KR101706209B1 - Leveling equipment for improving accuracy - Google Patents

Abstract

According to the present invention, a level measurement device with improved accuracy to reduce an error of level measurement data comprises: a staff device (100); and a level device (200). The staff device (100) comprises: a holding device (110); a support bar (121); a tip body (122); a support device (120); a staff tool (130); a first support reflection panel (170); a second support reflection panel (180); a main reflection panel (190); a warning device (AL); a distance measurement device (140); a control device (150); and a level gauge (160). The level device (200) comprises: a lighting device (210); and a holder (220).

Description

{LEVELING EQUIPMENT FOR IMPROVING ACCURACY} [0001]

The present invention relates to a leveling instrument with improved accuracy for reducing errors in leveling data.

In general, surveying is done first for various civil engineering design and architectural design. Surveying refers to all activities that measure horizontal distance, elevation difference and direction to determine the position of points mutually and display them in figures or figures.

Among these, a level measurement refers to observing the elevation difference of a specific point, and is also referred to as an elevation measurement or a level measurement. Levels are measured through these leveling measures.

During the leveling survey as described above, there is a direct gauging survey in which a height difference between two points is obtained using a skeleton (staf) and a leveler.

On the other hand, in the level survey, one worker holds a skeleton, and another worker performs a surveying operation by collimating the skeleton with a leveler.

In recent years, however, leveling work has been carried out without a worker who sets up a skeleton through a cradle.

However, when the leveling is performed by a conventional method of building a skeleton through a cradle, passers passing around the cradle can not detect the skeleton in advance and pass around the skeleton, thereby interfering with the leveling operation. The level measurement data can not be collected. In addition, there is a problem that a passenger may accidentally hit the target chuck when passing around the table, thereby causing a safety accident.

Also, in the past, the installation height of the table chuck was not adjustable when the table was placed on the table, and the height of the table chuck could not be adjusted according to the measurement situation.

On the other hand, the level measurement must be able to accurately measure the scale of the target through the level meter to obtain accurate measurement values.

However, in the past, when there is an obstacle in front of a point where the skeleton is to be formed, it is difficult to accurately collimate the skeleton because the skeleton must be tilted. As a result, an accurate measurement value can not be obtained.

Korean Patent No. 10-0648462

According to an aspect of the present invention, there is provided a method of leveling surveying a leveling operation of a surrounding passerby, And to provide a leveling instrument capable of obtaining accurate leveling data even when the collimating point is obstructed by obstacles.

According to an aspect of the present invention,

A leveling instrument comprising a starter device (100) and a leveler (200)

The starter device (100)

An insertion hole 111a formed in the center portion of the support panel 111 so as to penetrate the support panel 111 in a vertical direction and an installation hole 111b formed in the support panel 111 to penetrate the insertion hole 111a in the vertical direction, (110) having a support panel (111) having a support panel (111) and a plurality of supports (112) rotatably installed under the support panel (111);

A lower engaging portion 121a having an opening 121a1 opened downward and provided at a lower portion of the supporting bar 121 and an opening 121a2 communicating with an upper portion of the opening 121a1 and laterally opened, An upper engaging portion 121b having an opening 121b1 opened upward and provided on the upper portion of the supporting bar 121 and an opening 121b2 communicating with a lower portion of the opening 121b1 and laterally opened, A support bar 121 threadably engaged with the insertion hole 111a of the support panel 111 so as to be movable up and down; (122) having one end in a pointed shape and the other end threadably engaged with the opening groove (121a1) of the lower engaging portion (121a) or the opening groove (121b1) of the upper engaging portion (121b); A support mechanism 120 having a plate shaped reflector 123 positioned below the support bar 121 and having an insertion hole 123a into which the support bar 121 is movably threadedly coupled in the vertical direction;

