KR101115603B1 - Measurement data collection system - Google Patents

Abstract

PURPOSE: A precision position verifier ground survey data acquisition system of topography through reference point is provided to protect a photo survey device from fire. CONSTITUTION: A precision position verifier ground survey data acquisition system of topography through reference point comprises a main body(100), a camera installation part(200), a rotational plate rotation device(300), a tide tamper-proof device(900), a fire perception sensor, a rotation angle measure system, a camera(400), a camera rotating device(500), and a high angle measure system. The main body has a base and a rotational plate support stand. The camera installation part has a rotational plate and a camera support. The rotational plate rotation device has a rotary shaft and a drive unit. The tide tamper-proof device comprises the tide detection sensor and a voice expulsion device. The fire perception sensor is installed in the lower part of the camera support.

Description

Ground Survey Data Collection System for Precise Positioning of Terrain Using Reference Points {Measurement Data Collection System}

The present invention relates to a ground survey data collection system for precise positioning of terrain through a reference point.

In general, surveying refers to determining the location of each point on the surface and the distance between the points and measuring the height and area of the terrain.

Such surveying is divided into flat survey, photographic survey and triangular survey by means of surveying, and divided into topographic survey, channel survey and geological survey according to the purpose of surveying, and used for mapping, boundary line division and construction.

In particular, the photogrammetry includes aerial photographic surveys and ground photographic surveys. The photographic surveys are used to produce and modify topographic maps, cadastral maps, and digital maps.

On the other hand, the ground photogrammetry is used to collect more precise survey data that is difficult to secure by aerial survey.

However, in the above ground photogrammetry, the worker periodically visits a plurality of relevant areas, checks the change of the terrain, and then photographs the corresponding area where the change has occurred, as shown in FIG. 1 to collect survey photo data of the corresponding area. can do.

However, in the conventional ground photogrammetry, since the worker has to visit the changed area and confirm the terrain change, the work time was unnecessarily wasted.

In addition, the ground photogrammetry has been wasted a lot of human and physical resources, such as the movement time of the worker, the transfer operation of the photographing equipment when the terrain does not occur in the visited area.

Therefore, there was a need for a system that can collect photogrammetric data by integrating changes in various terrains without operator visits, and is safe, easy to manage, and accurate from surrounding obstacles such as birds used in such systems. Photogrammetry was needed.

The present invention has been invented by the necessity as described above, it is possible to secure the management of the survey equipment to enable a stable system operation for a long time, and to remotely check the changed terrain, while updating the existing survey data, management It is an object of the present invention to provide a ground survey data collection system for precise positioning of terrain through a reference point having an easy, safe and convenient survey device.

The present invention for solving the above problems,

The main body 100 having a plate-shaped base 110 and a pair of rotating plate supporters 120 are installed to face each other, but are installed to protrude upward, and a seating groove 121 is formed in the upper inner side. ,

A camera having a disk shape and a rotating plate 210 having a circumferential portion rotatably inserted into the seating groove 121 of the rotating plate support 120 and a camera support 220 installed at the center of the rotating plate 210 and protruding upward. Installation unit 200,

Rotating plate rotating device 300 having a rotating shaft 310 is installed in the center of the rotating plate 210 of the camera installation unit 200, and a driving device 320 connected to the rotating shaft 310 to rotate the rotating plate 210,

Is installed on the rotary plate support 120 and the rotating plate 210 of the camera installation unit 200 of the main body 100, a bird detection sensor 910 for outputting a bird detection signal by detecting a bird present in the surrounding; Is installed on the rotating plate support 120 of the main body 100 or the rotating plate 210 of the camera installation unit 200, when the bird detection sensor 910 detects the movement of the bird outputs a voice that the bird dislikes to the outside Bird Approach Prevention device 900 with device 920,

The camera is installed in the lower portion of the camera support 220, a fire detection sensor (FS) for detecting the fire of the rotating plate rotating device 300,

Fire extinguishing powder is built-in, installed in the lower portion of the camera mounting unit camera support 220, when the fire detection sensor (FS) detects the fire, extinguishing powder spraying device for spraying the extinguishing powder to the rotating plate rotating device 300 (EI ),

Rotation angle measuring device (R1) is installed on the rotating plate rotating device 300 to measure the rotation angle of the rotating plate 210,

Is installed on the camera support 220 of the camera installation unit 200 to be rotated up and down, the camera 400 for taking a picture of the surroundings,

Camera rotating apparatus 500 having a rotating shaft 510 connected to the camera 400 and a driving device 520 installed on the camera support 220 and connected to the rotating shaft 510 to rotate the camera 400 in the vertical direction. ),

Elevation measuring device (R2) installed on the camera rotating device 500 for measuring the elevation of the camera 200,

Three or more shock absorbers 600, which are installed to face each other at the lower circumference of the body base 110, and have a spring-loaded buffering action,

An accommodation space 711 formed therein; A first pressurizing insertion hole 712 formed through the central portion of the circumference to communicate with the accommodation space 711; A second pressing insertion hole 713 formed through and opposed to the first pressing insertion hole 712 in a horizontal direction and communicating with the accommodation space 711; The first fixing insertion hole 714 formed through the first pressing insertion hole 712 to face each other in the front and rear, but formed in the upper portion than the first pressing insertion hole 712 to communicate with the receiving space 711. ); A second fixing insertion hole 715 formed through the second pressing insertion hole 713 so as to face each other in a front and rear direction and communicating with the receiving space 711; A third fixing insertion hole 716 formed through the upper part of the first fixing insertion hole 714 so as to be located on the same line in an up and down direction and communicating with the accommodation space 711; A fourth fixing insertion hole 717 formed through the upper part of the second fixing insertion hole 715 so as to be positioned on the same line in an up and down direction and communicating with the accommodation space 711; A wheel exposure hole 719 formed in the lower portion and penetrating up and down to communicate with the accommodation space 711; The wheel mounting part 710 having a pair of opening holes 718 formed in the lower part and opened downward and communicating with the receiving space 711 to be formed to face each other around the wheel exposure hole 719 and:

A through-hole formed in the left and right direction and communicating with the first pressing insertion hole 712 of the wheel mounting portion 710 and the first lubricating oil line 721b opened laterally and communicating with the pressing hole 721a. ), A locking projection 721c formed at an inner circumference of the first lubricant line 721b, and a through hole formed at a lower portion thereof, and communicating with the first lubricant line 721b to open the hole 718 of the wheel installation unit 710. A lower plate 721 having a lubricating oil injection portion 721d inserted into and inserted into the shell; A through hole formed in the left and right and having a fixing hole 722a communicating with the first fixing insertion hole 714 or the third fixing insertion hole 716 of the wheel mounting portion 710, the upper side of the lower plate 721 The first side plate 722 is formed as a; A first side plate having a second lubricating oil line 723a communicating with the first lubricating oil line 721b and a discharge hole 723b formed at an upper side thereof and opened outward to communicate with the second lubricating oil line 723a. A first elevating member 720 having a second side plate 723 connected upwardly to the lower plate 721 so as to face 722:

A through-hole formed in left and right to communicate with the second pressing insertion hole 713 of the wheel mounting portion 710 and the first lubricating oil line 731b which is opened laterally and communicates with the pressing hole 731a. ), A locking step 731c formed in the inner circumference of the first lubricant line 731b, and a through hole formed in the lower portion thereof, and communicating with the first lubricant line 731b to open the hole 718 of the wheel installation unit 710. A lower plate 731 having a lubricating oil injection portion 731d inserted into and inserted into the shell; A through hole formed in the left and right and having a fixing hole 732a communicating with the second fixing insertion hole 715 or the fourth fixing insertion hole 717 of the wheel mounting portion 710, the upper side of the lower plate 731 The first side plate 732 is formed as a; A first side plate having a second lubricating oil line 733a communicating with the first lubricating oil line 731b, and a discharge hole 733b formed at an upper portion thereof and opened outward and communicating with the second lubricating oil line 733a. A second side plate 733 which is connected to the lower plate 731 to face the first plate 731 so as to face the first lifting member 720 around the wheel exposure hole 719; With elevating member 730:

Both ends are installed on the second side plates 722 and 732 of the first elevating member 720 and the second elevating member 730, respectively, and are disposed to be disposed below the discharge holes 723b and 733b of the second side plates 722 and 732, respectively. With axis of rotation 740:

A first check valve 750 installed in the lubricating oil injection portions 721d and 731d of the lower plates 721 and 731 of the first and second lifting members 720 and 730 so as to flow only in the direction in which the lubricating oil is injected;

A second check valve 760 installed in the discharge holes 723b and 733b of the second side plates 723 and 733 of the first and second elevating members 720 and 730 to open and close only so that the lubricant is discharged to the outside;

One end is round and the other end is provided with a protrusion 771, the opening and closing port 770 is inserted into the first lubricating oil line (721b, 731b) so as to apply pressure to the lubricant during movement;

Removably installed in the first and second pressure insertion holes 712 and 713 of the wheel mounting portion 710 and the pressure holes 721a and 731a of the first and second lifting members 720 and 730, and the first lubricating oil line 721b, A pressure port P inserted in 731b to press the opening and closing port 770;

Removably installed in the fixing holes 722a and 732a of the first to fourth fixing insertion holes 714 to 717 of the wheel mounting unit 710 and the first and second lifting members 720 and 730, Fixtures F for securing members 720 and 730 and:

One end is fixed to the upper portion of the receiving space 711 of the wheel mounting portion 710, the other end is fixed to the upper portion of the lower plate 721 of the first elevating member 720, the first elevating member 720 downward The first spring (S1) and the elastic support:

One end is fixed to the upper portion of the receiving space 711 of the wheel mounting portion 710, the other end is fixed to the upper portion of the lower plate 731 of the second elevating member 730, the second elevating member 730 downward The second spring (S2) to support the bullet:

Wheel 780 rotatably installed on the rotating shaft 740:

The mobile device 700 is installed in the lower portion of the shock absorber 600,

GPS device (G) is installed in the main body 100,

Support base CA1 installed to be inclined outward at the bottom of the main body base 110, and an external force sensor CA2 installed at the bottom of the support CA1 to detect external force and outputting a detection signal to the remote computer 10. Photogrammetry device with a checker (CA),

With a transceiver 800 for transmitting and receiving a signal, a plurality of photogrammetry device (A) which is installed at the shooting position,

A transceiver 11 for communicating signals with the transceiver 800 of the photogrammetry device A; A display device 12 indicating an operation state of the photogrammetry device A and the remote computer 10; An input device 13 for inputting a control signal so that the photogrammetry device A and the remote computer 10 are controlled; Rotating plate rotating device 300, camera 400, camera rotating device 500, rotating angle measuring device R1, elevation measuring device R1, GPS device G, and receiver 300 of the photogrammetry device A. The operation control of the transceiver 11, the display device 12, and the input device 13 of the photographing abnormality checking device CA and the remote computer 10 is carried out at the initial GPS position of the photogrammetry device A. The left and right rotation angles and the up and down rotation angles of the camera 400 are calculated by calculating the values of the left and right rotation angles of the camera 400 necessary for the photographing direction of the camera 400 toward the reference point coordinates based on the coordinates according to the coordinates. Each value is output to the display device 12, while the camera 400 is rotated by the left and right rotation angles and the up and down rotation angles measured from the initial position of the photogrammetry device A at the o-position of the photogrammetry device A. When the reference point photographing target installed at the reference point is checked within the error range, the camera 400 determines the surrounding terrain. And to reflect the remote computer 10 with a control unit 14 for storing the photogrammetric data corresponding to the recorded image,

A survey data DB 21 for storing existing photo survey data and storing the photo survey data collected by a remote computer 10; Surveying data collection device (20) having a new surveying data module (22) for comparing the photogrammetric data and the existing photogrammetry data to update the existing photogrammetry data that has changed with newly collected photogrammetry data.

