KR101331820B1 - Gps surveying system - Google Patents

Abstract

The present invention relates to a precise GPS surveying system for a control point survey. The precise GPS surveying system is provided to enable a safe transfer of a GPS surveying instrument to a survey position; to reduce trouble for a worker; to facilitate the management of the surveying instrument; and to enable an accurate GPS survey.

Description

Precise GPS Surveying System for Reference Point Surveying

The present invention relates to a precision GPS surveying system for reference point surveying.

In general, GPS surveying refers to a task of determining geodetic coordinates and elevation of a reference point by obtaining a three-dimensional relative position between observation points using a plurality of satellites and a plurality of GPS (Global Positioning System) instruments.

On the other hand, for GPS observation, the GPS instrument must be moved to the survey position.

However, in the related art, it was difficult to stably protect the GPS instrument when the GPS instrument was moved, and the worker felt much fatigue when the worker moved to the survey position.

In addition, in the prior art, the GPS surveying device has to be moved to a surveying position. When the moving path is dark or when moving at night after finishing a surveying operation, it is difficult to secure a view.

In addition, in the conventional GPS surveying, it was inconvenient to remove the dust immediately on the GPS instrument.

In the related art, when there is a surveying position in a mountain or a forest, it is very difficult to move the GPS instrument to the surveying position due to the rough road.

In particular, in the case of GPS observation, reception of GPS signals may be poor in mountains or forests, and thus it is difficult to perform accurate GPS surveying.

Patent Registration 10-1209286 Patent Registration No. 10-1217850

The present invention is to solve the above problems, the GPS reference point can move safely to the surveying position, can reduce the labor of the operator, easy to manage the GPS instrument, the reference point that can perform accurate GPS surveying It is an object of the present invention to provide a precision GPS surveying system for surveying.

