KR101710344B1 - Geodetic survey information confirming apparatus with measurement survey distance of between ground surface and topography - Google Patents

Abstract

The present invention relates to a geodetic survey information checking apparatus for measuring a level of the ground surface and a distance between topographies. More specifically, the present invention allows a worker to conveniently measure a level and a distance between topographies, and a bolt unit can be smoothly inserted into a multi-hole through a fixing hole in accordance with height control of a height control body to rapidly and stably fixate the height control body to a fixture.

Description

TECHNICAL FIELD [0001] The present invention relates to a geodetic information checking apparatus for measuring the distance between a level measurement of an earth surface and a terrain,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a geodetic information checking apparatus for measuring the distance between a level measurement of an earth surface and a terrain of a surveying technology field, and more particularly, A geodetic information checking device for measuring the distance between the leveling surface of the ground surface and the terrain for fast and stable fixing of the height adjusting body to the fixing body by allowing the bolt portion to be smoothly inserted into the multi- .

Generally, in order to produce or calibrate a digital map used in GIS, aerial photographing is performed in a certain area, and aerial photography information is produced by data of the aerial photographs taken, and then a digital map is produced using this information.

After the digital map is produced as described above, the aerial photographing is repeated at regular intervals and the digital map is corrected using the newly created aerial photographing information.

However, when an error occurs in the coordinates of the terrain, artifacts, or the like recorded in the digital map and the aerial photographing information, it is necessary to judge whether there is an error in the existing digital map or whether there is an error in the newly created aerial photographing information There is a difficult problem.

Therefore, it is necessary to correct the error by measuring the point where the error occurs. In order to precisely measure the measuring point, a total station is generally used.

On the other hand, when the ground surface is measured through the total station, it is necessary to confirm the coordinates of the level points determined based on a certain standard through leveling and confirm the accurate coordinates by measuring the distance between the terrain.

However, conventionally, when there is no such apparatus, it is difficult to calibrate it quickly and correctly when the level is changed, and thus accurate geodetic data can not be obtained.

Korean Patent Registration No. 10-1210539 (Dec. 12, 2012) discloses a geodetic information confirmation system for measuring the distance between the level measurement and the terrain of the earth surface.

However, in the conventional geodetic surveying system for measuring the level of the ground surface and the distance between terrains, it is difficult to adjust the height of the fixed body so that the fixed hole and the multi-hole are communicated with each other. There is a problem that it is difficult to stably fix and bind.

Korea Patent Registration No. 10-1210539 (2012.12.11.) 'Geodetic information confirmation system for surveying the level measurement of terrestrial surface and terrain distance'

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to enable a worker to conveniently measure the distance between the level and the terrain, The present invention provides a geodetic information checking apparatus for measuring a distance between a level measurement of an earth surface and a terrain for fast and stable fixing of a height adjuster to a fixed body by allowing a multi-hole to be smoothly inserted.

The problems to be solved by the present invention are not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

