KR101280977B1 - Environment-friendly stable - Google Patents

Abstract

The present invention is to suppress the growth of bacteria and viruses by heating the bottom of the barn, to detect the degree of contamination inside the barn can automatically purify the air, it is possible to reuse the heat energy stored in the floor using the heat storage medium, The present invention relates to an environment-friendly sanitary barn that can increase energy efficiency by using biogas generated from wind, solar light, and livestock excrement. According to an aspect of the present invention, a barn main body having a hot water pipe installed therein and a barn main body It is installed on one side of the heat storage tank unit for supplying hot water heated by the hot water pipe, and is operated by the ozone concentration detection sensor installed in the inside of the house body, characterized in that it comprises an automatic ventilation unit for ventilating the air inside the house body Environmentally friendly sanitation houses are provided.

Description

Green Sanitation Barn {ENVIRONMENT-FRIENDLY STABLE}

The present invention relates to a barn, and more particularly, to an environment-friendly sanitary barn that can maintain the bottom of the barn image temperature and sanitary, and can save energy by using wind and solar light.

In general, livestock farms, such as cattle, chickens, and pigs, are installed and operated on the cement floor. Currently, the barns used in Korea show little cold protection for livestock farming. It is operating formally.

In general, the bottom of the kennel is jumbled with animal waste, and the bottom of the cement is infiltrated with water by many viruses and bacteria due to damage. In addition, in winter, freezing due to livestock urine not only prolongs the survival of bacteria, but also freezes due to urine penetrating the cement surface.

As the cracks and breakage of the barn cement occur, viruses and bacteria hide in the cement breakage area for a long time, and when the growth temperature is reached, the disease is spread and spread everywhere by the wind as a malignant virus such as foot and mouth disease.

The prior art for preventing freezing by heating the floor of the barn described above is disclosed in Korean Utility Model Publication No. 20-0214152 (2000.12.07) "Vinyl house and barn heating apparatus using heat transfer pipe and heat medium oil". . The prior art is to fill the heat transfer pipe with heat transfer oil to form a heat transfer pipe, and then installed on the floor of the vinyl house and barn or installed in a slightly elevated space from the floor, both ends of the heat transfer pipe of a certain level It is connected to the expansion tank supplied with heat medium oil, and both ends of the heating wire are connected to the power supply controller, and the temperature sensor connected to the controller is installed in the room of the vinyl house and the house. It is characterized by maintaining a constant temperature at a temperature.

The prior art has the advantage of preventing the floor from freezing by heating the bottom of the barn, there is a disadvantage that the energy efficiency is low because it can not clean the contaminated air in the barn and does not use natural energy.

The present invention has been made to solve the problems described above, one embodiment of the present invention to suppress the growth of bacteria and viruses by heating the bottom of the barn, to detect the degree of contamination inside the barn automatically purify the air It is possible to reuse heat energy stored on the floor by using heat storage medium, and it is related to eco-friendly sanitary barn that can increase energy efficiency by using biogas generated from wind, solar light, and animal waste.

According to a preferred embodiment of the present invention, a barn main body having hot water pipes installed at the bottom, a heat storage tank part installed at one side of the barn main body and supplying hot water heated by hot water pipes, and ozone concentration detection installed inside the barn main body It provides an environmentally friendly sanitary barn comprising an automatic ventilation unit which is operated by a sensor to ventilate the air inside the barn main body.

According to an embodiment of the present invention as described above to suppress the growth of bacteria and viruses by heating the bottom of the barn, it is possible to automatically purify the air by detecting the degree of contamination inside the barn, using the heat storage medium to the floor Regenerated thermal energy can be reused, and an environmentally friendly sanitary barn can be provided to increase energy efficiency using wind and solar light.

1 is a perspective view showing an environment-friendly sanitary barn according to an embodiment of the present invention,
2 is a cross-sectional view showing the bottom of the barn body employed in the environmentally friendly sanitary barn shown in FIG.
3 is a cross-sectional view showing a heat storage tank unit employed in the environment-friendly sanitary barn shown in FIG.
4 is a cross-sectional view showing a solar heat collecting unit employed in the environmentally friendly sanitation barn shown in FIG.
5 is a cross-sectional view taken along line VV of FIG. 4;
6 is a cross-sectional view showing a modified embodiment of the heat absorption coating film employed in the heat collecting unit shown in FIG.
7 is a cross-sectional view showing a modified embodiment of the heat collecting part shown in FIG. 5;
FIG. 8 is a block diagram illustrating an operating state of the wind power generation unit employed in the environment-friendly sanitary barn shown in FIG. 1.

