CN210036533U

CN210036533U - Thickness measuring device

Info

Publication number: CN210036533U
Application number: CN201921100050.1U
Authority: CN
Inventors: 梁海飞; 张曜矿
Original assignee: China Wonderland Nurserygoods Co Ltd
Current assignee: China Wonderland Nurserygoods Co Ltd
Priority date: 2019-07-12
Filing date: 2019-07-12
Publication date: 2020-02-07
Anticipated expiration: 2029-07-12

Abstract

The utility model provides a thickness measurement device includes torque tester and thickness measurement appearance, and torque tester is connected with the adjustment part detachable butt joint block of thickness measurement appearance, and torque tester rotates and drives the adjustment part rotation in step, and the rotation of adjustment part makes the centre gripping clearance gradual change of the clamping part of thickness measurement appearance. The thickness measuring device can apply specific pressure to the measured object and measure the thickness of the measured object under the specific pressure, and can achieve the effects of accurate measurement and standardization.

Description

Thickness measuring device

Technical Field

The utility model relates to a measure technical field, especially relate to a thickness measurement device.

Background

In daily life and production, the thickness of an object is required to be accurately measured, for example, in the fields of textiles, molds and the like, the thickness of a sample such as the textiles or the molds is required to be measured frequently, a caliper is used for measuring in a general condition, a measuring jaw of the caliper is used for pressing the measured object, and when a measurer feels that pressure is applied to the maximum and the thickness of the measured object does not change any more, the thickness of the measured object is obtained by reading. However, for the object to be measured with obvious thickness variation due to extrusion, because different testers apply different forces at different times, the manual operation is difficult to control the magnitude of the force, so that the data measured at each time are different, and the thickness of the object to be measured and the standard of uniform thickness measurement are difficult to accurately measure.

Therefore, there is a need for a thickness measuring device capable of measuring the thickness of an object under a specific pressure while applying the specific pressure to the object to be measured, so as to achieve the effects of accurate measurement and standardization.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a thickness measurement device, this thickness measurement device can survey the thickness of measured object under specific pressure when applying specific pressure to the measured object, can reach the precision measurement and realize standardized effect.

In order to achieve the above object, the utility model provides a thickness measuring device, including torque tester and thickness measuring instrument, torque tester is connected with thickness measuring instrument's regulating part detachable butt joint block, and torque tester's rotation drives thickness measuring instrument's regulating part in step and rotates, and the rotation of regulating part makes the centre gripping clearance gradual change of thickness measuring instrument's clamping part.

Compared with the prior art, the utility model discloses a thickness measurement device, including torque tester and thickness measurement appearance, torque tester is connected with the regulation part detachable butt joint block of thickness measurement appearance, and the rotation of torque tester drives the regulation part rotation of thickness measurement appearance in step, and the rotation of regulation part makes the centre gripping clearance gradual change of the clamping part of thickness measurement appearance. The adjusting part of the thickness measuring instrument is synchronously driven to rotate through the rotation of the torque tester, so that the clamping gap of the clamping part of the thickness measuring instrument is gradually reduced, the clamping process of the measured object is gradually realized, the pressure applied to the measured object by the clamping part of the thickness measuring instrument is gradually increased along with the continuous rotation of the torque tester, the pressure applied to the measured object is synchronously tested by the torque tester, and when the torque tested by the torque tester reaches a set specific value, the thickness of the measured object is obtained by reading the reading of the thickness measuring instrument. Therefore, the unified standard of applying pressure can be formulated for the same type of measured object, the test standards adopted by different testers at different times are ensured to be the same, and the applied force to the measured object is the same, so that the measurement error is reduced, the effects of accurate measurement and standardization are achieved, the measurement efficiency can be improved, and the stability of measurement at every time is improved.

Preferably, the thickness measuring device further comprises a connecting piece, and two ends of the connecting piece are detachably connected with the adjusting parts of the torsion tester and the thickness measuring instrument in a butt joint clamping manner respectively. The torsion tester and the thickness measuring instrument are stably connected through the connecting piece, so that the torsion tester is guaranteed to stably drive the thickness measuring instrument to rotate, and the rotating torsion is accurately measured.

Preferably, the first end of the connecting piece is detachably inserted and clamped in the torque tester, and the second end of the connecting piece is detachably inserted and clamped in the adjusting part of the thickness measuring instrument.

Preferably, the first end of the connecting member has a smaller outer diameter than the second end of the connecting member.

Preferably, the second end of the connecting piece is provided with a clamping groove connected with the adjusting part of the thickness measuring instrument.

