KR100717579B1 - Heating system of heat insulation cover - Google Patents

Abstract

Disclosed is a heat generating device of a heat insulating cover, which is easy to install and implements heat insulating performance, and at the same time, dissipates heat to increase thermal efficiency. It is easy to install and remove and increase the thermal efficiency by forming a heating means for generating the proper temperature required for the object on the heat insulating cover which is covered with the object to maintain the proper temperature to block the heat radiation to the outside will be.

Insulation cover, heating means, carbon heater

Description

Heater of Heat Cover {HEATING SYSTEM OF HEAT INSULATION COVER}

1 is a perspective view showing a seedling apparatus installed with a heat insulating cover having a conventional structure,

Figure 2 is a perspective view showing a seedling apparatus using a heat insulation cover having a heating device is an embodiment of the present invention,

3 is a cross-sectional view of the heat generating means shown in FIG.

** Description of the symbols for the main parts of the drawings **

50: thermal cover 70: heating means

100: seedling device

The present invention relates to a heat generating device for a thermal cover, and more specifically, to generate heat at the same time by forming a heating means inside the thermal cover to reduce the heat released for germination and plant growth to the outside and at the same time generate heat. It relates to a heat generating device of the thermal cover to enable.

In general, when growing summer crops in the winter, or when growing hot crops in cold regions, a lot of greenhouses are used, these greenhouses are equipped with a thermal cover for the insulation. The thermal cover is to be opened and closed selectively according to the day, night, so that the day to keep the appropriate temperature by rolling the thermal cover to receive sunlight, and cover it so as not to radiate heat at night.

In addition, the seedlings are seeded seedlings are stacked and the seedling device that maintains the environment for seed germination is covered with a thermal cover to maintain the temperature required for seed germination.

When the seedling device is described as an example among the various devices that are used to maintain the temperature required for germination and growth of the crop as described above as follows.

As shown in FIG. 1, the seedling apparatus 100 having a conventional structure includes a plurality of pillar angles 110 and a plurality of support angles each horizontally installed by the pillar assemblies 110 and in which the seedling boxes 130 are stacked. 120, a water supply pipe 140 detachably installed on each pillar assembly 110, and a heat insulating cover 150 covering the components.

Pillar assembly 110 consists of a collection of large and small tubes and screws. This is to make it easy to assemble and adjust its height.

On the four corners of the support angle 120, a fixed tube 124 into which the pillar assembly 110 is fitted is vertically installed by means of welding or the like. At least one partition 122 is formed in the supporting angle 120 in a state in which the upper part is opened and the remaining part except the edge of the bottom is opened.

Water supply pipe 140 is a hollow vertical pipe 142, the plurality of discharge pipe 144, protruding at a predetermined interval along the longitudinal direction of one side of the outer peripheral surface of the vertical pipe 142, the uppermost side of the vertical pipe 142 It is installed in the main water supply pipe 146 is provided with a control valve 148 and the coupling port 149 of the elastic material is installed on one side of the outer peripheral surface of the vertical pipe 142. The discharge pipe 144 is preferably formed in a common faucet shape and the discharge pipe 144 is directed toward the upper portion of the seedling box 130 installed in each partition (122). The water supply pipe 146 is coupled with a normal water supply source. The water supply pipe 146 is provided with a control valve 148 for controlling the discharge of water through the discharge pipe 144. Coupler 149 is easily fitted into and detached from pillar assembly 110. Water supply pipe 140 is installed in each pillar assembly (110).

Hollow heat insulating cover 150 is open at the bottom. Insulating cover 150 is a non-woven fabric 152 of the black background forms a ceiling, the four sides are composed of a translucent side cover (154). The zipper 156 is installed at at least one corner of the four corners of the side cover 154. Tightening straps 157 may be installed along the bottom circumference of the side cover 154. In addition, the transparent window 158 is vertically formed on at least one side of the four sides of the side cover 154 so that the simulated growth process in the nursery box 130 can be visually confirmed from the outside. A pair of pillar assemblies 110 may be formed in one piece, and both ends of the ceiling support bar 112 may be installed at a top thereof by a screw coupling method. This is to allow the ceiling of the thermal cover 150 to be supported when the thermal cover 150 is installed in the seedling apparatus 100.

In addition, the inside of the heat cover 150 is covered with a warm air supply means is further included. The hot air supply means is installed in close proximity to the lower one side of the column assembly 110 and the at least one branch from the hot air fan 160 and the hot air fan 160 to generate a warm air detachably coupled to one side of the column assembly 110, One or more discharge holes 164 are formed along the longitudinal direction of one side of the outer circumferential surface, and include a warm air supply pipe 162 for supplying warm air toward the seedling box 130.

The operation of the seedling apparatus having the conventional structure as described above will be described with reference to the accompanying drawings.

