JP2024017462A - How to adjust the amount of elongation of bolt members - Google Patents

Abstract

The present invention provides a method for adjusting the amount of elongation of a bolt member to which a multi-jack bolt tensioner is attached, which can improve the workability of adjusting the amount of elongation of a bolt member.
[Solution] A first method for adjusting the amount of elongation of a bolt member is to attach a multi-jack bolt tensioner to the bolt member and obtain the amount of elongation of the bolt member after tightening each of a plurality of jack bolts to a predetermined torque. an elongation amount acquisition step; a shortfall amount acquisition step for acquiring the shortfall amount of the bolt member's elongation amount obtained in the first elongation amount acquisition step after the first tightening step with respect to the target elongation amount; and the pitch and shortfall of the jack bolt. a rotation angle acquisition step of acquiring the rotation angle of the jack bolt corresponding to the insufficient quantity from the amount; and a second tightening step of tightening each of the plurality of jack bolts by the rotation angle of the jack bolt acquired in the rotation angle acquisition step. Be prepared.
[Selection diagram] Figure 3

Description

The present disclosure relates to a method for adjusting the amount of elongation of a bolt member to which a multi-jack bolt tensioner is attached.

Patent Document 1 describes a center hole in which a threaded portion is formed to be screwed into the head of a fastener, and a plurality of holes provided at intervals around the center hole, each of which has a threaded portion formed therein. a tensioner body having a plurality of holes, a plurality of jack bolts each screwed into threaded portions formed in the plurality of holes, and a plurality of jack bolts arranged between the tensioner body and a fastener head; A multi-jack bolt tensioner is disclosed that includes a washer through which the jack bolt is inserted.

The multi-jack bolt tensioner distributes the axial force associated with fastening the fastener head to multiple jack bolts attached to the tensioner body, making it easy to fasten the fastener head with a general tightening tool such as a torque wrench. is possible.

Japanese Patent Application Publication No. 2010-054046

For multi-jack bolt tensioners, torque management is widely used to tighten the fastener head with a specified torque, but elongation control is used to tighten the fastener head so that the fastener head has the desired amount of elongation. Volume control may be desired. In the torque management mentioned above, there is no strong correlation between torque and elongation amount, and there is no effective management index for adjusting elongation amount, so adjustment of elongation amount depends on the experience, skill, and sense of the operator. may be performed. For this reason, in order to secure the desired amount of elongation, workers often have to repeat the elongation adjustment process multiple times. There was a problem of poor workability.

In view of the above circumstances, at least one embodiment of the present disclosure provides a method for adjusting the amount of elongation of a bolt member that can improve the workability of adjusting the amount of elongation of a bolt member to which a multi-jack bolt tensioner is attached. The purpose is to provide.

A method for adjusting the amount of elongation of a bolt member according to at least one embodiment of the present disclosure includes:
A method for adjusting the amount of elongation of a bolt member to which a multi-jack bolt tensioner is attached,
The multi-jack bolt tensioner is
a first hole in which a first threaded portion is formed to be screwed into a bolt member protruding from an object to be fastened; and a plurality of second holes provided at intervals around the first hole, each of which a tensioner body having a plurality of second holes in which second threaded portions are formed;
a plurality of jack bolts that are respectively screwed into the plurality of second threaded portions;
an annular plate member disposed between the tensioner main body and the object to be fastened, through which the bolt member is inserted;
The method for adjusting the amount of elongation of the bolt member is as follows:
a mounting step of mounting the multi-jack bolt tensioner on the bolt member;
After the mounting step, a first tightening step of tightening each of the plurality of jack bolts to a predetermined torque;
a first elongation amount obtaining step of obtaining an elongation amount of the bolt member after the first tightening step;
a shortfall amount acquisition step of acquiring a shortfall amount of the elongation amount of the bolt member obtained in the first elongation amount acquisition step with respect to a target elongation amount;
a rotation angle obtaining step of obtaining a rotation angle of the jack bolt corresponding to the insufficient amount from the pitch of the jack bolt and the insufficient amount;
and a second tightening step of tightening each of the plurality of jack bolts by the rotation angle of the jack bolt obtained in the rotation angle obtaining step.

According to at least one embodiment of the present disclosure, there is provided a method for adjusting the amount of elongation of a bolt member that can improve the workability of adjusting the amount of elongation of a bolt member to which a multi-jack bolt tensioner is attached.

FIG. 2 is a schematic perspective view of a multi-jack bolt tensioner used in a method for adjusting the amount of elongation of a bolt member according to an embodiment. FIG. 2 is a schematic cross-sectional view showing a state in which the multi-jack bolt tensioner shown in FIG. 1 is attached to a bolt member. FIG. 3 is a flow diagram illustrating an example of a method for adjusting the amount of elongation of a bolt member according to an embodiment. 3 is a schematic cross-sectional view of the vicinity of the jack bolt of the multi-jack bolt tensioner shown in FIG. 2. FIG. FIG. 3 is an explanatory diagram for explaining an example of a rotation angle acquisition step of a method for adjusting the amount of elongation of a bolt member according to an embodiment. It is an explanatory view for explaining an example of the 1st tightening step and the 2nd tightening step of the adjustment method of the amount of expansion of the bolt member concerning one embodiment. FIG. 7 is an explanatory diagram for explaining a method for measuring the amount of elongation of a bolt member according to a comparative example. FIG. 3 is an explanatory diagram for explaining an example of a method for adjusting the amount of elongation of a bolt member according to an embodiment.

Hereinafter, some embodiments of the present disclosure will be described with reference to the accompanying drawings. However, the dimensions, materials, shapes, relative arrangements, etc. of the components described as embodiments or shown in the drawings are not intended to limit the scope of the present disclosure, and are merely illustrative examples. do not have.

