KR20180029864A - Photovoltaic heating equipment for indoor cleaning in facilities - Google Patents

Abstract

The present invention relates to a solar heating device for indoor purification in a barn facility. The solar heating device for indoor purification in a barn facility according to an embodiment of the present invention includes a solar heating plate (40) coupled to an inclined frame (23) by a hinge (36), the inclined frame (23) which is opened by rotating the solar heating plate (40) of one side around the hinge (36), and a white heat reflection stand (35) assembled on the lower side of the solar heating plate (40) coupled to the inclined frame together with a fixing rod (24). Therefore, the present invention prevent damage due to heat by supplying cooled air by power generated on a solar power generation plate.

Description

{Omitted} The present invention relates to an indoor solar heating apparatus for indoor use,

The present invention relates to an indoor solar heating apparatus for indoor use in an indoor facility, and more particularly, to a solar indoor heating apparatus for indoor indoor use which is operated by power generated by sunlight in accordance with a livestock such as a house or a facility for feeding horticultural crops, And the indoor air of the housing is cooled by the cooling air formed by the rapid gradual cooling of the pressurized air.

In general, livestock complexes such as barns, pigs, and cages are caused by climate change, which causes the loss of livestock and loss of appetite. Therefore, it is necessary to prepare for the damage caused by the climatic change or the cold weather.

 In the indoor space provided by the housing complex or the gardening complex, the heat of the sun which is exposed to the heat in the heat of the day causes excessive heat to the indoor space, which is caused by the exposure of direct sunlight to the heat- The damage occurs.

In addition, since the phenomenon of collapsing due to heavy snowfall in the house complex occurs periodically, the countermeasures simply reinforce the frame of the house used, but more reinforcement structure is needed for the disaster due to climate change.

In addition, according to the development of technology, air conditioner or refrigerator is used as the generating power of solar power generation plate. In case of home use, the surplus electric power used in real life is sold to KEPCO, As the material of the plate is lighter, it is necessary to drive a lightweight PV solar panel such as an aluminum alloy or a synthetic resin material in order to serve as a roof.

In addition, countermeasures against slow cooling caused by climate change such as heat caused by seasonal changes are caused by air conditioning in the entire space of the indoor space of the house, and there is much use of energy required.

In addition, in view of the economical efficiency of houses for gardening and horticulture, expensive refrigerators are not economical compared to income from crops, and therefore, they are not practical in house complexes, and groundwater is used as a refrigerant.

In general, as the demand for renewable energy is increasing, the solar heating plate installed in the public (upper) section of the ground formed by the fruit trees of the garden house formed near the urban area, the livestock complex, This is because the pressure pump driven by the photovoltaic power generation is dispersed to the stationary trumpet type reducer provided in the pressurized pump, thereby preventing heat damage to the indoor space by the cooling effect of the pressurized air.

In addition, in response to a request for the installation of a PV array for indoor cleaning, a chicken raised in an indoor section of a poultry farm is driven to one side, and heated air heated by sunlight is blown out for a predetermined time in an empty section, The present invention is an invention for eradicating chicken mite, and also provides a cooling effect that is slowly cooled by the spraying force of the air in the shaded area of the barn, and the power plate installed on the roof provides a safety device for strong wind, heavy rain,

A rotation bar coupled to a beam assembled at a central portion of the divided equidistant intervals, wherein the rotation bar divides the space in which the house is installed at a predetermined interval, (B) for discharging the air heated by the house in addition to the solar power generation by rotating the solar cell in accordance with the movement of the sunlight, This is to provide the house with sunlight in a section (a) opened by the rotation drive of the photovoltaic panel so that sunlight is projected to the house during the rotation in the winter.

Especially during the cold weather, the heating air dispersion drive of the heating plate installed on the lower side of the shaft use house is provided to eradicate the mite of the chicken farm and to reinforce the indoor air harmony.

