KR101212740B1 - Geodetic survey data precision observation system - Google Patents

Abstract

PURPOSE: A system for precisely observing geodesy information data depending on a location of a geographical feature based on a GPS is provided to rapidly confirming with a thief prevention device whether a total station is stolen or not, thereby preventing the expensive total station from being stolen. CONSTITUTION: A system for precisely observing geodesy information data depending on a location of a geographical feature based on a GPS comprises a reference station(10), a surveying device, and a geodesy information confirming device(30). The reference station receives a current position value from a satellite(G) and computing the current position value and an saved absolute value, thereby wirelessly transmitting a GPS correction value. The surveying device comprises a surveying device body, a total station device, a plurality of warning devices, a thief prevention device(400), and an alarm terminal(500). The surveying device body comprises an installation body, a height regulating body, a light shielding device, a height regulating body joining member. The total station comprises a total station, a connector, and a total station joining member. The warning devices are installed in a circumference portion of the height regulating body. The thief prevention device comprises a thief prevention device body(410), a thief prevention device joining member(420), a thief sensor, and a transmitter(440). The alarm terminal receives signals from the transmitter, thereby informing to an operator when the total station is stolen.

Description

Geodetic Survey Data Precision Observation System}

The present invention relates to a geodetic data precise observation system for each location of a feature based on GS.

In general, in order to produce or correct a digital map used in a GIS, aerial photography is taken of a certain area, aerial photographing information is produced by using the photographed aerial photographs, and then digital maps are produced using the digital map.

On the other hand, after the digital map is produced, aerial photographing is performed again at regular intervals, and the digital map is corrected using newly produced aerial photographing information. If an error occurs in the coordinates of recorded terrain, features, or artificial structures, it is difficult to determine whether there is an error in the existing digital map or the newly produced aerial photographing information.

Therefore, the error must be corrected by measuring the point where the error occurred, and in order to accurately measure the measurement point, a general station called a total station is used.

Briefly describing the total station, the electronic theodolite and the electro-optical instruments (EDM) are integrated into one device, and the total station structure is greatly increased. It is divided into four types: vertical angle detection unit for measuring the vertical angle caused by vertical movement of the telescope, horizontal angle detection unit for measuring the horizontal angle caused by the left and right rotation of the main body, distance measuring unit for measuring the distance from the center of the main body to the prism, and It is a Tilling sensor that measures and corrects horizontality. It is an electronic measuring device that measures the distance of the measured data within a short time and outputs the result.

When geodetic surface through the total station, the coordinates of the reference point determined through a certain standard is confirmed by the reference surveying, and based on these reference points, the distance between the features of the feature is measured, the exact coordinates are confirmed.

For example, FIG. 1 schematically illustrates a conventional geodetic surveying system (see Korean Patent Laid-Open Publication No. 10-2010-0104976), and conventionally, geodetic surveying has been performed using total station equipment.

However, in the past, when performing geodetic surveys through total station equipment, there was a high risk of expensive total station equipment being stolen, and the workers were not directly exposed to strong sunlight, and the work was not performed efficiently. There is a problem that the health of the worker is hurt.

The present invention for solving the above problems, to prevent theft of the total station, the operator can perform a geodetic survey work while being protected from exposure to strong sunlight, and geodetic reference point based on the surveyed reference point It is an object of the present invention to provide a precise observation system for geodetic survey data for each location of a feature based on GIS, which can conveniently and efficiently perform geodetic survey.

The present invention for solving the above problems,

A reference station 10 which receives the current position value from the satellite G and wirelessly transmits the GPS correction value by mutually computing the current position value and the stored absolute value,

Fixture 211 formed in the center and having a plurality of fixing holes 211b which are arranged to form a radially penetrating through the side and inserted into the insertion hole 211a, respectively, penetrating up and down, the fixed body 211 An installation body 210 having a plurality of support legs 212 installed at the 211 to support the fixed body 211;

It is formed through the side and has a plurality of multi-holes 221 are formed spaced apart at regular intervals along the longitudinal direction and the height adjuster 220 which is movably inserted into the insertion hole (211a) of the mounting body 210 and ;