Characterized in that it comprises a.

According to the present invention as described above, it is possible to secure the management of surveying equipment to enable a stable system operation for a long time, by collecting accurate photogrammetry data for the location according to the location information, accurate topographic map, intellectual map, numerical map production, etc. This has a possible effect.

In addition, the present invention can confirm the abnormality of the photogrammetry device, the management of the photogrammetry device is easy, and by providing a fire suppression means, the photogrammetry device can be protected from fire, By supplying lubricating oil to the moving device of the surveying device, there is an effect that the moving device of the photogrammetric device can be conveniently used even if it is not used for a long time.

1 is a schematic diagram showing a conventional photogrammetry,
2 is a view showing the overall system of the present invention,
3 is a view showing a photogrammetry device of the present invention,
4 is a plan view of FIG. 3,
5 is a cross-sectional view showing a conveying apparatus of the present invention,
FIG. 6 is a view illustrating a portion X of FIG. 5,
7 is a view showing a portion Y of FIG.
8 is a cross-sectional view taken along the line AA of FIG.
9 is a cross-sectional view taken along the line BB of FIG.
10 is a side view of FIG. 5,
11 to 17 are operation diagrams for showing the operating state of the present invention.

Figure 2 is a view showing the overall system of the present invention, Figure 3 is a view showing a photogrammetry device of the present invention, Figure 4 is a plan view of Figure 3, Figure 5 is a cross-sectional view for showing the transfer device of the present invention. 6 is a view showing the X portion of FIG. 5, FIG. 7 is a view showing the Y portion of FIG. 5, FIG. 8 is a cross-sectional view taken along line AA of FIG. 5, a line BB line of FIG. 10 is a side view of FIG. 5 and the present invention will be described with reference to FIGS. 2 to 10.

The present invention provides a plurality of photogrammetry devices (A) for photogrammetry, a remote computer (10) for operating and controlling each photogrammetry device (A), and a surveyor for updating photogrammetry data from the remote computer (10). It consists of a data collection device 20.

The photogrammetry device (A), the main body 100, the camera mounting unit 200 is installed on the main body 100, the rotating plate rotating device 300 in conjunction with the camera mounting unit 200, the main body 100 Fire extinguishing powder injection device (EI) that operates according to the operation of the fire detection sensor (FS), the fire detection sensor (FS) and the bird access preventing device 900, the camera installation unit 200 is installed in the) and , The rotation angle measuring device R1 installed on the rotating plate rotating device 300, the camera 400 rotatably installed on the camera mounting unit 200, and the camera rotating device 500 rotating the camera 400 up and down. ), The elevation measuring device (R2) is installed in the camera rotation device 500, the shock absorber 600 is installed in the main body 100, the mobile device 700 is installed in the shock absorber 600, GPS GPS device (G) for receiving a position signal, a transceiver (800) installed in the main body (100), and a photogrammetry device confirmation device (CA) for checking the abnormality of the photogrammetry device (A). Come on, it is installed in a location to be photographed.

The main body 100 includes a plate-shaped base 110 and at least two or more rotating plate supporters 120 that are installed to face each other. At this time, the rotation plate support 120 is formed to protrude upward, the inner side is formed with a mounting groove 121 opened to the outside. In this embodiment, the base 110 preferably forms a disc shape.

The camera installation unit 200 is formed in the center of the rotating plate 210 and the rotating plate 210 and the circumference is rotatably inserted into the seating groove 121 of the rotating plate support 120, and protrudes upwards Equipped with a camera support (220). At this time, the camera support 220 is preferably provided with a pair to face each other.

The rotating plate rotating apparatus 300 is connected to the rotating shaft 310 and the rotating shaft 310 is installed in the center of the rotating plate 210 of the camera mounting unit 200, the rotating plate 210 of the camera mounting unit 200 It is equipped with a drive unit 320 to rotate. At this time, the driving device 320 is installed in the upper center of the main body base 110, to rotate the rotary shaft 310. In this embodiment, it is preferable that the driving device uses a motor or the like.

The bird approach prevention device 900, a bird detection sensor 910 for detecting the approach of the bird approaching the change detection device (A), and the voice emitting device 920 to combat the bird approaching the photogrammetry (A). )

The bird detecting sensor 910 is installed on the rotating plate support 120 and the rotating plate 210 of the camera installation unit 200 of the main body 100, and outputs a bird detection signal by detecting a bird present in the surroundings do. In the present embodiment, the bird detection sensor 910 may be an ultrasonic sensor or an infrared sensor.

The sound emitting device 920 is installed on the rotating plate support 120 of the main body 100 or the rotating plate 210 of the camera installation unit 200, and when the bird detecting sensor 910 detects the movement of the bird to the outside Outputs voices that birds don't like. The voice emitting device 920 includes a conventional speaker, and may output a voice that the bird dislikes depending on the species of birds mainly appearing around.

Meanwhile, the bird approach preventing device 900 is provided with a separate control unit, the bird detection sensor 910 and the voice emitting device 920 can be controlled by the control unit, the control unit 14 of the remote computer 10 It can also be controlled remotely.

The fire sensor (FS) is installed in the lower portion of the camera mounting unit camera support 220, to detect the fire of the rotating plate rotating device 300. In the present embodiment, the fire detection sensor FS detects smoke or light and outputs a fire signal, and thus a detailed description thereof will be omitted.

The fire extinguishing powder injection device (EI) is a fire extinguishing powder is built-in, installed in the lower portion of the camera support unit camera support 220, when receiving a fire from the fire detection sensor (FS), rotating plate rotating device 300 Spray). At this time, the extinguishing powder injection device EI is provided with a valve, and when a fire signal is received from the fire detection sensor FS, the extinguishing powder compressed and stored at high pressure is opened by opening the valve. In this embodiment, the fire extinguishing powder is conventionally used for fire suppression, and a detailed description thereof will be omitted.