The seedling seedling box 130 is seeded on the support angle 120 of the seedling device 100, and the thermal cover 150 is put on the exterior of the seedling device 100. To explain the process in more detail, once the thermal cover 150 is covered with the seedling device 100 in the state in which the zipper 156 is installed in one corner of the translucent side cover 154 open. Subsequently, the zipper 156 that was opened is locked again so that the seedling apparatus 100 is not visible from the outside. Finally, by pulling the tension strap 157 installed on the bottom of the translucent side cover 154, the thermal insulation cover 150 is completely fixed to the seedling device 100 so as not to move.

As such, when sunlight is placed on the seedling apparatus 100 on which the thermal cover 150 is covered, the nonwoven fabric 152 of the thermal cover 150 is made of black so that the mock growth can be performed without heating the heating means therein. do. On the other hand, the transparent window 158 formed on one side of the side cover 154 is able to visually check the seedling box 130 of the seedling device 100 located inside the thermal cover 150 from the outside.

On the other hand, when the hot air fan 160 located in the lower part of the seedling apparatus 100, the hot wind generated from the hot air fan 160, that is, the hot air moves along the hot air supply pipe 162 to the hot air supply pipe 162 It is discharged into the seedling box 130 through the plurality of discharge holes 164 formed. Accordingly, the growth rate of rice seed sown in the seedling box 130 can be increased. In addition, if the thermal cover 150 is covered with the assembly of the seedling apparatus 100, the growth effect of rice seed is much more excellent.

However, the seedling apparatus of the conventional structure configured as described above is limited to the installation space because the warm air supply means must be additionally installed to maintain the internal temperature of the thermal cover 150 to a temperature suitable for germination and growth of seeds. Received, there is a problem that takes a lot of work time when installing and removing the hot air supply means.

An object of the present invention devised in view of the above point is to form a heat generating means inside the heat insulating cover to keep heat generated to simultaneously generate heat while reducing the heat required for germination and growth of seeds It is to provide a heat generating device of the cover.

In addition, another object of the present invention is to provide a heat generating device of the heat insulating cover made of a simple structure to form a heat generating means inside the heat insulating cover is easy to install and remove.

In order to achieve the object of the present invention as described above, the heat generating device of the heat insulating cover is covered with an object to maintain a proper temperature to prevent the heat from being radiated to the outside, and generates an appropriate temperature required for the object. It is formed in a state unfolded on the heat insulating cover so that the heat dissipation means is configured to emit heat, characterized in that to increase the internal temperature by using the heat generated by the heat generating means.

Hereinafter, with reference to the accompanying drawings, the heat generating device of the thermal cover which is a preferred embodiment of the present invention will be described in detail as follows, and the same parts as in the conventional structure will be described with the same reference numerals.

FIG. 2 is a perspective view illustrating a seedling apparatus using a heat insulating cover provided with a heat generating device according to an embodiment of the present invention, and FIG. 3 is a cross-sectional view of the heat generating means shown in FIG.

As shown, the seedling apparatus 100 using the heat insulating cover having a heating device is a preferred embodiment of the present invention is installed horizontally by a plurality of pillar assembly 110, the pillar assembly 110 and the appropriate temperature A plurality of support angles 120, which are seeded seed or the seedling box 130 planted plants are stacked, the water supply pipe 140 is detachably installed in each pillar assembly 110 to maintain It consists of a thermal insulation cover 50 which is covered by these components as a whole.

The insulating cover 50 is a heat insulating cover 50 is made of a non-woven fabric 52 of the black ground ceiling, made of a semi-transparent material connected directly from the periphery of the non-woven fabric 52, the heat generating means in the lower end of the inner surface Consists of a side cover 54 is formed 70, the position where the heating means 70 is formed is not limited to only the lower end of the inner side of the side cover 54, the outer surface and the upper end, such as the insulating cover 50 It may be formed at any position capable of dissipating heat to the inside of, but is preferably formed in the lower end of the inner surface of the side cover 54 as described above to increase the thermal efficiency. At least one corner of the four sides of the side cover 54 is provided with a zipper (56). Tightening straps 57 may be installed along the lower circumference of the side cover 54. In addition, at least one side of the four sides of the side cover 54, the heating means 70 is not formed at least on the transparent window 58 is formed vertically long to simulate the growth process in the seedling box 130 from the outside to the naked eye. You can check it. A pair of pillar assemblies 110 may be formed in one piece, and both ends of the ceiling support bar 112 may be installed at a top thereof by a screw coupling method. This is to ensure that the ceiling of the thermal cover 50 is supported when the thermal cover 50 is installed in the seedling apparatus 100.

And the heat generating means 70 is made of a band-shaped carbon heater having a predetermined width and length, the structure is as follows.

As shown in FIG. 3, the heat generating means 70 is unfolded into a space having a predetermined width and length, and is connected to an external power source to connect a power line 72 to supply power, and a carbon layer. The carbon layer 71 is mounted between each silicon layer 73 applied and coated on both sides of the 71 and the silicon layer 73 and the side cover 54 in contact with the inner side of the side cover 54. It is made of a reflective insulating material 74 for reflecting so that the heat generated in the divergent only in the inner direction. In the middle region of the power line 72, a voltage regulator 75 is mounted to control heat generated from the carbon layer 71.

