KR101234350B1 - Map data updating system for confirming topography change by gps coordinate data - Google Patents

Abstract

PURPOSE: A geodetic survey data update processing system for confirming changes in a topographical structure with respect to a GPS location coordinate is provided to set an area where re-photographing is necessary by comparing an aircraft GPS location information of a photographing area and an actual location coordinate of the corresponding photographing area and to manufacture a digital map based on the same, thereby confirming errors of the coordinate data of the digital map. CONSTITUTION: A geodetic survey data update processing system for confirming changes in a topographical structure with respect to a GPS location coordinate comprises a base, a solar cell, a cleaning solution supply device, an air spraying device, a foreign material removing member(500), a lifting device, a transmitter, an illuminance sensor, and a control unit. The base includes a first lateral plate, a lower plate, and a second lateral plate(113). A fixing frame(F) which is hinge fixed is arranged on the top of the second lateral plate, and a triangular frame(TF) is welded in the upper part of the fixing frame.

Description

MAP DATA UPDATING SYSTEM FOR CONFIRMING TOPOGRAPHY CHANGE BY GPS COORDINATE DATA}

The present invention relates to a geodetic survey data update processing system for checking the topographical change of geospatial position coordinates, more specifically, by stably serving as a reference point can accurately detect the error of the coordinate data of the digital map, in particular, When taking aerial shots, compare the aircraft GPS location information in the shooting area with the actual location coordinates of the shooting area, set the area that needs to be retaken, and make a digital map based on this to check the coordinate data error of the digital map and to obtain accurate coordinate data. The present invention relates to a geodetic survey data update processing system for checking the topographical change of geospatial position coordinates.

A digital map is a digital map created by analyzing various numerical information obtained from survey maps, aerial photographs, satellite images, etc., and numerically editing them.

Therefore, the digital map should be applied to the terrain image where the digitized geographic information of the point is accurately applied so that the user can easily obtain the geographical and geographical information while viewing the map. It should be shown, and is mainly used for various cadastral and topographic maps.

These digital maps are produced from images collected through aerial and terrestrial photography, and these collected images are made into a complete digital image through interconnection between neighboring images.

However, in order to interconnect the collected images, a standard for accurate connection between the images is required, and in order to accurately grasp the standard, the accurate aerial image image and the ground image image according to the GPS coordinates must be preceded.

In other words, by accurately performing the aerial and ground shooting by GPS coordinates to collect the accurate aerial image and ground image for each GPS coordinate.

To this end, a reference point which is a reference point for photographing is required, and a device capable of displaying the reference point to the outside is also required.

In the past, various devices have been proposed for allowing a camera to recognize a location of a corresponding point by receiving a signal or light.

By the way, the conventional devices were mostly a technology that allows the camera to accurately receive and shoot the light that is irradiated by itself, and in particular, there was a problem that the life of the device is short because there is no function to protect itself and manage itself from external pollution. .

Of course, this problem is to solve the urgent problem, so that the device does not fully play the role of the reference point to perform.

In order to solve this problem, Korean Patent No. 1108257 (2012.01.13.) Discloses a numerical map system for updating a coordinate data of a numerical map in real time.

However, since the registered patent is a foreign material removing member is made of a fiber material, and is installed as a single, it is difficult to completely remove moisture from the surface of the solar panel washed with the cleaning solution, and the stain is left on the solar panel due to poor hygroscopicity for long-term use. In this case, there is a disadvantage in that the efficiency of solar collection is lowered.

In addition, the foreign matter removing member is difficult to replace the structure has been raised the need for improvement.

The present invention was created in view of the above-mentioned problems in the prior art, and it was created to solve this problem, and by stably performing the role of a reference point, it is possible to accurately detect an error of coordinate data of a digital map. Its main purpose is to provide a geodetic survey data update processing system for checking geomorphological changes for GS coordinates.