Support 231 having a fixing hole 231a which is in communication with the multi-hole 221 of the height adjuster 220, a rotating body 232 is installed to be supported by the support 231, the height adjuster ( Light-shielding mechanism fastening member 233 and a rotating body which are detachably inserted into the multi-hole 221 of 220 and the fixing hole 231a of the support 231 to fix the support 221 to the height adjuster 230. A central shaft 235 is installed on the upper portion of the upper portion 232, one end is rotatably installed in the central axis 235 and formed in a fan shape as a whole, a plurality of fan blades (234a) that are folded or unfolded, a plurality of fan blades ( A light shielding body 234 having a light shielding film 234b disposed between the 234a and shielding light, and a fastening hole 236a1 facing the multi-hole 221 to be provided under the support 231 and the rotating body 232. A movement limiting member 236a disposed to restrict downward movement of the rotating body 232, and is detachably inserted into the multi-hole 221 and the fastening hole 236a1. A light shielding mechanism 230 having a movement limiting mechanism 236 having a movement limiting fastening member 236b for fixing the restricting member 236a to the height adjuster 220;

Height-adjusting fastening member which is removably inserted into the fixing hole 211b of the fixing body 211 and the multi-hole 221 of the height adjusting body 220 to fix the height adjusting body 221 to the fixing body 211. 250; Geodetic device body 200 with:

Total angle is disposed on the upper part of the fixed body 211, and has a function of measuring and displaying the angle and distance of the measuring point, the position coordinates of the measuring point and display and storage, and wired and wireless communication function, the neighboring to the height adjuster 220 Station 110; Having a connection hole 121 which is in communication with the multi-hole 221 of the height adjuster 220, the connector provided on the side of the total station 310 detachably installed on the height adjuster 220 120; The total station fastening member 130 is inserted into the connection hole 121 of the connecting body 120 and the multi-hole 221 of the height adjusting body 220 to fix the total station 110 to the geodetic device body 200. ; Total station apparatus 100 having:

Fixing body 311 having a fixing hole (311a) that is opposed to the multi-hole 221 of the height adjusting body 220 is installed in the height adjusting body 220, the reflector 311b of the reflective material is provided on one surface Warning device body 310 is provided with a bar-shaped mounting body 312 is installed and fixed to the fixed body (311); A plurality of warning lights 320 installed on the circumferential surface of the installation body 312; The warning device fastening member which is detachably inserted into the multi-hole 221 of the height adjusting body 220 and the fixing hole 311a of the fixing body 311 to install the warning device body 310 on the height adjusting body 220. 330; Equipped with a plurality of warning devices 300 installed on the periphery of the height adjuster 220:

Removably installed in the multi-hole 221 of the height adjuster 220, the fixing body 411 is installed on top of the total station 110, the panel-shaped mounting body 412 protruding from the fixing body 411 Anti-theft device body 410 provided with; An anti-theft device fastening member 420 fastened to the fixed body 411 to fix the fixed body 411 to the height adjuster 220; An anti-theft detection sensor 430 having a light emitting module 431 installed below the mounting body 412 and a light receiving module 432 installed above the total station 110; A transmitter 440 installed in the installation body 412 to transmit a burglar signal from the burglar detection sensor 430; Anti-theft device 400 with:

Receiving the signal from the transmitter 440, a notification terminal 500 for notifying the worker whether theft 500:

Geodetic device 20,

Receiving module 31 for receiving the reference point surveying data or the distance data between the terrain from the total station 110 of the measuring device (B):

Geodetic information confirmation module 32 for confirming the change of geodetic information through the reference point surveying data or the distance between the terrain data from the receiving module 31:

Geodetic information confirmation device 30,

Characterized in that it comprises a.

According to the present invention as described above, it is possible to quickly determine whether the total station to prevent theft through the anti-theft device, it is possible to prevent theft of the expensive total station.

In another aspect, the present invention allows the operator to safely perform geodetic survey work through the warning device.

In particular, the present invention is provided with a plurality of warning devices can efficiently transmit a warning message to the periphery of the geodetic device body, the effect can be maximized at night.

In addition, the present invention can be protected from the strong light of the surveying operator, the working environment is excellent, it is possible to efficiently geodetic work, and even if the operator changes the measurement direction, the worker can be protected from the strong light continuously, the position of the worker Efficient work is possible no matter what.

