KR102651336B1 - Livestock stench monitoring system - Google Patents

Abstract

The present invention relates to a livestock odor monitoring system that not only eliminates the risk of corrosion due to moisture and odorous gases because there is no risk of exposure to moisture and odorous gases, but also reduces the burden of replacement costs. It is largely installed in the livestock barn to monitor gases. an odor detection unit that detects a malodor, and an output unit that outputs odor information detected by the odor detection unit; In the livestock house odor monitoring system including a control unit that controls the output unit based on the detection signal of the odor detection unit, the odor detection unit is disposed inside, a gas inlet through which gas flows in, a gas outlet through which gas is discharged, and an inside a housing having a flushing gas inlet through which flushing gas for cleaning flows, and a check valve for blocking external air from entering the gas outlet and discharging the gas; It is characterized in that it comprises a; a gas supply unit for supplying the gas of the livestock house to the inside of the housing through the gas inlet of the housing.

Description

Livestock stench monitoring system {Livestock stench monitoring system}

The present invention relates to a livestock odor monitoring system that not only eliminates the risk of corrosion due to moisture and odorous gases by eliminating the risk of exposure to moisture and odorous gases, but also reduces the burden of replacement costs.

As the scale of the livestock industry grows, the amount of livestock waste generated increases, and some farms overbreed livestock exceeding the standards for the appropriate number of livestock under the Livestock Act or fail to properly manage livestock waste, leading to a continuous increase in complaints related to livestock odor.

As of 2016, the amount of ultrafine dust generated in the agricultural and livestock sector is 20.3 thousand tons, accounting for 5.8% of the total amount generated, and the emission of secondary fine dust precursors is 356 thousand tons, accounting for 12.1% of the total amount.

The main sources of primary ultrafine dust are biological combustion, fugitive dust from agricultural work, and old agricultural machinery, and secondary fine dust precursors are ammonia from livestock manure and chemical fertilizers and volatile organic compounds generated from biological combustion. (VOCs).

In particular, in the case of ammonia, 237,000 tons, or 82.3% of the total emissions, are emitted from the agricultural/rural sector, of which livestock manure accounts for 91.6% and chemical fertilizers account for 8.0%.

In order to systematically reduce fine dust in the agricultural, livestock and agricultural sector, the Ministry of Agriculture, Food and Rural Affairs will reduce ultrafine dust and ammonia emissions in the agricultural/rural sector by 30% compared to 2016 by 2022. are planning to develop.

In addition, the Ministry of Agriculture, Food and Rural Affairs plans to focus on managing farms that raise more than the optimal number of livestock and livestock odor farms, under the recognition that ‘it is difficult to develop a sustainable livestock industry without solving livestock odor.’

The fundamental approach to solving livestock odor is to accurately identify the causative substances and sources, understand the main odor components and feed nutrient utilization process for each livestock species (odor reduction through nutritional control), and modernize livestock facilities. As active management was required, an IOT-based livestock odor reduction integrated monitoring device was proposed under registration number 20-0487797.

However, in the case of the Domestic Utility Model Publication No. 20-0487797, the sensor unit, which consists of one or more sensors installed at predetermined intervals inside the livestock house to acquire environmental information data of the livestock house, was exposed to moisture and odorous gas and corroded. There is a problem that the lifespan is shortened accordingly.

In addition, one or more sensor units whose lifespan has been shortened due to corrosion are usually expensive, so there is also a problem of burdensome replacement costs.

Domestic Registered Utility Model Gazette Registration No. 20-0487797

The present invention was created to solve the above-mentioned problems, and provides a livestock odor monitoring system that not only eliminates the risk of corrosion due to moisture and odorous gases because there is no risk of exposure to moisture and odorous gases, but also reduces the burden of replacement costs. The purpose is to provide.

The present invention for achieving the above object includes: an odor detection unit installed in a livestock house to detect odor contained in gas, and an output unit for outputting odor information detected by the odor detection unit; In the livestock house odor monitoring system including a control unit that controls the output unit based on the detection signal of the odor detection unit, the odor detection unit is disposed inside, a gas inlet through which gas flows in, a gas outlet through which gas is discharged, and an inside a housing having a flushing gas inlet through which flushing gas for cleaning flows, and a check valve for blocking external air from entering the gas outlet and discharging the gas; Provided is a livestock house odor monitoring system comprising a gas supply unit for supplying livestock house gas into the interior of the housing through a gas inlet of the housing.

