KR101477770B1 - Stand assembly for measurement apparatus - Google Patents

Abstract

The present invention relates to a height adjustment base for measurement equipment and, more particularly, to a height adjustment base provided with height adjustment means that is configured to include a height adjustment lever that allows height adjustment of a moving unit where a main body of the measurement equipment is mounted and a fine adjustment rod for fine height adjustment for the moving unit. According to the present invention, a user can perform measurement equipment height adjustment as desired with regard to the base for supporting the measurement equipment such as a measurer and a line laser used in, for example, construction sites. The height adjustment means allows the use of measurement equipment at a low place, that is, a height close to a bottom surface of an installation place. When the measurement equipment such as the line laser for horizontal and vertical measuring based on laser irradiation is used, the laser can be performed, even at a low height close to the bottom surface of the installation place, after precise adjustment and positioning of the height of the line laser, and thus the present invention can be utilized in basic construction of building construction, which results in a high level of efficiency.

Description

STAND ASSEMBLY FOR MEASUREMENT APPARATUS FOR MEASURING EQUIPMENT

The present invention relates to a height adjustment support for a measuring instrument,

More particularly, the present invention relates to a support for supporting a measuring instrument such as an instrument or a line laser used in a field such as a building construction or the like, in which a main body of the measuring instrument is mounted so that the height of the measuring instrument can be adjusted to a user- And a height adjusting unit including a height adjusting lever for adjusting the height of the unit and a fine adjusting rod for adjusting the fine height of the moving unit.

The present invention relates to a height adjusting support which enables the use of a measuring instrument at a low position, that is, at a height substantially close to a bottom surface of an installation place through the height adjusting means. In particular, It is possible to precisely adjust the height of the line laser even at a low height almost close to the bottom surface of the installation site, and then irradiate the laser to be used in construction work for the construction of the building, etc. Its utility is very high.

It is one of the important conditions for the performance and durability of these structures to construct the structure so that the structure is horizontal and vertical with respect to the direction of gravity when the interior construction such as the construction of the building or the installation of the interior tile is performed. Therefore, in the fields of architecture and civil engineering, it is very important to accurately set horizontal and vertical reference lines in space.

As a conventional technique for setting horizontal and vertical reference lines in such a site, when measuring the vertical for the vertical construction of the support or setting the vertical reference line, it is possible to measure the vertical accuracy by fixing the additional long line to the ceiling or the elevation Or a horizontal reference line is set by using a horizontal ruler or the like for horizontally constructing the floor surface (hereinafter referred to as "prior art 1").

The above-mentioned prior art 1 is difficult to expect an accurate measurement because a worker climbs a line attached to a high-altitude such as a ceiling and measures it by artificially hanging the work. The work is difficult and dangerous, In addition, since it is possible to measure only in the downward direction from the high altitude, it is very inconvenient in the field where the reference point of the high altitude can not be provided, and the accuracy is low because the worker measures with the naked eye based on the shaking line. There is a problem that the convenience such as an increase in the working time is deteriorated.

Another conventional technique is to measure the horizontal reference after adjusting the bubble formed in the glass tube filled with the liquid to a central position and fix the line (thread) or the steel wire to a fixed position by matching the horizontal reference plane There is a method of stacking bricks, building wooden pieces parallel to each other, or attaching tiles.

In order to set a vertical reference line when using the above-described related art 2, it is inevitable to use the additional connected line of the above-mentioned prior art 1 to construct a column or use it as a vertical reference line.

The conventional art 2 also has a problem in that a string or a steel wire is sagged in the direction of gravity due to the tension, and the accuracy is inferior because the operator can not confirm the standard only by the naked eye of the operator.

As another conventional technique for solving the problems of the conventional surveying methods such as the conventional art 1 and the conventional art 2, there is Korean Patent Laid-Open No. 10-2010-0045847 (May 04, 2010) .),

In the prior art 3, a horizontal laser irradiation part is provided on the side of the top part, and a plurality of vertical laser irradiation parts and a handle are provided on the outer peripheral part of the body part in a state where a stepped surface provided with power supply buttons and other adjustment buttons is formed between the top part and the cylindrical- A ring-shaped pivoting member coupled to a lower end of the main body to enable a pivoting movement of the main body by a pivoting lever that allows pivoting of the main body, and a pivoting member having a tri- And a pedestal having a selection pivot plate and a fixed plate, and a sliding unit sequentially arranged to be slidable in the front, rear, left, and right directions of the main body.