According to an aspect of the present invention,

Multiple satellites (S),

The holder body 11 and the fixing body 12a having a larger width than the holder body 11 and penetrating up and down on both sides are formed, and the panel-shaped insert body is installed on the holder body 11 ( 12) and the cradle 10 having a plurality of support legs 13 installed in the cradle main body 11: an insertion groove 21a which is opened downward and in which the insert 12 of the cradle 10 is detachably inserted. And a lower plate 21 disposed above the insertion groove 21a and having a through hole 21b communicating with the insertion groove 21a and penetrating up and down. A first side plate 22 installed at one side of the lower plate 21 and protruding upward; A guide groove 23a which is opened inward and is formed along the longitudinal direction, a first fixing hole 23b which is formed to penetrate upward and downward and communicates with the guide groove 23a, and a first fixing hole 23b. The second fixing hole (23c) is formed to face through and communicate with the guide groove (23a) in the lower portion facing down, one end is installed along the upper circumference of the first side plate (22), protruding inward One guide plate 23; A second side plate 24 installed on the other side of the lower plate 21 so as to face the first side plate 22 and protruding upward; A second groove having one guide groove 25a which is opened inward and is formed along the longitudinal direction, one end of which is installed along the upper circumference of the second side plate 24 and protrudes inwardly to face the first side plate 22; Guide plate 25; A plurality of vent holes 26a are formed in the rear, and the back plate 26 is provided in the rear; Surveyor accommodation mechanism 20 having: a plurality of exhaust holes 131a, the back plate 26 An exhaust box 131 installed; Fans 132 built in the exhaust box 131 to generate wind; a plurality of fan mechanisms 130, which are accommodated in the survey instrument receiving device 20: installed on the outer surface of the survey instrument receiving device 20 and the fan Fan switch 140 for turning on or off the mechanism 130: one end is inserted into the guide groove 23a of the first guide plate 23, and the other end is inserted into the guide groove 25a of the second guide plate 25. A slide bar 31 inserted and moving along the longitudinal direction of the first guide plate 23 and the second guide plate 25; One end is installed on the slide bar 31 and the other end is installed on the upper end of the back plate 26 to open and close the membrane 32 for opening and closing the measurement instrument receiving mechanism 20; A support base 101 installed inside the first guide plate 23 or the second guide plate 25 of the 20; Rotating table 102 rotatably installed on the support 101; A mounting table 103 installed on the rotary table 102 having a flashlight insertion hole 103a vertically penetrated and a dust removing member insertion hole 103b adjacent to the flashlight insertion hole 103a and vertically penetrating therethrough; Equipped installation mechanism 100: fastening portion 111 detachably inserted into the flashlight insertion hole (103a) of the installation mechanism (100); A handle portion 112 provided on an upper portion of the fastening portion 111; Flashlight 110 provided with a lighting unit 113 provided on the upper portion of the handle portion 112: the handle portion 121 detachably inserted into the dust removing member insertion hole (103b) of the installation mechanism (100); Dust removal member 120 having a sponge material dust removal body 122 installed on the upper portion of the handle portion 121: the first guide plate 23 or the second guide plate 25 of the measuring instrument receiving device 20 A support (41) installed inside the support plate; a rotating table (42) rotatably installed in the support (41); Antenna storage mechanism 40 with: Removably inserted into the insertion hole (43a) of the first and second fixing holes (23b, 23c) of the instrument measuring instrument first side plate (22) or the antenna storage device mounting base 43 Fastening unit 51; Connection terminal 52 is installed on the lower portion of the fastening unit 51; Installed on the upper portion of the fastening unit 51 and electrically connected to the connection terminal 52 and communicate with a plurality of satellites (S) Receiver port 50 having a multi-stage antenna 53: a fastening groove 61 to which the fastening portion 51 of the receiver tool 50 is detachably inserted, and a vertical through-hole formed below the fastening groove 61. And It has a through hole 62 through which the connecting terminal 52 of the receiver port 50 passes, and a coupling groove 63 which is opened downward, so that the lower part of the survey instrument receiving device first guide plate 23 or the antenna is stored. Fastening mechanism (60) disposed below the instrument mounting table (43): a fastening hole (71a) is formed in the periphery and vertically penetrating, the fixing portion (71) disposed on the upper portion of the survey instrument receiving instrument lower plate (21); A bolt portion 72 inserted into the fastening hole 71a of the fixing portion 71 and the fixing hole 12a of the holder 10; a bolt portion 72 disposed below the insert 12 of the holder 10; A nut unit 73 which is fastened to the upper surface of the fixing unit 71 and is installed on top of the fixing unit 71 and communicates with a plurality of satellites S; A connector 75 having a protruding portion 75a, an opening portion 75b opened upward, and a connection terminal 75c installed in the opening portion 75b and detachably inserted into the receiver port connecting terminal 52; Terminal (75c) And a communication line 76 that electrically connects the GPS instrument 74; GPS surveying apparatus 70 accommodated in the survey instrument receiving apparatus 20: an outer side of the back plate 26 of the survey instrument receiving apparatus 20; Cushion member 80 of elastic material to be installed in: Suspender member 90 is installed on the back plate 26 of the measuring instrument receiving device 20:

Equipped with a plurality of GPS surveying equipment (G) installed at each surveying position,

And a control unit.

According to the present invention as described above, it is possible to cool the inside of the survey instrument receiving apparatus can effectively manage the GPS survey instrument, and also has the effect of facilitating the movement of the worker in hot weather.

In addition, the present invention can secure the moving path safely when the movement route to the surveying position in the observation area is dark, in particular, there is an effect that can safely secure the movement route when finishing the survey work at night.

In addition, the present invention has the effect of preventing damage to the GPS instrument by removing the foreign matter on the GPS instrument.

In addition, the present invention can achieve a stable communication even in a region difficult to communicate with satellite, there is an effect that can accurately measure the reference point through the accurate GPS measurement through the error reduction.

In addition, the present invention, when the operator moves the area where the movement path to the survey position is not made stable, there is an effect that can be moved safely and conveniently GPS instrument.

