KR200447626Y1 - Using laser beam for height measure apparatus - Google Patents

Abstract

The present invention relates to a height measuring apparatus using a laser beam, and more particularly, to set and confirm a reference on a vertical line of an object or a horizontal line on a wall surface in a construction site, a measuring device equipped with a laser beam and a lens The present invention relates to a height measuring apparatus using a laser beam that can easily set a reference on a vertical line or a horizontal line irrespective of a distance between walls, and make it possible to more accurately identify the wall.

Height measuring device using a laser beam according to the present invention,

A horizontal measuring device capable of confirming the level is composed of a body provided at the upper portion, a support formed at the lower portion of the body to support the body, and a light emitting body provided at the upper portion of the body to emit a laser beam.

Body, horizontal measuring instrument, 1st and 2nd height adjusting device, support body, light diverging body, 1st and 2nd horizontal tube, 1st and 2nd lens, rotating port, focusing controller, control button, laser beam generator

Description

Height measuring device using laser beam {USING LASER BEAM FOR HEIGHT MEASURE APPARATUS}

The present invention relates to a height measuring apparatus using a laser beam, and more particularly, to set and confirm a reference on a vertical line of an object or a horizontal line on a wall surface in a construction site, a measuring device equipped with a laser beam and a lens The present invention relates to a height measuring apparatus using a laser beam that can easily set a reference on a vertical line or a horizontal line irrespective of a distance between walls, and make it possible to more accurately identify the wall.

In the construction of buildings, the construction of these structures to be horizontal and vertical with respect to the direction of gravity is one of the important conditions in the performance and durability of these structures.

Therefore, in the fields of architecture and civil engineering, accurate setting of horizontal and vertical positions (reference lines) in space is one of the important tasks.

As such, the work method adopted as a conventional method for setting horizontal and vertical standards applied to building construction works is to hang additional long lines on the ceiling when measuring vertical or setting vertical points for vertical construction of shores. In order to measure the accuracy of the vertical or to set the vertical point, and the horizontal construction of the floor surface using a horizontal ruler, such as the horizontal measurement or horizontal point was used.

However, this conventional vertical and horizontal setting method is a method of measuring by hanging the rope artificially on the ceiling, which is difficult and dangerous, as well as difficult to expect accurate setting due to the shaking of the wire, and also measured only from the top to the bottom In addition to the inconvenience to be done, there are problems such as lack of speed and accuracy to work from place to place from time to time.

Alternatively, measure the horizontal standard as the central position of the bubble formed in the glass tube in which the liquid is enclosed, and place it in a fixed position using a thread or steel wire in accordance with the horizontal plane, and then place the brick on the horizontal plane and the horizontal line. In order to build a wall, or to build a parallel structure of wood, and to establish a vertical line, a procedure such as hanging a weight on a thread, etc., holding a vertical standard, and setting up a pillar, etc., is needed. There are a horizontal indicator (level meter) for measuring the bubble position in the liquid tube with the naked eye to measure the horizontality, and a vertical indicator for hanging the weight on the thread as described above to form an additional vertical line with the thread by gravity to measure the verticality.

Therefore, in order to perform the horizontal and vertical work required for the construction, repair, and other work of various structures such as welding of large structures in existing construction, civil engineering, shipbuilding, large sculptures, and art works, we use thread, weight, level gauge, surveying instrument, etc. Because of this, it takes considerable time and work according to the installation and location change of the device, and it is possible to see the horizontal level microscopically at every location.However, when the work target is huge, macroscopic observation is difficult, so horizontal work and vertical work There was an issue that followed many difficulties.

Accordingly, in recent years, in order to measure vertical and horizontal lines accurately at construction sites, measuring devices such as automatic levels and theodolites have been used.

However, these equipments are quite expensive, require some expertise, and the installation and dismantling process is complicated and bulky, which makes them difficult to handle.

Height measuring device using a laser beam according to the present invention,

In addition to setting the standards on horizontal and vertical lines at construction sites, and minimizing the time required for the installation and repositioning of devices used to perform horizontal and vertical lines, and the manpower required for complex work preparation, The purpose of the present invention is to provide a height measuring apparatus using a laser beam to determine the horizontal and vertical lines on the basis and to accurately and horizontally check the horizontal and vertical lines.

Another object is to set the standard on the horizontal and vertical line at the construction site, and after the installation of the device used to carry out the work of checking the horizontal and vertical line, the operation of using the device is accurate, without the complexity, Another object is to provide a height measuring device using a laser beam that is easy to dismantle and carry the device.