A housing housing 40 formed with a predetermined area and an insulator housing 20 which is assembled with a vinyl 21 for covering the outer side of the frame 11 so as to be provided in the housing complex, A frame 29 integrally connected to the column 15 protruding in the direction of the frame 29 and a pneumatic cylinder 29 controlled by driving the wall between the pillar 14 by driving the rotary door 27 coupled to the frame 29, A beam 17 connecting the gap between the pillars 15 along the shoulder 14 and a beam 17 extending from the beam 17 to the side of the shoulder 14 where the livestock house 20 is built, In which an assembly section (18) is formed by an inclined frame (23)

A solar heating plate 40 coupled to the inclined frame 23 by a hinge 36,

  A sunlight heating plate 40 coupled to the inclined frame 23 by a hinge 36 and a rope 39 connected to an edge of the solar heating plate 40 in the frame 29, An inclined frame 23 opened by rotating the solar heating plate 40 on one side about the hinge 36,

 And is provided with a heat reflecting plate 35 of an intricate color to be assembled together with the fixing rod 24 below the solar heating plate 40 coupled to the inclined frame so as to be slowly cooled or kept warm in the room of the livestock complex 40 .

Further, the solar heating plate 40 may be formed as a solar power generation plate 25 having a power generation element 16 at predetermined intervals,

A rotary shaft 22 for fixing the center of the solar battery plate 25 to the center of the beam 17, a rotary shaft 37 for connecting the section of the beam 17, The sunlight generating plate 25 is linearly moved in the direction of the sunlight by rotationally driving the bevel gear 26 so as to be aligned with the direction of the sunlight in the section where the rotating shafts 37 intersect with each other, And is rotated by the formation of the section (c)

The hinge 36 is connected to the coupling ribs 19 of the projections 38 to connect the inclined frame 23 and the solar battery plate 25 so that the heat roller 35 is rotated so as to receive sunlight, a guide wall 42 formed to open the support rod 46 in the upper section d of the indoor space 28 to form an air movement section,

The door is provided with a rolling door (27) fixed to the upper end of the column (15) to prevent the cold weather from being damaged during a cold weather or from being damaged by a typhoon.

A heating plate tank 33 coupled to a back surface of the solar power generation plate 25 by a heating passage 45 having an inlet and an outlet 44 on both sides thereof and a heating passage 45 connected to the heating plate tank 33 To the breeding zone 57 of the barn, and includes the jet port 59 penetrating the breeding zone 57,

The solar cell 25 is formed as a transparent plate 19 and the power generating device 16 is provided at a predetermined spaced distance on one side of the transparent plate 19, Light is transmitted,

A heating tube 50 or a heating stand 50? Tightly attached to the back surface of the solar cell 25 in a staggered state on both sides,

The heating tube 50 is continuously and repeatedly provided in the section of the guide wall 42 or the support rod 46 provided with the air discharge section between the heating tube 50 and the support rod 46 provided in the upper section d. And a jet port 56 penetrating through the heat dissipating pipe 55. In this case,

A pressurizing tank 68 connected to an inflow pipe 65 provided as a pressurizing pump 60 at a lower side of the column 15 for the livestock house 20 and a pressurizing tank 68 connected to the pressurizing tank 68 jacket 72, A small outflow port 74 that is gradually reduced from the enlarged outflow port 71 to an inverted trumpet shape and a small outflow port 74 that is formed so as to close the reduced small outflow port 74 A first low pressure tank 79 connected to a small jet port 74 of the first reducer 80 and a supply pipe 51 connected to the first low pressure tank 79, Is cooled to a low temperature by the first reducer 80 due to the pressure difference between the pressurizing tank 68 and the suction tank 83 and is supplied to the ejection port 83 passing through the supply pipe 51 (A) is provided so that the indoor space (28) of the livestock complex (43) is slowly cooled with the air cooled by the cooling fan (59).

A second reducer 80 'connected to the lower side of the jacket 72' of the first low-pressure tank 79 and a second low-pressure tank 89 provided below the second reducer 80 ' And,

And the protection pipe 88 having the second injection port 86 is extruded into the blocking wall 93 in a section where the injection port 59 penetrating the supply pipe 51 is punctured.

The present invention relates to an apparatus and a method for controlling an electric power generated by a photovoltaic power generation plate by supplying power to a low-pressure tank, It is an invention for enhancing controllability and practicality by preventing damage caused by heat waves.

