KR101266753B1 - Film with air-gap for agricultural crops - Google Patents

Abstract

PURPOSE: An air film for crop cultivation is provided to dually form a film for keeping warm, and to form an air insulating layer between the dually formed films for keeping warm. CONSTITUTION: A first keeping warm side(110) is formed in a sealed way, and forms an external side when being installed in a crop cultivation tunnel or a cultivation house. A second keeping warm side(120) is dually formed with the external side, and forms an interior side when being installed in a crop cultivation tunnel or a cultivation house. A first bonding side(140) is stuck to the first keeping warm side and the second keeping warm side in a longitudinal direction. An air insulating layer(160) is formed between the first and second keeping warm sides through the first bonding side. Multiple through-holes(130) are formed in the second keeping warm side all over the surface with a fixed interval. The first and the second bonding sides are stuck using one or two methods among a roller heater sticking, a supersonic waves sticking, a hot melt sticking, a band sealer sticking, or a sticking by an adhesive.

Description

Films for air crops {Film with air-gap for agricultural crops}

The present invention relates to an air film for cultivating crops, and more particularly, an air film for cultivating crops, which is used in a cultivation tunnel or a cultivation house for cultivating crops, such as melons and vegetables, to improve the insulation of the crops by a double layer formed. It is about a film.

When growing crops consisting of fruits such as melons, watermelons, strawberries, cherry tomatoes, and vegetables, and vegetables such as cabbages, radishes, lettuces, etc. Natural phenomena such as frost can interfere with crop quality and / or harvesting.

To this end, conventionally, a film of polyethylene or polyvinyl chloride was used to form a cultivation tunnel (also called a vinyl tunnel) or a cultivation house (also called a vinyl house), and cultivated crops inside the cultivation tunnel or cultivation house. 1 shows a conventionally used cultivation tunnel 300 and cultivation house 400, showing that the cultivation tunnel can be formed inside the cultivation house to double the warming effect.

However, since the film used conventionally is formed in a single layer, there existed a surface which is insufficient in improving the heat insulation effect of a crop. That is, due to the characteristics of a single layer, the outside air of the cultivation tunnel or the cultivation house is connected to the inside through the surface of the film, so that the inside of the cultivation tunnel or the cultivation house is affected by the outside temperature, thereby affecting the quality and yield of the crop. It became. In particular, in the case of cultivation tunnels, which are formed on the open ground rather than inside the cultivation house, they are more affected by the temperature outside, so the effects of crops due to cold are relatively high. There was a side.

Domestic Utility Model Publication No. 20-0182310 (Registration Date: 2000. 03. 06.) relates to a tunnel film for a vinyl house, which is formed integrally with a water bag tube on one side of the vinyl film, and the water bag tube It is characterized by preventing the temperature drop in the tunnel film by injecting water into close contact with the ground and the water bag pipe. However, since the technique is to be in close contact with the ground in the state consisting of a simple single layer, there is a problem that can not prevent the outside air affects the interior through the vinyl film.

KR 20-0182310 Y1 2000. 03. 06.

The present invention was created to solve the problems of the prior art, according to the present invention is to form a thermal insulation film of polyethylene or polyvinyl chloride material used in the tunnel or house for crop cultivation, but in the case of the inner film surface By forming a plurality of through-holes at a predetermined interval throughout the whole relates to an air film for cultivating the crop, characterized in that the air insulating layer is formed between the insulating film is formed in duplicate.

Air crop film for crop cultivation of the present invention for achieving the above object is made in a continuous form and formed to be used by appropriately cut according to the use, it is made in a closed form when installed in the crop cultivation tunnel or cultivation house A first insulating surface forming an outer surface; A second heat insulating surface formed in double with the outer surface and forming an inner surface when installed in a crop cultivation tunnel or a cultivation house; A first adhesive surface for forming a plurality of spaced apart by a predetermined interval in the width direction of the first insulating surface and the second insulating surface is formed in a double, the first insulating surface and the second insulating surface bonded to each other in the longitudinal direction ; And an air insulation layer formed between the first heat insulating surface and the second heat insulating surface through the first adhesive surface.

In addition, a plurality of through holes are formed on the second insulating surface of the air film film of the present invention at regular intervals over the entire surface.

