KR101146107B1 - Lever using buoyancy - Google Patents

Abstract

PURPOSE: A level instrument using a buoyancy body is provided to offer the simplicity of distinguishing measured data and the accuracy by installing a stopper able to fix a measuring member. CONSTITUTION: A level instrument using a buoyancy comprises a housing(100), a supporting shaft, a measuring member, an angle distinguishing member, and a buoyancy body. The internal space of the housing is filled with liquid and a first display window(100) and second display window(300) are formed in the side and upper part of the housing. The supporting shaft comprises a first supporting shaft and second supporting shaft. One end part of the first supporting shaft is fixed to a side of the housing. The other end part of the supporting shaft is extended to the inner side of the housing and has a leading end where a ball shaped supporting part. The second supporting shaft is fixed to the supporting part of the first supporting shaft to be closely adhered. The measuring member is shaft-joined in the supporting shaft to be rotated and moved to left and right sides. The angle distinguishing member is formed in one side of the first and second display windows and measuring member, thereby distinguishing horizontal, vertical, and inclined angles. The buoyancy body is joined to a side of the measuring member.

Description

LEVER USING BUOYANCY}

More particularly, the present invention relates to an apparatus for accurately measuring the vertical, horizontal, and tilt angles of a mounting surface during construction work or mechanical equipment operation, and more particularly, And then the measurement means can be fixed so that the scale indicated by the measurement means can be easily identified.

Generally, the level is a kind of measuring instrument for confirming the horizontal or vertical degree when the construction of the building or the installation of the machine is installed, and it is possible to carry the long rod shape.

Such a conventional level level has a long rod shape for easy adherence to a horizontal plane or a vertical plane, and a transparent measurement tube is installed at the center. A liquid and a small amount of air are injected into a transparent measurement tube to generate bubbles, And a plurality of measurement tubes are installed to be able to confirm vertical and 45 ° angles in addition to horizontal at one level.

However, in the above-mentioned conventional leveling stage, marking lines are marked with an appropriate width in the middle part of the measuring tube, and the bubbles generated in the liquid move in accordance with the level of horizontalness between them to visually discriminate the horizontal or vertical degree. The position of the bubbles may be different depending on the position of the bubbles, so that the measurement data is repeatedly checked frequently, and the position where the bubbles flow is limited within a certain range, There are problems that can not be achieved.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems and to provide a method of measuring horizontal, vertical and inclined angles with a single display window, And a stopper capable of fixing the measurement means is provided so that the user can easily identify the measurement data.

According to an aspect of the present invention, there is provided a liquid crystal display comprising: a housing having a first and a second display windows filled with liquid therein and capable of being internally viewed from a side and an upper side; a support shaft fixedly installed in the housing in a width direction; An angle identification means formed on one side of the first and second display windows and the measurement means to identify the horizontal, vertical and tilt angles of the measurement object; And a buoyant body coupled to one side of the measurement means.

The supporting shaft may include a first supporting shaft having one end fixed to one side of the housing and the other end extending toward the inside of the housing and having a spherical support portion at the other end, And a second support shaft fixedly attached to the first support shaft so that the support portion is close to the support portion of the first support shaft, wherein the measurement means has a disk shape, and hemispherical engagement grooves corresponding to the support portions are formed at the center portions of both side surfaces, Wherein the shaft is rotatably and laterally movably coupled when it is supported on the shaft.

The first and second display windows are formed on opposite sides and upper and lower sides of the housing, respectively. The first and second support shafts are fixedly supported on one side of the inner surface of the first display window. Level with sieve.

The angle identification means includes first inclination angle identification means formed on one side of both sides of the measurement means, second inclination angle identification means formed on the outer circumference of the measurement means, and front and rear horizontal identification means, And a second horizontal reference line, a second vertical reference line, and a third inclination angle identification means formed on one side of the first display standard and the first horizontal reference line and the second display window.

Further comprising a stopper installed at one side of one of the first display windows so as to be able to be drawn in and out, and connected to one side of the measuring means when the first display window is drawn into the housing.

The stopper may include a lock type push button, a magnetic body provided at an end portion of the push button that is drawn into the first display window, and a magnetic coupling body formed at a position corresponding to the magnetic body on one side of the center of the side of the measurement means The level using a buoyant body characterized by.

