KR102217384B1 - axle facilities equipped with solar heating apparatus for indoor cleaning - Google Patents

Abstract

The present invention relates to a livestock facility equipped with a solar heating device for indoor purification, and in detail, a solar power generation plate is installed in accordance with a facility for raising livestock or horticultural crops such as a livestock, but power generated by sunlight It is an invention to provide indoor purification by ejecting cooling air formed by rapid slow cooling of pressurized air by a pump operated by means of an indoor space of a livestock house.
In general, livestock complexes, such as livestock houses, are installed in larger units at the edge of the city in accordance with the development of technology, and it is necessary to prepare for damage caused by heat waves or extreme heat formed by climate change in their area.
This is because the indoor space provided as a horticultural complex or a house forms a large area as the houses are continuously installed with each other, so that preparation for temperature changes in the inner space reflected in the area of the green house complex is required.
Therefore, when explaining the present invention in detail,
A livestock complex provided as a house 20 in which an indoor space 28 is formed with a vinyl 21 surrounding the outside of the frame 11 while being assembled with a beam 17 and a frame 29 between the pillars 15 In the interior space 28, a pressure tank 68 provided in the inlet pipe 65 so as to be coupled to the pillar 15 and the frame 29, and a control device coupled to the frame 29 A protrusion 38 inclined to both sides in the assembly section 18 of the awning 30, in which the air passage 41 is controlled by the driven rotating door 27, and the beam 17 connecting the pillar 15 The inclined frame 23 to form a,
The jacket 72 forming the pressurizing tank 68, the small jet 74 gradually protruding from the large jet 71 penetrating the lower side of the jacket 72 in an inverted trumpet shape, and the small jet A first low pressure tank 79 connected to the first reducer 80 for high-speed injection at 74, and a pump 60 connected to the supply pipe 51 from the first low pressure tank 79 As provided with a cooling device, the air cooled to a low temperature in the first reducer 80 due to a pressure difference between the pressure tank 68 and the first low pressure tank 79 is transferred to the indoor space 28 of the livestock complex 43 In a livestock facility equipped with a solar heating device for indoor purification provided with a slow cooling block (A) for slow cooling),
In the section through which the injection port 59 passes through the supply pipe 51,
As a buffer space (m) provided with an extrapolation of the protective tube 83 provided with the second injection port 86 while the blocking walls 93 are formed at both ends,
It is an invention provided to prevent clogging due to feed or manure getting on the injection port 59 of the supply pipe 51.

Description

Axle facilities equipped with solar heating apparatus for indoor cleaning

The present invention relates to a livestock facility equipped with a solar heating device for indoor purification, and in detail, a solar power generation plate is installed in accordance with a facility for raising livestock or horticultural crops such as a livestock, but power generated by sunlight It is an invention to provide indoor purification by ejecting cooling air formed by rapid slow cooling of pressurized air by a pump operated by means of an indoor space of a livestock house.

In general, livestock complexes such as livestock sheds, pig sheds, and henhouses are heatwaves caused by climate change, etc., resulting in decreased growth due to death of livestock or loss of appetite. Therefore, it is necessary to prepare for damage caused by heat waves or cold weather caused by climate change.

The solar heat that is exposed to the indoor space provided as a livestock complex or horticultural complex is caused by excessive heat in the indoor space due to excessive heat. Damage occurs.

In addition, since the collapse phenomenon occurs periodically due to heavy snowfall in the house complex, countermeasures for this are simply reinforcing the frame of the livestock house, but a more reinforcing structure is required for disaster phenomena caused by climate change.

In addition, with the development of technology, air conditioners or refrigerators are used as power generation power of solar power generation panels, which is actually developing to the level of energy saving by selling the surplus power used in real life to KEPCO for home use. As the material of the plate is lighter, it is a reality that it is required to drive a lighter-weight photovoltaic panel such as an aluminum alloy or a synthetic resin material in the future to serve as a roof.

In addition, the countermeasures for slow cooling against mortality or slow growth caused by climate change such as heatwave caused by seasonal changes is that the use of energy required for air conditioning in the entire indoor space of the livestock house is large.

In addition, in view of the economic feasibility of livestock and horticultural houses, the expensive slow cooling device has low economical efficiency compared to the income from crops, so it is not practically practical in the house complex. For this, groundwater is used as a refrigerant.