The present invention is a means for achieving the above object, the upper opening rotating receiving space (a) is formed, the inner surface of the rotating receiving space (a) facing each other round round rotating seat seats (111a, 113a) ) Is formed, and an opening hole 113b is formed to open the rotation receiving space a laterally, and is connected to the insertion hole 111b opened upwardly and the insertion hole 111b, and the rotating cylinder seating part ( A base 110 having a plurality of cleaning liquid discharge holes 111c opened through any one of 111a and 113a; A main body having a lifting device accommodation space 121 opened through the through hole 123 and rotatably installed in the rotary cylinder seating portions 111a and 113a of the base 110, and a solar panel installed on the main body. Rotating cylinder 120 consisting of a portion 122; Foundation base 100 with: Foundation base 100: Foundation base 100; Removably inserted into the opening hole 113b to be positioned below the rotating cylinder 120 is disposed in the rotating container accommodation space (a) Rotating cylinder driving device (M) installed in the rotating cylinder 120: installed in the solar panel mounting portion 122, the solar panel 210 for converting solar energy into electrical energy; A solar cell 200 installed in the elevating device accommodating space 121 to store electrical energy of the solar panel 210; and a solar cell 200 having: a washing liquid receptor 310 installed on an upper portion of the base 110; An injection hole 320 connected to the washing liquid receptor 310 and inserted into the insertion hole 111b; Washing liquid supply device 300 having an electronic valve (330) for controlling the flow of the washing liquid contained in the washing liquid receptor 310: Air generator 410 is installed on the base 110; An air spray line 420 installed along the longitudinal direction of the rotary cylinder 120; An air spraying device 400 having a plurality of nozzles 430 installed at a pitcher of the air spraying line 420 and facing the rotating cylinder 120: the remaining one rotating cylinder in which the washing liquid discharge hole 111c is not opened; A foreign material removing member 500 of fiber material installed on the seating portions 111a and 113a so as to be in contact with the solar panel 210: a screw driving device 610 installed in the lifting device accommodation space 121; A screw 620 installed in the elevating device accommodation space 121 so as to be rotated by the screw driving device 610; A guide 630 installed in parallel with the screw 620; One end of the elevating member 640 installed in engagement with the screw 620 and the other end of the guide 630 movable so that the elevating member 640 moves up and down in the longitudinal direction of the guide 630 along the rotation of the screw 620; The lifting device 600 having: a transmitter 630 disposed in parallel with the guide 630, one end of which is installed in the elevating member 640, and the other end of which is drawn out to the outside through the through hole 123. Transmitter 700 is installed in the transmitter installation unit 650 of the elevating device 600, and transmits a coordinate signal including a corresponding position GPS coordinate value at a constant intensity: the illuminance sensor 800 is installed on the base 100 : In response to the illuminance signal of the illuminance sensor 800, the control unit 700 transmits the coordinate signal during the day, and at the night, while rotating the rotating tube 120 through the rotating cylinder driving device M, the washing liquid supply device 300. ) And a control unit 900 for driving the air spraying device 400 and receiving the GPS coordinate values of the point where the base 100 is installed as the coordinate signal: installed on the base 100, and the control unit 900. Input device for inputting a control signal to the input device (i): including a reference point applying device (A), GPS installed in the aircraft Value 11: Camera 12 photographing the feature: Receiver 13 receiving coordinate signals from at least three reference point applications A: GPS device 11, camera 12, receiver 13 ) And control the relative position of the aircraft by the triangulation method according to the received strength of the coordinate signal, calculate the absolute position of the aircraft through the GPS coordinate values included in each of the coordinate signal, the absolute position and GPS When the difference between the GPS position signals of the device 11 or more than the reference value occurs, the controller 14 for checking the corresponding video image while designating the corresponding shooting area as the re-shooting area; Image image DB (21) for storing the image image collected by 10: Drawing image DB (22) for storing the drawing image based on the image image: Image editing module for synthesizing and editing a plurality of image images ( 23): video images Coordinate synthesis module 24 for synthesizing GPS coordinates with the drawing image: Image drawing module 25 for creating a drawing image based on the image image, including a digital map maker 20, including the second side plate ( 113 is further provided with a fixing frame (F) fixed to the hinge (H) on the upper surface, a triangular frame (TF) is welded to the upper end of the fixed frame (F), each vertex of the triangular frame (TF) 1,2,3 rolls (R1, R2, R3) are rotatably installed, and the first, 2, 3 rolls (R1, R2, R3) is infinitely wide belt press paper (BP) of hygroscopic porous material It is wound in a track shape and disposed in contact with the surface of the solar panel 210, and a drying nozzle DN for spraying high pressure air toward the solar panel 210 is formed on the roll shaft RS of the first roll R1. Bearing BA is fixed, the fixed frame (F) is hinged fixed to the cylinder rod (CR), the cylinder rod (CR) is connected to the small cylinder (CY), Small cylinder (CY) provides a geodetic survey data update processing system for checking the topographical structure change for the GPS position coordinates, characterized in that the inclined fixed to the fixed frame (F) on the upper surface of the second side plate (113). .