(Multi jack bolt tensioner)
A method 1 for adjusting the elongation amount of the bolt member 2 according to some embodiments of the present disclosure is a method for adjusting the elongation amount E of the bolt member 2 to which the multi-jack bolt tensioner 3 is attached. FIG. 1 is a schematic perspective view of a multi-jack bolt tensioner 3 used in a method 1 for adjusting the amount of elongation of a bolt member 2 according to an embodiment. FIG. 2 is a schematic cross-sectional view showing a state in which the multi-jack bolt tensioner 3 shown in FIG. 1 is attached to the bolt member 2. As shown in FIG. As shown in FIGS. 1 and 2, the multi-jack bolt tensioner 3 includes a tensioner main body 4, a plurality of jack bolts 5, and an annular plate member 6.

As shown in FIG. 2, the tensioner main body 4 includes a first hole 41 in which a first threaded portion 42 that is screwed into the bolt member 2 protruding from the object to be fastened 10 is formed, and a hole around the first hole 41. It has a plurality of second holes 43 provided at intervals. A second threaded portion 44 that is screwed into the jack bolt 5 is formed in each of the plurality of second holes 43 . The first hole 41 and each of the plurality of second holes 43 extend along the axis LA of the tensioner main body 4.

Each of the plurality of jack bolts 5 is adapted to be screwed into one of the plurality of second threaded portions 44 . The annular plate member 6 is arranged between the tensioner main body 4 and the object to be fastened 10, and the bolt member 2 is inserted therethrough.

Hereinafter, the direction in which the axis LA of the tensioner body 4 extends (vertical direction in FIGS. 1 and 2) is defined as the axial direction of the tensioner body 4 (multi-jack bolt tensioner 3), and the direction perpendicular to the axis LA is defined as the tensioner body 4 (multi-jack bolt tensioner 3), and the circumferential direction around the axis LA is defined as the circumferential direction of the tensioner body 4 (multi-jack bolt tensioner 3). Furthermore, in the axial direction, the side where the tensioner body 4 is located with respect to the annular plate member 6 (the upper side in FIGS. 1 and 2) is defined as the first side, and in the axial direction, with respect to the tensioner body 4. The side on which the annular plate member 6 is located (lower side in FIGS. 1 and 2) is defined as the second side.

(Objects to be fastened, bolt members)
As shown in FIG. 2, the object to be fastened 10 is arranged on the second side of the first fastened member 11 in the axial direction, and comes into contact with the first fastened member 11. A second fastened member 12 is included. The first fastened member 11 is located on the opposite side of the first fastened member 111 in the axial direction, and comes into contact with the first fastened end face 121 of the second fastened member 12. It has a second side end surface 112. A through hole 113 is formed in the first fastened member 11 and extends from an end surface 111 on the first side to an end surface 112 on the second side.

As shown in FIG. 2, the bolt member 2 has a shaft portion 21 that is inserted through the through hole 113 of the first fastened member 11, and a shaft portion 21 that is closer to the second side than the second end surface 112 of the first fastened member 11. It has a second end portion 22 that protrudes and is locked to the second fastened member 12 .

In the embodiment shown in FIG. 2, a hole 122 extending toward the second side is formed in the end surface 121 on the first side of the second fastened member 12. A threaded portion 123 is formed on the inner peripheral surface of at least a portion of the hole portion 122 in the axial direction. The end portion 22 on the second side has a threaded portion 23 formed on at least a portion of the outer peripheral surface in the axial direction to be threaded into the threaded portion 123 of the second fastened member 12 . The bolt member 2 is fixed to the second member to be fastened 12 by screwing the threaded portion 23 into the threaded portion 123 of the second member to be fastened 12 .

As shown in FIG. 2, the bolt member 2 further includes a first side end portion 24 that protrudes toward the first side beyond the first side end surface 111 of the first fastened member 11 (fastened object 10). . The first end portion 24 has a threaded portion 25 screwed into the first threaded portion 42 of the tensioner main body 4 formed on at least a portion of the outer peripheral surface in the axial direction. Each of the shaft portion 21, the second end 22, and the first end 24 extends along the axis LB of the bolt member 2. Each of the second end 22 and the first end 24 is integrally formed with the shaft 21 . It is preferable that each of the second side end portion 22 and the first side end portion 24 be formed coaxially with the shaft portion 21 .

(Annular plate member)
As shown in FIG. 2, the annular plate member 6 is formed into an annular plate shape having a center hole 61 through which the first end 24 is inserted. The annular plate member 6 may be, for example, a flat washer. The annular plate member 6 has a first end surface 62 that is one end surface in the thickness direction, and a second end surface 63 that is the other end surface in the thickness direction. The annular plate member 6 is configured such that, when attached to the bolt member 2, at least a portion (outer peripheral edge) of the second side end surface 63 comes into contact with the first side end surface 111 of the first fastened member 11. It has become.

(tensioner body)
As shown in FIGS. 1 and 2, the tensioner main body 4 has an end surface 45 on the first side in the axial direction and an end surface 46 on the second side in the axial direction. The first hole 41 is formed in the end surface 46 on the second side and extends toward the first side. The above-described first threaded portion 42 that is screwed into the threaded portion 25 of the bolt member 2 is formed on the inner circumferential surface of at least a portion of the first hole 41 in the axial direction. Note that the first hole 41 may be a through hole extending from the end surface 46 on the second side to the end surface 45 on the first side, as shown in FIGS. 1 and 2.

The first hole 41 is formed in the center of the tensioner body 4 in the radial direction, and is formed at a position through which the axis LA of the tensioner body 4 passes. The first hole 41 may be a center hole of the tensioner body 4. That is, the axis of the first hole 41 may be coaxial with the axis LA. The tensioner main body 4 is attached to the bolt member 2 by screwing the first threaded portion 42 into the threaded portion 25 of the bolt member 2. When the tensioner main body 4 is attached to the bolt member 2, the second end surface 46 faces the first end surface 62 of the annular plate member 6.