Preferably, the torsion tester is a digital display torsion meter or a pointer torsion meter.

Preferably, the thickness measuring instrument is a micrometer screw.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the thickness measuring device of the present invention.

Fig. 2 is an exploded view of the thickness measuring apparatus shown in fig. 1.

Fig. 3 is a schematic perspective view of an embodiment of a connector according to the present invention.

Fig. 4 is a schematic structural view of the thickness measuring apparatus shown in fig. 1 in a test state.

Detailed Description

In order to explain technical contents and structural features of the present invention in detail, the following description is made with reference to the embodiments and the accompanying drawings.

Referring to fig. 1 and 2, the thickness measuring device 100 of the present invention is mainly used for measuring the thickness of a measured object 30, and includes a torque tester 10 and a thickness measuring instrument 20, wherein the torque tester 10 is detachably connected to the adjusting portion 22 of the thickness measuring instrument 20 in a butt joint manner, the rotation of the torque tester 10 synchronously drives the adjusting portion 22 of the thickness measuring instrument 20 to rotate, and the rotation of the adjusting portion 22 gradually changes the clamping gap 21 of the clamping portion 23 of the thickness measuring instrument 20.

As shown in fig. 1 and 2, the thickness measuring apparatus 100 further includes a connecting member 40, and two ends of the connecting member 40 are detachably connected to the torsion tester 10 and the adjusting portion 22 of the thickness measuring instrument 20 in a butt-joint and snap-fit manner. As shown in fig. 3, the outer diameter of the first end 41 of the connecting element 40 is smaller than the second end 42 of the connecting element 40, the first end 41 of the connecting element 40 is detachably inserted into the torsion tester 10, and the second end 42 of the connecting element 40 is detachably inserted into the adjusting portion 22 of the thickness measuring instrument 20. Specifically, the first end 41 of the connecting member 40 is clamped and connected by the fixing member 12 of the torsion tester 10, and the second end 42 of the connecting member 40 is opened with a clamping groove 43 connected with the adjusting portion 22 of the thickness measuring instrument 20. More specifically, the adjusting portion 22 of the thickness measuring instrument 20 is threadedly coupled to the engaging groove 43 of the second end 42 of the connecting member 40, or a clamping head is provided in the engaging groove 43, and the adjusting portion 22 of the thickness measuring instrument 20 is clamped by the clamping head. Of course, the manner of fixedly connecting the torsion tester 10 and the thickness measuring instrument 20 at both ends of the connecting member 40 is not limited thereto, as long as the torsion tester 10 and the thickness measuring instrument 20 can be stably connected. The torsion tester 10 and the thickness measuring instrument 20 are stably connected through the connecting piece 40, so that the torsion tester 10 is ensured to stably drive the thickness measuring instrument 20 to rotate, and the rotating torsion is accurately measured.

Preferably, the torsion tester 10 is a digital display torsion meter or a pointer torsion meter, and the thickness measuring instrument 20 is a micrometer screw, which can be a mechanical micrometer screw or an electronic micrometer screw. Specifically, the adjustment portion 22 of the thickness measuring instrument 20 is synchronously driven to rotate by the rotation of the torsion operation portion 11 operating the torsion tester 10, so that the distance between the clamping gaps 21 of the thickness measuring instrument 20 gradually decreases, and further the clamping process of the measured object 30 gradually is realized, the pressure applied to the measured object 30 by the clamping portion 23 of the thickness measuring instrument 20 along with the continuous rotation of the torsion tester 10 is gradually increased, the pressure applied to the measured object is synchronously tested by the torsion tester 10, and when the torsion measured by the torsion tester 10 reaches a set specific value, the thickness of the measured object 30 is obtained by reading the reading of the thickness measuring instrument 20.

The thickness measurement using the thickness measurement apparatus 100 described above includes the steps of:

(1) providing a thickness measuring device 100;

(2) the torsion tester 10 and the thickness measuring instrument 20 are connected through a connecting piece 40;

(3) placing the object 30 into the clamping gap 21 of the clamping portion 23;

(4) rotating the torque tester 10 to gradually clamp the object 30 to be tested by the clamping part 23, and stopping rotating the torque tester 10 until the torque of the torque tester 10 reaches a specific value;

(5) and reading the reading of the thickness measuring instrument 20 to obtain the thickness of the measured object 30.