According to the present invention, by comparing the aircraft GPS location information in the shooting area with the actual position coordinates of the shooting area, and set the area that needs to be re-shooting, and based on this to create a digital map to determine the coordinate data error of the digital map It can check and update with correct coordinate data.

In addition, since the coordinate signal is transmitted in the optimized transmission environment through the self-management function of the reference point application device, the photographing device can collect reliable information and reflect it in the digital map production.

1 is a system diagram for explaining the present invention,
2 is a cross-sectional view showing a reference point applying apparatus of the present invention,
3 is a plan view showing a reference point applying apparatus of the present invention,
4 to 6 is an operation diagram for explaining the operating state of the present invention,
Figure 7 is an exemplary view showing an example of improving the foreign matter removing member of the present invention.

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

Before describing the present invention, the following specific structural or functional descriptions are merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms, And should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

The present invention uses the previously registered Patent No. 1108257 which will be described later. Therefore, all of the device configuration features described below are those described in the patent No. 1108257.

However, the present invention forms the most essential structural feature of the components disclosed in the registered patent No. 1108257 improved to increase the solar condensing efficiency by quickly and neatly remove the cleaning liquid remaining in the solar panel.

Therefore, the device configuration, features and operation relations described below will be referred to the contents of the Patent No. 1108257 as it is, and will be described in detail with respect to the configuration associated with the main features of the present invention at the rear end.

As shown in Figures 1 to 3, the present invention is a reference point applying device (A) installed at a specific shooting position, the imaging device 10 used for aerial photography, and the image image collected by the imaging device 10 A digital map maker 20 for producing a precise digital map by completing the drawing image based on the.

The reference point application device (A), the base stage 100, the rotary cylinder drive device (M) installed on the base 100, the solar cell 200 provided on the base 100, and a solar cell Washing liquid supply device 300 for washing the 200, the air spraying device 400 for removing dust attached to the solar cell 200, and the foreign matter removing member 500 for removing the foreign matter attached to the solar cell 200 And, the lifting device 600 is installed on the base 100, the transmitter 700 for transmitting the installation position coordinate signal of the reference point applying device (A), and the illumination sensor 800 is installed on the base 100 And a control unit 900 for operating and controlling an electronic function component, an input device i for inputting a control signal to the control unit 900, and a display device for displaying an operation state of an electronic function component. )

The base 100 has a base 110 to form a base, a rotating cylinder 120 rotatably installed on the base 110, and a foreign matter receiving mechanism 130 installed on the base 100.

The base 110 is connected to the lower side of the first side plate 111 formed upward, the lower side of the first side plate 111 extends laterally, and the lower plate 112 extends upwards. And a second side plate 113 facing the first side plate 111.

The first side plate 111 is formed in the inner side and is rotated toward the inside of the rotating cylinder seating portion 111a, the insertion hole 111b opened upwards, and the insertion hole 111b is in communication with and extends laterally It is equipped with a plurality of washing liquid discharge holes (111c) that are opened through the rotary cylinder seating portion (111a).

In the present embodiment, the main line 111d communicating with the insertion hole 111b is formed along the longitudinal direction of the first side plate 111, and a plurality of washing liquid discharge holes 111c branch off from the main line 111d.

The lower plate 112 is connected to the lower portion of the first side plate 111 and extends laterally.

The second side plate 113 is provided with a rotating cylinder seating portion 113a which is formed inside and is rounded inside, and an opening hole 113b which is opened laterally and is disposed below the rotary cylinder seating portion 113a. It is connected to the lower plate 112 to face the first side plate 111 and extends upward to form a rotation receiving space a together with the first side plate 111 and the lower plate 112. In this embodiment, the rotary cylinder seating portion 113a is provided with a foreign substance removing part installing groove 113c formed toward the inside, and the foreign substance removing member 500 is installed in the foreign substance removing member installing groove 113c.

In the present embodiment, the base 110 is provided with a front plate 114 and a rear plate 115 connecting the first side plate 111 and the second side plate 113 in the front and rear, the rotation receiving space (a) is upwards The open space was achieved.

The rotating cylinder 120 includes a main body having an elevating device accommodation space 121 therein, a solar panel mounting portion 122 formed on an upper portion of the main body, and a top and a bottom of the main body. And a through hole 123 opening the lifting device accommodation space 121 so that both ends are rotatably fixed to the front plate 114 and the rear plate 115 of the base 110, and 111a, 113a).