1 is a perspective view showing an eco-friendly hygienic barn according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing the bottom of the barn body employed in the eco-friendly hygienic barn shown in Figure 1, Figure 3 is 4 is a cross-sectional view illustrating a heat storage tank unit employed in the eco-friendly hygienic barn shown in FIG. 4, and FIG. 4 is a cross-sectional view of a solar heat collecting unit adopted in the eco-friendly sanitary barn shown in FIG. 1, and FIG. 6 is a cross-sectional view showing a modified embodiment of the heat absorption coating film employed in the heat collecting portion shown in FIG. 4, FIG. 7 is a cross-sectional view showing a modified embodiment of the heat collecting portion shown in FIG. 8 is a block diagram showing an operating state of the wind power generation unit employed in the environment-friendly sanitary barn shown in FIG.

Eco-friendly sanitary barn 1 according to a preferred embodiment of the present invention is the barn main body 10, the heat storage tank unit 20, automatic ventilation unit 30, solar heat collecting unit 40, wind power generation unit 50 Include.

The barn main body 10 is sealed by a wall as shown in Figure 1 to block the bacterial infection path by the wind, the bottom of the hot water pipe (shown in Figure 2) to prevent the floor from freezing ( 11) is installed. In addition, as shown in FIG. 2, a heat storage medium 12 formed of minerals such as high density gravel, artificial silica, or other heat storage material is installed in the bottom of the livestock main body 10. The heat storage medium 12 accumulates heat generated in the hot water pipe 11 during the day, and the accumulated heat is discharged at night to serve to heat the bottom of the house.

As shown in FIG. 2, the outer circumferential surface of the barn main body 10 is preferably insulated by a heat insulating member 13 such as styrofoam, and the upper layer of the bottom insulated by the heat insulating member 13 is shown in FIG. 2. As the finish layer 14 is installed. The finishing layer 14 may be formed by mixing stone or stone and concrete, or may use tiles such as stone tiles having low heat absorption rate, and natural jade powder having antibacterial and antiviral functions due to far-infrared rays. Silver nanoparticle powder or the like.

The heat storage tank unit 20 supplies hot water of high temperature to the hot water pipe 11 and supplies water for livestock drinking. As shown in FIG. 3, a fluid such as water is accommodated inside the cold water inlet 21a. And a water tank 21 in which the hot water discharge port 21b is installed, a heater 22 installed inside the water tank 21 to heat water, and a tank portion heat storage installed in the water tank 21. It is installed to be wound around the medium 23 and the tank heat storage medium 23 in the interior of the water tank 21 and connected to the hot water pipe 11 to form a cycle and discharged through the hot water pipe 11. It consists of a heat exchange coil 24 which makes the low temperature fluid to be a high temperature fluid by heat exchange in the water tank 21.

Between the pipes of the heat exchange coil 24 connected to the hot water pipe 11, a circulation pump P is installed so that the fluid flowing in the hot water pipe 11 flows smoothly.

As shown in FIG. 1, the automatic ventilation unit 30 includes one or more ventilation fans 31 installed in the livestock house body 10 and an ozone concentration installed in the livestock house body 10 to detect the degree of contamination therein. It consists of a detection sensor 32, the ozone concentration detection sensor 32 transmits an electrical signal to the control unit when the concentration of ozone is above a certain value, the control unit operates the ventilation fan 31 by the signal in the internal Allow air to escape. On the other hand, it is preferable to install an auxiliary battery (not shown) in the automatic ventilation unit 30 so that the internal air containing ozone is normally discharged to the outside even during a power failure.