When a laser horizontal and vertical irradiation device is used when building construction, it is easy to adjust the setting of horizontal and vertical lines on a long distance, and when horizontal and vertical lines are set in a high field such as an outer wall of a building or the like, It is possible to set the horizontal and vertical lines at a high position. Therefore, it is possible to perform the work without any place in the horizontal and vertical line setting work, thereby improving the efficiency of the work To a laser horizontal and vertical irradiation apparatus which can be expected.

When vertical and horizontal measurement at a predetermined height is required when using the conventional technique 3, a vertical or horizontal measurement operation is performed by fastening a tripod, such as a camera support,

If this method is used, it is not easy to adjust the height of the tripod leg itself, and to adjust the vertical and horizontal directions. In particular, if it is necessary to measure the vertical and horizontal reference lines between the top surface of the tripod and the bottom surface, There is a problem that accurate vertical and horizontal construction can not be achieved despite using a laser because it can not be precisely controlled.

In addition, in the conventional method of adjusting the height of the tripod, the operator manually adjusts each leg provided on the support, or the height is adjusted by loosening the fixing member fixing the mounting portion on which the laser beam is mounted, It is not only difficult to adjust but also very inconvenient, so that the working time is doubled.

Further, when using a conventional tripod, it is possible to adjust the height at a predetermined height or higher, and laser irradiation can not be performed at low and low places close to the bottom surface of the installation site).

In addition, when the tripod is combined with the tripod in the prior art 3, a tripod can not be installed in a narrow place where the activity width of a worker such as a narrow corridor or a restroom of a building is limited. Therefore, There is a problem that the method is inevitably used.

Furthermore, it is necessary to install a laser measuring device on a vertical wall surface made of brick or wood or a vertical wall surface on which glass, mirror, and tile are attached according to various site conditions, that is, a construction site. There is a limit that can not be installed.

Accordingly, the present invention has been made to solve the above-mentioned problems,

A micro-adjusting rod for adjusting the micro-height of the main body, a supporting means having a moving unit on which the main body is mounted so as to set horizontal and vertical reference lines at various heights by adjusting the height of the main body having the laser irradiation portion, And a height adjusting means for adjusting the height of the moving block (main body) along the fine adjusting bar when clamping the moving block by clamping and releasing the clamping.

In particular, the present invention relates to a measuring instrument for measuring a height of a main body through a conventional tripod, such as a low and a low position in a low position close to a bottom surface of a mounting place, And to provide a height adjusting support.

In addition, the present invention can provide a combination of the supporting means and the main body in the position of the connection portion between the bottom surface of the installation place and the vertical wall surface, that is, the horizontal corner space of the installation place, And a support leg for supporting a rear portion of a vertical frame of the plurality of support legs provided on the support means so as to be detachable.

In order to further increase the versatility and efficiency of the apparatus, it is possible to install a combined body of the support means and the main body on both the vertical wall surface of the installation site as well as the horizontal corner space of the installation site, And a mounting bracket that is installed so as to be interposed on the vertical wall surface.

The present invention can be applied not only to vertical wall surfaces of installation sites such as walls of general buildings but also to vertical wall surfaces such as glass, mirrors or tiles that can not be installed through installation brackets, And a suction adapter for sucking and fixing the vertical frame of the support means.

In order to achieve the above object, a height adjustment support for a measuring instrument according to the present invention comprises:

A main body including a laser irradiation part for irradiating the laser to the outside in the form of a horizontal line or a vertical line or both; And

A moving unit provided in the vertical frame to mount the main body, and a supporting means having height adjusting means for adjusting a height of the moving unit,

The height adjusting means

A fine adjustment rod which is provided on a vertical frame of the supporting means and through which the moving unit is threaded to adjust a height of the moving unit according to rotation,

And a height adjusting lever which clamps the moving unit to the thread of the fine adjustment rod and adjusts the height of the moving unit along the fine adjustment rod when the clamping is released.

Further, in the height adjusting support for the measuring instrument according to the present invention, the supporting means includes a plurality of supporting legs having horizontal adjusting means,

And the support leg is detachably attached to the vertical frame.