In order to accomplish the above object, the present invention provides a base station (10) for receiving a current position value from a satellite (G) and calculating a current position value and a stored absolute value to wirelessly transmit a GPS correction value, A fixing body 211 having upper and lower insertion holes 211a and a plurality of fixing holes 211b penetrating laterally and communicating with the insertion holes 211a so as to form a radial shape; (210) having a plurality of support legs (212) installed to support the fixture (211); A height adjuster 220 which is inserted into the insertion hole 211a of the mounting body 210 and includes a plurality of multi-holes 221 which are formed to be laterally spaced apart from each other at regular intervals along the longitudinal direction, ; A supporting body 231 having a fixing hole 231a to be in contact with the multi-hole 221 of the height adjusting body 220, a rotating body 232 to be vertically rotatable on the supporting body 231, Shielding mechanism fastening member 233 which is detachably inserted into the fixing hole 231a of the supporting body 231 and the multi-hole 221 of the supporting body 221 to fix the supporting body 221 to the height adjusting body 230, A plurality of fan bars 234a which are installed on the center shaft 235 so as to be rotatable in the horizontal direction and which are folded or unfolded as a whole in a fan shape and a plurality of fan bars 234a, A light shielding body 234 having a light shielding film 234b provided between the supporting members 231 and 234a for shielding light and a coupling hole 236a1 for coming into contact with the multi- A movement restricting member 236a disposed to restrict the downward movement of the rotating body 232, and a moving limiter 236a detachably inserted into the multi-hole 221 and the fastening hole 236a1, A light shielding mechanism 230 having a movement restricting mechanism 236 having a movement restricting member 236b for fixing the restrictor 236a to the height adjuster 220; A bolt portion 251 detachably inserted into the fixing hole 211b of the fixing member 211 and the multi-hole 221 of the height adjusting member 220, a nut portion 252 fastened to the bolt portion 251, A height adjusting body fastening member 250 for fixing the height adjusting body 221 to the fixing body 211; A height adjusting body (200) having a function of calculating an angle and a distance of a measuring point, calculating and displaying the position coordinates of the measuring point, and a wired / wireless communication function, A total station 110 disposed adjacent to the station 220; And a connection hole 121 communicating with the multi-hole 221 of the height adjuster 220. The height adjusting member 220 is provided on the side of the total station 310 and is detachably attached to the height adjuster 220. [ (120); A total station fastening member 130 inserted into the connection hole 121 of the connection member 120 and the multi-hole 221 of the height adjusting member 220 to fix the total station 110 to the geodetic apparatus main body 200, ; (31) for receiving the level measurement data and terrain distance data from the total station (110) of the measuring device (B); a receiving module And a geodesic information confirmation module (32) for confirming a change of the geodesic information through the level measurement data and the geographical distance data of the terrain. As the geodetic information checking device, the bolt portion 251 can be smoothly inserted into the multi-hole 221 through the fixing hole 211b according to the height of the height adjuster 220, The height adjusting body 220 may further include a tightening guide portion 40 for guiding the height adjusting body 221 to be smoothly coupled through the body fastening member 250, A plurality of holes (221) An annular groove 222 is formed and the coupling inducing portion 40 is embedded in the inner circumferential surface of the insertion hole 211a so as to be positioned below the fixing hole 211b and has an outflow inlet 411 A housing 410 formed with a space portion 412 therein; A fastening ball 420 received in the housing 410; And the concave ball 420 is accommodated in the space portion 412 and presses the concave ball 420 while allowing the concave ball 420 to protrude to the outside through the outflow inlet 411. In addition, And an elastic member 430 for allowing the tightening ball 420 to be drawn into the outlet 411. The tightening ball 420 is fixed to the height adjusting member 220 in accordance with the rise and fall of the height adjusting member 220, And is drawn into the annular groove 222 while being drawn out through the outflow inlet 411 to be drawn into the annular groove 222 while being in contact with the outlet 220, Of the plurality of annular grooves (222) of the fixing holes (211b) is formed in accordance with the rise and fall of the height adjusting member (220) And is connected to the fixing hole 211b as it is drawn into the annular groove positioned so as to be adjacent to the lower side, And the height adjusting member 220 allows the fastening ball 420 to be inserted into any one of the multiple holes 221 and to be pressed in the longitudinal direction The fastening ball 420 is pulled out from the multi-hole in accordance with the pressure for adjusting the height, while the height adjusting member 220 is in contact with the height adjusting member 220, (411), and is elevated and lowered. The geodetic information checking apparatus for measuring the distance between the level measurement of the ground surface and the terrain.

According to the present invention, first, the level measurement is possible through the geodetic device, and the effect of the distance between the terrain can be measured.

Second, the surveyor can be protected from the strong light, so the work environment is excellent and efficient geodetic operation is possible. Even if the operator changes the measurement direction, the operator can be protected from the strong light constantly, There is a possible effect.

Third, the bolt portion can be smoothly inserted into the multi-hole through the fixing hole according to the height adjustment of the fixing body, so that the height adjusting body can be quickly and stably fixed to the fixing body.

