KR102183531B1 - a breeding ground for automatic disinfection systems using solar power - Google Patents

Abstract

The present invention relates to a farm with an automatic disinfection system using solar power generation, comprising: a barn (10) in the form of closing an inner space; a detection unit installed inside the barn (10) to directly or indirectly detect whether or not a virus is generated inside or outside the barn (10); a control unit (14) capable of receiving a detection signal from the detection unit and transmitting a control signal based on the received signal; a plurality of piezoelectric ceramics (110) installed therein so as to make a chemical liquid in a liquid tank installed at the lower end of the barn (10) into a mist form; a disinfection device (40) capable of injecting the mist chemical liquid into and out of the barn (10); and a power unit connected to the detection unit, the control unit (14), the plurality of piezoelectric ceramics (110), and the disinfection device (40) to supply electric power.

Description

A breeding ground for automatic disinfection systems using solar power}

The present invention is a barn 10 in the form of closing the inner space; A detection unit installed inside the confinement house 10 to directly or indirectly detect whether or not a virus is generated inside or outside the confinement house 10; A controller 14 capable of receiving a detection signal from the detection unit and transmitting a control signal based on the received signal; A plurality of piezoelectric ceramics 110 installed therein so as to mist the chemical liquid of the liquid tank installed at the lower end of the confinement house 10; A quarantine device 40 capable of spraying the misted chemical solution into and out of the house; And a power unit connected to the sensing unit, the control unit 14, a plurality of piezoelectric ceramics 110, and the quarantine unit 40 to supply electric power to the breeding ground of the automatic quarantine system using photovoltaic power generation. will be.

The present invention prevents the spread of livestock infectious diseases by pre-detecting livestock infectious diseases such as influenza, foot-and-mouth disease, brucella, etc. to prevent invasion of livestock infectious diseases to the outside and the inside of the livestock house by detecting them in advance with a detection unit, and disinfecting infectious sources such as viruses and bacteria. In order to prevent the death of livestock in the summer and winter, a system that automatically controls the temperature, stores solar power energy in the storage battery, drives it with a charge selection button, and provides another power in case of malfunction. I want to invent.

Species below, outer housing hygiene device using a sprinkler, a Patent Application 10-1885021 with the technology of the can, comprising the disinfectant contained in the tank unit 100, the tank unit 100 is installed at one side of the housing 10 A pump 150 for discharging the disinfectant solution L to the outside of the tank 100; And an injection range (A) of a predetermined radius, and are disposed to be spaced apart from each other so that the injection ranges (A) overlap each other at a position higher than the roof of the house 10, and the disinfectant solution (L) discharged from the pump 150 ), a plurality of sprinklers 200 rotatingly ejected into the injection range A; including, and having a main pipe 250 coupled to the pump 150 at one end, and the other of the main pipe 250 A plurality of branch pipes 300 branching from the end are provided, one end is coupled to the end of the branch pipe 300, and the other end is coupled to the sprinkler 200 to be installed perpendicular to the ground ( 350); And a supporter 400 in the form of a tripod for supporting the rising pipe 350; a thermometer 550 installed outside the confinement house 10 to measure the temperature of the atmosphere, and the branch pipe 300 And the rising pipe 350 are connected to each other, and a three-way nipple 600 having an outlet 601 in communication with the outside is provided, and is coupled to the outlet 601 of the three-way nipple 600 to generate an electrical signal. A solenoid valve 650 for opening and closing the outlet 601 to discharge the disinfectant L present in the branch pipe 300 and the riser pipe 350 to the outside; And a controller for controlling the solenoid valve 650 to open the outlet 601 when the temperature measured by the thermometer 550 is less than the freezing point of the disinfectant solution L when the pump 150 is not operated. (500); Including, the sprinkler 200, has a minimum required flow rate and a minimum required head for rotationally ejecting the disinfectant (L) in the injection range (A), the pump 150, A casing 151 installed underwater of the tank unit 100, a drive shaft 152 rotatably coupled within the casing 151, a drive motor 153 providing rotational force to the drive shaft 152, and , It is coupled along the drive shaft 152 so that the disinfectant (L) sucked into the casing 151 is discharged above the minimum required flow rate and the minimum required lift, and pressurizes the disinfectant (L) stepwise while rotating at high speed. Conventionally, a plurality of impellers 154 are provided, so that the disinfectant L sprayed simultaneously from the plurality of sprinklers 200 is sprayed over the entire area of the barn 10, and the entire area of the barn 10 is simultaneously quarantined . There is a technique of.

However, it is virtually impossible to quarantine using sprinklers and pumps, and instead of spraying the liquid using a sprinkler, it is necessary to eject the liquid medicine in the form of a fine molecular injection method to spread the liquid medicine into the atmosphere and purify the virus. , Viruses (ASF: African swine fever, etc.) and livestock deaths steadily occur every year because the virus is not removed by spraying the bronchi and hairs of wild animals infected with the virus in a fine molecular form.

In addition, the'external quarantine device using a sprinkler' of the Korean Patent Publication No. 10-1885021 does not consider a system to remove odors, so there is a problem in that the quality of livestock that occurs every year is deteriorated or skin diseases occur and die.

