KR20130023585A - Vernier calipers - Google Patents

Abstract

PURPOSE: A vernier calipers is provided to improve precision and to provide convenience by measuring an inner diameter of a bottom unit of a diameter larger than that of an opened end portion. CONSTITUTION: A vernier calipers(10) comprises an outer diameter measuring unit(300), an inner diameter measuring unit(400), a depth measuring unit(500), and a multi-stage inner diameter measuring unit(600). A first body(100) and a second body(200) mutually slide in the outer diameter measuring unit. The outer diameter measuring unit includes a first outer diameter measuring body(100) and a second outer diameter body(310) and measures an outer diameter of a measurement object. The inner diameter measuring unit includes a first inner diameter measuring body(410) and a second inner diameter measuring body(420) and measures an inner diameter of the measurement object. The depth measuring unit includes a depth measuring bar(510) and measures the depth of the measurement object. The multi-stage inner diameter measuring units are arranged respectively in the first and second outer diameter measuring bodies and measuring a diameter of the measurement object by being in contact to a lateral side of a bottom groove with a diameter larger than that of an opened end portion.

Description

Vernier calipers

The present invention relates to a vernier caliper, and more particularly, it is possible to measure the diameter of the bottom groove having a diameter larger than the diameter of the open end of the object to be measured to improve accuracy and provide convenience and improve work efficiency. It is about a vernier caliper which can be improved.

In general, Vernier calipers are used to measure the outer diameter, outer dimension, inner diameter and depth of the object to be measured, which cannot be measured by ordinary rulers.

Such conventional vernier calipers are described in Utility Model Publication No. 1981-0001406, and the conventional vernier calipers are shown in FIGS.

1 is a view showing a conventional vernier caliper, Figure 2 is a view showing the inner diameter measurement state of the conventional vernier caliper.

As shown in the figure, the vernier caliper 1 is composed of a main chuck (2) and a sub chuck (3), a jaw (4), a beak (5), and a depth bar (Depth). Bar: 6) can be attached to measure the length of the object to be measured and the outer diameter of the bulb or cylinder, and to measure the inner diameter and depth of the hole.

However, the conventional vernier calipers 1 cannot measure the diameter of the bottom groove having a diameter larger than the diameter of the open end or the length of the bottom groove having a length larger than the length of the open one of the grooves or holes of the measurement object. There is a problem.

Accordingly, the present invention has been devised to solve the above problems, the outer diameter measuring portion is formed on one side of the first body and the second body sliding to each other, one end of the first body and the second body to the other side An inner diameter measuring part is formed, and a depth measuring part is formed at the other ends of the first body and the second body, and a multi-stage inner diameter measuring part is provided in the outer diameter measuring part, so that the diameter of the open one end that can be measured by the inner diameter measuring part of the groove of the object to be measured. It is an object of the present invention to provide a vernier caliper that can measure diameter by touching the side of a bottom groove having a larger diameter, thereby improving accuracy and convenience and improving work efficiency.

The present invention for achieving the above object, the first body and the second body is mutually sliding, the second outer diameter protruding toward one side of the first outer diameter measurer and one side of the second body protruding to one side of the first body. It has a measuring device, and has an outer diameter measuring unit for measuring the outer diameter of the measurement object, the first inner diameter measuring member protruding to one end of the first body and the second inner diameter measuring member protruding to the other end of the second body, An inner diameter measuring unit for measuring an inner diameter of the object, a depth measuring bar formed at the other end of the second body to protrude outward from the other end of the first body, a depth measuring unit for measuring the depth of the measurement object, and Each of the first outer diameter measuring instrument and the second outer diameter measuring instrument is rotatable and has a diameter larger than the diameter of the open one end of the groove to be measured by the inner diameter measuring unit. Positioned against a side of the bottom groove the multi-stage diameter measuring unit for measuring the diameter; comprises a.

Preferably, the multi-stage inner diameter measuring unit is composed of a first multi-stage inner diameter measuring instrument and a second multi-stage inner diameter measuring instrument, each protruding end of the first outer diameter measuring instrument and the second outer diameter measuring member formed on the first body and the second body. It is provided, and the diameter of the bottom groove of the measurement object is measured as it is rotated in opposite directions to each other.

The first multi-stage inner diameter measuring instrument and the second multi-stage inner diameter measuring instrument are formed on one side or the other side of each outer diameter measuring unit protruding from the first body and the second body, or are formed on one side and the other side, respectively.

In addition, the rotation angle of the multi-stage inner diameter measuring unit is 0 to 120 ° based on the projecting direction of the outer diameter measuring unit.

The width from the middle portion of the outer diameter measuring part corresponding to the rotation radius of the multi-stage inner diameter measuring part to the protruding end is formed to be equal in width narrower than the width of the connecting end of the outer diameter measuring part connected to the first body and the second body.

