JPS6344794Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Technical Field of the Invention] The present invention relates to a control rod coupling device for coupling a control rod drive mechanism and control rods of a boiling water nuclear reactor. [Technical background of the invention] Generally, a plurality of control rod drive mechanisms for a boiling water nuclear reactor are provided so as to penetrate through a lower mirror portion of a reactor pressure vessel. FIG. 1 is a diagram showing one of them, and numeral 1 in the figure is the lower mirror part of the reactor pressure vessel. A control rod drive mechanism housing 2 is provided passing through the lower mirror portion 1. A control rod guide tube 3 is provided at the upper end of this control rod drive mechanism housing 2.
is connected. A control rod drive mechanism 4 driven by water pressure is provided within the control rod drive mechanism housing 2, and a control rod 5 is disposed within the control rod guide tube 3.
is accommodated. The control rod drive mechanism 4 and the control rod 5 are removably connected, and the control rod 5
are configured to be inserted into and removed from the upper core (not shown) by a control rod drive mechanism 4. By the way, the conventional connection structure between the control rod 5 and the control rod drive mechanism 4 is constructed as shown in FIG. That is, 6 in the figure is an index tube of the control rod drive mechanism 4, and this index tube
A coupling spud 7 is screwed onto the tip of the tube 6. The coupling spud 7 has a cylindrical shape and is formed with six spring fingers 7a at equal pitches, and is configured to grip the control rod 5 with the spring fingers 7a. An uncoupling rod 8 is inserted into the interior of the coupling spud 7. This anchor rod 8 is shaped like a round bar with the same diameter over its entire length, and has an annular stopper portion 8a formed in the middle portion. The proximal end side of the anchor rod 8 is slidably fitted into a sliding hole 7a formed in the proximal end of the coupling spud 7. When the piston tube 6a inside the index tube 6 rises, the tip of the piston tube 6a comes into contact with the base end of the anchor rod 8, so that the anchor rod 8 is pushed up. A coupling socket 9 is provided on the control rod 5 side, and the spring fingers 7a are configured to engage inside the coupling socket 9. Also, there is a lock inside the coupling socket 9.
A plug 10 is provided. The locking plug 10 is connected to a removal handle 5a (see FIG. 1) by a rod 11 passing through the control rod 5. This lock plug 10 is urged downward by a spring 12. When connecting such a control rod drive mechanism 4 and control rod 5, the index tube 6 is raised and the spring fingers 7a of the coupling spud 7 are connected to the connection socket 9 of the control rod 5.
and further engage the spring finger 7a...
The control rod drive mechanism 4 and control rod 5 are connected by pushing and expanding them with a lock plug 10. Next, to release the connection between the control rod drive mechanism 4 and the control rods 5, lift the removal handle 5a of the control rod 5 from above the reactor pressure vessel and pull the lock plug 10 upward.
After lowering the tube 6 to release the connection or raising the piston tube 6a in the index tube 6 using water pressure to push up the uncouple rod 8, and push up the lock plug 10 with the uncoupling rod 8, Lower the index tube 6 and release the connection. [Problems in the background art] However, in the conventional control rod drive mechanism 4, when the control rod drive mechanism 4 is disassembled and assembled during periodic inspections, the stopper portion 8 of the uncoupling rod 8 is damaged.
Since the proximal end and distal end of a have the same diameter, there was a risk that the anchor rod 8 would be assembled upside down. When the uncoupling rod 8 is assembled upside down, as shown in FIG. 3, the uncoupling rod 8 pushes up the locking plug 10 of the control rod 5, making it impossible to connect the control rod drive mechanism 4 and the control rod 5. occurs. In the event of such incorrect assembly, workers would have to enter the pedestal, where radiation levels are high, and disassemble and reassemble the control rod drive mechanism, which would result in extremely poor work efficiency and could result in workers being exposed to radiation. A problem occurs where the amount increases. [Purpose of the invention] The purpose of the invention is to create a control rod drive mechanism in which the diameter of the distal end of the anchor rod is made larger than the diameter of the sliding guide hole of the coupling spud so that there is no risk of incorrect assembly of the anchor rod. An object of the present invention is to provide a control rod coupling device. [Summary of the invention] The present invention consists of a coupling spud provided at the tip of an index