KR20120038761A - Gis terminal for an electric pole having gps function and vertical and horizontal slope measurement function - Google Patents

Abstract

PURPOSE: A GIS terminal for an electric pole with a GPS function and a vertical/horizontal slope measurement function is provided to enable suitable design for areas by automatic calculation between supports. CONSTITUTION: A GIS terminal(100) for an electric pole comprises a GSP module(111), a horizontality/verticality sensor(115), a communication module(103), and an LCD touch screen(101). The GSP module comprises a GPS coordinate of a terminal including latitude and longitude. The horizontality/verticality sensor measures a vertical slope and a horizontal slope of an electric pole attached with the terminal. The communication module transmits data acquired or produced by the terminal to a GIS server and receives GIS data from the GIS server. An LCD touch screen displays latitude and longitude, the vertical slope and horizontal slope, or GIS data.

Description

GIS TERMINAL FOR AN ELECTRIC POLE HAVING GPS FUNCTION AND VERTICAL AND HORIZONTAL SLOPE MEASUREMENT FUNCTION}

The present invention relates to a foreground Geographic Information System (GIS) terminal having a GPS (Global Positioning System) function and a vertical leveler function.

Conventionally, when a designer visits a site to check the position of the support, the designer outputs a drawing of the GIS system being used to determine the position of the support after visiting the site. At this time, the designer roughly displays the drawing to bring the position of the support to design. However, due to this inaccurate design, it is difficult to build an accurate database, and because it does not know the exact distance between the supports, it causes the waste of materials, and it is not possible to judge the necessity of land compromise. It is also ambiguous.

In addition, it is difficult to expect high-quality construction because subjective construction is impossible because the inclination of the support can not be measured even during dryness. to be.

Therefore, in the present invention, in order to solve the problems of the prior art, the designer to download the latest distribution design DB to the terminal according to the present invention at the site visit to check the position of the support, and then carry the terminal to the location of the simple support in the field By judging and designing, it corrects the position of the support and corrects the position of the support and reflects the DB stored in the terminal to KEPCO GIS system for accurate design. The purpose of the present invention is to provide a terminal that can provide more construction quality and at the same time measure the inclination when detecting the inclined electric pole to repair the support and repair the support for more stable facility operation.

The present invention relates to a telephone pole GIS terminal having a GPS function and a vertical leveler function. To achieve the above object, a telephone pole GIS terminal having a GPS function and a vertical leveler function according to the present invention includes a GPS function. A GPS module for acquiring GPS coordinates of the terminal including latitude and longitude to have; A vertical horizontal sensor for measuring the vertical tilt and horizontal tilt of the poles to which the terminal is attached such that the terminal has a vertical level function; A communication module for transmitting data acquired or generated by the terminal to a GIS server, and receiving GIS data from a GIS server; An LCD touch screen displaying latitude and longitude obtained by the GPS module, vertical and horizontal tilt obtained by the vertical horizontal sensor, or GIS data received by the communication module; Memory; And a battery for supplying power to the terminal.

According to an embodiment of the present invention, the LCD touch screen further displays a pole number or a pole number.

According to an embodiment of the present invention, the terminal further includes a switch for turning on and off the power, a switch for turning the GPS function on and off, and a switch for turning the vertical level function on and off.

According to an embodiment of the present disclosure, the terminal further includes a pole inclination measuring support detachable to the terminal.

According to an embodiment of the present disclosure, the terminal further includes a selection button for selecting one of a design mode for electric pole design and a general mode for ending the design mode, and in the design mode, the LCD touch. Electric poles or electric wires can be arranged by pointing by the user on the screen.

According to an embodiment of the present disclosure, the terminal further includes a selection button for selecting any one of a design mode for electric pole design and a general mode for ending the design mode, in the design mode on the LCD touch screen. The pole may be arranged at the GPS coordinates of the terminal.

According to an embodiment of the present disclosure, the memory may store a completed design drawing in the design mode, and the communication module may transmit the design drawing to a GIS server.