In general, in the trend of increasing demand for new and renewable energy, the solar heating plate installed in the aerial (upper) section of the land formed by the fruit tree and livestock complex of horticultural houses formed near the city center is driven in connection with the Internet of Things, This is to prevent thermal damage to the indoor space by the cooling effect of the pressurized air by dispersing it with the inverted trumpet-type reducer provided in the pressurized pump by a pressure pump driven by solar power generation.

In addition, while meeting the demand for installation of solar power generation panels for indoor purification, the chickens raised in the indoor section of the poultry farm are driven to one side, and solar-heated heated air is blown out for a predetermined period of time in the empty section. It is an invention to eradicate chicken mites, and also provides a cooling effect by slowly cooling the air in the shaded area of the barn, and the power generation plate installed on the roof is an invention that even serves as a safety device against strong winds, heavy rain, and heavy snow.

This divides the space in which the houses with a predetermined interval are installed at equal intervals in the upper space of the area constructed by the livestock housing complex, and the rotating rod coupled to the beam assembled at the center of the divided equal interval, and the rotating rod It is to open the space (b) that discharges the heated air from the house complex as well as solar power generation by covering the section in which the livestock houses are installed at a predetermined interval, and rotates according to the movement of sunlight. , This is a section (a) opened by rotational drive of the solar power generation plate so that sunlight flows into the house in winter by the rotation, and is to provide sunlight to shine on the house.

In particular, in the cold season, the heating plate installed at the bottom of the livestock house is operated to disperse the heating air to eliminate ticks in the chicken shed to reinforce eco-friendly indoor air harmony.

A livestock complex provided as a house 20 in which an indoor space 28 is formed with a vinyl 21 surrounding the outside of the frame 11 while being assembled with a beam 17 and a frame 29 between the pillars 15 In the interior space 28, a pressure tank 68 provided in the inlet pipe 65 so as to be coupled to the pillar 15 and the frame 29, and a control device coupled to the frame 29 A protrusion 38 inclined to both sides in the assembly section 18 of the awning 30, in which the air passage 41 is controlled by the driven rotating door 27, and the beam 17 connecting the pillar 15 The inclined frame 23 to form a,

A solar heating plate 40 coupled to the inclined frame 23 by a hinge 36, and a solar power generation plate 25 having a power plant 16 on the solar heating plate 40,
A heating plate-type tank 33 coupled to the rear surface of the solar power generation plate 25 by a heating passage 45 provided with inlet and outlets 44 on both sides thereof,
In the livestock facility provided to inject the cooled air through the injection port 59 passing through the supply pipe 51 connected to the inlet and outlet 44 connected from the heating plate-type tank 33,

The house 20 in which the indoor space 28 is formed with a frame 11 assembled with a beam 17 and a frame 29 between the pillars 15 and a vinyl 21 surrounding the outside of the frame 11 Livestock complex 43 provided with;
A slow cooling block (A) that is coupled to the pillar (15) and the frame (29) in the indoor space (28) and includes a pressure tank (68) having an inlet pipe (65);

A sunshade 30 coupled to the frame 29 and controlling the air passage 41 through a rotary door 27 driven by a control device;
An inclined frame 23 forming protrusions 38 inclined to both sides in the assembly section 18 of the beam 17 connecting the pillars 15;
Including; a solar power generation plate (25) including a solar heating plate (40) coupled to the inclined frame (23) by a hinge (36) and a power plant element (16) provided in the solar heating plate (40) In the livestock facility equipped with a solar heating device for indoor purification,

The slow cooling block (A) is
A jacket 72 forming the pressure tank;
A first reducer 80 for injecting air at high speed through a large ejection opening 71 penetrating the lower side of the jacket 72 and a small ejection opening 74 that contracts and protrudes from the large ejection opening 71 in a reverse trumpet shape;
A first low pressure tank 79 connected to the bottom of the first reducer 80;
Includes; a pump 60 connected to the supply pipe 51 from the first low pressure tank 79,
The indoor space 28 of the livestock complex 43 is cooled with air cooled to a low temperature in the first reducer 80 due to the pressure difference between the pressure tank 68 and the first low pressure tank 79,

The slow cooling block (A) is
An injection port 59 formed in the supply pipe 51;
Includes; blocking walls 93 are formed at both end portions to surround the supply pipe 51, and a protection tube 83 provided with a second injection port 86,
It is an invention characterized in that it prevents clogging of feed or manure in the injection port 59 through a buffer space (m) between the supply pipe 51 and the protection pipe 83.

