KR102372609B1 - Agricultural heaters using carbon heater with far infrared radiation function - Google Patents

Abstract

The present invention relates to an agricultural hot air blower, which, when the temperature on the inside of a plastic greenhouse, a hothouse or a cattle shed is increased by using a hot air blower, the far-infrared radiation atmosphere is induced so as to supply heat which is heated by a far-infrared ray on the inside of facilities for plant cultivation or animal breeding. To this end, according to the present invention, a lower surface plate of a hot air blower has a front surface vertical plate, a middle vertical plate and a rear surface vertical plate. An air blower is installed to blow air between the middle vertical plate and the rear surface vertical plate. An electric heater unit is installed between the front surface vertical plate and the middle vertical plate to provide heat which is heated by a far-infrared ray. An air outlet is installed at the middle vertical plate, and a hot air outlet is installed at the front surface vertical plate. An upper cover plate is provided in a right-side opened square shape to be bent at the both side parts at a horizontal top plate to form a side wall plate. Here, one side wall plate has an air inlet hole to introduce air to the air blower, and the other side wall plate provides a sealed structure to surround from the front surface vertical plate of the low surface plate to the rear surface vertical plate to constitute a main body forming the casing of the hot air blower. A far-infrared ray heating body is provided between the air outlet and the hot air outlet, wherein a plurality of holes ranging from 3 mm to 8 mm are formed in the far-infrared ray heating body. A carbon fiber heating wire is built in the holes to constitute a radiant heat heating structure. Therefore, the present invention relates to an agricultural electric hot air blower which is applied to supply heat which is heated by a far-infrared ray to the inside of facilities for plant cultivation or animal breeding.

Description

Agricultural heaters using carbon heater with far infrared radiation function providing a far infrared radiation effect

The present invention relates to an electric heater for agriculture, and more particularly, to provide a far-infrared radiation effect when applied to increase the internal temperature of a plastic house, greenhouse, or livestock, thereby providing a far-infrared radiation effect to help plant or animal breeding It is an electric heater-related technology.

In general, a greenhouse or greenhouse in which crops are grown or a livestock house in which livestock is raised keeps the internal temperature constant to promote the smooth life-sustaining activities and growth of animals and plants. .

In general, a hot air blower is used to control the internal temperature of a greenhouse, a greenhouse, or a livestock house by heating air and discharging hot air at a constant speed.

Nowadays, as the cultivation of facilities increases, the indoor temperature, humidity, and lighting are controlled in plastic greenhouses, greenhouses, and farm factories to exclude crops while artificially controlling the cultivation environment so that various crops can be accessed in all seasons.

In particular, as temperature has a great influence on the growth of crops, it is necessary to maintain an appropriate internal temperature, and in order to maintain this temperature, a boiler or a hot air fan is generally widely used.

As a technology related to a hot air heater for agriculture, for example, "a hot air fan suitable for a greenhouse or greenhouse for agriculture" (published on December 26, 2016) of Korean Patent Laid-Open No. A UV lamp and insect repellent electrode are arranged on the side to attract and eradicate pests, and a hot air heater-related technology is proposed, characterized in that an electric heater is disposed at the outlet side of the blower that sucks outside air through the intake port.

Far-infrared rays have a high penetrating property and have the property of generating self-heating where they penetrate. When applied to an agricultural hot air fan, when applied to raise the temperature inside a greenhouse space such as a plastic house or in an animal breeding space in a livestock house It has a technical idea to provide activity to somatic cells of plants or animals by generating self-heating by uniformly penetrating far-infrared rays into elements of plant cultivation space or animal breeding space even with a small energy source by having a far-infrared radiation effect.

The technology of using self-heating of far-infrared rays has recently been widely used in the drying and sterilization process of fish cakes, vegetables, fish, etc. in the food field. This is a sterilization method that heats food using the far-infrared self-heat generated on the surface when far-infrared rays are irradiated to the solid object to be irradiated. After packaging, irradiating far-infrared rays on it is applied as a method to easily sterilize food by the heat generated on the food surface of the contents of the package. It can be said that this is a technology that uses the unique self-heating of far-infrared rays that can penetrate and heat. This application applies the far-infrared radiation effect to an agricultural hot air blower. Possibilities have been explored and studied.