1 is a system diagram for explaining the present invention,
2 is a perspective view for explaining a GPS surveying equipment omitting a GPS surveying apparatus according to the present invention;
3 is a partial cross-sectional view taken along line XX of FIG.
Figure 4 is a partial perspective view showing the back of the back plate to explain the back and fan switch according to the invention,
5 is a perspective view for explaining a fan mechanism according to the present invention;
6 is an enlarged view of portion A of FIG.
7 is a perspective view and exploded perspective view for explaining the installation mechanism, the flashlight and the dust removing member according to the present invention,
8 is a cross-sectional view for explaining the installation mechanism, the flashlight, and the dust removing member according to the present invention;
9 to 12 are diagrams for explaining the operation of the present invention.

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

Referring to Figures 1 to 8 will be described the structural features of the present invention.

Precise GPS surveying system for a reference point survey according to the present invention is made through a plurality of satellites (S) and a plurality of GPS surveying equipment (G).

The satellite S is a common one used for GPS surveying and can be easily performed by a person skilled in the art.

GPS surveying equipment (S) is a cradle (10), survey instrument receiving mechanism (20), fan mechanism (130), fan switch 140, opening and closing mechanism (30), installation mechanism (100), flashlight (110), dust removal A member 120, an antenna storage mechanism 40, a receiver mechanism 50, a fastening mechanism 60, a GPS surveying device 70, a cushion member 80, and a suspender member 90 are provided.

The holder 10 has a panel-shaped holder main body 11 and a larger width than the holder main body 11, and fixing holes 12a penetrating up and down are formed at both sides thereof, and the upper part of the holder main body 11 is formed. It is provided with a panel-shaped insert 12 to be installed, and a plurality of support legs 13 installed in the lower part of the holder main body 11. In this embodiment, the connection of the holder main body 11 and the support leg 13 forms a tripod shape as a whole.

The survey instrument receiving device 20 includes a lower plate 21, a first side plate 22, a first guide plate 23, a second side plate 24, a second guide plate 25, and a back plate 26. As a whole, it forms a backpack shape.

The lower plate 21 is opened downwardly and is inserted into the insertion groove 21a into which the insert 12 of the holder 10 is detachably inserted, and is disposed above the insertion groove 21a so as to communicate with the insertion groove 21a. It has a through hole 21b penetrated up and down.

The first side plate 22 is installed on one side of the lower plate 21 and protrudes upward to form a side wall. In the present embodiment, the first side plate 22 is formed to be inclined downward in the upper upper corner portion.

The first guide plate 23 is opened inward to guide grooves 23a formed along the longitudinal direction, and formed through the upper and lower first through holes and communicating with the guide grooves 23a. The second fixing hole 23c is formed to penetrate up and down in the lower portion to face the first fixing hole 23b and communicate with the guide groove 23a. One end of the first guide plate 23 is installed along the upper circumference of the first side plate 22 and protrudes inward.

The second side plate 24 is installed on the other side of the lower plate 21 to face the first side plate 22 and protrudes upward to form a side wall. In the present embodiment, the second side plate 24 is formed to be inclined downward in the upper upper corner portion.

The second guide plate 25 has a guide groove 25a which is opened inward and is formed along the longitudinal direction. In addition, one end of the second guide plate 25 is installed along the upper circumference of the second side plate 24, and protrudes inward to face the first side plate 22.

The backrest plate 26 is provided in the rear end of the 1st side plate 22 and the 2nd side plate 24, and a lower end is provided in the upper part of the rear end of the lower board 21. As shown in FIG. In addition, the back plate 26 has an upper end facing the first guide plate 23 and the second guide plate 25 so that one side of the first guide plate guide groove 23a and the second guide plate guide groove 25a may be formed. To close. In addition, the back plate 26 has a plurality of vent holes 26a formed therethrough.

The fan mechanism 130 includes a plurality of exhaust holes 131a, an exhaust box 131 installed in the back plate 26, and a fan 132 installed in the exhaust box 131 and generating wind. It is housed in the survey instrument receiving apparatus 20. In the present embodiment, a plurality of fan mechanisms 130 are provided and have their own portable batteries. In addition, the fan 132 of the fan mechanism 130 is driven by a separate drive motor.

