JP2009047668A - Cutting-opening device of airtight container containing radioactivated metallic material and radioactive gas - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To implement the safe and efficient demolition of an airtight container by cutting and opening through remote manipulation the airtight container 1 containing metallic materials radioactivated by neutron irradiation in a nuclear reactor and the like and radioactive gas, by trapping radioactive gas generated at that time into a closed pedestal, and by efficiently recovering the radioactive gas through a simple technique. <P>SOLUTION: The airtight container 1 containing radioactivated metallic materials and radioactive gas is installed within a closed pedestal 9 and the arbitrary cutting position is determined by a vertical movement mechanism section 6. After fixing the airtight container 1 firmly with an upper clamp mechanism section 5 and a lower clamp mechanism section 4, by moving a cutoff tool 2 forward-and-backward by a cutoff tool slide moving mechanism section 7, the airtight container is cut by little and little. Discharged radioactive gas during the period of cutting off of the airtight container 1 is recovered with a radioactive gas recovery system I. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention, for example, when a high-level radioactive metal material irradiated with a nuclear reactor or the like and highly radioactive radioactive material and radioactive gas is cut by remote operation using a manipulator or the like, Radioactive metal material and radioactive gas that can be recovered safely so that there is no leakage to the outside by converting the radioactive material released from the metal material and sealed container together with cutting into a form that is easy to recover The present invention relates to a device for cutting and opening an airtight container.

  As a method of irradiating materials in neutron irradiation tests of various types of nuclear fuel and materials using irradiation test reactors, manufacturing radioisotopes, etc., the material to be irradiated is generally sealed in a sealed container. ing. The irradiated material is transferred to a shielded hot cell while being put in a sealed container, and the sealed container is cut by remote operation in the hot cell, and the irradiated irradiated material is taken out.

  The conventional cutting of a sealed container that is performed for taking out the radioactive irradiated material is performed by using an existing lathe or the like remotely in a hot cell when the sealed container includes a relatively low level of radioactivity. The irradiated specimen was removed from the sealed container using a device modified for operation.

  For example, fuel for nuclear power generation such as uranium and MOX (mixed oxidation fuel of uranium and plutonium) and fuel material for fusion reactor (tritium breeding material which is a compound containing lithium, and a compound containing beryllium which multiplies neutrons) In the irradiation test of neutron multiplication material, the radioactive gas is generated in the hot cell when the sealed container is dismantled because the radioactive gas having a high level of radioactivity is generated by neutron irradiation. There was a problem.

Furthermore, in the case of a closed container with a complicated internal structure with a thermocouple, piping, etc. inside the closed container, or when the shape and dimensions of the closed container are not constant, the shape of the filled material is likely to spill. In this case, it was difficult to cut with a lathe.
JP 2005-345296 A JP 11-352293 A Japanese Patent Laid-Open No. 09-236693 Japanese Patent Laid-Open No. 05-19098

  In the conventional cutting method, there is a concern of contamination in the case of a substance having a high level of radioactivity, and further, cutting may be difficult depending on the shape of the sealed container, the internal structure, and the shape of the filling. In view of the above-mentioned problems in the conventional method for cutting a sealed container, the present invention confines the radioactive gas generated when opening the sealed container activated by neutron irradiation in a nuclear reactor or the like in a sealed frame, and An object is to enable safe and efficient dismantling of a sealed container by efficiently collecting and collecting by a simple method.

  In the present invention, in the hermetically sealed base 9 hermetically sealed so as not to leak the radioactive gas released when the sealed container 1 containing the activated metal material and the radioactive gas is cut, the metal material and The airtight container 1 is cut by the cutting tool 2 and has a function of collecting the metal material and the radioactive gas released from the airtight container 1.

  The inside of the cutting / opening of the sealed container containing the activated metal material and the radioactive gas according to the present invention is appropriately processed so that the radioactive gas released during the cutting / opening operation does not leak to the outside. That is, a vertical movement mechanism unit 6 that supports the lower end of the sealed container 1 containing the activated metal material and radioactive gas and moves the metal material and the sealed container 1 up and down, and the cutting position of the metal material and the sealed container 1 up and down. An upper clamp mechanism portion 5 and a lower clamp mechanism portion 4 that are fixed by sandwiching the portion, a cutting tool 2 that cuts the metal material and the closed container 1, and a cutting tool slide that moves the cutting tool 2 back and forth at an arbitrary speed. The moving mechanism unit 7 and the hermetically sealed base 9 hermetically sealed so as not to leak the radioactive gas released when cut off to the outside.

