KR100638401B1 - portable high pressure water decontamination system - Google Patents

Abstract

The present invention relates to a device for decontaminating air vents used in a radiation control area in a nuclear power plant. In particular, the contaminated air vents can be decontaminated by high pressure water and a mobile cart can be used to decontaminate contaminated air vents anywhere. It relates to a mobile high pressure decontamination apparatus that can be.

Constituent means constituting the mobile high pressure decontamination apparatus of the present invention is a cylindrical shape is provided with an inner space for performing decontamination to the air port, the main body is provided with an inclined surface on the inner lower portion, the water supply pump provided outside the main body, and One end is connected to the feed water pump and the other end is bifurcated to the other end, and the other end of the water supply line bifurcated to the other end is connected to each other and is extended to the inside of the main body. A decontamination liquid supply unit comprising a decontamination supply line positioned, a pressure gauge connected to the water supply line to display the pressure of the water supply from the water supply pump, a first valve and a decontamination solution input tube sequentially connected to the water supply line, It is connected to the other end of the two decontamination supply lines are respectively disposed on the upper side and the lower side inside the main body, the diameter of the main body A rotating sprinkler including a spray line extending in a direction, a spraying nozzle coupled to the spray lines of the respective rotating sprinkler and installed toward the center of the main body, and inside the main body for placing the air hole therein; And a foreign matter collection line connected to the other end of the foreign matter collection line, one end connected to the side of the main body in contact with the inclined surface and the other end of the foreign matter collection line, and a circular filter installed in the center, and the foreign matter It is characterized in that it comprises a foreign material discharge portion consisting of a drain line connected to the lower side of the container, and a movable wagon to accommodate the main body.

Decontamination, radiation pollution, high pressure water

Description

Portable high pressure water decontamination system

1 is an overall configuration diagram of a mobile high pressure decontamination apparatus of the present invention.

Figure 2 is a detailed view of the rotary sprinkler and the jet nozzle of one component of the present invention.

3 is a perspective view of a mesh shelf that is one component of the present invention.

4 is a perspective view of a mobile wagon which is one component of the present invention.

The present invention relates to a device for decontaminating air vents used in a radiation control area in a nuclear power plant. In particular, the contaminated air vents can be decontaminated by high pressure water and a mobile cart can be used to decontaminate contaminated air vents anywhere. It relates to a mobile high pressure decontamination apparatus that can be.

Conventionally, decontamination of radiation-contaminated air vents and equipment has been done manually. However, the decontamination by manual work is inefficient and takes a lot of time to remove the contaminants caught in the fine gaps, and the decontamination process has a disadvantage that the body contamination of the worker and the spread of contamination around the workplace.

As described above, in the manual decontamination process, the air ball for decontamination is put into a decontamination barrel and the hot water and the decontamination solution are filled in the decontamination barrel at a constant ratio. And keep it for about 1 to 3 hours depending on the degree of contamination of the air in order to separate the pollutants in the air.

After a certain period of time, the air outlet is removed and placed on a workbench, and decontaminants are removed using a decontamination paper and a brush, and then decontamination is carried out for two to three times with running water.

However, the decontamination by manual labor is difficult to increase the waste fluid and decontamination of the bent portion, hole, curved portion caused by excessive work time and decontamination process.

In some cases, ultrasonic cleaning equipment is used instead of manual labor. However, even in the case of using ultrasonic cleaning equipment, the part where the contamination is fixed such as the rubber handle part or the packing is not decontaminated. Also, since the size of the product is small and it is not easy to move, there is a problem that the use place is restricted. there was.

The present invention was devised to solve the problems of the prior art as described above, and by applying a sprinkler and a spray nozzle that can decontaminate the air hole and the equipment by using high pressure water, it is possible to effectively decontaminate the pollutants on the air hole. It is an object of the present invention to provide a mobile high pressure decontamination apparatus that can prevent the user's body pollution and the spread of workplace pollution by performing a quick decontamination by applying a mobile cart that can be used anywhere regardless of the workplace.

The constituent means of the mobile high pressure decontamination apparatus of the present invention proposed to solve the technical problem as described above is a cylindrical shape is provided with an inner space for performing decontamination for the air sphere, the main body provided with an inclined surface on the inner lower portion, and A water supply pump provided at the outside of the main body, one end is connected to the water supply pump and the other end is bifurcated, and the other end of the water supply line bifurcated with the bifurcation, respectively, and is extended to the inside of the main body. A desalination supply line having the other end positioned above and below the main body, a pressure gauge connected to the water supply line to display a pressure of the water supply supplied from the water supply pump, and a first valve and a first valve connected to the water supply line sequentially. The main body is connected to the decontamination solution supply unit consisting of a salt solution inlet and the other ends of the two decontamination supply lines, respectively. It is disposed opposite the upper side and the lower side, the sprinkler rotatable sprinkler including a spraying line extending in the radial direction of the main body, coupled to the spraying line of each of the rotatable sprinkler is installed toward the inner center of the main body A spray nozzle, a mesh shelf installed in the center of the main body for placing the air hole, a foreign matter collection line having one end connected to the side of the main body in contact with the inclined surface, and connected to the other end of the foreign matter collection line and being circular in the center It is characterized in that it comprises a foreign material discharge container consisting of a cylindrical foreign matter container and a drainage line connected to the lower side of the foreign matter collection container, and a mobile wagon to accommodate the body.