The effects of the present invention are not limited to those mentioned above, and other solutions not mentioned may be clearly understood by those skilled in the art from the following description.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a conceptual diagram schematically showing a geodetic information checking apparatus for measuring a distance between a level measurement of an earth surface and a terrain according to the present invention.
2 is a partial cross-sectional view showing a geodetic device body in a state in which the light shielding mechanism is folded in the present invention.
3 is a partial cross-sectional view showing a geodetic apparatus in a state where a light shielding mechanism is deployed and a total station apparatus is installed in the present invention.
Fig. 4 is a detailed view showing part of Fig. 3. Fig.
5 is a plan sectional view showing a fixture in the present invention.
FIG. 6 is a plan view showing an upper part of the light shielding mechanism in the present invention.
7 is a plan sectional view showing the main body of the measuring apparatus in the present invention.
Figs. 8 to 11 are use state diagrams for explaining the operation of the geodetic information checking apparatus for measuring the distance between the leveling of the ground surface and the terrain according to the present invention. Fig.
And
FIG. 12 is a partial cross-sectional view showing a state in which a coupling guide unit is provided in a geodesic information checking apparatus for measuring a distance between a level measurement of an earth surface and a topography according to the present invention.

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

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. And should not be construed as limited to the embodiments described herein.

Since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein.

It should be understood that the embodiments according to the concept of the present invention are not limited to the particular mode of disclosure but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

Since the present invention uses the previously-described Japanese Patent No. 1210539 as it is, all of the features of the device configuration described below can be understood as those described in Japanese Patent Registration No. 1210539. [

However, in the present invention, the geodetic information checking system for measuring the level measurement of the ground surface and the terrain distance among the configurations disclosed in the above-mentioned Japanese Patent No. 1210539 is a geodetic information checking apparatus for measuring the distance between the level measurement of the ground surface and the terrain , And further includes a structure and operation description for smoothly coupling the height adjusting body fitting according to the height adjustment of the fixing body, and this part is the most important constitutional feature.

Therefore, the device structure, characteristics, and operation relationship described below will be incorporated by reference in the above-mentioned Japanese Patent No. 1210539, and the structure related to the main features of the present invention will be described in detail at the rear end.

1 to 7, the geodetic information checking apparatus for measuring the distance between the level measurement of the ground surface and the terrain according to the present invention includes a reference station 10, a geodetic apparatus 20 and a geodetic information identification apparatus 30 do.

The reference station 10 includes a GPS receiver 11 having a GPS antenna 11a and receiving a position value from the satellite G and a GPS receiver 11 for receiving the current position value and the stored absolute value And a DGPS transmitter 13 that has a DGPS antenna 13a and receives a GPS correction value from the controller 12 and wirelessly transmits the corrected GPS correction value to the outside.

The GPS correction value (i.e., the position value) calculated through the control unit 12 of the reference station 10 is transmitted to the DGPS transmitter 13 and the DGPS antenna 13a connected to the DGPS transmitter 13 To the DGPS antenna of the total station 110, which will be described later.

The geodesic device 20 is equipped with a geodetic device main body 200 and a total station device 100 installed in the geodetic device main body 200.

The geodetic apparatus main body 200 is equipped with a mounting body 210, a height adjusting body 220, a light shielding mechanism 230 and a height adjusting body fastening member 250.

The mounting body 210 includes an insertion hole 211a formed at the central portion and penetrating the upper and lower portions and a plurality of fixing holes 211b penetrating through the insertion hole 211a and communicating with the insertion hole 211a, A plurality of supporting legs 212 provided on the fixing member 211 and supporting the fixing member 211 are provided. In the present embodiment, it is preferable that the fixing body 211 has a disk shape, and that four supporting legs 212 are provided to support the fixing body 211 in a stable manner.

The height adjuster 220 has a plurality of multi-holes 221 formed laterally and spaced from each other at regular intervals along the longitudinal direction, and is movable in the insertion hole 211a of the mounting body 210 . In the present embodiment, the height adjuster 220 is preferably formed in a circular bar shape, but may be variously modified, such as a square bar.

The light shielding mechanism 230 is provided with a support body 231, a rotating body 232, a light shielding mechanism fastening member 233, a central shaft 235, a light shielding body 234 and a movement restricting mechanism 236 .

The supporting member 231 has a fixing hole 231a which is in contact with the multi-hole 221 of the height adjusting member 220 and is detachably attached to the height adjusting member 220.