A horizontal measuring device capable of confirming the level is composed of a body provided at the upper portion, a support formed at the lower portion of the body to support the body, and a light emitting body provided at the upper portion of the body to emit a laser beam.

And, the support, comprising the first height adjusting mechanism for connecting the formulation and the body, the body is raised and lowered, the body, by connecting the body and the light diverging body , The light emitting body is configured to include a second height adjustment mechanism to be lowered.

In addition, between the light diverging body and the second height adjustment opening, the rotation opening is configured to allow the light emitting body to rotate 360 ° in the upper portion of the second height adjustment opening.

In addition, the light diverging body, the first horizontal tube having a horizontal cylindrical shape having a first lens therein, the front end is connected to the inside of the first horizontal tube and flows while being exposed to the outside of the first horizontal tube And a second horizontal tube having a second lens therein, a laser beam generator that is detachably attached to the end of the second horizontal tube, and emits a laser beam, and is connected to the second horizontal tube. Protruding to the outside, the second horizontal tube is configured to further include a focus adjuster to adjust the flow in the first horizontal tube.

Subsequently, the laser beam generator further includes a control button protruding from the inside of the laser beam generator to control generation and disappearance of the laser beam generated by the laser beam generator.

On the other hand, the laser beam is transmitted through the second lens and then transmitted through the first lens to the outside of the light diverging body.

In the construction site, it is easy to install and change the position of the device that sets the standard on the horizontal and vertical lines, and checks the horizontal and vertical lines.

Another effect is the cost savings of minimizing the manpower required for complex work arrangements by using a device that checks horizontal and vertical lines at the construction site.

Another effect is the use effect that can maximize the efficiency of the work to enable accurate surveying while quickly using the device to check the horizontal and vertical lines in the construction site.

In addition, the dismantling of the device for checking the horizontal and vertical lines in the construction site is easy, there is an effect on its use to make it easy to carry and move.

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

1 is an overall perspective view showing a height measuring device using a laser beam according to the present invention, Figure 2 is an exploded perspective view showing the separation of the height measuring device using a laser beam according to the present invention, Figure 3 is a laser according to the present invention 4 is a cross-sectional view showing a cross section of a height measuring apparatus using a laser beam according to the present invention, Figure 5a is a height measuring apparatus using a laser beam according to the present invention 5B is a perspective view illustrating main parts of a height measuring apparatus using a laser beam according to the present invention. FIG. 6 is an exploded view of main parts of a height measuring apparatus using a laser beam according to the present invention. The main part is an exploded view, Figure 7 is an embodiment showing an embodiment of the height measuring apparatus using a laser beam according to the present invention, Figure 8 is the present invention According to an exemplary diagram illustrating another embodiment of the height measuring apparatus using a laser beam. The height measuring device using the laser beam is correlated with the distance between the object or the wall using a measuring instrument equipped with a laser beam and a lens to set and confirm the reference on the vertical line of the object or the horizontal line of the wall at the construction site. It is a device that sets the reference on the vertical line or the horizontal line easily and can be confirmed more accurately without.

Height measuring device using a laser beam according to the present invention,

Set the standard on the horizontal or vertical line according to the work of the construction site, check the horizontal or vertical according to the defined standard and proceed with the work.

As shown in Figures 1 to 4, when looking at the configuration of the height measuring apparatus using a laser beam according to the present invention, the body 100 having a horizontal measuring unit 110 that can check the horizontal and the body ( In order to support 100, the support 200 is connected to the lower portion of the body 100, and is provided on the body 100, the light emitting body 300 for emitting a laser beam.

Subsequently, the support 200 is configured to include a first height adjusting device 150 to connect the formulation 200 and the body 100, so that the body 100 is raised and lowered, The body 100, the body 100 and the light diverging body 300 is connected to each other, the light diverging body 300 is configured to include a second height adjustment mechanism 130 to raise and lower. .

In addition, the support 200 supports the body 100 with the lower portion fixed to the ground.

In addition, the support 200 may be formed in another shape that can firmly support the body 100, not the tricycle shown in the figure.

Subsequently, the first height adjusting tool 150 provided on the support 200 has a first barbell gear 152 formed inside the support 200 and a direction perpendicular to the first barbell gear 152. The first long bolt 154 and the first barbell gear 152 that are formed to be connected to each other and are lifted and lowered and extended from the inside of the support 200 to the outside are rotated. The first control lever 156 formed on the outside of the support 200 to be raised and lowered.

