KR200454922Y1

KR200454922Y1 - Vehicle disinfection equipment

Info

Publication number: KR200454922Y1
Application number: KR2020110001329U
Authority: KR
Inventors: 최도광
Original assignee: 최도광
Priority date: 2011-02-17
Filing date: 2011-02-17
Publication date: 2011-08-04

Abstract

The present invention discloses a vehicle disinfection device. The present invention includes a disinfectant solution for prevention of the entire vehicle including both sides of the vehicle as well as the bottom and the inner and outer sides of the wheel, as well as a vehicle disinfection device for reusing the disinfectant sprayed on the vehicle, accordingly Prevents livestock disease prevention at the station installed at the station and effectively prevents livestock disease from spreading to other areas through the vehicle so that early response can be made quickly even if livestock disease occurs. To reduce the costs associated with the quarantine.

Description

Vehicle disinfection device

The present invention relates to a device for disinfecting a vehicle that passes through a barn, a pig house, and various barn areas, and more specifically, the transmission of livestock diseases through automatic disinfection of the entire vehicle. It relates to a vehicle disinfection device that can effectively prevent the.

In general, livestock diseases such as foot-and-mouth disease viruses are extremely damaging, and if a livestock disease such as foot-and-mouth disease occurs in a particular area, then quarantining the area and then killing and burning any infected or suspicious livestock They are thrown away, other contaminated items are cleaned and the infected farms and areas are quarantined for several months.

In this case, when livestock diseases such as foot and mouth disease occurs in a specific area, the vehicle to enter and exit is disinfected with disinfectant solution, such disinfectant disinfection is made by installing a station in the entrance and exit.

That is, after installing the jaws for slowing down the running speed of the vehicle on the access road, the nozzles for disinfectant spraying are installed on the bottom surface as well as on the left and right sides of the jaw, while the spray nozzles are disinfected with a pipe (or hose). The tank to be stored is connected to a pump for pumping disinfectant solution.

However, the conventional vehicle disinfection device is a method of high pressure injection of the disinfectant solution to both sides and the bottom of the vehicle, in the case of the high-pressure injection disinfectant solution to both sides of the vehicle can be expected to prevent the effect by forming a coating while flowing down from the vehicle side In addition, there is a problem that the disinfectant is not evenly applied to the inner portion of the wheel located at the bottom of the vehicle, as well as the vehicle bottom side, and thus, the entire vehicle passing through the ramp has not been quickly prevented at once.

Therefore, in the past, a fighter uses a manual fighter to spray the disinfectant solution on the inside and outside of the vehicle wheel. However, since the fighter sprays the disinfectant solution on a slow vehicle, the fighter evenly disinfects the disinfectant solution inside the wheel. In order to spray the disinfectant solution evenly, the vehicle must be stopped. In this case, a problem that causes traffic congestion on the access road will occur.

In addition, in the case of a conventional vehicle disinfection device installed in the access road, the disinfectant solution through the injection nozzle can not be recycled once it is made, the consumption of the disinfectant solution for the defense must be large, which is inevitably expensive will be.

Accordingly, the present invention is to improve the problem of the conventional vehicle disinfection device as described above, the vehicle disinfection device for applying a disinfectant for the entire vehicle, including both sides of the vehicle, as well as the bottom side and the inner and outer sides of the wheel. By doing so, it is possible to effectively prevent livestock disease prevention at the station installed at the entrance and exit without stopping the vehicle, thereby preventing the livestock disease from spreading to other areas through the vehicle, and promptly responding to the initial response even if livestock disease occurs. The purpose is to provide a vehicle disinfection device that can be made.

In addition, the vehicle disinfecting apparatus of the present invention is to be able to reuse the disinfectant sprayed on the vehicle, it is another object to reduce the cost according to the prevention.