In addition, there are a lot of invented houses that control the temperature by measuring the temperature, and there are a lot of livestock houses that are implemented, but there is a problem that livestock can die without weathering the cold and heat.

In addition, there is a problem in that the pipes are not functioning properly due to the failure to prevent freezing of the pipes installed inside and outside the livestock house, resulting in the death of livestock.

In addition, there is a disadvantage in that the photovoltaic generator cannot provide additional power in the event of a malfunction, so it cannot detect and prevent viruses that penetrate in the event of a malfunction.

Korean Registered Patent Publication No. 10-1885021 (2018.08.02)

The breeding ground of the automatic quarantine system using photovoltaic power generation according to the present invention is to solve the mortality of livestock due to virus penetration of livestock as described above and the mortality of livestock in summer and winter,

An object of the present invention is to simultaneously detect viruses and odors inside and outside the house, and make the virus liquid medicine and the deodorant liquid medicine in the form of microscopic particles by the quarantine and eject each individually with the quarantine to prevent inside and outside of the house. It is to provide a breeding ground with an automatic quarantine system.

Another object of the present invention is to store solar energy in a capacitor, use the stored power, and provide an additional power unit in case the use of the storage battery is inevitable to reduce power loss and malfunction due to death and disease of livestock. It is to provide a breeding ground with an automatic quarantine system using solar power to prepare in advance.

Another object of the present invention is to provide a breeding ground of an automatic quarantine system using solar power generation to maintain a constant temperature inside the livestock by controlling the temperature inside the livestock.

Another object of the present invention is to provide a breeding ground of an automatic quarantine system using solar power generation to prevent freezing of the pipe in winter by providing a heating wire in the pipe.

In order to achieve the above object, the breeding ground of the automatic quarantine system using solar power generation of the present invention,

A barn 10 in the form of closing the inner space; A sensing unit installed inside the confinement house 10 to directly or indirectly detect the presence or absence of a virus inside and outside the confinement house 10; A controller 14 capable of receiving a detection signal from the detection unit and transmitting a control signal based on the received signal; A plurality of piezoelectric ceramics 110 installed therein so as to mist the chemical liquid of the liquid tank installed at the lower end of the confinement house 10; A quarantine device 40 capable of spraying the misted chemical solution into and out of the house 10; And a power unit connected to the sensing unit, the control unit 14, a plurality of piezoelectric ceramics 110, and the quarantine unit 40 to supply power.

The detection unit is characterized in that it comprises a virus outbreak detection sensor (23, 24, 26) for directly detecting the presence or absence of a virus in the house 10.

It characterized in that it further comprises a temperature detection sensor for indirectly detecting the presence or absence of a virus in the house 10 based on the temperature detection inside the house 10.

The detection sensor 26 is characterized in that it combines the function of the temperature detection sensor to indirectly detect the presence or absence of a virus in the housing 10 based on temperature detection inside the housing 10.

The liquid tank includes a deodorant medicine container 30 provided with a deodorant medicine therein to remove the odor inside the confinement house 10, and a virus liquid medicine inside to remove viruses inside and outside the house 10 It includes a virus liquid medicine container 31 provided, and a pipe 43 is connected to the virus liquid medicine container 31.

The detection sensor 26 is characterized by having a function of a odor detection sensor for indirectly detecting the presence or absence of a virus in the livestock house 10 based on the detection of the odor inside the house 10.

In another embodiment, the breeding ground of the automatic quarantine system using photovoltaic power generation of the present invention further includes a temperature control unit capable of adjusting the temperature in the barn 10 based on a control signal from the control unit 14 Characterized in that.

The temperature control unit includes a pipe 42 through which internal water can circulate by a motor pump 48; The storage tank 32 connected to the upstream of the pipe 42; A heat pump pipe 60 connected to the water storage tank 32; A heat exchanger (70) having an inlet connected to the heat pump pipe (60) to control the temperature of the water by a heat exchange method; A heat pump pipe 61 connected to the outlet of the heat exchanger 70; A blower part connected to the heat exchanger (70) so as to send hot or cold air by temperature control of the heat exchanger (70) to the confinement house (10); And a boiler 120 connected to the other inlet and outlet of the heat exchanger 70 through hot water pipes 63 and 64, and a capacitor 51 is connected to the boiler 120 again through an electric wire, A separate hot water circulation pump is connected to at least one of the hot water pipes 63 and 64 to allow hot water to circulate between the heat exchanger 70 and the boiler 120.

The plurality of piezoelectric ceramics 110, by vibrating through the control unit 14, spray the virus liquid medicine in the viral liquid medicine container 31 and the deodorant liquid medicine in the deodorant medicine container 30 into the mist. Characterized in that.

The blower part 90 is characterized in that it is capable of blowing the misted virus liquid medicine and the deodorant liquid medicine into and out of the house 10.