Meanwhile, the fire detection sensor FS and the fire extinguishing powder injection device EI may be provided with a separate control unit, which may be controlled by the control unit, and may be controlled remotely by the control unit 14 of the remote computer 10. It may be.

The rotation angle measuring device R1 is installed on the rotating plate rotating device 300 to measure the rotation angle of the rotation shaft 310 and to check the direction in which the camera 400 faces. At this time, the rotation angle measuring device R1 measures the rotation angle of the rotating plate 210 rotating clockwise or counterclockwise from side to side. In the present embodiment, the rotation angle measuring device R1 preferably uses an encoder or the like.

The camera 400 is installed on the camera support 220 of the camera installation unit 200 so as to be rotatable vertically, to photograph the surroundings. The camera 400 is a conventional one capable of securing survey data by capturing an image, and a detailed description thereof will be omitted.

The camera rotating device 500, the rotating shaft 510 is connected to the camera 400, the camera support 220 is installed on the drive shaft (510) is connected to the rotating shaft 510 to rotate the camera 400 in the vertical direction ( 520). In the present embodiment, the driving device 520 is preferably a motor or the like.

The elevation measuring device R2 is installed in the camera rotating device 500 to measure the elevation angle of the camera 200, and the general direction of the camera 400 is known. In the present embodiment, the elevation measuring device R2 preferably uses an encoder or the like.

The shock absorber 600 is provided with a spring, and the four shock absorbers 600 are installed to face each other at the lower circumference of the main body base 110. In the present embodiment, the shock absorber 600 is a conventional shock absorber when a pressure exceeding a predetermined standard will be omitted.

The moving device 700, the wheel mounting portion 710 is installed in the lower portion of the shock absorber 600, the first and second elevating members (720, 730) and the first to the second installed in the wheel mounting portion 710, Lubrication oil is supplied to the rotary shaft 740 installed on the elevating members 720 and 730, the first and second check valves 750 and 760 and the opening and closing port 770 installed on the first and second elevating members 720 and 730, and the rotary shaft 740. Pressing tool (P) to be made, the fastener (F) for fixing the first and second elevating members (720, 730), and the first and second springs (S1, S2) for supporting the first and second elevating members (720,730) And a wheel 780 rotatably installed on the rotation shaft 740, respectively, installed in the shock absorber 600.

On the other hand, the shock absorber 600 and the moving device 700 is preferably provided with three or more.

The wheel installation unit 710 may include an accommodation space 711 formed therein; A first pressurizing insertion hole 712 formed through the central portion of the circumference to communicate with the accommodation space 711; A second pressing insertion hole 713 formed through and opposed to the first pressing insertion hole 712 in a horizontal direction and communicating with the accommodation space 711; The first fixing insertion hole 714 formed through the first pressing insertion hole 712 to face each other in the front and rear, but formed in the upper portion than the first pressing insertion hole 712 to communicate with the receiving space 711. ); A second fixing insertion hole 715 formed through the second pressing insertion hole 713 so as to face each other in a front and rear direction and communicating with the receiving space 711; A third fixing insertion hole 716 formed through the upper part of the first fixing insertion hole 714 so as to be located on the same line in an up and down direction and communicating with the accommodation space 711; A fourth fixing insertion hole 717 formed through the upper part of the second fixing insertion hole 715 so as to be positioned on the same line in an up and down direction and communicating with the accommodation space 711; A wheel exposure hole 719 formed in the lower portion and penetrating up and down to communicate with the accommodation space 711; It is formed in the lower portion is opened downward and is in communication with the receiving space 711 is provided with a pair of opening holes 718 formed to face each other around the wheel exposure hole 719.

The first elevating member 720 may include a first side wall 722 forming a sidewall, a lower plate 721 connected to a lower portion of the first side wall 722, and a first side wall 722 connected to a lower plate 721. ) And a second side wall 723 opposite the.

The lower plate 721 is formed to penetrate in the left and right direction to communicate with the first pressing insertion hole 712 of the wheel mounting portion 710 and the side plate is opened laterally to communicate with the pressure hole 721a. The first lubricating oil line (721b) to be formed, the inner circumference of the first lubricating oil line (721b) and the locking step (721c) provided in front of the lubricating oil injection portion (721d), and formed through the first lubricating oil A lubricating oil injection portion 721d communicating with the line 721b is inserted into and removed from the opening hole 718 of the wheel mounting portion 710.

The first side plate 722 is formed in the left and right through the fixing hole 722a communicating with the first fixing insertion hole 714 or the third fixing insertion hole 716 of the wheel mounting portion 710. In addition, it is formed above the lower plate 721.

The second side plate 723 has a second lubricating oil line 723a communicating with the first lubricating line 721b, and a discharge hole formed at an upper portion thereof and opened outward to communicate with the second lubricating oil line 723a. 723b is connected to the lower plate 721 so as to face the first side plate 722 and formed upward.

The second elevating member 730 includes a first side wall 732 forming a side wall, a lower plate 731 connected to a lower side of the first side wall 732, and a first side wall 732 connected to the lower plate 731. The second side wall 733 is disposed to face the first lifting member 720 around the wheel exposure hole 719 of the wheel mounting portion 710.

The lower plate 731 is formed to penetrate in the left and right direction and communicates with the second pressing insertion hole 713 of the wheel mounting portion 710, and is opened laterally to communicate with the pressure hole 731a. The first lubricating oil line 731b, which is formed in the inner circumference of the first lubricating oil line 731b and is provided in front of the first lubricating oil injection portion 731d, is provided with a locking jaw 731c, and is formed through the lower portion. 1 is provided with a lubricating oil injection portion 731d communicating with the lubricating oil line 731b and inserted into the opening hole 718 of the wheel mounting portion 710.

The first side plate 732 is formed in the left and right through the fixing hole 732a communicating with the second fixing insertion hole 715 or the fourth fixing insertion hole 717 of the wheel mounting portion 710. In addition, it is formed above the lower plate 731.