The rotating body 232 is rotatably mounted on the supporting body 231 via a separate rotating shaft (not shown).

The light shielding mechanism fastening member 233 is detachably inserted into the fixing hole 231a of the multi-hole 221 of the height adjuster 220 and the fixing hole 231a of the supporting body 231 so that the supporting body 221 is inserted into the height adjusting body 232 Fixed. At this time, it is preferable that the light-blocking mechanism fastening member 232 is threaded.

The center shaft 235 is installed on the upper portion of the rotating body 232 and protrudes upward.

The light shielding body 234 includes a plurality of fan bars 234a, one end of which is rotatably mounted on the central shaft 235 in a transverse direction and is formed in a fan shape as a whole, and a plurality of fan bars 234a, Shielding film 234b for shielding the light-shielding film 234a. At this time, it is preferable that the light-shielding film 234b is formed with a folding line for easily spreading or folding according to the movement of the fan 234a, and the material may be cloth material or the like.

The movement restricting mechanism 236 has a fastening hole 236a1 to abut against the multi-hole 221 and is disposed below the support body 231 and the rotation body 232 to limit downward movement of the rotation body 232 A movement restricting member fastening member 236b which is detachably inserted into the multi-hole 221 and the fastening hole 236a1 to fix the movement restricting member 236a to the height adjusting member 220, Equipped. At this time, the movement restricting member fastening member 236b is preferably threaded.

The height adjusting member fastening member 250 is detachably inserted into the fixing hole 211b of the fixing member 211 and the multi-hole 221 of the height adjusting member 220, (211). The height adjusting body fastening member 250 has the bolt portion 251 and the nut portion 252 and the nut portion 252 is fastened to the bolt portion 251 so that the height adjusting body 221 is fastened And fixed to the stationary body 211.

The total station apparatus 100 includes a total station 110, a connecting body 120 provided in the total station 110, a total station connecting member 120 for fixing the total station 110 to the geodesic apparatus main body 200 130).

The total station 110 is disposed on the upper portion of the stationary body 211 so as to be adjacent to the height adjuster 220 and receives the GPS correction value from the reference station 10 and the GPS value received from the satellite G And confirms its own precise position and wirelessly transmits the angle and distance of the measurement point precisely to calculate the coordinates of the measurement point based on the precise position.

The total station 110 includes a DGPS receiver 111 having a DGPS antenna 111a and receiving a GPS correction value from the DGPS transmitter 13 of the reference station 10 and a GPS antenna 112a A GPS receiver 112 that receives a current position value from the satellite G and a measurement unit 113 that is equipped with a lens unit on one side and is capable of precisely measuring the angle and distance of the measurement point and a DGPS receiver 111 and obtains the precise position of the total station 100 through the precise position calculation of the GPS antenna 112a and inputs the angle and distance of the measurement point measured from the measurement device 113 A control unit (114) for calculating the position coordinates of the measurement point based on the precision position, a data transmitter for receiving the position coordinates of the measurement point and the angle of the measurement point calculated by the control unit (114) (115).

Meanwhile, the total station 110 is a general one used for geodetic surveying, and a detailed description thereof will be omitted.

At this time, the total station 110 is preferably disposed adjacent to the height adjuster 220 so that the lens unit of the total station 110 can be easily viewed.

The connecting body 120 has a connecting hole 121 communicating with the multi-hole 221 of the height adjusting body 220 and is provided on the side of the total station 310, And is detachably installed.

The total station fastening member 130 is inserted into the connection hole 121 of the connection member 120 and the multi-hole 221 of the height adjusting member 220 to connect the total station 110 to the geodetic apparatus main body 200 Fixed. In this embodiment, the total station fastening member 130 is preferably threaded when engaged with the connecting body 120 and the height adjusting body 220.

The geodesic information verifying apparatus 30 includes a receiving module 31 for receiving the level measurement data and the inter-terrain distance data from the data transmitter 115 of the total station 110 and the level measurement data from the receiving module 31, And a geodesic information confirmation module 32 for confirming the change of the geodesic information through the terrain distance data.

