KR200260096Y1 - Device for measuring of thickness - Google Patents

Abstract

The present invention relates to a thickness measuring device that can easily measure the thickness of an object to be measured accurately by easily operating a measuring instrument when the object to be measured is wide. In order to solve the problem of measurement accuracy caused by the troublesome work of the measurer, A thickness measuring device for measuring the thickness of a target object such as a wide range of synthetic resin films, sheets, screen masks, fabrics, papers, etc., the thickness of the base on which the subject is mounted and the thickness of the subject matter mounted on the base are measured. A measuring instrument portion and a support coupled to the base, the measuring instrument portion presses a measurement object mounted between the base and the measuring instrument portion against a base, and a measured value measured by the measurement instrument. Display means for displaying the movement means for moving the measuring device up and down, and the vertical movement of the movement means It is provided with a control means.

By using such a thickness measuring device, even if the object to be measured covers the main body of the thickness measuring device, the effect can be easily measured by the measurer with high accuracy.

Description

Device for measuring thickness

The present invention relates to a thickness measuring device that can accurately and easily measure the thickness of an object to be measured. In particular, when the width of the object is large, the thickness of the object can be easily measured with high accuracy by simply operating a measuring instrument. To a thickness measuring device.

In general, the thickness measuring device of a thin object to be measured, such as synthetic resin films, sheets, screen masks, papers, textiles, etc., is miniaturized, is portable, and its operation is becoming increasingly simple.

For example, in the case of measuring the thickness of papers, micrometers are known by measuring a 50 kpa (0.5 kg / cm 2) pressure by inserting a measurement object between two discs. In the case of measuring using such a micrometer, a measurement error occurs according to the measurer.

In the case of synthetic resin films, sheets, screen masks, papers, or textiles, the measurement unit is in micrometers, so the measurement error according to the measurer becomes negligible.

In order to solve the problems caused by the above-described measuring device, in recent years, the digital measuring device according to the development of electronic technology has been generalized.

However, when highly precise measurement is required, in the portable measuring device as described above, the variation in the whole measured object or the shaking error of the measured object or the measurer also becomes a problem.

Therefore, when highly precise measurement is required, a fixed measuring device is used instead of a portable measuring device.

When using this stationary measuring device, various advantages such as switching of the measuring system and setting of the shake measuring mode are maintained.

However, there are the following problems in the stationary measuring apparatus on the market.

The fixed thickness measuring device is formed by integrally holding the measuring device and mounting the measuring object, and the measuring device is integrally formed. When the width of the measuring object is wide, the measuring object covers the base. The work to measure this becomes cumbersome.

That is, as shown in FIGS. 4 and 5, in the conventional fixed thickness measuring apparatus, the measurement target 41 covers the adjustment panel 43 of the base 42, so that the measurer supports the support 44. In order to measure the thickness of the measured object 41 with the measured measuring device 45, the measuring object 41 is fixed to the base 42, and then the lower end of the measured object 41 is lifted up to adjust the adjustment panel ( 43) had to be manipulated.

However, when the measurer moves the position of a part of the object under measurement 41 as described above, an error occurs in the measurement of the high precision due to the shaking of the object under measurement 41 and the original purpose of the fixed thickness measuring device. The problem arises that it becomes difficult to achieve.

In addition, when the measurer operates as described above, problems arise in the measurement accuracy due to the troublesome work of the measurer.

An object of the present invention is to solve the problems of the prior art as described above, and to provide a thickness measuring apparatus capable of measuring a wide measurement object with high accuracy.

Another object of the present invention is to provide a thickness measuring device that can easily measure a wide object to be measured.

1 is a block diagram of a thickness measuring device according to the present invention

Figure 2 is a front view showing a control panel in the thickness measuring device according to the present invention

Figure 3 is a side view of a state to be mounted on the base in the thickness measuring apparatus according to the present invention

Figure 4 is a front view of a conventional fixed thickness measuring device

Figure 5 is a side view of a conventional fixed thickness measuring device

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

11: main body 12: main body drive

13: drive control unit 14: drive operation unit

15 measurement unit 16 measurement value calculation unit

17: measured value display unit 18: measured value printing unit

19: measurement mode setting unit

Briefly, an outline of typical ones of the inventions disclosed in the present application is as follows.

[1] In order to achieve the above object, the thickness measuring apparatus of the present invention is a thickness measuring apparatus for measuring the thickness of an object to be measured, such as a wide range of synthetic resin films, sheets, screen masks, textiles, paper, etc. A base on which the workpiece is mounted, a measuring mechanism portion for measuring the thickness of the measured object mounted on the base and a support holding the measuring mechanism portion and coupled to the base, wherein the measuring mechanism portion is mounted between the base and the measuring mechanism portion; And a measuring means for pressing the water against the base, display means for displaying the measured value of the measured object measured by the measuring device, a moving means for moving the measurer up and down, and a control means for controlling the vertical movement of the moving means.