In addition, the upper part of the first bolt 154, the body 100 is fixedly formed, as a result, the user adjusts the first adjustment lever 156 to rotate the first barbell gear 152 In accordance with the rotation of the first barbell gear 152, since the first long bolt 154 is raised and lowered, the body 100 is raised and lowered.

In addition, when the vertical height of the body 100 is determined, the support 200 is erected on the ground through the horizontal measuring unit 110 formed on the body 100, and accordingly, of the body 100 The horizontal state can be confirmed.

Subsequently, when it is confirmed that the support 200 and the body 100 are horizontal from the ground, the light diverging body connected to an upper portion of the second height adjusting device 130 connected to the outside from the inside of the body 100 ( A vertical height of 300 is determined.

In addition, in order to adjust the vertical height of the light diverging body 300, the second height adjusting opening 130 is used, the second height adjusting opening 130 formed from the inside of the body 100 to the outside The second barbell gear 132 formed inside the body 100 and the second barbell gear 132 are vertically connected to the lifting and lowering, extending from the inside of the body 100 to the outside The formed second long bolt 134 and the second barbell gear 132 are rotated to the second adjustment lever 136 formed on the outside of the body 100 to raise and lower the second long bolt 134. It is composed.

Subsequently, the second height adjusting device 130 may be configured to adjust the fine vertical height of the light diverging body 300.

In addition, when adjusting the vertical height of the light diverging body 300, the user adjusts the second adjustment lever 136 to rotate the second barbell gear 132, the second barbell gear 132 In accordance with the rotation of the second chapter bolt 134 is raised and lowered, so that the light diverging body 300 is raised and lowered.

As shown in FIGS. 5A to 6, between the light diverging body 300 and the second height adjusting device 130, the light emitting body 300 is 360 on the upper part of the second height adjusting device 130. Rotating opening 350 to be rotated ° is included.

Subsequently, the rotating hole 350 may include a vertical rotating shaft 352 formed in the vertical direction under the light emitting body 300 and a bearing for allowing the vertical rotating shaft 352 to be accommodated therein and rotated ( 354).

As a result, the vertical pivot shaft 352 formed under the light diverging body 300 is accommodated in the bearing 354 fixed to the upper part of the second long bolt 134 so that the vertical pivot shaft ( Rotation of 352 allows the light diverging body 300 to rotate 360 ° on a horizontal line.

In addition, the light diverging body 300, the first horizontal tube 320 having a horizontal cylindrical shape having a first lens 322 therein, the tip is connected to the inside of the first horizontal tube 320 While flowing while being exposed to the outside of the first horizontal tube 320, the second horizontal tube 330 having the second lens 332 therein is formed to be detached from the end of the second horizontal tube 330. The laser beam generator 310 emitting the laser beam 312 and the second horizontal pipe 330 are formed to protrude out of the first horizontal pipe 320 while being connected to the second horizontal pipe 330. The first horizontal pipe 320 is configured to further include a focus adjuster 340 to be adjusted to flow.

Particularly, the laser beam generator 310 emits light to an object or a wall of a construction site so that the laser beam generator 310 can recognize the light externally at a position where the light is reflected. It is desirable to change the direction and position of 310.

Subsequently, the laser beam generator 310 is formed to protrude from the inside of the laser beam generator 310 to the outside to control the generation and disappearance of the laser beam 312 generated by the laser beam generator 310. It further comprises 360.

On the other hand, the laser beam 312, after passing through the second lens 334 is transmitted through the first lens 322 is emitted to the outside of the light-emitting body 300.

And, the control button 360, the laser beam generator 310 is turned on / off that the laser beam 312 is emitted.

In addition, the laser beam generator 310 is formed detachably at the end of the second horizontal tube 330, if a problem occurs in the laser beam generator 310, the laser beam generator 310 is easily Make it replaceable and repairable.

Subsequently, the laser beam generator 310 may be formed to be detached into the second horizontal tube 330 according to a user's need.

The laser beam generator 310 may be detachably coupled to the second horizontal pipe 330 by a force fitting when detached and coupled to the second horizontal tube 330. .

Particularly, a portion of the second horizontal tube 330 is connected and formed inside the first horizontal tube 320 having the first lens 322 therein, and another portion of the second horizontal tube 330. Is formed outside the first horizontal tube 320, the second horizontal tube 330 flows inside the first horizontal tube 320 through the focus adjuster 340, the laser beam 312 The light is transmitted through the first and second lenses 322 and 332 so that the light does not spread and is irradiated to one point so that the user can easily check it.