The present invention vehicle disinfection device for achieving the above object, to form the first and second inclination for the entry and exit of the vehicle, so that the sterilization is made while the wheel is locked to a certain height when passing the vehicle between the first and second inclination. Protective structure to form a disinfection tank filled with a predetermined level of disinfectant solution; A first injector which is formed to be inclined at the tip end side of the second inclined structure and sprays a predetermined amount of antiseptic solution to the bottom side of the vehicle to be passed; A second injector formed on both sides of the defense structure and spraying a predetermined amount of antiseptic solution to both sides of the vehicle to be passed; A storage tank connected to the disinfection tank as well as to the first and second injection units through a supply pipe and storing a disinfecting solution; A first pump configured in the supply pipe and configured to pump the disinfecting liquid stored in the storage tank to supply the disinfection tank and the first and second injection units; And a control unit controlling a pumping operation of the first pump. It is configured to include.

In addition, the sterilization tank and the storage tank is configured to be connected to the circulation pipe, the circulation pipe in the second pump pumping operation under the control of the control unit to recycle the disinfectant solution to the storage tank for reuse of the disinfectant solution filled in the disinfection tank A pump and a refining unit configured to pass only a liquid disinfectant solution to the storage tank while removing foreign substances from the recycled disinfectant solution when the disinfectant solution is recycled to the storage tank by the second pump; To configure the connection.

In addition, the storage tank constitutes an input line, the input line is opened and closed under the control of the controller; A chemical liquid input unit for inputting a certain amount of chemical liquid into the storage tank when the valve is opened so that the disinfecting liquid passed by the refining unit is recycled to the storage tank again; It is configured to include.

The chemical liquid injecting unit may include a chemical liquid storage unit for storing a predetermined amount of chemical liquid, and a third pump for pumping the chemical liquid stored in the chemical liquid storage unit under the control of the controller to inject the chemical liquid into the storage tank.

In addition, the chemical liquid injection point into the storage tank is made when the count information of the counting unit for counting the number of times according to the pumping operation of the second pump matches the reference count information set in the control unit.

In addition, when the chemical liquid is introduced into the storage tank, a level sensor is configured in the storage tank, and the level information of the disinfectant solution detected by the level sensor is matched with reference level information set in the controller.

1 is a schematic block diagram of a vehicle disinfection apparatus according to an embodiment of the present invention.
Figure 2 is a front schematic view showing the structure of the vehicle disinfection device in an embodiment of the present invention.
Figure 3 is a side schematic view of the use state that the disinfection is made when the vehicle enters the disinfection device in an embodiment of the present invention.
Figure 4 is a side schematic view of the use state in which disinfection is carried out when the vehicle advances from the disinfection apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a schematic block diagram of a vehicle disinfection apparatus according to an embodiment of the present invention, Figure 2 is a schematic front view showing the structure of the vehicle disinfection apparatus according to an embodiment of the present invention, Figure 3 is an embodiment of the present invention disinfection 4 is a side schematic view of a usage state in which disinfection occurs when the vehicle enters the apparatus, and FIG. 4 illustrates a side schematic view of a use state in which disinfection is performed when the vehicle advances from the disinfection apparatus according to an embodiment of the present invention.

1 to 4, the vehicle disinfection device according to an embodiment of the present invention is a boundary road between the livestock disease occurrence area and other areas, barn, pig house, and various barn areas. Preventing livestock diseases from being transmitted to areas where disease does not occur through a vehicle while being installed at the entrance / exit of (prevention zone), and the defense structure 10, the first and second injection parts 20, 30, and storage The tank 40, the first pump 50, the control unit 60, the second pump 70, the purification unit 80, the valve 91, the chemical liquid injection unit 90, as well as the counter unit 100 ) Or the water level sensor 110.

The protective structure 10 is installed in the access road to prevent the transmission of livestock diseases through the vehicle, for this purpose, the first and second slopes 11 and 12 and the disinfectant solution for the entry and exit of the vehicle is not filled. Includes a disinfection tank 13.