The fan switch 140 is installed on the outer surface of the survey instrument receiving mechanism 20 to turn the fan mechanism 130 on or off. In this embodiment, the fan switch 140 is installed on the back plate 26 and is electrically connected to the plurality of fan mechanisms 130 through wires passing through the back plate 26.

The opening and closing mechanism 30 has a slide bar 31 and an opening and closing membrane 32.

One end of the slide bar 31 is inserted into the guide groove 23a of the first guide plate 23, and the other end of the slide bar 31 is inserted into the guide groove 25a of the second guide plate 25. ) And move along the longitudinal direction of the second guide plate 25. In the present embodiment, the slide bar 31 forms a circular bar shape.

One end of the opening and closing membrane 32 is installed on the slide bar 31 and the other end is installed on the upper end of the backrest plate 26 to open and close the measurement instrument accommodation mechanism 20. In the present embodiment, the opening and closing membrane 32 may have a predetermined elasticity.

The mounting mechanism 100 includes a support base 101, a swivel table 102, and a mounting table 103.

The support base 101 is installed inside the first guide plate 23 or the second guide plate 25 of the measurement instrument accommodation mechanism 20.

Swivel table 102 is rotatably installed in the front and back to the support (101).

The mounting table 103 includes a flashlight insertion hole 103a formed up and down through the tube, and a dust removing member insertion hole 103b neighboring to the flashlight insertion hole 103a and formed to penetrate up and down. Is installed on.

The flashlight 110 includes a fastening part 111 detachably inserted into the flashlight insertion hole 103a of the installation mechanism 100, a handle part 112 provided at an upper part of the fastening part 111, and a handle part. The lighting part 113 provided in the upper part of 112 is provided. In this embodiment, the fastening part 111 is screwed to the flashlight insertion hole (103a).

The dust removing member 120 includes a handle portion 121 detachably inserted into the dust removing member insertion hole 103b of the installation mechanism 100 and a sponge dust removal portion installed on the handle portion 121. Sieve 122. In the present embodiment, the dust removing body 122 is made of a sponge material, but if the dust can be removed, it may be modified to various materials.

The antenna storage mechanism 40 is installed inside the first guide plate 23 or the second guide plate 25 of the survey instrument accommodation mechanism 20, and the first guide plate 23 or the second guide plate 25. And a support table 41 installed in the interior thereof, a swivel table 42 rotatably installed in the front and rear sides of the support table 41, and a mounting table 43 through which the insertion hole 43a is formed to penetrate up and down.

The receiver 50 is a fastening part detachably inserted into the insertion holes 43a of the first and second fixing holes 23b and 23c of the survey instrument receiving device first side plate 22 or the antenna storage device mounting base 43 ( 51 and the connection terminal 52 installed on the lower portion of the fastening portion 51 and the upper portion of the fastening portion 51 and electrically connected to the connection terminal 52 and communicate with a plurality of satellites S. A multi-stage antenna 53 is provided. In the present embodiment, the fastening part 51 has a width at an upper end of the fastening part 51 greater than the width of the first and second fixing holes 23b and 23c.

The fastening mechanism 60 is opened upwardly and includes a fastening groove 61 in which a lower end of the receiver fastening portion 51 is detachably inserted, and a bottom and bottom penetrating portion formed below the fastening groove 61 and of the receiver tool 50. A through hole 62 through which the connection terminal 52 passes, and a coupling groove 63 opened downward, have a lower portion of the first measuring plate 23 of the survey instrument receiving device, or It is placed at the bottom. In the present embodiment, the fastening mechanism 60 has a width larger than the width of the first and second fixing holes 23b and 23c and the swivel insertion hole 43a, and the fastening part 51 of the receiver tool 50. Screwed together.

The GPS surveying apparatus 70 includes a fixing unit 71, a bolt unit 72, a nut unit 73, a GPS survey instrument 74, a connector 75, and a communication line 76, so that the survey instrument receiving mechanism ( 20).