tube of a control rod drive mechanism, a sliding guide hole formed at the base end of the coupling spud, and a sliding guide hole formed at the base end of the coupling spud. A sliding fitting part is formed at the base end of the ring spud to be inserted into the ring spud and slidably fits into the sliding guide hole, and the distal end part is formed to have a diameter larger than the diameter of the sliding guide hole. It is equipped with an anchor pull rod. Therefore, it is impossible to install this uncoupling rod upside down, and incorrect assembly can be reliably prevented. [Embodiment of the invention] An embodiment of the invention will be described with reference to FIGS. 4 to 6. FIG. 4 is a diagram illustrating only one of the many control rod drive mechanisms provided in the lower mirror part 101 of the reactor pressure vessel. is provided. This control rod drive mechanism housing 10
A control rod guide tube 103 is connected to the upper end of 2. A control rod drive mechanism 104 driven by hydraulic pressure is housed in the control rod drive mechanism housing 102, and a control rod 105 is housed in the control rod guide tube 103. The control rod drive mechanism 104 and the control rod 105 are detachably connected, and the control rod 105 is connected to the control rod drive mechanism 1.
04 to be inserted into and pulled out of the upper core (not shown). Then, the control rod drive mechanism 104 and the control rod 105
The connecting device is constructed as shown in FIG. That is, 106 in the figure is the control rod drive mechanism 10
A driving piston (not shown) is provided at the lower end of the index tube 106, and the index tube 106 is configured to be raised and lowered by water pressure. A coupling spud 107 is screwed onto the tip of the index tube 106. This coupling
The spud 107 has a cylindrical shape and has six spring fingers 107a formed at equal pitches, and these spring fingers 107a...
5. A sliding guide hole 107b is formed at the base end of the coupling spud 107, and an anchor rod 108 is slidably inserted into the sliding guide hole 107b. The base end of this anchor rod 108 has the sliding guide hole 107b.
A sliding fitting portion 108b is formed to be inserted into the sliding guide hole 107, and a tip portion 108a having a larger diameter than the sliding guide hole 107 is formed on the tip side. And on the control rod 105 side there is a coupling socket 109.
is provided, and the spring fingers 107a are configured to engage inside the coupling socket 109. Also, coupling socket 1
A lock plug 110 is provided inside the 07. This lock plug 110 is connected to the control rod 10.
It is connected to a removal handle 105a (see FIG. 4) by a rod 111 passing through the inside of the handle 105a. This lock plug 110 is connected to spring 1.
It is urged downward by 12. In this embodiment of the present invention, the control rod 105 and the control rod drive mechanism 104 can be detachably connected as in the conventional example. And the above uncut pull
The diameter of the tip 108a of the rod 108 is larger than the diameter of the sliding guide hole 107b of the coupling spud 107, so it cannot be inserted, and there is no risk of incorrectly assembling the uncoupling rod 108, as shown in FIG. . [Effects of the invention] The control rod drive mechanism for a boiling water reactor according to the present invention has the diameter of the tip of the uncoupling rod inserted through the coupling spud of the control rod drive mechanism adjusted to the sliding guide hole of the coupling spud. Since the diameter is larger than that of the uncoupling rod, it is possible to reliably prevent incorrect assembly of the uncoupling rod, which is highly effective.

[Brief explanation of the drawing]

FIG. 1 is a vertical cross-sectional view of a conventional control rod drive mechanism, and FIGS. 2 and 3 are enlarged vertical cross-sectional views of a portion of FIG. 1.
FIG. 4 is a longitudinal sectional view showing an embodiment of the present invention, and FIGS. 5 and 6 are enlarged sectional views of a portion of FIG. 4. 104 ... Control rod drive mechanism, 105... Control rod, 106... Index tube, 107
...Coupling spout, 107a...Spring finger (connection body), 107b...Sliding guide hole, 108...Uncoupling rod, 10
8a...Tip part, 108b...Sliding fitting part, 10
9...Coupling socket, 110...Lock plug.

Claims (1)

[Scope of utility model registration request] A coupling spud provided at the tip of the index tube of the control rod drive mechanism, a sliding guide hole formed at the base end of the coupling spud, and a base inserted into the coupling spud. A sliding fitting portion is formed at the end portion to be slidably fitted into the sliding guide hole, and an uncoupling rod having a tip portion formed to have a diameter larger than the diameter of the sliding guide hole. A control rod coupling device for a control rod drive mechanism, characterized in that: