JPH0554606B2 - - Google Patents

Description

[Detailed Description of the Invention] (a) Field of Industrial Application This invention relates to an extensometer for measuring the elongation between gauge points of a test piece, and in particular for adjusting the angle of the link supporting the lever. The present invention relates to a link angle adjustment device.

(b) Prior art Figure 5 shows a conventional extensometer. This extensometer has a pair of upper and lower levers 1H, 1L and a pair of upper and lower links 2H, 2L, and each lever 1H, 1L is arranged horizontally at an interval corresponding to the gauge distance D of the test piece TP. There is. Each link 2H, 2L is provided between both ends of the levers 1H, 1L, arranged vertically, and supported by a pair of link shafts 4H, 4L of the support frame 3. Each lever 1H, 1L has each link 2
It is supported by lever shafts 5H and 5L of H and 2L. Then, one end of each lever 1H, 1L is a test piece.
An extension detector, for example a differential transformer 6, is provided at the other end of each lever 1H, 1L, which is engaged with the TP. The differential transformer 6 consists of a coil 7 and an iron core 8, and the coil 7 is fixed to the lower lever 1L. The iron core 8 is inserted into the coil 7 and connected to the upper lever 1H.

Therefore, when elongation occurs between the gauge points of the test piece TP, the levers 1H and 1L tilt around the lever shafts 5H and 5L. At the same time, link 2H,
2L swings around link shafts 4H and 4L.
Therefore, each lever 1H, 1L follows the elongation between the gauge points of the test piece TP, and the elongation between the gauge points is taken out by the levers 1H, 1L. Also, lever 1
When H and 1L are tilted, the coil 7 of the differential transformer 6 moves up and down integrally with the lower lever 1L. The iron core 8 is raised and lowered together with the upper lever 1H, and the coil 7
Displaced relative to. Therefore, the current in the coil 7 changes. As a result, the elongation between the gauge points of the test piece TP is detected and measured.

This extensometer also has a pair of upper and lower cylinders 9H,
It has 9L. Cylinders 9H and 9L are each lever 1
This is for fixing H and 1L. and,
Stator 1 on the right and left side of each link 2H, 2L
0H, 10L, 11H, 11L are provided, and stators 10H, 10L, 11H, 11L are connected to each cylinder 9H, 9L. Therefore, before one end of the levers 1H, 1L is engaged with the test piece TP, the stators 10H, 10H are moved by the cylinders 9H, 9L.
When 10L, 11H, 11L are lowered, the right stators 10H, 10L are fitted into the V-blocks 12H, 12L of the levers 1H, 1L. The left stators 11H, 11L are directly pressed against the levers 1H, 1L. As a result, the levers 1H and 1L are fixed, and the levers 1H and 1L are kept horizontal. Therefore, the entire distance between levers 1H and 1L is determined by the test piece.
It can be made to correspond to the gauge distance D of the TP.
After that, one end of the levers 1H and 1L is engaged with the test piece TP, and the stator 1 is moved by the cylinders 9H and 9L.
0H, 10L, 11H, and 11L are pulled up. Then, use the levers 1H and 1L to remove the test piece.
The elongation between the gauge points of the TP is taken out and detected by the differential transformer 6.

By the way, this extensometer is required to be periodically verified and adjusted so that the measurement accuracy of the differential transformer 6 is maintained. Lever 1
When H, 1L and links 2H, 2L are tilted and oscillated and the elongation between the gauge points of the test piece TP is taken out, the measurement accuracy of the differential transformer 6 is affected by the angle of the first links 2H, 2L. Therefore,
The measurement accuracy of the differential transformer 6 can be improved by adjusting the angles of the links 2H and 2L before engaging one end of the levers 1H and 1L with the test piece TP.
For this reason, conventionally, the V blocks 12H and 12L are moved along the levers 1H and 1L, and the V blocks 12H and 12L are moved along the levers 1H and 1L.
I was adjusting the positions of 2H and 12L. After that, connect the stators 10H and 10L to the V blocks 12H and 12L.
When fitted, the levers 1H, 1L are pushed leftward or rightward, and the links 2H, 2L swing around the link shafts 4H, 4L. This allows the angles of the links 2H and 2L to be adjusted.