The fixing part 71 is formed with a fastening hole 71a penetrating up and down at a circumference, and is disposed above the lower plate 21 of the survey instrument receiving device.

The bolt portion 72 is detachably inserted into the fastening hole 71a of the fixing portion 71 and the fixing hole 12a of the holder 10 and the through hole 21b of the lower plate 21 to be screwed together.

The nut portion 73 is disposed below the insert 12 of the holder 10 and is fastened to the bolt portion 72. In the present embodiment, the nut portion 73 is screwed to the bolt portion 72.

GPS instrument 74 is installed on the top of the fixing portion 71 and communicates with a plurality of satellites (S). In the present embodiment, the GPS instrument 74 communicates with the plurality of satellites S through the antenna 53 of the receiver mechanism 50. In addition, in the present embodiment, the GPS instrument 74 may communicate with the satellite S by embedding its own receiver. On the other hand, the GPS surveyor 74 is a conventional one used in GPS surveying, and can be easily implemented by those skilled in the art.

The connector 75 is provided in the protrusion 75a detachably installed in the coupling groove 63 of the fastening mechanism 60, the groove-shaped opening 75b opened upward, and the receiver 75b. The connecting terminal 52 is provided with the connecting terminal 75c which is detachably inserted.

The communication line 76, one end is installed in the lower portion of the connector 75, the other end is installed in the GPS instrument 74, and the connection terminal 75c and the GPS instrument 74 is electrically connected so that communication is performed. do.

The cushion member 80 is installed on the outer side of the back plate 26 of the survey instrument receiving device 20 and is made of an elastic material.

The suspender member 90 is installed on the back plate 26 of the survey instrument accommodation device 20, so that the operator can carry out the measurement instrument accommodation device 20.

Referring to Figures 9 to 12 will be described the operation of the precision GPS surveying system for a reference point survey according to the present invention.

The operator receives the receiver tool 50 in the survey instrument receiving apparatus 20 as shown in FIG. 9 to perform a GPS survey. At this time, the worker uses the fastening mechanism 60 to fix the receiver mechanism 50 to the antenna storage mechanism (40).

Then, the operator receives the GPS survey instrument 74 in the survey instrument receiving apparatus 20, and then uses the bolt portion 72 and the nut portion 73 of the GPS survey instrument 70 to receive the GPS survey instrument 74. It is fixed to the lower plate 21 of the mechanism 20.

Then, the operator moves the slide bar 31 of the opening and closing mechanism 30 downward, so that the opening and closing membrane 32 closes the front of the measuring instrument accommodation mechanism 20.

Since a plurality of operators after each of the plurality of measurement instrument receiving mechanism 20, the GPS surveying is moved to a plurality of positions required.

At this time, the worker drives the fan mechanism 130 through the fan switch 140 when the ambient temperature is high. Then, as shown in FIG. 10, the wind is emitted from the fan mechanism 130, and the internal temperature of the instrument receiving apparatus 20 is lowered, so that the GPS instrument 74 is not affected by the temperature. And the air inside the measurement vessel receiving device 20 is discharged to the vent hole 26a of the back plate 26 as shown in Figure 11 to cool the heat of the worker.

On the other hand, when the movement path is dark, the worker moves the opening and closing membrane 32 to the upper portion of the first guide plate 23 and the second guide plate 25 to open the measurement instrument accommodation mechanism 20, the survey instrument accommodation mechanism After removing the flashlight 110 from 20, the survey instrument receiving apparatus 20 is closed again. And the worker to ensure the safety of the moving path by turning on the flashlight (110).

After that, each worker who arrives at the surveying position installs the survey instrument receiving device 20 on the holder 10 and moves the opening and closing membrane 32 to the upper portion of the first guide plate 23 and the second guide plate 25. The measurement instrument accommodation mechanism 20 is opened.

Then, the operator removes the dust removing member 120 from the survey instrument receiving apparatus 20, and then wipes the display unit of the GPS survey instrument 74 using the dust removing member 120.

