KR200174579Y1 - Apparatus for heating the earth below the greenhouse - Google Patents

Abstract

The present invention is to control the copper and nickel content of the heating wire, it is possible to generate a relatively large amount of heat generated in the heating wire of about 200 meters, and to provide a geothermal heating device for the plastic house that can be applied to the general greenhouse plastic house have.

The underground heating apparatus for a vinyl house according to the present invention intercepts the power supply 10 supplied to the control unit 30 by the temperature sensor 50 measuring the temperature in the ground, and the power supply 10 through the control unit 30. It is provided with a heating wire 40 for generating heat. The heating wire 40 is a lead wire 41 electrically connected to the control unit 30, a lead wire joining part 42, and a heating wire part 43, and ends of the lead wire 41 and the heating wire part 43 are lead wires. Bolted at the junction 42, the hot wire portion 43 is formed of 94% copper content and 6% nickel content so as to have a resistance of 0.117 Ω per unit length and has a length (L) of 200 m and a diameter (d). It has 0.9Ф-1.0Ф. Since the underground heating apparatus for a vinyl house of the present invention has a heating wire of 200 m, it is suitable for use in a vinyl house used in a general farmhouse, and can generate a relatively large amount of heat at the same rated voltage of 220V. It is possible to keep the temperature in the ground at the temperature necessary for the growth of the plant.

Description

Underground heating device for green house {Apparatus for heating the earth below the greenhouse}

The present invention relates to an underground heating apparatus for a plastic house, and more particularly, to an underground heating apparatus for a vinyl house using a heating wire to maintain the temperature of the greenhouse for growing crops and the ground temperature of the vinyl house at a temperature suitable for plant growth.

In developed countries with advanced farming techniques, the range of daily cross-sectional temperature is not severely arched, so it does not depend heavily on the ground heating method. In the farms of countries with continental climate such as Korea, the seasonal limitations are clear and the day crossings are very severe. Therefore, winter farming of such farmhouses should pay close attention to the method of keeping warm, and such methods are investing considerable capital. In particular, in order to cultivate agricultural products of high-speed gain in winter, not only the outside temperature of the plant should be maintained at a predetermined temperature using a greenhouse or a plastic house, but the temperature of the ground should be raised to a temperature suitable for plants to grow. At this time, if the temperature maintenance and operation in the ground is not sophisticated, it is difficult to achieve the desired purpose, and in severe cases may be until the farm is damaged.

In general, the underground heating apparatus is such a device for maintaining the temperature in the ground at a predetermined temperature. Such underground heaters are hot water heating stations, such as large capacity agricultural boilers. Hot water pipes of pipes or heating wires of industrial heating devices are buried in the ground, so that the temperature of the greenhouse or the greenhouse in the ground is kept constant regardless of the external climate and temperature change.

At present, the amount of heat required for plants to grow and thrive in a typical plastic house of 100m × 5m in Korea is 1680㎉. Here, the calorie 1680㎉ is a calorie that can raise the temperature in the ground to a temperature that is good for plants to grow in winter in Korea, and is an empirical result obtained by many years of experiments.

Underground heating apparatus for a vinyl house according to the prior art is an industrial boiler (1) having a circulation pump (3) and a large-capacity water tank (2), and a heat dissipation pipe (7) piped to a large number of such boilers (1), It consists of a temperature controller 4 electrically connected to a temperature sensor 5 embedded in the ground so as to control the operation of the hot water supply motor 6 for pressurizing hot water into the heat dissipation pipe 7. .

The conventional underground heating apparatus for a vinyl house constructed as described above embeds a heat dissipation pipe 7 in the ground. In addition, the boiler 1 heats cold water supplied from the outside and stores it in the water tank 2 in large quantities. The conventional underground heating device for a vinyl house can maintain the temperature in the ground at a constant temperature by the operation of the temperature sensor 5 for detecting the elevated temperature by the heat radiation pipe (7). However, the conventional underground heating apparatus for a vinyl house has a very complicated configuration, and since the cold water is heated and used during the winter, its operation efficiency is very low.

In light of this, other underground greenhouses for heating water Development and research of underground heating apparatus for heating the ground by embedding heating wire in the ground and supplying power to the heating wire without using the method.

The underground heating device for a vinyl house equipped with a conventional heating wire in the underground heating device, which is being developed and researched in this way, grows a small amount of plants such as seedlings by using a heating wire of 120 m, which is a well-known electric hot wire in the general industry. It is used in small plastic house. Here, the heating wire is formed with a diameter of 0.6 Ф, alloyed with a non-metallic material, and has been used as a type approval in the Republic of Korea at 220V / 1㎾ ~ 1.1㎾.