However, in this case, the stators 10H, 10
When the links 2H, 2L are swung by the L and V blocks 12H, 12L and their angles are adjusted, the levers 1H, 1L also move leftward or rightward. Therefore, in order to engage one end of the levers 1H, 1L with the test piece TP, the levers 1H, 1L must be
It is necessary to change the length of Normal, lever 1
Rotate one end of H and 1L, and tighten screws 13H and 13.
A method has been adopted in which the lengths of the levers 1H and 1L are adjusted by levers L, but this operation is not easy. Further, when the lengths of the levers 1H and 1L are adjusted, the lever ratio changes. Therefore, it is necessary to calibrate the differential transformer 6 to correspond to the changed lever ratio, which is extremely troublesome.

(c) Purpose Therefore, the present invention has been made for the purpose of adjusting only the angle of the link in this type of extensometer without moving the lever.

(D) Structure In this invention, a pair of elongated holes extending substantially in the length direction of the lever are formed in the support frame of the extensometer, and a link shaft supporting each link is inserted into each elongated hole. Then, the link shaft is moved along this elongated hole to adjust its position. This allows the angle of the link to be adjusted.

(E) Examples Examples of the present invention will be described below. FIG. 1 shows an embodiment of the invention. This extensometer has levers 1H, 1L and links 2H, 2 similar to those shown in Figure 5.
It has L. As shown in FIG. 3, lever 1H,
1L is fixed to and supported by lever shafts 5H and 5L of links 2H and 2L. And lever shaft 5
Bearing 14 between H, 5L and links 2H, 2L
is provided, and lever shafts 5H and 5L are rotatably guided. The links 2H and 2L are supported by link shafts 4H and 4L of the support frame 3. A bearing 15 is provided between the links 2H, 2L and the link shafts 4H, 4L, and the links 2H, 2L are swingably guided around the link shafts 4H, 4L. Therefore, when measuring the elongation between the gauge points of the test piece TP, the levers 1H and 1L are connected to the lever shaft 5H,
5L, and the links 2H and 2L can be swung around the link shafts 4H and 4L. Therefore, the elongation between the gauge points of the test piece TP can be extracted using the levers 1H and 1L, and this can be detected and measured using the differential transformer 6.

The support frame 3 has a pair of upper and lower long holes 16. Second
As shown in the figure, the elongated holes 16 extend horizontally, and the link shafts 4H, 4L are inserted into and fitted into each elongated hole 16. Furthermore, a pair of elongated holes 18 are formed in the flanges 17 of the link shafts 4H and 4L, and each elongated hole 1
A bolt 19 is inserted into each of the holes 8 and 8. This elongated hole 18 also extends in the horizontal direction, and a bolt 19 is screwed into the support frame 3. The link shafts 4H and 4L are thereby fixed to the support frame 3.

In this extensometer, before engaging one end of the levers 1H, 1L with the test specimen TP, by rotating and loosening the bolts 19 of the support frame 3, the link shafts 4H, 4L are released from the support frame 3 and the bolts 19. To be released. Therefore, the link shafts 4H and 4L can be moved along the long holes 16 of the support frame 3.
The flange 17 moves relative to the bolt 19, and the elongated hole 18 absorbs the movement of the flange 17. Therefore, the link shafts 4H, 4L can be moved in the direction of the elongated holes 16, 18, ie, leftward or rightward, and their positions can be adjusted. Then, when the bolt 19 is tightened, the link shaft 4H,
4L can be fixed in that position.