The present invention makes a far-infrared emitter for inducing a far-infrared radiation atmosphere to have a hole in a porous structure when a hot air fan having a heating structure raises the internal temperature of a plastic house, greenhouse or livestock, and a carbon fiber heating wire is built-in in the hole. It has a purpose to provide an agricultural heater that is applied to supply far-infrared heating heat to the inside of plant cultivation or animal breeding facilities by forming a far-infrared radiant heat heating structure.

As a means for achieving the above object, the present invention provides an electric heater for agriculture that is applied to provide a far-infrared radiation effect while raising the temperature inside a plant cultivation or animal breeding facility, but as an embodiment of the technical idea of the present application , the bottom plate of the heater has a front vertical plate, an intermediate vertical plate, and a rear vertical plate, and a blower that blows air is installed between the middle vertical plate and the rear vertical plate, and far-infrared heating heat is applied between the front vertical plate and the middle vertical plate. The provided electric heater part is installed, and an air outlet is installed in the middle vertical plate and a hot air outlet of the front vertical plate is installed. is formed with an air inlet hole for introducing air into the blower, and the other side wall plate has a closed structure and is applied to form a main body forming a casing of a hot air blower by wrapping up to the front vertical plate and rear vertical plate of the bottom plate, the air outlet and the hot air A far-infrared heating element is provided between the outlets, and a plurality of holes in the range of 3 to 8 mm are formed inside the far-infrared heating element, and a carbon fiber heating wire is built in the hole to form a radiant heating structure, so that it can be used in plant cultivation or animal breeding facilities. It is an invention of a technical idea to achieve the object of the present application through an agricultural heater applied to supply far-infrared heating heat.

Schungit, loess, illite, and charcoal are used as raw materials used to obtain the far-infrared emitter here. Looking at the characteristics of these raw materials, the schungit mineral is a mineral produced in the town of Sunga in the Republic of Galilee, a Russian resort city. It is reported to contain more than 20 useful trace elements (minerals) useful for humans and living things as a mineral provided with a content of 30-40% and silicate content of 60-70%. It is reported that it forms fullerene and higher-order fullerene structures with small particles of ~30 nanometers, and functions as a purifying action for polluted water, neutralizing radiation, air purification, fertilizer effect in agriculture, and as a preservation sterilizer for plants and vegetables. is a functional substance.

In addition, loess emits a large amount of far-infrared rays, which are growth rays, and absorbs far-infrared rays that chemically and physically act on polymerized bond rings such as unsaturated fatty acids, peroxide fatty acids, lipid peroxides, and contaminated particles to separate double or triple bonds. In addition to the effect of increasing the temperature, it is used to utilize the physical properties of humidity control, thermal insulation, antibacterial and insect repellent, deodorization and air purification. As it can be applied to the present technology to enhance the effect and provide a warming effect, 30-40 parts by weight of schungit powder, 20-25 parts by weight of loess, 10-20 parts by weight of illite, charcoal while going through a process of undergoing numerous execution errors A mixture of 15 to 20 parts by weight of powder is obtained and mixed with mulberry pulp extract concentrate, which has saponin and phenol components and exhibits antibacterial effect, to obtain a far-infrared radiation composition. This includes the technical idea that is made to be formed and applied to provide a far-infrared radiation effect.

In addition, the carbon fiber applied to the agricultural hot air heater of the present application is applied with a carbon fiber heating wire that suppresses the emission of electromagnetic waves and provides a far-infrared radiation effect. Include the technical idea you want to make.

Therefore, the present application is a method of using an electric heater for agriculture to provide a far-infrared radiation effect while raising the temperature inside a plant cultivation or animal breeding facility. A blower for blowing air is installed between the vertical plate and the rear vertical plate, and an electric heater providing far-infrared heating is installed between the front vertical plate and the middle vertical plate. The hot air outlet is installed, and the upper cover plate is bent in a U-shape from the horizontal top plate to both sides to form a side wall plate, but an air inlet hole for introducing air to the blower is formed in one wall plate, and the other wall plate is sealed. It is applied to form a main body that forms the casing of a hot air blower by wrapping up to the front vertical plate and rear vertical plate of the bottom plate, making the body of an agricultural hot air heater easy and convenient. A number of holes in the range of 3 to 8 mm are formed in the hole, and a carbon fiber heating wire is embedded in the hole to form a far-infrared radiation heating structure. This method can be implemented in the field.