The foreign matter receiving device 130 is opened upwards to form a foreign matter receiving space 131 therein, and is inserted into the opening hole 113b of the second side plate 113 to be detachably inserted therein. It is placed at the bottom. In the present embodiment, a handle 132 is provided at the end of the foreign substance receiving apparatus 130 so that the foreign substance receiving apparatus 130 can be easily inserted into and removed from the opening hole 113b of the second side plate 113.

The rotary cylinder drive (M) is installed on the front plate 114 or the rear plate 115 of the base 110, and transmits power for the rotation of the rotary cylinder (120).

In this embodiment, the rotary cylinder driving device M may be a conventional motor.

The solar cell 200 is installed in the solar panel mounting portion 122 of the rotating cylinder 120, a plurality of solar panels 210 for converting solar energy into electrical energy, and the lifting device of the rotating cylinder 120 Built-in a space 121, and has a storage battery 220 for storing electrical energy from the solar panel 210, to supply electricity to the electrical component of the present invention.

In the present embodiment, the solar cell 200 is a conventional method of converting solar energy into electrical energy, and a detailed description thereof will be omitted.

The cleaning solution supply device 300 is installed on the first side plate 111 of the base 110, the washing liquid receptor 310 and the washing liquid is accommodated, and is connected to the washing liquid receptor 310 of the first side plate 111 Injecting hole 320 is inserted into the insertion hole (111b), and the electronic valve 330 for controlling the flow of the washing liquid contained in the washing liquid receptor (310).

At this time, the electronic valve 330 is preferably installed in the inlet 320. In this embodiment, a detergent containing water or a detergent may be used as the washing liquid.

The air injection device 400 is installed along the longitudinal direction of the air generating device 410 is installed on the upper side of the first side plate 111 of the base 110 and the rotating cylinder 120 installed on the base 110. The air spraying line 420 and the water jetting holes (not shown) formed in the air spraying line 420 are respectively provided with a plurality of nozzles 430 facing the rotating cylinder (120).

In this embodiment, the air generator 410 is a conventional one using a fan or the like.

The foreign material removing member 500 is installed on the rotary cylinder seating portion 113a formed on the second side plate 113 of the base 110 to contact the solar panel 210 when the rotary cylinder 120 rotates. , Wipe the cleaning liquid and foreign matter on the solar panel 210.

In this embodiment, the foreign matter removing member 500 is preferably made of a fiber material.

The elevating device 600, the screw drive device 610 is installed in the lifting device accommodation space 121 of the rotary cylinder 120, the screw drive device 610 is installed in the screw drive device 610 is interlocked with And a screw 620 rotated by the screw driving device 610, a guide 630 installed in the lifting device accommodation space 121 of the rotating cylinder 120 and installed in parallel with the screw 620, and one end thereof. The elevating member 640 is engaged with the screw 620 and the screw thread, and the other end is movable to the guide 630 to move up and down in the longitudinal direction of the guide 630 along the rotational direction of the screw 620. Is formed long in the direction parallel to the guide 630, one end is provided in the elevating member 640, and the other end is provided with a transmitter installation portion 650 to be drawn out through the through hole 123 of the rotary cylinder 120 .

In this embodiment, the screw drive device 610 is a conventional one including a motor and the like.

The transmitter 700 is installed in the transmitter installation unit 650 of the elevating device 600, and is operated and controlled by the control unit 900 to wirelessly transmit a coordinate signal indicating the position of the reference point application device A at a constant intensity. Send it out. For reference, the coordinate signal may include a GPS coordinate value at which the reference point application device A is located, and an identification code for identifying the reference point application device A, and the coordinate signal including the GPS coordinate value and the identification code is a conventional method. It is wirelessly transmitted through A / D conversion or the like, so that the photographing apparatus 10 installed in an aircraft or a vehicle traveling through an adjacent area can receive and process it.

Meanwhile, in the present invention, the photographing apparatus 10 receives coordinate signals from at least three reference point applying devices A. Since the reference point applying devices A all transmit the coordinate signals with the same intensity, the photographing apparatus 10 Tracks its location in real time using the difference in intensity of the received coordinate signal.

Detailed description thereof will be given below.

The illuminance sensor 800 is installed on the base 100 and operated by the controller 900 to detect the illuminance of the external environment and output an illuminance signal.

