KR20160000715A - Structure of cattle shed for breeding and birthing livestock - Google Patents

Abstract

The present invention relates to a stable structure for breeding and delivering livestock, and more specifically, to a stable structure for breeding and delivering livestock that includes: a stable body (100) including a bottom surface (110), a sidewall surface (120) and a ceiling surface (130); a far-infrared heater (10) mounted in the stable body (100); and a bottom member (11) deposited on the bottom surface of the stable body (100), thereby preparing optimal internal environments for breeding and delivering livestock such as deodorization, antibiosis, heat storage, insulation, heating, and maintaining a constant temperature with respect to the inside and bottom of the stable to reduce livestock mortality rate and stable operation costs such as heating costs.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a structure for housing a cattle,

The present invention not only reduces the mortality rate of livestock by implementing domestic environment optimized for livestock breeding and labor such as deodorization, antibacterial, heat storage, insulation, heating and constant temperature maintenance on the inside and bottom of the house, To the housing structure for livestock breeding and delivery.

Generally, cages are areas for raising cattle, chickens, pigs, or livestock or feeding young livestock.

On the other hand, it is very difficult to maintain the temperature inside the house constantly because the temperature change of the four seasons is severe in Korea and the day and night temperature difference is large. In addition, most of the domestic animals currently used in the country have almost no heating function for livestock, but they are operated formally using the conventional hot air fan.

That is, in most of the houses currently used for heating and maintaining the temperature inside the house during the winter season, the house is closed and the heating effect is maintained by using a hot air fan, but the increase of carbon dioxide and odor and various bacteria occur in the closed house This not only increases the mortality rate of various livestock but also has an adverse effect on the house operator. Also, the simple heating method through the hot air fan has a very low heating efficiency compared to the excessive heating cost, There is a problem that can not be done.

Particularly, the simple heating system through the hot air fan has a problem of causing livestock diseases such as multiple circulation due to the temperature difference between the inside and the bottom of the house, thereby deteriorating the quality of the livestock and increasing the mortality rate.

Therefore, in order to solve the above-mentioned problems, in Patent Document 1, the heat transfer pipe having the heat transfer means is filled with the thermal oil to constitute the insulating pipe, and the insulating pipe is installed on the floor of the housing, We tried to achieve floor heating effect in addition to internal heating by the hot air fan.

However, the above-described conventional technology has a problem that an operation cost (facility installation cost, heat medium oil, power supply cost, etc.) for implementing the floor heating effect is excessively consumed and the floor heating effect is extremely small.

In addition, since the interior of the housing except for the floor uses the hot air fan for heating, the above-mentioned various problems such as generation of odor and bacteria, increase of mortality rate, excessive heating cost and difficulty in maintaining a constant temperature inside the house still remain.

Patent Document 1: Korean Utility Model Registration No. 20-0214152 entitled "Greenhouse and House Heating System Using Heat Transfer Tube and Heat Transfer Oil"

In order to solve the above-mentioned problems, the present invention provides a "far-infrared heating device" which is preliminarily registered by the applicant of the present invention (registration number: 10-0907284) and installed inside the house, By coating a functional coating material having a heat accumulation function and an antibacterial and deodorizing function, which has been registered and registered with the applicant of the present invention (registration number: 10-10-0990450) on a steel sheet having a heat insulating material made of fibers inserted therein, The present invention relates not only to maintaining the temperature inside the housing as a whole but also to reduce the mortality rate of the domestic livestock extremely, and also to the effect of the above-mentioned storage and deodorization, The present invention provides a livestock breeding and housing structure capable of extremely reducing a heating cost by a heat insulating effect.

Further, by laminating the support frame, the heat insulating material, and the ondol material (stone, ceramics, tiles, etc.) obliquely on the bottom surface of the above-mentioned housing and providing a grating on the horizontal plane, extra power and cost are consumed in the floor heating The floor heating can be effectively implemented by storing the heat generated from the far infrared ray heating device through the above-mentioned on-off member by effectively shielding the cold air coming from the bottom of the house by the above-mentioned heat insulating material, Another object of the present invention is to provide a livestock breeding and housing structure capable of easily collecting and removing excrements of various kinds of livestock by grating.