The second side plate 733 has a second lubricating oil line 733a communicating with the first lubricating oil line 731b, and a discharge hole formed at an upper side thereof and opened outward to communicate with the second lubricating oil line 733a. 733b), a second side plate 733 is formed to be connected to the lower plate 731 so as to face the first side plate 732 and upward.

Both ends of the rotation shaft 740 are installed on the second side plates 721 and 731 of the first elevating member 720 and the second elevating member 730, respectively, and the discharge holes 723b of the first and second side plates 721 and 731. 733b) to be disposed below. At this time, the rotation shaft 740 is disposed below the discharge holes 723b and 733b to easily receive the lubricating oil.

The first check valve 750 is installed in the lubricating oil injection portions 721d and 731d of the lower plates 721 and 731 of the first and second lifting members 720 and 730 to flow only in the direction in which the lubricating oil is injected. Therefore, the lubricant does not flow out through the lubricant injection parts 721d and 731d when the pressure is applied.

The second check valve 760 is installed in the discharge holes 723b and 733b of the second side plates 723 and 733 of the first and second elevating members 720 and 730 and opens and closes so that the lubricant oil is discharged only to the outside. Therefore, the lubricant is discharged to the rotating shaft 740 through the discharge holes (722b, 732b) under pressure.

The opening and closing hole 770 is rounded at one end and provided with a protrusion 771 at the other end circumference, and is movably inserted into the first lubricating oil lines 721b and 731b to apply pressure to the lubricant during movement. At this time, the opening and closing port 770 is caught by the locking jaws (721d, 731d) of the first and second lifting members (720, 730). In addition, the opening and closing port 770 is preferably a light material that can be moved by the lubricating oil.

The pressure port (P), the first and second pressing insertion holes (712, 713) of the wheel mounting portion 710 and the pressure holes (721a, 731a) of the first and second lifting members (720, 730) are removably installed. It is inserted into the first lubricating oil line (721b, 731b) to press the opening and closing port 770.

The fastener P is detachably installed in the first to fourth fixing insertion holes 714 to 717 of the wheel mounting unit 710 and the fixing holes 722a and 732a of the first and second lifting members 720 and 730. To fix the first and second elevating members 720 and 730:

In the present embodiment, the pressing tool (P) and the fixture (F) has a certain elasticity, when firmly inserted into the first and second pressure insertion holes (712,713) and the first to fourth fixing insertion holes (714 to 717) Can be fixed in place. In addition, a thread is formed in the periphery of the pressing tool P and the fixing tool F, and a screw thread is formed on the inner circumferential surfaces of the first and second pressure insertion holes 712 and 713 and the first to fourth fixing insertion holes 714 to 717. It may be formed so that the pressing tool (P) and the fastener (F) is not easily separated from the first, second pressure insertion holes (712, 713) and the first to fourth fixing insertion holes (714 to 717).

One end of the first spring S1 is fixed to an upper portion of the accommodation space 711 of the wheel mounting portion 710, and the other end thereof is fixed to an upper portion of the lower plate 721 of the first elevating member 720. 1 elevating member 720 is supported by the bullet down. In this case, the first spring S1 may be disposed between the first and second side plates 722 and 723 of the first elevating member 720 and may be stably fixed to the lower plate 721.

One end of the second spring S2 is fixed to the upper portion of the accommodation space 711 of the wheel mounting portion 710, and the other end of the second spring S2 is fixed to the upper portion of the lower plate 731 of the second elevating member 730. 2 elevating member 730 to support the bullet down. In this case, the second spring S2 may be disposed between the first and second side plates 732 and 733 of the second lifting member 730 to be stably fixed to the lower plate 731.

The wheel 780 is rotatably installed on the rotation shaft 740. At this time, the wheel 780 is exposed to the outside when the first and second lifting members 720 and 730 are lowered.

The GPS device G is installed on the base 110 of the main body 100, and measures the current position on the GPS of the photogrammetry device A. FIG. GPS device (G) is a general measurement of the position, a detailed description thereof will be omitted.

The transceiver 800 is installed on the base 110 of the main body 100, and the rotating plate rotating device 300, the camera 400, the camera rotating device 500, the rotating angle measuring device R1, and the high angle measuring device. (R2)? The operation signal of the GPS device G or the like is wirelessly output to the outside, and the control signal is received from the remote computer 10.

The photogrammetry abnormality checking device (CA) is a support (CA1) that is installed to be inclined outwardly in the lower portion of the main body base 110, and an external force sensor (CA2) installed in the lower portion of the support (CA1) to detect external force ) At this time, the external force sensor CA2 outputs a detection signal to the remote computer 10 when the external force is detected. In this embodiment, the external force sensor CA may be variously implemented as long as it can detect external force such as an ON-OFF switch.

The remote computer 10 includes a transceiver 11 for communicating signals with the transceiver 800 of each photogrammetry device A, a display device 12 for displaying an operating state of electrical components, and data. An input device 13 for inputting, and a control unit 14 for operating and controlling the transceiver 11, the display device 12, and the input device 13 are provided.

The transceiver 11 is operated and controlled by the control unit 14 to receive an operation signal of each component of the photogrammetry device from the transceiver 800 of the photogrammetry device A, and to perform the transceiver of the photogrammetry device A. The control signal is sent to (800).

The display device 12 is operated and controlled by the control unit 14 to output a video image photographed by the camera 400 of the photogrammetry device A, and to control the photogrammetry device A and the remote computer 10. Output the operating status.

The input device 13 is operated and controlled by the control unit 14 to input a control signal so that the photogrammetry device A is remotely controlled and the remote computer 10 is controlled.

The control unit 14 receives a control signal from the input device 13 to operate and control the photogrammetry device A. FIG.

At this time, the control unit 14 outputs a control signal via the transceiver 11, the rotating plate rotating device 300, the camera 400, the camera rotating device 500, the rotation angle measuring device (R1), the elevation measuring device. (R2) The GPS unit (G), the transmitter and receiver (800), and the external force sensor (CA2) are controlled remotely.