  When the metal material and the hermetic container 1 are set in the receiving part of the vertical movement mechanism part 6 in the previous period, the lower clamping mechanism part 4 and the rotation mechanism part 3 for tilting the vertical movement mechanism part 6 to an arbitrary angle are provided. The upper clamp mechanism 5 and the lower clamp mechanism 4 securely fix the metal material and the sealed container 1 having various shapes and sizes, and the vertical movement mechanism 6 allows the metal material and the sealed container having different lengths. Any one cutting position can be determined.

As means for recovering the radioactive gas released from the metal material and the sealed container 1 into the sealed mount 9 when the metallic material and the sealed container 1 are cut, a radioactive substance form converter 11 and a radioactive gas recovery unit 12 are provided. And a radioactive gas monitor 10 and 13 for measuring the concentration of the radioactive gas in the upstream and downstream stages of the radioactive gas recovery means, and the pump 14 circulates and exhausts the gas.
In addition, when the metal material and the sealed container 1 are cut, a scattering prevention tray 8 is provided which is a means for preventing scattering of radioactive chips generated from the metal material and the sealed container 1 or the filler in the sealed container 1.

  According to the present invention, when the internal structure of the sealed container 1 containing a high-level radioactive metal material and radioactive gas highly activated by neutron irradiation in a nuclear reactor or the like is complicated, the metal material and the sealed container 1 are various. Even in the case of various shapes / dimensions, it can be disassembled for general purposes by a device for cutting / opening a sealed container containing the activated metal material and radioactive gas. Further, the radioactive gas released from the metallic material and the sealed container 1 together with the opening of the metallic material and the sealed container 1 is confined in a hermetically sealed hermetically sealed base 9, and the radioactive gas is recovered by the radioactive gas recovery means. As a result, the metal material and the sealed container 1 can be safely and efficiently disassembled.

In the present invention, in the hermetically sealed base 9 hermetically sealed so as not to leak the radioactive gas released when the sealed container 1 containing the activated metal material and the radioactive gas is cut, the metal material and The intended object is achieved by cutting and opening the sealed container 1 with the cutting tool 2 and having a function of collecting the metal material and the radioactive gas released from the sealed container 1.
Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to examples.

  As shown in FIG. 1, a metal material highly activated by neutron irradiation in a nuclear reactor or the like and a radioactive gas released from the metal material and the sealed container 1 into the sealed gantry 9 when the sealed container 1 is cut and opened. The radioactive gas recovery means to be recovered includes the radioactive substance form converter 11 and the radioactive gas recovery device 12, the radioactive gas monitors 10 and 13 for measuring the concentration of the radioactive gas before and after the radioactive gas recovery means, and the gas circulation and It is comprised by the pump 14 for exhausting. Thereby, it can collect | recover, changing the form of the radioactive material contained in the radioactive gas discharged | emitted from the said metal material and the airtight container 1 to the said airtight base 9.

  Further, in the hermetically sealed base 9, means for preventing the metal material and radioactive chips generated from the metal material and the hermetic container 1 from being scattered when the metal material and the hermetic container 1 are cut and opened or the filling in the hermetic container are prevented from being scattered. By providing the anti-scattering tray 8, the radioactive gas recovery means only needs to recover the radioactive gas, and the solid radioactive chips or the filling in the sealed container are completely radioactive from the sealed rack 9. After recovering the gas, it can be recovered separately.

  The cutting tool 2 is modified so that the cutting tool for cutting the material can be remotely controlled by always rotating the saw tooth on the belt in one direction, and the cutting tool is moved back and forth at an arbitrary speed. The metal material and the hermetic container 1 are cut little by little while being advanced / retreated by the tool slide moving mechanism unit 7. Accordingly, even a closed container having a complicated internal structure including a thermocouple, piping, and the like inside the sealed container can be cut by adjusting the front-rear moving speed. Furthermore, even when the shape of the sealed container is not constant, such as a cylindrical shape or a square bar shape, or when the shape of the filled material is easily spilled, it can be cut and opened without any problem.

  Even if the metal material and the closed container 1 have various shapes and sizes, the upper clamp mechanism 5 and the lower clamp mechanism 4 can firmly fix the metal material and the closed container 1 and further Since the movable mechanism 6 can determine any cutting position of the metal material having different lengths and the sealed container 1, the versatility of the cutting / opening device for the sealed container containing the activated metal material and the radioactive gas can be increased. Can be high.

  An apparatus for cutting and opening a sealed container containing a radioactive metal material and a radioactive gas according to the present invention is a nuclear power generation fuel such as uranium or MOX or a fusion reactor fuel in a shielded hot cell that handles radioactive substances. Applicable when dismantling / opening sealed containers after material irradiation test.