In addition, not only the side surface of the housing can be freely opened by the plurality of folding type doors, but also a separate air vent operated by the timer is installed on the ceiling of the housing, and a temperature sensor, a humidity sensor, Another object of the present invention is to provide a livestock breeding and housing structure capable of realizing an internal environment optimized for starch breeding and delivery, a comfortable air flow, and ease of cleaning.

The present invention relates to a folding type folding type folding type folding type folding type folding type folding type folding type folding type folding type folding type folding type folding type folding type folding type folding type folding type folding type To provide a livestock breeding and housing structure capable of improving the safety of the livestock by making it possible to grasp the state of the livestock at any time.

The present invention relates to a housing structure for livestock breeding and delivery,

A housing body 100 comprising a bottom surface 110, a wall surface 120 and a ceiling surface 130;

A far-infrared heating device 10 installed inside the housing main body 100; And

And a bottom member (11) stacked on the bottom surface (110) of the housing body (100).

The wall surface 120 of the housing main body 100 is formed such that a heat insulating material 12a is inserted between a pair of steel plates 12 and 12 ' It is preferable that the functional coating material 12b is coated on the iron plate 12 on the inner space side of the substrate 100.

In addition, it is preferable that the wall surface 120 of the housing main body 100 is provided with a plurality of folding type doors D and an inspection window W.

It is preferable that the bottom surface 110 of the housing main body 100 is provided with a wheel H on the outside thereof.

In addition, it is preferable that a ventilation opening 13 operated by a timer is installed in the ceiling surface 130 of the housing main body 100.

In addition, it is preferable that the housing main body 100 is provided with a temperature sensor and a humidity sensor therein.

The far infrared ray heating apparatus 10 includes a far infrared ray heat radiating plate 20 having a relatively large area as compared with the rod heater 1 and has the far infrared ray radiating plate 20, The far infrared ray radiating plate 20 has a front surface 21 coated with a far infrared radiation coating material and a rear surface 22 formed with a heater coupling channel 26 protruding in the longitudinal direction to insert the rod heater 1 And a far infrared ray coating layer is formed on the front surface 21 so as to emit a far infrared ray and the far infrared ray radiating plate 20 has insertion grooves 29 formed on both sides of the rear surface 22, A horizontal portion 32 formed in the longitudinal direction of the far infrared ray heat dissipating plate 20 so as to correspond to the longitudinal direction of the far infrared ray radiating plate 20 and bent at both ends of the horizontal portion 32, In the insertion groove 29, And a bent portion 34 in which a hook 35 is formed to be caught in the hooking jaw 28. The inner box 30 supporting the far infrared ray heat radiating plate 20 is coupled to the far infrared ray radiating plate 20 in a longitudinal direction, .

The bottom member 11 includes a support frame 11a; A heat insulating material 11b which is obliquely stacked on the upper surface of the support frame 11a; An onhole member (11c) stacked on an upper surface of the heat insulating material (11b) obliquely; And a grating 11d which is horizontally stacked on the upper surface of the ondol member 11c.

On the other hand, the functional coating material (12b) is composed of 35 to 60% by weight of functional silica sand, 15 to 30% by weight of acrylic emulsion, 8 to 12% by weight of calcium carbonate, 0.5 to 1.0% by weight of defoamer, 1.0 to 1.5% Wherein the functional silica comprises 70 to 80% by weight of silicon dioxide, 10 to 15% by weight of biotite, 10 to 15% by weight of zeolite, 1.5 to 2.0% by weight of a thickener, 1.0 to 1.5% .

