KR20240059933A - A radiological source drum device for verifying the location of radioactive contamination in the equipment for measuring the degree of radioactive contamination and classifying the radioactive contamination for radioactive metal waste - Google Patents

Abstract

The present invention relates to a radiation source drum device for determining and verifying the radioactive contamination location of radioactive metal waste contamination measurement and classification equipment. The purpose is to measure the contamination level of radioactive metal waste and use the classification equipment to measure radioactive metal waste contained therein. Before measuring the radioactive contamination level of the disposal container, it is possible to easily test and verify the radioactive detection performance and radioactive contamination location discrimination performance, and its composition is a circular plate with a plurality of radiation source assembly grooves concavely formed on the upper surface. A lower plate having a plurality of support assembly grooves concavely formed in the lower plate, a circular plate, a plurality of radiation source assembly holes formed through and positioned coaxially with the plurality of radiation source assembly grooves of the lower plate, and a plurality of support assembly grooves of the lower plate. An upper plate having a plurality of support assembly grooves concavely formed to be located coaxially with the upper plate, and a bar shape, one end of which is fixedly assembled to the support assembly groove of the lower plate, and the other end of which is fixed to the support assembly groove of the upper plate. a radioactive rod assembly body that is assembled and has a plurality of cardboard supports to fixedly support the lower plate and the upper plate, and is embedded in an empty disposal container so that the lower plate is positioned on the bottom of the disposal container; It is a cylinder with a hollow interior and an open upper surface, and has an assembly part in which a thread is formed on the inner circumferential surface of the open upper surface, an assembly protrusion that protrudes on the lower surface and a threaded part is formed in the outer circumferential surface, and transmits a radiation source through the open upper surface. This is characterized in that it is formed by assembling a plurality of selectively housed cylindrical blocks along one axis, and is composed of one or more radiation source rods assembled in one or more of the support assembly holes of the radiation source assembly body.

Description

A radiological source drum device for verifying the location of radioactive contamination in the equipment for measuring the degree of radioactive contamination and classifying the radioactive contamination for radioactive metal waste}

The present invention relates to a radiation source drum device for determining and verifying the location of radioactive contamination in a facility for measuring and sorting the contamination of radioactive metal waste. More specifically, it relates to a device for measuring and sorting the contamination of radioactive metal waste using a facility for measuring and sorting the contamination of radioactive metal waste. A radiation source drum device for measuring the contamination level of radioactive metal waste and verifying the radioactive contamination position determination of the classification equipment, which has a structure that can easily test and verify the radioactive detection performance and radioactive contamination location determination performance before measuring the radioactive contamination level in the disposal container. It's about.

In general, contamination of radioactive materials may occur in devices or facilities, waste concrete or metals, etc. that must be disposed of in nuclear power plants that are operating normally or in nuclear power plants that are being dismantled.

As described above, the radioactive contamination level of devices, facilities, waste concrete, metals, etc. generated from nuclear power plants, etc. must be measured and classified as contaminated or non-polluted based on the measurement results. Radioactive waste classified as contaminated goes through a decontamination process. It is being disposed of in accordance with regulations.

The present invention measures the radioactive contamination level of radioactive metal waste, especially radioactive metal waste, among radioactive waste generated from nuclear power plants, etc., in a disposal container with radioactive metal waste contained therein, and classifies the disposal container based on the contamination measurement results. Since this relates to contamination measurement and classification equipment for radioactive metal waste, please note that the following description only describes contamination measurement and classification of radioactive metal waste.

The conventional method of measuring and classifying the pollution level of radioactive metal waste generated from nuclear power plants, etc. is to measure the pollution level of the radioactive metal waste using a pollution level measurement means, and based on the pollution level measurement results, the contaminated or non-contaminated radioactive metal waste is disposed of by the worker. Classify manually, and if the contamination level among non-contaminated metal waste and contaminated radioactive metal waste is below the decontamination treatment requirements, it is placed in a disposal container and disposed of. Among the contaminated radioactive metal waste, if the contamination level result meets the decontamination treatment requirements, it is decontaminated. Afterwards, it is disposed of by placing it in a disposal container.