According to an embodiment of the present invention, it is possible to implement without distinguishing between the design mode for the electric pole design and the general mode for ending the design mode, in this case the electric pole with the GPS function and the vertical level function according to the present invention GIS terminal for use, GPS module for obtaining the GPS coordinates of the terminal including latitude and longitude so that the terminal has a GPS function; A vertical horizontal sensor for measuring the vertical tilt and horizontal tilt of the poles to which the terminal is attached such that the terminal has a vertical level function; A communication module for transmitting data acquired or generated by the terminal to a GIS server, and receiving GIS data from a GIS server; An LCD touch screen displaying latitude and longitude obtained by the GPS module, vertical and horizontal tilt obtained by the vertical horizontal sensor, or GIS data received by the communication module; An inclination measuring support detachable to the terminal; And a memory for storing computer-readable instructions for placing the pole or wire by pointing by the user on the LCD touch screen or placing the pole in the GPS coordinates of the terminal on the LCD touch screen.

According to the present invention, an accurate GIS system database can be constructed. In addition, it is possible to implement the exact position of the support, and thus, it is possible to accurately calculate the distance between the supports at the time of new construction to the correct design for the region, thereby preventing waste of materials in advance.

In addition, by using the present invention to determine the land compromise whether or not the need for land compromise can be presented the basis of determination of the subject of the levy.

In addition, by using the present invention to measure the inclination of the new support when the construction implements a good construction quality, by measuring the inclination when the existing support inclination poles found to determine whether to repair immediately by repairing the accident of the distribution line You can prevent it.

1 is a block diagram of an electric pole GIS terminal having a GPS function and a vertical level function according to an embodiment of the present invention.
2 is a view for explaining the replacement criteria of the straight line according to the slope.
3 is a view for explaining the replacement criteria of the angular position according to the slope.
4 is a perspective view of a pole GIS terminal having a GPS function and a vertical level function according to an embodiment of the present invention.
FIG. 5 is a diagram illustrating a state in which a pole GIS terminal having a GPS function and a vertical level function is attached to a pole in accordance with an embodiment of the present invention.
6 is a front view of a pole GIS terminal having a GPS function and a vertical level function according to an embodiment of the present invention.
7 is a diagram illustrating menus displayed when a menu bar is clicked in a design mode of a terminal according to the present invention.
8 is a diagram illustrating a menu displayed when the electric pole design is clicked among menus displayed when the menu bar is clicked in the design mode of the terminal according to the present invention.

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

The electric pole GIS terminal having the GPS function and the vertical level function according to the present invention has a GPS function and a digital vertical level function as well as a GIS terminal.

1 is a block diagram of an electric pole GIS terminal having a GPS function and a vertical level function according to an embodiment of the present invention.

As shown in FIG. 1, the terminal 100 according to the present invention includes an LCD touch screen 101, a communication module 103, a battery 105, a central processing unit 107, a memory 109, and a GPS module ( 111, a keyboard 113, and a vertical horizontal sensor 115.

The communication module 103 is a part for communicating by wire or wirelessly with the GIS server included in the GIS system. In other words, the communication module 103 transmits the data acquired or generated by the terminal to the GIS server, and receives the GIS data from the GIS server.

The communication module 103 can support the GIS system remotely, and can communicate with the GIS server to retrieve the GIS data from the GIS DB, using the imported GIS data on-site through the LCD touch screen 101 It is possible to grasp the conditions at a glance.

Furthermore, since it is possible to add or change the GIS data and transmit it to the GIS server through the communication module 103, the degree of agreement between the actual site conditions and the data included in the GIS DB can be increased, and the terminal will be described in detail below. (100) supports a simple design system, so you can design a pole that fits the site conditions right from the site.

The GPS module 111 acquires GPS coordinates including latitude and longitude of the terminal 100. It is possible to set the exact pole position and design the pole pole based on the exact GPS coordinates acquired by the GPS module. This exact location setting of the Jeonju can be an accurate criterion when judging the Jeonju Jeonju Construction Copayments in the future, and can contribute greatly to the resolution of various civil complaints.

