KR102199170B1 - THE PERISH LIVESTOCK BURIAL TANK capable of deodorant - Google Patents

Abstract

The present invention relates to a dead livestock burial tank capable of removing odors comprising: a tank which accommodates dead livestock and is buried in the ground in a closed structure; an injection pipe passing through the tank and injecting air into the tank by a blower; a discharge pipe for discharging gas generated in a reaction process by air injected into the tank; and a filter communicating with the discharge pipe to remove odor substances from the gas discharged from the discharge pipe to discharge purified gas.

Description

The PERISH LIVESTOCK BURIAL TANK capable of deodorant}

The present invention relates to a dead livestock burial tank for preventing the spread of secondary environmental damage caused by leachate while burying dead livestock in the ground during killing to prevent the spread of infection during an outbreak of foot-and-mouth disease or avian influenza.

In general, foot-and-mouth disease is a viral acute livestock infectious disease that occurs in cows, pigs, sheep, deer, goats, etc. with split-hoofed cows, and blisters are formed on the mucous membrane of the mouth or the skin between the claws, and the body temperature is rapid. It is an infectious disease showing symptoms of rising and falling appetite. It is designated as the first kind of livestock transmission in Korea along with highly pathogenic poultry influenza.

Rapid spread of infectious diseases when infectious diseases such as foot-and-mouth disease, highly pathogenic poultry influenza, cattle disease, right lung disease, bisera, poultry cholera, and poultry paste, which are the first type of livestock infectious disease In order to prevent this, the killing method is mainly used in which killing and burialing each occurrence area is used, and the killing livestock burial method includes trench burial, landfill, and mass burial designated by a zone. Is being used.

In the above-described burial method, trench burial is a method of digging a ditch with a relatively small burial and burying the carcasses side by side in it.It is relatively quick, convenient and economical, and has the advantage of less exposure to the surroundings. There is a difficulty in selecting a site, there is a high possibility of environmental hazards, and there are disadvantages that recycling after treatment is impossible.

In addition, the landfill is a medium-sized burial method in which a certain amount of livestock carcasses are piled up and buried, and has the advantage of rapid and mass processing, but the prediction of the time required for stabilization of the buried area is unclear, and the decay of the carcasses Therefore, it is difficult to determine the mechanism path, and there is a disadvantage that there is a concern of the occurrence of secondary foot-and-mouth disease damage due to a transport accident.

In addition, the zone-designated mass burial is a method of burial treatment by designating a range of a certain area as a carcass treatment plant for livestock as a large-scale burial, and has the advantage of being able to treat a large capacity and secure stability through planned treatment. However, there are drawbacks that consensus with local residents is required for site selection, large-scale continuous monitoring is required in a wide area, and a plan for handling buried areas after stabilization needs to be established separately.

Currently, domestic livestock burial related rules and guidelines include burial standards according to the Enforcement Rule of the Livestock Infectious Disease Prevention Act, poultry influenza, foot and mouth disease, infectious spongiform encephalopathy, emergency action guidelines, and follow-up management of buried sites using tracers according to the groundwater method.

Meanwhile, as an example of the prior art, in Korean Patent Registration No. 10-1831894, a tank body having an input duct provided at an input port on one side, a duct cover for opening and closing the input duct, and a cylindrical duct disposed around the input duct ; A central perforated pipe disposed in one row at the center of the bottom of the tank body; A pair of first to third side perforated pipes arranged symmetrically on the wall surface of the tank body and arranged in three rows along the height direction; A first connection perforated pipe connecting one side of the central perforated pipe and the first to third side perforated pipes, and having an upper end disposed in the tank body; A second perforated pipe for connecting the central perforated pipe and the other side of the first to third side perforated pipes, wherein an upper end portion is disposed to the outside through a cylindrical duct of the tank body and a first bent portion is formed at an end thereof; An independent perforated pipe having a second bent portion formed at an end thereof and disposed in the cylindrical duct so as to be adjacent to the second connection perforated pipe and a lower end disposed in the tank body; A first layer of sawdust formed at the bottom of the tank body; A diatomaceous earth layer forming an upper layer of the first alsawdust layer along the height direction, but lower than the height of the first alsawdust layer; A first sericite layer forming an upper layer of the diatomaceous earth layer; A second sawdust layer forming an upper layer of the first sericite layer along the height direction; A second sericite layer forming an upper layer of the second sawdust layer along the height direction; A carcass layer of avian influenza/foot-and-mouth disease livestock disposed on the second sericite layer; A third sericite layer forming an upper layer of the carcass layer along the height direction; And a third alsawdust layer forming an upper layer of the third sericite layer along the height direction, further comprising a cover-type soil layer forming an upper portion of the third alsawdust layer, and the first connection perforated pipe It is proposed an FRP tank for killing or reprocessing avian influenza/foot-and-mouth disease animals, characterized in that the upper part and the lower part of the independent merit pipe have the same height but are disposed at a higher position than the cover-type soil layer.