An insertion groove 131a1 formed to be opened downward at a central portion of the top chuck 131a of the first front piece 131 and threadably engaged with the support bar 121 in a vertically movable manner, A table chuck table 131a having first and second slide grooves 131a2 and 132a3 which are provided on the outer side of the insertion slot 131a1 and are opposed to each other with respect to the insertion slot 131a1, A display 131b provided on the surface of the table top 131a for displaying a scale value by illumination and a first protrusion 131 provided with a fitting protrusion 131c provided on the surface of the table top of the table top 131a, A table chuck table 132a provided on the top of the table chuck table 131a of the first table 131 to be rotatable in the up and down direction and having a scale value provided on the surface of the table chuck table 132a, And the scale value is continuously displayed on the scale value according to the display 131b of the first enlargement 131 And a connection bar 133 threadably coupled to the insertion groove 132a1 of the table top chest 132a of the second overhang 132 so as to be movable up and down, A table chuck 134a having an insertion groove 134a1 which is open downward and threadedly formed at the other end of the connecting bar 133 so as to be movable up and down, The scale values are displayed in succession on the scale 132 according to the display 132b of the second scale 132 and the display 131b of the first scale 131 when the scale values are arranged in the horizontal direction, A stapler 130 having a third swivel 134 with a display 134b that is continuously displayed on a scale value according to the first scale 134;

A slide portion 171 slidably inserted into the first slide groove 131a2 of the first support 131, an insertion portion 172 provided below the first support reflection panel 170 and opened downward, A first support reflection panel 170 provided at the insertion portion 172 and having a fitting protrusion 173 projected downward and slidably installed at a lower portion of the first support 131;

A slide portion 181 slidably inserted into the second slide groove 131a3 of the first support 131, an insertion portion 182 provided below the second support reflection panel 180 and opened downward, A second support reflection panel 180 provided on the insertion portion 182 and having a fitting protrusion 183 protruding downward and slidably installed on a lower portion of the first support 131;

A main reflecting panel 190 having a fitting hole 191 to be detachably inserted into the fitting protrusion 131c of the first front piece 131 or the fitting protrusions 173 and 183 of the first and second supporting reflecting panels 170 and 180, ;

A bracket AL1 provided at the upper end of the third boss 134 with a fastening hole AL1a opened upward and downward and a fastening hole AL1a fastened to the fastening hole AL1a of the bracket AL1 movably in the vertical direction A moving bar AL2 and a warning device AL provided with a warning light AL3 provided at the upper end of the moving bar AL2;

A body portion 141 detachably coupled to the mounting hole 111b of the mounting mechanism 110 and a distance from the body portion 141 to the reflector 123 of the supporting mechanism 120 are measured A distance measuring mechanism 140 having a first laser distance measuring instrument 142 and a second laser distance measuring instrument 143 provided on the body part 141 and measuring a distance to the main reflecting panel 190, ;

The first laser distance measuring device 142 and the second laser distance measuring device 143 are installed on the receiving panel 111 of the mounting mechanism 110 and receive measurement signals from the first laser distance measuring device 142 and the second laser distance measuring device 143, A controller 150 for controlling operations of the displays 131b, 132b, and 134b, respectively;

And a level meter (160) installed on the mounting mechanism (110) for measuring the inclination of the mounting mechanism (110) and wirelessly transmitting a warning signal when the measured inclination value deviates from a preset reference value,

The level device 200 includes:

A luminaire 210 for receiving a warning signal from the level meter 160 of the starter device 100 and emitting warning light; And a cradle (220) on which the level device (200) is installed.

The present invention is characterized in that the reflection area through which the laser beam irradiated from the second laser distance meter 143 can be reflected through the first support reflection panel 170, the second support reflection panel 180, The laser irradiated from the second laser distance measuring device 143 is reflected on the reflection area and is reflected by the second laser distance measuring device 143 ) Can accurately measure the distance to be measured. Therefore, the present invention has the effect of collecting more accurate leveling data during leveling survey data collection work.

In addition, the present invention can stably perform the level measurement data collecting operation by preventing a person from approaching the vicinity of the starter device 100 through the alarm device AL, and can prevent the position of the warning light AL3 of the warning device AL It is possible to prevent reading of an erroneous collimation value by the light of the warning light AL3 and to prevent collection of erroneous level measurement data.

