KR200252965Y1 - A hand-operated precision level - Google Patents

Abstract

The present invention relates to a level gauge for measuring the level of the object by using a bubble tube having a bubble, in particular a manual precision that can accurately measure the degree of inclination of the object by allowing the bubble tube to rotate separately from the body case It's about the level.

Description

A hand-operated precision level

The present invention relates to a level gauge for measuring the level of the object by using a bubble tube having a bubble, in particular a manual precision that can accurately measure the degree of inclination of the object by allowing the bubble tube to rotate separately from the body case It's about the level.

In general, the level is to install a bubble tube formed in the body case to adjust the position of the object (object to be measured horizontally) until the bubble of the bubble tube is located in the center to level the object. .

However, such a conventional manual level is not possible to measure the degree of inclination of the object because the bubble tube is fixed to the body case. That is, it is possible to measure only whether it is horizontal or not, so that the tilt angle cannot be read. Therefore, in order to adjust the level of the object to move the object several times to check the horizontally, there is a problem that the horizontal installation is cumbersome and time-consuming.

In particular, the device equipped with the height adjustment means in all directions, even if only the inclination angle can be adjusted to adjust the height adjustment means of its own, even if the level can be easily adjusted, because the inclination value is not known accurately, There is a problem that must be performed without multiple positioning operations.

To compensate for this problem, as shown in FIG. 1, after leveling by placing a number of shims (Shim, 51) on the inclined side of the level 50 until the bubble of the bubble tube of the level is located in the center, There is a method of calculating an inclined angle by using the number of the clumped shims 51.

However, this method also has a problem that the thickness of the shim can not be less than a certain amount, and the work is very inconvenient and cumbersome. In addition, the measurement value is also inaccurate, which is not valid for accurate horizontal measurement.

The present invention is devised to solve the problems with the conventional design as described above, in particular in the level of the bubble tube is installed in the body case, the bubble tube is configured to be rotatable separately from the body case of the bubble tube It is an object of the present invention to provide a manual precision level that can accurately measure the degree of tilt of an object by measuring the rotated value.

This object is configured so that the bubble tube is rotatable separately from the body case, can be achieved by the configuration of the present invention having a bubble tube rotating means for precisely rotating the bubble tube, see the accompanying drawings This will be described in detail below.

1 is a conceptual diagram of a conventional spirit level

2 is a schematic configuration diagram of the present invention

Figure 3 is a schematic front view showing the configuration of the present invention

4 is a schematic side view of the present invention

Figure 5 is a detailed longitudinal cross-sectional view showing the front of the subject innovation

Figure 6 is a detailed longitudinal cross-sectional view showing the side of the present invention

7 is a detailed view of portion A of FIG.

<Description of the reference numerals for the main parts of the drawings>

1: worm wheel 2: worm

3: micrometer worm 4: micrometer

5: bubble tube rotation support shaft 10: body case

11: rotation axis 12: worm wheel

20: bubble tube 41: micrometer rotation axis

The present invention is in the level of the bubble tube is installed in the body case, the bubble tube is configured to be rotatable separately from the body case, it characterized in that the bubble tube rotating means for precisely rotating the bubble tube.

This will be described with reference to FIGS. 2 to 6. As shown in the figure, the subject innovation is the bubble tube 20 is installed on the upper portion of the body case 10, is rotatably installed.

The method of rotatably installing the bubble tube 20 preferably has a structure in which a central portion of the bubble tube 20 is rotatably supported at the other end of the bubble tube rotation support shaft 5 having one end fixed to the body case. Do.

In this case, the bubble tube is rotatable with the bubble tube rotation support shaft 5 as the rotation center.

Preferably, the bubble tube rotating means is provided to precisely rotate the bubble tube. The bubble tube rotating means includes a semi-circular worm wheel 1 having both upper ends fixed to the lower part of the bubble tube 20; It is installed in the lower portion of the worm wheel (1) consists of a worm (2) for rotating the worm wheel (1).

The rotation of the worm 2 is accurately transmitted to the rotation of the worm wheel 1.

The worm wheel (1) is formed in a semi-circular shape, according to the rotation of the worm wheel, the bubble tube 20 fixedly installed with the worm wheel is also rotated in the same way, the center of rotation of the bubble tube and worm wheel Becomes the bubble tube rotation support shaft (5).

It is preferable to install the micrometer 4 on one side of the body case so as to precisely rotate the worm 2 and to read the rotated value accurately.

5 and 6 are main and overall longitudinal cross-sectional view showing the configuration of the present invention in more detail.

