KR101925838B1 - Method for setting the horizontal and vertical position coordinates using vernier calipers - Google Patents

Abstract

The present invention relates to a method for setting longitudinal and longitudinal position coordinates using a vernier caliper and includes a stator 10, a mover 20, a vernier 30 to which the mover 20 is inserted and is moved on the mover 20, A fixing bolt 40 for fixing the mover 20 to the stator 10; A fixed bolt 40 'for fixing the vernier 30 to the mover 20 and a display ball 50 for indicating a setting position formed on one side of the vernier 30, (0, 0) of the object to be measured with the inner corner (horizontal, vertical zero) An x coordinate determination step of determining the x coordinate (abscissa) pointed by the projection (31) by moving the mover (20) on the stator (10); A mover securing step of securing the mover (20) on the stator (10) by tightening the fixing bolt (40); A y coordinate determining step of determining the y coordinate (ordinate) pointed by the projection 33 by moving the vernier 30 on the mover 20; Fixing the vernier (30) on the mover (20) by tightening the fixing bolt (40 '); And an x and y coordinate setting step for displaying the x and y coordinate positions by inserting the display means into the display hole 50. Thus, it is possible to easily set the reference point of the coordinates, thereby accurately setting the horizontal and vertical position coordinates of the side of the measured object And it is a useful invention having a special advantage that it is possible to easily set the exact position coordinates of the side and the side of the measuring object without the zero point adjustment by a simple setting of the coordinate reference point.

Description

[0001] The present invention relates to a method of setting horizontal and vertical position coordinates using vernier calipers,

The present invention relates to a method of measuring position coordinates with a caliper for measuring thickness, outer diameter, and hole-to-surface distance, and more particularly, to a method and apparatus for accurately and easily setting the horizontal and vertical position coordinates And a method of setting the horizontal and vertical position coordinates using a vernier caliper.

In general, micrometals and burnier calipers are mainly used for precision measuring instruments. However, in the case of micrometals, measurement is performed by the movement of axial threads. Therefore, when the fluctuation of the measurement object is large, it takes a long time to move the spindle, (Width) is limited to about 25 mm, there is a disadvantage in that a plurality of micrometers are required to measure objects of various sizes.

On the other hand, since the vernier caliper is moved by the sliding method, the limit of measurement thickness is usually as large as 150 to 300 mm, and various items such as outer diameter, inner diameter, depth and step can be measured, and it is widely used as a precision measuring instrument in addition to micrometer.

However, a conventional vernier caliper has a main body 10 and a vernier 20 slidably mounted on the main body 10, as shown in FIG.

At this time, the main body 10 has an outer tank 11 formed on the lower side of the end portion for measuring the outer diameter of the measured object, and an inner tank 12 formed on the upper side of the end portion for measuring the inner diameter of the measured object.

The vernier 20 is provided with an outer tank 21 corresponding to the outer tank 11 of the main body 10 at the lower side of the end for measuring the outer diameter of the measured object, An inner tank 22 corresponding to the inner tank 12 is formed.

In addition, the vernier 20 is provided with a fixing screw 13 for fixing the main body 10 to the main body 10 for precise measurement when measuring the inner diameter of the workpiece.

Such a vernier caliper does not measure the outer diameter or inner diameter of the measured object by using the scale of the chuck and the scale of the vernier while sliding the vernier 20 relative to the main body 10, The digital vernier callipers in which the measured values are displayed through the display unit 30 are widely used. (For reference, the same reference numerals in FIG. 2 as FIG. 1 are the same as those in FIG. 1, and a description thereof will be omitted. )

However, in the general vernier caliper and the digital vernier caliper described above, the shape of the contact portion of the outer trough or inner trough in contact with the measured object is a straight straight shape. As shown in Fig. 3, when the measured surface of the measured object is a curved surface, There is a problem that the measurement value is not accurate because the measurement surface of the measurement object is not closely contacted with the contact portion of the outer or inner tank even if measurement is impossible or measurable.

In order to solve the above-described problem, the "Vernier caliper" of the previously developed patent No. 1528036 is disclosed in Patent Document 1 (see Patent Document 1).

The "Vernier caliper" of the above-mentioned Japanese Patent No. 1528036 includes a caliper body having a main body 110 and a vernier 120 slidably mounted on the main body 110, as shown in FIG. 3; And contact means 200 provided on the vessel 111 and 112 provided with the contact portion 190 of the main body 110 or the vernier 120 so as to correspond to the measurement site shape of the object to be contacted, By providing the main means or the contact means provided in the vernier tank so as to correspond to the shape of the measurement site of the water, it is possible to measure the measurement object having the measurement site which is impossible or difficult to measure by only the main body or the vernier, It is possible to make accurate measurement without.