The quarantine device 40 includes a pipe 44 connected to the pipe 43; An odor pipe 41 connected between the pipe 43 and the deodorant medicine container 30; A plurality of spraying protruding pipes 46 protruding to both sides of the pipe 44; And it characterized in that it comprises a nozzle (47) provided at the free end of the plurality of the plurality of spray projection pipes (46).

The odor pipe 41, the pipes 42, 43, 44, a plurality of injection protrusion pipes 46, and the heat pump pipes 60, 61 are the odor pipes 41, the pipes ( 42, 43, 44), a plurality of spraying protrusion pipes 46, and a plurality of heating wire parts 100 installed on the outer surfaces of the heat pump pipes 60, 61, a plurality of circles connected to the plurality of heating wire parts 100 Including a heat transfer part, the plurality of heating wire parts 100 are installed so that they do not overlap, and the heat of the plurality of heating wire parts 100 is through the plurality of circular heat transfer parts 102, 103, 104, 105, the odor pipe 41, the pipe (42, 43, 44), a plurality of spray projection pipes 46, and characterized in that it is transmitted to the entire circumferential surface of the heat pump pipes (60, 61) to maintain warmth.

In another embodiment, the breeding ground of the automatic quarantine system using photovoltaic power generation of the present invention, the odor pipe 41, the pipes 42, 43, 44, a plurality of spray projection pipes 46, and heat The pump pipe (60, 61) is characterized in that it further comprises a heat insulating material to maintain the warmth.

The odor pipe 41, the pipes 42, 43, 44, the plurality of spraying protruding pipes 46, and the heat pump pipes 60, 61 are characterized in that the inside is waterproofed to prevent rust.

The power unit includes a plurality of photovoltaic modules 50 positioned at the top of the outer wall 21 including the house 10 inside, and a storage battery 51 installed outside the house 10 To do.

The feedlot of the automatic quarantine system using solar power generation according to the present invention can exhibit the following effects by the above solution.

First, the automatic quarantine system using photovoltaic power generation that detects viruses and odors inside and outside the house at the same time, and the quarantine machine makes the virus liquid medicine and the deodorant medicine in the form of fine particles, and ejects each individually with the quarantine. It has the effect of providing a kennel.

Second, it stores solar energy in a capacitor, uses the stored power, and provides an additional power unit in case the use of the storage battery is unavoidable to reduce power loss and prepare for malfunction due to death and disease of livestock. There is an effect of providing a nursery of an automatic quarantine system using solar power generation.

Third, there is an effect of providing a breeding ground of an automatic quarantine system using solar power that maintains a constant temperature inside the house by controlling the temperature inside the house.

Fourth, there is an effect of providing a breeding ground of an automatic quarantine system using solar power generation to prevent freezing of the pipe in winter by providing a heating wire in the pipe.

1 is a perspective view of a breeding ground of an automatic quarantine system using photovoltaic power generation according to a first embodiment of the present invention.
FIG. 2 is a perspective view of the automatic quarantine system using photovoltaic power generation of FIG. 1, excluding the side front and entrance doors.
3 is a front view of the rear of the breeding ground of the automatic quarantine system using photovoltaic power generation of FIG. 2.
4 is a rear view of the automatic quarantine system using photovoltaic power generation of FIG. 2 excluding the outer wall of the feedlot and the solar module.
FIG. 5 is a diagram showing a livestock housing and detection unit, an outer wall and an electric field cover, a heat pump, and a control unit, and a power unit, a window unit, and a housing groove of the breeding ground of the automatic quarantine system using solar power generation according to the present invention.
6 is a view showing a housing included in the outer wall of the breeding ground of the automatic quarantine system using solar power of the present invention.
7 is a view showing a state in which the housing part, the outer wall, and the pipe are removed from the feedlot of the automatic quarantine system using solar power according to the first embodiment of the present invention.
FIG. 8 is an enlarged view of one of the quarantine devices of the breeding ground of the automatic quarantine system using solar power generation of FIG. 7.
FIG. 9 is an enlarged view showing an upper pipe of the quarantine device of the breeding ground of the automatic quarantine system using solar power generation of FIG. 8.
FIG. 10 is an enlarged view showing a heating wire and a conductor wound around a spray projecting pipe by expanding the upper pipe of the feedlot of the automatic quarantine system using solar power generation of FIG. 9.
11 is a cross-sectional view showing an enlarged blower portion of the feedlot of the automatic quarantine system using solar power of FIG. 8.
12 is a view showing an embodiment of a quarantine device and a temperature control unit of a breeding ground of an automatic quarantine system using solar power according to the present invention.

Hereinafter, the present invention will be described with reference to the accompanying drawings, and the present invention will be described in detail with reference to preferred embodiments as follows.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in a variety of different forms, only the present embodiment is to complete the disclosure of the present invention, It is provided to fully inform the knowledgeable person of the scope of the invention, and the invention is only defined by the scope of the claims. And, throughout the entire specification, the same reference numerals refer to the same elements.

The present invention is disclosed with respect to a breeding ground of an automatic quarantine system using solar power generation.