In addition, between the first adhesive surface of the present invention to form a plurality of second adhesive surfaces spaced apart at regular intervals in the longitudinal direction to divide the air insulating layer formed between the first insulating surface and the second insulating surface, An air passage for moving air is selectively formed between the divided air insulation layers formed as the second adhesive surface.

According to the present invention, the first adhesive surface or the second adhesive surface for bonding the first insulation surface and the second insulation surface is roller heater adhesion method, ultrasonic adhesion method, hot melt adhesion method, band sealer adhesion method or adhesive method by adhesive It is characterized by being bonded by combining any one or two or more of the manner.

According to the present invention, by forming a film used in the crop cultivation tunnel or house in a double, the thermal insulation effect is improved by the air insulation layer formed between the inner and outer films to reduce the oil cost for heating, the growth rate of the crops Faster and higher quality can reduce overall production costs.

In addition, according to the present invention, the through-hole is formed over the entire surface of the film formed therein, the air insulation layer is maintained between the inner and outer films regardless of the day and night there is an advantage that the inner and outer insulation can be made.

In addition, according to the present invention, the air can escape through the through-hole of the film formed therein, there is an advantage that the operation is easy even when moving the double film in the form of a roll.

1 is a view showing a cultivation tunnel and a cultivation house commonly used.
2 is a view showing a cultivation tunnel generally formed.
Figure 3 is a perspective view for showing a first insulating surface of the air film applied to the present invention.
Figure 4 is a perspective view for showing a second insulating surface of the air film applied to the present invention.
5 is a perspective view showing a second insulating surface of the air film film to be applied to the present invention, a view showing a second adhesive surface is formed between the first adhesive surface.
6 is a view showing a cross section in the width direction (w) of the air film film to be applied to the present invention.
7 is a view showing a state that may appear during the day by the air film film applied to the present invention.
8 is a view showing a state that may appear during the night by an air film applied to the present invention.
9 and 10 are views showing how the air film film applied to the present invention may be formed in the actual cultivation tunnel and appear during the day and night, respectively.

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

Figure 2 is a view showing a generally formed cultivation tunnel, the present invention relates to a film used for crop insulation in a crop cultivation tunnel or cultivation house. Referring to FIG. 2, the crop cultivation tunnel for the crop cultivation is inserted into the ground 200 at regular intervals, and the polyethylene or polyvinyl chloride film is installed with the shaft as the support, and the soil is supported on both sides. Will be covered. After the planting tunnel is installed, part of the film is rolled up during the day to sow seeds or water or manure, and at night the rolled up film is put back into place and then the sides are covered with soil.

3 and 4 is a view showing each of the first insulating surface 110 and the second insulating surface 120 of the air film film 100 applied to the present invention, the air film for cultivating the crop of the present invention It consists of a continuous form and is formed to be usable by appropriately cutting according to the use. Therefore, it can be appropriately cut and used according to the size of the cultivation tunnel or cultivation house.

3 and 4, the first heat insulating surface 110 and the second heat insulating surface 120 formed in duplicate are bonded to each other through the first adhesive surface 140. The first adhesive surface is formed in plural spaced apart by a predetermined interval in the width direction (w) of the first and second insulating surface, the first and second insulating surface in the longitudinal direction (l) To adhere to each other. The distance in the width direction of the first adhesive surface is not particularly limited, the interval can be adjusted as necessary, such as 50 ~ 300 mm.

3 shows the first insulating surface 110 to form an outer surface when installed in the crop cultivation tunnel or cultivation house. The first insulation surface serves to block the outside and the inside of the cultivation tunnel or the cultivation house by being made in a closed form.

4 shows a second insulating surface 120 to form the inner surface when installed in the crop cultivation tunnel or cultivation house. The second heat insulating surface has a structure in which the first heat insulating surface is dually formed, and an air insulating layer is formed between the first heat insulating surface and the second heat insulating surface, and the outside temperature is applied to the crops through the air insulating layer. It will not be immediately affected.

In particular, the present invention is characterized in that a plurality of through-holes 130 are formed at regular intervals over the entire surface of the second insulating surface (120). Referring to Figure 4, it can be seen that a plurality of through-holes are formed on the surface of the second insulating surface facing inward. The spacing of the through holes is not particularly limited in the present invention, it is possible to adjust as necessary, such as 10 ~ 50 mm. In addition, the diameter of the through hole is sufficient as it can pass geothermal or water vapor rising from the ground, the diameter of the through hole may be formed in a variety of sizes, for example 0.01 ~ 1 mm, in the present invention, the diameter of the through hole It does not restrict in particular.