As shown in FIG. 1, the solar heat collecting unit 40 is preferably installed on the roof of the livestock housing 10 to supply hot water pipes 11 or hot water for livestock separately from the heat storage tank unit 20. 4, a heat storage tank 41 in which a fluid inlet 41a and a fluid outlet 41b serving as an outlet of the fluid used as hot water for livestock are formed, and installed inside the heat storage tank 41. A heat exchanger 42 connected to the hot water pipe 11 of the main body 10 and a heat collecting part 43 installed under the heat storage tank 41 to heat the fluid contained in the heat storage tank 41 by solar heat collected. It consists of.

As shown in FIG. 4, the heat collecting part 43 is a heat collecting pipe 43a that is vertically installed on the lower side of the heat storage tank 41, and is installed below the heat collecting pipe 43a to provide the heat collecting pipe 43a. It is composed of a heat insulating layer 43b for storing and radiating the solar heat projected to the bottom to improve the thermal efficiency of the heat collecting tube 43a, and a heat absorption coating film 43c provided above the heat insulating layer 43b.

When the heat collecting pipes 43a are installed to form two upper and lower layers as shown in FIG. 5, the upper heat pipes 43a are arranged in a plurality of rows spaced apart from each other by a predetermined interval on the same plane, and the lower heat collecting pipes 43a ) Are arranged in multiple rows so as to be arranged in a space between the upper collecting pipes 43a on the same plane under the upper collecting pipe 43a of the upper layer, and the upper and the lower collecting pipes 43a and the lower collecting pipes 43a in the left and right directions. It is desirable to let) alternately. In this case, since solar heat introduced into the spaced space between the upper heat collecting tubes 43a may be collected again in the lower heat collecting tubes 43a, the heat collecting efficiency may be improved.

The heat insulation layer 43b is preferably formed of a material having excellent heat insulating properties such as styrofoam and urethane resin.

The heat absorption coating layer 43c is formed with a curved surface 43ca as shown in FIG. 6 so that solar heat that is not absorbed by the surface of the heat insulating layer 43b and reflected in the heat collecting tube 43a may be reflected. The curved surface 43ca may be formed in a cross-sectional shape corresponding to the design conditions, such as the shape of the heat collecting tube 43a and the solar reflection direction, and the triangular shape shown in (b) of FIG. It may be formed in a cross-sectional shape. The shape may be changed into various shapes such as parabolic or trapezoidal according to design conditions such as reflection angle.

The heat collecting part 43 may be modified as shown in FIG. 7. Specifically, as shown in FIG. 7, the shape of the upper heat collecting tube 43a may be arranged to form a cross-sectional curve L. In this case, the lower layer may correspond to the shape of the upper heat collecting tube 43a. The arrangement of the heat collecting pipe 43a is also arranged to form a cross-sectional curve, and the upper surface of the heat insulating layer 43b is preferably formed to form a curved cross-section 43ca so as to correspond to the arrangement of the heat collecting pipe 43a. Do.

In this case, the curved shape in which the upper heat collecting tube 43a is arranged and the curved shape in which the lower collecting pipe 43a is arranged may be different from each other. That is, the upper collecting pipe 43a may be arranged flat and the lower collecting pipe 43a may be concave down, and the upper collecting pipe 43a may be convex upward and the lower collecting pipe 43a. ) May be arranged flat or concave downward, and such an arrangement may be variously selected according to design conditions.

In addition, it is preferable that both sides of the heat insulation layer 43b are formed so as to surround both outer sides of the heat collecting pipe 43a arranged to protrude slightly upwards, and this form is also applicable to the heat insulation layer 43b in the above-described embodiment. Do.

Wind power generation unit 50 is preferably installed on the upper side of the livestock main body 10, the rotary body 51 is rotated by the wind, and is connected to the lower portion of the rotary body 51 to rotate to generate power The generator 52 comprising a rotor and a stator disposed close to the rotor, a rectifier 53 for converting alternating current generated by the generator 52 into direct current, and the power rectified by the rectifier 53. A power storage unit 54 for storing the power, an inverter 55 for converting the direct current supplied from the power storage unit 54 into alternating current, and a distribution unit for distributing the alternating current converted from the inverter 55 to each electric facility ( 56 and a wind control unit 57 electrically connected to the distribution unit 56 to control the power supply from the distribution unit 56 to each electric facility.

Hereinafter, a state of use of the environment-friendly sanitary barn 1 according to a preferred embodiment of the present invention with reference to the above-described drawings.