The present invention is characterized in that a "far-infrared heating apparatus ", which is already filed by the applicant of the present invention and registered (Registration No. 10-0907284), is installed inside the housing and the wall surface of the housing is covered with a heat- By coating "Functional coating material having heat accumulation function and antibacterial and deodorizing function", which was filed by the applicant of the present invention and registered (Registration No.: 10-10-0990450), deodorization and antibacterial effect by far- In addition to the excellent heat storage, insulation, dew condensation prevention and heating effect, the temperature inside the housing is kept constant as a whole, thereby extremely reducing the mortality of the domestic livestock and also greatly reducing the heating cost by the above- (Stones, ceramics, tiles, etc.) on the bottom surface of the housing as described above, And a grating on the horizontal plane is provided so that the cold air coming from the bottom of the housing is blocked by the heat insulating material without consuming any additional electric power or cost in the floor heating and is generated in the far- The floor heating can be efficiently implemented by heat accumulating and heating the heat of the livestock, and the sloping structure and the grating of the bottom surface can easily collect and remove the excrements of various kinds of livestock, And a temperature sensor and a humidity sensor are installed in the inside of the housing, it is possible to provide an indoor environment optimized for livestock breeding and delivery and a pleasant environment Air flow and ease of cleaning, etc., and The door can be selectively rotated or stopped by a locking device on the bottom surface of the door so as to improve the movement and usability of the housing and to provide a check window on the folding type door so that the inside state of the housing and the state of the domestic animal So that the safety of livestock can be improved.

1 is a cross-sectional view showing a housing structure for livestock breeding and delivery according to the present invention
2 is an exploded perspective view showing a housing structure for livestock breeding and delivery according to the present invention.
3 is a cross-sectional view showing a wall surface structure according to the present invention
4 is a sectional view showing a far-infrared heating apparatus according to the present invention
5 is a cross-sectional view showing the radiation pattern of the far-infrared heating apparatus according to the present invention
FIG. 6 is a schematic view showing an interlocking structure of a sensor and a timer according to the present invention;
7 is a cross-sectional view of a bottom member according to the present invention

In order to achieve the above-mentioned effects, the present invention relates to a housing structure for livestock breeding and delivery, and only a part necessary for understanding the technical structure of the present invention will be described, and the description of other parts is omitted so as not to disturb the gist of the present invention. .

Hereinafter, the construction of the housing structure for livestock breeding and delivery according to the present invention will be described in detail.

FIG. 1 is a sectional view showing a housing structure for livestock breeding and delivery according to the present invention, FIG. 2 is a perspective view showing the structure of a housing body according to the present invention, FIG. 3 is a sectional view showing a wall surface structure according to the present invention, 4 is a cross-sectional view showing a far-infrared heating apparatus according to the present invention, FIG. 5 is a sectional view showing a radiation pattern of a far-infrared heating apparatus according to the present invention, FIG. 6 is a schematic view showing an interlocking structure of a sensor and a timer according to the present invention, 7 is a cross-sectional view showing a bottom member according to the present invention.

1 and 2, the housing structure for housing and delivering livestock according to the present invention includes a housing body 100, a far-infrared heating device 10, and a bottom member 11. As shown in FIG.

1 and 2, the housing body 100 includes a bottom surface 110, a wall surface 120, and a ceiling surface 130 as a structure for forming a space for raising and delivering livestock , And a plurality of folding type doors (D) and an inspection window (W) are provided on the wall surface (120).

Accordingly, the plurality of folding type doors D can be selectively opened to perform ventilation or cleaning. The inside of the housing and the state of the livestock can be grasped from time to time through the inspection window W and the lighting device L do.

3, the wall surface 120 of the housing main body 100 is formed by inserting a heat insulating material 12a such as glass fiber between a pair of steel plates 12 and 12 ' A functional paint 12b is coated on the inner space side iron plate 12 of the housing body 100 among the iron plates 12 and 12 '

The term 'functional' as used herein refers to a function capable of maintaining the temperature inside the housing as a whole with the effect of deodorization and antibacterial effect by far-infrared rays, anion irradiation, and excellent heat storage, insulation, Function.