As shown in the figure, both ends of the worm 2 are extended to be formed as a rotating shaft 11 so as to be rotatable on the body case 10, and a worm wheel 12 is formed at one side of the rotating shaft 11. The spindle of the micrometer 4 extends inwardly of the body case and is formed of a micrometer rotation shaft 41 whose end is rotatably supported on the inner wall of the body case. The micrometer worm 3 for rotating the worm wheel 12 of the rotating shaft 11 was formed so that the bubble tube was precisely rotated by the rotation of the micrometer.

In order to support the micrometer rotation shaft 41 more firmly, a support frame 15 as shown in FIG. 6 may be installed so that the micrometer rotation shaft 41 is rotatably supported therein, and the rotation shaft 11 or the micrometer A bearing may be used for the rotating shaft 41 to further smooth its rotation.

FIG. 7 is a detailed view of portion A of FIG. 4, showing the scale of the micrometer in detail.

As shown in the figure, the micrometer of the present invention is marked on both sides with reference to the reference point 0 to read the horizontal values on the left and the right. That is, when the scale of the bubble tube of the present invention is 0 and the reference point of the micrometer is 0, the horizontal degree is 0, and when the scale of the micrometer is moved to the left or right, it indicates that the horizontal tube is inclined from the horizontal to the left or the right. Reading the scale shows the degree of inclination of the object.

The operation principle of the present invention having the above configuration will be described in detail below.

First, the passive precision spirit level according to the present invention is placed on the object to be measured. Then check the bubble (8) of the bubble tube 20 and if it is not located at the zero point to rotate the bubble tube 20 by turning the handle of the micrometer. In this case, when the handle of the micrometer rotates, the micrometer rotation shaft 41 also rotates accordingly, and the micrometer worm 3 formed on the micrometer rotation shaft rotates according to the rotation of the micrometer rotation shaft 41, and the micro Rotation of the meter worm 3 rotates the worm wheel 12 of the rotating shaft engaged with the worm wheel 3, and as the worm wheel 12 is rotated, the rotating shaft 11 rotates together, and thus the worm 2 is also rotated. The worm wheel 1, which rotates together with the worm, rotates together.

When the worm wheel 1 rotates, the bubble tube 20 integrally fixed with the worm wheel also rotates around the bubble tube rotation support shaft 5, and the zero point of the bubble tube 8 is centered. Rotate until it stops at, then stop.

In this state, reading the micrometer's scale allows accurate measurement of the degree of inclination.

In addition, the present invention is to adjust the position of the object to be measured without adjusting the micrometer, after adjusting the bubble of the bubble tube to 0, the micrometer is set to 0, the present invention is placed on the object to be measured. By adjusting the bubble scale of the bubble tube to 0, the level of the object can be directly adjusted. In this case, the leveler can be used in the same principle as the conventional level.

As described above, the present invention can be used in a manner of adjusting the level of the object by adjusting the position of the leveled object itself as in the prior art, and of course, the object is fixed and the bubble is adjusted by adjusting the micrometer of the present invention. By rotating the tube, the degree of inclination of the object to be measured can be measured very precisely, thereby improving the reliability of the measured value.

The present invention also provides the effect of being very simple to use because the tilted measurement can be read by simply turning the knob of the micrometer.

Claims (5)

In the level of the bubble tube 20 is installed in the body case 10; The bubble tube is configured to be rotatable separately from the body case, manual precision leveler, characterized in that the bubble tube rotating means is provided to precisely rotate the bubble tube. The method of claim 1; The bubble tube rotating means is a worm wheel (1) of the semi-circular shape is fixed to the lower end of the bubble tube and the worm wheel (1) is installed below the worm wheel (1) to rotate the worm wheel (1) (2) is a manual precision spirit level, characterized in that the bubble tube rotation support shaft (5) is supported on the body case on both sides of the center of the bubble tube is configured to rotate the bubble tube. The method of claim 2; One side of the body case is a manual precision leveler, characterized in that the micrometer (4) is added to be installed to accurately rotate the worm (2) and to accurately read the rotated value. The method of claim 3; Both ends of the worm 2 are extended to form a rotating shaft 11 so as to be rotatable on the body case 10, the worm wheel 12 is formed on one side of the rotating shaft 11, the micrometer ( The spindle of 4) is formed as a micrometer rotating shaft 41 extending inwardly of the body case so that its end is rotatably supported on the inner wall of the body case, and on one side of the micrometer rotating shaft 41 of the rotating shaft 11. Manual precision leveler, characterized in that the micrometer worm (3) for rotating the worm wheel (12) is formed. The method of claim 4; The micrometer is a manual precision level, characterized in that the scale is displayed on both sides of the reference point 0 to read the horizontal value of the left and right.