KR100442826B1 - Thickness and conductivity measuring apparauts - Google Patents

Abstract

PURPOSE: A thickness and electrical conductivity measurement apparatus is provided, which minimizes measurement error by preventing the influence on a measurement target. CONSTITUTION: A frame(21) has an anvil(21a) where a measurement target(23) is to be placed, and a display unit displaying measurement value in digital. A thimble(22) is connected to the frame, and a spindle(22s) performs rotation and straight movement according to the rotation of the thimble. A cap(22c) measures the thickness and the electrical conductivity of the measurement target. And a knob(22k) controls the pressing force of the cap as to the measurement target.

Description

Thickness and conductivity measuring device {Thickness and conductivity measuring apparauts}

The present invention relates to a thickness and conductivity measuring apparatus, and more particularly, to a thickness and conductivity measuring apparatus capable of minimizing a measurement error in measuring thickness and electrical conductivity of a solid polymer electrolyte used in a lithium secondary battery. will be.

The solid polymer electrolyte sheet used in the lithium secondary battery is made of a flexible gel material and is made of a thin plate having a thickness of about 0.1 to 0.3 mm. After the solid polymer electrolyte sheet is manufactured, electrical conductivity, physical property strength, thickness, and the like are measured to determine whether the product is good or bad.

1 is a device configuration diagram of a conventional thickness and electrical conductivity measurement apparatus.

Referring to FIG. 1, the conventional thickness and conductivity measuring apparatus includes an anvil 11a for placing a measurement object 13 on a predetermined portion of the body, and a display portion 11d for digitally displaying a measurement value. Frames 11, respectively, provided with a thimble 12 rotatably coupled to the frame 11, and a spindle that rotates vertically and vertically in accordance with the rotation of the tumble 12 ( 12s), and coupled to the end of the spindle 12s and in contact with and separated from the measurement object 13 according to the vertical movement of the spindle 12s, so that the thickness and electrical conductivity of the measurement object 13 can be measured. The cap 12c and the knob 12k for adjusting the pressing force with respect to the measurement object 13 of the cap 12c are comprised. Reference numerals 11h and 12h denote holes for jack connection for measuring the electrical conductivity of the measurement object 13, respectively.

The measurement object 13 is placed on the anvil 11a of the conventional thickness and electrical conductivity measuring apparatus having the above configuration, and when the tumble 12 is rotated, the spindle 12s rotates and gradually descends, thus the spindle ( The cap 12c fixed to the end of 12s) also rotates and descends to contact the measurement object 13. Then, an arbitrary numerical value is displayed on the display portion 11d to measure the thickness of the measurement object 13. In addition, one end of a jack (not shown) is connected to the jack connection holes 11h and 12h formed in the anvil 11a and the cap 12c, respectively, and the other end of the jack is an electrical conductivity measuring device (not shown). After connecting to, when the above operation is performed, the electrical conductivity of the measuring object 13 appears in the electrical conductivity measuring apparatus. Thereby, the electrical conductivity with respect to the measurement object 13 is also measured. Here, the electrical conductivity measurement may be made separately, or may be made simultaneously with the thickness measurement.

By the way, in the conventional measurement method as described above, when the cap 12c is brought into contact with the measurement object 13, the measurement object 13 (eg, an electrolyte sheet in a gel state) is also slightly affected by the rotation of the cap 12c. It is twisted. Therefore, there is a problem in that the thickness of the measurement object 13 cannot be accurately measured. In addition, when measuring the conductivity, the measurement object 13 is pressed to change the characteristic value of the conductivity. That is, when the hardness of the measuring object 13 is low, such as an electrolyte plate in a gel state, the measuring object 13 is placed on the anvil 11a, and the measuring object 13 is in contact with the contact plate on both sides of the measuring object 13. ) Can not be accurately determined how much contact is being pressed, and accordingly, the measurement object 13 is to measure the electrical conductivity in the excessive or under-pressed state, there is a problem that the characteristic value of the electrical conductivity is changed.

The present invention has been made in view of the above problems, and an object thereof is to provide a thickness and conductivity measuring apparatus capable of minimizing a measurement error by preventing an influence on a measurement object.

1 is a device configuration diagram of a conventional thickness and conductivity measuring device.

Figure 2 is a device configuration of the thickness and electrical conductivity measuring apparatus according to the present invention.

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

11,21 ... frame 12,22 ... dumble

11a, 21a ... Anvil 11d, 21d ...

12c, 22c ... cap 12k, 22k ... knob

12s, 22s ... spindles 13,23 ... objects to be measured

11h, 21h, 12h, 22h ... 22g jack jack hole

24h ... through hole 24p ...