The present invention supplies air for cooling by reducing pressure from a pressurized tank to a low pressure tank with power generated from a solar power generation panel to a beam provided around a large area of a house installed in the longitudinal direction so that an indoor space is installed in a livestock house, etc. As a result, it is an invention for reinforcing economical efficiency and practicality with the effect of preventing the occurrence of damage due to heat waves.

In addition, it provides the effect of controlling the amount of sunlight irradiation in a large area used as a livestock house and horticultural house, reducing damage from damage caused by strong winds and heavy snow, and preventing manure from clogging at the nozzle.

1 is a partial perspective view of a conventional livestock farm
Figure 2 is a partial perspective view of the main part of the present invention
Figure 3 is a cross-sectional view of a state of use different from the main part in Figure 2
Figure 4 is a cross-sectional view of a state of use different from the main part in Figure 3
5 is a partial perspective view of an embodiment of a portion of FIG. 4
6 is a partial perspective view of the main part separated from FIG. 5
7 is an operation state diagram of the main part of FIG. 6
8 is a cross-sectional view taken along line AA in FIG. 7
9 is an enlarged partial perspective view of an embodiment of the main part of FIG. 6
Figure 10 is a cross-sectional view of an embodiment in a use state in Figure 7
11 is a cross-sectional view of a main part of an embodiment of the main part in FIG. 8
12 is a cross-sectional view of a main part of the embodiment in FIG. 11
13 is a partially enlarged partial perspective view of the embodiment of the main part in FIG. 12
14 is a partially cutaway perspective view of an embodiment of a main part in FIG. 8
15 is a partial perspective view of an embodiment of a main part of the present invention
16 is a partial perspective view of another embodiment of the main part of the present invention
17 is a cross-sectional view taken along line BB in FIG. 16
18 is a partially enlarged state diagram of a state of use for the main part of the present invention

Hereinafter, the configuration of the most preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a partial perspective view of a livestock complex provided in the related art, FIG. 2 is a partial perspective view of a main part of the present invention, FIG. 3 is a cross-sectional view of a state of use different from the main part in FIG. 2, and FIG. 4 is a main part in FIG. It is a cross-sectional view of another use state, FIG. 5 is a partial perspective view of an embodiment of the part of FIG. 4, FIG. 6 is a partial perspective view of the main part separated from FIG. 5, and FIG. 7 is an operation state diagram of the main part of FIG. 8 is a cross-sectional view taken along line AA in FIG. 7.

Therefore, the main part of the present invention is the public space of the area for the indoor space of the livestock complex 43 for houses, fruit trees, and livestock. A solar heating block 31 is installed that induces convection caused by solar heat, and is an invention to prevent damage due to slow cooling, thermal insulation, and natural disasters in livestock and agricultural and farming complexes, and the solar heating block 31 The device for the configuration of) will be described in detail with reference to FIGS. 1 to 8 attached to an embodiment centering on field construction,

In the livestock complex 43 or the farming complex 10 provided with a predetermined area, pillars 15 protruding at predetermined intervals from the protrusions 13 formed in a predetermined width and longitudinal direction to form an indoor space, A frame 11 assembled with a beam 17 and a frame 29 between the pillars 15, and a house in which an indoor space 28 is formed by wrapping with vinyl 21 on the outside of the frame 11 Livestock complex 43 provided with 20),

It is coupled to the frame 29 and is provided with a sunshade 30 in which the air passage 41 is controlled by a rotating door 27 driven by a control device, and the temperature of the indoor space 28 is circulated according to the season. Let me do it.

In addition, it is an invention for slow cooling or thermal insulation in a farming complex 10 or a livestock complex 43 by rotating the solar heating plate 40, which is an essential part of the present invention, according to the movement of sunlight.

Here, it is to provide a slow-cooled indoor space of the livestock house 20 so as to prevent the occurrence of heat injuries due to heat waves during the hot weather.

In other words, in order to provide the indoor temperature through slow cooling during the summer season, air is circulated through an incision to one side of the vinyl 21 surrounding the house 20 for livestock.

Therefore, between the houses 20 provided with an indoor space 28 formed of vinyl 21 surrounding the outside of the frame 11 so that the house 20 is continuously provided in a complex shape to form a farming complex, It provides a farming complex 10 that is continuously installed while maintaining the predetermined shoulder 14.