On the other hand, when the control unit 14 receives a detection signal from the external force sensor CA2 of the photogrammetry abnormality checking device C, the display unit CA signals that the photogrammetry device A has a problem. Output

In addition, the control unit 14, the left and right sides of the camera 400 necessary to direct the shooting direction of the camera 400 to the preset reference point coordinates from the initial installation position through the coordinates according to the GPS installation position of the photogrammetry device (A). Calculates and stores the rotation angle and vertical rotation angle.

The controller 14 outputs the left and right rotation angles and the up and down rotation angle values of the camera 400 to the display apparatus 12, while the first position of the photogrammetry device A at the current position of the photogrammetry device A. The camera 400 is moved by left and right rotation angles and up and down rotation angles measured from the position.

In this case, when the reference point photographing target installed at the reference point is identified within the error range through the camera 400, the controller 14 causes the camera 400 to photograph the surrounding topography and stores the photographed survey data.

The survey data collecting device 20 includes: a survey data DB 21 for storing existing photo survey data and storing the photo survey data collected by a remote computer 10; And a survey data update module 22 for comparing the photo survey data with the existing photo survey data to update the existing photo survey data with the newly collected photo survey data.

In this case, the survey data collecting device 20 may include an input / output module 23 for input / output signals.

11 to 17 are views for explaining the operating state of the present invention, the present invention will be described with reference to FIGS. 11 to 17 as follows.

First, a worker places a plurality of photogrammetry devices (A) where the terrain is to be photographed.

At this time, the photogrammetry device (A) is a wheel 730 is accommodated in the wheel mounting portion 710 as shown in FIG.

Thereafter, when the worker separates the fastener F of the photogrammetry device A from the third fixing insertion hole 716 and the fourth fixing insertion hole 717 of the wheel mounting part 710, the first lifting member 720 and the second elevating member 730 is moved downward by the elastic force of the first spring (S1) and the second spring (S2), and the fastener (F) again the first of the wheel mounting portion 710 When coupled to the fixing insertion hole 714 and the second fixing insertion hole 715, the first elevating member 720 and the second elevating member 730 is fixed as shown in FIG. do.

Subsequently, when the worker inserts the pressing hole P into the first pressing insertion hole 712 and the second pressing hole 713 of the wheel mounting unit 710, the pressing hole P is first and second lifting. The opening and closing port 770 is pressed laterally while being inserted into the pressing holes 721a and 731a of the members 720 and 730.

At this time, the opening and closing port 770 is a pressure applied to the lubricating oil, thereby filling the first and second lubricating oil line (721c, 723a / 731c, 733a) of the first and second lifting members (710, 720) as shown in FIG. It is discharged to the outside through the discharge holes (723b, 733b) of the first and second elevating members (710, 720), the discharged lubricating oil is in contact with the rotating shaft (740).

Then, when the worker moves the photogrammetry device (A) to the photographing position, the wheel 780 is rotated, at this time, the lubricant is soaked between the wheel 780 and the rotating shaft 740, do not use for a long time does not operate smoothly. Smooth driving of the wheel 780.

On the other hand, when the photographic measuring device (A) is disposed in the photographing position, the operator separates the pressure port (P) from the first pressing insertion hole 712 and the second pressing hole 713 of the wheel mounting portion 710. .

Subsequently, when the operator releases the fastener F from the first fixing insertion hole 714 and the second fixing insertion hole 715 of the wheel mounting unit 710, the weight of the photogrammetry device A The first and second lifting members 720 and 730 move upward to press the first and second springs S1 and S2.

Thereafter, the worker inserts the fixture (F) into the third fixing insertion hole 716 and the fourth fixing insertion hole 717 of the wheel mounting part 710, as shown in FIG. 720, 730).

Therefore, the photogrammetry device (A) is limited in movement, it can be fixed to the installation position.

The operator subsequently sets the electronic function of the photogrammetry device A to operate.

At this time, the bird detection sensor 910 of the bird approach prevention device 900 is operating as shown in Figure 14, when the bird approaches in this state, it detects this and outputs a bird detection signal to the voice emitting device 920. .

Then, the voice emitting device 920 of the bird approach preventing device 900 outputs a voice that the bird dislikes around, preventing the bird from approaching the photogrammetry device A.

Therefore, the photogrammetry device (A) can be safely managed even if the administrator does not reside, it is possible to stably operate the ground survey data collection system through the photogrammetry device (A).

On the other hand, the control unit 14 of the remote computer 10 receives the photogrammetry device GPS position signal according to the initial installation position from the GPS device G of each photogrammetry device A.

Then, the control unit 14 of the remote computer 10, through the GPS coordinates of the initial installation position of the photogrammetry device A and the preset reference point coordinates, the angle at which the camera 400 of the photogrammetry device A is to be rotated. Calculate and remember

In other words, the controller 14 calculates the left and right rotation angles and the up and down rotation angle values of the camera 400 necessary for the photographing direction of the camera 400 positioned at the initial installation position GPS coordinates toward the reference point coordinates. The value is displayed on the display device 12. At this time, the reference point coordinates are provided with a reference point shooting target having a predetermined shape.

On the other hand, the operator looks at the left and right rotation angle and the vertical rotation angle of the camera 400 displayed on the display device 12, in order to photograph the periphery of the photogrammetry device (A), and then the photogrammetry through the input device 13 The device A is remotely controlled so that the camera 400 looks at the reference point photographing target as shown in FIG. 15.

At this time, the operator checks whether the camera 400 accurately looks at the reference point photographing target through the image displayed on the display device 12 of the remote computer 10, and if the camera 400 looks at the reference point shooting target accurately, Take a picture of the surroundings and store the photogrammetry data.

On the other hand, the photogrammetry device (A), the position may be changed little by little while the operator may not know, such as by an outsider moving or other external force.

In this case, the worker needs to confirm the position of the photogrammetry device A before photographing.

At this time, the position of the photogrammetry device (A) may check its own GPS signal, but the GPS signal has a problem that an error may occur, using a more precise method as follows.