The disinfection tank 13 is to disinfect the wheel while the vehicle is locked to a certain height when the vehicle passes between the first and second inclined portions (11, 12), the storage tank 40 in the disinfection tank (13) It is configured to receive a certain amount of disinfectant solution from the supply pipe (L1) from.

The first injection unit 20 is connected through the storage tank 40 and the supply pipe (L1), is formed to be inclined to the front end side of the second inclined portion 12, the disinfection tank of the heat dissipation structure ( 13) when the vehicle passes, it is a nozzle body for spraying a predetermined amount of disinfectant solution supplied from the storage tank 40 through the supply pipe (L1) to the bottom side of the vehicle to be passed.

The second injection unit 30 is connected to the storage tank 40 and the supply pipe (L1), is formed on both sides of the anti-defence structure 10, the disinfection tank 13 of the heat dissipation structure (10) In the state that the vehicle is passing, the nozzle body for spraying a predetermined amount of disinfectant solution supplied from the storage tank 40 through the supply pipe (L1) to both sides of the passing vehicle.

The storage tank 40 is provided on one side of the protective structure 10, the disinfection tank 13, as well as the first and second injection unit 20, 30 and the supply pipe (L1) is configured to store the disinfectant solution It is configured to.

Here, the disinfectant is a mixture of a certain concentration of a chemical solution that functions to disinfect livestock diseases (viruses) in water at a certain ratio (for example, 50: 1), and the chemical solution is typically sodium carbonate (sodium carbonate, 4% concentration). sodium carbonate) or 2% caustic soda (sodium hydroxide, sodium hydroxide), etc., mixed base, 0.2-2% citric acid solution or 2% concentration (vinegar is equivalent to 4% acetic acid) It is an acidic agent mixed with acetic acid solution, or an aldehyde compound mixed with 1-2% glutaaldehyde or 8% formaldehyde, or a disinfectant that destroys proteins of virus. One of the oxidizing agents consisting of oxygen-based components, which is mixed dilution with water.

The first pump 50 is the pumping operation of the on / off in accordance with the control signal of the control unit 60 is configured in the supply pipe (L1), the disinfectant solution stored in the storage tank 40 to the sterilization tank It is configured to supply the 13 and the first and second injection parts 20 and 30.

The second pump 70 is the pumping operation of the on / off according to the control signal of the control unit 60, it is configured in the circulation pipe (L2) connecting the disinfection tank 13 and the storage tank 40. It is configured to recycle the disinfectant solution to the storage tank 40 for reuse of the disinfectant solution filled in the disinfection tank 13.

The purification unit 80 is installed in the circulation pipe (L2) as a filter of one or multi-stage structure, when the disinfection solution is recycled to the storage tank 40 by the second pump 70 is the disinfectant is recycled It is configured to pass only the liquid disinfectant solution to the storage tank 40 while removing the foreign matter.

The valve 91 is configured in the input line (L3) connected to the storage tank 40, it is to open and close according to the control signal of the control unit 60.

The chemical liquid input unit 92 is connected to the input line (L3), so that the disinfection function of the liquid passed by the refining unit 80 is recycled to the storage tank 40, so that the disinfection function is exerted again. 91 is configured to inject a predetermined amount of the chemical liquid into the storage tank 40 when the opening is made, and includes a chemical liquid storage unit 92a and a third pump 92b.

The chemical liquid storage unit 92a stores a predetermined amount of chemical liquid, and the third pump 92b controls the chemical liquid stored in the chemical liquid storage unit 92a into the storage tank 40. The pumping operation is configured according to the control.

Here, re-injecting the chemical liquid into the disinfectant solution recycled to the storage tank 40 through the circulation tube (L2), because the disinfection function of the mixed chemical solution may be remarkably dropped when the disinfecting action of the disinfectant is repeated many times to compensate for this. To this end, the ratio of the chemical liquid mixed in the recycled disinfectant solution is set to 1/4 of the chemical liquid mixed in the initial water, but is not necessarily limited to this ratio, the mixing of the chemical liquid is repeatedly added to the storage tank 40 again The ratio can be changed as needed.