1 is a perspective view of a nursery of an automatic quarantine system using solar power according to a first embodiment of the present invention, and FIG. 2 is a perspective view excluding a side front surface and an entrance door of the quarantine of the automatic quarantine system using solar power of FIG. 3 is a front view of the rear of the farm of the automatic quarantine system using photovoltaic power generation of FIG. 2, and FIG. 4 is a front view of the rear of the farm of the automatic quarantine system using photovoltaic power generation of FIG. It is a rear view, and FIG. 5 shows a livestock housing and detection unit, an outer wall and an electric field cover, and a heat pump, and a control unit, and a power unit, a window unit, and a housing groove of the breeding ground of the automatic quarantine system using solar power generation of the present invention 6 is a view showing a housing part included in the outer wall of the feedlot of the automatic quarantine system using solar power generation of the present invention, and FIG. 7 is a diagram using solar power generation according to the first embodiment of the present invention. The automatic quarantine system is a diagram showing the housing part, the outer wall, and the pipe removed from the feedlot, and Fig. 8 is an enlarged view of one of the quarantine machines of the feedlot of the automatic quarantine system using solar power of Fig. 9 is an enlarged view showing the upper pipe of the quarantine of the breeding ground of the automatic quarantine system using solar power of FIG. 8, and FIG. 10 is an enlarged view of the upper pipe of the breeding ground of the automatic quarantine system using solar power generation of FIG. It is an enlarged view showing the heating wire and the conductor wound around the injection protruding pipe, FIG. 11 is a cross-sectional view showing an enlarged blower part of the feedlot of the automatic quarantine system using solar power of FIG. 8, and FIG. 12 is a sun according to the present invention. It is a diagram showing an embodiment of a quarantine device and a temperature control unit of a breeding ground of an automatic quarantine system using photovoltaic power generation.

1 to 16, the breeding ground of the automatic quarantine system using photovoltaic power generation according to the first embodiment of the present invention, a livestock house 10, a sensing unit, a control unit 14, a power unit, a plurality of piezoelectric ceramics (110), including a quarantine (40).

The barn 10 is provided with a shaft front face 12 on the front in a form of closing the inner space, and an entrance door 13 is provided on the front shaft front face 12, and the rear face 16 which can be opened and closed with the side face of the stall ) And the roof 11 is provided on the upper side of the barn 10, but the present invention is not limited thereto, and is limited to the entrance door 13 and the rear surface 16 for entering the barn 10 Rather, the side of the barn can also be configured, and at least one of the entrance door 13, the rear side of the barn 16, and the side of the barn can be used as an entry and exit door.

In addition, a wire cover 25 may be installed on the upper side of the roof 11 connected to the upper side of the barn 10 to prevent a short circuit due to rain or snow.

The detection unit is installed inside and outside the house 10 to directly or indirectly detect the presence or absence of a virus inside and outside the house 10. For example, it may be provided with a virus outbreak detection sensor (23, 24, 26) that directly detects the presence or absence of a virus in and outside the house 10, based on temperature detection inside the house 10 Thus, a temperature sensor for indirectly detecting the presence or absence of a virus in the house 10 may be further provided.

Here, the detection sensor 26 of the virus occurrence detection sensors 23, 24, 26 indirectly detects the occurrence of a virus in the livestock house 10 based on the temperature detection inside the livestock house 10. It has the function of the temperature sensor.

According to the above configuration, when a virus existing outside of the house 10 reaches the house 10 by wind, the detection unit detects the virus, and when the temperature inside the house 10 increases, the house 10 ) To detect the temperature change inside the house 10 based on the temperature sensor located at one side of the inside of the house, but the detection unit of the present invention is not limited thereto, and the outer wall 21 surrounding the house 10 In addition to the detection unit provided inside, it is also possible to install the detection unit outside the outer wall 21.

The control unit 14 receives a detection signal from the detection unit and transmits a control signal based on the received signal, and the control unit 14 is one side of the outer wall 21 surrounding the barn 10 The control unit 14 may be operated by an ON operation and an OFF operation of the selection button 52 provided in the device.

Thereafter, the control unit 14 transmits a control signal to the sensing unit, and when an error occurs in a control signal other than the operation of the control unit due to the ON and OFF operations, the selector button 52 contains a speaker. It is also possible to make an alarm sound.

Subsequently, the power unit includes a plurality of photovoltaic modules 50 positioned at the top of the outer wall 21 including the house 10 inside, and a storage battery 51 installed outside the house 10 .

On the other hand, the plurality of solar modules 50, as shown in Figure 2, is connected to a plurality of supports (50h) protruding perpendicular to the plane of the upper surface of the outer wall 21 surrounding the barn 10 A plurality of solar modules 50 forming an acute angle with respect to the plane of the top surface may be provided. According to this configuration, it is possible to generate power through the photovoltaic module 50, and it is also possible to store and supply power by being connected to the plurality of photovoltaic modules 50 by the storage battery 51.

In addition, in one embodiment, the storage battery 51 may be electrically connected to the sensing unit and the control unit 14 through wired or wireless in addition to the plurality of solar modules 50. The silver wire cover 25 is built into the inside of the wire cover 25, and the wire cover 25 is waterproofed to prevent a short circuit, and includes an insulation material to prevent the wire from freezing.