Here, the driving wall that wraps from the upper end of the beam 17 connecting the section between the pillars 15 to the lower side, the rolling door 27 provided in the window frame of the wall, is rolled (wound) as necessary. Zoom), which is used to keep warm or protect indoor spaces.

Here, it is provided with a solar heating plate 40 installed on the inclined frame 23 for air conditioning in the indoor space 28 of the house 20.

Therefore, the description of the driving structure of the solar heating plate 40 will be described in detail with an embodiment according to the accompanying drawings, formed as a solar power generation plate 25 including the power plant elements 16 at predetermined intervals. Let me do it.

In addition, it is preferable to install the discharge space (a) by the solar power generation plate 25 to be described later in accordance with the section of the shoulder 14 of the house 20 to be respectively constructed.

Therefore, in the inclined frame 23 forming the protrusions 38 inclined to both sides in the connection section of the beam 17 connecting the pillars 15, and the assembly section 18 fixed to the inclined frame 23 Assemble the protrusion 38.

Hence, the solar power generation plate 25 is coupled to the inclined frame 23 by a hinge 36 for driving to block and inflow of sunlight to the solar power generation plate 25 assembled to the inclined frame 23 ) Is a control device for a motor not shown depending on the direction reflected by the driving of sunlight, and is driven by a rotating ropu 39, but the outlet (a) formed in the length section of the inclined frame 23 is an indoor space The air in (28) is the space where the heated air from the solar power generation panel (25) is discharged,
This is an invention for providing slow cooling through a ventilation phenomenon in which air in the ground is introduced by discharging the air inside the house 20 through a convection phenomenon.

Here, the plastic film covering the side or upper side of the farming or livestock house is cut and used as a passage for circulation air.

In addition, in the cold season of winter, in order to heat the indoor temperature by warming, such as facilities for livestock and horticultural crops, or to prevent damage due to strong winds and heavy snow, solar power generation panels assembled on the inclined frames 23 on both sides. It is provided to close it by the drive of (25), and it is provided in the form of a barrier against external cold air or strong wind, and this is an invention that stably provides facility reinforcement in the farming complex (10).

In addition, for the slow cooling of the indoor space 28 for the house 20 built in the Gwasudan area and the livestock complex due to the heat wave during the hot weather, the solar heat reflection heated by the solar heating plate 40 or the solar power generation plate 25 is reinforced. As an invention to give,

In the lower section of the solar power generation plate 25 coupled to the inclined frame 23 by a hinge 36, the solar heat is transferred to the white reflector 35 assembled on the fixed rod 24 coupled at a predetermined interval. By reflection, the indoor temperature of the farming complex 10 is an invention that is provided to slow cooling or keep warm.

In addition, the present invention is to provide a base for energy generation by installing a solar power generation block for assembly in the air in a space where a complex for house complexes, orchards, livestock, etc. is installed, and at the same time to erupt air in the indoor space through convection. About.

In general, sunlight shining on livestock or farming complexes becomes a necessary condition for growth only when it is shining on cultivated products 48 or livestock.

However, since the photovoltaic panel 25 is mostly made of an aluminum plate or a hard synthetic resin, there is a limit to the transmission of sunlight.

Therefore, as an invention in which the material of the photovoltaic power generation plate 25, which is the object of the present invention, provides photovoltaic power generation as well as the transmission of sunlight, as shown in FIG. 6, the photovoltaic power generation board 25 is a transparent plate. It is an invention that is formed as (19), but is provided on one side of the transparent plate 19 at a predetermined spaced interval, and is provided to transmit sunlight at the spaced intervals.

In addition, in order to adjust the amount of sunlight reflected from the indoor space 28 of the house 20,

The rotation shaft 37 connecting the section of the beam 17 to fix the center of the photovoltaic power generation plate 25 at the center of the beam 17, and the fixing rod 22 and the rotation shaft 37 cross each other. The bevel gear 26 provided so as to be rotated according to the direction of sunlight is driven to block the amount of sunlight reflected by the solar power generation plate 25, thereby forming a section (a) (b) of sunlight inflow and out. It is an invention that rotates in the horizontal section (c).

Drives a fastening rib 19 that reinforces the protrusion 38 of the upper end of the inclined frame 23 and a solar power generation plate 25 assembled with a hinge 36 provided on the fastening rib 19 As, the air discharge section (a) is formed to open,

The heat reflector 35 provided on the rear surface of the solar power generation panel 25 is provided to prevent the heat emitted by the heating of the photovoltaic power generation panel 25 from being radiated to the indoor of the farming complex 10. It further reinforces the slow cooling of the space. This allows the heat reflector 35 to rotate in accordance with the movement of the solar power generation plate 25.

