KR20090062490A - Digital vernier callipers - Google Patents

Abstract

Digital vernier calipers are provided to perform the measurement of an object from one side of the body so as to observe all the measured values from the front side. Digital vernier calipers include a main scale(10), a vernier(20) which is a precise scale slid on the main scale, and a display(50) indicating the dimension of an object(O) measured by the main scale and the vernier. A fixed reference jaw unit(40) and a movable measurement jaw unit(30) are installed on the main scale and the vernier. The jaw unit is composed of an extension piece(40a,30a) extended to the top or bottom of the main scale or the vernier, a jaw(35) which is provided on the distal side of the extension piece, and a rotation shaft(30b,40b) provided between the extension piece and the jaw.

Description

DIGITAL VERNIER CALLIPERS}

The present invention relates to a digital vernier caliper, and more particularly, the measurement of the object is all performed on one side of the caliper, so that the display does not need to be turned upside down when observing the measured value digitally displayed on the display. A digital vernier caliper capable of various calculations based on measured values.

The digital vernier caliper is a measuring tool for precisely measuring various dimensions of a given object. Generally, the digital vernier caliper is used between the measuring jaws attached to the mother and the son by using 19 graduations of the son corresponding to 20 graduations of the mother. The object to be measured is placed on the substrate to measure various dimensions of the object with an accuracy of 1/20 mm, and the measured value is digitally displayed on the display.

An example of such a conventional digital vernier caliper is shown in FIG.

Referring to Fig. 1, the digital vernier caliper of the prior art includes a mother element 1 which provides a basic dimension and a son child 2 which provides a precise dimension as a carrier sliding on the mother element 1.

The mother element 1 has a fixed reference jaw 5b for measuring the inner diameter and a fixed reference jaw 5a for measuring the outer diameter at the upper and lower ends thereof, respectively, and the son 2 has the fixed reference jaw. The movable measuring tank 4b and the movable measuring tank 4a for outer diameter measurement are respectively provided in the upper part and the lower part to the side.

The measurement of the object is performed by inserting the inner diameter measuring tanks 5b and 4b on the upper part of the mother child 1 and the son son 2 into the hollow of the object 7 to move the son son 2 with the fixing screw 6. (2) is fixed or the object (7) is inserted between the mother (1) and the outer diameter measuring tank (5a, 4a) of the lower part of the son (2), and then the son (2) is measured and moved relative to the object. After fixing the son 2 with the fixing screw 6, the measurement of the inner or outer diameter of the object is made, and this measurement is displayed digitally on the display 3 in front of the son 2.

However, such a conventional digital vernier caliper uses a measuring jaw above or below the main body according to the target measuring dimension of the object, but the measured value displayed accordingly is displayed on the display fixed in position, and thus the digital measuring numerical value It is often inconvenient to use because it can only be confirmed in an upside down state.

In addition, the conventional digital vernier caliper simply measures the basic dimensions such as the inner diameter, outer diameter, and thickness as it is, and in order to obtain the radius, diameter, circumference length, area, volume, etc. of the measurement target, the measured values are converted separately and calculated. There is a lot of work to be done.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and an object of the present invention is to improve the configuration of a measuring vessel of a mother and a son, and to measure digitally displayed measurements by performing various dimensional measurements of a measurement object in one direction of the main body. All provide digital vernier calipers that can be observed in the forward direction.

Another object of the present invention is to digitally calculate and display various physical indicators of the object, such as radius, circumference length, area, volume, etc., which can be obtained through calculation, based on the primary measured value of the object. To provide a vernier caliper.

To achieve the above object, the present invention provides a digital vernier caliper, comprising: a mother as a basic measurer, a son sliding on the mother as a precision measurer, and a display for digitally displaying the dimensions of the object measured by the mother and son. And a fixed reference jaw unit and a movable measuring jaw unit which can be swung above or below one side of the mother and son, respectively, to provide a digital vernier caliper.

In one embodiment, the jaw unit comprises a fixed extension piece extending to the top or bottom of the mother or son body, a jaw provided pivotally on the distal side of the extension piece, provided between the extension piece and the jaw to be counterparts of the jaw. And a rotation shaft for mediating rotation.