[2] The measuring device according to the above [1], wherein the measuring mechanism further comprises a first control panel for operating the control means by the measurer, the first control panel being the front side of the thickness measuring device and on the upper part of the object to be measured. The measurer can be operated by hand.

[3] The measuring device according to the above [1], wherein the measuring mechanism further includes a second control panel for the operator to operate the control means, the second control panel being the front of the thickness measuring device and the bottom of the bottom of the base. It is provided in the part and a measurer can operate by foot.

[4] The above [2] or [3], further comprising printing means for printing the measured value of the object to be displayed on the display means, wherein the printing means is integrally coupled with the thickness measuring device.

[5] In the above [2] or [3], the moving means is moved by air pressure or hydraulic pressure.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In addition, in drawing, the same code | symbol is attached | subjected to the same part, and the repeated description is abbreviate | omitted.

1 is a block diagram of a thickness measuring apparatus according to the present invention.

In FIG. 1, reference numeral 10 denotes a power supply unit for supplying power required for each component of the thickness measurement apparatus according to the present invention, and reference numeral 11 denotes a main body part of the thickness measurement apparatus according to the present invention.

12 is a main body driving part for driving a measuring instrument which is a measuring mechanism attached to the main body part 11, and is operated by air pressure or hydraulic pressure.

Denoted at 13 is a drive control unit for controlling the main body drive unit 12 to move only within a preset range, and 14 is a drive operation unit for the operator to operate the drive control unit 13 using hands or feet.

Further, reference numeral 15 denotes a measuring unit for measuring the thickness of the object under measurement mounted on the main body 11 by the measurer operating the drive operation unit 14, and including a thickness sensor. Reference numeral 16 denotes a measurement value calculation unit for calculating a measurement value of the measurement target object measured by the measurement unit 15 to a value desired by the measurement unit. That is, the measured value calculator 16 calculates and converts the analog value measured by the measurer 15 into a digital value and outputs the measured value desired by the measurer.

17 is a display unit for displaying the measured value calculated by the measured value calculation unit 16 according to a preset condition, which is made of a liquid crystal display device or the like, and is digitally displayed by an analog display or a number according to a guide (measured needle shape). It is possible to display. Reference numeral 18 denotes a measurement value printing unit which prints the measurement value displayed on the measurement value display unit 17, and is composed of a dedicated printer.

Reference numeral 19 denotes a measurement mode setting unit which inputs a measurement condition desired by a measurer to the measurement value calculation unit 16 so that the measurement value calculation unit 16 calculates a measurement value to suit the condition.

In this measurement mode setting unit 19, the measurer can set the following measurement modes.

First, the measurement unit of the measured value displayed or printed on the measured value display unit 17 or the measured value printing unit 18 can be set so as to be switched between units of inches and units of meters (mm). It is possible to switch the measured minimum value of the measured value, for example, from 0.001 units to 0.01 or vice versa.

By setting the home position, the absolute home position of the measurement is stored, and it can be set to the absolute measurement mode which maintains the home position as long as the positional relationship with the absolute home position and the set value are not changed. This measurement indicates the distance from the absolute home position.

In the comparative measurement mode, the distance from the position set to 0 can be set while maintaining the position information of the absolute origin.

In PRESET mode, the absolute origin of the measurement is determined. The reference plane outside the measurement range can be set as the absolute origin by using the calibrated reference gauge or master.

When setting to the tolerance mode, you can check and set the upper and lower limits of the tolerance judgment by checking and setting the upper and lower limits.If the current measured value is out of the upper and lower limits set in the previous paragraph, The warning lamp provided in the measured value display unit 17 may be turned on to notify the measurement person of the tolerance determination.

In addition to this, a maximum value holding mode for holding the maximum value of the fluctuating measurement value, a minimum value holding mode for holding the minimum value of the fluctuating measurement value, and a shake measurement mode for maintaining the fluctuation width of the fluctuating measurement value can be set.

That is, according to the mode set by the measurement mode setting unit 19 described above, the measurement value calculation unit 16 processes the value measured by the measurement unit 15 to display the maximum value, minimum value, and shaking on the measurement value display unit 17. Displays values, warning lights, etc.

Next, the form of the external appearance of the thickness measuring apparatus which concerns on this invention is demonstrated according to FIG.

2 is a front view showing a control panel in the thickness measuring device according to the present invention.

In FIG. 2, 20 is a base for mounting the thickness measuring apparatus main body 21, as shown in FIG. 4, and 22 is a to-be-measured object which mounts a to-be-measured object on the base 20. In FIG. It is a mounting part, 23 is an adjuster leg part for maintaining the parallel state of the base 20. As shown in FIG.

In addition, reference numeral 24 denotes a measurer for measuring the target object mounted on the measurement target mounting portion 22, and includes a thickness sensor or the like, and reference numeral 25 denotes a measurer 24 for moving the measurer 24 up and down. Spindle bonded to the measuring device 24, 26 is a stem for maintaining the state of the measuring device 24 and the object to be mounted 22 vertically, 38 is the spindle 25 and the measuring device 24 is It is a measurer guard for protecting the spindle 25 and the measurer 24 when mounting the object to be mounted on the mounting portion 22 in a state of being moved upward by the moving member 35 to be described below.