1 is a view for explaining a conventional geodetic survey method,
2 is a system diagram showing the present invention,
Figure 3 is a partial cross-sectional view for explaining the geodetic device body in the state that the shading mechanism is folded,
4 is a partial cross-sectional view showing a geodetic device in a state where the shading mechanism is unfolded and a total station device, a warning device, and an anti-theft device are installed;
5 is a perspective view showing an anti-theft device,
FIG. 6 is a partial detailed view of FIG. 3;
7 is a perspective view for explaining a warning device,
8 is a detailed view of a portion of FIG. 4;
9 is a plan sectional view showing a fixture of the present invention,
10 is a partial cross-sectional view showing the inside of the light-shielding mechanism of the present invention unfolded,
11 is a plan sectional view for showing the measuring device main body of the present invention,
12 to 16 are diagrams for explaining the operation of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a system diagram showing the present invention, Figure 3 is a partial cross-sectional view for explaining the geodetic device body in the state that the shading mechanism is folded, Figure 4 is a shading mechanism is unfolded, a total station device, warning device, anti-theft device is installed Figure 5 is a partial cross-sectional view showing a geodetic device in a state, Figure 5 is a perspective view showing the anti-theft device, Figure 6 is a partial detailed view of Figure 3, Figure 7 is a perspective view for explaining the warning device, Figure 8 is a Figure 9 is a detailed cross-sectional view showing a part, Figure 9 is a planar cross-sectional view showing a fixture of the present invention, Figure 10 is a partial planar cross-sectional view showing the inside of the light-shielding mechanism of the present invention unfolded, Figure 11 shows the measuring device body of the present invention As a cross-sectional plan view for explaining, the present invention will be described with reference to FIGS. 2 to 11.

Geodetic data precise observation system for each location of a feature based on the GS according to the present invention includes a reference station 10, geodetic device 20 and geodetic information confirmation device 30.

The reference station 10 is equipped with a GPS antenna 11a, the GPS receiver 11 receiving the position value from the satellite G, the current position value and the stored absolute value received from the GPS receiver 11. And a DGPS transmitter 13 which receives the GPS correction value from the control unit 12 and wirelessly transmits the result to the control unit 12 for outputting the GPS correction value by mutually computing the DGPS antenna 13a.

In the present embodiment, the GPS correction value (that is, the position value) calculated by the control unit 12 of the reference station 10 is transferred to the DGPS transmitter 13 and the DGPS antenna 13a connected to the DGPS transmitter 13 is connected. Through the wireless transmission to the DGPS antenna of the total station 110 described later.

The geodetic device 20 is equipped with a geodetic device body 200, the total station device 100, the warning device 300, theft prevention device 400, and the notification terminal 500.

The geodetic apparatus main body 200 has an installation body 210, a height adjusting body 220, a light shielding mechanism 230, and a height adjusting fastening member 250.

The installation body 210 is formed in the center and has an insertion hole 211a penetrated up and down, and has a plurality of fixing holes 211b which are arranged to be radially and communicated with the insertion hole 211a, respectively. It is provided with a plurality of support legs 212 installed in the stagnation 211, the fixed body 211 to support the fixed body 211. In the present embodiment, it is preferable that the fixing body 211 forms a disc shape, and four supporting legs 212 are provided to stably support the fixing body 211.

The height adjuster 220 has a plurality of multi-holes 221 formed through the side and spaced apart at regular intervals along the longitudinal direction, can be moved to the insertion hole (211a) of the mounting body 210 Is inserted. In this 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 blocking mechanism 230 includes a support 231, a rotating body 232, a light blocking mechanism fastening member 233, a central axis 235, a light blocking body 234, and a movement limiting mechanism 236. Equipped.

The support 231 is provided with a fixing hole (231a) that is in communication with the multi-hole 221 of the height adjuster 220, is detachably installed in the height adjuster (220).

The rotating body 232 is installed to the upper and lower pivots on the support 231 via a separate rotating shaft (not drawn out).

The light blocking mechanism fastening member 233 is detachably inserted into the multi-hole 221 of the height adjuster 220 and the fixing hole 231a of the support 231 to attach the support 221 to the height adjuster 232. Fix it. At this time, the light shielding mechanism fastening member 232 is preferably screwed.

The central shaft 235 is installed on the upper portion of the rotating body 232 to protrude upward.

The light shielding body 234 is rotatably installed in the transverse direction on one end of the central axis 235 and is formed between a plurality of fan blades 234a, which are folded or unfolded in a fan shape as a whole, and a plurality of fan blades 234a. A light shielding film 234b for shielding light is provided. In this case, the light shielding film 234b may be formed to have a folding line so as to be easily extended or folded according to the movement of the fan blade 234a. The material may be made of a cloth material.

The movement limiting mechanism 236 has a fastening hole 236a1 facing the multi-hole 221 and is disposed below the support 231 and the rotating body 232 to restrict downward movement of the rotating body 232. The movement limiting member 236b is detachably inserted into the movement limiting member 236a and the multi-hole 221 and the fastening hole 236a1 to fix the movement limiting member 236a to the height adjuster 220. Equipped. At this time, the movement limiting fastening member 236b is preferably threaded.