However, since the conventional underground heating apparatus for a vinyl house equipped with a heating wire is provided with a heating wire of 120 m, when it is used to reciprocate in a vinyl house having an area of 100 m × 5 m used in a general farmhouse, a length of 200 m or more is required. However, there is a disadvantage in that the conventional heating wire cannot be applied.

In addition, the conventional underground heating device for the vinyl house extends the conventional heating wire as it is (about 200 m or more), and when heating the ground with a power supply of 220V in a common house, the heat generation generated from the heating wire is relatively insufficient. And, it is very difficult to maintain the temperature in the ground at the temperature necessary for the growth of the plant, there is a disadvantage that the operation and efficiency are very poor.

The purpose of the present invention devised to solve this problem is to By adjusting the content of nickel, it is possible to generate a relatively large amount of heat generated in a heating wire of about 200 meters, and to provide an underground heating apparatus for a plastic house that can be applied to a general farmhouse plastic house.

1 is a block diagram for explaining the configuration of the underground heating apparatus for a vinyl house according to the prior art,

Figure 2 is a block diagram for explaining the configuration of the underground heating apparatus for a plastic house according to an embodiment of the present invention,

3 is a plan view for explaining the shape of the important part of the underground heating apparatus for a plastic house shown in FIG.

4 is a plan view for explaining the installation relationship of the underground heating apparatus for the plastic house shown in FIG.

FIG. 5 is a cross-sectional view illustrating an arrangement relationship of important parts of the underground heating apparatus for the vinyl house shown in FIG. 2.

♣ Explanation of symbols for main part of drawing ♣

20: switch 30: control unit

40: heating wire 41: lead wire

42: lead wire junction 43: hot wire

50: temperature sensor 60: fixed bar

In the above-described object of the present invention, in the underground heating apparatus for a vinyl house having a heating wire for intermittent power supplied to the control unit by a temperature sensor for measuring the temperature of the ground and receiving power through the control unit, the heating wire is 94% of the copper content of the lead wire, the lead wire joining portion, and the hot wire portion electrically connected to the control portion to fix the ends of the lead wire and the hot wire portion with bolts at the lead wire joint portion, and the hot wire portion has a resistance of 0.117 Ω per unit length. And a nickel content of 6%, and are achieved by an underground heating apparatus for a vinyl house, characterized in that the length is 200m and the diameter is from 0.9 to 1.0.

In addition, according to the present invention, it is preferable that the heating wire includes a lead wire joint portion formed by molding the core and the heating wire portion of the electrically connected lead wire with polyvinyl chloride so as to prevent discharge by moisture and moisture.

Hereinafter, with reference to the accompanying Figures 2 to 5 will be described in detail with respect to the underground heating apparatus for a vinyl house according to a preferred embodiment of the present invention.

In the drawings, Figure 2 is a block diagram for explaining the configuration of the underground heating apparatus for a vinyl house according to an embodiment of the present invention, Figure 3 is a underground heating cabinet for the vinyl house shown in Figure 2 4 is a plan view for explaining the shape of the important portion of the teeth, Figure 4 is a plan view for explaining the installation relationship of the underground heating apparatus for the vinyl house shown in Figure 2, Figure 5 is a underground heating apparatus for the vinyl house shown in Figure 2 This is a cross-sectional view for explaining the arrangement relationship of important parts of the.

As shown in FIG. 2, the underground heating apparatus for a plastic house according to the present invention includes a control unit 30 connected to a rated power supply 10 having a voltage of 220 V by a switch 20, and a heating wire 40 connected to the control unit 30. And a temperature sensor 50.

Here, the control unit 30 is composed of a conventional power control circuit that serves to interrupt the power supply 10 supplied to the heating wire 40 according to the temperature of the ground measured by the temperature sensor 50. The temperature sensor 50 electrically connected to the control unit 30 is a general temperature control sensor such as an electronic thermometer or a thermostat. The temperature sensor 50 is installed in the soil of each plastic house. Thus, it serves to measure the temperature of the heated soil. The temperature sensor 50 is provided with a wedge shaped casing so that it can be easily inserted into the soil of the plastic house.

3, the heating wire 40 is comprised from the lead wire 41 electrically connected to the control part, the lead wire junction part 42, and the heating wire part 43. As shown in FIG.

First, the lead wire 41 is a general power supply wire, and is formed so as to prevent the discharge of electricity from the moisture of the soil by covering the outer core with a PVC (polyvinyl chloride) coating, which is an insulator.