And, in order to set the standard on the horizontal line at the construction site and proceed with the work, after determining the vertical height of the body 100 and the light diverging body 300, the light diverging body 300 through the rotation hole (350) By rotating, it is possible to easily set on a horizontal line of an object such as a wall surface.

In addition, the distance between the light emitting body 300 and the object, such as the wall surface to which the laser beam 312 is irradiated at the construction site is different, accordingly, the focus adjuster 340 is the first horizontal tube 320 In order to flow the second horizontal tube 330 to the laser beam 312 to one point.

As shown in Figure 7 and 8, looking at an embodiment of the height measuring apparatus using a laser beam according to the present invention,

(Example 1)

When setting a vertical reference of an object such as a wall surface of a construction site, the support 200 is erected on the floor surface of the construction site, and then the support 200 is placed through a horizontal measuring unit 110 formed on the body 100. Check that it is level from the floor.

Then, by adjusting the first adjustment lever 156 of the first height adjustment opening 150, the body 100 is fixed to the position required by the user, after that the second height adjustment opening 130 By adjusting the second control lever 136, the light diverging body 300 is fixed to the position required by the user.

As a result, the body 100 and the light diverging body 300 is to adjust the vertical height according to the vertical position set as a reference.

Subsequently, when the first vertical position of the light diverging body 300 is determined, the laser beam 312 is diverged using the control button 360 provided in the laser beam generator 310.

In addition, when the laser beam 312 is irradiated to an object such as a wall surface, the second horizontal tube 330 formed while a portion is accommodated inside the first horizontal tube 320 flows through the focus adjuster 340. By adjusting, the laser beam 312 irradiated to an object such as a wall surface through the first and second lenses 322 and 332 may be concentrated at one point without spreading.

Then, the user easily confirms the first vertical position of the laser beam 312 focused on one point of an object such as a wall surface, and then displays it with a pen or the like.

In addition, after checking the first vertical position with the laser beam 312 with the laser beam generator 310 turned on and displaying it with a pen or the like, the control button 360 provided in the laser beam 312 is turned off. Through the laser beam generator 310 is turned off, the laser beam 312 is released.

Subsequently, the first and second height adjustment holes 150 and 130 are adjusted through the first and second adjustment levers 156 and 136 so that the light diverging body 300 is fixed to the second vertical position.

When the light diverging body 300 is placed in the second vertical position, the laser beam 312 is diverged again using the control button 360 provided in the laser beam generator 310.

When the laser beam 312 is irradiated to an object such as a wall surface, the laser beam 312 irradiated to an object such as a wall surface through the first and second lenses 322 and 332 does not spread and concentrates on a point. After the user easily checks the second vertical position of the laser beam 312 focused on one point of the object such as a wall surface, it is displayed with a pen or the like.

In this way, when the laser beam 312 is irradiated to an object such as a wall surface to secure a display point indicated by a pen or the like, it is preferable to turn off that the laser beam 312 is irradiated using the control button 360. .

This operation is repeated according to the needs of the user, and when two or more mark points are secured through the laser beam 312, the mark points are interconnected with a pen or the like to set a vertical reference.

(Example 2)

When setting a horizontal reference of an object such as a wall of a construction site, the support 200 is erected on the floor surface of the construction site, and then the support 200 is placed through a horizontal measuring unit 110 formed on the body 100. Check that it is level from the floor.

Then, by adjusting the first adjustment lever 156 of the first height adjustment opening 150, the body 100 is fixed to the position required by the user, after that the second height adjustment opening 130 By adjusting the second control lever 136, the light diverging body 300 is fixed to the position required by the user.

Subsequently, when the position of the light emitting body 300 is determined, the laser beam 312 is emitted using the control button 360 provided in the laser beam generator 310.

In addition, when the laser beam 312 is irradiated to an object such as a wall surface, the second horizontal tube 330 formed while a portion is accommodated inside the first horizontal tube 320 flows through the focus adjuster 340. By adjusting, the laser beam 312 irradiated to an object such as a wall surface through the first and second lenses 322 and 332 may be concentrated at one point without spreading.

Then, the user easily checks the first horizontal position of the laser beam 312 focused on one point of an object such as a wall surface, and then displays it with a pen or the like.

In addition, after checking the first vertical position with the laser beam 312 with the laser beam generator 310 turned on and displaying it with a pen or the like, the control button 360 provided in the laser beam 312 is turned off. Through the laser beam generator 310 is turned off, the laser beam 312 is released.