The plurality of piezoelectric ceramics 110 may mist the chemical liquid of the liquid tank installed at the lower end of the housing 10, where the liquid tank is a deodorant liquid to remove the odor inside the housing 10. It includes a deodorant medicine container 30 provided therein, and a virus liquid medicine container 31 having a virus liquid medicine therein to remove viruses inside and outside the confinement house 10, and the virus liquid medicine container 31 The pipe 43 is connected to.

According to the above configuration, the deodorant medicine container 30 and the virus liquid medicine container 31 are spaced apart from each other and installed on the bottom side of the liquid tank installed on the bottom side of the confinement house 10, and the operation of the control unit 14 By vibrating the plurality of piezoelectric ceramics 110 installed on the floors of the deodorant medicine container 30 and the virus liquid medicine container 31, the viral liquid medicine and the deodorant medicine container ( The deodorant drug contained in 30) is turned into the mist.

In addition, as shown above, it has been described that the deodorant liquid medicine and the virus liquid medicine are built into the inside of the deodorant liquid medicine container 30 and the virus liquid medicine container 31 that are spaced apart from each other on the bottom side of the liquid tank, but the present invention Is not limited thereto, and the content of the chemical liquid entering the liquid tank is not limited, and other types of liquid medicines necessary for the housing 10 may be used.

In addition, the detection sensor 26 may be configured to combine the function of an odor detection sensor that indirectly detects the presence or absence of a virus in the house 10 based on the detection of the odor inside the house 10. This configuration According to, it is possible to indirectly detect the presence or absence of a virus in the livestock house 10 based on the detection of the odor inside the livestock house 10.

The quarantine device 40 includes a pipe 44 connected to the pipe 43; An odor pipe 41 connected between the pipe 43 and the deodorant medicine container 30; A plurality of spraying protruding pipes 46 protruding to both sides of the pipe 44; And a nozzle 47 provided at the free end of the plurality of spray projection pipes 46. According to this configuration, the misted virus liquid medicine and the deodorant liquid medicine can be sprayed through the nozzle 47 of the quarantine device 40.

Here, between the pipe 43 and the pipe 44 may further include an on-off valve capable of opening and closing the communication between the pipes (43, 44). Accordingly, the communication between the pipes 43 and 44 can be opened and closed.

In addition, a plurality of spraying protruding pipes 46 that are vertically projected so as to be symmetrical to both sides of the pipe 47 configured in the quarantine 40 and protruding to the roof 11 of the barn 10 are provided, and the plurality of spraying A nozzle 47 is connected to the protruding pipe 46 so that the misted virus liquid medicine and the deodorant liquid medicine can be sprayed evenly.

That is, according to the above configuration, the virus liquid medicine and the deodorant liquid medicine misted by the operation of the plurality of piezoelectric ceramics 110 are raised to the upper side of the pipe 43 by the blower part 90 and the quarantine device ( a nozzle (47) connected to the plurality of the injection pipe protrudes (46) is configured to 40) is possible to the disinfectant mist virus aekyak, and deodorant aekyak in and out of the housing (10).

Based on the above configuration, a process of detecting viruses and removing odors in the feedlot of the automatic quarantine system using solar power according to the first embodiment of the present invention will be described as follows.

First, the presence or absence of a virus is detected by detection sensors 23 and 24 located inside and outside the house 10.

Next, the control unit 14 located on the outer wall 21 surrounding the barn 10 receives a detection signal from the detection sensors 23 and 24 and transmits a control signal based on the received detection signal. Here, the control unit 14 may be installed in a place other than the outer wall 21 (eg, a barn).

In this embodiment, as shown in FIG. 3, the plurality of piezoelectric ceramics 110 are, for example, housing portions 20a1, 20a2, 20a3, 20a4, 20a5, 20a6 located inside the outer wall 21 Among the housings (20a4, 20a5, 20a6) are installed on the bottom of the deodorant liquid medicine container 30 and the virus liquid medicine container 31 located on the bottom side, and vibrate through the control part 14 to thereby vibrate the virus liquid medicine container 31 The virus liquid medicine contained in) and the deodorant medicine contained in the deodorant medicine container 30 are misted and sprayed.

Next, in the pipe 43 connected to the pipe 44, two blower parts 90 are positioned at intervals. For example, by the rotational force of the blower motor part 92 configured in the blower part 90, the The fan 91 connected to the rotational shaft of the blowing motor unit 92 can be rotated.

Then, a multi-injection to the fine mist of liquid deodorant pills virus aekyak, the nozzle 47 of the bangyeokgi comprises a 40 plurality of the injection pipe projecting through a (43, 44) the pipe (46).

On the other hand, the injection of the liquid medicament sprayed from the nozzle 47 is in addition to the method of injecting the liquid medicament by detecting the presence or absence of a virus in the detection unit, the on operation of the selection button 52 and the operation of the off (off). Accordingly, the user may manually spray the quarantine device 40.