The operation of the present invention will be described with reference to FIGS. 8 to 11. FIG.

First, the operator places the geodetic device body 200 at a level point or a distance between the geographical features as needed, and sets the geodetic device 20 to be geodetic as shown in FIG. At this time, the light shielding mechanism 230 is unfolded so that a shadow is formed at the bottom.

9, the installation height of the light shielding body 234 can be changed by changing the installation position of the light shielding body 234 on the height adjusting body 220, as shown in FIG.

10, the operator places the total station apparatus 100 on the upper portion of the stationary body 211 and then connects the connection unit 120 of the total station apparatus 100 through the total station fastening member 130 And the total station 110 is mounted on the height adjuster 220 by fixing the height adjuster 220 to the height adjuster 220.

At this time, the operator separates the height adjusting body fastening member 250 to release the binding of the fixing body 211 and the height adjusting body 220, and then grasps the total station fastening member 130, Can be measured while rotating toward the direction to be measured.

Here, since the light shielding body 234 is located on the head of the operator while moving along the operator, the operator can be protected from strong light.

When the operator is required to measure a long time, the operator directs the total station device 110 to the measurement position, and then moves the height adjuster 220 to the fixing body 211 through the height adjuster fastening member 250. [ The measurement direction of the total station device 110 can be changed to fix the measurement direction of the total station device 110 as shown in FIG.

When the measurement setting of the measuring apparatus 20 is completed through the above operation, the operator collects the geographical information by measuring the distance between the level points or the terrain, and the collected geographical information is transmitted through the data transmitter 115, The receiving module 31 of the information verifying apparatus 30 receives the transmitted geographical information and outputs the received geographical information to the geographical information confirming module 32.

Then, the geodetic information confirmation module 32 confirms whether the geodetic information of the level point is the same as the existing geodetic information and confirms whether the level point is changed or whether the geographical distance is the same as the existing distance, .

As described above, the present invention is capable of leveling through the geodetic device 20, and can measure the inter-terrain distance.

In particular, according to the present invention, the surveying worker can be protected from strong light, so that the work environment is excellent and efficient geodetic operation is possible. Even if the operator changes the measurement direction, the worker can be protected from strong light continuously, Efficient operation is possible regardless of

Further, since the light shielding mechanism 230 is foldable, the present invention is easy to use and store.

12, the bolt portion 251 is inserted into the multi-hole 221 through the fixing hole 211b according to the height adjustment of the height adjuster 220, So that the height adjusting body 221 can be smoothly coupled with the height adjusting body body 250 through the height adjusting body body 250. In addition,

The height adjuster 220 has a plurality of annular grooves 222 formed between the multi-holes 221 along the longitudinal direction.

The fastening guide portion 40 is embedded in the inner circumferential surface of the insertion hole 211a so as to be positioned below the fixing hole 211b and has an outflow inlet 411 formed at one end thereof and a space portion 412 formed therein And a connecting ball 420 which is accommodated in the space portion 412 and which presses the connecting ball 420 and which is connected to the housing 410 through the outlet 411, And an elastic member 430 for allowing the ball 420 to protrude to the outside while causing the tightening ball 420 to retract into the outflow inlet 411 while being contracted by external pressure.

The housing 410 has both ends and is embedded in the height adjuster 220 such that one end of the housing 410 faces the insertion hole 211a.

It is preferable that one end of the housing 410 does not project inward from the periphery of the insertion hole 211a so as not to contact the fixing body 211. [

The fixing body 211 is extended from the outer circumferential surface to the inner circumferential surface to communicate with the insertion hole 211a and a hollow 211c into which the housing 410 is inserted is formed.

The tightening ball 420 protrudes inward from the periphery of the insertion hole 211a and contacts the height adjuster 220 as the height adjuster 220 ascends and descends, ).

In addition, when the height adjusting member 220 is positioned in the annular groove 222 according to the upward and downward movement of the height adjusting member 220, the fastening ball 420 is drawn out to the outside through the outflow inlet 411, (Not shown).

The diameter of the fastening ball 420 may be larger than the diameter of the multi-hole 221, and may not enter the multi-hole 221.