Each of the plurality of second holes 43 is a through hole extending from the end surface 45 on the first side to the end surface 46 on the second side. Each of the plurality of second holes 43 has the above-mentioned second threaded portion 44 that is threadedly engaged with the threaded portion 54 of the jack bolt 5 formed on the inner peripheral surface of at least a portion of the second hole 43 in the axial direction. ing. Each of the plurality of second holes 43 has a hole diameter smaller than that of the first hole 41, and is formed at positions spaced apart from each other along the circumferential direction around the axis LA of the tensioner main body 4. The plurality of second holes 43 may have the same distance from the axis LC of the second hole 43 to the axis (for example, axis LA) of the first hole 41.

(Jack bolt)
Each of the plurality of jack bolts 5 has a head 51 and a shaft portion 53 having one longitudinal end connected to a bottom surface 52 of the head 51. The above-described threaded portion 54 is formed on at least a portion of the outer circumferential surface of the shaft portion 53 in the longitudinal direction. Each of the plurality of jack bolts 5 is attached to the bolt member 2 via the tensioner body 4 by screwing the threaded portion 54 into the second threaded portion 44 . When each of the plurality of jack bolts 5 is attached to the bolt member 2, the head 51 is located on the first side rather than the end surface 45 on the first side of the tensioner main body 4. Further, when each of the plurality of jack bolts 5 is attached to the bolt member 2, an end surface (tip surface) 55 on the other end side opposite to the one end side connected to the head 51 of the shaft portion 53 is , comes into contact with the first end surface 62 of the annular plate member 6.

The multi-jack bolt tensioner 3 disperses the axial force associated with fastening the bolt member 2 to a plurality of jack bolts 5 attached to the tensioner body 4, so that the bolt member 2 can be tightened with a general tightening tool such as a torque wrench. Enables conclusion.

(How to adjust the amount of elongation of bolt members)
FIG. 3 is a flowchart illustrating an example of method 1 for adjusting the amount of elongation of the bolt member 2 according to an embodiment. As shown in FIG. 3, a method 1 for adjusting the amount of elongation of the bolt member 2 according to some embodiments includes a mounting step S1, a first tightening step S2, and a first elongation amount obtaining step S3. At least be prepared.

In the mounting step S1, the multi-jack bolt tensioner 3 (tensioner main body 4, plural jack bolts 5, and annular plate member 6) is mounted on the bolt member 2. In the mounting step S1, each of the plurality of jack bolts 5 mounted on the bolt member 2 via the tensioner main body 4 has a distal end surface 55 of the shaft portion 53 in contact with an end surface 62 on the first side of the annular plate member 6. ing.

The first tightening step S2 is performed after the mounting step S1. In the first tightening step S2, each of the plurality of jack bolts 5 is tightened to a predetermined torque (target torque). That is, in the first tightening step S2, the plurality of jack bolts 5 are tightened by torque management. By tightening each of the plurality of jack bolts 5 to the tensioner main body 4 with a predetermined torque, the amount of elongation of the bolt member 2 is increased compared to before performing the first tightening step S2.

In the first tightening step S2, a torque wrench is attached to the head 51 of the jack bolt 5, and the head 51 is rotated in a direction to tighten the jack bolt 5 with respect to the tensioner main body 4. Each of them may be tightened with a predetermined torque. The predetermined torque (target torque) in the first tightening step S2 is set in advance before the first tightening step S2. This target torque may be set based on at least one of the actual value of the past adjustment method for the amount of elongation of the bolt member 2 or the result of numerical analysis of the amount of elongation of the bolt member 2.

At least a part of the first elongation amount obtaining step S3 is performed after the first tightening step S2. In the first elongation acquisition step S3, the elongation amount E (increase in the axial length of the bolt member 2 due to tightening) of the bolt member 2 after the first tightening step S2 with respect to the bolt member 2 before the first tightening step S2 is calculated. amount) is done.

FIG. 4 is a schematic cross-sectional view of the vicinity of the jack bolt 5 of the multi-jack bolt tensioner 3 shown in FIG. As shown in FIG. 4, the surface of the object to be fastened 10 facing the annular plate member 6 (first side end surface 111), or the surface of the annular plate member 6 facing the tensioner body 4 (first side end surface 62) ), is defined as a reference plane RP, and the length from the reference plane RP to an arbitrary position on the tensioner body 4 is defined as a reference length RL. As shown in FIG. 3, the first elongation acquisition step S3 described above includes a first measurement step S31 of measuring the reference length (first reference length) RL before the first tightening step S2, and a first elongation amount obtaining step S3. The method may include a second measurement step S32 of measuring the reference length (second reference length) RL after the tightening step S2. In this case, the difference between the second reference length and the first reference length may be the elongation amount E of the bolt member 2 after the first tightening step S2.

As shown in FIG. 3, the elongation amount E of the bolt member 2 obtained in the first elongation amount acquisition step S3 is compared with the target elongation amount TE (comparison step S33), and in the first elongation amount acquisition step S3. If the obtained elongation amount E of the bolt member 2 is equal to or greater than the target elongation amount TE (“NO” in S33), the bolt member 2 There is no need for additional tightening (steps S4 to S6, which will be described later). The target elongation amount TE is set in advance before the comparison step S33. This target elongation amount TE may be set based on at least one of the actual value of the past adjustment method for the elongation amount of the bolt member 2 or the numerical analysis result of the elongation amount of the bolt member 2. good.

On the other hand, if the elongation amount E of the bolt member 2 acquired in the first elongation amount acquisition step S3 is less than the target elongation amount TE ("YES" in S33), the elongation amount E of the bolt member 2 is set to the target elongation amount E. In order to make the elongation amount TE or more, it is necessary to retighten the bolt member 2 (steps S4 to S6, which will be described later).

As shown in FIG. 3, a method 1 for adjusting the amount of elongation of the bolt member 2 according to some embodiments includes a step S4 for obtaining a shortage amount, a step S5 for obtaining a rotation angle, and a second tightening step S6. Be prepared for more.