In addition, in the height adjustment support for the measuring instrument according to the present invention, the support means includes an installation bracket that is installed on the vertical wall surface of the installation place while the vertical frame is interposed.

Further, in the height adjusting support for the measuring instrument according to the present invention, the mounting bracket is configured to be attached to and detached from the vertical wall surface of the installation place so as to fix the vertical frame.

The height adjustment support for the measuring instrument according to the present invention is characterized in that the movable unit on which the main body having the laser irradiation part is mounted can be adjusted in height and fine height along the longitudinal direction of the vertical frame of the support means, It is very useful when used in a field where a reference line is required.

Particularly, since the height-adjustable support for the measuring instrument according to the present invention is extended to a low height at a low height close to the floor surface of the installation place, As with the construction of the lower part of the vertical wall, it is possible to irradiate the laser at a low height, which is very useful.

In addition, since the height adjusting support for the measuring instrument according to the present invention is provided with the height adjusting means on the support which is easy to carry, the installation work is very easy and easy, so that the construction work time can be shortened.

Further, the height adjusting support for the measuring instrument according to the present invention is formed such that the supporting legs supporting the rear part of the vertical frame among the supporting legs of the supporting means are detachably attached to the floor, , It is possible to irradiate the horizontal edge portion of the installation site with a laser beam while adjusting the height after installing a combination of the support means and the main body, thereby eliminating the space limitation according to the installation location, and thus being excellent in versatility and utility.

In addition, the height adjusting support for the measuring instrument according to the present invention may include a mounting bracket that can be installed through a mounting member such as a screw or a nail, so that the mounting bracket can be installed at any position, It is possible to adjust the height of the main body in a state in which the supporting base of the present invention is installed on the vertical wall surface, so that the reference line can not be set due to the limit of the vertical and horizontal reference line setting places during the construction work, It is a useful invention which can reduce the work convenience and the working time of the construction work by solving the inconvenience that the construction work was inevitable.

Further, the height adjustable support for the measuring instrument according to the present invention may include a vertical wall surface such as a brick or a wood, or a vertical wall surface such as a glass, a mirror, or a tile, The assembly of the support means and the main body can be installed and fixed, so that it is possible to perform the construction work after setting the vertical and horizontal reference lines without regard to the condition of the construction site.

1 is a view for explaining an application example of a measuring instrument according to the present invention;
FIG. 2 is a photograph for explaining a main body (second main body) of a height adjustment support according to the present invention; FIG.
3 is a perspective view of a height adjustment support according to the present invention, in which a first body is applied.
4 is an exploded perspective view of a height adjustment support according to the present invention in which a first body is applied.
5 is a perspective view of a height adjustment support according to the present invention in which a second body is applied.
6 is an exploded perspective view of a height adjustment support according to the present invention in which a second body is applied.
7 is a cross-sectional view illustrating height adjusting means in a height adjusting support according to the present invention;
8 to 10 are views for explaining installation examples of a height adjustment support according to the present invention.

While the present invention has been described in connection with certain embodiments, it is obvious that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. It is to be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

In the drawings, the same reference numerals are used for the same reference numerals, and in particular, the numerals of the tens and the digits of the digits, the digits of the tens, the digits of the digits and the alphabets are the same, Members referred to by reference numerals can be identified as members corresponding to these standards.

In the drawings, the components are expressed by exaggeratingly larger (or thicker) or smaller (or thinner) in size or thickness in consideration of the convenience of understanding, etc. However, It should not be.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise.

 In the present application, the term " comprising " or " consisting of ", or the like, refers to the presence of a feature, a number, a step, an operation, an element, a component, But do not preclude the presence or addition of one or more other features, integers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

It is to be understood that the first to second aspects described in the present specification are merely referred to in order to distinguish between different components and are not limited to the order in which they are manufactured, It may not match.

In describing a height adjustment support for a measuring instrument according to the present invention, an unambiguous approximate direction reference can be specified with reference to FIG. 1 for the sake of convenience. When the direction of gravity acts as a downward direction, I decide.

The height adjustment support according to the present invention can be utilized for various measurement equipment. For the sake of convenience, the line laser will be described in the following description, but the present invention is not limited thereto.