The control unit 900 is installed on the base 100, the rotary cylinder drive (M), solar cell 200, washing liquid supply device 300, air spraying device 400, screw drive device 610 The operation of the transmitter 700 and the illumination sensor 800 is controlled, and the GPS coordinates of the point where the base 100 is installed are input to be transmitted as the coordinate signals.

In addition, the controller 900 receives an illuminance signal from the illuminance sensor 800 to operate an electrical component during the day and to stop the electrical component at night.

Here, the control unit 900 supplies the electricity charged in the solar cell 200 to each of the electrical components, thereby controlling the operation of the electrical components.

The controller 900 transmits a coordinate signal indicating the position of the input reference point applying device A through the transmitter 700.

The input device (i) is installed in the base 100, the operation is controlled by the control unit 900, by inputting a control signal to the control unit 900, so that each electrical component is controlled operation.

The display device (ds) is installed in the base 100, the operation is controlled by the control unit 900, so that the operating state of each electrical component is output.

The photographing apparatus 10 includes a GPS device 11 installed in an aircraft for aerial photography, a camera 12 installed in the aircraft, and photographing a feature, and a transmitter 700 of a reference point applying device A. A receiver 13 for receiving coordinate signals, and a controller 14 installed in the aircraft to operate and control the GPS device 11, the camera 12, and the receiver 13.

In the present embodiment, the GPS device 11, the camera 12, the receiver 13, and the aircraft are conventional ones used in aerial photography, and a detailed description thereof will be omitted.

The controller 14 operates and controls the GPS device 11, the camera 12, and the receiver 13, and applies a GPS position signal from the GPS device 11 and a reference point application device A from the receiver 13. By comparing the coordinate signal of the, if the GPS position signal is more than the reference signal and the coordinate signal of the reference point application device (A) occurs, the corresponding shooting area is designated as the re-shooting area.

In more detail, the aircraft that checks the current position in real time through the GPS device 11 additionally receives coordinate signals from at least three reference point application devices A. At this time, each of the three reference point applying device (A) transmits the coordinate signal of the same intensity, but the intensity of the coordinate signal finally received by the imaging device 10 due to the distance difference with the aircraft is different for each reference point applying device (A) do.

As a result, the controller 14 may track the relative position of the aircraft relative to the position of the three reference point application devices A through the coordinate signals received at different intensities, and further include the coordinate signals of the reference point application device A. The GPS coordinates can be used to calculate the GPS coordinates for the absolute position of the aircraft. Of course, if there is a difference by comparing the GPS coordinates and the position confirmed by the GPS device 11 confirmed in this way, the designated shooting area is designated as the re-shooting area, and the photographed video image is checked separately to make it clear that it is a correction target. Also, reshooting of the area designated as the reshooting area is performed.

For reference, the controller 14 stores the transmission intensity of the coordinate signal transmitted by the reference point application device A, and checks the intensity of the coordinate signal received based on this to track the distance of the reference point application device A. Can be.

Therefore, as mentioned above, the controller 14 receiving at least three or more coordinate signals can track and confirm the position of the aircraft relative to the position of the reference point application device A through a publicly known triangulation method.

4 to 6 are views showing the operating state of the present invention, the operation of the present invention with reference to Figures 4 to 6 as follows.

First, the worker places the reference point application device A of the present invention in a specific place set as a reference point. The operator then sets each electrical component in an available state through the input device i.

At this time, the operator inputs the absolute coordinates of the position where the reference point applying device (A) is installed in the control unit 900 of the reference point application device (A), and the control unit 900 transmits the coordinate signal of the absolute coordinates to the transmitter 700 Send outwards through

When the setting is performed as described above, the control unit 900 of the reference point application device A receives the illuminance signal from the illuminance sensor 800, and when the surrounding environment is bright (weekly), the elevator apparatus 600 is driven to transmit the transmitter 700. ) Moves upward as shown in FIG. 4.

Therefore, the transmitter 700 may be disposed at a relatively high position to show a high transmission rate.

In this case, the solar cell 200 converts and stores solar energy from the sun into electrical energy.

On the other hand, when the aircraft flies over the reference point application device A for aerial photography in the above state, the receiver 13 of the imaging device 10 receives coordinate signals from at least three reference point application devices A. Receive.

At this time, the controller 14 of the photographing apparatus 10 processes the coordinate signal received from the reference point application device A to check the position of the aircraft based on the reference point application device A, and the position and the GPS device ( 11) If the difference between coordinate signals is more than a certain standard by comparing the position of the aircraft identified from 11), set the area as the re-shooting area, and check the captured image image to reflect it when drawing.