6 is a view showing a cross-section (w) cross-section of the air film film to be applied to the present invention, the first insulating surface 110 and the second insulating surface 120 is formed in a layer, the first insulating surface and It can be seen that the air insulation layer 160 is formed between the second insulating surfaces. In addition, referring to FIG. 6, it can be seen that a through hole 130 is formed in the second insulating surface, and the through hole is formed through the inside of the cultivation tunnel or the cultivation house and the air insulation layer 160.

As can be seen through FIG. 6, according to the present invention, a dual structure including a first heat insulating surface 110 and a second heat insulating surface 120, and air formed between the first heat insulating surface and the second heat insulating surface, is provided. Through the insulation layer 160, the interior and exterior of the cultivation tunnel or cultivation house is insulated, thereby overcoming the influence of the external cold air in winter, late autumn or early spring to help the crops to grow.

7 is a view showing a state that can appear during the day by the air film applied to the present invention. During the day, the internal temperature of the cultivation tunnel or cultivation house increases due to sunlight. That is, the sunlight passing through the air film film raises the internal temperature of the cultivation tunnel or the cultivation house. At this time, the ground of the cultivation tunnel or the cultivation house receives heat and water vapor is generated from the ground.

The air whose temperature has risen and the water vapor which has risen from the ground pass through the through hole 130 formed in the surface of the second heat insulating surface 120, and is prevented from being discharged to the outside by the sealed first heat insulating surface 110. As a result, the air insulation layer 160 stays between the first and second insulating surfaces.

That is, the first heat insulating surface, which is pushed to the outside by the elevated warm air and water vapor, expands to the outside, and the air insulation layer separates the first heat insulating surface and the second heat insulating surface by separating the air insulation layer according to the expansion of the air. do. By separating and insulating the outside and inside of the cultivation tunnel through the air insulation layer, the crops inside can be grown in a warm state without being affected by cold air from the outside.

8 is a view showing a state that may appear during the night by an air film applied to the present invention. There is no sunlight at night, so the temperature inside the cultivation tunnel or house is lower than daytime. However, the cultivation tunnel or cultivation house is cut off from the outside by the air film film, the descending speed is made more gentle than outside.

However, due to the characteristic that the internal temperature is lower than the day, the water vapor that stayed in the air insulation layer 160 of the cultivation tunnel or the cultivation house for a day becomes liquefied. Dew, which is liquefied water vapor, is heavier than air and thus sinks to the surface of the second insulating surface 120 in contact with the air insulation layer.

The dew 180 that has sunk on the upper surface of the second heat insulating surface blocks the through hole 130 formed through the surface of the second heat insulating surface, and the second heat insulating surface sags downward due to the weight of the dew. The first heat insulating surface and the second heat insulating surface are separated by the air insulation layer 160. That is, since the first insulation surface and the second insulation surface are separated by an air insulation layer in a state where the through hole is blocked by dew, the influence of external cool energy on the internal crops by the air insulation layer can be minimized. have.

Referring to FIG. 8, even when the internal temperature of the cultivation tunnel or the cultivation house decreases in the absence of sunlight during the night, it can be seen that the air insulation layer may be maintained between the first and second insulating surfaces.

9 and 10 are views showing the air film film applied to the present invention can be formed in the actual cultivation tunnel and appear during the day and night, respectively, Figure 9 is a temperature inside the cultivation tunnel under the influence of sunlight during the day In the elevated state, the air insulation layer of the air film film shows a state in which the first insulation surface and the second insulation surface is separated, and FIG. 10 shows that the air insulation layer is the first insulation even when the internal temperature of the cultivation tunnel is lowered during the night. By separating the cotton and the second insulating surface has been shown that the effect of the cold air of the cultivation tunnel on the internal crops by the air insulation layer.

5 illustrates another embodiment of the present invention, in which a second adhesive surface 150 is formed between the first adhesive surfaces 140 of the air film film applied to the present invention. Referring to FIG. 5, a second adhesive surface is formed in the width direction w between the first adhesive surfaces, and a plurality of second adhesive surfaces formed in the width direction are spaced apart at regular intervals along the length direction. It can be seen that.