Therefore, in order to enable the functional coating material 12b according to the present invention to have the above-described functionalities, it is necessary to use a heat storage function and antimicrobial agent (hereinafter referred to as " Functional coating material having a deodorizing function ", and specifically, 35 to 60% by weight of functional silica sand, 15 to 30% by weight of acrylic emulsion, 8 to 12% by weight of calcium carbonate, 0.5 to 1.0% by weight of defoamer, Wherein the functional silica comprises 70 to 80% by weight of silicon dioxide, 10 to 15% by weight of biotite, 10 to 20% by weight of zeolite, 0.1 to 1.5% by weight of a thickener, 1.5 to 2.0% And a functional paint 12b composed of 10 to 15% is applied.

The term 'functional silica sand' used in the present invention refers to 'silica sand that implements a heat storage function' in which biotite and zeolite, which are functional agents, are mixed with silicon dioxide, which is a main component of sand, 10 to 15% by weight of biotite, 10 to 15% by weight of zeolite, and the silicon dioxide, biotite and zeolite are put into a melting furnace and silicon dioxide, biotite and zeolite are put into a melting furnace and melted at a high temperature of 1400 to 1500 ° C. Followed by rapid cooling to room temperature, drying the rapidly cooled mixture, and pulverizing it into particles having a size of 70 to 200 mu m. On the other hand, the silicon dioxide is used in an amount of 70 to 80% by weight based on the total weight of the functional silica-based composition. If the content is less than the above range, the effect of heat insulation and heat storage can not be sufficiently exhibited. There arises a problem that the abrasion resistance becomes poor. In addition, when the particle size is less than 70 μm, there is a fear that the function of insulating and storing heat of the functional silica sand is not realized properly. If the particle size exceeds 200 μm, the functional silica sand has excellent heat insulation and heat storage function A non-uniform coating film may be formed to deteriorate the smoothness of the coating film. The biotite stone contained in the functional silica sand of the present invention is a mineral belonging to monoclinic having a crystal structure such as mica and not only improves the barrier property of heat but also emits far infrared rays and adsorbs harmful gas such as formaldehyde. 10 to 15% by weight based on the total weight of the functional silicate composition is used. When the content is less than the above range, the effect of far-infrared radiation and / There is a problem that the deodorizing effect can not be sufficiently exhibited. If the content exceeds the above range, the adhesive strength is lowered and the strength of the coating film is lowered. The zeolite contained in the functional silica sand has a property of retaining water in the lattice and particle gaps. When heat is supplied from the outside, not only the constituent materials themselves but also the latent heat effect due to the heat absorption and heat storage ability There is a problem that the effect of adiabatic and thermal storage is not sufficiently exhibited when the content is below the above range, and when the content exceeds the above range, the manufacturing cost is increased.

The acrylic emulsion to be applied to the functional coating material 12b according to the present invention is added as a binder resin and is used in an amount of 15 to 30% by weight based on the weight of the entire functional coating composition. When the content is less than the above range, If the content is out of the above range, the hiding power is lowered and the drying is not smooth.

The calcium carbonate used as the functional coating material 12b according to the present invention is added as a filler and is used in an amount of 8 to 12% by weight based on the weight of the entire functional coating composition. If the content exceeds the above range, the manufacturing cost will increase.

The antifoaming agent applied to the functional coating material 12b according to the present invention is added in order to suppress the generation of bubbles and to keep the surface smooth while applying the coating material. The antifoaming agent is used in an amount of 0.5 to 1.0% by weight based on the weight of the entire functional coating material If the amount is less than the above range, it is difficult to inhibit the formation of bubbles, and if the content is out of the above range, it is not economical.

The dispersant to be applied to the functional paint (12b) according to the present invention is added in order to uniformly disperse the mixed additive in the process of manufacturing the paint, If the amount is less than the above range, the viscosity of the paint increases due to agglomeration of the additive, and when the content exceeds the above range, the water resistance, adhesion and abrasion resistance become poor.