The height adjustment fastening member 250 is detachably inserted into the fixing hole 211b of the fixing body 211 and the multi-hole 221 of the height adjusting body 220 to fix the height adjusting body 221. Fix to (211). In the present embodiment, the height adjusting fastening member 250 includes a bolt part 251 and a nut part 252, and the nut part 252 is fastened to the bolt part 251, thereby fixing the height adjusting body 221. It is fixed to the stagnation 211.

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

The total station 110 is disposed on the upper portion of the fixed body 211, is disposed adjacent to the height adjuster 220, the GPS correction value from the reference station 10 and the GPS value received from the satellite (G) In order to calculate its own precise position, and to calculate and process the coordinates of the measuring point based on the precise position, the angle and distance of the measuring point are precisely positioned and wired and wirelessly transmitted.

In this case, the total station 110 is equipped with a DGPS antenna 111a, and has a DGPS receiver 111 and a GPS antenna 112a that receive GPS correction values from the DGPS transmitter 13 of the reference station 10. In addition, the GPS receiver 112 which receives the current position value from the satellite G, a measuring unit 113 having a lens unit on one side, to accurately measure the angle and distance of the measuring point, and a DGPS receiver ( Check the precise position of the total station 100 by calculating the precise position of the GPS antenna 112a using the GPS correction value received from 111, and input the angle and distance of the measured point measured from the measuring unit 113. The control unit 114 for calculating the position coordinates of the measuring point based on the precision position, and the data transmitter receives the angle and distance measurement and the position coordinates of the measuring point calculated from the control unit 114 and transmits the wires and wirelessly. Equipped with 115.

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

In this case, the total station 110 is preferably disposed adjacent to the height adjuster 220 so that the total station 110 can easily look at the lens unit.

The connecting body 120 is provided with a connection hole 121 which is in communication with the multi-hole 221 of the height adjusting body 220, is provided on the side of the total station 310 to the height adjusting body 220 It is detachably installed.

The total station fastening member 130 is inserted into the connecting hole 121 of the connecting body 120 and the multi-hole 221 of the height adjusting body 220, the total station 110 to the geodetic apparatus main body 200 Fix it. In the present embodiment, when the total station fastening member 130 is coupled to the connector 120 and the height adjuster 220, it is preferable that the thread is coupled.

The warning device 300 is provided with a warning device main body 310, a warning light 320, and a warning device fastening member 330, a plurality of the height adjustment body 220 is installed. In the present embodiment, the warning device 300 is provided with two, it is installed on the height adjuster 220 to face each other.

The warning device main body 310 has a fixing hole (311a) that is opposed to the multi-hole 221 of the height adjuster 220 is installed on the height adjuster 220, the reflecting portion of the reflective material (311b) on one surface It is provided with a fixture 311 is provided, and the bar-shaped mounting body 312 is provided on the fixed body 311 protruding.

The warning light 320 is installed on the circumferential surface of the mounting body 312 of the warning device main body 310. At this time, the warning lamp 320 receives power through a rechargeable battery or a separate power supply, and emits a warning light to the surroundings.

The warning device fastening member 330 is detachably inserted into the multi-hole 221 of the height adjusting body 220 and the fixing hole 311a of the fixing body 311 to move the warning device body 310 to the height adjusting body ( 220). In this embodiment, the warning device fastening member 330 is preferably threaded.

The anti-theft device 400 is equipped with an anti-theft device body 410, the anti-theft device fastening member 420, theft detection sensor 430, and the transmitter 440.

The anti-theft device body 410 is detachably installed in the multi-hole 221 of the height adjuster 220 and is installed on the top of the total station 110 and from the fixed body 411 A panel-shaped mounting body 412 is provided.

The anti-theft device fastening member 420 is fastened to the fixed body 411 of the anti-theft device body 410 to fix the fixed body 411 to the height adjuster 220. In this embodiment, the combination of the anti-theft device fastening member 420 and the fixing body 411 is preferably coupled in a bolt nut fastening method.

The anti-theft detection sensor 430 is provided with a light emitting module 431 is installed on the lower portion of the mounting body 412, and a light receiving module 432 is installed on the top of the total station 110, the anti-theft device 400 When the total station 110 is separated by more than the reference signal outputs the theft. In the present embodiment, the anti-theft sensor 430 is applied to an infrared sensor, and may be variously modified as long as it can sense a spaced state between the anti-theft device 400 such as an ultrasonic sensor and the total station 110.