One of the plurality of multi-holes 221 may be formed in the same vertical line-like shape among the plurality of annular grooves 222 when the height adjustment member 220 is lifted, So that the bolt 251 can be smoothly passed through while being communicated with the fixing hole 211b.

Here, the annular groove located on the same line as the fastening ball 420 can be understood as an annular groove adjacent to the lower side of the fixing hole 211b.

In other words, any one of the plurality of multi-holes 221 is inserted into the annular groove of the plurality of annular grooves 222, .

The bolt 251 can be inserted smoothly by automatically communicating the fixing hole 211b with the multi hole 221 and the height adjusting body 252 can be smoothly inserted through the tightening of the nut 252. [ 220 can be stably bound to the fixing body 211.

The height adjustment member 220 is inserted into any one of the multiple holes 221 of the plurality of multi-holes 221, and the height adjustment member 220 is vertically adjusted while stopping the upward / And is fixedly coupled to the fixing body 211 in a height-adjusted state through the binding of the height adjusting body fastening member 250. [

In addition, the height adjusting body 220 may be configured such that the height adjusting body 250 is pulled out from the multi-hole according to the pressing force for adjusting the height from the state where the height adjusting body fastening member 250 is unbuckled, 220 to the outlet 411 and is raised and lowered.

Therefore, according to the present invention, since the tightening ball 420 is repeatedly drawn into the annular groove 222 as the height adjusting member 220 is lifted and lowered, Of course, precise control is possible.

The height of the height adjuster 220 is properly adjusted so that the fastening ball 420 is inserted into the annular groove 222 and is first bound to adjust the height of the height adjuster 220 And can be fixed and fixed to the fixing body 211 through the binding of the height adjusting body fastening member 250.

The present invention may further include a filling means 50 for connecting the housing 410 to the hollow 211c.

The other end of the housing 410 may be opened while a thread may be formed on the inner circumferential surface.

The embedding means 50 includes an embedding rod 510 having both ends and leading into the hollow 211c, a portion extending from one end of the embedding rod 510 in the direction of the housing 410, A coupling protrusion 520 to which the other end of the housing 410 is screwed and a coupling protrusion 520 which is provided on an outer circumferential surface of the other end of the embedding rod 510 and which is coupled to the periphery of the hollow 211c, And a binding member 530 which binds to the fixing body 211.

The hollow member 211c is formed with a larger diameter than the diameter of the buried rod 510 while the other end of the hollow member 211c is formed with a thread on the other end of the bundling member 530, To be detachably threadably engaged.

At this time, the fastening guide part 40 is formed such that the one end of the housing 410 does not protrude inward beyond the periphery of the insertion hole 211a, and the fastening ball 420 is inserted into the insertion hole 211a It is of course necessary to embed the hollow 211c so as to protrude inward.

Therefore, the coupling inducing portion 40 can be stably embedded in the fixing body 211, and can be checked and replaced according to the separation of the embedding means 50.

10: Reference station 11: GPS receiver
12: control unit 13: DGPS transmitter
20: geodesic device 210: mounting body
211: Fixing body 211a: Insertion hole
220: height adjuster 221: multi-hole
230: shielding mechanism 250: height adjusting member fastening member
30: Geodetic information confirmation device 31: Receive module
32: Geodetic information confirmation module 40:
410: Housing 411: Outlet entrance
412: space part 420: fastening ball
430: elastic member 50: embedding means
510: buried rod 520: fastening projection
530:

Claims (1)