The shortage amount acquisition step S4 is performed after the first elongation amount acquisition step S3 and the comparison step S33. In the shortfall amount obtaining step S4, a shortfall amount ΔE (see FIG. 5) of the elongation amount E of the bolt member 2 obtained in the first elongation amount obtaining step S3 with respect to the target elongation amount TE is obtained. The insufficient amount ΔE is the difference between the elongation amount E of the bolt member 2 and the target elongation amount TE, and may be calculated by a computer or the like from the elongation amount E of the bolt member 2 and the target elongation amount TE.

The rotation angle acquisition step S5 is performed after the shortage amount acquisition step S4. In the rotation angle acquisition step S5, the rotation angle of the jack bolt 5 corresponding to the shortage amount ΔE is determined from the pitch P of the threaded portion 54 of the jack bolt 5 (see FIG. 4) and the shortage amount ΔE acquired in the shortage amount acquisition step S4. Obtaining the TRA is performed. The rotation angle TRA is a target retightening angle of the jack bolt 5 to make the elongation amount E of the bolt member 2 the target elongation amount TE.

In the rotation angle acquisition step S5, the shortage amount ΔE acquired in the shortage amount acquisition step S4 is based on association information in which the pitch P, the shortage amount ΔE, and the rotation angle TRA are associated, which is prepared in advance before the rotation angle acquisition step S5. The rotation angle TRA may be calculated from . The above association information indicates a correspondence relationship between the pitch P, the shortage amount ΔE, and the rotation angle TRA, and from the input information pitch P and the shortage amount ΔE, the rotation angle TRA corresponding to the pitch P and the shortage amount ΔE is determined. Any information that can be obtained as output information is sufficient. The association information may be a mathematical formula, a diagram, a table, or a data map.

FIG. 5 is an explanatory diagram for explaining an example of the rotation angle acquisition step S5 of the method 1 for adjusting the amount of elongation of the bolt member 2 according to an embodiment. FIG. 5 shows a graph in which the horizontal axis represents the elongation amount E of the bolt member 2 and the vertical axis represents the rotation angle TRA. A1 in FIG. 5 is an approximate straight line indicating the relationship between the elongation amount E of the bolt member 2 and the rotation angle TRA. The slope of the approximate straight line A1 may be defined by the ratio of the lead of the threaded portion 54 and the rotation angle TRA, which can be calculated from the shape and pitch P of the threaded portion 54 of the jack bolt 5. For example, when the rotation angle TRA is 360°, the jack bolt 5 moves in the axial direction by a lead amount (e.g., pitch P), and the elongation E of the bolt member 2 increases accordingly by the lead amount. Then, the rotation angle TRA corresponding to the shortage amount ΔE may be determined from the approximate straight line A1.

The second tightening step S6 is performed after the rotation angle obtaining step S5. In the second tightening step S6, each of the plurality of jack bolts 5 is tightened by the rotation angle TRA (predetermined rotation angle) acquired in the rotation angle acquisition step S5. That is, in the second tightening step S6, the plurality of jack bolts 5 are tightened by angle management. By tightening each of the plurality of jack bolts 5 to the tensioner main body 4 by the rotation angle TRA, the amount of elongation E of the bolt member 2 increases compared to before performing the second tightening step S6.

FIG. 6 is an explanatory diagram for explaining an example of the first tightening step S2 and the second tightening step S6 of the method 1 for adjusting the amount of elongation of the bolt member 2 according to one embodiment. In the first tightening step S2, each of the plurality of jack bolts 5 is tightened one by one using, for example, a torque wrench (not shown). In the second tightening step S6, the angle wrench 13 (see FIG. 6) is attached to the head 51 of the jack bolt 5, and the head 51 is rotated in the direction of tightening the jack bolt 5 with respect to the tensioner body 4. , each of the plurality of jack bolts 5 may be tightened one by one by the rotation angle TRA.

According to the above method, when the plurality of jack bolts 5 are tightened by torque management in the first tightening step S2, the amount of elongation E of the bolt member 2 due to mechanical tension may be insufficient with respect to the target amount of elongation TE. be. In this case, by retightening the plurality of jack bolts 5 through angle management in the second tightening step S6, the amount of elongation E of the bolt member 2 due to mechanical tension can be adjusted to the target amount of elongation TE.

According to the above method, by using the rotation angle TRA corresponding to the shortage amount ΔE obtained from the pitch P of the jack bolt 5 and the shortage amount ΔE as a management index for adjusting the elongation amount E of the bolt member 2, the worker can It becomes possible to adjust the amount of elongation E of the bolt member 2 without relying on experience, skill, or sense. With the above management index, even workers who do not have the experience or skill to adjust the elongation E of the bolt member 2 can quickly adjust the elongation E of the bolt member 2. Become. In addition, with the above management index, it is possible to repeat the work of adjusting the amount of elongation E of the bolt member 2 and tightening the bolt member 2, compared to the conventional adjustment work of elongation that depends on the experience, skill, and sense of the worker. The amount of repair work required can be reduced, and thereby the workability of adjusting the amount of elongation E of the bolt member 2 can be improved.

(Second elongation adjustment step)
In some embodiments, as shown in FIG. 3, the method 1 for adjusting the amount of elongation of the bolt member 2 described above may further include a second amount of elongation obtaining step S7. In the second elongation amount obtaining step S7, the elongation amount E of the bolt member 2 after the second tightening step S6 is obtained.

The second elongation amount acquisition step S7 is performed after the second tightening step S6. In the second elongation acquisition step S7, the elongation E (increase in the axial length of the bolt member 2 due to tightening) of the bolt member 2 after the second tightening step S6 relative to the bolt member 2 before the first tightening step S2 is performed. amount) is done.

As shown in FIG. 3, the second elongation amount acquisition step S7 described above includes a third measurement step S71 of measuring the reference length (third reference length) RL after the second tightening step S6. Good too. In this case, the difference between the third reference length and the first reference length may be used as the elongation amount E of the bolt member 2 after the second tightening step S6. The elongation amount E of the bolt member 2 obtained in the second elongation amount acquisition step S7 is compared with the target elongation amount TE, and the elongation amount E of the bolt member 2 obtained in the second elongation amount acquisition step S7 is It is checked whether the elongation amount is greater than or equal to the elongation amount TE.