That is, when the operator rotates the camera 400 by the left and right rotation angle and the vertical rotation angle of the camera 400 calculated according to the photogrammetry initial installation position at the moving position of the photogrammetry device A moved from the initial position, The camera 400 does not look exactly at the reference point photographing target or looks away.

In this case, since the photographing at the point where the corresponding photogrammetry device A is installed cannot obtain photogrammetry data according to the correct image, the operator records the point where the photogrammetry device A is installed as a place where direct surveying is needed.

Thereafter, the operator may collect accurate photogrammetry data through the photogrammetry device A or a separate photogrammetry device at the initial installation position of the photogrammetry device A, or directly collect the accurate survey data.

Thereafter, the operator updates the existing photogrammetry data through the photogrammetry data collected from each photogrammetry device A whose position has not been moved via the survey data collection device 20.

On the other hand, since the photogrammetry device A of the present invention is controlled remotely, it is very vulnerable in the event of a fire.

In particular, the photogrammetry A has a high probability that a fire occurs in the rotary plate rotating device 300.

However, in the present invention, when a fire occurs in the rotating plate rotating apparatus 300, the fire detection sensor (FS) detects this, and at this time, the fire extinguishing powder injection device (EI) receiving a fire signal from the fire detection sensor (FS) By spraying the fire extinguishing powder to the rotating plate rotating device 300 as shown in Figure 16, the fire can be suppressed.

In addition, since the photogrammetry A of the present invention is controlled remotely, it is necessary to check the abnormality of the apparatus from time to time.

In the case of the present invention, when the photogrammetry device A receives an external force and rotates as shown in FIG. 17, the external force sensor CA2, which is in contact with the ground and the ground, transmits a detection signal to the remote computer 10. The computer 10 outputs to the display apparatus 12 that the abnormality has occurred in the photogrammetry A. FIG.

Therefore, the worker can quickly confirm the abnormality of the photogrammetry device (A).

On the other hand, when the worker is finished, by using a separate lubricating oil supply device in the state as shown in FIG. I can fill it.

A; Photogrammetry device 100; main body
200; Camera installation unit 300; Rotating plate rotating device
400; Camera 500; Camera Rotator
R1; Rotation angle measuring device R2; Elevation Measuring Device
600; Shock absorber 700; Mover
800; Transceiver 900; Bird Access Prevention Device
FS; Fire detection sensor CA; Photogrammetry device
EI; Fire extinguishing powder 10; Remote computer
11; Transceiver 12; Display device
13; Input device 14; Control
20; Survey data collection apparatus 21; Survey Data DB
22; Survey Data Update Module

Claims (1)