In FIG. 1, the direction in which the mounting plate 222 protrudes is defined as forward and backward, and directions are specified according to this standard unless otherwise specified in the description and claims of the invention relating to other drawings.

Hereinafter, a height adjusting support for a measuring instrument according to the present invention will be described with reference to the accompanying drawings.

1 to 10, the height adjusting support according to the present invention is roughly divided into a main body constituting a measuring instrument and a supporting means for supporting the main body.

In particular, when the main body is constituted by measuring equipment such as a line laser which irradiates a laser in the form of a vertical line or a horizontal line, the height adjustment support according to the present invention is very useful.

Accordingly, the present invention includes a main body 100 including a laser irradiation unit 110 that irradiates a laser to the outside in the form of a horizontal line, a vertical line, or both; And support means 200 on which the main body 100 is mounted and supported.

As shown in FIGS. 3 to 6, the main body 100 includes a first main body 101 for irradiating a laser beam in the horizontal and vertical lines only in the forward direction, 2 body 102,

The first main body 101 and the second main body 102 may be used by replacing the first main body 101 and the second main body 102 with each other.

2, the structure and function of the main body 100 will be described on behalf of the second main body 102. This is because the second main body 102 has the same structure as that of the first main body 102 101, and the detailed configuration described below can be applied to all or part of the first main body 101 and can be applied.

1 and 2, the laser irradiation unit 110 provided in the second main body 102 (collectively referred to as the main body 100 for the convenience of the following description) And a vertical window 112 to which a laser beam in the form of a vertical line is irradiated. The laser is irradiated in the form of a horizontal line, a vertical line, or both, in accordance with the operation of the operation panel 120.

It is preferable that the laser irradiated by the laser irradiation unit 110 is made of red so as to facilitate visual recognition and is switched to green when it is used at night, but the color of the laser is not limited to the above colors.

A first function for irradiating only the laser beam in a vertical line shape in the vertical window 112 as a function of the operation panel 120,

A second function for irradiating only the horizon type laser in the horizontal window 111,

And a third function for irradiating both the vertical and horizontal laser beams in all of the vertical and horizontal windows 111 and 112.

In addition, the present invention provides a self-leveling system (not shown) for automatically adjusting a cutting angle when a laser irradiated by the first to third functions can not be a reference line (i.e., accurate vertical or horizontal state) Function,

A power saving function that automatically cuts off laser irradiation when the reference line can not be adjusted beyond the irradiation adjustment range by the self-leveling function, and a function of automatically irradiating the laser beam when the adjustment range is reached through adjustment of the user .

Also, even if the laser beam is not irradiated to the reference line according to the convenience of the user, the operation panel 120 is turned off during the adjustment so that the horizontal state of the main body 100 can be adjusted while the laser beam is irradiated .

A plurality of radially formed support legs 130 are provided under the main body 100 so that only the main body 100 can be used in a state where the main body 100 is placed on the bottom surface of the installation site,

To this end, each of the support legs 130 is provided with a height adjusting screw 131 for adjusting the height and adjusting the horizontal state of the main body 100.

Further, the main body 100 is provided with the fine adjustment screw 140, so that the laser irradiation angle can be finely adjusted.

A horizontal indicator for checking the horizontal state of the main body 100 may be provided on the upper surface of the main body 100,

As an example of the horizontal indicator, there is a horizontal indicator in which a horizontal supporting line is provided in a transparent glass tube filled with a liquid and a bubble formed in the glass tube is aligned with the horizontal leader to check and adjust a horizontal state,

It is possible to further include all horizontal indicators such as an electronic horizontal indicator, which can confirm the horizontal state, as well as the horizontal indicator of the above method.

In addition, the main body 100 may include a configuration for use in a known line laser such as an auxiliary lamp, a power indicator, or the like that allows the use of the horizontal indicator at night. In the drawings, 101 and the second main body 102. However, the right interpretation of the present invention should not be limited by the shape, structure, function, and the like of the main body 100.

3 to 6, the main body 100 can be installed separately from the main body 100, and the main body 100 can be used by replacing the main body 100 with the supporting means 200, It is possible to perform another operation (for example, building a brick, attaching a tile, or the like) after setting a reference line by irradiating a laser not only at the bottom surface but also at a predetermined height or more.