The anti-settling agent applied to the functional coating material 12b according to the present invention is added in order to easily mix the added additives and keep the state as a proper distribution. The anti-settling agent is used in an amount of 1.5 to 2.0 wt% If the amount of the additive is less than the above range, sedimentation of the additive material occurs. When the content of the additive exceeds the above range, the viscosity of the additive material is increased, resulting in poor water resistance and adhesion.

The thickening agent applied to the functional coating material 12b according to the present invention is added to form an appropriate viscosity for application of the coating material and is used in an amount of 1.0 to 1.5% by weight based on the total weight of the functional coating material composition, There is a problem in operation failure, and when the content exceeds the above range, the viscosity becomes excessively high.

Accordingly, the present invention is characterized in that deodorization and antimicrobial effects of far-infrared rays, anion irradiation and anti-bacterial effect are exerted by the wall surface 120 composed of the iron plates 12 and 12 ', the heat insulating material 12a and the functional paint 12b, , Condensation prevention and heating effect, and the function of keeping the temperature inside the housing constant as a whole.

1 and 2, the bottom surface 110 of the housing main body 100 is provided with a wheel H on the outside thereof so as to facilitate the movement of the housing, Can be used more effectively when it is used for the delivery of the milk powder rather than the kennel.

Meanwhile, the wheel H may further include a conventional locking device to selectively rotate or stop the wheel H, thereby improving stability.

1, 2 and 6, the ceiling 130 of the housing main body 100 is provided with a ventilation opening 13 operated by a timer, so that the openable folding type door D, 6, a conventional temperature sensor and a humidity sensor interlocking with the far-infrared heating apparatus 10 to be described later are provided in the housing body 100, And an internal environment optimized for delivery, comfortable air flow, and ease of cleaning.

The far infrared ray heating apparatus 10 is capable of heating the interior of the housing together with the functional paint 12b together with the deodorizing and antibacterial effect of the far infrared rays and anion radiation to the housing and the excellent heat storage, The present invention relates to a heating device installed to minimize the mortality of a domestic animal and to reduce the heating cost by the heat storage and insulation effect as described above. (Registration number: No. 10-0907284) received "far-infrared heating device" is applied.