In addition, the pressure gauge indicating the pressure of the feed water supplied from the feed water pump is preferably 6bar or more, it is preferable that the four injection nozzles are coupled to the spray line of each of the rotary sprinkler. In addition, the spray nozzle is characterized in that the circular spray nozzle for 15 °.

In addition, the upper surface of the foreign material container of the foreign substance discharge unit is characterized in that the sight glass (sight glass) is further provided to check the foreign matter collected in the filter.

Hereinafter, with reference to the accompanying drawings will be described in detail the operation and the preferred embodiment of the present invention a mobile high-pressure decontamination apparatus consisting of the above configuration.

1 is an overall configuration diagram of the mobile high pressure decontamination apparatus 100 of the present invention.

As shown in FIG. 1, the present invention-type high pressure decontamination apparatus 100 includes a main body 10, which is a space for decontaminating a contaminated air port, and a decontamination solution provided outside the main body 10 to supply a decontamination liquid. It is coupled to the supply unit, the two rotary sprinkler 30 disposed on the upper and lower sides of the inside of the main body 10, the rotatable sprinkler 30 is installed to face the inner center of the main body 10 A jet nozzle 40, a mesh shelf installed at the center of the main body 10 to place contaminated air holes, and a foreign substance discharge unit 60 collecting foreign substances including contaminated water outside the main body 10 and collecting foreign substances. ), And a movable wagon 70 capable of moving the main body 10.

The main body 10 is provided with a predetermined internal space for decontaminating the contaminated air holes, the shape can be variously configured. The main body 10 shown in FIG. 1 has a cylindrical shape as an example. Sliding inlet is provided in a predetermined portion of the side surface of the main body 10 so that the air inlet to be decontaminated can be introduced or removed, and the main body opened to provide the sliding inlet to prevent leakage of decontamination water ( The incision surface of 10) is sealed with a sealing rubber band 15.

On the other hand, the inner bottom of the main body 10 is provided with an inclined surface 11 formed at a predetermined angle. The reason for providing the inclined surface 11 is to decontaminate the air holes contaminated in the main body 10 with the decontamination water, so that the foreign substances including the contaminated water flowing down can move to the foreign substance discharge unit 60 which will be described later. to be.

The decontamination solution supply unit 20 is provided outside the main body 10 to supply the decontamination water to decontaminate the contaminated air holes in the main body 10.

The decontamination solution supply unit 20 is a water supply pump 21 for supplying water, a water supply line 22 connected to the water supply pump 21, and a water supply line 22 connected to the inside of the main body 10. Decontamination supply line 23 extending to the pressure gauge 24 is connected to the water supply line 22 and the decontamination solution input tank 26 and the first valve 25 sequentially connected to the water supply line 22 Consists of

The water supply pump 21 serves to deliver water mixed with the decontamination liquid at a predetermined pressure, and the delivered water is sent to the decontamination supply line 23 along the water supply line 22. The water delivered to the decontamination supply line 23 is mixed with the decontamination solution previously flowed from the decontamination solution input container 26 to the water supply line 22 before being transferred to the decontamination supply line 23. That is, the liquid moving along the decontamination supply line 23 is in a state in which water and the decontamination liquid are mixed at a predetermined ratio.

A first valve 25 is installed between the decontamination solution input cylinder 26 and the water supply line 22 to control the flow of the decontamination solution contained in the decontamination solution input cylinder 26. The water supply line 22 is provided prior to providing water along the water supply line 22 so that the predetermined amount of the decontamination liquid may be mixed with the water moving along the water supply line 22 by adjusting the first valve 25. Adjust the amount of decontamination solution to be sent to Meanwhile, in order to decontaminate the air holes contaminated in the main body 10, the decontamination liquid must be injected at a predetermined pressure. For this purpose, the pressure of the water supply is displayed to check the pressure of the water supply delivered from the water supply pump 21. The pressure gauge 24 is installed in the water supply line 22.