Thermal insulation cover 50 is provided with a heating device which is a preferred embodiment of the present invention configured as described above is covered with the appearance of the seedling device 100, the seedling seedling box 130 is laminated on the support angle 120. .

To explain the process in more detail, once the thermal cover 50 is covered with the seedling device 100 in the state of opening the zipper 56 installed at one side edge of the translucent side cover 54. Subsequently, the zipper 56, which has been opened, is locked again so that the seedling apparatus 100 is not visible from the outside. Finally, by pulling the tension strap 57 installed on the bottom of the translucent side cover 54, the thermal insulation cover 50 is completely fixed to the seedling apparatus 100 so as not to move.

Thus, when the sunlight cover the seedling device 100 is covered with the insulating cover 50, the nonwoven fabric 52 of the insulating cover 50 is made of black so as to absorb the solar heat to help germination and growth of seeds. . On the other hand, the transparent window 58 formed on one side of the side cover 54 is able to visually check the seedling box 130 of the seedling device 100 located inside the thermal cover 50 from the outside.

And if the user wants to increase the temperature inside the thermal cover 50, the power supply to the heat generating means 70 to generate heat. That is, when the power line 72 is connected to an external power source, and power is applied to the carbon layer 71 through the power line 72, the power is applied to the carbon layer 71 and the carbon layer 71 made of a resistor. ) Will generate heat. At this time, it is possible to adjust the temperature of the heat emitted from the carbon layer 71 by adjusting the voltage regulator 75 mounted on the middle portion of the power line (72).

Heat emitted from the carbon layer 71 is conducted to the silicon layer 73 and then radiated into the thermal cover 50. At this time, the heat conducted to the silicon layer 73 formed on the surface facing to the outside of the insulating cover 50 is reflected in the inner direction of the insulating cover 50 while being in contact with the reflective insulating material 74 is to improve the thermal efficiency.

As described above, the heating device of the thermal insulation cover according to an embodiment of the present invention covers the thermal cover 50 on the seedling apparatus 100 to maintain the environment suitable for germination of seeds and at the same time the side cover 54 of the thermal cover 50. By forming a carbon heater which is a heat generating means 70 in the heat supply, and generates heat by supplying power to the heat generating means 70, the heat is emitted to maintain a temperature suitable for germination and growth of plants located inside the thermal cover You can do it.

In the above described as an embodiment of the present invention, the present invention is not limited to the above embodiments, those skilled in the art without departing from the gist of the invention claimed in the claims. Anyone can make a variety of variations. That is, the heat insulating cover 50 provided with the heating means 70 is not limited to being used only in the seedling apparatus 100 having the above-described configuration, and to cover the object to maintain heat so that the heat retention is maintained. It can be applied to all kinds of thermal covers.

As described above, the heat generating device of the heat insulating cover according to the preferred embodiment of the present invention is covered with an object to maintain a proper temperature, and has a strip-shaped carbon layer and silicon having a predetermined width and length on the heat insulating cover to keep warm. By forming a heat generating means that is a carbon heater consisting of a layer to dissipate heat necessary for maintaining a proper temperature, there is an effect of increasing the thermal efficiency compared to the conventional structure that implements only the heat retention function.

In addition, by integrally forming the heat generating means in the heat insulating cover, there is an effect that the ease of use is increased by easy installation and removal as compared to the conventional structure in which a separate heat generating means is to be installed.

Claims (6)

delete In the thermal cover which covers the object to maintain the proper temperature to block the heat radiation to the outside, The thermal cover is spread in a floating shape having a predetermined width and length so as to generate a proper temperature required for the object, and a carbon layer for dissipating heat by connecting a power line connected to an external power source, and both sides of the carbon layer. Carbon heater which is a heat generating means consisting of each silicon layer to be covered; Heating device of the thermal cover comprising a. The method of claim 2, wherein the insulating cover Non-woven fabric of translucent material forming a ceiling; A side cover made of a translucent material connected directly from below around the four sides of the nonwoven fabric and formed with the carbon heater at an inner side lower end thereof; A zipper installed along one side edge of the side cover; And Inserted into the inner circumference along the lower periphery of the side cover for tightening straps for tightening the lower portion of the side cover; heat generating device of the thermal cover. delete According to claim 2 or 3, wherein the outer surface of the silicon layer formed in the outer direction of the insulating cover is coated with a reflective insulating material for reflecting the heat generated from the carbon layer to be emitted only in the inner direction of the insulating cover Heat generating device of the thermal cover. The heat generating apparatus of claim 2, wherein a voltage regulator is installed at an intermediate portion of the power line to adjust heat generated from the carbon layer.

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