According to the present invention, since the engagement groove formed at the center of both side surfaces of the disk-like measuring means is supported by the hemispherical support portion formed at the end portion of the pair of support shafts, the measurement means can rotate and move left and right, , A vertical and a tilt angle can be measured, and a stopper capable of fixing the measurement means can be provided, thereby providing an easy and accurate identification of the measured data.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a perspective view of a level using a buoyancy body of the present invention.
2 is a top plan view of the buoyant body of the present invention.
Figure 3 is an exploded perspective view of the inner components of the level using the buoyant body of the present invention.
4 is a cross-sectional view of the level using the buoyant body of the present invention.
5 shows an example of measurement using a first display window at a level using the buoyant body of the present invention.
6 shows an example of measurement using a second display window at a level using the buoyant body of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings. It is to be noted that like elements in the drawings are represented by the same reference numerals as possible. Further, detailed description of known functions and configurations that may unnecessarily obscure the gist of the invention will be omitted.

FIG. 1 is a perspective view of a level using a buoyant body of the present invention, FIG. 2 is a top plan view of a buoyant body using the buoyant body of the present invention, and FIG. 3 is an exploded perspective view of a level internal component using the buoyant body of the present invention.

1 to 3, the leveling device 1 using the buoyant body of the present invention includes a housing 100, first and second display windows 200 and 200 formed opposite to both sides and upper and lower surfaces of the housing 100, 300, a first and a second support shafts 500a, 500b fixed to one side of the inner surface of the first display window 200, a measurement means 600, and a stopper (not shown) 400).

The housing 100 is formed in a hexahedron shape so as to be in close contact with a bottom surface, a vertical surface, and an inclined surface when measuring an object to be measured, and a liquid is filled in the housing 100. A pair of first display windows 200 are formed on opposite sides of the width direction, And a pair of second display windows 300 are formed facing each other on the upper and lower surfaces, respectively.

The first display window 200 is formed of a circular plate material made of a transparent synthetic resin material so that the first display window 200 can be seen through the inside of the housing 100. A first horizontal reference line 201 for measuring measurement data is formed on one surface exposed to the outside, And the first vertical reference line 202 are displayed.

The first horizontal reference line 201 is parallel to the longitudinal direction of the housing 100 and passes through the center of the circumference of the first display window 200.

The first vertical reference line 202 is formed parallel to the height direction of the housing 100 and passes through the center of the circumference of the first display window 200.

The second display window 300 has a rectangular shape and is formed of a plate material made of a transparent synthetic resin material so as to be able to see through the interior of the second display window 200 like the first display window 200. A second vertical reference line 302, A horizontal reference line 301 is formed.

On the second vertical reference line 302, a third inclination angle discriminating means 303 for measuring the inclination angle in the width direction of the housing 100 is formed with an angle scale.

The second vertical reference line 302 is located on an extension of the first vertical reference line 202 and is formed at a position bisecting the second display window 300 in the longitudinal direction of the housing 100.

The second horizontal reference line 301 is formed in a position parallel to the longitudinal direction of the housing 100 and bisecting the second display window 300 in the width direction of the housing 100.

As described above, the first display windows 200 are formed on the mutually facing side surfaces of the housing 100, and the pair of the second display windows 300 are formed on the upper and lower surfaces of the housing 100, Data can be measured.

A circular strip-shaped space 203 is formed on the outer side of any one of the first display windows 200 so as to be pulled in and out of the housing 100 around the center of the first display window 200.

The first support shaft 500a has a cylindrical shape and is fixedly supported at the center of the inner surface of the first display window 200 having a circular band-shaped space portion 203 formed therein. The other end of the first support shaft 500a is extended and extended into the housing 100 And a spherical support portion 502 is formed at the other end of the extension portion 501.

The second support shaft 500b has one end fixed to the center of the inner surface of the first display window 200 on the opposite side where the first support shaft 500a is fixed and supported in a shape symmetrical to the first support shaft 500a, Like support 502 formed in the first support shaft 500a is formed close to the support 502 of the first support shaft 500a.

The measuring means 600 is formed in a circular plate shape made of a synthetic resin material and has a pair of hemispherical engagement grooves 601 corresponding to a pair of circular support portions 502 formed at the other ends of a pair of support shafts And a pair of coupling grooves 601 are supported by the pair of supports 502. [

The first inclination angle identification means 602 is formed on both sides of the measurement means 600 and the second inclination angle identification means 603 and the longitudinal direction identification means 604 are formed on the outer circumference.