The present invention is also applicable to the case where the distance from the receiving panel 111 to the ground through the first laser distance meter 142 and the second laser distance meter 143 and the distance from the receiving panel 111 to the top of the first boss 131, It is possible to conveniently measure the distance to the bottom of the display unit 131a and to reflect the measured distance value when the scale values are displayed on the displays 131b, 132b and 134b of the topsets 131, 132 and 134, There is an effect.

In addition, according to the present invention, when the stapler 130 is difficult to collimate due to an obstacle, the collimating unit collimates a collimation point at a position adjacent to the collimation point at the same height as the collimation point to be collimated, Can be obtained. Therefore, it is possible to acquire new surveying data even where the surveying work is difficult, and it is possible to compare existing surveying data with new surveying data, and to correct the existing surveying data if there is an error.

1 is a general explanatory diagram for explaining a leveling instrument according to the present invention,
2 is a front view for explaining the starter device of the present invention,
FIG. 3 is a front view of a state where the second and third scales are horizontally arranged in the starter device of the present invention,
Fig. 4 is a partial sectional view of Fig. 3,
Fig. 5 is a view showing a part of Fig. 4,
FIG. 6 is a view showing a portion A in FIG. 5,
Fig. 7 is a view showing a part in Fig. 4,
FIG. 8 is a view showing a portion B in FIG. 7,
Fig. 9 is a view showing a portion C in Fig. 8,
10 is a partially bottom perspective view of the first chuck of the present invention,
11 is a perspective view for explaining a first supporting reflecting panel of the present invention,
12 is a perspective view for explaining a second supporting reflecting panel of the present invention,
13 is a perspective view for explaining the main reflecting panel of the present invention,
FIG. 14 is a plan sectional view for explaining a support panel and a first overhang portion of the present invention,
15 is a perspective view for explaining a distance measuring mechanism of the present invention,
16 to 24 are views for explaining the operation of the level measuring instrument according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS Fig.

2 is a front view for explaining a stapling apparatus of the present invention, and Fig. 3 is a front view of the stapling apparatus according to the present invention. In Fig. 1, Fig. 4 is a partial cross-sectional view of Fig. 3, Fig. 5 is a view showing a part of Fig. 4, Fig. 6 is a view showing part A in Fig. 5, 8 is a view showing a portion B in Fig. 7, Fig. 9 is a view showing a portion C in Fig. 8, Fig. 10 is a bottom perspective view of part of the first table of the present invention, 12 is a perspective view for explaining a second supporting reflecting panel of the present invention, FIG. 13 is a perspective view for explaining a main reflecting panel of the present invention, and FIG. Fig. 14 is a view for explaining the support panel and the first overhang portion of the present invention 15 is a perspective view for explaining a distance measuring instrument of the present invention. Structural features of the level measuring instrument according to the present invention will be described with reference to FIGS. 1 to 15. FIG.

The present invention includes a starter device (100) and a leveler (200) for collimating the starter device (100).

The starter device 100 includes a mounting mechanism 110, a support mechanism 120, a stiff mechanism 130, a first reflection panel 170, a second reflection panel 180, A panel 190, an alarm device AL, a distance measuring mechanism 140, a control device 150, and a leveling device 160.

The mounting mechanism 110 is equipped with a support panel 111 and a plurality of supports 112 rotatably installed under the support panel 111.

The support panel 111 includes an insertion hole 111a formed in a central portion of the support panel 111 so as to pass through the support panel 111 in a vertical direction, And an installation hole 111b provided in the direction of the arrow. In the present embodiment, the support panel 111 has a rectangular panel shape.

The support mechanism 120 includes a support bar 121, a comb-like body 122, and a reflector 123.

The supporting bar 121 has a lower engaging portion 121a and an upper engaging portion 121b and is threadably engaged with the insertion hole 111a of the receiving panel 111 so as to be movable up and down.