(Example 2)

The nursery of the automatic quarantine system using solar power according to the second embodiment of the present invention, in addition to the configuration of the nursery of the automatic quarantine system using solar power according to the first embodiment of the present invention, the malodorous liquid medicine container 30 In the liquid tank consisting of) and a virus liquid medicine container 31 and a storage tank 32, the storage tank 32 is a storage tank 32 in which water of groundwater is stored, and the temperature in the house 10 can be controlled. The configuration is the same as that of the first embodiment, except that a temperature control unit connected to the control unit 14 is further included.

Here, the temperature control unit includes a pipe 42 through which water inside can be circulated by the motor pump 48; The storage tank 32 connected to the pipe 42 ; A heat pump pipe 60 connected to the water storage tank 32; A heat exchanger (70) having an inlet connected to the heat pump pipe (60) to control the temperature of the water by a heat exchange method; A heat pump pipe 61 connected to the outlet of the heat exchanger 70; A blower part connected to the heat exchanger (70) so as to send hot or cold air by temperature control of the heat exchanger (70) to the confinement house (10); And a boiler 120 connected to the other inlet and outlet of the heat exchanger 70 through hot water pipes 63 and 64, and a capacitor 51 is connected to the boiler 120 again through an electric wire, A separate hot water circulation pump is connected to at least one of the hot water pipes 63 and 64 so that hot water can circulate between the heat exchanger 70 and the boiler 120.

According to the above configuration, hot or cold air whose temperature is controlled by a heat exchange method can be sent to the confinement house 10 using the blower part.

Based on the above configuration, the process of the temperature control unit required for temperature control in the nursery of the automatic quarantine system using solar power according to the second embodiment of the present invention will be described as follows.

First, when it is confirmed that the groundwater stored in the storage tank 32 for storing the water of the groundwater provided to control the temperature inside the house 10 is insufficient, the control unit 14 located under the outer wall 21 ) Is operated to raise groundwater through a motor pump 48 provided in the upper and lower sides of the pipe 42 to fill the reservoir 32.

Thereafter, when the detection unit 26 located at one side of the house 10 detects a temperature change inside the house 10, the control unit 14 receives the sensed detection signal and sends it to the heat exchanger 70. Transmit a control signal.

Subsequently, after passing through the heat pump pipe 60, the groundwater contained in the storage tank 32 performs heat exchange while passing through the heat exchanger 70.

Thereafter, the groundwater whose temperature is controlled by the heat exchange method flows to the heat pump pipe 61.

On the other hand, in addition to the method of automatically sending the cold air or hot air to the house 10 based on the detection signal detected by the sensing unit, the selection button 52 is turned on and off ( It is also possible to configure the user to manually send the cold air or heat to the barn 10 by the operation of off).

(Third Example)

The feedlot of the automatic quarantine system using solar power according to the third embodiment of the present invention, in addition to the configuration of the feedlot of the automatic quarantine system using solar power according to the first and second embodiments of the present invention, the odor pipe ( 41), the pipes (42, 43, 44), a plurality of injection protruding pipes (46), and the heat pump pipes (60, 61) are the odor pipe (41), the pipes (42, 43,) to prevent freezing. 44), a plurality of spraying protruding pipes 46, a plurality of heating wire parts 100 installed on the outer surfaces of the heat pump pipes 60, 61, and a plurality of circular heat transfer parts connected to the plurality of heating wire parts 100, , The plurality of heating wire parts 100 are installed so that they do not overlap, and the rows of the plurality of heating wire parts 100 are transmitted through the plurality of circular heat transfer parts, the odor pipe 41, the pipes 42, 43, 44, The configuration is the same as in the first and second embodiments, except that the plurality of spraying protrusion pipes 46 and the heat pump pipes 60 and 61 are transmitted to the entire circumferential surface to maintain heat retention.

According to this configuration, a plurality of heating wire parts 100 installed on the outer surface of the pipes 42, 43, 44, a plurality of circular heat transfer parts 101, 102, 103, 104 connected to the plurality of heating wire parts 100, By 105), the odor pipe 41, the pipes 42, 43, 44, a plurality of spraying protruding pipes 46, and the heat pump pipes 60, 61 can be kept warm.

(Example 4)

The feedlot of the automatic quarantine system using solar power according to the fourth embodiment of the present invention, in addition to the configuration of the feedlot of the automatic quarantine system using solar power according to the first to third embodiments of the present invention, the odor pipe ( 41), the pipes (42, 43, 44), a plurality of injection protrusion pipes 46, and the heat pump pipes (60, 61), except that the heat insulating material is further included so as to maintain the thermal insulation. The configuration is the same as the embodiment.

According to this, the odor pipe 41, the pipes 42, 43, 44, the plurality of spraying protruding pipes 46, and the heat pump pipes 60, 61 may maintain thermal insulation by including an insulating material.

(Fifth Example)

The feedlot of the automatic quarantine system using solar power according to the fifth embodiment of the present invention, in addition to the configuration of the feedlot of the automatic quarantine system using solar power according to the first to fourth embodiments of the present invention, the odor pipe ( 41), the pipes (42, 43, 44), a plurality of injection protruding pipes (46), and the heat pump pipes (60, 61), except that the inside is waterproof to prevent rust, the first to fourth embodiments And the configuration is the same.