In addition, the lead wire junction 42 is electrically connected to prevent moisture and moisture in the soil. The cores of the lead wires 41 and the hot wire portions 43 connected with each other are sealed with a PVC mold.

In addition, the hot wire portion 42 is coated with PVC, and the wire is formed of 94% copper content and 6% nickel content so as to have a size of 0.117 Ω / m of resistance per unit length. The length L of such a heating wire part 42 is 200 m, and the diameter d is 0.9-1.0.

Therefore, the hot wire portion 42 having a length L of 200 m has a total resistance value R of 23.4 Ω according to Equation 1 below.

Accordingly, when the total resistance value R calculated as described above is applied to the general Ohm's law, the total power amount W is obtained, as shown in Equation 2 below.

Here, since 1 W is about 0.840 kW / W, the underground heating apparatus for a vinyl house of the present invention has a heat amount T as shown in Equation 3 below.

In this way, the underground heating apparatus for the vinyl house of the present invention generates 1778 kcal of heat in the heating section (8), which is a general vinyl house about 100 m long in Korea. It generates relatively much more heat than it needs in the area of.

In the following, the installation method of the underground heating apparatus for a vinyl house of the present invention as described in detail above will be described.

As shown in Figure 4, the underground heating apparatus for a plastic house of the present invention is a protection wall 61 formed of an insulating thermal insulation material to minimize heat loss when the heating wire 40 heats inside the soil (9), and the protective floor and In addition, the first heat insulating material layer, the second heat insulating material layer, vinyl, and additionally provided fixing bar 60 for heating wire installation.

First, the protective wall 61 has a length corresponding to the area of one plastic house, serves as a heat insulating material, and is buried perpendicular to both sides of the soil 9 of the plastic house. Inside the soil 9 surrounded by the protective wall 61, the heating wire 40 is arranged in a square coil shape. Such heating wire 40 is fixed at right angles in each corner by fixing bars 60 for installing heating wires such as bamboo or wooden wedges.

In addition, the vinyl house 8 as shown in FIG. 5 covers the upper part of the protective wall 61 as mentioned above. The vinyl house 8 is a bottom of the soil 9 having a thickness (b) of 15 cm, the first insulation layer 62, such as chaff or straw, the second insulation layer 63, such as styrofoam, and the vinyl ( 64) and the protective bottom 65 are laminated one by one. Inside the soil 9, a heating wire 40 is installed at a depth of 13 cm from the ground.

The heating wire 40 in this manner generates 1778 kcal of heat, thereby heating the soil 9 of the vinyl house 8 to a temperature necessary for plant growth.

As described in detail above, the underground heating apparatus for a vinyl house of the present invention has a heating wire of 200 m, and thus has an advantage of being suitable for use in a vinyl house used in a general farmhouse.

In addition, the underground heating apparatus for the vinyl house of the present invention can generate a relatively large amount of heat at the same rated voltage 220V, there is an advantage that can maintain the temperature in the ground at the temperature required for the growth of plants.

In addition, the underground heating apparatus for a vinyl house of the present invention uses electric heat, and has an advantage of having a very large heat transfer efficiency by using additionally provided insulation layers and protective walls and protective floors.

In addition, the underground heating apparatus for a vinyl house of the present invention has an advantage of maintaining a constant temperature in the ground by using a relatively sufficient amount of heat.

Although the technical concept of the underground heating apparatus for a vinyl house of the present invention as described above was described together with the accompanying drawings, this is illustrative of the best embodiment of the present invention and is not intended to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (2)

It is provided with a heating wire 40 for intermittently intercepting the power supply 10 supplied to the control unit 30 by the temperature sensor 50 for measuring the temperature in the ground, and receives the power supply 10 through the control unit 30. In a underground heating device for a plastic house, The heating wire 40 is a lead wire 41 electrically connected to the controller 30, a lead wire joining part 42, and a heating wire part 43, and ends of the lead wire 41 and the heating wire part 43. The bolt of the lead wire joint part 42 is fixed, The hot wire portion 43 is formed with a copper content of 94% and a nickel content of 6% to have a resistance of 0.117Ω per unit length, and has a length (L) of 200m and a diameter (d) of 0.9Ф to 1.0Ф. Underground heating device for green house. The method of claim 1, The heating wire 40 includes a lead wire joining portion 42 formed by molding a core of the electrically connected lead wire 41 and the heating wire portion 43 with polyvinyl chloride so as to prevent discharge by moisture and moisture. Underground heating device for a vinyl house, characterized in that there is.