On the other hand, the aerial photography is usually made during the day, so that the reference point application device A does not need to be operated at night.

Accordingly, when the control unit 900 of the reference point application device A receives the illuminance signal indicating that the surrounding environment is darkened from the illumination sensor 800, the control unit 900 drives the elevating device 600 to transmit the transmitter 700 of the reference point application device A. ) To the original position.

Thereafter, the control unit 900 of the reference point application device A drives the rotating cylinder driving device M to rotate the rotating cylinder 120. And

At the same time, the control unit 900 of the reference point application device (A) operates the washing liquid supply device 300 and the air injection device (400).

Then, as shown in FIG. 5, the cleaning solution supply device 300 supplies the cleaning solution toward the rotary cylinder 120, and the air injection device 400 injects air toward the rotary cylinder 120.

At this time, the solar panel 210 of the solar cell 200 is rotated along the rotating cylinder 120, the dust is removed by the air injected from the air spraying device 400, is sprayed from the cleaning solution supply device 300 The surface is cleaned by the wash solution.

Then, when the rotating cylinder 120 is continuously rotated, the solar panel 210 is in contact with the foreign matter removing member 500, as shown in Figure 6, at this time, the remaining dust and cleaning liquid removed by the air spraying device 400 While the mixed foreign matter mixture is wiped by the foreign substance removing member 500, the foreign substance mixture is freely dropped between the base 110 and the play of the rotary cylinder 120, and is accommodated in the foreign substance receiving device 130.

On the other hand, when the rotary cylinder 120 rotates, some of the mixed liquid squeezed in the rotary cylinder 120 may freely fall before being brought into contact with the foreign substance removing member 500 to be accommodated in the foreign substance receiving mechanism 130.

When the washing step of the solar panel 120 is repeated several times as described above, the control unit 900 of the reference point applying device (A) is a rotary cylinder driving device (M), washing liquid supply device 300, air spraying device 400 Is stopped, so that the reference point applying device (A) is in an initial state as shown in FIG.

Then, the control unit 900 of the reference point applying device (A), when the morning comes, drive the lifting device 600, the transmitter 700 as described above, and transmits the coordinate signal of the reference point applying device (A).

The digital map maker 20 includes an image image DB 21 for storing image images collected by the photographing apparatus 10, a drawing image DB 22 for storing a drawing image based on the image image, and a plurality of images. An image editing module 23 for synthesizing and editing a video image, a coordinate synthesizing module 24 for synthesizing GPS coordinates with an image image or a drawing image, and an image drawing module 25 for creating a drawing image based on the image image. And an input / output module 26 for outputting an image image and a drawing image and generating and inputting an input signal for the operation of the digital map maker 20, and, if necessary, based on a Geographic Information System (GIS). And an information link module 27 for linking the geographic and topographical information to the drawing image so that the user can click on the corresponding information of the numerical map so that the related information can be outputted.

The image editing module 23 connects and edits a plurality of video images collected by the photographing apparatus 10 to complete one video image, and an adjustment process such as size and resolution is performed to connect different video images. do. The image editing module 23 may be applied to a general graphic editing application, and publicly known or public programs may be applied to output and edit 3D image images.

On the other hand, as mentioned above, the video image that needs to be re-photographed is processed so that it can be replaced at any time during editing, so that when a new video image by re-shooting is input, the video image of the corresponding position can be replaced, and the replaced image The new GPS coordinates are synthesized by the coordinate synthesis module based on the image, and through this, a drawing image can be created to update the coordinate data displayed on the digital map with the correct coordinates.

In addition, when re-shooting is performed immediately, the numerical data of the digital map may be updated to reflect this in real time.

The coordinate synthesis module 24 synthesizes GPS coordinates to an image image or a drawing image.

Coordinate data is displayed on the image by synthesizing the coordinates based on the reference point indicated in the drawing image.

The reference point is displayed in a process of creating an image image or a drawing image, and the display method may include a natural display method through photographing or an artificial display method through drawing.

The image drawing module 25 generates a drawing image which is the background of the digital map by drawing on the basis of the image image, and may be applied to a drawing which directly draws in writing. An application of writing to a computer may be applied. The application-based image drawing module based on a video image is a publicly known technique that is widely used in the field of digital map production, and therefore, a description thereof will be omitted here.

The information link module 27 links the various information recorded in the GIS system to the corresponding point of the drawing image so that the linked related information can be output when the user clicks the corresponding point. In the drawing image creation process, an object to be linked to specific information of the GIS system is displayed on the drawing image as an object image.