The transmitter 440 is installed on the mounting body 412 to transmit the theft signal from the theft detection sensor 430 to the outside.

The notification terminal 500 receives the theft signal from the transmitter 440 to inform the worker visually or audiologically. In the present embodiment, the notification terminal 500 may be a conventional portable terminal having a display.

The geodetic information checking device 30 is a receiving module 31 for receiving reference point surveying data and inter-terrestrial distance data from the data transmitter 115 of the total station 110, reference point surveying data from the receiving module 31 and Geodetic information confirmation module 32 for confirming the change of geodetic information through the distance data between the terrain.

12 to 16 are views for explaining the operation of the present invention, the operation of the present invention with reference to Figures 12 to 16 as follows.

First, the operator places the geodetic device main body 200 where a reference point or a geodetic distance is required, and sets the geodetic device 20 as shown in FIG. At this time, the light shielding mechanism 230 is unfolded to form a shade at the bottom.

At this time, the worker installs the warning device 300 in the height control body 220, as shown in Figure 13 to the geodetic device main body 200, so that the warning light is emitted to the surroundings.

Therefore, when the worker performs the geodetic survey work, a warning message is transmitted to the vehicle or person passing through the surrounding area, so that the worker can perform the geodetic survey work more safely.

Meanwhile, the present invention may change the installation height of the light shield 234 by changing the installation position of the light shield 234 on the height adjuster 220 as shown in FIG. 14.

Subsequently, the operator arranges the total station apparatus 100 on the upper portion of the fixed body 211 as shown in FIG. 15, and then connects the connecting body 120 of the total station apparatus 100 through the total station fastening member 130. Fixed to the height adjuster 220, so that the total station 110 is installed on the height adjuster (220).

In addition, the worker installs the anti-theft device 400 to the height adjuster 220 as shown in FIG. Therefore, when the worker is away from the work site, if the distance between the total station 110 and the anti-theft main body 410 is more than the standard, a warning that the worker carrying the notification terminal 500 is notified is notified.

Meanwhile, the worker removes the height adjusting fastening member 250, releases the binding between the fixed body 211 and the height adjusting body 220, and then holds the total station fastening member 130 to hold the total station device 100. You can measure by rotating toward the direction you want to measure. Here, since the light shield 234 is located above the head of the worker while moving along the worker, the worker may be protected from strong light.

In addition, when the operator needs to measure one place for a long time, the total station apparatus 110 is directed to the measurement position, and then the height adjusting body 220 through the height adjusting fastening member 250 to the stationary body 211. By fixing to, the measuring direction of the total station apparatus 110 can be changed, and the measuring direction of the total station apparatus 110 can be fixed as shown in FIG. 16.

When the measurement setting of the measuring device 20 is completed through the above operation, the operator collects geodetic information by measuring the distance between the reference point or the terrain, and the collected geodetic information is sent out through the data transmitter 115, geodetic The receiving module 31 of the information checking device 30 receives the sent geodetic information and outputs it to the geodetic information checking module 32.

Then, the geodetic information confirmation module 32 checks whether the geodetic information of the reference point is the same as the existing geodetic information to check whether the reference point is changed or whether the distance between the terrains is changed by checking whether the distance between the terrain is the same as the existing distance. Check it.

As described above, the present invention enables the operator to quickly check whether the total station 110 is stolen, and thus prevent theft of the expensive total station 110.

In addition, the present invention allows the worker to safely perform geodetic survey work through the warning device (300).

In particular, the present invention is provided with a plurality of warning device 300 can efficiently transmit a warning message to the vicinity of the geodetic device body 200, the effect can be maximized at night.

In addition, the present invention is that the surveying worker can be protected from the strong light, the working environment is excellent, efficient geodetic work is possible, and even if the operator changes the measurement direction, the operator can be protected from the strong light continuously, the position of the worker Efficient work is possible no matter what.