As the method of using the agricultural hot air blower of our company, the far infrared emitter mixes chungit raw stone powder, loess, illite, and charcoal powder with the mulberry pulp extract concentrate to make a mold for a gugong coal as an easy example, and then puts coal to make a spherical coal with a porous structure. As shown, it can be implemented as a method of using an agricultural hot air blower that is applied to increase the far-infrared radiation effect by making a hole in the range of 3 to 8 mm and embedding a carbon fiber heating wire that provides a far-infrared radiation effect in the hole.

Specific embodiments according to the technical idea of the present invention will be described in detail with drawings in the Specific Content column for carrying out the following invention.

The present invention configured as described above uses a hot air blower to increase the internal temperature of a plastic house, greenhouse or livestock while inducing a far-infrared radiation atmosphere. It provides the effect of providing an agricultural heater that supplies far-infrared heating heat to the inside of plant cultivation or animal breeding facilities by making a hole in the hole and having a carbon fiber heating wire embedded in the hole to form a far-infrared radiation heating structure.

In addition, the agricultural heater provided with the present technology has a structure that prevents moisture generated due to dew condensation on the inner surface of the ceiling from infiltrating into the electrical connection part, ballast or switch installed at the rear of the heater, so that safety is secured. There is also the effect of providing an electric heater.

In addition, the present invention has the effect of providing an agricultural electric heater having excellent assembly productivity by simply assembling a cover case that covers the upper portion and both sides of the main body.

1 is a perspective view showing the external appearance of an electric heater for agriculture according to the present invention.
Figure 2: An exploded perspective view for explaining the internal structure of the hot air heater of the present application.
Figure 3: An example of application of the electric heater unit applied to the hot air heater of the present application.
Figure 4: A partial side view of the electric heater in the hot air heater of the present application

Hereinafter, a preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings. However, it should be understood that the present invention may be embodied in many different forms and is not limited to the described embodiments.

1 is a perspective view showing the external appearance of an agricultural electric heater according to the present invention, FIG. 2 is an exploded perspective view with a cover case separated to explain the internal structure of the electric electric heater for agriculture according to the present invention, and FIG. 3 is a far infrared ray in the present invention. An example of one application of the electric heater unit 40 for providing heating heat is shown, and FIG. 4 is a partial side view showing the electric heater unit 40 in the electric heater for agriculture according to the present invention.

1 and 2, the bottom bottom plate 20 of the agricultural electric heater according to the present invention has a front vertical plate 21 and a rear vertical plate 23, and an intermediate vertical plate 22 therebetween. A blower 10 that partitions so that this is formed, sucks air from the side air inlet 11 between the intermediate vertical plate 22 and the rear vertical plate 23, and blows the air toward the air outlet 12 by a fan (10). ) is installed, and the bottom bottom plate 20 is preferably formed long in the front and rear directions so that the electric heater unit 40 and the blower 10 can be installed in the front and rear directions, and the front vertical plate 21 is It is preferable to be provided to stand vertically through bending at the front end of the bottom bottom plate 20 so as to facilitate the manufacture of the body, and the electric heater unit 40 is discharged from the upper part of the front vertical plate 21 . It shows that it can be applied so that the hot air outlet 33 is formed.

On the outer periphery of the hot air outlet 33, it is stably mounted to the front vertical plate 21 through the flange connection 71 of the front protrusion outlet pipe 70 to block moisture falling from the ceiling through fastening of bolts, etc. it is preferable

The front protruding discharge pipe 70 prevents moisture generated due to condensation on the inner surface of the ceiling from falling and penetrating into the electric heater unit 40 when the internal temperature of a greenhouse or a greenhouse or a livestock house using a warm air blower rises. It also plays a role

In addition, the rear vertical plate 23 is preferably erected vertically through bending at the rear end of the bottom bottom plate 20 so as to facilitate the manufacture of the main body, and the rear vertical plate 23 has an operation control unit 61 And it is preferable that the power connector 62 and the like are positioned rearward, and the operation switch 63 is exposed toward the outside of the rear vertical plate 23 .