In addition, it provides the effect of reducing the damages caused by the adjustment of the amount of sunlight and the strong wind and heavy snow in a large area used as a house for horses and gardening.

1 is a partial perspective view of a livestock complex provided in the prior art;
Fig. 2 is a partial perspective view of the main part of the present invention; Fig.
Figure 3 is a cross-sectional view of another embodiment of the present invention,
Figure 4 is a cross-sectional view of another embodiment of the present invention,
Figure 5 is a partial perspective view of an embodiment of the portion of Figure 4;
Fig. 6 is a partial perspective view of the separated recess in Fig.
Fig. 7 is an operational state diagram for the recessed portion in Fig. 6
8 is a cross-sectional view taken along line AA in Fig. 7
Figure 9 is an enlarged partial perspective view of one embodiment of the recess of Figure 6;
Figure 10 is a cross-sectional view of one embodiment of the used condition in Figure 7;
Fig. 11 is a cross-sectional view of the main part of the embodiment of the recessed portion in Fig. 8
Fig. 12 is a cross-sectional view
Figure 13 is a partial enlarged partial perspective view of the embodiment of the recess in Figure 12;
Figure 14 is a partially cutaway perspective view of one embodiment of the recess in Figure 8;
15 is a partial perspective view of an essential part of the present invention.
16 is a partial perspective view of another embodiment of the present invention;
17 is a sectional view taken along line BB in Fig. 16
Fig. 18 is a partially enlarged state diagram of the used state of the recessed portion of the present invention
Figure 19 is a partial perspective view of one embodiment of the recess in Figure 17;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a partial perspective view of the main part of the present invention, FIG. 3 is a cross-sectional view of another used state of the recess in FIG. 2, and FIG. 4 is a cross- Fig. 5 is a partial perspective view of an embodiment of the portion of Fig. 4, Fig. 6 is a partial perspective view of the recess separated in Fig. 5, Fig. 7 is an operational state view of the recessed portion of Fig. 8 is a sectional view taken along line AA in Fig.

Therefore, the present invention is an aerial space having an area for the indoor space of the livestock complex 40 for houses, fruit trees, and livestock. A solar heating block (31) for inducing a convection phenomenon caused by solar heat is provided to prevent damage due to slow cooling, keeping warm, and natural disaster of a livestock farming farming farm, ) Will be described in detail with reference to Figs. 1 to 8,

    A column 15 protruding fixedly at the prospect 13 at a predetermined interval in the longitudinal direction and a width which is an edge of the housing complex 40; The reinforced concrete block 10 is reinforced with a beam 17 and a frame 29 connected to the upper end of the column 15 in the agricultural land 10 provided in the interior space 28 formed by enclosing the soil, The rotary door 27 connected to the frame 29 and the air passage 41 provided in the wall between the pillars 14 are connected to each other by a beam 17 and a frame 29 To circulate the air according to the temperature of the indoor space 28 according to the season.

 The present invention is also directed to cooling and maintaining the solar heating plate 40, which is a crucial part of the present invention, by rotating the sunlight heating plate 40 in accordance with the movement of the sunlight to the agricultural or livestock complex 10 or 43.

 Here, an embodiment will be described in which the indoor space of the shaft use house 20 is slowly cooled so as to prevent the occurrence of a laceration patient or the like by heat waves in a high-temperature period.

 In other words, in order to provide the room temperature in a gradual manner during the summer, the air circulates through the incision to one side of the vinyl 21 which surrounds the shaft house 20.

 The greenhouse 20 is formed by wrapping the vinyl 21 on the outer surface of the frame 11 so that the greenhouse 20 is continuously formed as a mold and is formed into a farming estate. A column 15 projecting while being fixed at predetermined intervals along the longitudinal direction at the shoulders 14 on both sides of the shaft use greenhouses 20; 15 are provided so as to direct the interior space 28 with the beam 17 as a connection.

 Here, the driving type wall enclosing the section between the pillars 15 to the lower side of the upper side of the connecting beam 17 is provided with a rolling type door 27 provided on the window frame of the wall, (Rolled up) to protect or protect the interior space.

  Here, the solar heating plate 40 is installed as an assembly in the beam 17 for air conditioning in the indoor space 28 of the greenhouse 20.