4 and 5, the far-infrared heating apparatus 10 includes a front surface 21 coated with a far-infrared radiation coating material, and a heater coupling protruding in the longitudinal direction so as to insert the rod heater 1, Infrared heat radiating plate 20 having a rear surface 22 on which a channel 26 is formed is applied and the far infrared ray radiating plate 20 is supported by the inner casing 30. A reflection plate 60 Infrared rays radiated to the rear side of the far infrared ray heat dissipating plate 20 are reflected in the forward direction and effective heat transfer is interrupted at a relatively narrow interval between the inner box 30 and the reflection plate 60 and between the reflection plate and the outer box 80 And the like. In addition, the far-infrared heating device 10 prevents the deformation of the far-infrared heat sink 20, which is formed to be long in the longitudinal direction, by supporting the far infrared ray heat sink 20 with thermal expansion and contraction repeated during use . To this end, the far-infrared radiation plate 20 has a locking protrusion 28 protruding from both sides of the rear surface 22 so as to form insertion grooves 29 that are cut in the longitudinal direction. The inner box 30 is provided with a horizontal portion 32 formed in correspondence with the longitudinal direction of the far infrared ray heat dissipating plate 20 and bent at both sides of the horizontal portion 32 and inserted into the insertion groove 29 at each end And a bent portion 34 in which a hook 35 is formed to be caught by the hooking jaw 28. The bent portion 34 is longitudinally coupled to the far infrared ray radiating plate 20 to support the far infrared ray radiating plate 20. [ 4 and 5, the far infrared ray heating apparatus 10 has a configuration for allowing the far-infrared ray radiated to the rear side of the far-infrared radiation plate 20 to be reflected toward the front side of the heating apparatus 10 . The horizontal portion 32 of the inner box 30 is formed such that a perforation 33 is formed in the longitudinal direction inside the bent portion 34 so that the far infrared rays radiated to the rear surface of the far infrared ray heat dissipating plate 20 pass therethrough, Infrared rays radiated to the rear surface of the indoor unit 20 are reflected in the front direction. 3, the far-infrared rays radiated to the rear side of the far infrared ray heat dissipating plate 20 reach the reflection plate 60 through the bore 33 of the inner box 30 and are reflected by the reflection plate 60 And is radiated toward the front side of the heating device 10, thereby enhancing the radiation efficiency of the far-infrared rays. More specifically, the far-infrared heating apparatus 10 has a feature that effective heat transmission is interrupted at relatively narrow intervals between the inner box 30 and the reflector 60, and the reflector and the enclosure 80. That is, in the far-infrared heating apparatus 10 according to the preferred embodiment of the present invention, a reflection plate 60 is disposed on the rear side of the inner box 30 so that far-infrared rays radiated to the rear surface of the far- And constitutes an enclosure 80 for accommodating the far infrared ray heat sink 20, the inner box 30, and the reflector 60. The inner box 30 and the reflector 60 are spaced apart from each other by the spacer 40 and the first heat insulating block 50 disposed at regular intervals and the reflector 60 and the enclosure 80 are spaced apart from each other by the spaces 40, And is separated by the second heat insulating block 70 disposed so as to correspond to the first heat insulating block 50. The spacer 40 is fixedly coupled to the inner box 30 and the spacer 40, the first heat insulating block 50, the reflector 60 and the second heat insulating block 70 are coupled to each other at the rear side of the enclosure 80. [ Is fixedly coupled to the enclosure (80) by screws (90). At this time, the enclosure 80 is formed with an opening 81 through which the heat sink 20 is exposed to have a box shape. The spacer 40 has a bent portion 44 that is bent at both sides of the horizontal portion 42 so that the horizontal portion 32 of the inner wall 30 is fixed to the bent portion 44 So that the heat transmitted to the reflector 60 and the screw 90 is minimized.