Hereinafter, cutting and unsealing after an irradiation test of an airtight container filled with lithium ceramics having a particle diameter of about 2 mm, which is a tritium breeder, among the fuel materials for fusion reactors will be described in more detail with reference to the drawings.
FIG. 1 shows a schematic configuration diagram of an embodiment of a device for cutting and opening a sealed container containing a radioactive metal material and a radioactive gas according to the present invention. Moreover, the example of arrangement | positioning when the said cutting device is installed in a hot cell in FIG. 2 is shown.

  In preparation for cutting the sealed container 1 containing the irradiated radioactive metal material and radioactive gas, when the metal material and the sealed container 1 are set in the receiving part of the up-and-down moving mechanism unit 6, a sealed mount is used using a manipulator F. The lower clamp mechanism unit 4 and the vertical movement mechanism unit 6 are tilted at an angle at which the rotation mechanism unit 3 can be easily set so that the metal material and the sealed container 1 can be easily set from the insertion port 9. When the metal material and the sealed container 1 are set in the receiving part of the up-and-down moving mechanism unit 6, the metal material and the sealed container 1 are fixed by the lower clamp mechanism unit 4, and the metal material and the sealed container are used by the rotating mechanism unit 3. Stand 1 vertically. Once the lower clamp mechanism 4 is loosened, the cutting position of the metal material and the sealed container 1 is determined by the vertical movement mechanism 6, and the upper clamp mechanism 5 and the lower clamp mechanism 4 sandwich the upper and lower cutting positions. Secure firmly.

  The metal material set in the hermetic base 9 and the hermetic container 1 are cut little by little while being advanced and retracted by the cutting tool slide moving mechanism 7 which moves the tool back and forth at an arbitrary speed by the cutting tool 2. When cutting the metal material and the sealed container 1, the radioactive material generated from the metal material and the sealed container 1 or the filling in the sealed container is prevented from being scattered in the sealed gantry 9. A prevention tray 8 is provided.

  The cutting tool 2 for cutting the metal material and the sealed container 1 is appropriately selected depending on the metal material to be cut and the material, shape, etc. of the sealed container 1, but in the example of FIG. A band saw characterized by cutting the material by always rotating in one direction is modified so that it can be remotely operated. By using the band saw, it is possible to cut the metal material and the sealed container 1 having various shapes and sizes, and the cutting surface does not become hot due to frictional heat by controlling the rotation speed of the teeth.

  When the cut metal material and the sealed container 1 are taken out, the lower clamp mechanism 4 is once loosened, the position is lowered by the vertical movement mechanism 6, and then the metal material and the sealed container 1 are fixed again by the lower clamp mechanism 4. Then, the metal material and the hermetic container 1 are taken out by the manipulator F after adjusting the angle to be easily taken out by the rotating mechanism unit 3.

  The sealed gantry 9 includes a radioactive substance form converter 11, a radioactive gas recovery unit 12, and a radioactive gas recovery unit as a radioactive gas recovery unit for recovering the metal material and the radioactive gas released from the sealed container 1. The radioactive gas monitors 10 and 13 for measuring the concentration of radioactive gas in the front and rear stages and a pump 14 for circulating and exhausting the gas are connected. When opening the sealed container filled with lithium ceramics after the irradiation test, the radioactive substance form converter 11 is, for example, a tritium form converter, the radioactive gas recovery unit 12 is a tritium recovery unit, and the radioactive gas monitors 10 and 13 are tritium monitors. is there.

  After the cutting of the metal material and the sealed container by the cutting tool 2, the carrier gas E used for the recovery of the radioactive gas is supplied into the sealed frame 9, and the gas in the opening chamber is circulated by the pump 14. The circulating gas has a mechanism capable of reducing the tritium concentration in the hermetic frame 9 by passing through the radioactive substance form converter 11 and the radioactive gas recovery unit 12 described above with reference to FIG. During the circulation of the gas, the tritium concentration is monitored by the radioactive gas monitors 10 and 13, and after confirming that the tritium concentration is below the reference value, the radioactive gas is exhausted to the gas exhaust system 15.

  As shown in FIG. 2, the hermetically sealed base 9 is installed in a hot cell B which is a facility that handles high-level radioactive materials so that the radioactive materials do not leak to the outside. In addition, it is possible to remotely control the confirmation of the cutting state of the sealed container 1, the supply of the carrier gas E used for the transfer / recovery of the radioactive gas, the removal of the metal material and the sealed container 1 by the manipulator F, and the like. Further, the radioactive gas recovery system I is accommodated in a glove box H in the isolation room C.