When the second adhesive surface is formed between the first adhesive surfaces, the air insulation layer is divided so that one side of the first adhesive surface is torn or damaged so that the influence is minimized even when the air insulation layer is exposed to the outside. have. The mutual separation distance between the second adhesive surface 150 is not particularly limited and can be adjusted as needed, and the same as the mutual separation distance between the first adhesive surface 140 is applicable to 50 to 300 mm, but in the present invention, Do not limit the mutual separation distance between the second adhesive surface.

In FIG. 5, it can be seen that the second bonding surface forms a part of the air passages 170 without completely dividing between the first bonding surfaces. When the air passage is rolled around the manufactured air film film, the air remaining between the air insulating layer may be required to quickly discharge the work process by quickly discharged to the outside. The spacing of the air passages is not particularly limited, and it is sufficient that the air remaining in the air insulation layer separated by the second adhesive surface is movable.

The first adhesive surface 140 and the second adhesive surface 150 formed in the present invention may be formed in various ways. The air membrane film of the present invention is formed by forming a single layer of a double film, in the case of the second insulating surface 120, the first insulating surface and the second insulating surface after the through-hole 130 is formed manually or mechanically It forms a double and passes through the roller heater. The roller heater is formed in a roll shape, forms a heating section at a predetermined interval, and heats the heating section to allow the dual insulating film to pass through. The first adhesive surface and / or the second adhesive surface is formed while passing through the roller heater, and may be variously formed in a thickness of 2 to 20 mm.

In addition to the first adhesive surface or the second adhesive surface forming method, there may be an adhesive method by ultrasonic, hot melt, band sealer, there may be a method of directly bonding using an adhesive, the adhesive method of the present invention is Any one method or two or more of the adhesive method may be used together, and is not particularly limited.

According to the present invention, the insulation effect is improved by the air insulation layer formed between the inner and outer double film can reduce the oil cost for heating, the growth rate of the crop can be increased and the quality can be reduced, the overall production cost can be reduced, By forming the through-holes over the entire surface of the film formed on the second insulating surface, there is an advantage that the inner and outer films can be formed regardless of the day and night to form an air layer.

It is a challenge for farmers to raise and maintain the temperature of the ground due to cold, such as winter, late autumn or early spring, and the present invention can be released quickly even by raising the temperature for crop growth by only 1 ° C. In the case of house use, it is expected to contribute to the energy saving and income increase of farmers.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary 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 as defined by the appended claims.

100: air film film
110: first insulating surface 120: second insulating surface
130: through hole 140: first adhesive surface
150: second adhesive surface 160: air insulation layer
170: air passage 180: dew
200: boom
300: Crop Tunnel
400: Crop House
w: width direction l: length direction

Claims (5)

In the air film film for crop cultivation is formed in a continuous form, cut to be used according to the use,
A first insulating surface formed in a closed form and forming an outer surface when installed in a crop cultivation tunnel or a cultivation house;
A second heat insulating surface formed in double with the outer surface and forming an inner surface when installed in a crop cultivation tunnel or a cultivation house;
A first adhesive surface for forming a plurality of spaced apart by a predetermined interval in the width direction of the first insulating surface and the second insulating surface is formed in a double, the first insulating surface and the second insulating surface bonded to each other in the longitudinal direction ; And
Is formed of an air insulation layer formed between the first insulating surface and the second insulating surface through the first adhesive surface,
Between the first adhesive surface, the second adhesive surface is formed in plural with a predetermined interval spaced apart in the longitudinal direction to divide the air insulating layer formed between the first and second insulating surface,
The air film for cultivating crops, characterized in that the air passage for the movement of air is formed between the divided air insulating layer formed as the second adhesive surface.
The method of claim 1,
The second insulating surface is a plurality of through-holes are formed at a predetermined interval over the entire surface of the agricultural film cultivation air membrane film.
delete delete The method of claim 1,
The first adhesive surface or the second adhesive surface
An air film for cultivating crops, characterized in that the adhesive is bonded using any one of a roller heater bonding method, ultrasonic bonding method, hot melt bonding method, band sealer bonding method or adhesive method using an adhesive method or two or more methods.

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