The lower engaging portion 121a has an opening 121a1 formed in a lower portion of the supporting bar 121 and an opening 121a2 communicating with an upper portion of the opening 121a1 and laterally opened, Equipped.

The upper engaging portion 121b has an opening 121b1 formed in the upper portion of the supporting bar 121 and an opening 121b2 communicating with the lower portion of the opening 121b1 and laterally opened Equipped.

The other end of the connecting member 122 has a pointed shape and the other end of the connecting member 122 is threadably engaged with the opening groove 121a1 of the lower engaging portion 121a or the opening groove 121b1 of the upper engaging portion 121b. do.

The reflector 123 has an insertion hole 123a in which the support bar 121 is threadably engaged with the support bar 121 so as to be vertically movable and is positioned below the support bar 121. In this embodiment, the reflector 123 has a thin plate shape.

The starter mechanism 130 is provided with a first boss 131, a second boss 132, a connecting bar 133 and a third boss 134.

The first boss 131 is provided on the upper portion of the mounting mechanism 110 with a table chuck 131a, a display 131b and a fitting protrusion 131c.

The barb 131a of the first barb 131 is formed to be downwardly opened at the center of the barb guide 131a of the first barb 131 and is screwed And first and second slide grooves 131a2 and 132a3 provided below the insertion groove 131a1 and facing each other with respect to the insertion groove 131a1, . In this embodiment, the table chuck 131a of the first front piece 131 has a rectangular bar shape.

The display 131b of the first table chuck table 131 is installed on the surface of the chuck table 131a of the first table chuck table 131 and the scale value is displayed by illumination. In this embodiment, the display 131b of the first support 131 has a rectangular panel shape.

The fitting protrusions 131c of the first table chuck 131 are installed on the surface of the chuck table 131a of the first chuck chuck table 131. In the present embodiment, the fitting protrusion 131c is preferably made of an elastic material.

The second overhang 132 is provided with a table top top 132a and a display 132b and is disposed on top of the first top table 131.

The table chuck table 132a of the second table 132 has an upwardly opened insertion groove 132a1 and is installed on the top of the table chuck table 131a of the first table 131 to be rotatable up and down . In this embodiment, the table chuck table 132a of the second overhang 132 has a rectangular panel shape.

The display 132b of the second overhang 132 is installed on the surface of the second helix 132a of the second helix 132 so that the scale value is displayed on the first helix 131, Is displayed consecutively on the scale value according to the display 131b of FIG. In this embodiment, the display 132b of the second overhang 132 has a rectangular panel shape.

One end of the connecting bar 133 is threadedly coupled to the insertion groove 132a1 of the table top chest 132a of the second table 132 so as to be movable up and down.

The third boss 134 is provided with a table boss 134a and a display 134b and is disposed on top of the second boss 132. [

The table top chest 134a of the third upright 134 is downwardly opened and has an insertion groove 134a1 threadedly formed at the other end of the connecting bar 133 so as to be movable up and down. In this embodiment, the table chuck 134a of the third boss 134 has a rectangular panel shape.

The display 134b of the third overhang 134 is installed on the surface of the third overhang 134a of the third overhang 134 and the scale value is displayed by the illumination, 132 are displayed consecutively on a scale value according to the display 132b of the first display 131 and when displayed horizontally are displayed continuously on a scale value along the display 131b of the first display 131. [ In the present embodiment, the display 134b of the third overhang 134 has a rectangular panel shape.

The first supportive reflection panel 170 includes a slide part 171 slidably inserted into a first slide groove 131a2 of the first support 131 and a second supportive reflection panel 170 provided below the first supportive reflection panel 170 An insertion portion 172 opened downward and a plurality of fitting protrusions 173 provided on the insertion portion 172 and protruding downward. In this embodiment, the first support reflection panel 170 has a rectangular panel shape, and the fitting protrusion 173 is preferably made of an elastic material.