The support means 200 includes a vertical frame 210 having a predetermined height and a support leg 240 coupled to a lower portion of the vertical frame 210 to support the vertical frame 210.

The support legs 240 are provided with horizontal adjustment means for adjusting the height of each of the support legs 240 or the entire height of the support means 200,

The horizontal adjustment means includes a horizontal support member 241 in the form of a bolt through which a screw is coupled to a control hole provided at a lower end of the support leg 240.

The user can adjust the height of the entire supporting means 200 or adjust the height of each of the supporting legs 240 to adjust the horizontal state of the supporting means 200 by tightening or loosening the horizontal supporting member 241 .

The moving unit 220 coupled with the vertical frame 210 moves up and down with a body 221 and a mounting plate protruding forward from the lower end of the body 221 and coupled to the body 100 222).

The movement of the mobile unit 220 will be described in detail in the description of the height adjusting means 230.

4 and 6, the mounting plate 222 is formed with a guide slit 222A having a predetermined length along the protruding direction,

A mounting member 222B which is screwed to the engaging holes 101A and 102A provided on the bottom surface of the main body 100 and fixes the main body 100 to the mounting plate 222, And is coupled through the guide slit 222A.

The present invention is capable of adjusting the horizontal position by releasing the mounting member 222B to release the fixed state of the main body 100 and then forward and backward the main body 100 along the guide slit 222A.

As described above, according to the present invention, the first body 101 and the second body 102 can be exchanged with each other and mounted on the support means 200,

As shown in the drawing, the sizes of the first body 101 and the second body 102 are different from each other, and accordingly, the sizes of the coupling holes 101A and 102A may be varied.

The present invention introduces a replacement block 225 that can assist in mounting according to the type of the main body 100 mounted on the mounting plate 222.

4 and 6, when the coupling hole 101A of the first main body 101 is smaller than the coupling hole 102A of the second main body 102 The present invention is characterized in that the replacement block 225 having the mounting member 225B corresponding to the coupling hole 101A of the first main body 101 is mounted on the mounting plate 222 And can be coupled through the mounting member 222B so that various kinds of the main body 100 can be replaced and used.

As described above, according to the present invention, various kinds of main bodies 100 can be used in combination according to functions and sizes, and various kinds of main bodies 100 can be combined with the mounting member 222B of a certain size However,

The replacement block 225 according to the standard can be coupled to the mounting plate 222 so that the specification of the coupling hole 101A or 102A can not be changed according to the size, Respectively.

In addition, the present invention can be implemented not only as a bolt-type joint member and a coupling hole for coupling the mounting plate 222 and the main body 100,

Although not shown in the drawing, magnetic bodies (not shown) having magnetic properties different from each other may be provided at the contact portion between the mounting plate and the main body.

In the case where the main body is mounted on the mounting plate using a magnetic body, the present invention can be applied to the replacement block or the mounting of the first main body and the second main body by using only the magnetic body in the state where the replacement block is omitted Lt; / RTI >

The mounting of the main body using the magnetic body can be directly applied to the auxiliary mounting bracket described later.

The height adjustment means 230 is installed in the vertical frame 210 so that the height of the mobile unit 200 on which the main body 100 is mounted is freely adjusted and adjusted along the longitudinal direction of the vertical frame 210 By doing so,

The user can vary the height of the laser beam to perform different tasks.

In particular, the height adjustment support for a measuring instrument according to the present invention is very free from spatial limitations because the height varying distance of the height adjusting means described later is extended to a low height at a low height close to the floor surface of the installation place, It is possible to irradiate laser at low height, as when constructing the lower part of the vertical wall at the time of construction, which is very useful.

3 to 6, the supporting means 200 includes a moving unit 220 mounted on the vertical frame 210 to mount the main body 100, a height of the moving unit 220 And a height adjustment unit 230 for adjusting the height of the display unit.

The height adjusting means 230 is provided on the vertical frame 210 of the supporting means 200 and is screwed with the moving unit 220 so that the height of the moving unit 220 is adjusted An adjusting rod 231,

A height adjusting lever 233 that clamps the moving unit 220 to the thread 231A of the fine adjustment rod 231 and adjusts the height of the moving unit 220 along the fine adjustment rod 231 when the clamping is released, .