The upper cover plate 50 that forms a housing by wrapping the front vertical plate 21, the middle vertical plate 22, and the rear vertical plate 23 of the bottom bottom plate 20 in a U-shape is a horizontal top plate 51. It is bent to both sides to form a side wall plate, but an air inlet hole 53 for introducing air to the blower 10 is formed in one wall plate 52 and the other wall plate 54 has a closed structure and the bottom bottom plate 20 ) wraps from the front vertical plate 21 to the rear vertical plate 23 to form the casing of the hot air fan, and forms the hot air fan body 60 through the fastening means, and the front protruding outlet (70) on the front of the hot air outlet (33) of the body ) shows that the electric heater 100 can be provided with a structure including.

The feature of the present application is that between the front vertical plate 21 and the intermediate vertical plate 22, a far-infrared radiator 30 and a carbon fiber heating wire 32 for providing far-infrared heating heat are built-in electric heater unit 40 is installed. The part applied to supply far-infrared heating heat to the warm air outlet 33 can be called a key feature.

In Fig. 3, an embodiment of the electric heater unit 40 for providing far-infrared heating in the present invention. In Fig. 3a, the outer housing constituting the electric heater unit 40 is a circular case 41a inside a circular far-infrared emitter (30) is formed to have a plurality of holes (31), a carbon fiber heating wire (32) is inserted into the hole (31), and is connected to the temperature controller (42) by an in connector (31a) and an out connector (31b) It shows a structure that can be heated, and in FIG. 3b , the outer housing constituting the electric heater unit 40 is formed so that the far-infrared emitter 30 has a plurality of holes 31 inside the square case 41b, and the holes 31 ) a carbon fiber heating wire 32 is inserted into the thermostat 42 to show a structure that can be heated by being connected to the in-connector 31a and out-connector 31b to the far-infrared rays as in the embodiment shown in FIG. An electric heater unit 40 having a built-in radiator 30 and a carbon fiber heating wire 32 is installed at the position of the electric heater unit 40 in FIG. 2 to supply far-infrared heating heat to the hot air outlet 33. Can be applied is shown.

In addition, in the carbon fiber heating wire 10 connected to the plurality of holes 31 formed in the far-infrared emitter 30 of the present application and installed, resistance is generated as current flows through the carbon fiber heating element inside the heating wire by the supplied power to generate heat. As the carbon fiber heating wire 10 that is generated and applied to emit far infrared rays from the carbon compound at the same time, it can be purchased and used, for example, in a non-co carbon fiber heating element, etc., than when a carbon fiber heating element without a far infrared radiation function is used In the carbon fiber heating wire 32, which is applied to emit far-infrared radiation at the same time to the far-infrared radiation effect of the far-infrared emitter 30, a part providing a more activated far-infrared radiation effect can be said to be a feature.

4 is a side view of the electric heater unit 40 in the electric hot air heater for agriculture according to the present invention. A diagram of an embodiment in which a circular far-infrared emitter 30 is formed to have a plurality of holes 31 inside the electric heater housing 41a, and the carbon fiber heating wire 32 is fitted into the holes 31 as shown. 4b shows a view of an embodiment applied to have the hole 31 of the far-infrared shielding body 30 of a square structure, and in FIG. 4c, one side wall plate that is the outer casing of the hot air heater provided by applying the present technology There are many far-infrared emitters 30 installed inside the electric heater housing 41 where the wind blown from the blower 10 without 52 is installed between the front vertical plate 21 and the intermediate vertical plate 22 . It is formed to have four holes 31 and is applied so that the carbon fiber heating wire 32 is inserted into the hole 31 to blow far-infrared heating heat in the direction of the arrow.

The inventor of the present invention undergoes numerous implementation errors, and through the composition comprising 30-40 parts by weight of chungit powder, 20-25 parts by weight of loess, 10-20 parts by weight of illite, and 15-20 parts by weight of charcoal powder, similar far-infrared radiation effect desired by the inventor Since it was possible to provide, a representative manufacturing example is described below.