In one embodiment, the operation mode selection unit for selecting a predetermined type of operation mode for the desired type of object to be obtained, a memory for storing the measurement values measured by the mother and son according to the selected operation mode, and in the memory And a control unit configured to perform secondary operations according to the selected operation mode, a memory input / output of the measurement data, an operation procedure according to the selection of the operation mode, and a control unit controlling operation and display of the operation unit.

In one embodiment, the controller is characterized in that for sequentially displaying the instructions of the operation procedure by the operation unit on the display.

In one embodiment, the operation mode includes a radius, a circumferential length, an area, a volume, and a percentage calculation for any one of a circle, an ellipse, a sphere, a polygon, a tetrahedron, a cube, a cone, a cylinder, a column, and an horn. It is done.

In one embodiment, the operation mode selection unit is characterized in that the touch button or touch screen.

According to the present invention, since the configuration of the measuring jaws of the mother and son can be improved to measure various dimensions of the measurement object in one direction of the main body, all the digitally displayed measurements can be observed in the forward direction, and the primary measurement of the object is performed. Based on the measured value, various physical indices of the object such as radius, circumference length, area, and volume that can be obtained through the calculation can be secondarily calculated and displayed, so that the convenience of measurement can be performed simultaneously with the measurement. It can be effective.

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

2 and 3 is a view showing the configuration and operation of the digital vernier caliper according to an embodiment of the present invention, Figure 2 is an operation of measuring the outer diameter of the cylindrical body, and Figure 3 is a cylindrical body The operation of measuring the inner diameter is shown.

Referring to these drawings, the digital vernier caliper according to the present invention is measured by the mother 10 as a basic measurer, the son 20 sliding on the mother as a precision measurer, the mother 10 and the son 20. And a display 50 for digitally displaying the dimensions of the object O. FIG.

The mother 10 and son 20 includes a fixed reference jaw unit 40 and a movable measuring jaw unit 30 which can be pivoted up and down on one side above or below (in this embodiment, below), respectively. .

The fixed reference jaw unit 40 and the movable measuring jaw unit 30 are fixed extension pieces 40a and 30a extending downward from one side of the mother 10 and son 20 bodies, respectively, and ends of the extension pieces. Rotation which is provided between the fixed reference jaw 45 and the movable measurement jaw 35 provided on the side to be rotatable, and the extension pieces 40a, 30a and the jaws 45, 35 to mediate the up and down relative rotation of the jaw. Shafts 30b and 40b.

At this time, each of the fixed reference jaw 45 and the movable measuring jaw 35 is the same as the outer measuring jaw (45a, 35a) and the inner diameter (id) of the object for measuring the external dimensions such as the outer diameter (od) of the object It consists of internal measuring tank parts 45b and 35b for measuring the internal dimension of a hollow part.

At the time of measurement, each jaw 45, 35 takes a measuring position for measuring the object by pivoting up and down via the rotating shafts 30b, 40b according to the measurement position of the object, and the reference jaw 45 ), The son 20 is moved until the object comes into contact with the object between the measuring jaw 35 and the measurement is performed by fixing the fixing screw 25.

The display 50 is a device for displaying the measurement value of the object measured by the jaw unit 40, 30, may be made of LCD, OLED, etc., the installation position is not limited to the position shown in the figure, For example, it can be installed in the son 20 body.

Meanwhile, the present invention may not only measure the dimensions of the measurement object, but also calculate and display the radius, circumference, area, volume, and percentage of the object on the display 50 through a predetermined calculation using the measured dimensions. .

To this end, the digital vernier caliper of the present invention includes an operation mode selection unit (not shown) for selecting a predetermined type of operation mode for a predetermined type of object to be obtained, and the mother 10 and the sonar according to the selected operation mode. A memory (not shown) for storing the measured values measured by 20, an arithmetic unit (not shown) for secondarily calculating the measured values stored in the memory according to a selected calculation mode, memory input / output of the measurement data, and selection of a calculation mode. A control procedure (not shown) for controlling a calculation procedure according to, operation and display of the operation unit may be further included.

The operation mode includes a radius (d / 2), a circumference (2πr), an area, a volume, and a percentage calculation for any one of a circle, an ellipse, a sphere, a polygon, a tetrahedron, a cube, a cone, a cylinder, a column, and a horn. .