The vertical frame 210 is coupled with a fixing block 212 having a fixing hole in front of upper and lower ends thereof. The fine adjustment rod 231 is coupled to the lower fixing hole through the upper fixing hole.

The fine adjustment rod 231 is coupled to the fixed block 212 so that the outer circumference thread 231A of the fine adjustment rod 231 is coupled to the fixed hole to idle. So that the fine adjustment rod 231 does not move away from the fixed block 212 due to rotation.

3 to 6, a guide groove 211 for guiding upward and downward movement of the mobile unit 220 is provided on the front surface of the vertical frame 210,

A moving block 223A having a through hole 223A (see FIG. 7) through which the fine adjustment rod 231 is inserted is slidably coupled to the guide groove 211 on the rear surface of the body 221 of the mobile unit 220, ).

Therefore, the moving unit 220 is moved up and down in a state constrained by the guide groove 211 and the fine adjustment rod 231.

7, the fine adjustment rod 231 is provided on the inner peripheral surface of the through hole 235A on the rear surface of the body 221 of the movable unit 220 And a threaded portion 236 corresponding to the thread 233A of the threaded portion 231. The clamping block 235 is slidably movable in the horizontal direction,

The clamping block 235 clamps and fixes the mobile unit 220 to the fine adjustment rod 231 while horizontally moving according to the operation of the height adjustment lever 233, So that it can be ascended and descended.

The rear surface of the body 221 of the moving unit 220 is supported on the same horizontal line with the clamping block 235 so that the clamping or unclamping operation of the clamping block 235 is performed by the height adjusting lever 233. [ A block 224 is provided,

The height adjustment lever 233 is coupled to the through hole 235A of the clamping block 235 through a through hole 224A provided in the support block 224,

A pressing portion 234 of the height adjusting lever 233 is fixed to the outer circumferential surface of the height adjusting lever 233 between the supporting block 224 and the height adjusting lever 233, And an elastic body 239 which is elastically supported in the outward direction is provided,

7A, a screw groove portion 236 formed on one inner circumferential surface of the through hole 235A of the clamping block 235 is inserted into the support block 235 in the non-operating state of the height adjusting lever 233, And the body 221 of the moving unit 220 is fixed to the fine adjustment rod 231 while being supported by the thread 231A of the fine adjustment rod 231, State is maintained.

7 (B), when the operating state of the height adjusting lever 233, that is, the state in which the user presses the pressing portion 234, the thread groove portion 236 of the clamping block 235 The user is able to adjust the height of the mobile unit 220 freely along the fine adjustment rod 231 by grasping the mobile unit 220. In this case, have.

The fine adjustment rod 231 is rotated by the user using the handle of the fine adjustment rod 231 in a state where the height adjustment lever 233 is not in operation, that is, the clamping block 235 is clamped to the fine adjustment rod 231 If so,

The clamping block 235 rides on the thread 231A of the fine adjustment rod 231 by the threaded groove 236 of the clamping block 235 constrained to the thread 231A of the fine adjustment rod 231 for idling The height of the mobile unit 220 coupled with the clamping block 235 can be finely adjusted through the rotation of the fine adjustment rod 231. [

A moving block 223 having a through hole 223A through which the fine adjustment rod 231 is passed is provided on the rear surface of the body 221 of the moving unit 220 so that the moving unit 220 can be raised and lowered, The fine holes 233A are formed to be larger than the diameters of the fine adjustment rods 231 and are aligned along the fine rods 231 without being constrained by the threads 231A of the fine rods 231. [ It is possible to descend.

Next, an example of the installation of the height adjusting support according to the present invention will be described.

The user first mounts the measuring unit such as the first body 101 or the second body 102 to the mobile unit 220 according to the purpose after the support means 200 is installed in the place where the support stand of the present invention is installed, The horizontal indicator is used to adjust the leveling means of the support leg 240 to match the leveling of the support means 200.

When the horizontal state is established, the user presses the height adjusting lever 233 to release the clamping state of the mobile unit 220, and then moves the mobile unit 220 to move the body 100 close to a desired height The height adjustment lever 233 is released and the main body 100 is fixed.