One end of the water supply line 22 is connected to the water supply pump 21 and the other end is bifurcated. One end of the decontamination supply line 23 is connected to the bifurcated water supply line 22, and the other end of each decontamination supply line 23 extends into the main body 10. Of the two decontamination supply lines 23 extending into the main body 10, one penetrates the upper surface of the main body 10 and is installed perpendicular to the upper side of the main body 10, and the other is the main body 10. It is installed horizontally inside the main body 10 through the side. Meanwhile, a connector 27 is provided at a predetermined portion of the main body 10 through which the decontamination supply line 23 penetrates, thereby coupling the main body 10 and the decontamination supply line 23.

The rotary sprinkler 30 is coupled to the other end of the two decontamination supply lines 23 extending into the main body 10. The two sprinklers 30 connected to the decontamination supply line 23 are horizontally disposed on the upper side and the lower side inside the main body 10.

The sprinkler 30 is connected to the decontamination supply line 23 and one end is connected to, and the injection line 37 is connected to the other end of the connection portion is installed in a state unfolded in the radial direction of the main body 10 It is composed. The sprinkler 30 is a rotatable sprinkler 30 that can be rotated by pressure when high pressure water is transmitted.

The spraying nozzles 37 of the two sprinkler 30 are coupled to the spray nozzles 40 at regular intervals. The number of spray nozzles 40 coupled to the spray line 37 may vary, but in the present invention, four spray nozzles 40 are used in combination with the spray line 37. A spray line of the spray nozzle 40 coupled to the spray line 37 of the rotatable sprinkler 30 provided above the main body 10 and a rotatable sprinkler 30 provided below the main body 10. The jet nozzle 40 coupled to 37 is provided facing toward the center of the main body 10.

2 is a coupling configuration diagram of the rotatable sprinkler 30 and the jet nozzle 40 provided below the main body 10.

As shown in FIG. 2, the rotatable sprinkler 30 has a fixed portion 31 connected to the decontamination supply line 23 and a rotating portion 33 coupled to a central portion of the spray line 37. Consists of In addition, the fixing part 31 and the rotating part 33 are coupled to each other by a rotatable means such as a ball bearing 35 so that when the high pressure water flows into the fixing part 31, the rotating part 33 is rotated by the high pressure. By doing so, the injection line 37 can be rotated.

On the other hand, the injection nozzle 40 is screwed into the screw groove formed in the injection line 37 is installed. Four injection nozzles 40 screwed to the injection line 37 of the rotatable sprinkler 30 are composed of four, and each injection nozzle 40 is disposed with a uniform distance difference. In addition, the spray nozzle 40 is preferably a 15 ° circular spray nozzle 40 for spraying the decontamination liquid at 15 °.

Contaminated air holes (reference numeral 80 in FIG. 3) which are decontaminated by the decontamination liquid injected from the spray nozzle 40 are placed on a mesh shelf installed in the center of the main body 10. The mesh shelf 50 is provided to be attached to and detached from the inner wall of the main body 10.

In addition, the mesh shelf 50 is meshed so that the decontamination liquid sprayed from the spray nozzle 40 can reach the contaminated air holes (reference numeral 80 in FIG. 3) as shown in FIG. 3. It is composed.

When the contaminated air holes (reference numeral 80 in FIG. 3) placed on the mesh shelf 50 are decontaminated by the decontamination liquid injected from the spray nozzle 40, sludge and waste liquid flow down to the bottom surface of the main body 10. . Then, the foreign matters such as the sludge and the waste liquid are discharged to the foreign substance discharge part 60 on the inclined surface 11 formed on the inner lower portion of the main body 10.

The foreign substance discharge unit 60 is a foreign matter collection line 61, one end of which is connected to the side of the main body 10 in contact with the inclined surface 11, and the foreign matter collection container 62 connected to the other end of the foreign matter collection line 61. ) And a drainage line 64 connected to the lower side of the foreign matter container 62.

Foreign substances such as sludge and waste liquid flowing down the inclined surface 11 formed on the inner lower portion of the main body 10 move to the cylindrical container via the foreign matter collection line 61. A circular filter 63 is provided in the central portion of the cylindrical container. Therefore, the sludge etc. are caught by the filter 63, and only the waste liquid is filled below the cylindrical container.

On the other hand, the upper surface of the foreign material container 62 is further provided with a sight glass 66 (sight glass) to check the foreign matter such as sludge collected in the filter 63, the decontamination worker through the sight glass 66 Make sure that foreign substances such as sludge that have been identified are removed after a certain amount.

The liquid waste liquid is moved to a predetermined waste liquid treatment unit along a drain line 64 connected to the lower side of the foreign substance container 62. The drain line 64 is provided with a second valve 65 capable of opening and closing the flow of the waste liquid.

On the other hand, the decontamination equipment including the main body 10 should be able to move quickly and safely. Therefore, in the present invention, as shown in Figure 4, using the mobile cart 70 that can move to accommodate the main body 10. The mobile wagon 70 uses the rotary wheel 71 in consideration of mobility.