However, in the case of the above technology, there may be a problem of odor generated from the tank, and it is not possible to control the problem that the tank floats due to groundwater level fluctuations, leachate generation, etc.

Korean Patent Registration No. 10-1831894

The present invention is to solve the problems of the prior art as described above, by providing a deadstock treatment tank that promotes the natural decay of dead livestock, so as to cause carcass sludge, leachate, and outbreak infectious harmfulness caused by decay and decomposition of dead livestock. To prevent the risk of pathogens from spilling into the soil and spreading, as well as to sufficiently remove odors generated during this process, and to provide a dead stock burial tank that can solve the problem of deteriorating structural integrity due to floating by leachate, etc. to be.

A closed shaft buried tank capable of removing odor of the present invention (hereinafter referred to as "the tank of the present invention") includes: a tank that accommodates the closed shaft and is buried in the ground in a closed structure; An injection pipe inserted into the tank and injecting air into the tank by a blower; A discharge pipe for discharging gas generated in the reaction process by the air injected into the tank to the outside of the tank; And a filter communicating with the discharge pipe to remove malodorous substances from the gas discharged from the discharge pipe to discharge the purified gas.

As an example, a photovoltaic device is further configured, and the blower is operated by electricity self-generated by the photovoltaic device.

As an example, an anchor means configured in the tank and for controlling the buoyancy acting on the tank is further configured, and the anchor means includes a plurality of bending bars that are inserted downward from the ground while surrounding the tank. To do.

As an example, the bending bar has a hollow formed inside, a plurality of flow holes are formed, and a support pipe that communicates and connects each of the mountain portions of the plurality of bending bars, and a monitor that communicates with the support pipe and exposes the upper end to the ground. It characterized in that the tube is included.

As an example, a sensor is configured in the monitor tube, and an injection tube connected to a chemical tank is included in the monitor tube.

As an example, an air circulation induction device is configured at an upper end of the monitor tube. The air circulation induction device includes a housing having a space formed therein, a first impeller rotating according to wind at the upper end of the housing, and the first The second impeller is connected to the impeller by a gear and changes the rotation direction according to the rotation direction of the first impeller, and the second impeller rotates transversely within the housing, and the second impeller rotates between the second impeller and the first impeller. It is characterized in that it comprises a plurality of ventilation ports to allow external air to flow in or internal air to flow out according to the direction.

As an example, the housing is configured of an upper housing and a lower housing that is fastened to an upper end of the monitor tube and that the upper housing is rotatably fastened.

As described above, the tank of the present invention has the effect of preventing the spread of secondary environmental damage caused by leachate while burying dead cattle in the ground during killing to prevent the spread of infection during an outbreak of foot-and-mouth disease or avian influenza.

In addition, the tank of the present invention has the advantage of being discharged by removing odors from gases generated as a result of reactions such as aerobic action.

In addition, the tank of the present invention can control the floating of the tank buried by leachate, groundwater, etc., and thus has the advantage of enabling a solid landfill.

In addition, the tank of the present invention has the advantage of being able to purify soil contamination when leachate leaks.

1 is a side cross-sectional view showing an embodiment of the tank of the present invention,
2 is a front view showing an example in which the anchor means is provided in the tank of the present invention,
3 is a front view showing another embodiment of the embodiment shown in FIG. 2,
Figure 4 is a perspective view showing the anchor means shown in Figure 3,
Figure 5 is an operating state diagram of the embodiment shown in Figure 4,
6A and 6B are cross-sectional views illustrating an example in which an air circulation induction device is further configured in the embodiment shown in FIG. 4.

Hereinafter, the configuration and operation of the present invention will be described in more detail based on the accompanying drawings. In describing the present invention, terms or words used in the present specification and claims are the present invention based on the principle that the inventor can appropriately define the concept of terms in order to explain his or her invention in the best way. It must be interpreted as a meaning and concept consistent with the technical idea of

The tank (1) of the present invention accommodates the closed shaft as shown in Figure 1, and a tank (2) buried in the ground in a closed structure; An injection pipe (10) inserted into the tank (2) and injecting air into the tank (2) by a blower (9); A discharge pipe 11 for discharging gas generated in the reaction process by the air injected into the tank 2 to the outside of the tank 2; And a filter 12 communicating with the discharge pipe 11 to remove malodorous substances from the gas discharged from the discharge pipe 11 to discharge the purified gas.