The numerical map thus completed is output through the input / output module 26.

Based on this basic configuration, the present invention duplicates the function of the foreign material removing member to further enhance the foreign material removing function.

That is, a separate foreign matter removal member is added to play a role as a main foreign matter remover, and to prevent the hygroscopicity from falling off by ensuring the ease of replacement, and to completely remove the foreign matter remaining on the surface of the solar panel, It is configured so that it does not occur.

Accordingly, the foreign material removal member 500 described above is configured as an auxiliary foreign material remover, so as to clean the surface of the solar panel 210 to increase the solar light collecting efficiency.

To this end, as shown in FIG. 7, the fixing frame F is hinged to the top surface of the second side plate 113.

At this time, the fixed frame (F) is preferably inclined or bent toward the rotary cylinder 120, is configured to be rotatable by the hinge (H).

In addition, a cylinder rod CR is hingedly fixed to a portion of the fixed frame F, and the cylinder rod CR is connected to the small cylinder CY, and the lower end of the small cylinder CY is the second side plate. Is inclined fixed to the upper surface of 113, it is installed inclined toward the fixed frame (F).

In addition, a triangular frame (TF) having a triangular shape is firmly welded to the upper end of the fixed frame (F), the first, second, third roll (R1, R2, R3) at each vertex of the triangular frame (TF) Are respectively rotatably fixed to the axis RS.

In addition, the belt press paper (BP) is wound on the surface of the first, second, third roll (R1, R2, R3) is configured to rotate in a caterpillar form, the belt press paper (BP) is Velcro tape It is easy to replace because it is made of a structure that can be detached and attached in the form.

In particular, the belt press paper BP is in contact with the solar panel 210 while maintaining a constant tension as shown in the drawing by the holding force of the small cylinder CY, and thus the surface of the belt press paper BP is not damaged. Absorption of foreign matters such as the washing liquid remaining in the product can be quickly and completely absorbed.

In addition, since the belt press paper (BP) is a porous material, it is excellent in hygroscopicity and can sufficiently perform a function as a main foreign material remover.

Therefore, when the rough solar panel 210 reaches the position where the foreign matter removing member 500 is installed, the foreign matter is completely removed. Therefore, the foreign matter removing member 500 absorbs the cleaning liquid, rather than absorbing the cleaning liquid. ) It is used for the purpose of improving the light collection efficiency by smoothing the surface.

Furthermore, in the present invention, a drying nozzle DN coupled to the bearing BA is further provided on the shaft RS, in particular, the shaft RS of the first roll R1, and the spraying direction of the drying nozzle DN is further provided. To the solar panel 210 by cleaning the surface of the solar panel 210, which has been rotated in a state in which a residual material such as a cleaning liquid is buried, by the high pressure air sprayed primarily through the drying nozzle DN. The cleaning effect can be further increased.

At this time, the hose for supplying air to the drying nozzle (DN) should be provided with a flexible hose (FX).

Through such a configuration, when the solar panel 210 is rotated and washed, the residual washing solution can be neatly and quickly and quickly treated in the first and second stages (drying by air spraying → moisture absorption by a belt press paper), and finally, stains are not generated. Since the foreign matter removing member 500 finishes and cleans the surface of the solar panel 210, it is possible to efficiently perform the cleaning and cleaning operations while increasing the light collecting efficiency.

100; Foundation 200; Solar cell
300; Washing liquid supply device 400; Air spray device
500; Foreign material removal member 600; Hoist
700; Transmitter 800; Ambient Light Sensor
900; The control unit

Claims (1)