After that, the stator 1 is moved by the cylinders 9H and 9L.
When lowering 0H, 10L, 11H, 11L,
Stators 10H and 10L on the right side are levers 1H and 1L.
The left stators 11H, 11L are directly pressed against the levers 1H, 1L. As a result, each lever 1H, 1
L is fixed. Also, the stator 10H, 1 on the right side
0L is lever 1H, 1L is V block 12H, 1
2L, V blocks 12H, 12L and lever 1 are connected by stators 10H, 10L.
H, 1L are pushed leftward or rightward, and links 2H, 2L swing around link shafts 4H, 4L. The angle is determined by the positions of the link shafts 4H and 4L.

Therefore, this device has a V block 12H,1
There is no need to move the lever 2L along the levers 1H and 1L, and there is no need to adjust the positions of the V blocks 12H and 12L. The angles of the links 2H, 2L can be adjusted without adjusting the positions of the V blocks 12H, 12L. Therefore, lever 1
Only the angles of links 2H and 2L can be adjusted without moving H and 1L. Thereby, the measurement accuracy of the differential transformer 6 can be improved. Therefore, there is no need to adjust the lengths of the levers 1H and 1L. One end of the levers 1H and 1L can be engaged with the test piece TP as it is, and the operation is easy. Furthermore, the lever ratios of the levers 1H and 1L do not change, and there is no need to calibrate the differential transformer 6.

Although this embodiment has been described in which the link shafts 4H and 4L of the links 2H and 2L are moved in the horizontal direction, this is not necessarily necessary. As shown in Figure 4, links 2H, 2L
A long hole 20 may be formed on an arc centered on the lever shafts 5H, 5L, and each link shaft 4H, 4L may be moved along the arc-shaped long hole 20. In this case as well, without moving levers 1H and 1L, link 2
Only the angles H and 2L can be adjusted. In short, a pair of elongated holes extending substantially in the length direction of the levers 1H and 1L are formed in the support frame 3, and each link 2
All that is required is to insert the link shafts 4H and 4L that support H and 2L into the long holes. Then, when the link shafts 4H and 4L are moved along the long holes and their positions are adjusted, the levers 1H and 1L are not moved.
Only the angles of the links 2H and 2L can be adjusted, and similar effects can be obtained. In addition,
In the case of Fig. 1, the heights of the lever shafts 5H, 5L and the levers 1H, 1L change depending on the angles of the links 2H, 2L, but in the case of Fig.
Even if the angle of L is adjusted, the heights of the levers 1H and 1L do not change, which is more preferable.

(F) Effect As explained above, in this invention, the link shaft is moved along the long hole of the support frame and its position is adjusted, so only the angle of the link can be adjusted without moving the lever. It is possible to achieve the intended purpose.

[Brief explanation of the drawing]

FIG. 1 is an explanatory diagram showing one embodiment of the present invention, FIG. 2 is an enlarged view showing a part of the support frame in FIG. 1, and FIG.
The drawings are a sectional view taken along the line -- in FIG. 2, FIG. 4 is an explanatory diagram showing a modification of FIG. 1, and FIG. 5 is an explanatory diagram showing a conventional extensometer. 1H, 1L...Lever, 2H, 2L...Link, 3
...Support frame, 4H, 4L...Link shaft, 5H, 5L...
Lever shaft, 6...differential transformer, 16, 20...elongated hole in support frame.

Claims (1)

[Claims] 1. A pair of levers are arranged at an interval substantially corresponding to the gauge distance of the test piece, a link is provided between both ends of each lever, and each link is supported on a pair of link shafts of a support frame. In addition, each lever is supported on a lever shaft of each link, one end of each lever is engaged with the test piece, an elongation detector is provided at the other end of each lever, and a gauge point of the test piece is provided. When measuring the elongation between the gauge points, the lever is tilted around the lever axis, the link is swung around the link axis, and the elongation between the gauge points is detected and measured by the detector. In the extensometer, a pair of elongated holes extending substantially in the length direction of the lever are formed in the support frame, a link shaft supporting each of the links is inserted into each of the elongated holes, and A link angle adjusting device characterized in that the link shaft is moved along the link axis to adjust its position.