10; Reference station 11; GPS receiver
12; A controller 13; DGPS Transmitter
20; Geodetic device 210; Installation
220; Height regulator 230; Shading
250; Height adjustment fastening member 300; Warning device
310; Warning device main body 320; Warning light
330; Warning device fastening member 400; Anti-theft Device
410; Anti-theft device body 420; Anti-theft device
430; Theft sensor 440; transmitter
500; Notification terminal 30; Geodetic information confirmation device
31; Receiving module 32; Geodetic information confirmation module

Claims (1)

A reference station 10 which receives the current position value from the satellite G and wirelessly transmits the GPS correction value by mutually computing the current position value and the stored absolute value,
Fixture 211 formed in the center and having a plurality of fixing holes 211b which are arranged to form a radially penetrating through the side and inserted into the insertion hole 211a, respectively, penetrating up and down, the fixed body 211 An installation body 210 having a plurality of support legs 212 installed at the 211 to support the fixed body 211;
It is formed through the side and has a plurality of multi-holes 221 are formed spaced apart at regular intervals along the longitudinal direction and the height adjuster 220 which is movably inserted into the insertion hole (211a) of the mounting body 210 and ;
Support 231 having a fixing hole 231a which is in communication with the multi-hole 221 of the height adjuster 220, a rotating body 232 is installed to be supported by the support 231, the height adjuster ( Light-shielding mechanism fastening member 233 and a rotating body which are detachably inserted into the multi-hole 221 of 220 and the fixing hole 231a of the support 231 to fix the support 221 to the height adjuster 230. The central shaft 235 is installed on the upper portion of the 232, one end is rotatably installed in the horizontal direction in the central axis 235, a plurality of fan blades (234a) folded or unfolded in a fan shape as a whole, and a plurality of fan blades ( A light shielding body 234 having a light shielding film 234b disposed between the 234a and shielding light, and a fastening hole 236a1 facing the multi-hole 221 to be provided under the support 231 and the rotating body 232. A movement limiting member 236a disposed to restrict downward movement of the rotating body 232, and is detachably inserted into the multi-hole 221 and the fastening hole 236a1. A light shielding mechanism 230 having a movement limiting mechanism 236 having a movement limiting fastening member 236b for fixing the restricting member 236a to the height adjuster 220;
Height-adjusting fastening member which is removably inserted into the fixing hole 211b of the fixing body 211 and the multi-hole 221 of the height adjusting body 220 to fix the height adjusting body 221 to the fixing body 211. 250; Geodetic device body 200 with:
Total angle is disposed on the upper part of the fixed body 211, and has a function of measuring and displaying the angle and distance of the measuring point, the position coordinates of the measuring point and display and storage, and wired and wireless communication function, the neighboring to the height adjuster 220 Station 110; Having a connection hole 121 which is in communication with the multi-hole 221 of the height adjuster 220, the connector provided on the side of the total station 310 detachably installed on the height adjuster 220 120; The total station fastening member 130 is inserted into the connection hole 121 of the connecting body 120 and the multi-hole 221 of the height adjusting body 220 to fix the total station 110 to the geodetic device body 200. ; Total station apparatus 100 having:
Fixing body 311 having a fixing hole (311a) that is opposed to the multi-hole 221 of the height adjusting body 220 is installed in the height adjusting body 220, the reflector 311b of the reflective material is provided on one surface Warning device body 310 is provided with a bar-shaped mounting body 312 is installed and fixed to the fixed body (311); A plurality of warning lights 320 installed on the circumferential surface of the installation body 312; The warning device fastening member which is detachably inserted into the multi-hole 221 of the height adjusting body 220 and the fixing hole 311a of the fixing body 311 to install the warning device body 310 on the height adjusting body 220. 330; Equipped with a plurality of warning devices 300 installed on the periphery of the height adjuster 220:
Removably installed in the multi-hole 221 of the height adjuster 220, the fixing body 411 is installed on top of the total station 110, the panel-shaped mounting body 412 protruding from the fixing body 411 Anti-theft device body 410 provided with; An anti-theft device fastening member 420 fastened to the fixed body 411 to fix the fixed body 411 to the height adjuster 220; An anti-theft detection sensor 430 having a light emitting module 431 installed below the mounting body 412 and a light receiving module 432 installed above the total station 110; A transmitter 440 installed in the installation body 412 to transmit a burglar signal from the burglar detection sensor 430; Anti-theft device 400 with:
Receiving the signal from the transmitter 440, a notification terminal 500 for notifying the worker whether theft 500:
Geodetic device 20,
Receiving module 31 for receiving the reference point surveying data or the distance data between the terrain from the total station 110 of the measuring device (B):
Geodetic information confirmation module 32 for confirming the change of geodetic information through the reference point surveying data or the distance between the terrain data from the receiving module 31:
Geodetic information confirmation device 30,
Geodetic survey data precise observation system for each location of the feature based on the GS, characterized in that it comprises a.

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