  In the present invention, the driving structure of the solar heating plate 40 will be described in detail with reference to the accompanying drawings. In the following description, And is formed into a solar power generation plate (25).

In addition, it is preferable that the discharge space a formed by the solar photovoltaic plate 25, which will be described later, is installed in accordance with the section of the shoulder 14 of the house 20 to be constructed.

 A beam 17 connecting the column 15 between the column 15 and the column 17 and a beam 17 connecting the columns 15 between the columns 15, Assembles the protruding portion 38 in which the assembly section 18 is formed by the inclined frame 23 inclined to both sides in the shoulder 14 for the greenhouse 20.

  Which is coupled to the oblique frame 23 by a hinge 36 for driving the solar photovoltaic plate 25 assembled to form an interruption and influx of sunlight that slopes in the section to the oblique frame 23, A photovoltaic plate 25 and a rope 39 connected to the edge of the solar photovoltaic plate 25 in the frame 29, The indoor air is supplied to the solar power generation panel 25 through the discharge port a formed in the length section of the inclined frame 23 so as to be opened by rotating the rope 39 as a motor and a control device not shown in the center of the hinge 36, This is an invention for providing slow cooling by convective phenomenon in which air on the ground flows into the room 20 by discharging the air in the working room of the house 20 by the convection phenomenon.

Here, the vinyl film covering the side or upper side of the farming or shaft house is used as a passage for circulation air as an incision.

  In addition, in the cold weather during the winter season, in order to prevent the phenomenon that the room temperature is heated by the warming or the damage is caused by the strong wind or the heavy snow such as the barn and the horticultural crop facilities, And is closed by the driving of the plate 25, so that it is combined with the external cold air or the strong wind in the form of a barrier. This is an invention that stably provides the reinforcement effect to the agricultural land 10.

The solar heat heated in the solar light heating plate 40 or the solar light generating plate 25 is reinforced so that the indoor space 28 of the fruit house and the livestock complex constructed by the house 20 are heated As an invention for giving,

 The sunlight is reflected by the thermal head 35 of the hint color which is assembled to the fixing rod 24 which is coupled at a predetermined interval in the lower section of the solar power generation plate 25 coupled to the inclined frame, 10 are provided so as to be slowly cooled or kept warm.

 In addition, the present invention is directed to a solar energy generating block for assembly in a space where a complex for housing complex, orchard, livestock, etc. is installed, .

In general, the sunlight shining in livestock farming and farming complexes must be directed to possible crops (48) or livestock, which is a necessary condition for growth.

 However, since most of the solar power generation plate 25 is made of an aluminum plate or a hard synthetic resin, there is a limit to the transmission of sunlight.

As shown in FIG. 6, the solar power generation plate 25 is made of a transparent plate. The solar power generation plate 25 is made of, for example, (19), and a power generating element (16) is provided at a predetermined spaced distance on one side of the transparent plate (19) so that solar light is transmitted at the spaced intervals.

  Therefore, as an invention for providing the interior of the livestock complex 43, which has been slowly cooled by convection,

A joining rib 19 for reinforcing the projecting portion 38 of the upper end of the inclined frame 23 and a solar power generating plate 25 assembled with a hinge 36 provided on the joining rib 19 are driven The air discharge section a is opened,

In order to prevent the heat generated by the heating of the solar power generation plate 25 from being released into the room of the circulation plant 10, the solar radiation power generation plate 25 is provided with a heat radiation plate 35 So that the slow cooling of the indoor space is reinforced. This causes the heat reflecting plate 35 to rotate in accordance with the movement of the solar power generating plate 25. [

 A description of the air circulation by driving the wall of the indoor space 28 is made by a rolling type door 27 fixed to the upper end of the column 15 by a distance between the pillars 15 In this way, the wall of the agricultural farm 10 is installed to prevent the cold weather from being damaged in a cold weather, and to prevent damage from a typhoon.

In addition, the upper side of the side power generation plate 26 is provided with a window having a predetermined size to be opened and closed, so that the solar power generation blocks 31 on both sides, which are symmetrically assembled to each other in the opposite direction, The present invention is to provide for circulation of indoor air for promoting air pollution or ventilation of the complex.