In addition, the explanation for air circulation by driving the walls of the indoor space 28 is the air passage 41 to the rotary door 27 by driving the control device coupled to the frame 29 between the pillars 15. Provides a awning (30) to control. In addition, by installing the wall surface of the farming complex 10 as the sunshade 30 driven by the rolling door 27 fixed to the upper end of the pillar 15, it is possible to prevent cold damage or damage caused by typhoons in cold weather. It is an invention provided.

In addition, the upper portion of the side power generation plate 26 is provided to open and close a window of a predetermined size, and the photovoltaic power generation blocks 31 on both sides assembled oppositely promote ventilation, thereby providing air to the farming complex. It is an invention provided for circulation of indoor air to promote pollution or ventilation of air.

The present invention relates to an invention for providing as a base for energy generation by installing a solar power generation block for assembly in the air in a space in which a green house complex, an orchard, and livestock complexes are installed.

The shoulder road 14, such as a passageway constructed to move a section close to each other between the original livestock buildings, etc., is to be spaced apart at predetermined intervals. Hence, the outer side of the frame 11 built adjacent to the shoulder 14 is wrapped with vinyl 12 to provide heat insulation in winter or to reduce damage from heat waves in summer in the house 20 where the real space 28 is formed. It is to describe an embodiment of the invention for.

Therefore, the main part of the present invention is in the public space of the area for the indoor space of the fruit tree, livestock farming complex 43, or farming complex 10. By installing a solar power generation block 31 that induces convection due to solar heat, as an invention that prevents damage due to slow cooling, heat insulation, and natural disasters in a livestock complex, the configuration of the solar power generation block 31 Referring to Figures 9 to 14 attached to an embodiment of the construction in detail, Figure 9 is an enlarged partial perspective view of an embodiment of the main part of the present invention, Figure 10 is a cross-sectional view of an embodiment in a use state in Figure 7 11 is a cross-sectional view of a main part of an embodiment of the main part in FIG. 8, FIG. 12 is a cross-sectional view of the main part of the embodiment in FIG. 11, and FIG. 13 is a partially enlarged partial perspective view of the embodiment of the main part in FIG. 8 is a partially cut-away perspective view of an embodiment of the main part.

However, in the case of using the photovoltaic block 31 capable of generating photovoltaic power while being assembled to keep warm indoors in the livestock complex 43, etc., it will be necessary to provide a structure for controlling the amount of sunlight irradiation.

Therefore, the solar power generation plate including the power plant elements 16 at predetermined intervals in the area section of the solar heating plate 40 so as to form a section in which sunlight flows in according to the moving direction of the sunlight described above. It is formed by (25).

In addition, the photovoltaic power generation plate 25 is formed as a transparent plate 19, and a power plant 16 is provided on one side of the transparent plate 19 at a predetermined interval. If sunlight is provided so that it can be transmitted, it helps to heat the indoor space caused by sunlight in cold weather.

In addition, as a device for reinforcing the convection phenomenon of the livestock complex 43 by maximizing the heating effect by the solar heating plate 40,

It is provided with a heating plate-type tank 33 fixed in close contact with the rear surface of the solar heating plate 40, and in order to reinforce the convection phenomenon due to the heat emitted from the heating plate-type tank 33, the livestock farm 43 By reinforcing the ejection of heated air into the discharge space (a) through the ejection opening (56) formed between the heat dissipation pipes (55) provided in the upper section (d) of the indoor space, in particular, death phenomena occurring during the heat wave or feed feeding It provides a slow cooling shape to prevent slow growth in livestock breeding by reducing (appetite).

Here, it is considered that the possible temperature for actually eradicating chicken mites can be left at 60 degrees Celsius for several hours.Sometimes, the low temperature air formed due to climate change is supplemented with heating with a boiler and a control device not shown. To give.

Here, as a connection to the inlet and outlet 44 of the heating plate-type tank 33 in close contact with the rear surface of the solar heating plate 40, it is installed in the form section 57 provided in the indoor space 28 of the house, which is a supply pipe ( 51) is to operate a pump not shown to inject the heated air through the injection hole (59).