The second supportive reflection panel 180 includes a slide part 181 slidably inserted into the second slide groove 131a3 of the first support 131 and a second supportive reflection panel 180 provided below the second supportive reflection panel 180 An insertion portion 182 opened downward and a fitting protrusion 183 provided on the insertion portion 182 and protruding downward. In this embodiment, the second support reflection panel 180 has a rectangular panel shape, and the fitting protrusion 183 is preferably made of an elastic material. Also, in this embodiment, the second supportive reflection panel 180 is installed to face the first supportive reflection panel 170.

The main reflecting panel 190 is provided with a fitting hole 191 to be detachably inserted into the fitting protrusions 131c of the first supporting piece 131 or the fitting protrusions 173 and 183 of the first and second supporting reflecting panels 170 and 180 . In this embodiment, when the main reflecting panel 190 is installed on the first and second supporting reflecting panels 170 and 180, the bottom surface of the main reflecting panel 190 is positioned on the same line as the bottom surfaces of the first and second supporting reflecting panels 170 and 180. [ . Meanwhile, in the present embodiment, the main reflecting panel 190 has a rectangular panel shape.

The warning device AL includes a bracket AL1 provided at the upper end of the third boss 134 having a fastening hole AL1a opened in the up and down direction and a bracket AL1 fastened to the fastening hole AL1a of the bracket AL1 in a vertical direction And a warning light AL3 provided at the upper end of the movement bar AL2.

The distance measuring mechanism 140 includes a body 141 that is detachably threadedly coupled to the mounting hole 111b of the mounting mechanism 110 and a reflector A first laser distance measuring device 142 for measuring the distance to the main reflecting panel 123 and a second laser distance measuring device 143 for measuring the distance to the main reflecting panel 190, Equipped. In this embodiment, an ultrasonic distance meter may be used instead of the laser distance meter for distance measurement.

The control device 150 is installed on the support panel 111 of the mounting mechanism 110 and receives a measurement signal from the first and second laser distance meters 142 and 143, And controls the displays 131b, 132b, and 134b, respectively. In this embodiment, when the scale values are displayed on the displays 131b, 132b, and 134b of the first, second, and third bosses 131, 132, and 134, the control device 150 performs the measurement from the first and second laser distance meters 142 and 143 Reflects the distance along the signal. In the present embodiment, the display devices 131b, 132b, and 134b of the control device 150 and the first, second, and third bosses 131, 132, and 134 are connected by wire or wireless, (131b, 132b, 134b) are controlled by the controller (150).

The leveling unit 160 is installed in the mounting mechanism 110 to measure the inclination of the mounting mechanism 110. When the measured inclination value deviates from a preset reference value, the warning system wirelessly transmits the warning signal. For example, the reference value may be 5 [deg.], And the level meter 160 wirelessly transmits a warning signal when the measured slope value exceeds 5 [deg.]. In this embodiment, the level meter 160 is a digital level meter.

The leveler 200 is equipped with a lighting device 210 that receives a warning signal from the level system 160 of the starter device 100 and emits warning light. In this embodiment, the leveler 200 is equipped with a basic function for leveling, and is disposed on the ground via the cradle 220.

16 to 24 are views for explaining the operation of the leveling instrument according to the present invention, and the operation of the leveling instrument according to the present invention will be described with reference to FIG. 16 to FIG.

To perform the leveling, the operator sets up the star device 100 as shown in FIG. 16 and collimates the star device 100 through the level device 200. At this time, the operator drives the warning device AL before collimating the staff device 100, and when the collimating operation is performed, warning light is emitted from the warning device AL as shown in FIG. 16, ) It informs the passer who is passing around that surveying is being carried out.

17, the distance from the support 112 of the mounting mechanism 110 to the reflector 123 of the support mechanism 120 is set to be The control device 150 receives the distance signal from the first laser distance measuring device 142 and calculates a distance value from the support 112 of the mounting device 110 to the reflector 123 of the support device 120 The scale values are displayed on the displays 131b, 132b, and 134b of the first, second, and third scales 131, 132, and 134, respectively.