A buoyant body 700 is fixedly coupled to one side of the measurement means and a magnetic coupling body 403 is provided around the coupling groove 601 at a position facing the space 203 formed in the first display window 200 And is fixedly coupled.

Here, the first inclination angle identifying means 602 has a point at which the buoyant body 700, which always positions the measuring means 600 upward in the housing 100 filled with the liquid, is fixedly connected and the opposite side is set at 180 Deg., Respectively.

The second tilt angle identifying means 603 extends the first tilt angle identifying means 602 to the outer circumferential surface of the measuring means 600 to form an angle scale similar to the first tilt angle identifying means 602.

The front and rear horizontal identification means 604 is formed by dividing the outer peripheral surface of the measurement means 600 in the width direction and is formed around the outer peripheral surface.

The buoyant body 700 is fixedly installed in a triangular shape so that its upper vertex is located on a straight line with the 0 ° scale of the first inclination angle identifying means 602 of the measuring means, The reference position of the measurement means 600 is held by always locating the measurement means 600 upward.

The magnetic coupling body 403 is formed in a circular strip shape and is made of a metal plate that reacts with the magnetic force of the magnetic body 402.

The stopper 400 includes a lock-type push button 401 of a cylindrical shape corresponding to the shape of the space portion 203 so as to be drawn into and drawn out from the space portion 203 formed in the first display window 200, A magnetic substance 402 fixed to the end of the button 401 and a magnetic coupling body 403 provided in the measurement means 600. [

Lastly, it is preferable that the liquid filled in the housing 100 uses transparent oil having low viscosity so as to control the left and right flow of the measuring means 600 installed therein and the shaking at the time of rotation and to stably rotate and flow .

Hereinafter, the operation and usage of the level unit 1 using the buoyant body according to the present invention will be described with reference to the drawings.

4 is a cross-sectional view of the level using the buoyant body of the present invention.

As shown in Fig. 4, due to the structure in which a pair of hemispherical coupling grooves formed at the centers of both side surfaces of the measurement means are supported by a pair of circular support portions of the first and second support shafts, But also the left-right flow in the width direction becomes possible.

When the measurement of the horizontal, vertical and inclination angles of the measurement object is completed at the level (1) using the buoyant body of the present invention, a lock type push button 401 installed to be able to be drawn in and drawn out from the first display window 200 is pressed The LOCK function of the push button is operated and the magnetic substance 402 fixedly connected to the end of the push button is advanced in the direction of the magnetic coupling body 403 fixedly coupled to the measurement means 600 and the magnetic force of the magnetic body 402 By fixing the coupling body 403, the measurement means 600 is fixed.

Therefore, even when the measurement object is located at a position distant from the user's measurement position to be visually recognized, the measurement unit 600 is fixed to the magnetic body 402 and the magnetic coupling body 403, thereby bringing the level to the front of the user, .

When the lock type push button 403 is pressed again during the remeasurement, the lock function of the push button is released and the magnetic body 402 fixedly connected to the end of the push button is magnetically coupled to the measurement means 600 The magnetic force acting on the magnetic coupling body 403 is released and the measurement means 600 returns to a state in which the measurement means 600 can rotate and flow.

The magnetic substance 402 is fixed at the position where the magnetic substance 402 is moved backward in the direction opposite to the magnetic coupling body 403 by fixing the magnetic coupling substance 403 by the magnetic force of the magnetic substance 402 It is preferable to use a magnet having a proper intensity so that the magnetic force of the magnetic body 402 does not act on the magnetic coupling body 403 to release the fixed state of the magnetic coupling body 403. [

Here, the lock-type push button 401 is a known technique in which the lock-type push button 401 is released by a repeated pressing operation, and a detailed description thereof will be omitted.

FIG. 5 shows a measurement example using a first display window at a level using the buoyancy body of the present invention, and FIG. 6 shows an example of measurement using a second display window at a level using the buoyancy body of the present invention.

5, when the horizontal plane of the installation surface is set through the first display window 200 of the level 1 using the buoyant body of the present invention, the first inclination angle identification means 602 of the measurement means 600 The horizontal of the installation surface can be set by placing the 0 ° scale so as to be in line with the first vertical reference line 202 formed in the first display window 200. [

When the inclination angle of the mounting surface is measured, the inclination angle of the mounting surface is measured using the first vertical reference line 202 formed on the first display window 200 and the angle of the first inclination angle identifying means 602 formed on the measuring means can do.