The upper rotating barrel receiving space (a) is formed, round inner rotating cylinder seating portions (111a, 113a) are formed on the inner surfaces of the rotating barrel receiving space (a) facing each other, the rotating barrel receiving space (a) An opening hole 113b opening in a side is formed, and a plurality of openings opening through one of the rotary hole seats 111a and 113a while communicating with the insertion hole 111b opened upward and the insertion hole 111b. A base 110 having a washing liquid discharge hole 111c; A main body having a lifting device accommodation space 121 opened through the through hole 123 and rotatably installed in the rotary cylinder seating portions 111a and 113a of the base 110, and a solar panel installed on the main body. Rotating cylinder 120 consisting of a portion 122; Foundation base 100 with: Foundation base 100: Foundation base 100; Removably inserted into the opening hole 113b to be positioned below the rotating cylinder 120 is disposed in the rotating container accommodation space (a) Rotating cylinder driving device (M) installed in the rotating cylinder 120: installed in the solar panel mounting portion 122, the solar panel 210 for converting solar energy into electrical energy; A solar cell 200 installed in the elevating device accommodating space 121 to store electrical energy of the solar panel 210; and a solar cell 200 having: a washing liquid receptor 310 installed on an upper portion of the base 110; An injection hole 320 connected to the washing liquid receptor 310 and inserted into the insertion hole 111b; Washing liquid supply device 300 having an electronic valve (330) for controlling the flow of the washing liquid contained in the washing liquid receptor 310: Air generator 410 is installed on the base 110; An air spray line 420 installed along the longitudinal direction of the rotary cylinder 120; An air spraying device 400 having a plurality of nozzles 430 installed at a pitcher of the air spraying line 420 and facing the rotating cylinder 120: the remaining one rotating cylinder in which the washing liquid discharge hole 111c is not opened; A foreign material removing member 500 of fiber material installed on the seating portions 111a and 113a so as to be in contact with the solar panel 210: a screw driving device 610 installed in the lifting device accommodation space 121; A screw 620 installed in the elevating device accommodation space 121 so as to be rotated by the screw driving device 610; A guide 630 installed in parallel with the screw 620; An elevating member 640 having one end engaged with the screw 620 and the other end movable to the guide 630 to move up and down in the longitudinal direction of the guide 630 along the rotation of the screw 620; The lifting device 600 having: a transmitter 630 disposed in parallel with the guide 630, one end of which is installed in the elevating member 640, and the other end of which is drawn out to the outside through the through hole 123. Transmitter 700 is installed in the transmitter installation unit 650 of the elevating device 600, and transmits a coordinate signal including a corresponding position GPS coordinate value at a constant intensity: the illuminance sensor 800 is installed on the base 100 : In response to the illuminance signal of the illuminance sensor 800, the control unit 700 transmits the coordinate signal during the day, and at the night, while rotating the rotating tube 120 through the rotating cylinder driving device M, the washing liquid supply device 300. ) And a control unit 900 for driving the air spraying device 400 and receiving the GPS coordinate values of the point where the base 100 is installed as the coordinate signal: installed on the base 100, and the control unit 900. Input device for inputting a control signal to the input device (i): including a reference point applying device (A), GPS installed in the aircraft Value 11: Camera 12 photographing the feature: Receiver 13 receiving coordinate signals from at least three reference point applications A: GPS device 11, camera 12, receiver 13 ) And control the relative position of the aircraft by the triangulation method according to the received strength of the coordinate signal, calculate the absolute position of the aircraft through the GPS coordinate values included in each of the coordinate signal, the absolute position and GPS When the difference between the GPS position signals of the device 11 or more than the reference value occurs, the controller 14 for checking the corresponding video image while designating the corresponding shooting area as the re-shooting area; Image image DB (21) for storing the image image collected by 10: Drawing image DB (22) for storing the drawing image based on the image image: Image editing module for synthesizing and editing a plurality of image images ( 23): video images In the map value containing the Builder (20): Coordinate synthesis module 24 for combining the GPS coordinates to the Drawing Images: Image Drawing module 25 to write the Drawing image based on the video image
The base 110 is connected to the lower side plate 112 and the lower plate 112 extending laterally connected to the lower side of the first side plate 111 and the first side plate 111 is formed to extend upwards It is provided with a second side plate 113 that faces the first side plate 111,
The upper surface of the second side plate 113 is further provided with a fixed frame (F) fixed to the hinge (H), the upper end of the fixed frame (F) is welded to the triangular frame (TF), the triangular frame (TF) At each vertex of the first, second, third rolls (R1, R2, R3) are rotatably installed, the first, second, third rolls (R1, R2, R3) of the hygroscopic porous belt press paper (BP) is wound in an orbital shape and disposed in contact with the surface of the solar panel 210, and the roll shaft RS of the first roll R1 sprays high pressure air toward the solar panel 210. The nozzle DN is fixed to the bearing BA, the fixing frame F is hinged and fixed to the cylinder rod CR, the cylinder rod CR is connected to the small cylinder CY, and the small cylinder CY. ) Is geodetic topography change check geodetic for the GPS position coordinates, characterized in that the inclined fixed toward the fixing frame (F) on the upper surface of the second side plate (113). Amount of data update processing system.

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