Here, the reflector 123 of the support mechanism 120 facilitates the reflection of the laser from the first laser distance meter 142, and the support bar 121 of the support mechanism 120 is stably attached to the ground, .

On the other hand, when it is necessary to adjust the placement height of the stiff mechanism 130 when the operator performs the surveying operation, the operator rotates the stiff mechanism 130 to move the stiff mechanism 130 in the vertical direction Can be adjusted.

19, the operator projects the first support reflection panel 170 and the second support reflection panel 180 laterally from the first support 131 and then projects the main reflection 131 separated from the first support 131 The panel 190 is installed on the first supporting reflecting panel 170 and the second supporting reflecting panel 180 as shown in Fig.

 When the operator then drives the second laser distance measuring device 143, the second laser distance measuring device 143 moves from the receiving panel 111 of the mounting mechanism 110 to the bottom surface of the main reflecting panel 190 And the controller 150 measures the distance from the display panel 131 of the mount mechanism 110 when displaying the scale value on the displays 131b, 132b and 134b of the first, Reflects the distance value to the bottom surface of the main reflecting panel 190.

Since the main reflecting panel 190 is disposed between the first supporting reflecting panel 170 and the second supporting reflecting panel 180 and positioned vertically above the second laser distance measuring device 143, The reflection of the laser beam irradiated from the measuring device 143 is accurately performed and the second laser distance measuring device 143 can accurately measure the vertical distance from the receiving panel 111 to the target chuck table 131a of the first boss 131 have.

The main reflecting panel 190 is connected to the first supporting panel 170 and the second supporting reflecting panel 180 so that a large reflection area capable of hitting the laser irradiated from the second laser distance measuring device 143 It accomplishes. Accordingly, even if the second laser distance measuring device 143 is slightly deviated from the designing position at the time of initial fabrication, the laser irradiated from the second laser distance measuring device 143 is reflected on the reflection area, Can precisely measure the vertical distance from the support panel 111 to the table chief table 131a of the first thumb.

In the present embodiment, when the operator collimates the displays 131b, 132b, and 134b of the first, second, and third bosses 131, 132, and 134 of the stiff mechanism 130, The second swivel 132 of the stiff mechanism 130 is rotated so that the second and third swivels 132 and 134 of the stiff mechanism 130 are aligned horizontally as shown in Figs.

At this time, when a signal is input to the control device 150 through a separate input unit (not shown), the scale value of the display 132b of the second overhang 132 and the display 134b of the third overhang 134 is As shown in FIG. 21, is continuously displayed on a scale value along the display 131b of the first front piece 131. [

Thus, the operator can collimate the display 132b of the second overhang 132 or the display 134b of the third overhang 134 to obtain a collimation value equal to the collimation value of the collimation point obscured by the obstacle.

 Here, when the operator can not collimate the collimation point covered by the obstacle through the display 132b of the second overhang 132 and the display 134b of the third overhang 134, the third overhang 134 is rotated It is possible to more easily obtain the collimation value equal to the collimation value of the collimation point blocked by the obstacle by moving the third collar 134 in the lateral direction as shown in FIG.

When the light emitted from the warning light AL3 of the warning device AL interferes with the sight of the display 134b of the third illuminated object 134 during the leveling operation, The warning light AL3 of the warning light AL3 is moved laterally as shown in Fig. 23, thereby minimizing the influence of the light of the warning light AL3 on the display 134b.

Meanwhile, in this embodiment, when the staple apparatus 100 is placed on the ground, the staple unit 100 of the staple apparatus 100 can be stably fixed to the ground. When the staple apparatus 100 is installed on the concrete floor, the support bars 120 of the support mechanism 120 can be removed and the support bars 121 of the support mechanism 120 can be stably mounted on the concrete floor .