Far-infrared emitter manufacturing example

After weighing 3.0 kg of shungit powder, 2.0 kg of loess, 1.0 kg of illite, and 2.0 kg of oak charcoal powder, 2.0 kg of mulberry pulp extract used in the Korean paper manufacturing process is mixed to obtain a far-infrared emitter raw material mixture, and a thin aluminum iron plate is obtained. Fold it to make a hollow cylinder with an inner diameter of 12 cm and a length of 18 cm, put a non-woven fabric on the inner wall, attach wire mesh wires to both ends of the cylinder, and use a wire mesh to arrange 9 iron bars with a diameter of 4.5 mm inside the cylinder. After removing the upper wire mesh, a small amount of the far-infrared emitter raw material mixture is put inside the cylindrical body and compacted to obtain a far-infrared emitter molded product having a hole in the porous structure, which can be applied and used in the agricultural hot air heater shown in FIG. there was.

* Far-infrared radiation characteristic test

The far-infrared radiation characteristic test for the far-infrared emitter composition obtained in the above Preparation Example was performed by using an M4500 FT-IR Spectrometer from Madac, USA, and the test results are shown in Table 1. The test was performed at 40°C, and it is indicated as a result of measurement compared to BLACK BODY using an FT-IR Spectrometer.

Sample name Emissivity (5~20㎛) Radiant energy (W/㎡㎛) note Preparation Example Raw material mixture 0.920 3.72×10 ² Center wavelength 9.3㎛

The technical idea of the present application was applied to obtain a small agricultural hot air heater shown in FIG. 1 as a hot air heater that provides far-infrared heating, and by using it, an experiment was conducted to confirm whether it exhibits a far-infrared radiation characteristic effect. As a comparative example, conventional heating using general electric heat The following experiment was conducted to find out the difference in the growth state between the hot air blowers that provide heat.

* Agricultural crop cultivation experiment

In the agricultural plastic house, this technology is applied to conduct a leaf area comparison experiment and sugar content comparison measurement experiment in the process of growing grape crops between a warm fan applied to supply far-infrared heating heat to the hot air outlet and a warm fan applied to provide only heating heat from a general electric heater and the results are shown in Tables 2 and 3.

division Far Infrared Heating Heating Fan General Electric Heater Warming Warmer Leaf area (㎠/6 weeks) 116.8 108.2 Live weight (unit: g/week) 5.82 5.42

The leaf area was measured photometrically using a leaf area meter (manufactured by Ga-5 Japan Tokyo Photo) to obtain an average value.

division Far Infrared Heating Heating Fan General Electric Heater Warming Warmer Sugar content (brix) 19.4. 16.7

For the measurement of sugar content, a sample was dropped on the prism surface using a sugar content meter (PAL-1, manufactured by Atago, Japan) and a device was used that completes the sugar content measurement within 3 seconds when the Start button is pressed.

As shown in Tables 2 and 3 above, as a result of comparing the hot air blower supplying far-infrared heating heat according to the present invention to that using the hot air heater supplying heating heat to a general electric heater, it was confirmed that the sugar content was significantly improved along with the growth development. can

As described above, in order to provide far-infrared heating heat as in the present application, rather than simply using the heating heat of the electric heating heat blowing method or the boiler heating method in the crop cultivation process using the conventional agricultural heater, the far-infrared emitter 30 and When the electric heater unit 40 with the carbon fiber heating wire 32 is built-in to form a far-infrared radiant heating structure, it is expected that sufficient economic feasibility can be secured in agricultural crop cultivation.

In the above, in order to explain the preferred embodiment of the present invention, it was intended to be described by presenting and explaining the newly disclosed part in the present application with drawings. Of course, it can be applied, so it is of course that it should be protected in terms of equality.

10: blower 11: air intake
12: air outlet 20: bottom bottom plate
21: front vertical plate 22: middle vertical plate
23: rear vertical plate 30: far-infrared emitter
31: hole 32: carbon fiber heating wire
33: hot air outlet 40: electric heater part
41: heater housing 50: upper cover plate
51: horizontal top plate 52: one side wall plate
53: air inlet hole 54: other side wall plate
60: hot air fan body 61: operation control unit
62: power connection part 63: operation switch
70: front protrusion discharge pipe 71: flange connection part
100: warm air

Claims (5)