Therefore, the description of the embodiment of the heating plate-type tank 33 fixed in close contact with the rear surface of the solar heating plate 40, as shown in the accompanying Figure 9,

It is provided with a heating passage 45 provided with entrances and exits 44 on both sides of the heating plate type tank 33, and is installed integrally with the inclined solar heating plate 40, thereby reinforcing the heating condition of air for the upper section. give.

Here, the heating passage 45 provided with inlets and outlets 44 on both sides of the heating plate-type tank 33, and the solar power generation plate 25 reinforce power generation and discharge of air according to the movement of the sun. In order to rotate according to movement, the structure of the solar power generation block 31 for the farming complex 10 has a fixed rod 22 connected to the edge of the pillar 15, and the fixed rod 22 is a beam ( Provides a rotating shaft 37 connected to the installation section of 17).

In addition, in order to prevent damage from heavy rain, strong wind, and cold damage due to climate change, the photovoltaic power generation panel 25 is sequentially applied to each other by applying a control device such as an Internet of Things (IoT), in which the rotating shaft 37 and the rotating rod are not shown. It is an invention that is connected to be installed and provides horizontal contact with both ends of the photovoltaic panel 25.

Therefore, it is an invention that provides a roof role that prevents damage from heavy rains, strong winds, and cold seas where climate change occurs. Here, the rotational drive of the photovoltaic panel 25 is applied to a timer, an Internet of things, etc., which are not shown, such as weather, time, heavy rain according to the season, typhoons, strong winds, It is an invention that is provided to prevent damage such as falling fruits of the fruit.

In addition, an embodiment of the heating pipe 50 and the guide wall 42 for reinforcing the discharge from the indoor space 28 will be described with reference to the accompanying FIGS. 13 to 14,

Here, the heating tube 50 in close contact in a zigzag curved structure on both sides of the solar power generation plate 25 is in close contact with the heating tube 50 in a zigzag curved structure, and the solar power generation plate ( 25) is provided with a panel-type heating table (50') assembled on the rear surface,

In order to be coupled to the support rod 46 provided in the upper section (d), a heat dissipation pipe 55 in which the ejection ports 56 are formed in the support rod 46 are alternately provided to prevent air in the indoor space 28. It is a device that reinforces the discharge.

The measures against slow cooling against mortality or slow growth caused by climate change such as heatwave caused by seasonal changes are carried out to condition air into the entire space of the indoor space 28 of the livestock house, and the required energy is often used. , In the present invention, by intensively supplying air for air conditioning in the indoor space 28 of the livestock house 20, in particular, the space where poultry inhabit, as an invention that reinforces the economy, the attached Figs. If described in detail according to 19, the building of the livestock complex 43 is that cool air is formed in the shade area that is necessarily formed when sunlight shines.

Therefore, if you clearly describe it according to the attached drawing,

Fig. 15 is a partial perspective view of an embodiment of the main part of the present invention, Fig. 16 is a partial perspective view of another embodiment of the main part of the present invention, Fig. 17 is a sectional view taken along line BB in Fig. 16, and Fig. 18 is a main part of the present invention It is a partially enlarged state diagram of the state of use for.

Therefore, in the present invention, the cool air in the shade area is compressed by driving the pressurization and suction pumps 68 and 83 connected to a control device not shown with power generated from the solar power generation panel 25, which is an essential part of the present invention. It is an invention that provides a slow cooling block (A) that reinforces the cooling effect by spraying the cooled air under reduced pressure.

Therefore, the slow cooling block (A) is connected to the inlet pipe 65 connected to the pressure pump 60 provided in the lower section of the shade area formed on the pillar 15 for the livestock house 20, and the pressure tank ( A jacket 72 provided to form a 68, and an invention for cooling the air compressed at high pressure in the jacket 72 to a low temperature state by spraying so as to rapidly depressurize the air compressed in the jacket 72, the jacket 72 for the pressure tank 68 ), a small jet outlet 74 that is gradually reduced to a reverse trumpet shape so as to maximize the cooling effect of the jet furnace at high speed while being in a high-pressure state at the large jet outlet 71, and the small jet outlet It is an invention to provide a first low pressure tank 79 connected to the first reducer 80 for high-speed injection at 74.

In addition, the first low pressure tank 79 connected to store the air injected at low pressure from the small jet port 74 of the first reducer 80 and the first low pressure tank 79 are provided in a livestock farm (43). In order to keep it in a cool room by spraying cooling air into the feeder section (57) and the feed pipe (51) assembled in the format section (57) to grow livestock (poultry), It is an invention provided to inject the cooled air from the injection port 59 passing through the supply pipe 51.