Subsequently, the light emitting body 300 is rotated by adjusting the rotating hole 350 provided between the light emitting body 300 and the second height adjusting device 130, so that the light emitting body 300 is rotated. Is fixed in the second horizontal position.

When the light diverging body 300 is placed in the second horizontal position, the laser beam 312 is diverged again by using the control button 360 provided in the laser beam generator 310.

When the laser beam 312 is irradiated to an object such as a wall surface, the laser beam 312 irradiated to an object such as a wall surface through the first and second lenses 322 and 332 does not spread and concentrates on a point. After the user easily checks the second horizontal position of the laser beam 312 irradiated to one point of an object such as a wall surface, it is displayed with a pen or the like.

As such, when the laser beam 312 is irradiated to an object such as a wall surface to secure a display point indicated by a pen or the like, it is preferable to turn off the laser beam 312 to be irradiated using the control button 360. Do.

This operation is repeated according to the user's needs, and when two or more mark points are secured through the laser beam 312, the mark points are interconnected with a pen to set a horizontal reference.

The scope of the present invention is not limited to the above-exemplified embodiments, and many other modifications based on the present invention may be made by those skilled in the art within the above technical scope.

1 is an overall perspective view showing a height measuring device using a laser beam according to the present invention,

Figure 2 is an exploded perspective view showing the separation of the height measuring device using a laser beam according to the present invention,

Figure 3 is an overall perspective view showing the inside of the height measuring device using a laser beam according to the present invention,

4 is a cross-sectional view showing a cross section of the height measuring apparatus using a laser beam according to the present invention,

5A is a perspective view illustrating main parts of a height measuring apparatus using a laser beam according to the present invention;

Figure 5b is a perspective view of the main part showing the state of use of the height measuring device main part using a laser beam according to the present invention,

6 is an exploded view of main parts of the main part of the height measuring apparatus using the laser beam according to the present invention;

7 is an embodiment showing an embodiment of a height measuring apparatus using a laser beam according to the present invention,

8 is an embodiment showing another embodiment of the height measuring apparatus using a laser beam according to the present invention.

<Description of Symbols for Major Parts of Drawings>

100: body 110: horizontal measuring instrument

130: second height adjustment 132: second barbell gear

134 Chapter 2 Bolts 136: 2nd Control Lever

150: first height adjustment 152: first barbell gear

154: Chapter 1 bolt 156: Control lever 1

200: support

300: light emitting body 310: laser beam generator

312 laser beam 320 first horizontal tube

322: first lens 330: second horizontal tube

332: second lens

340: focusing device 350: rotation

352: vertical pivot 354: bearing

360: control button

Claims (6)

A body (100) having a horizontal measuring unit (110) capable of confirming horizontality thereon; A support 200 connected to a lower portion of the body 100 to support the body 100; Is provided on the body 100, the light emitting body 300 for emitting a laser beam; consisting of, The support 200 is configured to include a first height adjusting device 150 to connect the support 200 and the body 100, the body 100 is raised and lowered, The body 100 is configured to include a second height adjusting device 130 to connect the body 100 and the light diverging body 300, so that the light diverging body 300 is raised and lowered. , Between the light diverging body 300 and the second height adjustment port 130, The second height adjusting device 130 is configured to include a rotation hole 350 to enable the light diverging body 300 360 ° rotatable, The light diverging body 300, The first horizontal tube 320 having a horizontal cylindrical shape having a first lens 322 therein and a tip connected to the inside of the first horizontal tube 320 are exposed to the outside of the first horizontal tube 320. While still flowing, the second horizontal tube 330 is provided with a second lens 332 therein, and is formed to be detached to the end of the second horizontal tube 330, the laser beam to emit a laser beam 312 Protruding to the outside of the first horizontal tube 320 while being connected to the generator 310 and the second horizontal tube 330, the second horizontal tube 330 flows in the first horizontal tube 320 Height measuring apparatus using a laser beam that is configured to further include a focus adjuster (340) to adjust. delete delete delete The method of claim 1, The laser beam generator 310, Protruding from the inside of the laser beam generator 310 to the outside, characterized in that it further comprises a control button 360 for controlling the generation and disappearance of the laser beam 312 generated by the laser beam generator 310 Height measuring device using a laser beam. The method of claim 1, The laser beam 312, The height measuring device using a laser beam, characterized in that after passing through the second lens 332 is transmitted through the first lens (322) to the outside of the light diverging body (300).

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