When the vertical of the mounting surface is set, when the 0 ° scale of the first inclination angle identifying means 602 formed on the measuring means is positioned so as to be in line with the first horizontal reference line 201 formed on the first display window 200, Can be set.

6 (a) is an example for measuring the inclination angle of the housing 100 in the width direction through the second display window 300, the front and rear horizontal identification means 603 formed on the outer peripheral surface of the measurement means 600, The inclination angle of the housing 100 in the width direction can be measured by reading the angle scale of the third inclination angle discriminating means 303 formed on the second vertical reference line 302 of the second display window 300 indicated by the second display window 300. [

the front and rear horizontal identification means 603 formed on the measurement means 600 is arranged in the width direction of the housing 100 through the second display window 300. The front and rear horizontal identification means 603 are formed on the second display window 300, 2 horizontal reference line 301, it is possible to set the horizontal direction of the housing 100 in the width direction.

a second vertical reference line 302 formed on the second display window 300 and a second vertical reference line 302 formed on the outer circumferential surface of the measurement unit 600, The inclination angle of the housing 100 in the longitudinal direction can be measured by using the angle scale of the second inclination angle discrimination means 603 formed on the housing 100.

(d) is a diagram showing the horizontal direction of the housing 100 in the longitudinal direction of the housing 100 through the second display window 300. The 0 degree scale of the second inclination angle identifying means 603 formed on the outer peripheral surface of the measuring means 600 The second vertical reference line 302 formed on the second display window 300 can be positioned so as to be aligned with the second vertical reference line 302 so that the horizontal direction of the housing 100 can be set.

As described above, it is possible to measure the tilt angle in the longitudinal direction, the tilt angle measurement in the width direction, and the horizontal tilt angle measurement and the horizontal setting with only one second display window 300, And it is also possible to measure not only the inclination angle in the longitudinal direction but also the inclination angle in the width direction.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. It is natural for those who have the knowledge of.

1: Level 100 using buoyant body: Housing
200: first display window 201: first horizontal reference line
202: first vertical reference line 203:
300: second display window 301: second horizontal reference line
302: second vertical reference line 303: third inclination angle identification means
400: Stopper 401: Lock-type push button
402: magnetic substance 403: magnetic coupling substance
500a: first support shaft 500b: second support shaft
501: extension part 502: support part
600: Measuring means 601: Coupling groove
602: first inclination angle identification means 603: second inclination angle identification means
604: Front / rear horizontal identification means 700: Buoyant body

Claims (6)

A housing having a first and a second display window filled with a liquid therein and capable of inserting a side face and an upper face thereof;
A support shaft fixed in the width direction inside the housing;
Measuring means being axially coupled to the support shaft so as to be rotatable and laterally flowable;
Angle identification means formed on one side of the first and second display windows and the measurement means to identify horizontal, vertical and tilt angles of the measurement target;
And a buoyant body coupled to one side of the measurement means,
The support shaft includes a first support shaft having one end fixed to one side of the housing and the other end extending toward the inside of the housing and having a spherical support portion at the other end, And a second support shaft fixedly installed so that the support portion is close to the support portion of the first support shaft,
Wherein the measuring means is formed in a disc shape and has hemispherical coupling grooves corresponding to the supporting portions formed at the center portions of both side surfaces thereof and is coupled to the supporting shaft so as to be rotatable and laterally flowable when supported on the supporting shaft.
delete The method according to claim 1,
Wherein the first and second display windows are formed on opposite sides and upper and lower surfaces of the housing, respectively, and the first and second support shafts are fixedly supported on one side of the inner surface of the first display window. Used level.
The method according to claim 1,
The angle identification means
First inclination angle identification means formed on one side of both sides of the measurement means;
Second inclination angle identification means and front and rear horizontal identification means formed on the outer peripheral surface of the measurement means;
A first horizontal reference line and a first vertical reference line formed at one side of the first display window;
And a second horizontal reference line, a second vertical reference line, and a third inclination angle identifying means formed on one side of the second display window.
The method according to claim 1,
Further comprising a stopper which is installed on one side of the first display window so as to be able to be drawn in and pulled out, and which is coupled to one side of the measuring means when it is pulled into the housing.
6. The method of claim 5,
The stopper
A lock-type push button;
A magnetic body provided at an end of the push button that is inserted into the first display window;
And a magnetic coupling body formed at a side of the center of the side of the measurement unit at a position corresponding to the magnetic body.

Images