However, in any of the conventional calipers described above, it is easy to measure the thickness, the outer diameter, the diameter of the hole, and the distance between the surfaces, but it is difficult to set the position coordinates on the side surface of the measured object.

In addition, Patent Publication No. 2015-0145612 entitled "Vernier caliper for inspection of a machine tool" is disclosed in the patent document (refer to Patent Document 2).

As shown in FIG. 4, the vernier caliper for inspecting a workpiece machined by machining a round portion at an edge where the inclined surface and the vertical surface meet with each other is provided in the vernier caliper of the patent publication No. 2015-0145612, A stator 110 having a body 112 having a predetermined length and a scale formed on the body; A mover 120 assembled so as to be slidable in the longitudinal direction along the body of the stator 110 and having the upper moving jaw 122 at one end; And a lower fixed jaw (111) rotatably assembled to one end of the stator (110) corresponding to the lower moving jaw (121) provided in the mover (120) and provided in contact with the inclined surface, And a second virtual line extending from the vertical surface, the intersection point of the first virtual line and the second virtual line extending from the vertical surface.

However, the above-mentioned "Vernier caliper for inspection of machine tools" of Patent Publication No. 2015-0145612 also has a problem that it is difficult to set the position coordinates on the side of the measured object, although it is easy to measure the thickness, outer diameter, there was.

Patent Document 1: Japanese Patent No. 1528036, Patent Document 2: Japanese Patent Application Laid-Open No. 2015-0145612.

SUMMARY OF THE INVENTION The present invention has been made to solve the various drawbacks and problems caused by the conventional caliper in consideration of the above-mentioned problems, and its object is to set the reference point of coordinates easily, The present invention provides a method of setting the horizontal and vertical position coordinates using a vernier caliper capable of accurately setting coordinates.

In order to accomplish the above object, there is provided a method of setting longitudinal and longitudinal position coordinates using a vernier caliper according to the present invention includes a stator 10 having a lower fixed jaw 11 at one end thereof, A vernier 30 protruding from a left upper surface of the vernier 30 and being movable in a direction perpendicular to the scale 20 of the stator 10; And an opening part 32 whose front part is opened such that a scale of the mover 20 can be seen and a projection 32 indicating the scale of the mover 20 into the opening part 32 of the vernier 30 A projection (33), a fixing bolt (40) for fixing the mover (20) to the stator (10); A fixed bolt 40 'for fixing the vernier 30 to the mover 20 and a display ball 50 for indicating a setting position formed on one side of the vernier 30, (0, 0) of the object to be measured with the inner corner (horizontal, vertical zero) An x coordinate determining step of determining the x coordinate (abscissa) pointed by the projection (31) by moving the mover (20) on the stator (10); Fixing the mover (20) on the stator (10) by tightening the fixing bolt (40); A y coordinate determining step of determining the y coordinate (ordinate) indicated by the projection 33 by moving the vernier 30 on the mover 20; Fixing the vernier (30) on the mover (20) by tightening the fixing bolt (40 '); And an x, y coordinate setting step of displaying x and y coordinate positions by inserting a display means into the display hole 50. Thus, it is possible to easily set the x and y coordinates without adjusting the zero point.

Since the reference point of coordinates can be set easily, the present invention can accurately set the horizontal and vertical position coordinates of the side of the object to be measured, and can easily set the coordinates of the horizontal and vertical sides of the measurement object side easily There are special advantages that can be set.