According to the above configuration, the odor pipe 41, the pipes 42, 43, 44, the plurality of spray protruding pipes 46, and the heat pump pipes 60, 61 are not rusted by the waterproof treatment.

(Example 6)

In addition to the configuration of the automatic quarantine system using solar power generation according to the first to fifth embodiments of the present invention, the farm of the automatic quarantine system according to the sixth embodiment of the present invention, the power unit Except for including a plurality of photovoltaic modules 50 positioned on the upper end of the outer wall 21 including the house 10, and the storage battery 51 installed outside the house 10, the first The configuration is the same as in the fifth embodiment.

Accordingly, it is possible to store and supply electric power generated by generating power by the plurality of solar modules 50 and the storage battery 51.

(Example 7)

In addition to the configuration of the breeding ground of the automatic quarantine system using solar power according to the first to sixth embodiments of the present invention, the kennel 10 ) Includes a ventilation unit 17 on the side, and closes the ventilation unit 17 by a control signal from the control unit 14 when spraying a deodorant solution or a virus solution, and after spraying a deodorant solution or a virus solution, The configuration is the same as in the first to sixth embodiments, except that the ventilation unit 17 is opened and ventilated by a control signal from the control unit 14.

Accordingly, when spraying a deodorant liquid or a virus liquid, the ventilation unit 17 is closed by a control signal from the control unit 14 to induce deodorization or virus death, and after the injection of a deodorant liquid or a virus liquid, the control unit 14 The ventilation unit 17 is opened and ventilated by a control signal of) so that fresh air can be introduced into the livestock house 10.

(Eighth Example)

The nursery of the automatic quarantine system using solar power according to the eighth embodiment of the present invention, in addition to the configuration of the quarantine of the automatic quarantine system using solar power according to the first to seventh embodiments of the present invention, the capacitor 51 The configuration is the same as in the first to seventh embodiments, except that the auxiliary capacitor 15 connected to the capacitor 51 is further included to assist the charging power of.

Accordingly, even when the capacitor 51 is discharged, it is possible to supply power by using the auxiliary capacitor 15.

(Example 9)

In addition to the configuration of the breeding ground of the automatic quarantine system using solar power according to the first to eighth embodiments of the present invention, the outer wall 21 ), except that the sensing unit, the control unit 14, a plurality of piezoelectric ceramics 110, the quarantine unit 40, the power unit, and the operation state display unit 22 that visually indicate the operation state of the temperature control unit are provided. The configuration is the same as in the first to eighth embodiments.

Accordingly, by visually checking the operating states of the sensing unit, the control unit 14, the plurality of piezoelectric ceramics 110, the quarantine unit 40, the power unit, and the temperature control unit, it is possible to take appropriate measures.

As described above, the functions of the present invention have been described with reference to the embodiments with the drawings shown, but the accompanying drawings are only examples, and the present invention is not limited thereto, and the scope of technical protection is based on the technical spirit of the appended claims. It will have to be decided.

1: feedlot quarantine system 2: accommodation space
10: Congratulations 11: Roof
12: Congratulations front page 13: Entrance gate
14: control unit 15: auxiliary capacitor
16: the back of the house 17: ventilation
20a1, 20a2, 20a3, 20a4, 20a5, 20a6: housing
20h:Housing groove 21:Outer wall
22: operation status display unit 23, 24, 26: sensing unit
25: electric wire cover 30: odor medicine container
31: control water source 32: reservoir
40: Defense device 40e1, 40e2, 40e2`, 40e3: Expansion part
41: odor pipe 42: reservoir pipe
43,44:pipe 45h:pipe groove
46: multiple jet protruding pipes 47: nozzle
48: motor pump 50: solar module
50h: support 51: storage battery
52: selection button 60, 61: heat pump pipe
63,64: hot water pipe 70: heat pump
90: blower part 91: fan
82,92: ventilation motor unit 100: heating wire
101, 102, 103, 104, 105: circular heating part
110: piezoelectric ceramic 120: boiler

Claims (15)