According to the above method, in the second elongation amount acquisition step S7, it can be confirmed whether the elongation amount E of the bolt member 2 due to mechanical tension has reached the target elongation amount TE. By checking the elongation amount E of the bolt member 2 in the second elongation amount acquisition step S7, appropriate elongation amount management of the bolt member 2 is performed. Note that if the elongation amount E of the bolt member 2 obtained in the second elongation amount acquisition step S7 is less than the target elongation amount TE, steps S4 to S7 described above may be performed again.

(Measurement points and measurement method for elongation of bolt member according to comparative example)
FIG. 7 is an explanatory diagram for explaining a method of measuring the elongation amount E of the bolt member 2 according to the comparative example. The method for measuring the elongation amount E of the bolt member 2 according to the comparative example is as shown in FIG. and elongation measurement sleeve 16) are used. A through hole 26 is formed in the bolt member 2 and extends through the bolt member 2 along the axis LB. The elongation measuring rod 15 has one longitudinal end (first side end) connected to the probe of the elongation measuring dial gauge 14, and the other longitudinal end (second side end) inserted into the through hole 26. has been done. The elongation measurement dial gauge 14 is supported by the elongation measurement sleeve 16 and is disposed on the first side of the bolt member 2 . In the illustrated embodiment, the elongation measurement sleeve 16 is erected on the first end surface of the bolt member 2 .

The movement of the elongation measuring rod 15 along the axis LB is read by the elongation measuring dial gauge 14 and displayed on the elongation measuring dial gauge 14. The reference length of the elongation measuring rod 15 can be obtained using the elongation measuring dial gauge 14. The change in the standard length of the bolt member 2 before and after tightening may be taken as the elongation amount E of the bolt member 2. For example, the length of the elongation measuring rod 15 from the reference position to the bottom surface of the hole 122 can be set as the reference length of the elongation measuring rod 15, with the end face of the first side of the bolt member 2 being the reference position. .

(Measurement points and method of elongation of bolt members)
In some embodiments, as shown in FIG. 3, the above-described first elongation amount acquisition step S3 includes the above-described first measurement step S31 of measuring the first reference length and measuring the second reference length. The above-mentioned second measurement step S32 is included.

According to the above method, the elongation amount E of the bolt member 2 is obtained from (the change in) the reference length RL of the bolt member 2 before and after the first tightening step S2 measured in the first measurement step S31 and the second measurement step S32. can. Measuring the reference length RL of the bolt member 2 does not require any special measuring instruments (dial gauge for elongation measurement 14, rod for elongation measurement 15, and sleeve for elongation measurement 16), and a feeler gauge (thickness gauge), depth gauge, or A common measuring instrument such as a non-contact dimension measuring device using a laser can be used. Furthermore, the reference length RL of the bolt member 2 can be measured easily and quickly by the operator compared to measuring the amount of elongation using a dedicated measuring instrument. Thereby, the operator can easily and quickly perform the first elongation amount acquisition step S3. Further, according to the above method, it is not necessary to form the through hole 26 in the bolt member 2.

In some embodiments, in the first measurement step S31 and the second measurement step S32 described above, as shown in FIG. is the reference plane RP, and the length L1 from the reference plane RP in the axial direction to the end face (second side end face) 46 of the tensioner main body 4 closer to the reference plane RP is the reference length RL.

According to the above method, the reference length RL, that is, the length L1 between the surface 62 of the annular plate member 6 facing the tensioner body 4 and the end surface 46 of the tensioner body 4 on the annular plate member 6 side is: It can be easily and quickly measured by an operator using a general measuring instrument such as a feeler gauge. Note that in the third measurement step S71 described above, the measurement may be performed using the length L1 described above as the reference length RL.

In some embodiments, in the above-described first measurement step S31 and second measurement step S32, as shown in FIG. 111 as the reference plane RP, and the length L2 from the reference plane RP in the axial direction to the end face (first side end face) 45 on the side away from the reference plane RP of the tensioner main body 4 as the reference length RL. be exposed.

According to the above method, the reference length RL, that is, the length between the surface 111 of the object to be fastened 10 facing the annular plate member 6 and the end surface 45 of the tensioner main body 4 on the side remote from the annular plate member 6 The length L2 can be easily and quickly measured by an operator using a general measuring instrument such as a depth gauge. Note that the measurement may also be performed in the third measurement step S71 described above using the length L2 described above as the reference length RL.

(Even distribution of elongation in the circumferential direction of bolt members)
FIG. 8 is an explanatory diagram for explaining an example of a method 1 for adjusting the elongation amount E of the bolt member 2 according to an embodiment. In some of the embodiments described above, the amount of elongation E of the bolt member 2 due to mechanical tension at an arbitrary position in the circumferential direction of the bolt member 2, the amount of shortage ΔE, and the rotation angle TRA corresponding to the amount of shortage ΔE are obtained, Each of the plurality of jack bolts 5 attached to the tensioner main body 4 is retightened by this rotation angle TRA, but at a plurality of positions in the circumferential direction of the bolt member 2 (first position P1, second position P2). The amount of elongation E of the bolt member 2 due to the mechanical tension in , the amount of shortage ΔE, and the rotation angle TRA corresponding to the amount of shortage ΔE may be acquired.

In some embodiments, the first elongation amount acquisition step S3 described above is a first position elongation amount for obtaining an elongation amount E of the bolt member 2 at a first position P1 (see FIG. 8) in the circumferential direction of the bolt member 2. and a second position elongation amount obtaining step of obtaining the elongation amount E of the bolt member 2 at a second position P2 (see FIG. 8) different from the first position P1 in the circumferential direction of the bolt member 2. The angular difference between the first position P1 and the second position P2 centering on the axis LA of the tensioner body 4 is defined as θ. The angular difference θ is the smaller of the two angles that the first position P1 and the second position P2 make with respect to the axis LA of the tensioner main body 4. It is preferable that this angular difference θ is larger. In some embodiments, the angular difference θ satisfies the condition of 90°≦θ≦180°.