  FIG. 3 shows the main parts of the cutting tool 2 and the cutting tool slide moving mechanism 7 described above with reference to FIG. The metal material and the sealed container 1 described above with reference to FIG. 1 are denoted by reference symbol a in FIG. 3, and the cutting tool 2 for cutting the metal material and the sealed container a is denoted by reference symbol b in FIG. The cutting tool b moves back and forth on the feed mechanism d at an arbitrary speed by driving the motor c. Further, the rotational speed of the teeth of the cutting tool b can be adjusted remotely from the operation room A.

  As described above, in the present invention, when the internal structure of the metal material and sealed container irradiated by a nuclear reactor or the like is complicated or when there is a filling inside, the metal material and the sealed container have various shapes and dimensions. Even so, the development of a remote-operated cutting and opening device that has the function of safely cutting and opening sealed containers while collecting radioactive gas that is released when dismantled remotely by a manipulator or the like will be established. It is possible to facilitate the subsequent cutting and opening operation of the sealed container containing the activated metal material and the radioactive gas.

It is the schematic which shows one Example of the cutting / opening apparatus of the metal material and airtight container of this invention. It is the schematic which shows the example of the state which uses the metal material of this invention, and the cutting / opening apparatus of an airtight container. It is the schematic which shows the principal part of the cutting / unsealing apparatus of the metal material and airtight container of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Airtight container containing activated metal material and radioactive gas 2 Cutting tool 3 Rotation mechanism part 4 Lower clamp mechanism part 5 Upper clamp mechanism part 6 Vertical movement mechanism part 7 Cutting tool slide movement mechanism part 8 Spattering prevention tray 9 Sealing stand 10 Radioactive gas monitor 1
11 Radioactive substance form converter 12 Radioactive gas recovery device 13 Radioactive gas monitor 2
14 Pump 15 Gas exhaust system A Operation room B Hot cell C Isolation room D Power supply box E Carrier gas F Manipulator G Cutting / opening device H Glove box I Radioactive gas recovery system a Sealed container containing activated metal material and radioactive gas b Cutting tool c Motor d Feed mechanism

Claims (5)

Including sealed metal containers and radioactive gases that contain radioactive metal materials and radioactive gases that are properly processed so that radioactive gases released during the work are not leaked to the outside. A device for cutting and unsealing a sealed container, which supports the lower end of the sealed container 1 containing the activated metal material and radioactive gas, and moves the metal material and the sealed container 1 up and down, and the metal The upper clamp mechanism 5 and the lower clamp mechanism 4 that fix the material and the cutting position of the sealed container 1 with the upper and lower parts sandwiched therebetween, the cutting tool 2 that cuts the metal material and the sealed container 1, and the cutting tool 2 It has a cutting tool slide moving mechanism 7 that moves back and forth at a speed, and a hermetically sealed base 9 that is hermetically sealed so as not to leak radioactive gas released when cutting. Cutting and opening device for a sealed container containing a metallic material and radioactive gases emitted reduction, characterized in that. When the metal material and the hermetic container 1 are set in the receiving part of the vertical movement mechanism part 6, the lower clamp mechanism part 4 and the rotation mechanism part 3 for tilting the vertical movement mechanism part 6 to an arbitrary angle are provided. The device for cutting and opening a sealed container containing the activated metal material and the radioactive gas according to claim 1. A radioactive material form converter 11 and a radioactive gas recovery device 12 which are means for recovering the radioactive gas released from the metal material and the sealed container 1 into the sealed mount 9 when the metallic material and the sealed container 1 are cut; And a radioactive gas monitor (10) and (13) for measuring the concentration of the radioactive gas in the upstream and downstream stages of the radioactive gas recovery means, and the gas is circulated and exhausted by the pump (14). A device for cutting and opening sealed containers containing activated metal materials and radioactive gases. When the metal material and the sealed container 1 are cut, the anti-scattering tray 8 is a means for preventing scattering of radioactive chips generated from the metal material and the sealed container 1 or the filler in the sealed container 1. A cutting / opening device for a sealed container containing the activated metal material and the radioactive gas according to any one of claims 1 to 3. The upper clamp mechanism 5 and the lower clamp mechanism 4 firmly fix the metal material and the sealed container 1 of various shapes and dimensions, and further the metal material and the sealed container 1 having different lengths by the vertical movement mechanism 6. The cutting and opening device for a sealed container containing the activated metal material and the radioactive gas according to any one of claims 1 to 4, characterized in that an arbitrary cutting position can be determined.

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