Description POWER SPRAYING APPARATUS FOR INFECΗOUS DISEASE PREVENTION Technical Field
[1] The present invention relates to a power spraying apparatus for an infectious disease prevention capable of preventing various disease including a foot and mouth disease that is an acute infectious disease of an artiodactyla domestic animal, and in particular to a power spraying apparatus for an infectious disease prevention capable of preventing a damage due to a freezing in the winter season by removing a spray liquid remaining in a pipe and nozzle of a sprayer after a spraying liquid is sprayed, capable of preventing a function decrease due to a foreign substance, and capable of maintaining a medial effect for long time by supplying a desired amount of source liquid only at the time when a spraying liquid is sprayed. Background Art
[2] Generally, in a construction of a conventional power spraying apparatus, a suction hose and a water collecting hose are inputted into a spraying tank, and a high pressure hose is connected with an outlet. When a driving motor is driven, a spraying liquid stored in a spraying tank is sprayed through a nozzle through a high pressure hose. Namely, there is not any function for applying a special function.
[3] In addition, in a conventional power spraying apparatus for an infectious disease prevention, when using the same, a disinfection chemical, namely, a source liquid, is diluted in a spraying tank, and then a long time spraying infectious disease prevention is performed. When the liquid is previously diluted in a spraying tank for a long time (average 6 hours), according to the description of a chemical fabrication company, the chemical effect disappears after 30 minutes. Therefore, the function of disinfection disappears. Namely, the chemical for an infectious disease prevention is sprayed across the nation in a state that there is not any chemical effect.
[4] In addition, in the conventional power spraying apparatus for an infectious disease prevention, since a spraying liquid remains in the interior of a pipe and a nozzle of a spraying apparatus after a spraying liquid is sprayed, a foreign substance may be accumulated in the interiors of a pipe and a nozzle, so that a spraying efficiency is decreased. In addition, the spraying liquid remaining the interiors of the spraying apparatus and nozzle may be frozen in the winder season, so that the system may be damaged.
Disclosure of Invention Technical Solution
[5] Accordingly, it is an object of the present invention to provide a power spraying apparatus for an infectious disease prevention capable of overcoming the problems encountered in the conventional art.
[6] It is another object of the present invention to provide a power spraying apparatus for an infectious disease prevention capable of preventing a damage by a freezing in the winter season by removing a spraying liquid remaining in a pipe and a nozzle of a spraying apparatus for preventing various diseases, and capable of preventing a decrease of function due to a foreign substance and capable of maintaining a long time effect of chemical by supplying a necessary amount of source liquid only at the time when a spraying liquid is sprayed.
[7] To achieve the above objects, there is provided a power spraying apparatus for an infectious disease prevention installed in a certain place such as a road where an infectious disease prevention is needed, wherein a remaining spraying liquid suction pipe is connected at an intermediate portion between an outlet of a spraying apparatus capable of spraying a spraying liquid for an infectious disease prevention with respect to a certain object such as a vehicle and a suction pipe connected by disposing a source water suction electronic valve in the power spraying apparatus, and a correcting water suction electronic valve is installed in the remaining spraying liquid suction pipe, so that the spraying liquid remaining after the spraying liquid is sprayed by the spraying apparatus is fully sucked and removed.
[8] In addition, a source liquid injection apparatus capable of injecting a fixed amount of source liquid at the time when it is sprayed with respect to a spraying amount needed for an infectious disease prevention is connected at an intermediate portion of the discharge pipe between an outlet of the spraying apparatus and a discharge pipe of the power spraying apparatus using a connection pipe for thereby maintaining an effect of chemical for a long time. Description of Drawings
[9] The preferred embodiments of the present invention will be described with reference to the accompanying drawings.
[10] Figures 1 and 2 are block diagrams illustrating the construction and operation of a power spraying apparatus for an infectious disease prevention according to the present invention, of which:
[11] Figure 1 is a block diagram illustrating an operation that a spraying liquid is
sprayed by a spraying apparatus according to the present invention; and
[12] Figure 2 is a block diagram illustrating an operation that a spraying liquid remaining in a spraying apparatus is removed according to the present invention. Best Mode
[13] The preferred embodiments of the present invention will be described with reference to the accompanying drawings.
[14] Figures 1 and 2 are block diagrams illustrating the construction and operation of a power spraying apparatus for an infectious disease prevention according to the present invention, of which Figure 1 is a block diagram illustrating an operation that a spraying liquid is sprayed by a spraying apparatus according to the present invention, and Figure 2 is a block diagram illustrating an operation that a spraying liquid remaining in a spraying apparatus is removed according to the present invention.