Furthermore, although the current local drawing is indefinite, it is possible to modify the GIS DB through the communication module 103 based on the exact GPS coordinates acquired by the GPS module 111, thereby including the electric pole. It may contribute to the correction of the position of the existing support of the support.

The vertical horizontal sensor 115 measures the vertical slope and the horizontal slope of the poles to which the terminal 100 is attached. By using the vertical level function by the vertical level sensor 115, it is possible to contribute to the improved construction quality with more precise dry when the support is dry. In addition, it is possible to check the inclination of the support at the moment of the site, it is highly utilized in the future repair work, it is possible to prepare for disaster disaster in advance.

2 is a view for explaining the replacement criteria of the straight line according to the slope, Figure 3 is a view for explaining the replacement criteria of the angular line according to the slope.

Referring to Figure 2, according to the criterion of the length of the cable line is applied when the pin length is more than 0 ° or less than 15 °, less than 10 ° in the case of a single wrought iron, less than 10 ° in the case of double wrought iron. Based on this, if the inclination of the pole is less than 10 °, it is the subject of observing attention. If it is more than 10 °, the dry season or replacement work is generally performed depending on the state of the pole.

Referring to FIG. 3, the built-in column of the angular column is applied when the angle column is greater than 15 ° and 30 ° or less, and when the angle is more than 30 °, the electric pole reinforcement is further classified. In this case, if the minimum angle of angular inclination is more than 15 °, the dry season or replacement work is generally performed depending on the state of the pole.

In consideration of the action criterion according to the inclination of the pole, the terminal 100 may determine whether the pole is to be repaired after displaying the vertical slope and the horizontal slope of the pole.

The LCD touch screen 101 displays the latitude and longitude obtained by the GPS module 111, the vertical tilt and horizontal tilt obtained by the vertical horizontal sensor 115, or the GIS data received by the communication module 103. do.

The battery 105 supplies power to the terminal 100.

4 is a perspective view of a pole GIS terminal having a GPS function and a vertical leveler function according to an embodiment of the present invention, Figure 5 is a pole pole GIS terminal having a GPS function and a vertical leveler function according to an embodiment of the present invention Is a view showing a state attached to the pole, Figure 6 is a front view of a pole GIS terminal having a GPS function and a vertical level function according to an embodiment of the present invention.

As shown in Figure 4 or 5, the terminal according to the present invention may further include a pole inclined measuring support detachable to the terminal.

In FIG. 6, reference numeral 201 denotes an LCD touch screen.

In FIG. 6, reference numeral 205 denotes a selection button for selecting one of a design mode for electric pole design and a general mode for ending the design mode. In other words, one of the general mode and the selection mode can be selected by the selection button, the general mode indicates the state in which the electric pole design function is not activated, and the design mode indicates the state in which the electric pole design function is activated.

Hereinafter, an embodiment of a pole design function in a design mode for pole design will be described in detail.

7 is a diagram illustrating menus displayed when the menu bar is clicked in the design mode of the terminal according to the present invention, and FIG. 8 is a view of menus displayed when the menu bar is clicked in the design mode of the terminal according to the present invention. It is a figure which shows the menu displayed when the electric pole design is clicked.

When the design mode is selected by the selection button, the menu bar is activated on the LCD touch screen 201 in FIG. 6, and when the activated menu bar is clicked, for example, menus as shown in FIG. 7 are displayed on the LCD touch screen 201. .

When the electric pole design menu is clicked among the menus shown in FIG. 7 during the electric pole design, the menu as shown in FIG. 8 is displayed as a submenu. Here, if you want to set the pole arbitrarily, if you want to set the random pole, press the arbitrary pole setting, then take a point, press the input button, press the input button is entered. In other words, the pole is placed by the user's pointing on the LCD touch screen. On the other hand, if you want to set the pole with the GPS coordinates of the location, press the GPS coordinates setting and press the enter button is the default pole input. In other words, the pole is arranged at the GPS coordinates of the terminal on the LCD touch screen. By clicking on the generated pole, the pole type, the pole type, and the pole size can be selected, and the input button can be pressed to make detailed settings for the pole.