The counter unit 100 and the water level sensor S1 are selectively applied when the controller 60 determines the time point at which the chemical liquid is injected into the storage tank 40. After counting the number of times according to the pumping operation of the pump 70 is configured to provide the count information to the control unit 60, accordingly, the control unit 60 is based on the preset count information of the counting unit 100 When matched with the count information, the valve 91 is opened to re-inject the chemical liquid into the storage tank 40.

That is, as the number of pumping operations of the second pump 70 increases, when the recirculation of the disinfectant solution is repeated several times, the chemical solution is added to the recycled disinfectant solution to restore the disinfecting function of the disinfectant solution.

In addition, the water level sensor (S1) is configured in the storage tank 40, when the water level information of the disinfectant solution detected from the water level sensor (S1) is matched with the reference level information previously set in the controller 60 The controller 60 reopens the chemical liquid to the storage tank 40 by opening the valve 91.

That is, when the level is lowered by supplying the disinfecting solution from the storage tank 40 to the disinfection tank 13 and the first and second injection parts 20 and 30, the chemical solution is not re-injected into the storage tank 40, When the disinfectant is returned to the storage tank 40 from the disinfection tank 13 through the circulation pipe L2, when the level of the storage tank 40 reaches a predetermined level, the controller 60 controls the valve ( 91) is opened to re-inject the chemical solution.

The operation of the vehicle disinfection device according to the embodiment of the present invention configured as described above will be described with reference to FIGS. 1 to 4.

First, after the animal disease (for example, foot-and-mouth disease) occurs to prevent the spread of livestock diseases between the outbreak area and other areas, the anti-corrosion structure (10) is installed in the vehicle access road, and then the disinfection tank provided in the quarantine structure (10) While storing a certain amount of disinfectant solution in (13), a certain amount of disinfectant solution is also stored in the storage tank 40 connected through the disinfection tank 13, the supply pipe (L1) and the circulation pipe (L2).

Next, when the spectator runs the control program of the control unit 60 through the key input means (not shown), the control unit 60 drives the first pump 50 to turn on the first pump 50. The disinfectant solution stored in the storage tank 40 is pumped to the first and second injection parts 20 and 30 through the supply pipe L1 from the pumping operation according to the on driving.

At this time, the first spraying unit 20 sprays a predetermined amount of disinfectant solution toward the front and the bottom of the vehicle entering the protective structure 10 from the tip side of the second inclined portion 12 which is the exit side of the protective structure 10. Disinfection is performed, and the second injection unit 20 sprays a predetermined amount of disinfectant solution on both sides of the vehicle passing from both sides of the anti-construction structure 10 so that disinfection is performed and the anti-construction structure 10 Since the wheel of the vehicle passing through the disinfection tank 13 of the) is locked to a certain height in the disinfection tank 13, the disinfection is made, when the passage of the vehicle is completed through the entry and exit of the quarantine structure 10, the overall of the vehicle It is possible to prevent the spread of the animal disease caused by the vehicle according to the quarantine.

On the other hand, when the disinfection of the vehicle passing through the disinfection tank 13 as well as the first and second injection parts 20 and 30 as described above, since the storage level of the disinfectant solution of the storage tank 40 is lowered, the control unit 60 is to drive on the second pump 70 installed in the circulation pipe (L2), the disinfectant solution filled in the disinfection tank 13 from the pumping operation according to the on-drive of the second pump 70 is a circulation pipe Return to the storage tank 40 through (L2).

In addition, the purification unit 80 installed in the circulation pipe (L2) is to filter various foreign matter in the disinfectant solution is made of the return circulation through the circulation pipe (L2), foreign matter is removed in the storage tank (40) Liquid disinfectant is returned and filled.