On the other hand, in the GPS survey, when there is an obstacle such as a forest in the surroundings it is difficult to communicate with the satellite (S).

The operator then separates the receiver tool 50 from the antenna storage mechanism 40. Then, the operator passes the receiver fitting part 51 through the first fixing hole 23b, the guide groove 23a, and the second fixing hole 23c of the first side plate 23, and then the opening and closing mechanism 30 Hang the slide bar (31).

Subsequently, the worker fastens the fastening mechanism 60 to the fastening portion 51 of the receiver mechanism 50 to limit the movement of the opening and closing mechanism slide bar 31.

Thereafter, the worker couples the connector 75 of the GPS surveying device 70 to the fastening mechanism 60 so that the connection terminal 75c of the connector 75 and the connection terminal 52 of the receiver port 50 are connected. do.

Thereafter, the operator pulls the antenna 53 of the receiver tool 50 upward so that the GPS instrument 74 can stably communicate with the satellite S as shown in FIG. 12.

And the operator drives the GPS instrument 74, whereby the GPS instrument 74 is in communication with a plurality of satellites (S), the surveying position is observed.

Meanwhile, the plurality of GPS survey instruments 74 perform simultaneous observation at each surveying position, and the surveying information thus observed is used for surveying a reference point or an unknown point through a post-processing method. Here, GPS surveying through a post-processing method is a well-known technique, which can be easily performed by a person skilled in the art.

As described above, the present invention can cool the inside of the survey instrument receiving apparatus 20 to effectively manage the GPS survey instrument 74, and also facilitate the movement of the worker in hot weather.

In addition, the present invention can secure the moving path safely when the movement route to the survey position in the observation area is dark, in particular, it is possible to finish the survey work and secure the movement route when moving at night.

In addition, the present invention can prevent the damage to the GPS instrument 74 by removing the foreign matter on the GPS instrument 74.

In addition, the present invention by using the receiver mechanism 50, to ensure a stable communication in the area difficult to communicate with the satellite (S), by limiting the movement of the opening and closing mechanism slide bar 31, of the survey instrument receiving mechanism 20 By keeping the opening state stable, the operator facilitates the operation of the GPS instrument 74.

In addition, in the case of the present invention, when the worker moves the area where the movement path to the survey position is not made stable, the GPS surveyor 74 is accommodated in the survey instrument accommodation mechanism 20, so that it can be moved safely and conveniently.

S; Satellite G; GPS Surveying Equipment
10; Cradle 20; Instrument
30; Switchgear 40; Antenna storage
50; Receiver port 60; Fasteners
70; GPS surveying device 80; Cushion member
90; Suspender member 100; Installation mechanism
110; Flashlight 120; Dust removal member
130; Fan mechanism 140; Fan switch

Claims (1)

