JPH09250533A - Detent structure of screw for nuclear reactor structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the durability in the detent structure of the screw caulks a sleeve provided in the other side to a caulking groove provided in one side of a screw fixing body by avoiding duplication of the caulking part of the sleeve in the re-fastening of a screw. SOLUTION: The detent structure is constituted so that a sleeve 2 surrounding the perimeter of a bolt head T1 is risingly provided in the bolt head T1 side of a tightened thing 1, a caulking groove 3 is formed in the outer periphery part of the bolt head T1, and the sleeve 2 is caulked into the caulking groove 3 to perform the detent. In this case, a spare caulking groove 5 which does not caulk the sleeve 2 is formed in the outer periphery of the bolt head 1.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a screw detent structure for a nuclear reactor power plant structure.

[0002]

2. Description of the Related Art In a nuclear reactor power plant structure, it may be necessary to replace or repair the equipment from the initial design to subsequent changes in the operating environment. Some of the equipment and parts that are used by being attached to the reactor structure are attached by screws so that they can be removed when repair or replacement is required.

On the other hand, in a nuclear reactor of a nuclear power plant, a coolant is circulated in order to transfer the thermal energy generated in the reactor to a steam turbine. This coolant is sometimes a structure,
Flow-induced vibrations are generated in the fitting, which is why the threads are usually detented.

As a method for this detent, there is a structure in which the detent can be removed by applying a torque of a certain value or more.

In order to prevent a screw from coming off due to a torque of a certain value or more, a sleeve is attached to or integrally machined with an object to be fastened, a bolt, a nut, etc. There is a structure in which a nut is provided with a caulking groove in a direction substantially perpendicular to the thread and the sleeve is caulked and deformed after tightening.

[0006]

The caulking grooves for preventing rotation are usually provided at two or three places at intervals in the circumferential direction. On the other hand, the sleeve is
Each time it is crimped, it plastically deforms, but if the same part is deformed many times, it may break. Moreover, this fracture becomes apparent after tightening the screw.

For example, at the time of repairing, if the caulking is released and then the same tightening object and bolt are used again,
The engagement of the threads is also the same, and the previous crimping position of the sleeve often faces the original crimping groove, and the same position of the sleeve is crimped again. In particular, in the case of a sleeve integrated with an object to be fastened, if the sleeve is damaged, it is necessary to replace or repair the entire object to be fastened, resulting in a large loss. Therefore, there is a demand for a method of avoiding caulking of the same portion of the sleeve.

It is an object of the present invention to minimize the plastic deformation of the sleeve by coping with the actual situation described above and finding a new structure in the caulking groove.

[0009]

The features of the present invention which meet the above-mentioned object are that a sleeve surrounding the periphery of the bolt head is erected on the bolt head side of an object to be fastened, and the bolt head In a screw rotation prevention structure of a nuclear reactor structure in which a caulking groove is formed in the outer peripheral portion, and the sleeve is caulked in the caulking groove, the sleeve is caulked in the outer peripheral portion of the bolt head. There is no spare caulking groove formed.

According to the second structure of the present invention, a sleeve surrounding the periphery of the nut is erected on the nut side of the object to be fastened, and a caulking groove is formed on the outer peripheral portion of the nut, and the caulking groove is formed in the caulking groove. In a screw rotation preventing structure for a nuclear reactor structure in which a screw is locked by crimping the sleeve, a preliminary crimping groove that does not crimp the sleeve is formed on an outer peripheral portion of the nut.

Further, in the third structure of the present invention, a recess for inserting the bolt head is formed on the bolt head side of the object to be fastened, and a caulking groove is formed on the inner peripheral surface of the recess. ,
A screw detent structure for a nuclear reactor structure in which a sleeve fitted in the recess is erected on the outer peripheral surface of the upper surface of the bolt head, and the screw is detented by caulking the sleeve in the caulking groove of the recess. In the second aspect, a preliminary caulking groove for not caulking the sleeve is formed on the inner peripheral surface of the recess.

According to the fourth structure of the present invention, a concave portion into which the nut is fitted is formed on the nut side of the object to be fastened, and a caulking groove is formed on the inner peripheral surface of the concave portion. In the screw rotation preventing structure of a nuclear reactor structure, in which a sleeve to be fitted into the recess is erected on the outer peripheral portion of the end face, and the screw is locked into the caulking groove of the recess to prevent the screw from rotating. It is characterized in that a spare caulking groove is formed on the inner peripheral surface of the so that the sleeve is not caulked.

