KR200454120Y1 - inclination level control - Google Patents

Abstract

The present invention relates to an inclined level adjuster that allows the user to accurately measure the target by adjusting the adjuster arbitrarily when the target is located at an inclined position.

Inclination level adjuster applied to the present invention, in the level planner 100 for firing the laser to the target through the lens 110, is installed on the lower end of the level planner 100 and coupled with the tilt level adjuster 200 Bolt 210 is coupled to the nut for mounting, the level plate 200 of the inclination level adjuster 200, bubble level level adjuster 280 to adjust the level of the inclination level adjuster 200 itself, and the middle plate 240 It is mounted between the lower plate 250 and the first fine adjuster 220 for adjusting the middle plate 240 and the upper plate 230 to move upward or downward, and is mounted between the upper plate 230 and the middle plate 240 The second fine adjuster 260 that adjusts the upper plate 230 to move upward or downward, and is mounted between the middle plate 240 and the lower plate 250 to move the middle plate 240 and the upper plate 230 upward or downward. It is mounted between the first bead ball 290 and the upper plate 230 and the middle plate 240 to move in a mold to the upper plate 230 upward Or installed between the second ball ball 300 and the middle plate 240 and the lower plate 250 to move in a downward direction between the middle plate 240 and the lower plate 250 according to the adjustment of the first fine adjuster 220. It is mounted between the first spring 310 and the middle plate 240 and the upper plate 230 to compress or relax the compression between the middle plate 240 and the upper plate 230 in accordance with the adjustment of the second fine adjuster 260 or It is characterized by consisting of a second spring 270 to relax.

Tilt level adjuster, bead ball, spring, fine adjuster, bubble level adjuster, level planner, top plate, middle plate, bottom plate

Description

Inclination level control

The present invention relates to a tilt level adjuster, in particular, where the target is inclined

It is related with the inclination level adjuster that can adjust the adjuster arbitrarily when measuring the target accurately.

In general, a laser range finder is a device that emits a laser on a target to measure a distance, measures the time when the laser is reflected back to the target, and converts the time into a distance so that the measurer can visually judge.

Conventional laser level meter was measured by mounting a level gauge on a tripod, etc. when measuring in the field of construction, civil engineering, interior, ship.

On the other hand, in the related art, when the target is in a horizontal state, it was possible to measure with a level meter, but when the target was in an inclined state, it was difficult to measure with a level meter.

The present invention aims to accurately measure the target by adjusting the top plate or the middle plate with a fine adjuster according to the inclination of the target to solve the above problems.

Inclination level adjuster applied to the present invention, in the level planner 100 for firing the laser to the target through the lens 110, is installed on the lower end of the level planner 100 and coupled with the tilt level adjuster 200 Bolt 210 is coupled to the nut for mounting, the level plate 200 of the inclination level adjuster 200, bubble level level adjuster 280 to adjust the level of the inclination level adjuster 200 itself, and the middle plate 240 It is mounted between the lower plate 250 and the first fine adjuster 220 for adjusting the middle plate 240 and the upper plate 230 to move upward or downward, and is mounted between the upper plate 230 and the middle plate 240 The second fine adjuster 260 that adjusts the upper plate 230 to move upward or downward, and is mounted between the middle plate 240 and the lower plate 250 to move the middle plate 240 and the upper plate 230 upward or downward. It is mounted between the first bead ball 290 and the upper plate 230 and the middle plate 240 to move in a mold to the upper plate 230 upward Or installed between the second ball ball 300 and the middle plate 240 and the lower plate 250 to move in a downward direction between the middle plate 240 and the lower plate 250 according to the adjustment of the first fine adjuster 220. It is mounted between the first spring 310 and the middle plate 240 and the upper plate 230 to compress or relax the compression between the middle plate 240 and the upper plate 230 in accordance with the adjustment of the second fine adjuster 260 or It is characterized by consisting of a second spring 270 to relax.