In the far infrared ray heating apparatus 10, a far-infrared radiation coating layer is formed on the front surface 21 of the far-infrared radiation plate 20. The far-infrared radiation coating material coated on the far-infrared radiation coating layer is composed of 25 to 30 parts by weight of polymerized phosphate, 25 to 30% by weight of a far infrared ray resin composition comprising 25 to 35 parts by weight of a rhodamine salt, 15 to 25 parts by weight of a silicate, 2 to 3 parts by weight of a surfactant, 2 to 3 parts by weight of an ethanolamine and 20 to 25 parts by weight of water, And 70 to 75% by weight of a far infrared ray powder composed of 65 to 75 parts by weight of tourmaline, 5 to 10 parts by weight of tourmaline and 20 to 25 parts by weight of silica. When the mixing amount of the far infrared ray resin is less than the above- There is a possibility that the bonding force of the powder is lowered. When the mixing amount of the far infrared ray resin exceeds the range defined above, the mixing amount of the far-infrared ray powder is relatively low It becomes a concern to the far-infrared radiation effects decrease. The polymerized phosphate in the far-infrared resin composition has a function of preventing the oxidation resistance of the coating film to improve the durability, and the polymeric phosphate used in the present invention is metaphosphates (MPO ₃ ) _n , n = 4 to 18 m = metal ion, Pyrophosphate (P ₂ O ₇ ), Ultra (Poly meta) Phosphate (MPO ₃ ) _n , n = 8 to 18 m = metal ion), polyphosphate Polyphosphates (P ₃ O ₁₀ )) are preferably selected and used within the mixing amount range described above. In addition, the carboxymethylcellulose salt has a function of improving the heat resistance of the far infrared ray resin, and the carboxymethylcellulose salt that can be used in the present invention includes aluminum carboxymethylcellulose, titanium carboxymethylcellulose, sodium carboxymethylcellulose It is preferable to use one or more selected from cellulose and the like within the mixing amount range described above. In addition, the silicate generally has a high melting point and functions to improve the heat resistance of the far infrared ray resin, and it is preferable to use the silicate in the mixing amount range described above. In addition, the surfactant used in the present invention has a function of preventing the separation of far infrared ray powder and water and enhancing the mixing property. The surfactant usable in the present invention is a cationic or anionic type, a positive type, or a nonionic type It is preferable to use it within the mixing amount range described above. Examples of specific surfactants include higher alkylsulfonate soaps, higher alkyldicarboxylate salts, higher alcohol sulfate ester salts, higher alkylsulfonate salts, higher alkyl disulfonate salts, higher alkyl phosphate esters, alkylated sulfuric acid ester salts of higher fatty acid amides , Alkylated sulfonic acid salts of higher fatty acid amides, alkylcarboxylic acid salts of higher alkyl sulfonamides, alkylbenzenesulfonic acid salts, alkylphenol sulfonic acid salts, alkylnaphthalamic acid sulfonic acid salts, alkylbenzoimidazole sulfonic acid salts, naphthenic acid salts, naphthenic alcohol sulfuric acid esters It is preferable to use a mixture of one or more selected from the group consisting of salts, resin acid salts, sulfuric acid alcohol sulfate ester salts and ligninsulfonic acid salts. The ethanolamine used in the present invention has the function of improving the physical properties of emulsification and corrosion prevention in the far infrared ray resin composition, and the ethanolamine which can be used in the present invention is, within the above mixing range, ethanolamine, diethanolamine or triethanolamine It is preferable to use one or more of them in combination. In order to further increase the radiation efficiency, the far-infrared radiation powder preferably comprises 65 to 75 parts by weight of silica sand, 5 to 10 parts by weight of tourmaline and 20 to 25 parts by weight of silica and has an average particle size of 0.1 to 10 μm. The silica sand used in the present invention has a function of emitting far-infrared rays and energy, and it is preferable to use far-infrared rays and energy within the mixing amount range in consideration of radiation efficiency. In addition, tourmaline used in the present invention stimulates menstrual blood with a weak current radiation and functions to remove air and odor by anion emission and far-infrared radiation, and when the amount of tourmaline mixed is less than the range defined above, the amount of anion emission There is a possibility that the amount of silica or the like to be mixed is decreased, and the amount of far-infrared radiation emitted may decrease. In the present invention, silica has a function to emit the largest far-infrared ray emission energy over a propagation field. When the amount of silica to be mixed is less than the above-defined range, the far-infrared ray emission energy may decrease. The amount of the tourmaline or the like to be mixed may be relatively small and the amount of the negative ion emission may be lowered.

The bottom member 11 is a member that is laminated on the bottom surface 110 of the housing body 100. As shown in FIGS. 2 and 7, a supporting frame 11a is formed on the bottom surface 110 (Such as glass fiber or the like) is sloped and laminated on the upper surface of the support frame 11a and an ondol material 11c (stone, ceramics, tile, etc.) is formed on the upper surface of the heat insulating material 11b And a grating 11d is horizontally stacked on the upper surface of the onhole member 11c.

That is, as shown in Fig. 7 (a), it is possible to shut off the cold air coming from the bottom of the housing by the heat insulating material 11b without consuming any additional power or cost in the floor heating, Heat generated in the far-infrared heating apparatus can be efficiently accumulated by heating and heating the floor, so that the floor heating can be efficiently implemented. In addition, as shown in FIG. 7B, the inclined structure of the bottom surface 110 and the grating 11d Can guide the excrement of various kinds of livestock to the side of the lower side folding-type door D of the wall surface 120 of the housing body 100 to be easily collected and removed.