A detailed embodiment of decontaminating the contaminated air port (reference numeral 80 in FIG. 3) according to the action of the constituent means of the mobile high pressure decontamination apparatus 100 described above will be described in detail.

First, the contaminated air holes (reference numeral 80 in FIG. 3) are placed on the mesh shelf 50 through the air holes (reference numeral 80 in FIG. 3) provided on the central side of the main body 10, and then the sliding door 13 is opened. Close it. Then, the water supply pump 21 is operated to start water supply through the water supply line 22 at a constant pressure. The pressure of the feed water supplied from the feed water pump 21 may be changed, but is maintained at 6 bar or more in the present invention. More preferably it is good to feed water at a pressure of 6bar ~ 10bar. Therefore, the decontamination worker should check whether the pressure indicated by the pressure gauge 24 falls below 6 bar.
When water supply is started, the decontamination liquid previously flowed from the decontamination solution input cylinder 26 to the water supply line 22 through the first valve 25 is mixed with the water moving along the water supply line 22. Then, the mixed decontamination liquid moves along the two decontamination supply lines 23 and arrives at the sprinkler 30.

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Then, since the decontamination liquid reaching the rotary sprinkler 30 has a pressure of 6 bar or more, the rotary sprinkler 30 is rotated. With the rotation of the rotatable sprinkler 30, the decontamination liquid is injected from the spray nozzle 40 to decontaminate the contaminated air holes (80 in FIG. 3) placed on the mesh shelf 50.

The waste liquid injected and flowed down by the air holes (reference numeral 80 in FIG. 3) and the sludge accumulated in the air holes (reference numeral 80 in FIG. 3) flow down to the inclined surface 11 provided below the main body 10. The waste liquid and sludge that flowed down are collected into the foreign matter container 62 through the foreign matter collection line 61. Then, the sludge is caught by the filter 63 provided in the center of the foreign matter container 62, and the waste liquid is filled below the foreign matter container 62. Then, the waste liquid is discharged through the drain line 64, when the amount of sludge identified through the sight glass 66 provided on the foreign matter container 62 is a predetermined amount or more is removed by the decontamination operator.

According to the mobile high pressure decontamination apparatus 100 of the present invention having the above-described configuration and operation and preferred embodiments, by decontaminating the air spheres exposed to the radiation in the main body 10 of the decontamination apparatus 100, the contamination spread around the workplace There is an effect that can prevent.

In addition, by installing the rotary sprinkler 30 in the upper and lower parts of the main body 10, and the injection nozzle 40 is coupled to the injection line 37 of the rotary sprinkler 30, Decontamination of the contaminated air holes in the mesh shelf 50 installed on the central side of 10) has the effect of performing a quick and clean decontamination.

On the other hand, since the main body 10 on the mobile cart 70 can be moved to a desired place, there is an effect that can be easily decontaminated while moving according to the work place.

Claims (5)

A main body having a cylindrical shape having an inner space for decontamination of the air hole, the inclined surface of which is provided on the inner lower part; One end of the water supply pump 21 provided outside the main body, one end of the water supply pump 21 is connected to the other end, and the other end of the water supply line is bifurcated, and the other end of the water supply line is bifurcated. A decontamination supply line extending long inside the main body and having other ends respectively positioned above and below the main body, a pressure gauge connected to the water supply line to display the pressure of the water supply supplied from the water supply pump, and sequentially in the water supply line Decontamination solution supply unit consisting of a first valve and the decontamination solution input tube connected to the; Rotatable sprinklers connected to the other end of the two decontamination supply lines and disposed opposite to the upper and lower sides of the main body, the spraying sprinkler including a spraying line extending in the radial direction of the main body; A spraying nozzle coupled to the spraying line of each rotatable sprinkler and installed toward the center of the main body; A mesh shelf installed in the center of the main body to put the air hole therein; A foreign matter collection line having one end connected to the side of the main body in contact with the inclined surface, a cylindrical foreign matter collecting container connected to the other end of the foreign matter collecting line and having a circular filter installed at the center thereof, and a drain line connected to the lower side of the foreign material collecting container. This material discharge portion consisting of; A mobile high pressure decontamination apparatus, characterized in that comprises a mobile wagon that can be moved to accommodate the main body. The method according to claim 1, A portable high pressure decontamination apparatus, characterized in that the pressure gauge for displaying the pressure of the water supplied from the water supply pump is 6bar or more. The method according to claim 1, Mobile high pressure decontamination apparatus, characterized in that four injection nozzles are coupled to the injection line of each of the rotary sprinkler. The method according to claim 3, The spray nozzle is a mobile high pressure decontamination apparatus, characterized in that the circular spray nozzle for 15 °. The method according to claim 1, The high-pressure decontamination apparatus, characterized in that the sight glass (sight glass) is further provided to check the foreign matter collected in the filter in the upper portion of the foreign material container of the foreign substance discharge unit.

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