Here, the odor detection unit includes an ammonia gas sensor that detects an odor consisting of ammonia contained in the gas; It is preferably configured to include a hydrogen sulfide gas sensor that detects an odor consisting of hydrogen sulfide contained in the gas.

And, the front side of the housing is open, and an opening and closing door that opens and closes the front side of the housing; It is preferable to include a packing part provided between the rear edge of the opening and closing door and the front edge of the housing to maintain airtightness inside the housing.

Furthermore, it is preferable that the control unit be provided with a connection terminal connected to the odor detection unit in a detachably inserted state.

In addition, it is preferable that the flushing gas consists of an inert gas.

In addition, it is preferable that the gas supply unit includes a filter that removes foreign substances contained in the gas of the livestock house supplied into the housing.

In the present invention, since the odor detection unit that detects the odor contained in the gas of the livestock house is placed inside an airtight housing, there is no risk of the odor detection unit being exposed to moisture and odor gas, so the expensive odor detection unit is protected from moisture and odor. Not only is there no risk of corrosion caused by gas and the lifespan is shortened, but it also has the effect of reducing the burden of replacement costs.

Figure 1 is a front view schematically showing a livestock odor monitoring system according to an embodiment of the present invention.
Figure 2 is a block diagram schematically showing the control state of the control unit.
Figure 3 is a front view schematically showing the state in which the odor detection unit is disposed inside the housing.
Figures 4 and 5 are plan views schematically showing a state in which the front side of the housing is opened and closed through an open/close door.
Figure 6 is an exploded perspective view schematically showing a state in which the connection terminal of the odor detection unit is separated from the connection terminal of the control unit.
Figure 7 is a combined perspective view of Figure 6.

Hereinafter, preferred embodiments of the present invention will be described in more detail based on the attached drawings. Of course, the scope of the present invention is not limited to the following examples, and various modifications can be made by those skilled in the art without departing from the technical gist of the present invention.

Figure 1 is a front view schematically showing a livestock house odor monitoring system according to an embodiment of the present invention, and Figure 2 is a block diagram schematically showing the control state of the control unit.

As shown in Figures 1 and 2, the livestock odor monitoring system, which is an embodiment of the present invention, largely consists of an odor detection unit 10, an output unit 20, a control unit 30, a housing 5, and a gas supply unit 9. It is made including.

First, the odor detection unit 10 is installed in the livestock house to detect odor contained in the gas at regular time intervals under the control of the control unit 30. For example, it is largely comprised of an ammonia gas sensor 110 and It may be configured to include a hydrogen sulfide gas sensor 120.

The ammonia gas sensor 110 can detect an unpleasant odor consisting of ammonia contained in the gas of the livestock house.

The hydrogen sulfide gas sensor 120 can detect an odor consisting of hydrogen sulfide contained in the gas of the livestock house.

Next, the output unit 20 is for outputting odor information detected by the odor detection unit 10, and may be made of various types of displays, such as an LCD display and an LED display, for example.

The output unit 20 can display various types of odor information, including the type and concentration of odor detected by the odor detection unit 10, in the form of letters, numbers, symbols, etc.

Next, the control unit 30 is to control the output unit 20 based on the detection signal from the odor detection unit 10, and the odor detection unit 10 detects the odor contained in the gas. In this case, the output unit 20 can receive power from the power supply unit 31 under the control of the control unit 30 and output odor information.

Meanwhile, the livestock house includes a temperature sensing unit 17, which may be comprised of a temperature sensor that detects the temperature of the livestock house; A humidity sensing unit 19, which may be made of a humidity sensor that detects the humidity of the livestock house, may be further installed.

The output unit 20 displays the temperature value of the livestock house detected by the temperature detection unit 17 and the humidity value of the livestock house detected by the humidity detection unit 19 under the control of the control unit 30 using letters and numbers. , symbols, etc. can be displayed on the screen in various ways.

Furthermore, the odor information of the livestock house detected by the odor detection unit 10, the temperature value of the livestock house detected by the temperature detection unit 17, and the humidity value of the livestock house detected by the humidity detection unit 19 can be determined through Wi-Fi, Bluetooth, , wired and wireless Internet, virtual private network (VPN), etc., can be transmitted and stored in an integrated control management server (not shown) for real-time vertical management of livestock environmental information data through the communication unit 8, which can be of various types.

Next, the housing 5 is designed to accommodate the odor detection unit 10 in an airtight state to prevent the odor detection unit 10 from corroding due to exposure to moisture and odor gases in the livestock house. , the odor detection unit 10 may be disposed together with the control unit 30 inside the housing 5.