In order to achieve the above object, the thickness and electrical conductivity measuring apparatus according to the present invention includes a frame having an anvil and a display unit for displaying a measurement value of a thickness for placing a measurement object on a predetermined portion of the body, and rotatable therewith. A dimple coupled to the spindle, a spindle rotating and linearly moving in accordance with the rotation of the thimble, and coupled to an end of the spindle to be in contact with and separated from the measurement object according to the movement of the spindle, so that the thickness and electrical conductivity of the measurement object can be measured. In the thickness and electrical conductivity measuring apparatus having a cap for adjusting the pressing force to the measuring object of the cap,

The cap is characterized in that it is coupled to the spindle to be idle when the spindle rotates.

According to the present invention, the cap is to be rotated during the rotation and linear movement of the spindle, there is an advantage to minimize the measurement error of the compression change by preventing the distortion of the flexible measuring object, such as a polymer sheet.

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

Figure 2 is a device configuration of the thickness and electrical conductivity measuring apparatus according to the present invention.

Referring to FIG. 2, the thickness and electrical conductivity measuring apparatus according to the present invention includes an anvil 21a for placing the measurement object 23 on a predetermined portion of the body and a display portion 21d for displaying the measured value digitally. A frame 21 provided therein, a dimple 22 rotatably coupled to the frame 21, a spindle 22s vertically moving up and down in accordance with the rotation of the tumble 22, and A cap 22c coupled to an end of the spindle 22s and capable of measuring the thickness and electrical conductivity of the measurement object 23 by contacting and separating from the measurement object 23 according to the vertical movement of the spindle 22s. ) And a knob 22k for adjusting the pressing force of the cap 22c to the measurement target 23. Reference numerals 21h and 22h denote jack connection holes for measuring electrical conductivity of the measurement object 23, respectively.

Here, in particular, the cap 22c is coupled to the spindle 22s to be idle when the spindle 22s is rotated. For this idle mechanism of the cap 22c, the end of the spindle 22s is formed into a sphere as shown in the figure, and a valley 22g having a predetermined depth and width at a predetermined portion of the end of the spindle 22s. It is formed along the outer circumferential surface of the spindle body. In addition, the cap 22c is formed with two through-holes 24h for insertion of the fixing pin 24p for fixing the cap 22c to the end of the spindle 22s so as to correspond to the valley 22g. . At this time, the fixing pin 24p is fitted into the through hole 24h by interference fit, and is fastened so as to be in sliding contact with the valley 22g.

The measuring object 23 is placed on the anvil 21a of the thickness and electrical conductivity measuring apparatus of the present invention having the above configuration, and the spindle 22s rotates slowly while the tumble 22 is rotated. At this time, the cap 22c fixed to the end of the spindle 22s is coupled to the spindle 22s so as to be idling, so that the cap 22c is lowered without rotation to contact the measurement object 23. Therefore, the warping phenomenon of the measurement object as in the prior art does not appear. When the cap 23 comes into contact with the measurement object 23 in this manner, an arbitrary value is displayed on the display portion 21d, which immediately indicates the thickness of the measurement object 23.

On the other hand, one end of a jack (not shown) is connected to the jack connection holes 21h and 22h formed in the anvil 21a and the cap 22c, respectively, and the other end of the jack is an electrical conductivity measuring device (not shown). After the connection, the electrical conductivity of the measurement object 23 appears in the electrical conductivity measuring device. Thereby, the electrical conductivity with respect to the measuring object 23 is also measured. Here, the electrical conductivity measurement may be made separately regardless of the thickness measurement, but in consideration of the cumbersome work, it will be preferable to measure the electrical conductivity at the same time as the thickness measurement.

As described above, the thickness and electrical conductivity measuring apparatus according to the present invention is configured to allow the cap to rotate idly when the spindle is rotated and linearly moved so that the cap is lowered without rotation to contact the measurement object, and thus flexible measurement such as a polymer sheet. By preventing the distortion of the object has the advantage of minimizing the error in the thickness and electrical conductivity measurement of the measurement object.

Claims (5)

A frame having a display portion for displaying an anvil and a thickness measurement value for placing a measurement object on a predetermined portion of the body, a dumbletable rotatably coupled to the frame, a spindle rotating and linearly moving in accordance with the rotation of the tumbler, A cap coupled to an end of the spindle and contacting and separating from the measuring object according to the movement of the spindle to measure the thickness and electrical conductivity of the measuring object, and a knob for adjusting the pressing force of the cap to the measuring object. In the thickness and conductivity measuring apparatus, The cap is coupled to the spindle to be idle when the spindle rotates, the thickness and conductivity measuring device, characterized in that to move toward the measurement object without rotation. The thickness and electrical conductivity measuring apparatus according to claim 1, wherein an end portion of the spindle is spherical. The thickness and conductivity measuring apparatus according to claim 1 or 2, wherein a bone having a predetermined depth and width is formed along the outer circumferential surface of the spindle body at a predetermined portion of the end of the spindle. The thickness and conductivity measuring apparatus of claim 1, wherein the cap has a plurality of through holes for inserting a fixing pin for fixing the cap to the spindle end so as to correspond to the bone. 5. The thickness and conductivity measuring apparatus according to claim 4, wherein the fixing pin is inserted into the through hole by interference fit and is fastened to make sliding contact with the bone.

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