       When the first fine adjuster 220 is turned clockwise, the middle plate 240 is moved upward by the first bead ball 290 mounted between the middle plate 240 and the lower plate 250, and the upper plate connected to the middle plate 240. 230 also moves upward, and when turned counterclockwise, the middle plate 240 moves downward by the first bead ball 290 mounted between the middle plate 240 and the lower plate 250. The connected upper plate 230 is also characterized in that it moves in the downward direction.

When the second fine adjuster 260 is turned clockwise, the upper plate 230 is moved upward by the second bead ball 300 mounted between the middle plate 240 and the upper plate 230, and when turned counterclockwise, the middle plate The upper plate 230 is moved downward by the second bead ball 300 mounted between the 240 and the upper plate 230.

According to the present invention, it is possible to accurately measure the target by adjusting the top plate or the middle plate with a fine adjuster according to the inclination of the target when the target is located in the inclined place.

1 is a perspective view of the inclination level adjuster applied to the present invention, Figure 2 is a partially cut-out front view of the inclination level adjuster applied to the present invention, Figure 3 is a planar cross-sectional view of the upper plate and the middle plate removed, Figure 4 Partly cut side view of the inclination level adjuster applied to the invention, Figure 5 is a plan view of the top plate removed.

The tilt level adjuster applied to the present invention will be described with reference to FIGS. 1 to 5 as follows.

The level planer (also referred to as "laser level") 100 of FIG. 1 is a function of firing a laser to a target through the lens 110, and the operation stops when the tolerance is exceeded. The level planner 100 is used in combination with the screw 210 mounted on the upper plate 230 of the inclination level adjuster 200.

Note that the level planner 100 shown in FIG. 1 is a known technique.

The bubble level level adjuster 280 is mounted on the top plate 230 of the inclination level adjuster 200.

The first fine adjuster 220 is mounted between the middle plate 240 and the lower plate 250.

The second fine adjuster 260 is mounted between the upper plate 230 and the middle plate 240.

Two bead balls 290 and two springs 310 are mounted horizontally between the middle plate 240 and the lower plate 250 with respect to the first fine adjuster 220, and one spring 310 is mounted as a longitudinal line. do.

Two bead balls 300 and two springs 270 are mounted horizontally between the upper plate 230 and the middle plate 240 on the basis of the second fine adjuster 260, and one spring 270 is mounted in the vertical direction. do.

It will be described with respect to the effect thereof based on the above configuration.

The bubble level level adjuster 280 shown in FIG. 1 is mounted on the upper plate 230 of the tilt level adjuster 200 to adjust the level of the tilt level adjuster 200 itself.

As shown in FIGS. 1, 2, and 3, when the first fine adjuster 220 is turned clockwise, the middle plate 240 is formed by the first bead ball 290 mounted between the middle plate 240 and the lower plate 250. ) Moves upward and the upper plate 230 connected to the middle plate 240 also moves upward.

Meanwhile, when the first fine adjuster 220 is turned counterclockwise, the middle plate 240 moves downward by the first bead ball 290 mounted between the middle plate 240 and the lower plate 250. The upper plate 230 connected to the same will also move downward.

In addition, the middle plate 240 and the upper plate 230 is moved to the left and right relative to the first bead ball 290 shown in FIG. 3 based on the first fine adjuster 220 shown in FIGS. 1 and 2. do.

The first bead ball 290 mounted between the middle plate 240 and the lower plate 250 serves as a support, and the first spring 310 mounted between the middle plate 240 and the lower plate 250 is a first fine adjuster. Compress or relax in accordance with the adjustment of 220. The first spring 310 is in a state in which the middle plate 240 and the lower plate 250 are pinched.

As shown in FIGS. 1, 2 and 4, when the second fine adjuster 260 is turned clockwise, the upper plate 230 is formed by the second bead ball 300 mounted between the middle plate 240 and the upper plate 230. ) Will move upward.