Multiple satellites (S),
The holder body 11 and the fixing body 12a having a larger width than the holder body 11 and penetrating up and down on both sides are formed, and the panel-shaped insert body is installed on the holder body 11 ( 12) and the cradle 10 having a plurality of support legs 13 installed on the cradle main body 11:
An insertion groove 21a through which the insert 12 of the cradle 10 is detachably inserted, and is inserted into the insertion groove 21a and communicates with the insertion groove 21a and penetrates up and down. A lower plate 21 having a hole 21b; A first side plate 22 installed at one side of the lower plate 21 and protruding upward; A guide groove 23a which is opened inward and is formed along the longitudinal direction, a first fixing hole 23b which is formed to penetrate upward and downward and communicates with the guide groove 23a, and a first fixing hole 23b. The second fixing hole (23c) is formed to face through and communicate with the guide groove (23a) in the lower portion facing down, one end is installed along the upper circumference of the first side plate (22), protruding inward One guide plate 23; A second side plate 24 installed on the other side of the lower plate 21 so as to face the first side plate 22 and protruding upward; A second groove having one guide groove 25a which is opened inward and is formed along the longitudinal direction, one end of which is installed along the upper circumference of the second side plate 24 and protrudes inwardly to face the first side plate 22; Guide plate 25; Surveyor accommodation device 20 having a; back through the plurality of vent holes (26a), the back plate 26 is provided;
An exhaust box 131 having a plurality of exhaust holes 131 a and installed in the back plate 26; Fan 132, which is built in the exhaust box 131 and generates wind;
Fan switch 140 is installed on the outer surface of the survey instrument receiving mechanism 20 to turn on or off the fan mechanism 130:
One end is inserted into the guide groove 23a of the first guide plate 23, and the other end is inserted into the guide groove 25a of the second guide plate 25, so that the first guide plate 23 and the second guide plate are A slide bar 31 moving along the longitudinal direction of the 25; Opening and closing mechanism 30; one end is installed on the slide bar 31 and the other end is installed on the top of the back plate 26 to open and close the opening and closing membrane 32 for opening and closing the measurement instrument receiving mechanism 20;
A support 101 installed inside the first guide plate 23 or the second guide plate 25 of the measurement instrument accommodation mechanism 20; Rotating table 102 rotatably installed on the support 101; A mounting table 103 installed on the rotary table 102 having a flashlight insertion hole 103a vertically penetrated and a dust removing member insertion hole 103b adjacent to the flashlight insertion hole 103a and vertically penetrating therethrough; Equipped fixture 100:
A fastening part 111 detachably inserted into the flashlight insertion hole 103a of the installation mechanism 100; A handle portion 112 provided on an upper portion of the fastening portion 111; Flashlight 110 provided with a lighting unit 113 provided on the upper portion of the handle 112:
A handle portion 121 detachably inserted into the dust removing member insertion hole 103b of the installation mechanism 100; A dust removing member 120 having a sponge dust removing body 122 installed on an upper portion of the handle 121;
A support (41) installed inside the first guide plate (23) or the second guide plate (25) of the survey instrument accommodation device (20); A swivel table 42 rotatably installed on the support 41; Insertion hole (43a) is formed to penetrate up and down, the mounting base 43 is installed on the swivel 42; Antenna storage mechanism 40 with:
A fastening part 51 detachably inserted into the first and second fixing holes 23b and 23c of the instrument measuring instrument first side plate 22 or the insertion hole 43a of the antenna storage device mounting base 43; A connection terminal 52 installed below the fastening part 51; Receiver unit 50 is installed on the upper part of the fastening portion 51 and electrically connected to the connection terminal 52 and provided with a multi-stage antenna 53 for communicating with a plurality of satellites (S):
The fastening groove 61 in which the fastening part 51 of the receiver port 50 is detachably inserted, and is formed to penetrate up and down below the fastening groove 61, and the connection terminal 52 of the receiver port 50 passes through the insertion hole. Fastening mechanism (60) having a through hole (62) and a coupling groove (63) opened downward, which is disposed below the first guide plate (23) of the survey instrument or the lower part of the antenna storage device mounting base (43). ):
A fastening hole 71a penetrated vertically through the circumference portion, and a fixing part 71 disposed on an upper portion of the lower plate 21 of the survey instrument receiving device; A bolt portion 72 inserted into the fastening hole 71a of the fixing portion 71 and the fixing hole 12a of the holder 10; A nut part 73 disposed below the insert 12 of the holder 10 and fastened to the bolt part 72; A GPS surveyor 74 installed at an upper portion of the fixing unit 71 and communicating with a plurality of satellites S; A protrusion 75a detachably installed in the coupling groove 63 of the fastening mechanism 60, an opening 75b opened upward, and a receiver connection terminal 52 installed in the opening 75b and detachable. A connector (75) having a connection terminal (75c) to be inserted; A GPS measurement device 70 having a communication line 76 for electrically connecting the connection terminal 75c and the GPS measurement device 74;
Cushion member 80 of elastic material installed on the outside of the back plate 26 of the survey instrument receiving device 20:
Suspender member 90 installed on the back plate 26 of the survey instrument receiving device 20:
Equipped with a plurality of GPS surveying equipment (G) installed at each surveying position,
Precision GPS surveying system for a reference point survey, characterized in that it comprises a.

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