In the agricultural electric heater provided to increase the temperature inside the plant cultivation or animal breeding facility,
The bottom bottom plate 20 of the hot air fan has an intermediate vertical plate 22 between the front vertical plate 21 and the rear vertical plate 23, and a side air intake between the intermediate vertical plate 22 and the rear vertical plate 23. A blower (10) that sucks air from (11) and blows air to the air outlet (12) by a fan (fan) is installed,
Between the front vertical plate 21 and the intermediate vertical plate 22, a far-infrared radiator 30 for providing far-infrared heating heat and an electric heater unit 40 having a carbon fiber heating wire 32 built-in are installed at the air outlet 12 of the blower. ) and installed between the hot air outlet 33 of the front vertical plate, the far-infrared emitter 30 is 30-40 parts by weight of Shungit raw stone powder, 20-25 parts by weight of loess, 10-20 parts by weight of Illite, 15 parts by weight of charcoal powder. - 20 parts by weight is mixed with the mulberry pulp extract concentrate to form a hole 31 with a porous structure in the range of 3 to 8 mm, and a carbon fiber heating wire 32 is built in the hole to form a far-infrared radiant heating structure, and far-infrared heating is applied to the hot air outlet (33) is applied to supply
The upper cover plate 50, which forms a housing by wrapping the front vertical plate 21, the middle vertical plate 22, and the rear vertical plate 23 of the bottom plate in a U-shape, is bent from the horizontal top plate 51 to both sides. The side wall plate is formed, but an air inlet hole 53 for introducing air into the blower 10 is formed in one side wall plate 52, and the other side wall plate 54 has a closed structure and the front surface of the bottom bottom plate 20 It wraps from the vertical plate 21 to the rear vertical plate 23 to form the casing of the hot air fan, and forms the hot air fan body 60 through the fastening means, including the front protruding outlet 70 on the front of the hot air outlet 33 of the body An agricultural hot air heater, characterized in that it is applied to supply far-infrared heating heat to the inside of plant cultivation or animal breeding facilities by forming an electric heater with a structure. delete According to claim 1,
The carbon fiber is a hot air heater for agriculture, characterized in that the carbon fiber heating wire 32 that suppresses the emission of electromagnetic waves and provides a far-infrared radiation effect is applied. In the method of using an electric heater for agriculture that also provides a far-infrared radiation effect while raising the temperature inside a plant cultivation or animal breeding facility,
The bottom bottom plate 20 of the hot air fan has an intermediate vertical plate 22 between the front vertical plate 21 and the rear vertical plate 23, and a side air intake between the intermediate vertical plate 22 and the rear vertical plate 23. A blower (10) that sucks air from (11) and blows air to the air outlet (12) by a fan (fan) is installed,
Between the front vertical plate 21 and the intermediate vertical plate 22, a far-infrared radiator 30 for providing far-infrared heating heat and an electric heater unit 40 having a carbon fiber heating wire 32 built-in are installed at the air outlet 12 of the blower. ) and installed between the hot air outlet 33 of the front vertical plate, the far-infrared emitter 30 is 30-40 parts by weight of Shungit raw stone powder, 20-25 parts by weight of loess, 10-20 parts by weight of Illite, 15 parts by weight of charcoal powder. ~20 parts by weight are mixed with the mulberry pulp extract concentrate to form a hole 31 in the range of 3 to 8 mm in a porous structure, and a carbon fiber heating wire 32 is built in the hole to form a far-infrared radiant heating structure, and the far-infrared heating heat is applied with warm air. It is applied to supply to the outlet (33)
The upper cover plate 50, which forms a housing by wrapping the front vertical plate 21, the middle vertical plate 22, and the rear vertical plate 23 of the bottom plate in a U-shape, is bent from the horizontal top plate 51 to both sides. The side wall plate is formed, but an air inlet hole 53 for introducing air into the blower 10 is formed in one side wall plate 52, and the other side wall plate 54 has a closed structure and the front surface of the bottom bottom plate 20 It wraps from the vertical plate 21 to the rear vertical plate 23 to form the casing of the hot air fan, and forms the hot air fan body 60 through the fastening means, including the front protruding outlet 70 on the front of the hot air outlet 33 of the body A method of using an agricultural hot air fan, characterized in that it is applied to supply far-infrared heating heat to the inside of a plant cultivation or animal breeding facility by forming an electric heater with a structure. delete

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