A gas inlet 51, a gas outlet 52, and a flushing gas inlet 53 may be formed in the housing 5, respectively.

For example, a gas inlet line 511 communicating with the inside of the housing 5 may be airtightly connected to the middle portion of one side of the housing 5.

A gas inlet 51 through which gas from the livestock house flows may be formed inside the gas inlet line 511.

A gas discharge line 521 communicating with the interior of the housing 5 may be airtightly connected to the lower middle portion of the housing 5.

A gas outlet 52 may be formed inside the gas discharge line 521 to discharge the livestock gas flowing into the housing 5.

The gas outlet 52 formed inside the gas discharge line 521 discharges the livestock house gas flowing into the inside of the housing 5 to the outside of the housing 5. A check valve 54 may be provided to block air from flowing into the housing 5 through the gas outlet 52.

Through the check valve 54, the odor detection unit 10 disposed inside the housing 5 can be prevented from being corroded by moisture and odor gas contained in the external air of the housing 5. .

One side of the flushing gas inlet line 531 communicating with the inside of the housing 5 may be airtightly connected to the middle portion of the other side of the housing 5.

A flushing gas inlet 53 may be formed inside the flushing gas inlet line 531 through which flushing gas for cleaning the inside of the housing 5 flows.

It is supplied into the inside of the housing 5 through the gas inlet 51 to prevent the odor detection unit 10 from being corroded by moisture and odor gas contained in the gas remaining inside the housing 5. To this end, the flushing gas, for example, may be composed of external air from which moisture and odorous gas have been removed, and may clean the inside of the housing 5.

Or, as another example, the flushing gas for cleaning the inside of the housing 5 may be made of nitrogen, helium, neon, argon, krypton, xenon, radon, etc., which are chemically stable and do not react well with other atoms. It can be made of inert gas.

During the process of cleaning the inside of the housing 5 with the flushing gas, some of the flushing gas supplied into the inside of the housing 5 may be discharged to the outside of the housing 5 through the gas outlet 52. there is.

Additionally, a flushing gas supply unit 15 may be further provided to supply flushing gas into the interior of the housing 5 through the flushing gas inlet line 531.

The flushing gas supply unit 15 may be made of various types, such as a storage tank in which the flushing gas is stored, and the other side of the flushing gas inlet line 531 is connected to the flushing gas supply unit 15. 15) can be confidentially connected to one side.

Furthermore, the flushing gas inlet line 531 may be provided with an opening/closing valve 151 that maintains a certain distance from the flushing gas supply unit 15.

For example, after the odor detection unit 10 detects the odor contained in the livestock house gas flowing into the housing 5, the opening/closing valve 151 is opened by the operator through the flushing gas inlet line 531. ) can be manually opened and closed or the flushing gas inlet line 531 can be automatically opened and closed at regular time intervals under the control of the control unit 30.

The gas inlet line 511, the gas discharge line 521, and the flushing gas inlet line 531 may be made of various types such as hoses and pipes.

Next, the gas supply unit 9 is for supplying livestock gas to the inside of the housing 5 through the gas inlet 51 of the housing 5, for example, on one side of the housing 5. It may be of various types, such as a vacuum pump or blower, provided in the gas inlet line 511 so as to be positioned in the right direction.

The gas supply unit 9, which can be made of various types such as a vacuum pump and a blower, can be operated at regular time intervals under the control of the control unit 30 to supply livestock gas into the interior of the housing.

In order to efficiently remove foreign substances such as dust contained in the gas of the livestock house supplied by the gas supply unit 9 into the interior of the housing 5, the gas inlet line 511 on one side of the gas supply unit 9 ) may be provided with a filter 13 that maintains a certain distance from the supply unit 9.

Figure 3 is a front view schematically showing the state in which the odor detection unit is disposed inside the housing.

Next, the control unit 30 is made of various types, such as a printed circuit board, and can be provided in various ways, such as by bolting it to the inside of the housing 5 at a certain height, as shown in FIG. 3.

The ammonia gas sensor 110 and the hydrogen sulfide gas sensor 120 of the odor detection unit 10 may be provided on one front side and the other front side of the control unit 30, respectively.

Figures 4 and 5 are plan views schematically showing a state in which the front side of the housing is opened and closed through an open/close door.

For smooth replacement and repair of the odor detection unit 10 and the control unit 30, for example, the front side of the housing 5 can be opened, and the front side of the housing 5 is shown in FIGS. 4 and 5. As can be seen, an opening/closing door (7) may be provided to open and close the front side of the housing (5).