In addition, the photovoltaic device 8 is further configured, and the blower 9 is operated by electricity self-generated by the photovoltaic device 8.

The tank 2 is a closed structure and corresponds to a configuration in which the closed shaft is accommodated in the ground. The tank 2 is not limited in its material, but an FRP excellent in corrosion resistance, etc. will be preferred.

Although not shown in the drawings, the tank 2 should be provided with an opening/closing means so that the dead shaft is accommodated therein, and in addition, gas discharging means or the like may be configured. Since various known technologies exist for the opening/closing means, gas discharge means, etc., detailed descriptions thereof will be omitted.

The injection pipe 10 is inserted from the outside of the tank 2 to the inside and corresponds to a configuration in which air is injected into the tank 2 by a blower 9. The blower 9 can be driven by electricity self-generated by the photovoltaic device 8 as shown in FIG. 1. In this way, air is injected into the tank 2 through the injection pipe 10 so that an exhalation action is performed.

The discharge pipe 11 corresponds to a configuration for discharging gas generated in the process of an aerobic reaction by air injected into the tank 2 by the injection pipe 10 to the outside of the tank 2.

The filter 12 communicates with the discharge pipe 11 to remove malodorous substances from the gas discharged from the discharge pipe 11 to discharge the purified gas. The filter 12 is capable of applying various known technologies. Bar, for example, by filling the casing with activated carbon, odorous substances can be removed from the gas discharged by the adsorption action of the activated carbon.

In addition, in the present invention, as shown in Fig. 2, an anchor means 4 may be provided. The anchor means 4 securely fixes the tank 2 to the ground so that the tank 2 ) Is to control the floating.

The anchor means (4) is characterized in that it comprises a plurality of bending bars (41) which are inserted downwardly from the ground while surrounding the tank (2).

That is, anchoring is achieved by allowing both ends to be inserted downwardly into the ground while a plurality of bending bars 41 are respectively wrapped around the tank 2 along the longitudinal direction of the tank 2.

As shown in FIGS. 3 and 4, the anchor means 4 of the present embodiment has a hollow formed therein, a plurality of flow holes 411 are formed, and the mountain of the plurality of bending bars 41 It characterized in that it includes a support pipe 42 that communicates and connects each part, and a monitor pipe 43 that communicates with the support pipe 42 and exposes the upper end to the ground. That is, in the present embodiment, the anchor means 4 allows the plurality of bending bars 41, the support pipe 42, and the monitor pipe 43 to communicate with each other.

The reason that the monitor tube 43 is configured as described above is that when leachate is generated from the tank 2, harmful gases such as sulfur dioxide are spread out in the ground, and the bending bar 41 through the flow hole 411 of the bending bar 41 ) It is introduced into the interior and is discharged to the ground through the monitor tube 43 riding the support tube 42. Accordingly, the manager, etc., detects that leachate is generated from the tank 2 when harmful gas is discharged through the monitoring tube 43, and in response, injects a chemical for purification of the leachate into the monitor tube 43 exposed to the ground. , The chemicals injected in this way are to be sprayed into the soil contaminated by leachate through the flow hole 411 of the support pipe 42-bending bar 41.

In order to express such an operation mechanism, a sensor 431 is configured in the monitor tube 43, and an injection tube connected to the drug tank 43 is included in the monitor tube 43.

As shown in FIG. 5, the sensors 431 are configured in a plurality of monitor tubes 43, respectively, and the sensing values of each sensor 431 are transmitted to the control unit 5, and the sensing values from each monitor tube 43 The control unit 5, which received the transmission, analyzes whether a leak of leachate occurs at the location of the monitor tube 43, and when the monitor tube 43 is monitored as leaking, the control unit 5 is a chemical tank ( 43) is to be controlled so that the drug is injected into the monitor tube 43. The control of the chemical tank 43 by the control unit 5 is not shown in the drawing, but corresponds to the control of the valve and pump of the injection pipe.

In addition, in the present invention, as shown in FIGS. 6A and 6B, an example in which an air circulation induction device 7 is further configured at the upper end of the monitor tube 34 is presented.