Next, the user operates the main body 100 in accordance with a desired function so that the laser is irradiated. Then, by precisely adjusting the height of the main body 100 by tightening or loosening the handle of the fine adjustment rod 231, Can be irradiated with a laser.

It is needless to say that the fine adjustment screw 140 provided in the main body may be used at the same time.

Therefore, according to the present invention, the height of the main body 100 can be freely adjusted and fixed to the supporting means 200 having a predetermined height, and the fine height can be adjusted through the fine adjustment rod 231, It is possible to irradiate precise vertical and horizontal reference lines to the position with laser, so that other works such as building bricks or attaching tiles can be performed quickly and accurately.

Next, the present invention introduces various design structures to maximize versatility and utility by installing the support of the present invention at various installation sites.

As shown in [A] of Figs. 8 and 9, the supporting stand of the present invention is installed not only in the general floor 1 of the installation place S but also in the floor 1 (Or, in some cases, in a narrow space where the working space is restricted, such as a narrow corridor or a toilet, or a vertical wall surface 2) so as to be able to utilize a supporting stand on which the main body is mounted,

The support leg 240 is detachably attached to the vertical frame 210.

That is, when it is necessary to install the support stand of the present invention in the horizontal edge 3 space of the installation place S as shown in [A] of Figs. 8 and 9,

After the supporting leg 240 supporting the rear of the supporting means is separated from the supporting means 200 and the rear face of the vertical frame 210 or a mounting bracket 213 described later is brought into close contact with the vertical wall face 2, (200) is lowered to allow the support of the present invention to be used.

The separation of the support leg 240 means that the upper end of the support leg 240 is completely separated from the vertical frame 210 through a bolt or the like, It means that the support leg 240 is folded toward the front side of the support means 200 after the fixing member is disassembled and that the upper end of the support leg 240 fixed to the vertical frame 210 is separated.

The mounting bracket 213 having the mounting portion 213A including a mounting hole (not shown) is coupled to the upper end of the supporting means 200 of the present invention, more specifically, The mounting bracket 213 is fixed to the vertical wall surface 2 such as a brick or a wood by using a mounting member such as a bolt or a nail after separating all the supporting legs 240 or the supporting legs 240, Thereby further increasing the space utilization of the height adjustable support according to the present invention.

That is, in the case where it is necessary to install the height adjusting support on the vertical wall surface 2 at a position higher than the limit height of the supporting means 200, particularly, in the case where the support means 200 is not provided on a separate pedestal, The main body 100 can be installed together with the supporting means 200 by using the supporting portion 213,

The height of the main body 100 can be freely varied by utilizing the height adjusting means 230 of the supporting means 200 fixed in a state of being closely attached to the vertical wall surface 2, .

The mounting bracket 213 may include a detachable portion detachably mounted on a rear surface of the vertical frame 210, a first engaging portion bent rearward at an upper end of the detachable portion, and a second engaging portion bent rearward from a lower end of the detachable portion And a fixing part which is bent downward at a rear end of the second engaging part and has a plurality of fixing holes (not shown).

The mounting portion 213A refers to a space formed between the detachable portion and the first and second engaging portions, and an unillustrated mounting hole is formed in the detachable portion and can be installed through a separate member ,

Or a separate member together with the fixing hole of the fixing part.

The mounting bracket 213 may be detachably attached to the vertical frame 210 by having a bonding member adherable to the detachable unit for convenience of use,

A bolt and a nut or the like capable of ensuring a firm coupling force between the mounting bracket 213 and the vertical frame 210 so as to prevent the vertical bracket 213 from dropping due to its own weight when installed on the vertical wall surface 2 by the mounting bracket 213 It is more preferable that the mounting bracket 213 is coupled through the member.

Furthermore, the present invention can be applied not only to the vertical wall surface 2 of brick or wood but also to the vertical wall surface 2 to which the glass, mirror or tile is attached, that is, So that the main body 100 can be installed,

The mounting bracket 213 is sucked by the vertical wall surface 2 of the installation place S and the suction adapter 214 which fixes the vertical frame 210 is provided as shown in Figs. 8 and 9 [B] And is detachable.

The suction adapter 214 includes a body, a suction plate provided on the body, and a fastening piece inserted through an installation part between the first and second engagement parts and fastened through separate members such as bolts,

It is preferable that the fastening piece is provided with a corresponding installation hole (not shown) corresponding to the installation hole of the detachable portion.