Finally, in the fifth structure of the present invention, a sleeve surrounding the screwed bolt shaft portion is erected from the periphery of the screw hole on the end face of the nut, and a caulking groove is formed in the outer peripheral portion of the bolt shaft portion. , In the screw locking structure of a nuclear reactor structure, which locks the screw by crimping the sleeve in the crimping groove, a preliminary crimping groove that does not crimp the sleeve is formed in the outer peripheral portion of the bolt shaft portion. It is characterized by

[0014]

In the above-described screw preventive structures according to the first to fifth aspects of the present invention, even when the screws are refastened, the sleeve can be swaged at the spare swaged groove portion without being swaged at the previous swaged portion. It is possible to minimize the plastic deformation of the same portion of the sleeve.

[0015]

BEST MODE FOR CARRYING OUT THE INVENTION With reference to the accompanying drawings,
An embodiment of the present invention will be described.

FIG. 1 (a) is a sectional view showing the first embodiment of the present invention, and FIG. 1 (b) is a plan view of the same, showing the control rod guide tube fixing portion of the reactor core upper mechanism. There is. Control rod guide tubes are sometimes removed for refurbishment.

In the above-described screw rotation preventing structure, the object to be fastened 1
On the head T ₁ side of the bolt T, a sleeve 2 surrounding the periphery of the bolt head T ₁ is erected, and a pair of caulking grooves 3 are initially formed at the opposite positions on the outer peripheral portion of the bolt head T _1. Then, the sleeve 2 has a basic structure to prevent the screw from rotating by crimping the sleeve 2 into the pair of crimping grooves 3. The bolt T ₁ is screwed onto the pedestal 4, and the sleeve 2 is made of a plastic metal such as stainless steel.

Then, in the first embodiment of the present invention, in such a structure, as shown in FIG. 1B, a preliminary caulking groove 5 for not caulking the sleeve 2 is provided on the outer peripheral portion of the bolt head T _1. One pair is formed. The auxiliary caulking groove 5 is formed at a rotationally symmetric position where the phase is 90 ° different from that of the caulking groove 3.

Next, FIG. 2 is a perspective view showing a second embodiment of the present invention. In this screw rotation preventing structure, the sleeve 2 surrounding the nut N on the nut N side of the object to be fastened.
And 3 nuts 3 are formed at regular intervals on the outer peripheral portion of the nut N, and the sleeve 2 is crimped into the 3 crimp grooves 3 to prevent the screw from rotating. It has a structure. Further, in the above-described embodiment, three spare caulking grooves 5 that do not caulk the sleeve 2 are formed on the outer peripheral portion of the nut N. The spare caulking groove 5 is formed at a rotationally symmetrical position where the phase is 60 ° different from that of the caulking groove 3.

Further, FIG. 3 is a perspective view showing a third embodiment of the present invention. In this example, the head T ₁ of the bolt T of the object to be fastened ₁ is fitted and inserted into the head T ₁ . The concave portion 6 is formed, the caulking groove 3 is formed on the inner peripheral surface of the concave portion 6, and the sleeve 2 which is fitted into the concave portion 6 is provided upright on the outer peripheral surface of the upper surface of the bolt head T _1. The sleeve 2 is caulked in the caulking groove 3 of 6 to prevent the screw from rotating. Further, in this example, a pair of spare caulking grooves 5 in which the sleeve 2 is not caulked is formed on the inner peripheral surface of the recess 6.

FIG. 4 is a perspective view showing a fourth embodiment of the present invention. In this example, a recess 6 into which the nut N is fitted is formed on the nut N side of the object to be fastened 1, The caulking groove 3 is formed on the inner peripheral surface of the concave portion 6, and the sleeve 2 fitted into the concave portion 6 is erected on the outer peripheral portion of the outer end surface of the nut N, and the caulking groove 3 of the concave portion 6 is provided with the sleeve 2. The basic structure is to lock the screw by crimping 2. In this embodiment, the same number of the preliminary caulking grooves 5 as the caulking grooves 3 are formed on the inner peripheral surface of the concave portion 6 so that the sleeve 2 is not caulked.

FIG. 5 is a perspective view showing the fifth embodiment of the present invention. In this example, the sleeve 2 surrounding the shaft portion T ₂ of the screwed bolt T from the periphery of the screw hole on the outer end surface of the nut N. Is basically provided, a caulking groove 3 is formed in the outer peripheral portion of the bolt shaft portion T ₂ , and the sleeve 2 is caulked into the caulking groove 3 to prevent the screw from rotating.