The present invention relates to an invention for providing energy for solar power generation by installing an assembly solar photovoltaic block in a space where a complex for a vinyl house complex, orchard, livestock, etc. is installed.

A small gap such as a shoulder 14 such as a passage that is constructed to move close to each other in the vicinity of the originally used building or the like and a moving path are spaced apart from each other. An embodiment of the present invention for providing a house 20 formed by wrapping a frame 12 of a frame 11 adjacent to the shoulder 14 with insulation 12 to reduce the effect of heat insulation in winter or heat waves in summer .

Therefore, the present invention has an area of an air space for an indoor space of fruit trees, a livestock farm for raising livestock (40), and a farmhouse (10). A solar power generating block (31) for inducing a convection phenomenon caused by solar heat is installed to prevent breakage due to slow cooling, keeping warm and natural disaster of the livestock complex. FIG. 9 is an enlarged partial perspective view of an embodiment of the recess of the present invention, and FIG. 9 is an enlarged partial perspective view of an embodiment of the present invention, Fig. 10 is a cross-sectional view of one embodiment of the used state in Fig. 7, Fig. 11 is a sectional view of the main part of the embodiment in Fig. 8, Fig. 12 is a sectional view of the main part in the embodiment in Fig. Fig. 14 is a partially cutaway perspective view of one embodiment of the recess in Fig. 8; Fig.

However, in the case of using the solar photovoltaic block 31 capable of solar power generation while being assembled to be kept warm in the livestock complex 43 or the like, it is necessary to provide a structure for adjusting the irradiation amount against sunlight.

Therefore, in order to meet the requirement described above, the power generation device 16 is installed at a predetermined spaced interval from the area of the solar light heating plate 40 so as to form a section into which sunlight flows in accordance with the moving direction of sunlight, The solar cell module according to the present invention can be used as a solar cell module.

 In addition, the solar power generation plate 25 may be formed of a transparent plate 19, and a power generation element 16 may be provided on a side surface of the transparent plate 19 and spaced apart from each other by a predetermined distance. Providing solar light to be transmitted, it helps the indoor heating effect of sunlight in cold weather.

The solar heating plate 40, which is a main part of the present invention, is heated by exposure to a heat, which causes a phenomenon of lowering the power generation efficiency of the power generation device 16, In addition to the eradication of chicken mites, it is a supply of fresh air to the chicken farm to meet the breeding conditions for the breeding of chickens

 A heating plate tank 33 coupled to a back surface of the solar power generation plate 25 by a heating passage 45 having an inlet and an outlet 44 on both sides thereof and a heating plate tank 33 connected to the heating plate tank 33, The passage 45 is extended to a section of the breeding chamber 57 provided with a stall of the barn and the breeding chamber 57 is provided with a jetting port 59 for eradicating the mite, This invention is intended to reinforce the eradication effect on mites by spraying air at a heating temperature for chicken mites.

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

The heating plate tank 33 is fixedly attached to the back surface of the solar heating plate 40 so as to reinforce the convection due to heat generated from the heating plate tank 33, It is possible to prevent the occurrence of a dead phenomenon occurring during the period of the heat wave or the occurrence of a food feed (such as an appetite ) To provide a slow cooling form to prevent the growth of livestock breeding.

At this point, it is considered possible to eradicate chicken mites at a temperature of 60 degrees Celsius for several hours. However, the low temperature air formed due to climate change occasionally replenishes heating by means of a boiler and control device Please give.

 The cooling air is cooled by the jetting port 59 passing through the supply pipe 51 so as to be installed in the form section 57 provided in the indoor space 28 of the housing while being connected to the inlet 44 of the heating plate tank 33. [ And discharges the heated air by operating the pump 14 (not shown).

The description of the embodiment of the heating plate tank 33 fixed in close contact with the back surface of the solar light heating plate 40 is as follows. As shown in FIG. 9,

 The inclined sheet is provided integrally with the solar heating plate 40 so as to reinforce the heating condition of the air with respect to the upper side portion thereof by providing the heating passage 45 having the inlet and outlet 44 on both sides of the heating tank 25 To give.