Meanwhile, according to an embodiment of the present invention, when the pole is newly placed and a specific pole is designated in the design mode, the terminal may automatically calculate the distance between the newly placed pole and the designated pole.

Furthermore, according to an embodiment of the present invention, the terminal can correct the position of the pole by automatically calculating the pole of the pole exactly by region by applying the ear canal to the calculated value.

The electric wire can be divided into high voltage cable and low voltage wire, and hereinafter, the high voltage cable design and the low voltage line system will be described separately.

When designing a high voltage cable (ie, high voltage cable), a point is drawn between the existing and new poles and the poles, and when the input button is pressed, a high voltage cable is created by default. As with the pole, you can set the details of the power cable by clicking again on the generated power cable, entering the details and pressing the enter button again.

When designing low voltage cable (ie low voltage cable), if you put a point between existing and new poles and poles and press the input button, a low voltage line is created by default. As with the pole, you can click on the created low voltage line again, enter the details, and press the Enter button again to make detailed settings for the low voltage line.

After completing the schematic design, if you click the Adjust Pole Position on the last tab of the menu bar, you can automatically determine the position of the support by automatically judging the support.

When the design drawing is completed through the above-described electric pole design, high voltage line design, or low voltage line design process in the design mode, the memory 105 may store the completed design drawing. Memory 105 may also store detailed settings for poles, high voltage lines, or low voltage lines.

In addition, the communication module 103 may transmit the completed design drawing to the GIS server via wired or wireless. The communication module 103 is also capable of communicating with a PC, so that the user can place the pole, high voltage cable or low voltage cable in the design mode of the terminal and save it as a file, then download the file from the PC and add the detailed settings. In addition, it is possible to save the file added with detailed settings again to the terminal and upload it to the GIS server.

According to an embodiment of the present invention on the LCD touch screen 201 in FIG. 6, the computerized number of the pole (ie, the pole number), the pole number, the latitude, longitude, vertical slope, horizontal slope of the current position of the terminal, The location of the pole can be indicated, whether there is a need for land compromise, and whether it is subject to remuneration. Here, the Jeonju location classification is information indicating whether Jeonju is located in the public land or private land. Although this information is displayed on the upper right side of the LCD touch screen 201 in FIG. 6, it may be appropriately displayed at other positions on the LCD touch screen 201 according to an embodiment.

In FIG. 6, reference numeral 203 denotes a switch for turning the power on and off, a switch for turning the GPS function on and off, and a switch for turning the vertical level function on and off. These switches can be used to turn on or off the functions of power, GPS, and digital vertical level, and if the GPS function is turned off, there is a need for latitude, longitude, pole position classification, and land compromise. Whether or not may be displayed on the LCD touch screen 201, and when the digital vertical level function is turned off, whether the vertical tilt, the horizontal tilt, or the maintenance target may not be displayed on the LCD touch screen 201. These switches ultimately contribute to the power save (SAVE) of the multifunction terminal device.

In FIG. 6, reference numeral 207 is composed of a keyboard. The keyboard is used to enter or modify the telephone number and the telephone number. Such a keyboard may be implemented as a digital keyboard in the LCD touch screen 201 in FIG. 6, and in this case, the keyboard at 207 may not be separately implemented.

On the other hand, the terminal according to the present invention may further include a pole inclination measurement support detachable to the terminal. The pole inclination measuring support is detachable and attached to the terminal at the time of dryness or inclination pole inclination, so that the terminal can be attached to the pole in order to measure the more accurate vertical inclination and horizontal inclination of the pole.

It will be understood from the foregoing description that the foregoing and equivalents thereof may be embodied in various forms. Therefore, while the description of the invention has been described in connection with specific embodiments, the true scope of the invention includes the following claims and any equivalents that may be contemplated per se to those skilled in the art, as described herein. It is not intended to be limited to the particular embodiment.

