KR20070044910A - High temperature extensometer with adjustable gage length - Google Patents

Abstract

The present invention relates to a strain measuring apparatus for high temperature that can change the length of the initial measuring unit, the configuration includes measuring means for receiving the deformation amount of the test piece to apply to the measuring sensor; One end is coupled to the measuring means, the other end is coupled to the stationary means for adjusting the position of the measuring means; relates to a strain measuring device comprising a.

The present invention has an effect of preventing damage to the measuring sensor and freely adjusting its position with the test piece by providing a transfer unit so that heat of the test piece measured in a high temperature state is easily transmitted to the air without being transferred to the measuring sensor.

Measuring unit, transmission unit, position correction means, measuring means, strain measuring device

Description

High Temperature Extensometer with Adjustable Gage Length that can change the length of the initial measuring unit

1 is a perspective view showing a strain measuring device of the present invention.

Figure 2 is an exploded perspective view showing a strain measuring device of the present invention.

3 is a plan view showing an operating state according to the strain measuring device of the present invention.

Figure 4 is a side view showing an operating state according to the strain measuring device of the present invention.

<Explanation of symbols for the main parts of the drawings>

10 measuring device 20 measuring means

21a, 21b: Body 22,36a: Guide groove

23a, 23b: delivery unit 24: through hole

25: measuring unit 26: rod grip

27: rod 30: position correction means

31a, 31b: first holder 31a, 32b: second holder

33a, 33b: third holder 33c: adjusting shaft

34a, 34b: first upper elastic body 34c, 34d: first lower elastic body

35a, 35b: second elastic body 36: fixing part

37: block 38: adjustment bolt

The present invention relates to a strain measurement device for high temperature that can change the length of the initial measuring unit, and more particularly, by placing the transfer unit so that the heat of the test piece measured in the high temperature state is not easily transferred to the measurement sensor to be released into the atmosphere The present invention relates to a strain measuring device for high temperature that can change the length of the initial measuring part to prevent damage to the sensor and to freely adjust the position with the test piece.

In general, the strain measuring device is used as a means for measuring the material properties of the test piece or the like to find a material that can be used industrially by measuring the amount of deformation due to tensile force, compressibility, and thermal expansion by applying a constant external pressure to the test piece.

Among these devices, the conventional high temperature test strain measuring device has a length of an initial measuring part, and thus, if the shape of the test piece is changed, it requires a lot of manufacturing cost and time due to the problem of purchasing a new measuring device itself or making it suitable for each test piece. In addition, as the test piece is measured in a high temperature state, a high temperature is transmitted from the test piece to the measuring device, thereby causing a problem of damaging the measuring device.

The present invention has been made to solve the above problems, the present invention is to prevent the damage of the measuring sensor by providing a transfer unit so that the heat of the test piece measured in a high temperature state is not easily transferred to the measuring sensor, and is easily released into the atmosphere, An object of the present invention is to provide a high temperature strain measuring device capable of varying the length of the initial measuring part to freely adjust the position with the specimen.

The present invention has the following configuration to achieve the above object.

Strain measuring device of the present invention, the measuring means for receiving the deformation amount of the test piece to apply to the measuring sensor; One end is coupled to the measuring means, the other end is coupled to the fixed body position correction means for adjusting the position of the measuring means; characterized in that it comprises a.

In addition, in the strain measuring apparatus of the present invention, the measuring means is coupled to the pair of the body and the pair of the body coupled to the fluid flow around the axis coupled to the rod and the body for transmitting the deformation amount of the test piece to the measuring unit at least one It comprises a pair of the transmission portion having a through hole described above, and further comprises a pair of rod grips detachably coupled to the body for position adjustment of the rod.

In the strain measuring apparatus of the present invention, the position correcting means is combined with the measuring means to adjust the vertical position and the second elastic body to adjust the horizontal position of the measuring means in combination with the first elastic body and It comprises a fixing portion to be coupled to the fixed body, wherein the position correction means further comprises a control shaft for enabling rotation in the state coupled with the measuring means.

In addition, the body and the fixing portion further includes a guide groove.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

As shown in Figure 1 or 2, the measuring device 10 is composed of a measuring means 20 and a position correction means (30).

The measuring means 20 has an upper body 21a and a lower body 21b rotatably coupled by a shaft 21c, and a plurality of through holes 24 are formed at one end of the upper body 21a. The first transfer unit 23a is coupled, and the lower body 21b is coupled to the second transfer unit 23b at a position opposite to the upper body 21a. In addition, the other side of the first transfer part 23a is coupled to the first holder 31 having a “a” shape to form a guide groove 22 so that the rod grip 26 may be coupled to the rod grip 26. ) Is coupled to the upper body 21a to vertically move up and down in the guide groove 22 to adjust the position so that the position of the rod 27 is accurately positioned on the test piece 40. In addition, the rod (26) is deformed in accordance with the amount of pressure applied to the test piece 40 by coupling the measurement unit 25 on the ends of the first transfer unit (23a) and the second transfer unit (23b). Received from) and delivered to the measuring sensor (S).

In this case, the heat dissipation of heat that can be transmitted through the rod 26 from the high temperature test piece 40 is measured by using the through hole 24 formed in the first transfer part 23a and the second transfer part 23b. It is possible to prevent the damage of the measuring sensor S from heat while minimizing the range of the error of the deformation amount transmitted to the unit 25.