A heating passage 45 provided with an inlet and an outlet 44 on both sides of the heating tank 25 and a rotation path for allowing the solar power generation plate 25 to reinforce the generation of electricity and the discharge of air as the sun moves The structure of the solar power generation block 31 for the agricultural land 10 includes a rotation bar 22 connected to the edge of the column 15 and a rotation bar 22 connected to the rotation bar 22 along the installation section of the beam 17 And a rotation shaft 37 is provided.

 A central axis is formed along the longitudinal direction of the solar heating plate 40 while the rotary shaft 37 is assembled to a bearing provided in the beam 17. The width of the solar heating plate 40 is adjusted by the width of the plastic housing 20 (14), they are formed as overlapping sections when they are in contact with each other.

  A rotary shaft 22 for fixing the central portion of the photovoltaic power generation plate 25 to the center of the beam 17, a rotary shaft 37 for connecting the section of the beam 17, And the rotary shaft 37 is rotated by the bevel gear 26 so as to be aligned with the direction of the sunlight so that the solar battery plate 25 is straightened in the direction of the sunlight so that the sunlight inflow and outflow section a b). < / RTI >

That is, the spaced apart discharge section a between the solar light heating plates 40 formed by rotation of the solar light heating plate 40 in accordance with the inclination of the sunlight is a convection phenomenon as heating of the heated solar light heating plate 40, It is an invention to discharge.

  In order to prevent the damage of heavy rain, strong wind and cold weather due to the change of the climate, the solar power generating plate 25 is connected to the rotating shaft 37 and the rotating rod 17 in a sequential manner, Which is in contact with both sides of the solar power generation plate 25 in a horizontal state so as to serve as a roof to prevent damages such as heavy rain, strong wind and cold damage caused by external climate change . The rotation driving interval of the photovoltaic power generation plate 25 is determined by the temperature, the temperature of the livestock of the livestock complex 43, the temperature of the housing , And damage to fruit trees and the like.

 Hereinafter, in order to facilitate the discharge of the heated air in the indoor space 28 in the discharge section (b) when damage to the livestock or agricultural crops occurs due to heat waves or the like,

 A guide wall 42 having a discharge gap continuously or repeatedly provided to reinforce the air discharge of the indoor space 28 heated by the heat, in particular in the upper section d of the indoor space 28, The heating zone 47 promotes the heating of the upper section d so as to promote the inflow of outside air from the air passage 41 opened to the lower side of the indoor space 28 by the principle of fluid mechanics, (b) of the present invention.

 Further, when the sunlight of the solar power generation plate 25 is exposed to high temperature solar light due to the heat of the sunlight, the solar power generation plate 25 is heated to a high temperature (about 60 to 70 ° C.) And the heating tube 50 is connected to a plurality of guide walls 42 connected to the upper section d of the interior space 28 And an air discharge passage is provided between the guide wall 42 and an air passage opened in the wall of the lower section of the indoor space 28 by reinforcing the air heating of the upper section of the indoor space 28, (41) so as to reinforce the ventilation of the indoor space (28).

A heating tube 50 closely attached to the back surface of the solar cell plate 25 in a staggered state and a heat source supplied by the operation of a hose connected to the heating tube 50 and a pump A plurality of guide walls 42 coupled to the support rods 46 provided in the upper section d to maximize the convection phenomenon in the space 28, The present invention is to provide an air discharge section to reinforce indoor ventilation, and to prevent damage caused by lava in livestock or agricultural work.

Referring to FIGS. 13 through 14, a description will be made of one embodiment of the heating pipe 50 and the guide wall 42 for reinforcing the discharge in the indoor space 28,

Here, the heating tube 50, which is in close contact with the back surface of the solar power generation plate 25 in a staggered state in a staggered state, is connected to the solar power generation plate 25, a panel-type heating stand 50? Assembled on the rear surface,

 A heat radiating pipe 55 having an air outlet 56 is provided on the support rod 46 so as to be coupled to the support rod 46 provided in the upper section d, It is a device to reinforce discharge.

(1)

 The countermeasures against slow cooling against dead or sluggishness caused by climate change such as a severe weather caused by seasonal change are performed in the entire space of the indoor space 28 of the housing, , The present invention intends to intensively supply air for air conditioning intensively to a space in which poultry live, particularly in the indoor space (28) of the shaft-use house (20) 15 to 19, the building of the livestock complex 43 is formed with cool air in the shade area formed when the sunlight is inevitably formed.