Preferably, the torsion tester 10 and the thickness gauge 20 are zeroed before performing the thickness test, the torsion tester 10 being a digital or pointer torsion meter and the thickness gauge 20 being a micrometer screw gauge. Specifically, in step (2), as shown in fig. 4, the fixing member 12 of the torque tester 10 is inserted into the first end 41 of the connection connector 40, and the adjustment portion 22 of the thickness gauge 20 is inserted into the engaging groove 43 of the second end 42 of the connection connector 40, so as to connect the torque tester 10 and the thickness gauge 20. Specifically, in step (4), the operation portion 11 of the torsion tester 10 rotates to synchronously drive the adjustment portion 22 of the thickness tester 20 to rotate, so that the clamping gap 21 of the clamping portion 23 of the thickness tester 20 gradually decreases, and further, the object 30 to be tested is gradually clamped, the pressure applied to the object 30 to be tested by the clamping portion 23 of the thickness tester 20 is gradually increased along with the continuous rotation of the torsion tester 10, the torsion tester 10 synchronously tests the pressure applied to the object 30 to be tested, and when the torsion measured by the torsion tester 10 reaches a set specific value, the reading of the thickness tester 20 is read, so that the thickness of the object 30 to be tested is obtained. Specifically, the torque tester 10 can achieve a measurement value in a range of 2.0kgf.cm to 5.0kgf.cm, specifically, 2.0kgf.cm, 3.0kgf.cm, 4.0kgf.cm, 5.0kgf.cm, although the measurement value is not limited thereto, and a specific value of the torque that can show the true thickness of the object 30 to be measured is determined through a plurality of experiments according to the material of the object 30 to be measured, for example, a cloth, and therefore, for the same object 30 to be measured, the torque tester 10 is uniformly twisted so that the torque reaches the same specific value according to the specific value obtained through the experiments each time of thickness measurement, and reading of the micrometer screw is started to reduce the measurement error.

To sum up, the utility model discloses a rotation of torsion tester drives thickness measurement appearance's regulating part in step and rotates among the thickness measurement device, and the rotation of regulating part makes the centre gripping clearance of thickness measurement appearance's clamping part change gradually. The rotation of the torque tester synchronously drives the adjusting part of the thickness measuring instrument to rotate, so that the clamping gap of the clamping part of the thickness measuring instrument is gradually reduced, the clamping process of the measured object is gradually realized, the pressure applied to the measured object by the clamping part of the thickness measuring instrument is gradually increased along with the continuous rotation of the torque tester, the torque tester synchronously tests the pressure applied to the measured object, and when the torque tester tests that the torque reaches a set specific value, the reading of the thickness measuring instrument is read to obtain the thickness of the measured object. Therefore, the unified standard of applying pressure can be formulated for the same type of measured object, the test standards adopted by different testers at different times are ensured to be the same, and the applied force to the measured object is the same, so that the measurement error is reduced, the effects of accurate measurement and standardization are achieved, the measurement efficiency can be improved, and the stability of measurement at every time is improved.

It should be noted that the specific value of the torsion set for different measured objects in the present application may be different, and the specific value of the torsion is set from industry standards, which are known to those skilled in the art and will not be described in detail herein.

The above disclosure is only a preferred embodiment of the present invention, and the scope of the claims of the present invention should not be limited thereby, and all the equivalent changes made in the claims of the present invention are intended to be covered by the present invention.

Claims

1. The thickness measuring device is characterized by comprising a torque tester and a thickness measuring instrument, wherein the torque tester is detachably connected with an adjusting part of the thickness measuring instrument in a butt joint and clamping manner, the rotating of the torque tester synchronously drives the adjusting part of the thickness measuring instrument to rotate, and the rotating of the adjusting part enables the clamping gap of a clamping part of the thickness measuring instrument to gradually change.

2. The thickness measuring device of claim 1, further comprising a connecting member, wherein two ends of the connecting member are detachably connected to the torsion tester and the adjusting portion of the thickness measuring instrument in a butt-joint and clamping manner.

3. The thickness measuring device of claim 2, wherein a first end of the connecting member is detachably engaged with the torque tester, and a second end of the connecting member is detachably engaged with the adjusting portion of the thickness measuring instrument.

4. The thickness measurement device of claim 2, wherein the first end of the connector has a smaller outer profile diameter than the second end of the connector.

5. The thickness measuring device of claim 3, wherein the second end of the connecting member is provided with a slot connected with the adjusting portion of the thickness measuring instrument.

6. The thickness measuring device of claim 2, wherein the torsion tester is a digital display torsion meter or a pointer torsion meter.

7. The thickness measurement device of claim 2, wherein the thickness measurement instrument is a micrometer screw.