A reference station 10 for receiving the current position value from the satellite G and calculating the current position value and the stored absolute value to wirelessly transmit the GPS correction value,
A fixing body 211 having an insertion hole 211a penetrating the upper and lower portions formed in the central portion thereof and a plurality of fixing holes 211b communicating with the insertion hole 211a through the side holes to be radially formed, (210) having a plurality of support legs (212) which are installed on the support body (211) and support the fixed body (211);
A height adjuster 220 which is inserted into the insertion hole 211a of the mounting body 210 and includes a plurality of multi-holes 221 which are formed to be laterally spaced apart from each other at regular intervals along the longitudinal direction, ;
A supporting body 231 having a fixing hole 231a to be in contact with the multi-hole 221 of the height adjusting body 220, a rotating body 232 to be vertically rotatable on the supporting body 231, Shielding mechanism fastening member 233 which is detachably inserted into the fixing hole 231a of the supporting body 231 and the multi-hole 221 of the supporting body 221 to fix the supporting body 221 to the height adjusting body 230, A plurality of fan bars 234a which are installed on the center shaft 235 so as to be rotatable in the horizontal direction and which are folded or unfolded as a whole in a fan shape and a plurality of fan bars 234a, A light shielding body 234 having a light shielding film 234b provided between the supporting members 231 and 234a for shielding light and a coupling hole 236a1 for coming into contact with the multi- A movement restricting member 236a disposed to limit the downward movement of the rotating body 232, and a moving limiter 236a detachably inserted into the multi-hole 221 and the fastening hole 236a1, A light shielding mechanism 230 having a movement restricting mechanism 236 having a movement restricting member 236b for fixing the restrictor 236a to the height adjuster 220;
A bolt portion 251 detachably inserted into the fixing hole 211b of the fixing member 211 and the multi-hole 221 of the height adjusting member 220, a nut portion 252 fastened to the bolt portion 251, A height adjusting body fastening member 250 for fixing the height adjusting body 221 to the fixing body 211; (200) comprising:
A height measurement device 220 for measuring the angle and distance of the measurement point, calculating and displaying the position coordinates of the measurement point, and a wired / wireless communication function, A station 110; And a connection hole 121 communicating with the multi-hole 221 of the height adjuster 220. The height adjusting member 220 is provided on the side of the total station 310 and is detachably attached to the height adjuster 220. [ (120); A total station fastening member 130 inserted into the connection hole 121 of the connection member 120 and the multi-hole 221 of the height adjusting member 220 to fix the total station 110 to the geodetic apparatus main body 200, ; (100) comprising:
The geodesic device 20,
Receiving module 31 for receiving level measurement data and terrain distance data from total station 110 of measuring device B:
A geodetic information confirmation module 32 for confirming a change of geodetic information through the level measurement data from the reception module and the inter-terrain distance data;
A geographical information confirmation device 30,
The geodetic information checking device measures the distance between the level measurement of the ground surface and the terrain,
The bolt portion 251 can be smoothly inserted into the multi-hole 221 through the fixing hole 211b according to the height adjustment of the height adjuster 220, Further comprising a fastening guide part (40) for guiding the height adjuster (221)
The height adjuster 220 includes:
A plurality of annular grooves 222 are formed along the longitudinal direction between the multi-holes 221,
The fastening guide portion (40)
A housing 410 embedded in an inner circumferential surface of the insertion hole 211a so as to be positioned below the fixing hole 211b and having an outflow inlet 411 formed on an inner side thereof and a space 412 formed therein;
A fastening ball 420 received in the housing 410; And
And is accommodated in the space portion 412 and presses the tightening ball 420 while allowing the tightening ball 420 to protrude to the outside through the outflow inlet 411 while being contracted in response to external pressure, And an elastic member (430) for allowing the ball (420) to be drawn into the outflow inlet (411)
The fastening ball 420,
The height regulating member 220 is brought into contact with the height regulating member 220 while being drawn into the outlet inlet 411 while being positioned in the annular groove 222 to receive the outlet 411 And is drawn into the annular groove 222,
One of the multiple holes (221)
As the height adjusting member 220 is lifted and lowered, the fastening balls 420 are pulled into the annular grooves 222 positioned in the annular grooves 222 so as to be adjacent to the lower side of the fixing holes 211b, So that the bolt 251 can pass smoothly while being communicated with the hole 211b,
The height adjuster 220 includes:
As the fastening balls 420 are pulled in one of the multiple holes of the multiple holes 221 and the pressing in the longitudinal direction is released, the elevating and lowering stops and the height of the fixing ball 420 is maintained. The leveling means 420 is pulled out from the multi-hole according to the pressure applied to the height adjusting member 220 while being drawn into the outlet inlet 411 while being in contact with the height adjusting member 220, A geodetic information identifying device for measuring the distance between terrains.

Images