15 is a partial perspective view of an essential 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 partial perspective view of Fig. 16 Fig. 18 is a partially enlarged state view of a used part of the present invention, and Fig. 19 is a partial perspective view of an embodiment of a recessed part in Fig.

 In the present invention, the cool air in the shade area is compressed by driving the pressurizing and suction pumps 68 and 83 connected to the control device not illustrated with the electric power generated from the photovoltaic plate 25, which is the essential part of the present invention, (A) which provides a cooling effect by injecting air in a reduced pressure state.

 An inlet pipe 65 connected to the pressurization pump 60 provided at the lower side of the shade area formed in the column 15 for the livestock house 20 and the inlet pipe 65 connected to the inlet pipe 65, A jacket 72 for enclosing the pressurizing tank 68 so as to form a pressurizing tank 68 and a jacket 70 for pressurizing the pressurizing tank 68 to rapidly cool the pressurized air in the pressurizing tank 68, And a small outflow port 74 that is gradually reduced to a trumpet shape so as to maximize the cooling effect by high-pressure and high-pressure ejection from the enlarged large-air outflow port 71, And the first reducer 80 is formed as an inclined surface. A first low pressure tank 79 connected to store the air injected at a low pressure from the small jet port 74 of the first reducer 80 and a second low pressure tank 79 connected to the first low pressure tank 79 to store the air injected from the barn A feed pipe 51 assembled to feed air cooled in the form section 57 while forming a feeder and an anchor stand for predominantly growing the poultry (poultry), and a feed pipe 51 connected to the feed pipe 51, The cooling water is supplied to the supply pipe 51 assembled in the form section 57 and the cooling water injected into the nozzle opening 59 passing through the supply pipe 51, (A) is provided so as to gradually cool slowly in the section of the hill section 57 formed on one side of the indoor space 28 of the livestock complex 43.

 Herein, it is an invention that effectively provides a hygienic environment for poultry breeding by spraying a part of the cooling air sequentially in the entire section of the indoor space (28).

  In addition, the use of the supply pipe 51 through which the jetting port 59, which is the essential part of the present invention, is mainly used is installed mainly in a section where a feed pail is provided in a poultry such as a chicken or a poultry such as a pig, A problem of clogging of the injection port 59 that penetrates the buried supply pipe 51 is generated.

 The second jetting port 86 is formed on the feed pipe 51 so as to form a predetermined buffer space B outside the supply pipe 51 on the livestock section of the livestock in order to smoothly supply the indoor air for long- And the damping force is reinforced by fixing the damper to the both ends of the cushioning space b by the blocking wall 93. [

A second reducer 80 'connected to the lower side of the jacket 72' of the first low-pressure tank 79 and a second low-pressure tank 89 provided below the second reducer 80 ' And,

And the protection pipe 88 having the second injection port 86 is extruded into the blocking wall 93 in a section where the injection port 59 penetrating the supply pipe 51 is punctured.

10: Farming complex 13: Prosecution 15: Column 16: Power generating device 17: Beam
18: assembly section 19: transparent plate 20: house 22: rotation bar
21: vinyl 23: inclined frame 24: fixed rod
25: solar power generator plate 26: bevel gear 27: rolling door
28: indoor space 29: frame 30: sunshield 31: power generating block
32: motor 33: heating plate tank 34: heat storage tank
35: heat roller 36: hinge 37: rotary shaft 38: projection 39:
40: solar heating plate 41: air passage 42: guide wall 43: livestock complex
44: inlet / outlet port 45: heating tank 47:
50: heating tube 51: supply tube 55: heat dissipating tube 56:
57: Breeding section 59: jetting port 60: pressurizing pump 71: large jetting port
72: Jacket 74: Small spout 80: Reduce 86: Second spout
88: Protector

Claims (5)