In addition, a seating groove is formed on a surface of the outer diameter measuring unit, and the seating groove is provided with the multi-stage inner diameter measuring unit.

And the side of the seating groove is formed in the operation groove gradually recessed in the unfolding direction of the multi-stage inner diameter measuring unit can easily unfold the multi-stage inner diameter measuring unit seated in the seating groove.

In addition, the multi-stage inner diameter measuring unit, the operation groove is formed on the front of the end of the unfolding can easily unfold the multi-stage inner diameter measuring unit seated in the seating groove.

The multi-stage inner diameter measuring unit includes a plurality of measuring members having different lengths on one rotation shaft.

In addition, the operation groove is formed on the front of the end of the unfolding of each measuring member can easily unfold the selected measurer among the multi-stage inner diameter measuring unit seated in the seating groove.

The end portion of the multi-stage inner diameter measuring part that contacts the side of the bottom groove is inclined downward toward one side or the other side.

As described above, the vernier caliper according to the present invention can measure not only the outer diameter, the outer dimension, the depth and the inner diameter of the measurement object, but also the inner diameter of the bottom portion having a diameter larger than the diameter of the open one end, thereby improving accuracy. It is a very useful and effective invention that provides the convenience and convenience to improve work efficiency.

1 is a view showing a conventional vernier caliper,
2 is a view showing an inner diameter measurement state of a conventional vernier caliper,
3 is a view showing a vernier caliper according to the present invention,
Figure 4 is a view showing a front view of the vernier caliper according to the present invention,
5 is a view showing an operating state of the multi-stage inner diameter measuring unit according to the present invention,
6 is a view showing a state of use of the multi-stage inner diameter measuring unit according to the present invention,
7 is a view showing the operation groove of another embodiment of the multi-stage inner diameter measuring unit according to the present invention,
8 is a view showing another embodiment of a multi-stage inner diameter measuring unit according to the present invention.

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

It should be noted that the present invention is not limited to the scope of the present invention but is only illustrative and various modifications are possible within the scope of the present invention.

Figure 3 is a view showing a vernier caliper according to the present invention, Figure 4 is a view showing a front view of the vernier caliper according to the present invention, Figure 5 is an operating state of the multi-stage inner diameter measuring unit according to the present invention 6 is a view showing a state of use of the multi-stage inner diameter measuring unit according to the present invention, Figure 7 is a view showing the operating groove of another embodiment of the multi-stage inner diameter measuring unit according to the present invention, Figure 8 Figure is a view showing another embodiment of a multi-stage inner diameter measuring unit according to the invention.

As shown in FIGS. 3 to 4, the vernier caliper 10 includes a first body 100 and a second body 200, an outer diameter measuring unit 300, an inner diameter measuring unit 400, and a depth measuring unit. 500 and the multi-stage inner diameter measuring unit 600.

The first body 100 and the second body 200 are mutually slide according to the user's needs, the outer diameter measuring unit 300 and the inner diameter measuring unit 400, the depth measuring unit 500 and the multi-stage inner diameter measuring unit 600 The measurement object is measured by one of the selected dimensions.

Here, the outer diameter measuring unit 300 is composed of a first outer diameter measurer 310 and the second outer diameter measurer 320, the first outer diameter measurer 310 is formed to protrude toward one side of the first body 100. The second outer diameter measurer 320 protrudes to one side of one end of the second body 200.

After sliding the first body 100 and the second body 200 such that the distance between the first outer diameter measuring device 310 and the second outer diameter measuring device 320 is larger than the measurement object, the outer diameter of the measurement object is narrowed. And external dimensions are measured.

The inner diameter measuring unit 400 includes a first inner diameter measuring member 410 and a second inner diameter measuring member 420, and the first inner diameter measuring member 410 is formed to protrude toward the other end of the first body 100. The second inner diameter measuring member 420 is formed to protrude to the other end of the second body 200.

The first inner diameter measuring instrument 410 and the second inner diameter measuring instrument 420 slide the first body 100 and the second body 200 to be adjacent to each other so as to flow into the inner diameter of the measurement object, and then space the intervals to measure the object. The inner diameter of is measured.

The depth measuring unit 500 has a depth measuring bar 510 formed at the other end of the second body 200 to protrude to the outside of the other end of the first body 100, and measures the depth of the measurement object.

In addition, the multi-stage inner diameter measuring unit 600 is rotatably provided at each of the first outer diameter measuring unit 310 and the second outer diameter measuring unit 320 so as to be measured by the inner diameter measuring unit 400 of the groove of the measurement object. The diameter is measured by contacting the groove side of the bottom having a diameter larger than the diameter of the portion.