On the other hand, when the second fine adjuster 260 is turned counterclockwise, the upper plate 230 is moved downward by the second bead ball 300 mounted between the middle plate 240 and the upper plate 230.

In addition, the top plate 230 is moved back and forth with respect to the second bead ball 300 shown in FIG. 5 based on the second fine adjuster 260 shown in FIGS. 1 and 2.

The second bead ball 300 mounted between the middle plate 240 and the upper plate 230 serves as a support, and the second spring 270 mounted between the middle plate 240 and the upper plate 230 is a second fine adjuster. Compress or relax in accordance with the adjustment of (260). The second spring 270 is in a state in which the middle plate 240 and the upper plate 230 are pinched.

Thus, the present invention, when the target in the construction, civil engineering, interior, ships, etc. is inclined, it is possible to measure the target of the inclined place by moving the top plate or the middle plate with a fine adjuster.

That is, when the target is inclined, the fine adjuster is adjusted to move the top plate or the middle plate, and then the laser is fired on the target through a level planer mounted on the inclined level adjuster.

1 is a perspective view of an inclination level adjuster applied to the present invention.

2 is a partially cut-out front view of the inclination level adjuster applied to the present invention.

3 is a cross-sectional view of removing the upper plate and the middle plate.

Figure 4 is a partially cutaway side view of the inclination level adjuster applied to the present invention.

Figure 5 is a cross-sectional view of removing the top plate.

<Code Description of Main Parts of Drawing>

100 level planner 110 lens 200 tilt level adjuster

210: bolt 220: first fine adjuster 230: top plate

240: middle plate 250: lower plate 260: second fine adjuster

270: second spring 280: bubble level level controller 290: first ball

300: second bead ball 310: first spring

Claims (3)

In the level planner 100 for firing a laser to the target through the lens 110, A bolt 210 installed at a lower end of the level planner 100 and coupled with a nut for coupling with an inclined level adjuster 200; A horizontal bubble level controller 280 attached to the upper plate 230 of the gradient level adjuster 200 to adjust the horizontality of the gradient level adjuster 200 itself; A first fine adjuster 220 mounted between the middle plate 240 and the lower plate 250 to adjust the middle plate 240 and the upper plate 230 to move upward or downward; A second fine adjuster 260 mounted between the upper plate 230 and the middle plate 240 to adjust the upper plate 230 to move upward or downward; A first bead ball 290 mounted between the middle plate 240 and the lower plate 250 to support the middle plate 240 and the upper plate 230 to move upward or downward; A second bead ball 300 mounted between the upper plate 230 and the middle plate 240 to support the upper plate 230 to move upward or downward; A first spring 310 mounted between the middle plate 240 and the lower plate 250 to compress or relax the middle plate 240 and the lower plate 250 according to the adjustment of the first fine adjuster 220; The second plate 270 is mounted between the middle plate 240 and the upper plate 230 to compress or relax the middle plate 240 and the upper plate 230 according to the adjustment of the second fine adjuster 260. Tilt level adjuster. According to claim 1, when the first fine adjuster 220 is turned clockwise, the middle plate 240 is moved upward by the first bead ball 290 mounted between the middle plate 240 and the lower plate 250 The upper plate 230 connected to the 240 also moves upward, and when turned counterclockwise, the middle plate 240 is moved downward by the first bead ball 290 mounted between the middle plate 240 and the lower plate 250. Tilt level adjuster, characterized in that the upper plate 230 connected to the middle plate 240 also moves downward.  According to claim 1, when the second fine adjuster 260 is turned clockwise, the upper plate 230 is moved upward by the second bead ball 300 mounted between the middle plate 240 and the upper plate 230, When turned counterclockwise inclined level adjuster, characterized in that the upper plate 230 is moved downward by the second ball ball 300 mounted between the middle plate 240 and the upper plate 230.

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