The opening/closing door (7) may be completely separated from the front side of the housing (5), but preferably, to prevent loss of the opening/closing door (7), for example, one side of the opening/closing door (7) is separated from the front side of the housing (5). It can be axially coupled to one side of the front side of the housing (5), and the other side of the opening/closing door (7) is locked by a known locking means (2) that can be provided in the middle of the other front side of the housing (5). It can be fixed.

In particular, external air containing moisture and odorous gas that causes corrosion of the odor detection unit 10 flows into the interior of the housing 5 through the gap between the housing 5 and the opening and closing door 7. A packing part 11 may be further provided to prevent this from happening.

The packing part 11 may be provided between the rear edge of the opening/closing door 7 and the front edge of the housing 5 to maintain airtightness inside the housing 5.

The packing part 11 is a rubber packing in the form of a square frame that extends a certain length along the rear edge of the opening and closing door 7 and can be provided in various ways such as adhesive bonding to the rear edge of the opening and closing door 7. It can be made up of various types.

At the front edge of the housing 5 facing the packing part 11, a groove 5a is formed in a shape corresponding to the packing part 11 to press and receive the packing part 11. It can be formed into a shape corresponding to (11).

As discussed above, the present invention is such that the odor detection unit 10, which detects the odor contained in the gas of the livestock house, is placed inside the airtight housing 5, so that the odor detection unit is exposed to moisture and odor gas. Since there is no risk of exposure of the expensive odor detection unit 10, there is no risk of the expensive odor detection unit 10 being corroded by moisture and odorous gases and shortening its lifespan, and the burden of replacement costs can also be reduced.

Figure 6 is an exploded perspective view schematically showing a state in which the connection terminal of the odor detection unit is separated from the connection terminal of the control unit, and Figure 7 is a combined perspective view of Figure 6.

Next, in order to smoothly replace and repair the odor detection unit 10 disposed inside the housing 5 together with the control unit 30, the front of the control unit 30 as shown in FIGS. 6 and 7. It is preferable that the ammonia gas sensor 110 and the hydrogen sulfide gas sensor 120 of the odor detection unit 10 are provided separately.

For this purpose, protruding connection terminals 101 are placed radially at regular intervals on the rear side opposite to the front side of the ammonia gas sensor 110 of the odor detection unit 10 and the rear side opposite to the front side of the hydrogen sulfide gas sensor 120. can be formed.

In addition, a connection terminal into which the protruding connection terminal 101 of the odor detection unit 10 is detachably inserted is located in the portion of the control unit 30 facing the protruding connection terminal 101 of the odor detection unit 10. (301) may be formed at regular intervals.

5; housing, 9; gas supply department,
10; Odor detection unit, 20; output section,
30; Control unit.

Claims (6)

an odor detection unit installed in the livestock house to detect odor contained in gas, and an output unit to output odor information detected by the odor detection unit; In the livestock house odor monitoring system including a control unit that controls the output unit based on the detection signal of the odor detection unit,
The odor detection unit is disposed inside, and a gas inlet through which gas flows in, a gas outlet through which gas is discharged, and a flushing gas inlet through which a flushing gas made of inert gas flows in to clean the inside are formed, and external air flows through the gas outlet. A housing equipped with a check valve that blocks the inflow of gas and discharges gas, and whose front side is open;
a gas supply unit for supplying livestock gas into the interior of the housing through a gas inlet of the housing;
It includes a flushing gas supply unit for supplying flushing gas into the interior of the housing through a flushing gas inlet of the housing,
In order to smoothly replace and repair the odor detection unit disposed inside the housing together with the control unit, protruding connection terminals are formed radially at regular intervals on the rear of the odor detection unit, and the protruding connection terminals face the protruding connection terminals of the odor detection unit. A livestock house odor monitoring system, characterized in that connection terminals into which the protruding connection terminals are detachably inserted are formed at regular intervals in the control unit area.
According to clause 1,
The odor detection unit includes an ammonia gas sensor that detects an odor consisting of ammonia contained in the gas;
A livestock odor monitoring system comprising a hydrogen sulfide gas sensor that detects an odor consisting of hydrogen sulfide contained in the gas.
According to clause 1,
The front side of the housing is open,
an opening and closing door that opens and closes the front side of the housing;
A livestock odor monitoring system comprising a packing part provided between the rear edge of the door and the front edge of the housing to maintain airtightness inside the housing.
According to clause 1,
A livestock farm odor monitoring system comprising a filter that removes foreign substances contained in the livestock gas supplied by the gas supply unit into the housing. delete delete