The air circulation induction device 7 includes a housing 71 having a space formed therein, a first impeller 72 rotating according to the wind at the upper end of the housing 71, the first impeller 72 and a gear The second impeller 73 is connected to the first impeller 72 and changes the rotation direction according to the rotation direction of the first impeller 72 and rotates transversely within the housing 71, and the second impeller 73 and the first It is characterized in that it comprises a plurality of ventilating ports 74 to allow external air to flow in or internal air to flow out according to the rotation direction of the second impeller 73 between the impellers 72.

The housing 71 is fastened to the monitor tube 43, and the housing 71 is fastened to the upper housing 711 and the top of the monitor tube 43 so that the upper housing 711 is rotatable. It is composed of a lower housing 712 to be fastened, and the upper housing 711 is configured to be rotated according to the wind direction. Here, a structure in which the upper housing 711 is rotatably fastened at the upper end of the lower housing 712 can be applied to various known structures, and thus a detailed description thereof will be omitted.

The first impeller 72 is mounted so as to be exposed to the outside at the upper end of the housing 71 so that rotational interlocking is performed in a different direction according to the wind.

The second impeller (73) is connected to the first impeller (72) by a gear to change the rotation direction according to the rotation direction of the first impeller (72) and to rotate in the transverse direction inside the housing (71). It is mounted to enable rotational interlocking in a direction orthogonal to the first impeller 72.

Although the reference number is not shown, the first impeller 72 and the second impeller 73 are connected by a gear, so that the rotational interlocking of the first impeller 72 by the wind prevents the rotational interlocking of the second impeller 73. According to the rotation direction of the first impeller 72, the second impeller 73 induces the inflow of air (a1) from the outside through the vent hole 74 or the discharge of the air (a2) from the inside. will be.

In this way, when there is an inflow of air (a1) from the outside, it is not shown in the drawing, but air (a1) flows to the support pipe 42 through the monitor pipe 43 and the air guided to the support pipe 42 is It is transmitted to each bend bar 41 so that air (a1) is injected into the ground through the flow hole 411 of each bend bar 41. In this way, by injecting air (a1) into the ground, aerobic action is triggered to purify contaminated soil including leachate.

In addition, when the air (a2) is discharged from the inside, it is discharged to the ventilation opening 74 through the bending bar 41-the support pipe 42-the monitor pipe 43. The internal air a2 is mentioned above. Purification without the use of a separate power source and chemicals by injecting air (a1) for aerobic action as a process gas generated during one aerobic action and discharging air (a2) as a process gas generated during aerobic action. It is to allow the action to take place.

It will be appreciated by those skilled in the art through the above description that various changes and modifications can be made without departing from the technical idea of the present invention. Therefore, the technical scope of the present invention is not limited to the contents described in the detailed description of the specification, but should be determined by the claims.

1: tank of the present invention 2: tank
3, 4: anchor means

Claims (7)

A tank that accommodates the dead livestock and is buried in the ground in a closed structure;
An injection pipe penetrating into the tank and injecting air into the tank by a blower;
A discharge pipe for discharging gas generated in the reaction process by the air injected into the tank to the outside of the tank;
A filter communicating with the discharge pipe to remove odorous substances from the gas discharged from the discharge pipe to discharge the purified gas; and
An anchor means configured in the tank and controlling the action of buoyancy on the tank is further configured, and the anchor means includes a plurality of bending bars that are inserted downward from the ground while surrounding the tank,
The bending bar includes a support pipe having a hollow formed therein, a plurality of flow holes formed therein, and connected to each of the mountain portions of the plurality of bending bars, and a monitor pipe communicating with the support pipe and the upper end exposed to the ground. Our buried shaft buried tank capable of removing odor, characterized in that it is.
The method of claim 1,
A photovoltaic device is further configured, and the blower is operated by electricity self-generated by the photovoltaic device.
delete delete The method of claim 1,
The monitoring tube is configured with a sensor, and the monitoring tube includes an injection tube connected to the chemical tank.
The method of claim 1,
An air circulation induction device is configured at the top of the monitor tube,
The air circulation induction device includes a housing having a space therein, a first impeller rotating according to wind at an upper end of the housing, and a gear connected to the first impeller to change the rotation direction according to the rotation direction of the first impeller. A second impeller that is different and interlocks with rotation in the transverse direction inside the housing, and between the second impeller and the first impeller according to the rotation direction of the second impeller to allow external air to flow in or internal air to flow out. A closed shaft buried tank capable of removing odor, comprising a ventilating port.
The method of claim 6,
The housing is fastened to the upper housing and the upper end of the monitor tube, the closed shaft buried tank capable of removing odors, characterized in that it is composed of a lower housing that is fastened so that the upper housing is rotatable.

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