 200, It is possible to obtain an excellent effect of achieving the reduction.

Although the present invention has been described in detail with reference to specific embodiments thereof with reference to the accompanying drawings, the present invention is not limited to such specific structures. 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 as defined in the following claims. For example, the material of the heat insulating layer 130 can be changed in a variety of ways, such as steel pole, fabric, porous foamed material, or low-thermal conductivity solid material, , Fasteners, and other steel fixtures. In addition, the present invention is applicable to a glasshouse or a polycarbonate greenhouse (a lightweight greenhouse) as well as a vinyl greenhouse, and is applicable to a double greenhouse having a double sheet structure, and such a simple material modification or design modification structure And obviously fall within the scope of the present invention.

100: double-glazing insulated pad device 110: frame
120a, 120b: Upper and lower sheet layers 130: Heat insulating layer
140: fixing means 142: magnet member
144: chemical adhesive layer 146: second magnet member
200: Double Greenhouse T: Spacing

Claims (9)

A heat insulating material layer made of a heat insulating material in which a space between the double sheet layers superimposed on the iron frame is kept at a constant interval and the upper surface is kept in close contact with the upper sheet layer; And
And fixing means located below the heat insulating material layer and integrally fixing the heat insulating material layer along the frame,
Wherein the upper surface of the fixing means is integrally attached to the lower surface of the heat insulating material layer through an adhesive and the lower surface thereof is attached to the steel pipe side of the frame by the magnetic force transmitting through the lower sheet layer, Wherein the insulating member is made of a magnet member. The heat insulating pad device according to claim 1, wherein the magnet member is formed in a bent structure having a curvature corresponding to the curvature of the steel pipe of the frame. The heat insulating pad device for a dual warm room according to claim 1, wherein the fixing means comprises a chemical adhesive layer integrally adhering the heat insulating layer to the lower sheet layer. The heat insulating pad device according to claim 1, wherein the heat insulating material layer is formed by adding a second magnet member between the heat insulating material layer and the upper sheet layer to increase the bonding force with the frame made of a steel pipe. The heat insulating pad device according to claim 1, wherein the heat insulating material layer and the fixing means are formed in a strip shape extending along the frame made of a steel pipe. The heat insulating pad device for a dual warm room according to claim 1, wherein the heat insulating material layer and the fixing means comprise a plurality of members arranged at regular intervals along the frame. The heat insulating pad device according to claim 1, wherein the heat insulating material layer is continuously disposed along the frame, and the fixing means comprises a plurality of members arranged at regular intervals along the frame. In a dual greenhouse,
A frame made of steel pipe;
A double sheet layer vertically stacked on the frame;
Wherein the double-greenhouse heat insulation pad device is manufactured in accordance with any one of claims 1 to 7, which is installed between the double sheet layers. In a dual greenhouse construction method,
Installing a frame made of a steel pipe in a lattice form;
Placing a lower sheet layer on the frame to construct a round tunnel type one-ply greenhouse;
Installing a thermal insulation pad device for dual heating according to any one of claims 1 to 7 on the lower sheet layer along the frame; And
And installing a double-layer greenhouse of a round tunnel type by covering an upper sheet layer on the insulating pad device.

Images