In this case, since the number of times according to the pumping operation of the second pump 70 is provided to the controller 60 after being countered by the counter unit 100, the control unit 60 has count information of the count unit 100. While matching with the preset reference count information, a control operation of opening the valve 91 installed in the input line L3 is performed, while the third pump 92b configured in the chemical liquid input unit 92 is turned on. Let's do it.

Then, a predetermined amount of the chemical liquid stored in the chemical storage unit 92a is introduced into the storage tank 40 to which the input line L3 is connected from the pumping operation according to the on-driving of the third pump 92b. Even if the disinfecting solution collected in the disinfection tank 13 after the injection is made from the first and second injection parts 20 and 30 to the vehicle several times, the disinfecting function is reduced by the use of the re-injected chemical solution. The reuse is then possible.

On the other hand, the time point of re-injecting the chemical liquid stored in the chemical storage unit 92a into the storage tank 40 through the return line (L3) may be determined by the water level sensor (S1) provided in the storage tank (40). .

That is, when the water level information of the disinfectant solution in the storage tank 40 detected by the water level sensor S1 is matched with the reference level information preset in the control unit 60, the control unit 60 includes the input line ( The valve 91 provided in L3 is opened while the third pump 92b is driven on.

Hereinafter, the present invention is not limited to the above-described specific preferred embodiment, and any person having ordinary skill in the art to which the present invention pertains without departing from the gist of the present invention claimed in the claims may make various modifications. Of course, such changes are within the scope of the claims.

10; Quarantine structures 11,12; 1st and 2nd slope
13; Disinfectant 20,30; 1st and 2nd injection unit
40; Storage tank 50; 1st pump
60; A controller 70; 2nd pump
80; Purifying unit 91; valve
92; Chemical liquid input part 92a; Chemical storage unit
92b; Third pump 100; Counter
S1; Water level sensor

Claims

Forming a first and second inclined portion for the entry and exit of the vehicle, and forming a disinfection tank filled with a predetermined level of disinfectant liquid so that the wheel is locked to a certain height when passing through the vehicle between the first and second inclined portion structure; A first injector which is formed to be inclined at the tip end side of the second inclined structure and sprays a predetermined amount of antiseptic solution to the bottom side of the vehicle to be passed; A second injector formed on both sides of the defense structure and spraying a predetermined amount of antiseptic solution to both sides of the vehicle to be passed; A storage tank connected to the disinfection tank as well as to the first and second injection units through a supply pipe and storing a disinfecting solution; A first pump configured in the supply pipe and configured to pump the disinfecting liquid stored in the storage tank to supply the disinfection tank and the first and second injection units; And a control unit controlling a pumping operation of the first pump. And including
A second pump configured to be connected to the disinfection tank and the storage tank by a circulation pipe, the pump being operated under the control of the controller to recycle the disinfectant solution into the storage tank for reuse of the disinfectant solution filled in the disinfection tank; And a purifying unit passing only a liquid disinfectant solution through the storage tank while removing foreign matter from the recycled disinfectant solution when the disinfectant solution is recycled to the storage tank by the second pump. Configure the connection,
A valve configured in an input line in the storage tank, the valve being opened and closed under control of the controller; And a chemical liquid storage unit storing a predetermined amount of chemical liquid injected into the storage tank when the valve is opened so that the disinfecting liquid passed by the purification unit is recycled to the storage tank again. A chemical liquid injector including a third pump configured to pump the chemical liquid stored in the pump to be supplied into the storage tank; Vehicle disinfection device, characterized in that it further comprises.

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The vehicle according to claim 1, wherein the chemical liquid injection point into the storage tank is made when the count information of the counting unit for counting the number of times according to the pumping operation of the second pump matches the reference count information set in the control unit. Disinfection device.

The method of claim 1, wherein the chemical liquid injection point into the storage tank is configured when a level sensor is configured in the storage tank, and the level information of the disinfectant solution detected by the level sensor matches the reference level information set in the controller. Vehicle disinfection equipment.