That is, the present invention can reduce the mortality of livestock by realizing the internal environment optimized for livestock breeding and labor such as deodorization, antibacterial, thermal storage, insulation, heating and constant temperature maintenance on the inside and bottom of the house In addition, the cost of housing construction such as heating costs can be reduced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation in the present invention. It will be possible.

100: housing body 110: bottom surface
11: bottom member 11a: support frame
11b: Insulating material 11c: Ondol member
11d: Grating H: Wheel
120: wall surface 12, 12 ': steel plate
12a: Insulating material 12b: Functional paint
D: Folding door W: Inspection window
L: Lighting fixture 130: Thousand scenes
13: Ventilation hole 10: Far-infrared heating device
1: rod heater 20: far-infrared heat sink
21: Front 22: Rear
26: Heater coupling channel 28:
29: insertion groove 30:
32: horizontal portion 34: bent portion
35: Hook

Claims (9)

In a housing structure for livestock breeding and delivery,
A housing body 100 comprising a bottom surface 110, a wall surface 120 and a ceiling surface 130;
A far-infrared heating device 10 installed inside the housing main body 100; And
And a bottom member (11) stacked on the bottom surface (110) of the housing body (100).
The method according to claim 1,
The wall surface (120) of the housing body (100)
A heat insulating material 12a is inserted between the pair of steel plates 12 and 12 'and a functional paint (not shown) is attached to the steel plate 12 on the inner space side of the housing body 100 of the pair of steel plates 12 and 12' 12b) are coated on the inner surface of the housing.
The method according to claim 1,
The wall surface (120) of the housing body (100)
Characterized in that a plurality of folding type doors (D) and an inspection window (W) are provided.
The method according to claim 1,
The bottom surface (110) of the housing body (100)
And a wheel (H) is provided on the outer side thereof.
The method according to claim 1,
In the ceiling surface 130 of the housing body 100,
Characterized in that a ventilation opening (13) operated by a timer is provided.
The method according to claim 1,
The housing body (100)
Characterized in that a temperature sensor and a humidity sensor are provided inside the housing structure.
The method according to claim 1,
The far-infrared heating apparatus (10)
A far infrared ray radiating plate 20 having a relatively large area as compared with the rod heater 1 is formed and the rod heater 1 is coupled to a rear side of the far infrared ray radiating plate 20,
The far infrared ray radiating plate 20 includes a front surface 21 coated with a far infrared radiation coating material and a rear surface 22 formed with a heater coupling channel 26 protruding in the longitudinal direction to insert the rod heater 1 ,
A far infrared ray radiation coating layer is formed on the front surface 21 so as to emit a far infrared ray,
The far infrared ray radiating plate 20 has a locking protrusion 28 protruding from both sides of the rear surface 22 so as to form an insertion groove 29 cut in the longitudinal direction,
A horizontal part 32 formed in correspondence with the longitudinal direction of the far infrared ray heat dissipating plate 20 and bent at both sides of the horizontal part 32 and inserted into the insertion groove 29 at each end, And an inner box 30 which has a bent portion 34 formed with a hook 35 for receiving the far infrared ray radiating plate 20 and which is coupled to the far infrared ray radiating plate 20 in the longitudinal direction to support the far infrared ray radiating plate 20. [ , Housing structure for livestock breeding and delivery.
The method according to claim 1,
The bottom member (11)
A support frame 11a;
A heat insulating material 11b which is obliquely stacked on the upper surface of the support frame 11a;
An onhole member (11c) stacked on an upper surface of the heat insulating material (11b) obliquely; And
And a grating (11d) horizontally stacked on an upper surface of the ondol member (11c).
3. The method of claim 2,
The functional paint (12b)
A dispersing agent in an amount of 1.0 to 1.5% by weight, an anti-settling agent in an amount of 1.5 to 2.0% by weight, a thickener in an amount of 1.0 to 1.5% by weight, By weight and 13 to 17% by weight of water,
Characterized in that the functional silica comprises 70 to 80% by weight of silicon dioxide, 10 to 15% by weight of biotite, 10 to 15% of zeolite.

Images