Here, when the connecting member 122 of the supporting mechanism 120 is removed, the foreign substance is likely to be caught in the opening groove 121a1 of the lower engaging portion 121a of the supporting bar 121, It may not be easy to engage with the opening groove 121a1 of the lower engaging portion 121a of the support bar 121. [ 24, air is injected into the opening 121a2 of the lower engaging portion 121a of the supporting bar 121 through a separate air generating device (not shown) The foreign matter trapped in the opening groove 121a1 of the lower engaging portion 121a can be discharged to the outside, thereby solving the problem of the above-described coupling.

In this embodiment, when the standing staff 100 is tilted to a reference value or more, the level meter 160 of the starter 100 measures the alarm and transmits a warning signal by radio, And receives a warning signal to turn on the warning light to the lighting device 210. Therefore, even if the operator can not visually confirm the airstream state of the starter apparatus 100 when the starter apparatus 100 is collimated, the operator can immediately recognize the airstream state of the starter apparatus 100 through the warning lamp, It is possible to prevent collecting survey data. And the operator can check the illumination light before collimating the staring device 100 to prevent collecting false measurement data.

The present invention as described above can be applied to the case where the laser irradiated from the second laser distance meter 143 through the first support reflection panel 170, the second support reflection panel 180 and the main reflection panel 190 can be reflected Even if the second laser distance measuring device 143 is provided slightly deviated from the design position at the time of initial fabrication, the laser irradiated from the second laser distance measuring device 143 is reflected on the reflection area, There is an advantage that the distance measurer 143 can accurately measure the distance to be measured. Therefore, the present invention can collect more accurate level measurement data in the level survey data collection work.

In addition, the present invention can stably perform the level measurement data collecting operation by preventing a person from approaching the vicinity of the starter device 100 through the alarm device AL, and can prevent the position of the warning light AL3 of the warning device AL It is possible to prevent the wrong collimation value from being read due to the light of the warning light AL3 and to prevent collection of erroneous level measurement data.

The present invention is also applicable to the case where the distance from the receiving panel 111 to the ground through the first laser distance meter 142 and the second laser distance meter 143 and the distance from the receiving panel 111 to the top of the first boss 131, It is possible to conveniently measure the distance to the bottom of the display unit 131a and to reflect the measured distance value when the scale values are displayed on the displays 131b, 132b and 134b of the topsets 131, 132 and 134, There is an advantage.

In addition, according to the present invention, when the stapler 130 is difficult to collimate due to an obstacle, the collimating unit collimates a collimation point at a position adjacent to the collimation point at the same height as the collimation point to be collimated, Can be obtained. Therefore, it is possible to acquire new surveying data even where the surveying is difficult, and it is possible to compare existing surveying data with new surveying data, and to correct the existing surveying data if there is an error.

On the other hand, in the present invention, under the assumption that the existing survey data is not a survey value accurately measured and that the newly surveyed data is a true value, the difference between the misaligned existing survey data and the newly surveyed data (true value) The name of the present invention is defined as an accuracy leveling instrument for reducing the error of the level measurement data.

100; Star device 110; Mounting mechanism
120; A support mechanism 130; Stiff mechanism
140; Distance measuring instrument 150; Control device
160; A level meter 170; The first support reflection panel
180; A second support reflection panel 190; Main reflective panel
AL; A warning device 200; Level machine
210; Lighting equipment

Claims (1)