[15] As shown therein, reference numeral 100 represents a spraying apparatus installed in a place where needs an infectious disease prevention, for spraying a spraying liquid based on a tunnel method, and 200 represents a power spraying apparatus for sucking a spraying liquid and spraying the same at a high pressure.
[16] A spraying liquid suction pipe 10 is connected with an inlet 201 of the power spraying apparatus 200 for sucking a spraying liquid from a spraying liquid tank 400. A filter 30 is connected with a lower side of the spraying liquid suction pipe 10 submerged in the interior of the spraying liquid tank 400 for filtering a foreign substance. A source water suction electronic valve 20 is installed at an intermediate portion of the spraying liquid suction pipe 10.
[17] A discharge pipe 11 is connected between the outlet 202 of the power spraying apparatus 200 and the outlet 101 of the spraying apparatus 100, so that a spraying liquid discharged from the power spraying apparatus 200 at a high pressure is supplied to the spraying apparatus 100 through the discharge pipe 11, and the spraying liquid is sprayed through a plurality of nozzles provided in the spraying apparatus 100 based on a tunnel method.
[18] In the power spraying apparatus for an infectious disease prevention according to the present invention, a remaining spraying liquid suction pipe 13 is connected between the outlet 101 of the spraying apparatus 100 and the intermediate portion of the spraying liquid suction pipe 10, and a collecting water suction electronic valve 21 is connected with the remaining spraying liquid suction pipe 12 for thereby sucking the spraying liquid remaining after it is sprayed, so that it is possible to fully remove the remaining spraying liquid.
[19] In addition, a source liquid injection apparatus 300 is installed at an intermediate portion of the discharge pipe 11, so that a fixed amount of source liquid is injected with respect to a spraying amount needed for an infectious disease prevention during a spraying time.
[20] A water inlet 301 is provided in a lower portion of one side, and a source liquid inlet 303 is provided in a lower side, and a discharge port 302 is provided in a lower portion of the other side for discharging an infectious disease prevention liquid in which water and source liquid are mixed at a fixed amount ratio.
[21] A pump commercially provided by TEFEN in the name of MxRite is installed in the source liquid injection apparatus 300.
[22] In the source liquid injection apparatus 300, a source liquid tank 310 is attached to a lower side of a suction cylinder 304 connected with the source liquid inlet 303. When water is inputted through a water inlet 301, the flow of water activates the motor of the pump, and the source liquid stored in the source liquid tank 310 is sucked in proportion based on the above operation. Even when the pressure of water from a power spraying apparatus 200 is changed for the reason that the electricity applied to the power spraying apparatus 200 is not constant, the amount of the source liquid mixed based on the flow of water from the source liquid injection apparatus 300 is automatically adjusted proportionally, so that the source liquid is uniformly mixed in the spraying liquid from the source liquid injection apparatus 300 and is sprayed.
[23] In the source liquid injection apparatus 300, a connection pipe 12 is connected at an intermediate portion of the discharge pipe 11, and a manual valve 24 is connected with the connection pipe 12 in the side of the water inlet 301, and a manual valve 25 is connected between both ends of the connection pipe 12 of the discharge pipe 11.
[24] In the drawings, reference numeral 14 represents a bypass pipe connected with a collecting water port 203 of the power spraying apparatus 200.
[25] The operation of the power spraying apparatus for an infectious disease prevention according to the present invention will be described with reference to the accompanying drawings.
[26] A power injection apparatus for an infectious disease prevention according to the present invention is installed on a road. As a vehicle runs into a place in which the apparatus is installed, when a detection signal is inputted from a sensor of the spraying apparatus 100, the driving motor of the power spraying apparatus 200 is driven, and a source water suction electronic valve 20 is turned, and a heating and correcting water suction electronic valve 21 is turned off. In addition, an outlet side electronic valve 22
of the source liquid injection apparatus 300 and an inlet side electronic valve 23 of the same are turned on. The source liquid injection apparatus 300 is turned on. The water sucked from the spraying liquid tank 400 in the power spraying apparatus 200 through the spraying liquid suction pipe 10 is discharged through the discharge pipe 11.