Although not shown in FIG. 2, the measuring device 24 can be moved up and down by the drive control unit 13 shown in FIG. 1. Here, the measurer 24 is attached to the end of the spindle 25, the spindle 25 is mounted by the downward force generated in the indicator (not shown) with the measurer 24 included therein It is supposed to come down.

In FIG. 2, reference numeral 27 denotes a display portion formed of a liquid crystal display panel, which corresponds to the measurement value display portion 17 of FIG. 1 and is provided on the front of the thickness measurement device so that the measurement value can be immediately confirmed by the measurer.

Reference numeral 28 denotes a first control panel, which is a main feature of the present invention, and includes an UP key 29 for moving the measurer 24 upward in the first control panel 28 to measure an object to be measured. A down key 30 for moving the risk measurer 24 downward and a reset key 31 for resetting a predetermined operation.

In addition, reference numeral 32 denotes a power supply panel, in which an emergency light for notifying abnormal conditions of the power supply key 33 and the main body 21 corresponding to the power supply unit 11 shown in FIG. 34).

As can be seen in FIG. 2, in the present invention, since a control panel for measuring the thickness of the object under test is provided in the main body 21, in the object under test mounted between the measurer 24 and the mounting part 22. Even when the width is wide, the measurer can easily operate the thickness measuring device and measure with high precision.

Next, a state in which the object to be measured 41 is mounted in the thickness measuring apparatus of the present invention and a control panel of another embodiment according to the present invention will be described with reference to FIG. 3.

3 is a view showing a side state of the thickness measuring apparatus according to the present invention.

In FIG. 3, 35 is a moving member which belongs to the main body drive part 12 shown in FIG. 1, and moves the measuring part 24 to upper part by air pressure or hydraulic pressure, and 36 is the main body 21 and the support stand. It is a connecting member for connecting 44. That is, when the measuring member 24 is in contact with the object to be measured by the downward force generated in the indicator, the measuring member 24 is moved upward.

Reference numeral 37 denotes a second control panel for the measurer to move the movable member 35 up and down with his or her foot.

The second control panel 37 is generated in the indicator when the measurer presses the second control panel with his foot, for example, when the measurer 24 forcibly moves upward and releases the pressure. The measuring member 24 may be lowered by the downward force to measure the thickness of the measured object 41.

In the structure shown in FIG. 3, the width of the measurement object 41 is wide as in the configuration shown in FIG. 2, so that the measurer can operate the second control panel 37 in a simple manner, even when lowered to the bottom of the base 20. By pressing with one's feet, the thickness of the measurement object 41 can be measured with high accuracy.

In addition, although the illustration about the printer corresponding to the measured value printing part 18 shown in FIG. 1 was abbreviate | omitted in FIG. 2 and FIG. 3, it is used integrally with the thickness measuring apparatus on the upper surface or the side surface of the main body 21, and is used. do.

As described above, according to the thickness measuring device of the present invention, even if a measurement object such as a wide paper or fabric is completely covered with the base of the thickness measurement device, the measurer can easily measure the thickness of the measurement object with high accuracy. A possible effect is obtained.

Further, since the measurer measures the thickness of the measured object by the downward force generated in the indicator, the effect of measuring the thickness of the measured object with high accuracy is obtained.

Although the invention made by the present inventors has been described in detail according to the above embodiment, the present invention is not limited to the above embodiment and can be variously changed within the scope not departing from the gist of the present invention.

Claims (6)

In the thickness measuring apparatus which measures the thickness of a to-be-measured object, such as wide synthetic resin films, sheets, a screen mask, textiles, and papers, A base on which the measurement object is mounted, A measuring mechanism unit for measuring a thickness of the object to be mounted on the base; Holding the measuring mechanism and having a support coupled to the base, The measuring mechanism unit for measuring the object to be mounted between the base and the measuring mechanism unit against the base, Display means for displaying a measured value of the measured object measured by the measurer; Moving means for moving the measurer upward; Thickness control device comprising a control means for controlling the movement to the upper portion of the moving means. The method of claim 1, The measuring mechanism unit further includes a first control panel for the operator to operate the control means, The first control panel is a front surface of the thickness measuring device and is provided on the upper part of the measurement object, the thickness measuring device, characterized in that the measurer can operate by hand. The method of claim 1, The measuring mechanism further includes a second control panel for the operator to operate the control means, The second control panel is a front surface of the thickness measuring device and is provided on the bottom portion of the lower portion of the base, the thickness measuring device, characterized in that the measurer can operate by foot. The method according to claim 2 or 3, Printing means for printing the measured value of the measured object displayed on the display means; And the printing means is integrally coupled with the thickness measuring device. The method according to claim 2 or 3, Thickness measuring device, characterized in that the moving means is moved by air pressure or hydraulic pressure. The method of claim 1, A thickness measuring device comprising a calibrator guard for protecting a calibrator around the calibrator.