1 is a view showing a conventional vernier caliper,
2 shows a conventional vernier caliper,
3 is a view for measuring the thickness of a measured object with a conventional vernier caliper,
FIG. 4 is a perspective view of a conventional vernier caliper for inspection of a workpiece,
FIG. 5 is a perspective view of a vernier calliper employed in the method of setting the longitudinal and longitudinal position coordinates using the vernier caliper according to the present invention,
FIG. 6 is an exploded perspective view of a vernier calliper employed in the method of setting the longitudinal and longitudinal position coordinates using the vernier caliper according to the present invention,
FIG. 7 is a view showing a use state of a mover and a vernier according to a method of setting the longitudinal and longitudinal position coordinates using the vernier caliper according to the present invention,
8 is a cross-sectional view of a vernier caliper used in a method of setting the longitudinal and longitudinal position coordinates using the vernier caliper according to the present invention,
9 is a view showing a state in which the horizontal and vertical position coordinates set on the side of the measured object are displayed by the horizontal and vertical position coordinate setting method using the vernier caliper according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of a method for setting longitudinal and longitudinal position coordinates using a vernier caliper according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 5 is a perspective view of a vernier caliper used in a longitudinal and longitudinal position coordinate setting method using the vernier caliper of the present invention, FIG. 6 is an exploded perspective view of a vernier caliper used in a longitudinal and longitudinal position coordinate setting method using the vernier caliper according to the present invention, FIG. 8 is a cross-sectional view of a vernier calliper used in a method of setting longitudinal and lateral position coordinates using a vernier caliper according to the present invention, and FIG. 9 is a cross- In the method of setting the horizontal and vertical position coordinates using the vernier caliper according to the present invention, there is a method of setting the horizontal and vertical position coordinates using the vernier calipers according to the present invention. (10) having a stator (11); A mover 20 to which the stator 10 is inserted and moves left and right on the stator 10; A vernier 30 to which the mover 20 is inserted and moved on the mover 20; A protrusion 31 protruding from the left upper surface of the vernier 30 and pointing to a scale of the stator 10; an opening 32 having a front part opened so as to show a scale of the mover 20; A protrusion 33 for indicating the scale of the mover 20 into the opening 32 of the vernier 30 and a fixing bolt 40 for fixing the mover 20 to the stator 10; A fixing bolt 40 'for fixing the vernier 30 to the mover 20; (0, 0) of the object to be measured is set at the inner corner of the stator 10 (here, horizontal and vertical zero) of the vernier caliper, which is constituted by a display hole 50 for displaying a setting position formed on one side of the vernier 30. [ 0); An x coordinate determining step of determining the x coordinate (abscissa) pointed by the projection (31) by moving the mover (20) on the stator (10); Fixing the mover (20) on the stator (10) by tightening the fixing bolt (40); A y coordinate determining step of determining the y coordinate (ordinate) indicated by the projection 33 by moving the vernier 30 on the mover 20; Securing the vernier (30) on the mover (20) by tightening the anchor fixing bolt (40 '); And an x, y coordinate setting step of displaying the x and y coordinate positions by inserting the display means into the display hole 50. [

A projection 31 pointing to the scale of the stator 10 protrudes on the upper left surface of the veneer 30 to set the x coordinate with the scale of the stator 10 pointed by the projection 31, 30 is provided with an opening part 32 whose front part is partially opened so that the scales of the mover 20 can be seen by the opening part 32.

A projection 33 indicating the scale of the mover 20 is projected into the opening 32 of the vernier 30 so that the y coordinate is set by the scale of the mover 20 pointed by the projection 33.

Next, the operation of the horizontal and vertical position coordinate setting method using the vernier caliper according to the present invention constructed as described above will be described in detail.

For convenience of description, the case of setting the horizontal and vertical (x, y) position coordinates (100 mm, 10 mm) will be described as an example.

9, the inner corner of the stator 10 (here, the horizontal and vertical zeros) is set to a reference point of the object to be measured (0, 0, 0, 0, And then the movable member 20 is moved on the stator 10 so that the protrusion 31 accurately points to the x coordinate (abscissa) 100 mm, the fixed bolt 40 is tightened to move the movable member 20 20).

Then, when the vernier 30 is moved on the mover 20 so that the projection 33 accurately indicates the y coordinate (ordinate) 10 mm, the fixing bolt 40 'is tightened to fix the vernier 30 on the mover 20 .

When the position is displayed by inserting the display means into the display hole 50 after this, the coordinate (x, y) of the position becomes the position (100 mm, 10 mm).

While the present invention has been described with reference to the preferred embodiments, it is to be understood that the invention is not limited thereto and that various changes and modifications may be made therein without departing from the scope of the invention.

10: stator 11: lower fixing jaw
20: mover 30: vernier
31, 33: projection 32:
40, 40 ': Fixing bolt 50: Marking hole

Claims (4)

A stator 10 having a lower fixing jaw 11 at one end thereof; a mover 20 to which the stator 10 is inserted and which moves left and right on the stator 10; A protrusion 31 protruding from the left upper surface of the vernier 30 and pointing to a scale of the stator 10; A protrusion 33 for indicating the scale of the mover 20 into the opening 32 of the vernier 30 and a fixing member 33 for fixing the mover 20 to the stator 10, A bolt 40; A fixed bolt 40 'for fixing the vernier 30 to the mover 20 and a display ball 50 for indicating a setting position formed on one side of the vernier 30, (0, 0) of the object to be measured with the inner corner (horizontal, vertical zero)
An x coordinate determining step of determining the x coordinate (abscissa) pointed by the projection (31) by moving the mover (20) on the stator (10);
Fixing the mover (20) on the stator (10) by tightening the fixing bolt (40);
A y coordinate determining step of determining the y coordinate (ordinate) indicated by the projection 33 by moving the vernier 30 on the mover 20;
Fixing the vernier (30) on the mover (20) by tightening the fixing bolt (40 ');
And an x, y coordinate setting step of displaying x and y coordinate positions by inserting a display means into the display hole (50). Thus, the x and y coordinates can be easily set without adjusting the zero point. How to set vertical position coordinates. delete delete delete

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