This conventional method of measuring and classifying the contamination level of radioactive metal waste involves measuring the contamination level of the radioactive metal waste before packaging the radioactive metal waste into a disposal container, and workers are required to measure the contamination level of the radioactive metal waste before packaging it into a disposal container. As metal waste is handled manually for a long time, workers are exposed to radiation, making it difficult to ensure worker radiation safety and industrial disaster safety.

In order to ensure such worker radiation safety and industrial disaster safety, various efforts have been made in the field of technology, and as a result, domestic registered patent No. 10-2276731 (2021.07.07.) "Automatic contamination measurement of radioactive waste and There is a “decontamination system (hereinafter referred to as ‘prior invention’).”

Briefly looking at the configuration of this conventional invention, a moving rail is fixedly installed on the floor of the decontamination room; a drive shaft having a screw portion formed along the outer peripheral surface and a gear portion at one end, being parallel to the moving rail, and installed to be able to rotate forward and backward; a driving means having a gear on a rotating shaft that engages with the gear portion of the driving shaft and rotating the driving shaft forward and backward; A tray travel distance reference plate that is plate-shaped and fixed vertically on one end of the moving rail; A plate-shaped wheel member mounted on the lower surface and rotatably engaged with the moving rail, and a drive shaft fixed to the lower surface and rotatably assembled with the drive shaft and transported along the drive shaft by the driving force of the drive shaft rotating forward and backward. An assembly unit, a vertical support fixed vertically to the upper surface, and a tray mounted on an upper end corresponding to the tray transport distance reference plate to measure the distance from the tray transport distance reference plate and transmit the distance measurement signal. A support tray provided with means for measuring the transport distance; A support having a 'ㅌ' plan shape with three unit mounting portions, the horizontal support having an operating cylinder mounted at the end of each unit mounting portion, and being horizontally fixed and supported by the vertical support; a cylinder control unit connected to each of the operating cylinders and controlling the operation of each operating cylinder; a first pollution level measurement unit mounted on an operating cylinder of a unit mounting portion on one side of the horizontal support and measuring the level of contamination with radioactive waste; a second pollution level measurement unit mounted on the operating cylinder of the unit mounting portion on the other side of the horizontal support and measuring the level of contamination with radioactive waste; a laser decontamination unit mounted on an operating cylinder of the middle unit mounting portion of the horizontal support and performing laser decontamination of radioactive waste; a control unit connected to the driving means, the cylinder control unit, the first and second pollution level measurement units, and the laser decontamination unit, and controlling the operation of each component; It is connected in communication with the laser decontamination unit and consists of a filter unit that filters waste that is sucked away from the surface of radioactive waste by the laser decontamination unit.

As can be seen from this configuration, the prior invention is a device that is fixedly installed on the worker's floor and can simultaneously measure the contamination level of radioactive metal waste not packaged in a disposal container and decontaminate the contaminated radioactive metal waste. Due to its configuration, it has the advantage of being able to simultaneously measure contamination and decontamination processes for relatively large radioactive metal waste.

However, the prior invention involves a series of operations in which bulky radioactive metal waste is manually transported by multiple workers, aligned and placed within a placement zone on the workshop floor, and radioactive metal waste for which the contamination level has been measured is manually removed from the placement zone. There is a problem that workers may be exposed to radiation for a long time.

The present applicant made various attempts to solve the above-described conventional problems, and as a result, developed a “contamination level measurement and classification facility for radioactive metal waste.”

Figures 1 to 4 illustrate the plan view, cross-sectional view, and longitudinal sectional view of the "contamination level measurement and classification facility for radioactive metal waste" developed by the present applicant, and the components connected to the control means and the organic correlation between the components. It is a block diagram.