The above-described shortfall amount acquisition step S4 is a first shortfall amount acquisition step for acquiring a first shortfall amount that is the shortfall amount ΔE of the elongation amount E of the bolt member 2 acquired in the first position elongation amount acquisition step with respect to the target elongation amount TE. and a second shortage amount acquisition step of acquiring a second shortage amount that is a shortage amount ΔE of the elongation amount E of the bolt member 2 acquired in the second position expansion amount acquisition step with respect to the target expansion amount TE. The rotation angle acquisition step S5 described above is a first rotation angle acquisition step of acquiring a first rotation angle TRA of the jack bolt 5 corresponding to the first shortage amount ΔE from the first shortage amount ΔE and the pitch P of the jack bolt 5; A second rotation angle acquisition step of acquiring a second rotation angle TRA of the jack bolt 5 corresponding to the second shortage amount ΔE from the second shortage amount ΔE and the pitch P of the jack bolt 5.

The second tightening step S6 described above is a step of tightening the first jack bolt 5A (see FIG. 8), which is closer to the first position P1 than the second position P2, by the first rotation angle TRA, among the plurality of jack bolts 5. 1 jack bolt tightening step, and a second jack tightening the second jack bolt 5B (see FIG. 8), which is closer to the second position P2 than the first position P1 among the plurality of jack bolts 5, by the second rotation angle TRA. and a bolt tightening step. Here, "closer to the first position P1 than the second position P2" means that in the circumferential direction of the bolt member 2, the circumferential angle difference between the first jack bolt 5A and the first position P1 is This means that it is smaller than the circumferential angle difference with respect to the second position P2. Similarly, "closer to the second position P2 than the first position P1" means that in the circumferential direction of the bolt member 2, the circumferential angle difference between the second jack bolt 5B and the second position P2 is This means that it is smaller than the circumferential angle difference with respect to the first position P1.

According to the above method, the amount of elongation E, the amount of shortage ΔE, and the amount of shortage ΔE of the bolt member 2 due to mechanical tension at multiple positions (first position P1, second position P2) in the circumferential direction of the bolt member 2 are By acquiring the rotation angle TRA and retightening the jack bolts 5A and 5B by controlling the angle in the first jack bolt tightening step and the second jack bolt tightening step, the bolt member 2 can be tightened over a wide range in the circumferential direction of the bolt member 2. The elongation amount E of the bolt member 2 can be adjusted to the target elongation amount TE, and the distribution of the elongation amount E in the circumferential direction of the bolt member 2 can be made sufficiently uniform.

In this specification, expressions expressing relative or absolute arrangement such as "in a certain direction", "along a certain direction", "parallel", "perpendicular", "center", "concentric", or "coaxial" are used. shall not only strictly represent such an arrangement, but also represent a state in which they are relatively displaced with a tolerance or an angle or distance that allows the same function to be obtained.
For example, expressions such as "same,""equal," and "homogeneous" that indicate that things are in an equal state do not only mean that things are exactly equal, but also have tolerances or differences in the degree to which the same function can be obtained. It also represents the existing state.
In addition, in this specification, expressions expressing shapes such as a square shape or a cylindrical shape do not only mean shapes such as a square shape or a cylindrical shape in a strict geometric sense, but also within the range where the same effect can be obtained. , shall also represent shapes including uneven parts, chamfered parts, etc.
Furthermore, in this specification, the expressions "comprising,""including," or "having" one component are not exclusive expressions that exclude the presence of other components.

The present disclosure is not limited to the embodiments described above, and also includes forms in which modifications are added to the embodiments described above, and forms in which these forms are appropriately combined.

The contents described in the several embodiments described above can be understood, for example, as follows.

1) A method (1) for adjusting the amount of elongation of a bolt member (2) according to at least one embodiment of the present disclosure,
A method for adjusting the amount of elongation of a bolt member (2) to which a multi-jack bolt tensioner (3) is attached, the method comprising:
The multi-jack bolt tensioner (3) is
A first hole (41) in which a first threaded portion (42) is formed to be screwed into the bolt member (2) protruding from the object to be fastened (10), and a space is provided around the first hole (41). a tensioner main body (4) having a plurality of open second holes (43), each of which has a second threaded portion (44) formed therein;
a plurality of jack bolts (5) screwed into the plurality of second threaded portions (44), respectively;
an annular plate member (6) disposed between the tensioner main body (4) and the object to be fastened (10), through which the bolt member (2) is inserted;
The method (1) for adjusting the amount of elongation of the bolt member (2) is as follows:
a mounting step (S1) of mounting the multi-jack bolt tensioner (3) on the bolt member (2);
After the mounting step (S1), a first tightening step (S2) of tightening each of the plurality of jack bolts (5) with a predetermined torque;
a first elongation amount obtaining step (S3) of obtaining an elongation amount (E) of the bolt member (2) after the first tightening step (S2);
a shortfall amount acquisition step (S4) of acquiring a shortfall amount (ΔE) of the elongation amount (E) of the bolt member (2) acquired in the first elongation amount acquisition step (S3) with respect to a target elongation amount (TE); ,
A rotation angle obtaining step (S5) of obtaining a rotation angle (TRA) of the jack bolt (5) corresponding to the shortage amount (ΔE) from the pitch (P) of the jack bolt (5) and the shortage amount (ΔE). and,
and a second tightening step (S6) of tightening each of the plurality of jack bolts (5) by the rotation angle (TRA) of the jack bolt (5) obtained in the rotation angle obtaining step (S5).