A leveling instrument comprising a starter device (100) and a leveler (200)
The starter device (100)
An insertion hole 111a formed in the center portion of the support panel 111 so as to penetrate the support panel 111 in a vertical direction and an installation hole 111b formed in the support panel 111 to penetrate the insertion hole 111a in the vertical direction, (110) having a support panel (111) having a support panel (111) and a plurality of supports (112) rotatably installed under the support panel (111);
A lower engaging portion 121a having an opening 121a1 opened downward and provided at a lower portion of the supporting bar 121 and an opening 121a2 communicating with an upper portion of the opening 121a1 and laterally opened, An upper engaging portion 121b having an opening 121b1 opened upward and provided on the upper portion of the supporting bar 121 and an opening 121b2 communicating with a lower portion of the opening 121b1 and laterally opened, A support bar 121 threadably engaged with the insertion hole 111a of the support panel 111 so as to be movable up and down; (122) having one end in a pointed shape and the other end threadably engaged with the opening groove (121a1) of the lower engaging portion (121a) or the opening groove (121b1) of the upper engaging portion (121b); A support mechanism 120 having a plate shaped reflector 123 positioned below the support bar 121 and having an insertion hole 123a into which the support bar 121 is movably threadedly coupled in the vertical direction;
An insertion groove 131a1 formed to be opened downward at a central portion of the top chuck 131a of the first front piece 131 and threadably engaged with the support bar 121 in a vertically movable manner, A table chuck table 131a having first and second slide grooves 131a2 and 132a3 which are provided on the outer side of the insertion slot 131a1 and are opposed to each other with respect to the insertion slot 131a1, A display 131b provided on the surface of the table top 131a for displaying a scale value by illumination and a first protrusion 131 provided with a fitting protrusion 131c provided on the surface of the table top of the table top 131a, A table chuck table 132a provided on the top of the table chuck table 131a of the first table 131 to be rotatable in the up and down direction and having a scale value provided on the surface of the table chuck table 132a, And the scale value is continuously displayed on the scale value according to the display 131b of the first enlargement 131 And a connection bar 133 threadably coupled to the insertion groove 132a1 of the table top chest 132a of the second overhang 132 so as to be movable up and down, A table chuck 134a having an insertion groove 134a1 which is open downward and threadedly formed at the other end of the connecting bar 133 so as to be movable up and down, The scale values are displayed in succession on the scale 132 according to the display 132b of the second scale 132 and the display 131b of the first scale 131 when the scale values are arranged in the horizontal direction, A stapler 130 having a third swivel 134 with a display 134b that is continuously displayed on a scale value according to the first scale 134;
A slide portion 171 slidably inserted into the first slide groove 131a2 of the first support 131, an insertion portion 172 provided below the first support reflection panel 170 and opened downward, A first support reflection panel 170 provided at the insertion portion 172 and having a fitting protrusion 173 projected downward and slidably installed at a lower portion of the first support 131;
A slide portion 181 slidably inserted into the second slide groove 131a3 of the first support 131, an insertion portion 182 provided below the second support reflection panel 180 and opened downward, A second support reflection panel 180 provided on the insertion portion 182 and having a fitting protrusion 183 protruding downward and slidably installed on a lower portion of the first support 131;
A main reflecting panel 190 having a fitting hole 191 to be detachably inserted into the fitting protrusion 131c of the first front piece 131 or the fitting protrusions 173 and 183 of the first and second supporting reflecting panels 170 and 180, ;
A bracket AL1 provided at the upper end of the third boss 134 with a fastening hole AL1a opened upward and downward and a fastening hole AL1a fastened to the fastening hole AL1a of the bracket AL1 movably in the vertical direction A moving bar AL2 and a warning device AL provided with a warning light AL3 provided at the upper end of the moving bar AL2;
A body portion 141 detachably coupled to the mounting hole 111b of the mounting mechanism 110 and a distance from the body portion 141 to the reflector 123 of the supporting mechanism 120 are measured A distance measuring mechanism 140 having a first laser distance measuring instrument 142 and a second laser distance measuring instrument 143 provided on the body part 141 and measuring a distance to the main reflecting panel 190, ;
The first laser distance measuring device 142 and the second laser distance measuring device 143 are installed on the receiving panel 111 of the mounting mechanism 110 and receive measurement signals from the first laser distance measuring device 142 and the second laser distance measuring device 143, A controller 150 for controlling operations of the displays 131b, 132b, and 134b, respectively;
And a level meter (160) installed on the mounting mechanism (110) for measuring the inclination of the mounting mechanism (110) and wirelessly transmitting a warning signal when the measured inclination value deviates from a preset reference value,
The level device 200 includes:
A luminaire 210 for receiving a warning signal from the level meter 160 of the starter device 100 and emitting warning light; And a cradle (220) on which the leveling device (200) is installed.

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