(Not shown) in the first engaging portion or the second engaging portion, and is fastened to the fastening piece through a separate member such as a bolt provided with a corresponding screw hole corresponding to the screw hole It is also possible.

A specific configuration of the suction adapter 214 may be a known suction adapter capable of mounting a navigation device or the like on a glass or the like,

It is more preferable to use a high-strength adsorption adapter 214 that can provide a stronger adsorption force than the known adsorption adapter in order to prevent the risk of dropping due to its own weight.

Next, as shown in FIG. 10, the present invention introduces an auxiliary mounting bracket 226 coupled to the mounting plate 222 to maximize the height variable distance.

That is, the auxiliary mounting bracket 226 is coupled to the mounting plate 222 and includes a downward bent portion 226a bent in a downward direction of the mounting plate and a horizontal bent portion 226b protruded forward from the downward bent portion And the horizontal bent portion is provided with a mounting member 226B to which the coupling holes 101A and 102A of the main body 100 can be coupled,

When the laser irradiation is required at a height as close as possible to the bottom surface, the auxiliary mounting bracket 226 is coupled to the mounting plate 222 of the moving unit 200 and then the main body 100 is attached to the horizontal bent portion 226b It can be mounted and operated.

Especially, as shown in the drawing, the auxiliary mounting bracket is very useful when the first body 101, which is smaller than the second body 102, is used,

This is because the second body 102 itself has the legs 130,

The first main body 101 is constituted by only a main body housing without a foot leg, and is configured to be difficult to use individually.

In the above description, the construction site of the building has been described in the description of the height adjustment support for the measuring instrument according to the present invention. However, for the convenience of explanation, Needless to say, the support of the present invention can be utilized.

While the present invention has been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. , Changes and substitutions are to be construed as falling within the scope of protection of the present invention.

S: Place of installation
100: main body 110: laser irradiation part
111: vertical window 112: horizontal window
120: Operation panel
130: foot 131: height adjusting screw
140: Fine adjustment screw
200: support means 210: vertical frame
211: guide groove 212: stationary hole
213: mounting bracket 214: suction adapter
220: mobile unit 221: body
222: mounting plate 222A: guide slit
223: Moving block 224: Support block
225: Replacement block 226: Auxiliary mounting bracket

Claims (4)

A main body 100 including a laser irradiation unit 110 for irradiating a laser to the outside in the form of a horizontal line, a vertical line, or both; And
A supporting unit 200 provided in the vertical frame 210 and having a moving unit 220 on which the main body 100 is mounted and a height adjusting unit 230 for adjusting the height of the moving unit 220 However,
The height adjustment means (230)
A fine adjustment rod 231 having a screw thread 231A on an outer circumferential surface thereof and threadably coupled to the vertical frame 210 of the support means 200 while passing through the movable unit 220,
A screw groove portion 236 corresponding to the screw thread 231A of the fine adjustment rod 231 is provided on one inner circumferential surface of the through hole 235A so as to slide in the horizontal direction in the body 221 of the movable unit 220 A clamping block 235 provided,
The clamping block 235 is operated so that the threaded groove 236 is engaged with the thread 231A so that the movable unit 220 is fixed to the fine adjustment rod 231 by clamping or the threaded groove 236 And a height adjustment lever 233 which is released from the thread 231A and is released from the fine adjustment rod 231 by clamping the movable unit 220,
In the unclamping state, the height of the mobile unit 220 is adjusted along the fine adjustment rod 231 by grasping the mobile unit 220,
And the height of the mobile unit (220) is finely adjusted by the rotation of the fine adjustment rod (231) in the clamping state. The method according to claim 1,
The support means 200 comprises a plurality of support legs 240 having horizontal adjustment means,
Wherein the support legs (240) are removably attached to the vertical frame (210). 3. The method of claim 2,
Wherein the supporting means (200) comprises a mounting bracket (213) for mounting the vertical frame (210) on the vertical wall surface of the installation place while being interposed thereon. The method of claim 3,
Wherein the mounting bracket (213) is configured to be attached to and detached from the vertical wall surface of the installation place so that the suction adapter (214) for fixing the vertical frame (210) is detachable.

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