A housing housing 40 formed with a predetermined area and an insulator housing 20 which is assembled with a vinyl 21 for covering the outer side of the frame 11 so as to be provided in the housing complex, A frame 29 integrally connected to the column 15 protruding in the direction of the frame 29 and a pneumatic cylinder 29 controlled by driving the wall between the pillar 14 by driving the rotary door 27 coupled to the frame 29, A beam 17 connecting the gap between the pillars 15 along the shoulder 14 and a beam 17 extending from the beam 17 to the side of the shoulder 14 where the livestock house 20 is built, In which an assembly section (18) is formed by an inclined frame (23)
A solar heating plate 40 coupled to the inclined frame 23 by a hinge 36,
A sunlight heating plate 40 coupled to the inclined frame 23 by a hinge 36 and a rope 39 connected to an edge of the solar heating plate 40 in the frame 29, An inclined frame 23 opened by rotating the solar heating plate 40 on one side about the hinge 36,
A shaft is installed in the interior of the livestock complex 40 to be slowly cooled or kept warm by a thermal reflector 35 of an intricate color to be assembled to the fixing rod 24 below the solar heating plate 40 coupled to the inclined frame, Solar heating apparatus for purification. The method according to claim 1,
The solar photovoltaic panel 40 may be formed as a solar photovoltaic panel 25 having a power generation element 16 at predetermined intervals,
A rotary shaft 22 for fixing the center of the solar battery plate 25 to the center of the beam 17, a rotary shaft 37 for connecting the section of the beam 17, The sunlight generating plate 25 is linearly moved in the direction of the sunlight by rotating the bevel gear 26 so that the rotating shaft 37 intersects with the direction of the sunlight to block the sunlight inflow section b And rotated to the section (c)
The hinge 36 is connected to the coupling ribs 19 of the projections 38 to connect the inclined frame 23 and the solar battery plate 25 so that the heat roller 35 is rotated so as to receive sunlight, a guide wall 42 formed to open the support rod 46 in the upper section d of the indoor space 28 to form an air movement section,
The sunshade 30 is lowered by the rolling type door 27 fixed to the upper end of the column 15 so as to prevent the cold weather from being damaged in a cold weather or to prevent damage from typhoons, Device. The method according to claim 1,
A heating plate tank 33 coupled to a back surface of the solar power generation plate 25 by a heating passage 45 having an inlet and an outlet 44 on both sides thereof and a heating passage 45 connected to the heating plate tank 33, (59) extending through the breeding zone (57), and an outlet port
The solar cell 25 is formed as a transparent plate 19 and the power generating device 16 is provided at a predetermined spaced distance on one side of the transparent plate 19, Light is transmitted,
A heating tube 50 or a heating stand 50? Tightly attached to the back surface of the solar cell 25 in a staggered state on both sides,
The heating tube 50 is continuously and repeatedly provided in the section of the guide wall 42 or the support rod 46 provided with the air discharge section between the heating tube 50 and the support rod 46 provided in the upper section d. And a jet port (56) penetrating through the heat dissipating duct (55). The solar heating device according to any one of claims 1 to 5, wherein the heat radiating duct (55) The method according to claim 1,
A pressurizing tank 68 connected to an inlet pipe 65 provided as a pressurizing pump 60 at a lower side of the column 15 for the livestock house 20 and a pressurizing tank 68 connected to the pressurizing tank 68 And a small jet port 74 that is gradually reduced from the enlarged jet port 71 to a truncated trapezoidal shape and is formed to be jetted at a high speed from the reduced small jet port 74 A first low pressure tank 79 connected to a small jet port 74 of the first reducer 80 and a supply pipe 51 connected to the first low pressure tank 79, Is cooled to a low temperature by the first reducer 80 due to the pressure difference between the pressurizing tank 68 and the suction tank 83 and is supplied to the ejection port 83 passing through the supply pipe 51 (A) for gradually cooling the indoor space (28) of the livestock complex (43) by sections by spraying the air cooled by the indoor cooling tower A heating heating device. 5. The method of claim 4,
A second reducer 80 'connected to the lower side of the jacket 72' of the first low-pressure tank 79 and a second low-pressure tank 89 provided below the second reducer 80 ' give,
The indoor space is provided with a shielding wall 88 provided with a second injection hole 86 in a section where the spray hole 59 penetrating the supply pipe 51 is drilled, Heating device.

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