Referring to Figures 1 to 4, the configuration of the "contamination level measurement and classification facility for radioactive metal waste" developed by the present applicant is a rectangular parallelepiped container with both ends open and opening and closing doors at each of the open ends, and one side is a shielding housing (10) formed on one axis at regular intervals along the same axis and having a viewing window (11); A roller conveyor device equipped with its own driving means (21), installed horizontally at regular intervals upward from the inner bottom of the shield housing (10), and transporting the disposal container (100) mounted on the input end side to the discharge end side. (20) and; It is equipped with its own driving means and is detachably mounted on the discharge end of the roller conveyor to guide the disposal container transported on the roller conveyor device 20 and discharged from the discharge end to a contaminated or non-contaminated passage according to the pollution level measurement results. It is a 'ㅅ' shaped transfer device with one input end and two discharge ends, the bottom of which is formed by a transfer roller, and is rotatably mounted at the branch positions of the two discharge ends, and disposes of by selectively opening and closing each inlet. A disposal container sorting device (30) including a guide bar that guides the container (100) to one of two discharge ends, and a drive means (35) that is mounted to drive the guide bar and is connected to a control means (50) to control the operation. )and; The roller conveyor device 20 is equipped with a plurality of radiation detection means and a nuclide analysis means, has a cubic box shape with an open front and back surface, and allows the roller conveyor device 20 to penetrate the open front and back surfaces. It is installed in the middle of the container, is transported along the roller conveyor device 20, measures the contamination level of the disposal container inserted into the inner position through the open front, analyzes the nuclide, and transmits the measurement signal and the analyzed nuclide signal. At the bottom, it has a cubic box shape with the front and back sides open, front and back doors that are openable and mounted on the open front and back sides, respectively, and a control device that is mounted to open and close the front and back doors, respectively. Opening/closing door driving means (43) (44) connected to the means (50) and controlling the operation, and control means (50) on the inner surface, front, and rear opening and closing doors of the radioactive contamination measuring device (40). A plurality of radiation detection means 45 that are mounted to be connected and measure the radioactive contamination of the disposal container 100 disposed in the inner space of the radioactive contamination measuring device 40 and transmit the measurement signal to the control means 50. ), and is mounted to be connected to the control means 50 on the ceiling of the radioactive contamination measuring device 40 and analyzes the nuclides for the disposal container 100 placed in the inner space of the radioactive contamination measuring device 40. A radioactive contamination measurement device (40) including a nuclide analysis means (46) that transmits a nuclide signal; a control means (50) connected to the roller conveyor device (20), the disposal container sorting device (30), and the radioactive contamination measurement device (40), and controlling the operation of each device; It consists of a control panel 60 that is connected to the control means 50 and inputs operating commands to the control means 50.

However, the present applicant's radioactive metal waste contamination measurement and classification equipment having the above configuration is required to accurately determine whether the disposal container is contaminated and the location of contamination. Since detection performance and radioactive contamination location discrimination performance must be verified, verification means are needed to verify radiation detection performance and radioactive contamination location discrimination performance.

The present invention was developed in consideration of the above situation, and its purpose is to detect radioactivity before measuring the radioactive contamination of the disposal container containing radioactive metal waste using a contamination measurement and classification equipment for radioactive metal waste. The purpose is to provide a radiation source drum device for determining and verifying the location of radioactive contamination of radioactive metal waste contamination measurement and classification equipment that can easily test and verify the performance and radioactive contamination location determination performance.