As shown in FIGS. 3 to 5, the multi-stage inner diameter measuring unit 600 includes a first multistage inner diameter measuring instrument 610 and a second multistage inner diameter measuring instrument 620.

In addition, the first multi-stage inner diameter measuring instrument 610 and the second multi-stage inner diameter measuring instrument 620 may include a first outer diameter measuring instrument 310 and a second outer diameter measuring instrument 320 protruding from the first body 100 and the second body 200. Are provided at the protruding ends of each.

As such, the first multi-stage inner diameter measuring device 610 and the second multi-stage inner diameter measuring device 620 are formed on one or the other surface of each outer diameter measuring unit protruding from the first body 100 and the second body 200. Or on one side and the other side, respectively.

As an example, the first multi-stage inner diameter measuring device 610 and the second multi-stage inner diameter measuring device 620 are one surface of each outer diameter measuring unit protruding from the first body 100 and the second body 200, that is, the first outer diameter measuring device. It is formed on one surface of the 310 and the second outer diameter measurer 320, respectively.

The first multi-stage boreometer 610 and the second multi-stage bore 620 measure the diameter of the bottom groove of the object to be measured as it is rotated and unfolded in opposite directions.

Here, the rotation angle of the multi-stage inner diameter measuring unit 600 is rotated within an angle range of 0 to 120 ° based on the protrusion direction of the outer diameter measuring unit 300, and the rotation angle is converted to an absolute value so that the rotation direction is left or right. Right or unrelated

In other words, the first multi-stage inner diameter measuring instrument 610 provided in the first outer diameter measuring instrument 310 is rotated to the outside of the first outer diameter measuring instrument 310 and the second multistage inner diameter measuring instrument provided in the second outer diameter measuring instrument 320. 620 is unfolded in both directions as it is rotated to the outside of the second outer diameter measurer (320).

At this time, the width from the middle portion of the outer diameter measuring part 300 corresponding to the rotation radius of the multi-stage inner diameter measuring part 600 to the protruding end is measured outside diameter connected to the first body 100 and the second body 200. It is formed in an equal width narrower than the width of the connecting end of the portion (300).

When the inner diameter of the bottom groove is measured by using the first multi-stage inner diameter measuring instrument 610 and the second multi-stage inner diameter measuring instrument 620, the first outer diameter measuring instrument 310 is formed in the upper groove which is deep and opened. This is to prevent the second external diameter measurer 320 from being caught and no longer inserted.

And the mounting grooves 312, 322 are formed on the surface of the outer diameter measuring unit 300, the multi-stage inner diameter measuring unit 600 is provided in the mounting grooves (312, 322).

In other words, seating grooves 312 and 322 are formed in the first and second outer diameter gauges 310 and 320, respectively. It is preferable that the two-stage inner diameter measuring device 620 is provided to prevent the thickness of the outer diameter measuring part 300 provided with the multi-stage inner diameter measuring part 600 from becoming thicker than necessary.

In addition, the operation grooves 314 and 324 gradually recessed in the unfolding direction of the multi-stage inner diameter measuring unit 600 are formed on the side of the mounting grooves 312 and 322 to measure the multi-stage inner diameter seated in the mounting grooves 312 and 322. The part 600 can be unfolded easily.

Looking at the bottom groove inner diameter measurement of the multi-stage inner diameter measuring unit 600, as shown in Figure 6, the first multi-stage inner diameter measuring device 610 and the second multi-stage inner diameter measuring device 620, the first outer diameter measuring device ( The end portions of the first multi-stage inner diameter measuring instrument 610 and the second multi-stage inner diameter measuring instrument 620 which are opened by inserting the 310 and the second outer diameter measuring member 320 into the grooves of the measuring object are positioned in the bottom groove of the measuring object.

Then, the first body 100 and the second body 200 are slid so that the end portions of the first multistage inner diameter gauge 610 and the second multistage inner diameter gauge 620 touch the side surfaces of the bottom groove of the measurement object.

Thereby, the inner diameter with respect to the bottom groove of the measurement object which is a multistage groove with mutual internal diameters can be measured.

On the other hand, as shown in Figure 7, the multi-stage inner diameter measuring unit 600 is formed with the operation grooves (314 ', 324') on the front of the end of the multi-stage inner diameter measuring unit seated in the mounting grooves (312, 322) ( 600 can be unfolded easily.

In other words, the first multi-stage boreometer 610 and the second multi-stage bore 620 and the second multi-stage bore 620, the operation grooves (314 ', 324') are formed, respectively. ) Can be rotated.