[27] When the water pressurized by the power spraying apparatus 200 is supplied to the source liquid injection apparatus 300 through the discharge pipe 11, the source liquid of the source liquid tank 310 engaged to a lower side of the source liquid injection apparatus 300 is mixed at a fixed ratio in proportion to the flow of water inputted into the source liquid injection apparatus 300 and is discharged. The spraying liquid mixed with the source liquid is supplied to the spraying apparatus 100 and is sprayed through a plurality of nozzles of the spraying apparatus 100 based on a tunnel method, so that the spraying liquid is uniformly sprayed onto the front surfaces of the vehicle.
[28] Thereafter, when a vehicle passes past the spraying apparatus 100, the source water suction electronic valve 20 of the power spraying apparatus 200 is turned off in accordance with an input signal of the sensor installed in the side of the spraying apparatus 100, and the collecting water suction electronic valve 21 is turned on, and the outlet side electronic valve 22 is turned off, and the inlet side electronic valve 23 is turned off. The power spraying apparatus 200 is rotated in the reverse direction, and the spraying liquid remaining in the pipe and nozzle of the spraying apparatus 100 is fully sucked into the spraying liquid tank 400.
[29] In addition, the source liquid injection apparatus 300 may be closed or opened if necessary. When using the source liquid injection apparatus 300, the manual valve 24 is opened, and the manual valve 25 is closed. On the contrary, when the source liquid injection apparatus 300 is not used, the manual valve 25 is opened, and the manual valve 24 is closed, so that the apparatus is driven.
[30] Therefore, in the power spraying apparatus for an infectious disease prevention according to the present invention, since the source liquid of the source liquid tank 310 is mixed by a fixed amount ratio in proportion to the flow of water inputted into the source liquid injection apparatus 300 and is sprayed to the spraying apparatus 100, it is possible to mix and spray the source liquid by a fixed amount ratio based on the input amount of water irrespective of the cause of the power unbalance. In addition, since only a certain desired amount of the source liquid is supplied only during the time when the spraying liquid is sprayed, namely, only for the water is inputted, it is possible to maintain an effect of chemical of the source liquid for a long time.
[31] In addition, after the spraying liquid is sprayed by driving the power spraying
apparatus 200 and the spraying apparatus 100, the spraying liquid remaining in the pipe and nozzle of the spraying apparatus 100 when the apparatus is idle, is fully sucked and removed. When the power spraying apparatus 200 and the spraying apparatus 100 are repeatedly performed, the wastes accumulated in the interior of the pipe of the spraying apparatus 100 are sucked and removed together with the remaining spraying liquid.
[32] Furthermore, in the present invention, it is possible to prevent a damage caused when the pipe and nozzles are frozen in the winter season in such a manner that the spraying liquid remaining the pipe and nozzles of the spraying apparatus 100 are fully sucked and removed. Industrial Applicability
[33] As described above, in the power spraying apparatus for an infectious disease prevention according to the present invention, the source liquid of the source liquid tank is mixed at a fixed amount ratio in proportion to the flow of water inputted into the source liquid injection apparatus and then is sprayed. Therefore, in the present invention, it is possible to always mix and spray a fixed amount of source liquid based on the input amount of water irrespective of the causes of the power unbalance. In addition, since a certain desired amount of the source liquid is supplied only during the time when the spraying liquid is sprayed, namely, only when water is inputted, it is possible to maintain an effect of chemical for a long time, and to enhance an effect of an infectious disease prevention.
[34] In addition, after the spraying liquid is sprayed to the vehicle by driving the power spraying apparatus and the spraying apparatus, the spraying liquid remaining in the pipe and the nozzle of the spraying apparatus when the apparatus is idle, is fully sucked and removed. When the power spraying apparatus and the spraying apparatus are repeatedly operated, the wastes accumulated in the interior of the pipes of the spraying apparatus are sucked and removed together with the remaining spraying liquid, so that it is possible to stably maintain the performance of the apparatus for a long time.
[35] Furthermore, since the spraying liquid remaining in the pipes and nozzles of the spraying apparatus is fully sucked and removed, it is possible to prevent the causes of the problems of the system that is not operated due to the freezing of the pipes and nozzles in the winter season, so that it is possible to extend the life span of the apparatus.
[36] The present invention may be well adapted to a dedicated power spraying
apparatus for an infectious disease prevention of foot and mouth disease. [37] As the present invention may be embodied in several forms without departing from the spirit or essential characteristics thereof, it should also be understood that the above-described examples are not limited by any of the details of the foregoing description, unless otherwise specified, but rather should be construed broadly within its spirit and scope as defined in the appended claims, and therefore all changes and modifications that fall within the meets and bounds of the claims, or equivalences of such meets and bounds are therefore intended to be embraced by the appended claims.