The preferred embodiment of the present invention can form a wall in the barn main body 10 to block the path of bacterial infection by the wind, and the bottom of the barn main body 10 is heated by using a hot water pipe (11). By keeping the room temperature visually, freezing can be prevented, which can help control diseases such as foot and mouth disease caused by bacteria and viruses. In addition, it is possible to prevent the heat loss by insulating the bottom of the livestock main body 10 with the heat insulating member 13, the antimicrobial and antiviral function is formed by forming the finishing layer 14 of a material having a low heat absorption rate or far-infrared radiation is emitted. It can prevent various diseases. Furthermore, the air inside can be purified using an ozone concentration detection sensor 32 installed inside the livestock housing 10, and the bottom of the livestock farm using the solar heat collecting unit 40 and the wind power generation unit 50. It can be used to heat or heat the livestock hot water has the advantage that the energy efficiency is improved. On the other hand, the preferred embodiment of the present invention can prevent the sliding of the livestock by forming an uneven portion on the upper surface of the finishing layer 14 of the livestock main body 10, when providing hot water for the livestock to add diarrhea-preventing drugs and the like. Can be. Although not shown, energy efficiency may be improved by recovering and reusing biogas such as methane or hydrogen from livestock manure using known techniques.

As the present invention can be variously modified by those skilled in the art without departing from the scope of the claims, the technical protection scope of the present invention is not limited to the specific preferred embodiments described above. Do not.

1: eco-friendly sanitation barn 10: barn body
11: hot water pipe 12: heat storage medium
13: heat insulation member 14: finishing layer
20: heat storage tank portion 21: water tank
21a: cold water inlet 21b: hot water outlet
22: heater 23: tank heat storage medium
24: heat exchange coil 30: automatic ventilation
31: ventilation fan 32: ozone concentration detection sensor
40: solar heat collecting unit 41: heat storage tank
41a: fluid inlet 41b: fluid outlet
42: heat exchanger 43: collector
43a: heat collecting pipe 43b: heat insulating layer
43c: heat absorption coating layer 43ca: curved surface
50: wind power generation unit 51: rotating body
52: power generation unit 53: rectification unit
54 power storage unit 55 inverter
56: distribution unit 57: wind power control unit
P: circulating pump

Claims (6)

A barn body with hot water pipes built into the floor;
A heat storage tank unit installed at one side of the livestock main body to supply hot water heated by the hot water pipe; And
It is operated by the ozone concentration detection sensor installed inside the livestock house body includes an automatic ventilation unit for ventilating the air inside the livestock house body,
It is installed on one side of the livestock main body and includes a solar heat collector for heating the cold water by the concentrated solar light to be supplied to the hot water pipe,
The solar heat collecting unit
A heat storage tank formed with a fluid inlet and a fluid outlet as a fluid inlet and a water outlet used for livestock water, a heat exchanger installed inside the heat storage tank and connected to a hot water pipe of the livestock house, and solar heat installed and collected below the heat storage tank It includes a heat collecting portion for heating the fluid contained in the heat storage tank by,
The heat collecting part is a heat collecting tube installed vertically on the lower side of the heat storage tank, a heat insulating layer installed on the lower side of the heat collecting tube and storing and radiating solar heat projected to the lower part of the heat collecting tube to improve thermal efficiency of the heat collecting tube, and the heat insulating layer It consists of a heat absorption coating film installed on the upper side of,
Eco-friendly hygiene barn, characterized in that the heat-absorbing coating film is formed so that the curved surface is not absorbed from the surface of the heat insulating layer is reflected in the heat collector tube direction. delete The method of claim 1,
Eco-friendly hygiene barn, characterized in that it is installed on one side of the barn further comprises a wind power generation unit for generating power by the wind power supply to the heat storage tank.
The method of claim 1,
Eco-friendly hygienic barn, characterized in that the heat storage medium is built in the bottom of the barn so that the heat of the floor heated by the hot water pipe is stored on the floor.
The method of claim 1,
Eco-friendly hygienic barn, characterized in that the bottom of the barn body is finished with a heat insulating member.
The method of claim 5, wherein
Eco-friendly hygiene barn, characterized in that the upper layer of the heat insulating member has a heat absorption rate or a finishing layer having an antibacterial function.

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