Further, in this embodiment, in such a structure, a preliminary caulking groove 5 for not caulking the sleeve 2 is formed on the outer peripheral portion of the bolt shaft portion T ₂ .

Then, replacement of equipment in the reactor structure,
When only the caulking groove 3 that has been determined as in the conventional case is provided when performing a repair or the like, the caulking portion of the sleeve 2 often overlaps with the caulking portion of the previous time, and the deformation of the caulking portion is repeated, which increases fatigue of the caulking portion. However, in the screw locking structure of each of the first to fifth embodiments of the present invention, even when the screw is refastened, the sleeve 2 is not swaged at the previous swaging portion but at the portion of the spare swaging groove 5. By crimping, it is possible to avoid crimping the same portion of the sleeve 2 and minimize its plastic deformation.

Although the embodiment of the present invention has been described above, the number of the spare caulking grooves 5 can be appropriately increased.

[0026]

As described above, in the structure for preventing the rotation of the screw of the reactor structure of the present invention, in the structure of crimping the sleeve provided on the other side into the crimp groove provided on one side of the screw fixing body, In addition to the groove, a spare caulking groove that does not crimp the sleeve is formed, and when refastening the screw, the caulking portion of the sleeve overlapped and fatigue was increased due to repeated deformation, but In the present invention, since the sleeve can be caulked in the spare caulking groove portion, it is possible to avoid the caulking of the same portion of the sleeve and to suppress plastic deformation to a minimum to improve the durability. .

[Brief description of the drawings]

FIG. 1A is a cross-sectional view showing a first embodiment of the present invention. (B) It is a plan view of the same.

FIG. 2 is a perspective view showing a second embodiment of the present invention.

FIG. 3 is a perspective view showing a third embodiment of the present invention.

FIG. 4 is a perspective view showing a fourth embodiment of the present invention.

FIG. 5 is a perspective view showing a fifth embodiment of the present invention.

[Explanation of symbols]

1 tightening object 2 sleeve 3 caulking groove 4 pedestal 5 spare caulking groove 6 concave portion T bolt T ₁ bolt head T ₂ bolt shaft portion N nut

Claims (5)

[Claims] 1. A sleeve surrounding the periphery of the bolt head is erected on the bolt head side of an object to be fastened, and a caulking groove is formed on the outer peripheral portion of the bolt head, and the sleeve is provided in the caulking groove. A structure for forming a screw detent by crimping, wherein a preliminary caulking groove in which the sleeve is not caulked is formed on the outer peripheral portion of the bolt head, and a screw detent structure for a nuclear reactor structure. 2. A screw is provided by vertically arranging a sleeve surrounding the nut on the nut side of the object to be fastened, forming a caulking groove on the outer peripheral portion of the nut, and caulking the sleeve into the caulking groove. In the structure for preventing the rotation of the screw, a preliminary rotation caulking groove for preventing the sleeve from being caulked is formed on the outer peripheral portion of the nut, and the rotation preventing structure for the screw of the nuclear reactor structure. 3. A recess for inserting the bolt head is formed on the bolt head side of the object to be fastened, a caulking groove is formed on the inner peripheral surface of the recess, and the upper surface outer periphery of the bolt head is formed. In a structure in which a sleeve to be inserted into the recess is erected on the portion and the screw is prevented from being swaged by crimping the sleeve into the crimping groove of the recess, a spare that does not crimp the sleeve onto the inner peripheral surface of the recess is provided. A screw detent structure for a nuclear reactor structure, characterized in that a caulking groove is formed. 4. A recess for inserting the nut is formed on the nut side of the object to be fastened, a caulking groove is formed on the inner peripheral surface of the recess, and the recess is formed on the outer peripheral portion of the end surface of the nut. In a structure in which a sleeve to be inserted is erected and the screw is prevented from rotating by caulking the sleeve in the caulking groove of the recess, a preliminary caulking groove that does not caulk the sleeve is formed on the inner peripheral surface of the recess. A screw stop structure for a nuclear reactor structure, which is characterized in that 5. A sleeve surrounding the threaded bolt shaft portion is provided upright from the periphery of the screw hole on the end face of the nut, and a caulking groove is formed on the outer peripheral portion of the bolt shaft portion, and the sleeve is fitted in the caulking groove. A structure for preventing rotation of a screw by caulking, wherein a preliminary caulking groove for preventing a sleeve from being caulked is formed on an outer peripheral portion of the bolt shaft portion, and a structure for preventing rotation of a screw of a nuclear reactor structure.