The object of the present invention is a circular plate, which has a lower plate having a plurality of radiation source assembly grooves concavely formed on the upper surface and a plurality of support assembly grooves concavely formed on the upper surface, and a circular plate with a plurality of radiation source assembly grooves on the lower plate. An upper plate having a plurality of radiation source assembly holes formed through and coaxially positioned and a plurality of support assembly grooves formed concavely to be positioned coaxially with a plurality of support assembly grooves of the lower plate, and having a rod shape, one end thereof It is fixedly assembled in the support assembly groove of the lower plate, and the other end is fixedly assembled in the support assembly groove of the upper plate and has a plurality of plate supports to fixedly support the lower plate and the upper plate, and the lower plate is located on the bottom of the disposal container. A radiation source assembly body embedded in an empty disposal container so as to be positioned in; It is a cylinder with a hollow interior and an open upper surface, and has an assembly part in which a thread is formed on the inner circumferential surface of the open upper surface, an assembly protrusion that protrudes on the lower surface and a threaded part is formed in the outer circumferential surface, and transmits a radiation source through the open upper surface. Radioactive metal waste, characterized in that it is formed by assembling a plurality of selectively stored cylindrical blocks on one axis, and is composed of one or more radiation source rods assembled in one or more of the support assembly holes of the radiation source assembly body. This can be achieved by a radiation source drum device for determining and verifying the location of radioactive contamination in contamination measurement and classification equipment.

The radiation source drum device for determining and verifying the radioactive contamination location of radioactive metal waste contamination measurement and classification equipment according to the present invention can be easily stored and used in an empty disposal container, and the radiation source can be easily stored in various locations, so radiation can be detected at low cost. It is possible to quickly and easily verify the radioactive contamination location determination performance, which not only maintains the best performance of radioactive metal waste contamination measurement and classification equipment, but also greatly improves the equipment handling ability of workers.

Figures 1 to 4 are a plan view, a cross-sectional view, a longitudinal sectional view showing the present applicant's radioactive metal waste contamination measurement and classification equipment, and a block diagram illustrating the components connected to the control means and the organic correlation between the components. ,
Figure 5 is an exploded perspective view showing the radiation source drum device for determining and verifying the location of radioactive contamination in the contamination measurement and classification facility for radioactive metal waste according to the present invention;
Figures 6a and 6b are an exploded perspective view and a cross-sectional view of a combined state showing the radiation source rod in the radiation source drum device for determining and verifying the location of radioactive contamination in the contamination measurement and classification facility for radioactive metal waste according to the present invention shown in Figure 5;
Figure 7 is a cross-sectional view showing the assembled state of the radiation source drum device for determining and verifying the location of radioactive contamination in the contamination measurement and classification facility for radioactive metal waste according to the present invention.

Hereinafter, the present invention will be described in more detail with reference to the attached drawings.

Prior to this, the terms or words used in this specification and claims should not be construed as limited to their usual or dictionary meanings, and the inventor should appropriately define the concept of terms in order to explain his or her invention in the best way. It must be interpreted as meaning and concept consistent with the technical idea of the present invention based on the principle of definability.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention, and do not represent the entire technical idea of the present invention, so at the time of filing this application, they can be replaced. It should be understood that various equivalents and variations may exist.

The radioactivity underestimation correction system of the contamination measurement and classification equipment for radioactive metal waste according to the present invention will be described in detail with reference to Figures 5 to 7.

Referring to FIGS. 5 to 7, the radiation source drum device for determining and verifying the location of radioactive contamination in the contamination measurement and classification equipment for radioactive metal waste according to the present invention consists of an empty disposal container 100 with a lid 100a and a radiation source rod assembly. It consists of a main body 110 and one or more radiation source rods 120.

The radiation source assembly body 110 is composed of a lower plate 111, an upper plate 112, and four cardboard supports 113, and the lower plate (100) is placed in an empty disposal container 100 having the lid 100a. 111) is assembled and built into the bottom of the disposal container 100, and the detachably assembled radioactive rod 120 is stably fixed within the disposal container 100.

The lower plate 111 is a circular plate and has a plurality of radiation source assembly grooves 111a concavely formed on the upper surface and a plurality of support assembly grooves 111b concavely formed on the upper surface.

The upper plate 112 is a circular plate, and has a plurality of radiation source assembly holes 112a formed through it to be positioned coaxially with the plurality of radiation source assembly grooves 111a of the lower plate 111 and a plurality of the lower plate 111. It has a plurality of support assembly grooves (112b) that are concavely formed to be located coaxially with the support assembly grooves (111b).

The cardboard support 113 is shaped like a rod, and one end is fixedly assembled in the support assembly groove 111b of the lower plate 111, and the other end is fixedly assembled in the support assembly groove 112b of the upper plate 112. The lower plate 111 and the upper plate 112 are fixedly supported.

The one or more radiation source rods 120 are cylinders with a hollow interior and an open upper surface, an assembly portion 121a in which a threaded portion is formed on the inner peripheral surface of the open upper surface, a protruding portion on the lower surface, and a threaded portion on the outer peripheral surface. It has an assembly protrusion 121b formed, and is formed by assembling a plurality of cylindrical blocks 121 in which the radiation source is selectively accommodated through the open upper surface in one axis, and the support assembly hole 112a of the radiation source assembly body 110 ), and a radioactive source 122 is optionally built into the cylindrical block 121.

The radiation source drum device for determining and verifying the location of radioactive contamination of radioactive metal waste contamination measurement and classification equipment having the above configuration includes one or more radiation sources arbitrarily stored in one or more of the cylindrical blocks 121. After assembling the radiation source 120 into any radiation source assembly hole 112a of the radiation source assembly body 110, closing the lid 100a on the upper surface of the disposal container 100, and measuring the contamination level of radioactive metal waste. And a test was conducted to determine the location of contamination by measuring the radioactive contamination of the radiation source drum device for verification of the location of radioactive contamination by the radioactive contamination measurement device 40 while mounted on the roller conveyor device 20 of the classification facility. This has the advantage of being able to easily verify the radioactive contamination measurement and contamination location discrimination performance of radioactive metal waste contamination measurement and classification equipment.

As described above, the present invention has been described with specific details such as specific components and limited embodiments and drawings, but this is only provided to facilitate a more general understanding of the present invention, and the present invention is not limited to the above embodiments. , those skilled in the art can make various modifications and variations from this description.

Accordingly, the spirit of the present invention should not be limited to the described embodiments, and the scope of the patent claims described below as well as all things that are equivalent or equivalent to the scope of this patent claim shall fall within the scope of the spirit of the present invention. .

10: shielded housing 20: roller conveyor device
30: Disposal container classification device 40: Radioactive contamination measurement device
50: control means 60: control panel
100: Disposal container 110: Radiation source assembly body
111: lower plate 112: upper plate
113: cardboard support 120: radiation source rod
121: cylindrical block 122: radiation source

Claims (1)

As a circular plate, the lower plate 111 has a plurality of radiation source assembly grooves 111a concavely formed on the upper surface and a plurality of support assembly grooves 111b concavely formed on the upper surface, and the lower plate 111 as a circular plate. A plurality of radiation source assembly holes (112a) formed through and coaxial with the plurality of radiation source assembly grooves (111a) and concavely formed to be coaxial with the plurality of support assembly grooves (111b) of the lower plate 111. An upper plate 112 having a plurality of support assembly grooves 112b and a bar shape, one end of which is fixedly assembled to the support assembly groove 111b of the lower plate 111, and the other end of the upper plate 112. It is provided with a plurality of card supports 113 that are fixedly assembled in the support assembly groove 112b to fixedly support the lower plate 111 and the upper plate 112, and the lower plate 111 is of the disposal container 100. A radiation source assembly body 110 embedded in the empty disposal container 100 so as to be positioned on the bottom;
It is a cylinder with a hollow interior and an open upper surface, and has an assembly portion (121a) in which a threaded portion is formed on the inner circumferential surface of the open upper surface, and an assembly protrusion (121b) that protrudes on the lower surface and has a threaded portion on the outer peripheral surface, A plurality of cylindrical blocks 121 in which the radiation source 122 is selectively accommodated through the open upper surface are formed by assembling on one axis, and are assembled in one or more of the support assembly holes 112a of the radiation source assembly body 110. A radiation source drum device for determining and verifying the location of radioactive contamination in a contamination measurement and classification facility for radioactive metal waste, characterized in that it consists of one or more radioactive source rods (120).

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