Thus, the injected air is an invention in which a slow cooling block (A) is provided to intensively supply the form section 57 formed on one side of the indoor space 28 of the livestock complex 43.

Here, by sequentially spraying cooling air from the indoor space 28, it is an invention that effectively provides a hygienic environment for the poultry to be reared.

In addition, in the slow cooling block (a), which is the main part of the present invention, the use of the supply pipe 51 through which the injection port 59 is penetrated is mainly installed in a section equipped with a feed container for breeding in poultry such as chickens or pigs. A problem occurs in the injection port 59 through which the supply pipe 51 is buried with feed or manure.

Therefore, in order to smoothly supply air for indoor purification in the long term, the supply pipe 51 includes barrier walls 93 at both ends of the predetermined buffer space m outside the supply pipe 51 in the breeding section of livestock. The protective tube 83 provided with the second injection port 86 to be formed is fixed by extrapolation to reinforce durability from feed or manure.

Here, the explanation of the slow cooling block (A), which is the main part of the present invention, is that the supply of cooling air is often blocked because the manure accumulated over a long period of time in the barn is buried in the injection port 59 of the supply pipe 51. , If described in detail based on the attached Figure 19,

In the section through which the injection port 59 passes through the supply pipe 51,

As a buffer space (m) provided with an extrapolation of the protective tube 83 provided with the second injection port 86 while the blocking walls 93 are formed at both ends,

It is an invention provided to prevent clogging due to feed or manure getting on the injection port 59 of the supply pipe 51.

10: farming complex 13: prosecution 15: pillar 16: power plant
17: beam 18: assembly section 20: house 22: fixed rod
21: vinyl 23: inclined frame 24: fixed rod
25: photovoltaic panel 26: bevel gear 27: rolling door
28: interior space 29: frame 30: awning 31: power generation block
32: motor 33: heated plate tank 34: heat storage tank
35: heat reflector 36: hinge 37: rotation shaft 38: protrusion 39: rofu
40: solar heating plate 41: air passage 42: guide wall 43: livestock complex
44: inlet and outlet 45: heating vessel 47: heating table
50: heating pipe 51: supply pipe 55: heat dissipation pipe 56: spout
57: form section 59: injection port 60: pressure pump 71: large ejection port
72: jacket 74: small outlet 80: reducer 83: protective tube 86: second injection port

Claims (1)

The house 20 in which the indoor space 28 is formed with a frame 11 assembled with a beam 17 and a frame 29 between the pillars 15 and a vinyl 21 surrounding the outside of the frame 11 Livestock complex 43 provided with;
A slow cooling block (A) that is coupled to the pillar (15) and the frame (29) in the indoor space (28) and includes a pressure tank (68) having an inlet pipe (65);
A sunshade 30 coupled to the frame 29 and controlling the air passage 41 through a rotary door 27 driven by a control device;
An inclined frame 23 forming protrusions 38 inclined to both sides in the assembly section 18 of the beam 17 connecting the pillars 15;
Including; a solar power generation plate (25) including a solar heating plate (40) coupled to the inclined frame (23) by a hinge (36) and a power plant element (16) provided in the solar heating plate (40) In the livestock facility equipped with a solar heating device for indoor purification,
The slow cooling block (A) is
A jacket 72 forming the pressure tank 68;
A first reducer 80 for injecting air at high speed through a large ejection opening 71 penetrating the lower side of the jacket 72 and a small ejection opening 74 that contracts and protrudes from the large ejection opening 71 in a reverse trumpet shape;
A first low pressure tank 79 connected to the bottom of the first reducer 80;
Includes; a pump 60 connected to the supply pipe 51 from the first low pressure tank 79,
The indoor space 28 of the livestock complex 43 is cooled with air cooled to a low temperature in the first reducer 80 due to the pressure difference between the pressure tank 68 and the first low pressure tank 79,
The slow cooling block (A) is
An injection port 59 formed in the supply pipe 51;
Includes; blocking walls 93 are formed at both end portions to surround the supply pipe 51, and a protection tube 83 provided with a second injection port 86,
Use of a livestock equipped with a solar heating device for indoor purification, characterized in that it prevents clogging of feed or manure in the injection port 59 through a buffer space (m) between the supply pipe 51 and the protection pipe 83 facility.

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