A barn 10 in the form of closing the inner space;
A sensing unit installed inside the confinement house 10 to directly or indirectly detect the presence or absence of a virus inside and outside the confinement house 10;
A controller 14 capable of receiving a detection signal from the detection unit and transmitting a control signal based on the received signal;
A plurality of piezoelectric ceramics 110 installed therein so as to mist the chemical liquid of the liquid tank installed at the lower end of the confinement house 10;
A quarantine device 40 capable of spraying the misted chemical solution into and out of the house 10; And
The sensing unit, the control unit 14, a plurality of piezoelectric ceramics 110, and a power unit connected to the quarantine device 40 to supply power ,
The control unit 14 is operated by the on (on) operation of the selection button (52) provided on one side of the outer wall (21) surrounding the barn 10 and off (off) the control unit 14 Can work,
The control unit 14 is a breeding ground of an automatic quarantine system using solar power, characterized in that when an error occurs in the control signal and the control signal is not operated, a sounding sound is made by embedding a speaker in the selection button 52 . The method of claim 1,
The detection unit includes a virus outbreak detection sensor (23, 24, 26) that directly detects the outbreak of a virus inside and outside the livestock house (10). The method of claim 2,
The breeding ground of the automatic quarantine system using solar power, characterized in that it further comprises a temperature sensing sensor for indirectly detecting the presence or absence of a virus in the livestock house 10 based on temperature detection inside the livestock house 10. The method of claim 2,
The detection sensor 26 combines the function of a temperature detection sensor that indirectly detects the presence or absence of a virus in the housing 10 based on temperature detection inside the housing 10 Automatic quarantine system using the feedlot. The method of claim 1,
The liquid tank includes a deodorant medicine container 30 provided with a deodorant medicine therein to remove the odor inside the confinement house 10, and a virus liquid medicine inside to remove viruses inside and outside the house 10 Including a viral liquid medicine container 31 provided,
A nursery of an automatic quarantine system using solar power, characterized in that a pipe 43 is connected to the virus liquid medicine container 31. The method of claim 2,
The detection sensor 26 combines the function of an odor detection sensor that indirectly detects the presence or absence of a virus in the house 10 based on the detection of the odor inside the house 10 The farm of the automatic quarantine system used. The method of claim 5,
The breeding ground of an automatic quarantine system using solar power, characterized in that it further comprises a temperature control unit capable of adjusting the temperature in the livestock house (10) based on a control signal from the control unit (14). The method of claim 7,
The temperature control unit,
A pipe 42 through which internal water can circulate by the motor pump 48;
A storage tank 32 connected upstream of the pipe 42;
A heat pump pipe 60 connected to the water storage tank 32;
A heat exchanger (70) having an inlet connected to the heat pump pipe (60) to control the temperature of the water by a heat exchange method;
A heat pump pipe 61 connected to the outlet of the heat exchanger 70;
A blower part connected to the heat exchanger (70) so as to send hot or cold air by temperature control of the heat exchanger (70) to the confinement house (10); And
It includes a boiler 120 connected to the other inlet and outlet of the heat exchanger 70 through hot water pipes 63 and 64,
A capacitor 51 is connected to the boiler 120 again through an electric wire,
Solar power generation, characterized in that a separate hot water circulation pump is connected to at least one of the hot water pipes (63, 64) so that hot water can circulate between the heat exchanger (70) and the boiler (120) Automatic quarantine system using the feedlot. The method of claim 5 ,
The plurality of piezoelectric ceramics 110,
By vibration through the control unit 14 automatically by solar power, characterized in that for spraying the deodorant aekyak all to the virus liquid medicine cabinet.So 31 whether the virus liquid medicine and the deodorizing liquid medicine cabinet.So 30 in the mist The breeding ground of the quarantine system. The method of claim 8,
The blower part 90,
The nursery of an automatic quarantine system using solar power, characterized in that the misted viral liquid medicine and the deodorant liquid medicine can be blown into and out of the house (10). The method of claim 8,
The quarantine device 40,
A pipe 44 connected to the pipe 43;
An odor pipe 41 connected between the pipe 43 and the deodorant medicine container 30;
A plurality of spraying protruding pipes 46 protruding to both sides of the pipe 44; And
A breeding ground of an automatic quarantine system using solar power, characterized in that it comprises a nozzle (47) provided at the free end of the plurality of spray projection pipes (46). The method of claim 11,
The odor pipe 41, the pipes 42, 43, 44, a plurality of injection protrusion pipes 46, and the heat pump pipes 60, 61 are the odor pipes 41, the pipes ( 42, 43, 44), a plurality of spraying protrusion pipes 46, and a plurality of heating wire parts 100 installed on the outer surfaces of the heat pump pipes 60, 61, a plurality of circles connected to the plurality of heating wire parts 100 Including a heat transfer part,
The plurality of heating wire parts 100 are installed so as not to overlap,
The heat of the plurality of heating wire parts 100 is transmitted through the plurality of circular heat transfer parts 102, 103, 104 and 105 through the odor pipe 41, the pipes 42, 43, 44, a plurality of spraying protruding pipes 46, and heat. A breeding ground of an automatic quarantine system using solar power, characterized in that it is transmitted to the entire circumferential surface of the pump pipes (60, 61) to maintain warmth. The method of claim 12 ,
The odor pipe (41), the pipes (42, 43, 44), a plurality of spraying protruding pipes (46), and the heat pump pipes (60, 61) further comprise an insulating material to maintain the heat retention. An automatic quarantine system using solar power generation. The method of claim 13,
The odor pipe 41, the pipes 42, 43, 44, a plurality of injection protruding pipes 46, and the heat pump pipes 60, 61,
A nursery of an automatic quarantine system using solar power, characterized in that the interior is waterproofed to prevent rust. The method of claim 1,
The power unit includes a plurality of photovoltaic modules 50 positioned at the top of the outer wall 21 including the house 10 inside, and a storage battery 51 installed outside the house 10 The breeding ground of the automatic quarantine system using solar power generation.

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