According to method 1) above, when tightening the jack bolt (5) by torque management in the first tightening step (S2), the amount of elongation (E) of the bolt member (2) due to mechanical tension is the target amount of elongation. (TE) may be insufficient. In this case, by retightening the jack bolt (5) by controlling the angle in the second tightening step (S6), the amount of elongation (E) of the bolt member (2) due to mechanical tension becomes the target amount of elongation (TE). You can adjust it accordingly. According to the method 1) above, the rotation angle (TRA) corresponding to the shortage amount (ΔE) obtained from the pitch (P) of the jack bolt (5) and the shortage amount (ΔE) is set as the rotation angle (TRA) of the bolt member (2). By using the elongation amount (E) as a management index for adjusting the elongation amount (E), it becomes possible to adjust the elongation amount (E) of the bolt member (2) without depending on the experience, skill, or sense of the operator. With the above management index, even workers who do not have the experience or skill to adjust the elongation (E) of the bolt member (2) can easily adjust the elongation (E) of the bolt member (2). can be done quickly. In addition, with the above management index, compared to the conventional adjustment work for elongation that depends on the operator's experience, skill, and sense, it is possible to repeat the work to adjust the elongation (E) of the bolt member (2) The work of retightening the member (2) can be reduced, and thereby the workability of adjusting the amount of elongation of the bolt member (2) can be improved.

2) In some embodiments, the method (1) for adjusting the amount of elongation of the bolt member (2) described in 1) above,
Either the surface (111) of the object to be fastened (10) facing the annular plate member (6) or the surface (62) of the annular plate member (6) facing the tensioner main body (4). In the case where a reference plane (RP) is defined, and a length from the reference plane (RP) to an arbitrary position of the tensioner body (4) is defined as a reference length (RL),
The first elongation amount acquisition step (S3) includes:
a first measuring step (S31) of measuring the reference length (RL) before the first tightening step (S2);
A second measuring step (S32) of measuring the reference length (RL) after the first tightening step (S2) is included.

According to method 2) above, the bolt is determined from the reference length (RL) of the bolt member (2) before and after the first tightening step (S2) measured in the first measurement step (S31) and the second measurement step (S32). The amount of elongation (E) of member (2) can be obtained. Measuring the reference length (RL) of the bolt member (2) does not require a special measuring device, and can be performed using general measurements such as a non-contact dimension measuring device using a feeler gauge (thickness gauge), depth gauge, or laser. A container can be used. Furthermore, the reference length (RL) of the bolt member (2) can be measured easily and quickly by an operator compared to measuring the amount of elongation using a dedicated measuring instrument. Thereby, the operator can easily and quickly perform the first elongation amount obtaining step (S3).

3) In some embodiments, the method (1) for adjusting the amount of elongation of the bolt member (2) described in 2) above,
In the first measuring step (S31) and the second measuring step (S32), the surface (62) of the annular plate member (6) facing the tensioner main body (4) is used as the reference surface (RP), and the Measurement is performed using the length (L1) from the reference plane (RP) to the end face (46) of the tensioner body (4) on the side closer to the reference plane (RP) as the reference length (RL).

According to method 3) above, the reference length (RL), that is, the surface (62) of the annular plate member (6) facing the tensioner body (4) and the annular plate member (6) of the tensioner body (4) ) side end face (46) can be easily and quickly measured by an operator using a general measuring instrument such as a feeler gauge.

4) In some embodiments, the method (1) for adjusting the amount of elongation of the bolt member (2) described in 2) above,
In the first measurement step (S31) and the second measurement step (S32), the surface (111) of the object to be fastened (10) facing the annular plate member (6) is used as the reference surface (RP), Measurement is performed with the length (L1) from the reference surface (RP) to the end surface (45) of the tensioner main body (4) on the side remote from the reference surface (RP) as the reference length (RL).

According to method 4) above, the reference length (RL), that is, the surface (111) of the object to be fastened (10) facing the annular plate member (6) and the annular plate member ( 6) and the end surface (45) on the remote side can be easily and quickly measured by an operator using a general measuring instrument such as a depth gauge.

5) In some embodiments, the method (1) for adjusting the amount of elongation of the bolt member (2) according to any one of 1) to 4) above,
The method further includes a second elongation amount obtaining step (S7) for obtaining an elongation amount (E) of the bolt member (2) after the second tightening step (S6).

According to the method 5) above, in the second elongation acquisition step (S7), it is determined whether the elongation (E) of the bolt member (2) due to mechanical tension is the target elongation (TE). You can check. By confirming the elongation amount (E) of the bolt member (2) in the second elongation amount acquisition step (S7), appropriate elongation amount management of the bolt member (2) is performed.

6) In some embodiments, the method (1) for adjusting the amount of elongation of the bolt member (2) according to any one of 2) to 4) above,
The first elongation amount acquisition step (S3) includes:
a first position elongation amount obtaining step of obtaining an elongation amount (E) of the bolt member (2) at a first position (P1) in the circumferential direction of the bolt member (2);
a second position elongation amount acquisition step of obtaining an elongation amount (E) of the bolt member (2) at a second position (P2) different from the first position (P1) in the circumferential direction of the bolt member (2); and,
The shortage amount obtaining step (S4) includes:
A first shortage amount that is a shortage amount (ΔE) of the elongation amount (E) of the bolt member (2) acquired in the first position elongation amount acquisition step with respect to the target elongation amount (TE). an acquisition step;
A second shortage amount that is a shortage amount (ΔE) of the elongation amount (E) of the bolt member (2) acquired in the second position elongation amount acquisition step with respect to the target elongation amount (TE). an acquisition step;
The rotation angle obtaining step (S5) includes:
A first rotation angle (TRA) of the jack bolt (5) corresponding to the first shortage amount (ΔE) is obtained from the first shortage amount (ΔE) and the pitch (P) of the jack bolt (5). One rotation angle acquisition step;
A second rotation angle (TRA) of the jack bolt (5) corresponding to the second shortage amount (ΔE) is obtained from the second shortage amount (ΔE) and the pitch (P) of the jack bolt (5). 2 rotation angle obtaining steps;
The second tightening step (S6) includes:
A first jack bolt (5A) that is closer to the first position (P1) than the second position (P2) among the plurality of jack bolts (5) is tightened by the first rotation angle (TRA). Jack bolt tightening step,
A second jack bolt (5B) that is closer to the second position (P2) than the first position (P1) among the plurality of jack bolts (5) is tightened by the second rotation angle (TRA). and a jack bolt tightening step.