The operation mode selector may be implemented in the form of a touch button 60 or a touch screen, and selects a desired object and a desired operation value for the object. In addition, the object may be variously selected from a circle, an ellipse, a sphere, a polygon, a tetrahedron, a hexahedron, an ellipsoid, a cone, a cylinder, a pillar, and an horn, and the like. In addition, the calculated value also includes all kinds of values that can be normally calculated, such as radius, circumference, area, volume, percentage, and the like, and does not limit the type thereof.

The control unit performs an arithmetic procedure according to the arithmetic mode selected by the arithmetic mode selection unit, causes the arithmetic unit to perform arithmetic in accordance with the arithmetic procedure, and displays the arithmetic result.

The control unit sequentially displays and instructs the progress of the operation procedure on the screen of the display 50. For example, if the internal volume (πr ² × h) of the cylinder is selected as the operation mode, the display 50 screen is displayed. On the inside, an instruction to measure the inner diameter of the cylinder is displayed, and then the inner diameter is measured, and the measured inner diameter measurement is stored in the memory, for example, by pressing the 'OK' button 80. Subsequently, when the height h measurement instruction of the cylindrical body is displayed on the screen of the display 50, for example, the measured height measurement value is stored in the memory by pressing the 'confirmation' button 80. Then, the operation unit loads the measured value and π value stored in the memory, performs an operation of π × (id / 2) ² × h, and then displays the operation result on the display screen.

In this way, various desired calculations can be obtained. For example, if the measurement object is a circle and you want to know the radius of the circle (d / 2), the area (πr ² ), and the circumference (2πr), In the on state of 70), the mode selector 60 is operated to select a circle, the radius, the area, and the circumferential length are each selected, and then the measured value obtained by measuring the diameter d of the object circle is stored in the memory. The calculation unit calls it up to perform the operation according to each of the selection modes and displays the desired value on the display 50.

Accordingly, since the digital vernier caliper of the present invention can perform various dimensional measurements of the measurement object in one direction of the main body, all of the digitally displayed measurements can be observed in the forward direction, and based on the primary measurement of the object, Since various physical indices of the object, such as radius, circumference length, area, and volume, which are obtained through the calculation, may be secondarily calculated and displayed, the measurement may be convenient and the desired calculation may be performed simultaneously with the measurement.

1 is a diagram showing a configuration example of a conventional digital vernier caliper.

2 is a view showing the configuration and operation of the digital vernier caliper according to an embodiment of the present invention, for example, the operation of measuring the outer diameter of the cylindrical body.

3 is a view showing the configuration and operation of the digital vernier caliper according to an embodiment of the present invention, for example, the operation of measuring the inner diameter of the cylindrical body.

Claims (6)

As a digital vernier caliper, With the mother as a basic measurer, Sonzaza sliding on the mother as a precision measurer, A display for digitally displaying the dimensions of the object measured by the mother and son; And a fixed reference jaw unit and a movable measuring jaw unit, each of which can be swiveled above or below one side of the mother and son, respectively. The jaw unit according to claim 1, wherein the jaw unit includes: a fixed extension piece extending to the upper or lower portion of the mother or son body, a jaw rotatably provided on the distal side of the extension piece, and provided between the extension piece and the jaw to A digital vernier caliper, comprising a rotating shaft for mediating relative rotation. The memory device of claim 1, further comprising: an operation mode selection unit configured to select a predetermined type of operation mode for a predetermined type of object, a memory storing measurement values measured by the mother and son according to the selected operation mode, and a memory; And a control unit configured to perform a second operation according to the selected operation mode, a memory input / output of the measurement data, an operation procedure according to the selection of the operation mode, and a control unit controlling the operation and display of the operation unit. Digital vernier caliper. The digital vernier caliper of claim 3, wherein the control unit sequentially displays an instruction of an operation procedure by the operation unit on a display. The method of claim 3, wherein the operation mode includes a radius, a circumferential length, an area, a volume, and a percentage calculation for any one of a circle, an ellipse, a sphere, a polygon, a tetrahedron, a cube, a cone, a cylinder, a column, and an horn. Featuring digital vernier calipers. The digital vernier caliper of claim 3, wherein the operation mode selection unit is a touch button or a touch screen.

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