The position correcting means 30 has the first upper holder 31a and the first lower part in a state in which the first holders 31a and 31b are coupled to the upper body 21a and the lower body 21b, respectively. A plurality of first upper elastic bodies 34a and 34b and first lower elastic bodies 34c and 34d which are coupled to the holder 31b and protruded are provided. After positioning the second upper holder 32a and the second lower holder 32b coupled to each of the first elastic bodies, the second upper holder 32a moves the second upper elastic body 35a to the second lower portion. The second lower elastic body 35b is coupled to the holder 32b. In addition, third holders 33a and 33b are coupled to the second elastic bodies 35a and 35b, respectively. In this case, the third holders 33a and 33b are inserted into the blocks 37a and 37b and rotatably coupled by the adjustment shaft 33c. And the control bolt 38 is coupled to the block (37a, 37b), respectively, by tightening or releasing the adjusting bolt 38 to adjust the position of the third holder relative to the control shaft (33c) the measuring means By adjusting the position of (20) it is possible to adjust the position with the specimen (40). In addition, the block 37 is coupled to the fixing part 36, in which a guide groove 36a is formed on the fixing part 36 to position the fixing part 36 along the guide groove 36a. By adjusting the position of the measuring means 20 can be adjusted.

In addition, the fixing part 36 is coupled to the fixing body 50 located outside the measuring room (not shown) so that the measuring device can be stably fixed.

Here, the first elastic body and the second elastic body are preferably made of a material capable of minimizing deformation due to heat.

For example, by adjusting the position using the guide groove 36a of the fixing part 36 and adjusting the position of the third holder using the adjusting bolt 38, the position of the measuring means 20 is primarily adjusted up, down, left, and right. And the position of the rod grip 26 by the guide groove 22 formed by the coupling of the body (21a, 21b) and the first holder (31a, 1b) of the measuring means 20 up and down And by adjusting the rod 27 to the left and right in the log grip 26 is to adjust the position with the specimen piece 40 secondary to ensure an accurate measurement position.

Hereinafter, the operating state of the present invention will be described with reference to FIG. 3 or FIG. 4.

First, the test piece 40 is fixed to a predetermined position and then the block 37 is adjusted up and down so that the position of the measuring means 20 is positioned on the test piece 40. And by adjusting the position of the third holder (33a, 33b) by using the adjusting bolt 38 to the left and right to approach the test piece 40. The rod grip 26 coupled to the guide groove 22 formed by the bodies 21a and 21b and the first holders 31a and 31b in a state where the measuring means 20 is close to the test piece 40 is placed up and down. The rod 27 is moved to the left and right by loosening the bolt of the rod grip 26 to move the rod 27 to the left and right so that the rod 27 is in close contact with the test piece 40. . And it is good to combine the measuring sensor (S) with the measuring unit.

When the test piece 40 is raised to a high temperature in a state in which the positions of the test piece 40 and the measuring device 10 are adjusted to be in place, the test piece 40 is deformed by finely moving up and down, and the rod ( 27) to move left and right or up and down. At this time, the momentum change of the rod 27 is transmitted to the first transfer unit 23a and the second transfer unit 23b through the bodies 21a and 21b, and the transfer unit independently moves and the measurement unit ( It is possible to measure the strain of the test piece 40 by transmitting the deformation amount to the measuring sensor (S) through 25, and the high heat generated in the test piece is transmitted to the first transfer part 23a and the second transfer part 23b. By allowing the heat dissipation by the through-holes 24), the deformation sensor transmitted from the rod can be more accurately measured by the measurement sensor, and the measurement sensor can be prevented from being damaged by heat.

The present invention is not limited to the embodiments described above, and various modifications and changes can be made by those skilled in the art, which are included in the spirit and scope of the present invention as defined in the appended claims.

The present invention has the following effects by the above configuration.

The present invention has an effect of preventing damage to the measuring sensor and freely adjusting its position with the test piece by providing a transfer unit so that heat of the test piece measured in a high temperature state is easily transmitted to the air without being transferred to the measuring sensor.

Claims (6)

Measuring means for receiving the deformation amount of the test piece and applying it to the measuring sensor; One end is coupled to the measuring means, the other end is coupled to the fixed body position correction means for adjusting the position of the measuring means; comprising a strain measuring device comprising a. The method of claim 1, The measuring means includes a pair of bodies coupled to the pair of bodies so as to be flowable about an axis, and a pair of transfer parts coupled with the body and a rod for transmitting the deformation of the test piece to the measuring unit, and having at least one through hole. Strain measurement device characterized in that it comprises a. The method of claim 2, Strain measurement device further comprises a pair of rod grips detachably coupled to the body for position adjustment of the rod. The method of claim 1, The position correcting means is coupled to the first elastic body to adjust the vertical position in combination with the measuring means and the fixing portion to be coupled to the second elastic body and the fixing body in combination with the first elastic body to adjust the horizontal position of the measuring means. Strain measurement device characterized in that it comprises a. The method of claim 4, wherein Wherein the position correction means is a strain measuring device characterized in that it further comprises a control shaft to be rotatable in the state coupled with the measuring means. The method according to any one of claims 1 to 5, Strain measuring device, characterized in that the body and the fixing portion further comprises a guide groove.

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