According to the method 6) above, the amount of elongation (E) and the amount of shortage of the bolt member (2) due to mechanical tension at multiple positions (first position P1, second position P2) in the circumferential direction of the bolt member (2) (ΔE), obtain the rotation angle (TRA) corresponding to the insufficient amount (ΔE), and retighten the jack bolts (5A, 5B) by controlling the angle in the first jack bolt tightening step and the second jack bolt tightening step. This makes it possible to adjust the elongation (E) of the bolt member (2) to the target elongation (TE) over a wide range in the circumferential direction of the bolt member (2). The distribution of the amount of elongation (E) in the direction can be made sufficiently uniform.

1 Method for adjusting the amount of elongation of a bolt member 2 Bolt member 3 Multi-jack bolt tensioner 4 Tensioner body 5, 5A, 5B Jack bolt 6 Annular plate member 10 Fastened object 11 First fastened member 12 Second fastened member 13 Angle wrench 14 Dial gauge for elongation measurement 15 Rod for elongation measurement 16 Sleeve for elongation measurement 41 First hole 42 First threaded part 43 Second hole 44 Second threaded part A1 Approximate straight line E, TE Elongation amount LA, LB, LC Axis line P Pitch P1 First position P2 Second position RL Reference length RP Reference surface S1 Mounting step S2 First tightening step S3 First elongation acquisition step S4 Insufficient amount acquisition step S5 Rotation angle acquisition step S6 Second tightening step S7 Second Elongation acquisition step S31 First measurement step S32 Second measurement step S33 Comparison step S71 Third measurement step TRA Rotation angle

Claims (6)

A method for adjusting the amount of elongation of a bolt member to which a multi-jack bolt tensioner is attached,
The multi-jack bolt tensioner is
a first hole in which a first threaded portion is formed to be screwed into a bolt member protruding from an object to be fastened; and a plurality of second holes provided at intervals around the first hole, each of which a tensioner body having a plurality of second holes in which second threaded portions are formed;
a plurality of jack bolts that are respectively screwed into the plurality of second threaded portions;
an annular plate member disposed between the tensioner main body and the object to be fastened, and through which the bolt member is inserted;
The method for adjusting the amount of elongation of the bolt member is as follows:
a mounting step of mounting the multi-jack bolt tensioner on the bolt member;
After the mounting step, a first tightening step of tightening each of the plurality of jack bolts to a predetermined torque;
a first elongation amount obtaining step of obtaining an elongation amount of the bolt member after the first tightening step;
a shortfall amount acquisition step of acquiring a shortfall amount of the elongation amount of the bolt member obtained in the first elongation amount acquisition step with respect to a target elongation amount;
a rotation angle obtaining step of obtaining a rotation angle of the jack bolt corresponding to the insufficient amount from the pitch of the jack bolt and the insufficient amount;
a second tightening step of tightening each of the plurality of jack bolts by the rotation angle of the jack bolt obtained in the rotation angle obtaining step;
How to adjust the amount of elongation of bolt members. Either the surface of the to-be-fastened object facing the annular plate member or the surface of the annular plate member facing the tensioner main body is defined as a reference surface, and from the reference surface to any position on the tensioner main body When the length of is defined as the reference length,
The first elongation amount obtaining step includes:
a first measuring step of measuring the reference length before the first tightening step;
a second measuring step of measuring the reference length after the first tightening step;
A method for adjusting the amount of elongation of a bolt member according to claim 1. In the first measurement step and the second measurement step, the surface of the annular plate member facing the tensioner body is used as the reference surface, and the length from the reference surface to the end surface of the tensioner body on the side closer to the reference surface is determined. The measurement is performed using the length as the reference length.
The method for adjusting the amount of elongation of a bolt member according to claim 2. In the first measurement step and the second measurement step, the surface of the object to be fastened that faces the annular plate member is used as the reference surface, and from the reference surface to the end surface of the tensioner main body on the side remote from the reference surface. The measurement is performed using the length of as the reference length,
The method for adjusting the amount of elongation of a bolt member according to claim 2. further comprising a second elongation amount obtaining step of obtaining an elongation amount of the bolt member after the second tightening step;
The method for adjusting the amount of elongation of a bolt member according to any one of claims 1 to 4. The first elongation amount obtaining step includes:
a first position elongation amount obtaining step of obtaining an elongation amount of the bolt member at a first position in the circumferential direction of the bolt member;
a second position elongation amount obtaining step of obtaining an elongation amount of the bolt member at a second position different from the first position in the circumferential direction of the bolt member;
The shortage amount obtaining step includes:
a first shortage amount acquisition step of acquiring a first shortage amount that is a shortage amount of the elongation amount of the bolt member obtained in the first position elongation amount acquisition step with respect to a target elongation amount;
a second shortage amount acquisition step of acquiring a second shortage amount that is a shortage amount of the elongation amount of the bolt member obtained in the second position elongation amount acquisition step with respect to a target elongation amount;
The rotation angle obtaining step includes:
a first rotation angle obtaining step of obtaining a first rotation angle of the jack bolt corresponding to the first shortage amount from the first shortage amount and the pitch of the jack bolt;
a second rotation angle obtaining step of obtaining a second rotation angle of the jack bolt corresponding to the second shortage amount from the second shortage amount and the pitch of the jack bolt;
The second tightening step includes:
a first jack bolt tightening step of tightening a first jack bolt closer to the first position than the second position among the plurality of jack bolts by the first rotation angle;
a second jack bolt tightening step of tightening a second jack bolt, which is closer to the second position than the first position, by the second rotation angle, among the plurality of jack bolts;
The method for adjusting the amount of elongation of a bolt member according to any one of claims 2 to 4.

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