According to the present invention, it is possible to increase the accuracy of the current GIS system and to automatically calculate the span of the support when the support is newly installed, to apply the wire degree, and to adjust the span of the wire by region, and to correct the position of the support to wire and cable Waste of materials can be prevented in advance.

In addition, it is possible to immediately know whether there is a need for land compromise, and when designing a new support, the design can be changed in an easy direction, thereby increasing the speed of work processing. As a result, the civil affairs task can be minimized by resolving the civil affairs that will occur later.

In addition, the terminal according to the present invention can be utilized as the basis data when determining the subject of the burden is high utilization.

In addition, the inclination of the pole can be measured to provide high-quality construction quality when the support is dry, and by providing a criterion for determining whether the pole is repaired, it is possible to aim at the effect of preventing accidents due to rapid repair.

Claims (9)

It is a pole GIS terminal with GPS function and vertical level function.
A GPS module for acquiring GPS coordinates of the terminal including latitude and longitude such that the terminal has a GPS function;
A vertical horizontal sensor for measuring the vertical tilt and horizontal tilt of the poles to which the terminal is attached such that the terminal has a vertical level function;
A communication module for transmitting data acquired or generated by the terminal to a GIS server, and receiving GIS data from a GIS server;
An LCD touch screen displaying latitude and longitude obtained by the GPS module, vertical and horizontal tilt obtained by the vertical horizontal sensor, or GIS data received by the communication module;
Memory; And
Battery for supplying power to the terminal; GIS terminal for electric pole having a GPS function and a vertical level function, comprising a. The method of claim 1,
The LCD touch screen is a pole GIS terminal having a GPS function and a vertical level function, characterized in that further displays the pole number or a pole number computerized number. The method of claim 1,
The terminal determines whether the electric pole is subject to repair using the vertical slope,
And the LCD touch screen further displays whether the pole is to be repaired. The method of claim 1,
The terminal includes a switch for turning on and off power, a switch for turning on and off the GPS function, and a switch for turning on and off the vertical level function. The method of claim 1,
The terminal is a pole GIS terminal having a GPS function and a vertical leveler, characterized in that it further comprises a detachable pole inclined measuring support to the terminal. The method of claim 1,
The terminal further includes a selection button for selecting any one of a design mode for electric pole design and a general mode for ending the design mode,
The pole mode GIS terminal having a GPS function and a horizontal level function, characterized in that the pole or wire can be arranged by the user pointing on the LCD touch screen in the design mode. The method of claim 1,
The terminal further includes a selection button for selecting any one of a design mode for electric pole design and a general mode for ending the design mode,
The pole mode GIS terminal having a GPS function and a vertical level function, characterized in that the pole can be arranged in the GPS coordinates of the terminal on the LCD touch screen in the design mode. The method according to claim 6 or 7,
The memory may store the completed design drawings in the design mode,
The communication module is a pole GIS terminal having a GPS function and a vertical leveler, characterized in that for transmitting the design drawings to the GIS server. It is a pole GIS terminal with GPS function and vertical level function.
A GPS module for acquiring GPS coordinates of the terminal including latitude and longitude such that the terminal has a GPS function;
A vertical horizontal sensor for measuring the vertical tilt and horizontal tilt of the poles to which the terminal is attached such that the terminal has a vertical level function;
A communication module for transmitting data acquired or generated by the terminal to a GIS server, and receiving GIS data from a GIS server;
An LCD touch screen displaying latitude and longitude obtained by the GPS module, vertical and horizontal tilt obtained by the vertical horizontal sensor, or GIS data received by the communication module;
An inclination measuring support detachable to the terminal; And
And a memory storing computer readable instructions for placing the poles or wires by a user pointing on the LCD touch screen or placing the poles in the GPS coordinates of the terminal on the LCD touch screen. And GIS terminal for vertical pole with vertical level function.

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