The main body 100 having a plate-shaped base 110 and a pair of rotating plate supporters 120 are installed to face each other, but are installed to protrude upward, and a seating groove 121 is formed in the upper inner side. ,
A camera having a disk shape and a rotating plate 210 having a circumferential portion rotatably inserted into the seating groove 121 of the rotating plate support 120 and a camera support 220 installed at the center of the rotating plate 210 and protruding upward. Installation unit 200,
Rotating plate rotating device 300 having a rotating shaft 310 is installed in the center of the rotating plate 210 of the camera installation unit 200, and a driving device 320 connected to the rotating shaft 310 to rotate the rotating plate 210,
Is installed on the rotary plate support 120 and the rotating plate 210 of the camera installation unit 200 of the main body 100, a bird detection sensor 910 for outputting a bird detection signal by detecting a bird present in the surrounding; Is installed on the rotating plate support 120 of the main body 100 or the rotating plate 210 of the camera installation unit 200, when the bird detection sensor 910 detects the movement of the bird outputs a voice that the bird dislikes to the outside Bird Approach Prevention device 900 with device 920,
The camera is installed in the lower portion of the camera support 220, a fire detection sensor (FS) for detecting the fire of the rotating plate rotating device 300,
Fire extinguishing powder is built-in, installed in the lower portion of the camera mounting unit camera support 220, when the fire detection sensor (FS) detects the fire, extinguishing powder spraying device for spraying the extinguishing powder to the rotating plate rotating device 300 (EI ),
Rotation angle measuring device (R1) is installed on the rotating plate rotating device 300 to measure the rotation angle of the rotating plate 210,
Is installed on the camera support 220 of the camera installation unit 200 to be rotated up and down, the camera 400 for taking a picture of the surroundings,
Camera rotating apparatus 500 having a rotating shaft 510 connected to the camera 400 and a driving device 520 installed on the camera support 220 and connected to the rotating shaft 510 to rotate the camera 400 in the vertical direction. ),
Elevation measuring device (R2) installed on the camera rotating device 500 for measuring the elevation of the camera 200,
Three or more shock absorbers 600, which are installed to face each other at the lower circumference of the body base 110, and have a spring-loaded buffering action,
An accommodation space 711 formed therein; A first pressurizing insertion hole 712 formed through the central portion of the circumference to communicate with the accommodation space 711; A second pressing insertion hole 713 formed through and opposed to the first pressing insertion hole 712 in a horizontal direction and communicating with the accommodation space 711; The first fixing insertion hole 714 formed through the first pressing insertion hole 712 to face each other in the front and rear, but formed in the upper portion than the first pressing insertion hole 712 to communicate with the receiving space 711. ); A second fixing insertion hole 715 formed through the second pressing insertion hole 713 so as to face each other in a front and rear direction and communicating with the receiving space 711; A third fixing insertion hole 716 formed through the upper part of the first fixing insertion hole 714 so as to be located on the same line in an up and down direction and communicating with the accommodation space 711; A fourth fixing insertion hole 717 formed through the upper part of the second fixing insertion hole 715 so as to be positioned on the same line in an up and down direction and communicating with the accommodation space 711; A wheel exposure hole 719 formed in the lower portion and penetrating up and down to communicate with the accommodation space 711; The wheel mounting part 710 having a pair of opening holes 718 formed in the lower part and opened downward and communicating with the receiving space 711 to be formed to face each other around the wheel exposure hole 719 and:
A through-hole formed in the left and right direction and communicating with the first pressing insertion hole 712 of the wheel mounting portion 710 and the first lubricating oil line 721b opened laterally and communicating with the pressing hole 721a. ), A locking projection 721c formed at an inner circumference of the first lubricant line 721b, and a through hole formed at a lower portion thereof, and communicating with the first lubricant line 721b to open the hole 718 of the wheel installation unit 710. A lower plate 721 having a lubricating oil injection portion 721d inserted into and inserted into the shell; A through hole formed in the left and right and having a fixing hole 722a communicating with the first fixing insertion hole 714 or the third fixing insertion hole 716 of the wheel mounting portion 710, the upper side of the lower plate 721 The first side plate 722 is formed as a; A first side plate having a second lubricating oil line 723a communicating with the first lubricating oil line 721b and a discharge hole 723b formed at an upper side thereof and opened outward to communicate with the second lubricating oil line 723a. A first elevating member 720 having a second side plate 723 connected upwardly to the lower plate 721 so as to face 722:
A through-hole formed in the left and right direction and communicating with the second pressing insertion hole 713 of the wheel mounting portion 710 and the first lubricating oil line 731b opened laterally and communicating with the pressing hole 731a. ), A locking step 731c formed in the inner circumference of the first lubricant line 731b, and a through hole formed in the lower portion thereof, and communicating with the first lubricant line 731b to open the hole 718 of the wheel installation unit 710. A lower plate 731 having a lubricating oil injection portion 731d inserted into and inserted into the shell; A through hole formed in the left and right and having a fixing hole 732a communicating with the second fixing insertion hole 715 or the fourth fixing insertion hole 717 of the wheel mounting portion 710, the upper side of the lower plate 731 The first side plate 732 is formed as a; A first side plate having a second lubricating oil line 733a communicating with the first lubricating oil line 731b, and a discharge hole 733b formed at an upper portion thereof and opened outward and communicating with the second lubricating oil line 733a. A second side plate 733 which is connected to the lower plate 731 to face the first plate 731 so as to face the first lifting member 720 around the wheel exposure hole 719; With elevating member 730:
Both ends are installed on the second side plates 722 and 732 of the first elevating member 720 and the second elevating member 730, respectively, and are disposed to be disposed below the discharge holes 723b and 733b of the second side plates 722 and 732, respectively. With axis of rotation 740:
A first check valve 750 installed in the lubricating oil injection portions 721d and 731d of the lower plates 721 and 731 of the first and second lifting members 720 and 730 so as to flow only in the direction in which the lubricating oil is injected;
A second check valve 760 installed in the discharge holes 723b and 733b of the second side plates 723 and 733 of the first and second elevating members 720 and 730 to open and close only so that the lubricant is discharged to the outside;
One end is round and the other end is provided with a protrusion 771, the opening and closing port 770 is inserted into the first lubricating oil line (721b, 731b) so as to apply pressure to the lubricant during movement;
Removably installed in the first and second pressure insertion holes 712 and 713 of the wheel mounting portion 710 and the pressure holes 721a and 731a of the first and second lifting members 720 and 730, and the first lubricating oil line 721b, A pressure port P inserted in 731b to press the opening and closing port 770;
Removably installed in the fixing holes 722a and 732a of the first to fourth fixing insertion holes 714 to 717 of the wheel mounting unit 710 and the first and second lifting members 720 and 730, Fixtures F for securing members 720 and 730 and:
One end is fixed to the upper portion of the receiving space 711 of the wheel mounting portion 710, the other end is fixed to the upper portion of the lower plate 721 of the first elevating member 720, the first elevating member 720 downward The first spring (S1) and the elastic support:
One end is fixed to the upper portion of the receiving space 711 of the wheel mounting portion 710, the other end is fixed to the upper portion of the lower plate 731 of the second elevating member 730, the second elevating member 730 downward The second spring (S2) to support the bullet:
Wheel 780 rotatably installed on the rotating shaft 740:
The mobile device 700 is installed in the lower portion of the shock absorber 600,
GPS device (G) is installed in the main body 100,
Support base CA1 installed to be inclined outward at the bottom of the main body base 110, and an external force sensor CA2 installed at the bottom of the support CA1 to detect external force and outputting a detection signal to the remote computer 10. Photogrammetry device with a checker (CA),
With a transceiver 800 for transmitting and receiving a signal, a plurality of photogrammetry device (A) which is installed at the shooting position,
A transceiver 11 for communicating signals with the transceiver 800 of the photogrammetry device A; A display device 12 indicating an operation state of the photogrammetry device A and the remote computer 10; An input device 13 for inputting a control signal so that the photogrammetry device A and the remote computer 10 are controlled; Rotating plate rotating device 300, camera 400, camera rotating device 500, rotating angle measuring device R1, elevation measuring device R1, GPS device G, and receiver 300 of the photogrammetry device A. The operation control of the transceiver 11, the display device 12, and the input device 13 of the photographing abnormality checking device CA and the remote computer 10 is carried out at the initial GPS position of the photogrammetry device A. The left and right rotation angles and the up and down rotation angles of the camera 400 are calculated by calculating the values of the left and right rotation angles of the camera 400 necessary for the photographing direction of the camera 400 toward the reference point coordinates based on the coordinates according to the coordinates. While outputting each value to the display device 12, the camera 400 rotated by the left and right rotation angle and the up and down rotation angle measured from the initial position of the photogrammetry device A at the current position of the photogrammetry device A. When the reference point photographing target installed at the reference point is checked within the error range, the camera 400 determines the surrounding terrain. And to reflect the remote computer 10 with a control unit 14 for storing the photogrammetric data corresponding to the recorded image,
A survey data DB 21 for storing existing photo survey data and storing the photo survey data collected by a remote computer 10; Surveying data collection device 20 having a survey data update module 22 for comparing the photogrammetric data and the existing photogrammetry data to update the existing photogrammetry data that has changed with newly collected photogrammetry data.
Ground surveying data collection system for determining the precise position of the terrain through a reference point comprising a.

Images