As shown in FIG. 8, the multi-stage inner diameter measuring unit 600 includes a plurality of measuring members having different lengths on one rotation shaft, where the first multistage inner diameter measuring instrument 610 and the second multistage inner diameter measuring instrument ( 620, and the first multi-stage inner diameter measuring instrument 610 and the second multi-stage inner diameter measuring instrument 620 are provided with a plurality of different lengths.

Thereby, after visually guessing the inner diameter of the bottom groove of the measurement object, it is possible to expand and use a measuring instrument having a required length.

In addition, the inner diameter of the open upper groove of the measurement object may be inserted and positioned in the bottom groove using a measuring device having a length appropriate for the situation in case it is not inserted.

Here, the operation grooves 314 'and 324' are formed in front of the unfolded end of each measuring member, so that the selected measuring member among the multi-stage inner diameter measuring unit 600 seated in the seating grooves 312 and 322 can be easily unfolded. .

And the end of the multi-stage inner diameter measuring unit 600 in contact with the side of the bottom groove is formed to be inclined downward toward one side or the other side.

In one embodiment, the end faces of the first multi-stage boreometer 610 and the second multi-stage bore 620 are inclined downward in both directions from adjacent sides to easily measure side surfaces of the bottom groove of the tapered measurement object. Can be.

10: vernier caliper 100: the first body
200: second body 300: outer diameter measuring unit
400: inner diameter measuring unit 500: depth measuring unit
600: multi-stage inner diameter measuring unit 610: first multi-stage inner diameter measuring instrument
620: second multi-stage inner diameter measurer

Claims (11)

The first body and the second body slide to each other,
An outer diameter measuring unit for measuring an outer diameter of a measurement object having a first outer diameter measuring member protruding to one side of the first body and a second outer diameter measuring member protruding to one side of the second body;
An inner diameter measuring unit for measuring an inner diameter of a measurement target object having a first inner diameter measuring member protruding to the other end of the first body and a second inner diameter measuring member protruding to the other end of the second body;
A depth measuring unit having a depth measuring bar formed at the other end of the second body so as to protrude to the outside of the other end of the first body, and for measuring the depth of the measurement object; And
Measuring the diameter by contacting the side of the bottom groove having a diameter larger than the diameter of the open one end of each of the grooves of the object to be measured by the inner diameter measuring unit of the first outer diameter measuring instrument and the second outer diameter measuring instrument, respectively. Vernier caliper comprising a multi-stage inner diameter measuring unit for.
The method of claim 1, wherein the multi-stage inner diameter measuring unit,
It consists of a first multi-stage internal diameter measuring instrument and a second multi-stage internal diameter measuring instrument,
It is provided at the protruding ends of the first outer diameter measuring instrument and the second outer diameter measuring member respectively protruding from the first body and the second body, and to measure the diameter of the bottom groove of the measurement object as it is rotated in opposite directions Vernier calipers characterized.
The method of claim 2, wherein the first multi-stage internal diameter measuring instrument and the second multi-stage internal diameter measuring instrument,
Vernier calipers, characterized in that formed on any one surface or the other surface of each outer diameter measuring portion protruding from the first body and the second body, respectively formed on one surface and the other surface.
The rotation angle of claim 1, wherein
Vernier caliper, characterized in that 0 ~ 120 ° based on the projecting direction of the outer diameter measuring unit.
The method of claim 1,
The width from the middle portion of the outer diameter measuring portion to the protruding end corresponding to the rotation radius of the multi-stage inner diameter measuring portion is formed to have an equal width narrower than the width of the connecting end portion of the outer diameter measuring portion connected to the first body and the second body. Vernier calipers made with.
The method of claim 1,
A vernier caliper, wherein a seating groove is formed on a surface of the outer diameter measuring unit, and the multi-stage inner diameter measuring unit is provided in the seating groove.
The method according to claim 6,
Vernier caliper, characterized in that the side of the seating groove is formed in the operation groove gradually recessed in the unfolding direction of the multi-stage inner diameter measuring unit can easily spread the multi-stage inner diameter measuring section seated on the seating groove.
The method of claim 6, wherein the multi-stage inner diameter measuring unit,
Vernier caliper, characterized in that the operation groove is formed on the front of the end to be unfolded to easily unfold the multi-stage inner diameter measuring unit seated in the seating groove.
The method of claim 1, wherein the multi-stage inner diameter measuring unit,
Vernier calipers, characterized in that a plurality of measuring instruments of different lengths are provided on one rotating shaft.
10. The method of claim 9,
Vernier caliper, characterized in that the operating groove is formed on the front of the end of each measuring member is easy to unfold the selected measurer among the multi-stage inner diameter measuring unit seated in the seating groove.
The method of claim 1,
Vernier calipers, characterized in that the end portion of the multi-stage inner diameter measuring section that is in contact with the side of the bottom groove is formed to be inclined downward toward one side or the other side.

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