KR102384038B1 - Providing method for tilt-monitor system of the distribution pole - Google Patents

Abstract

The present invention provides a method for providing a tilt measurement system for a distribution line utility pole with a transformer installed thereon. The method comprises the steps of: installing an utility pole tilt notification device; installing a photographing means including a camera bracket device; grasping the tilt of the utility pole through the tilt notification device; and grasping the tilt of the utility pole or the vicinity of the utility pole through the photographing means including the camera bracket device. The camera bracket device includes a camera cover (10) and a frame (20) connected to the camera cover and supporting the camera cover. The frame (20) includes a vertical frame part (21) and a horizontal frame part (22) connected to the vertical frame part (21). The camera bracket device further includes an interlocking fixing structure interlocked on the camera cover (10) and the frame (20) to secure the fixing force and shooting performance of the camera cover (10) and the frame (20). Therefore, the present invention can prevent a safety accident.

Description

A method for measuring the inclination of a power pole of a distribution line with a transformer installed {Providing method for tilt-monitor system of the distribution pole}

The present invention relates to a method of providing a system for measuring the inclination of a power pole on a distribution line in which a transformer is installed, and more particularly, to a tilt notification device for a utility pole in which a relatively heavy transformer is installed, and more particularly, to a tilt notification device in which a relatively heavy transformer is installed. When a utility pole is tilted, a short circuit occurs by a wire and causes a power outage, so it is possible to detect this in advance and prevent a safety accident.

A transformer is a general configuration that raises or lowers the level of voltage, and a power pole or electric pole fixes and installs distribution wires (line) in a processed state, and at the same time installs a relatively heavy transformer in a fixed state if necessary.

In addition, the electric distribution wire (distribution line) that is fixedly installed on a utility pole is installed at a relatively high position from the ground because electricity of the corresponding high voltage flows. fixedly installed through

Here, the telephone pole (electric pole) may have a cylindrical shape or a rectangular shape, and may be any one selected from a cement pillar or a steel tower. It is to be understood that all are included.

As described above, the distribution line is installed at a high position and managed relatively safely. However, when working using a crane, an excavator, a ladder truck, etc., a direct impact may be applied to the overhead distribution line due to negligence. In addition, the pole may be tilted in one direction due to the influence of factors such as the weight of a relatively heavy transformer fixed on the top of the pole and rain, wind, and the like.

That is, the distribution line itself may be damaged by the weight of the transformer and the influence of the surrounding natural environment or due to negligence in work. In addition, the telephone pole may be tilted under the influence of subsidence or erosion of the foundation, its own weight, vibrations due to vehicle traffic, etc., and in this case, a serious safety accident is caused.

Korean Patent Publication No. 10-2018-0055942

The problem to be solved by the present invention is that when a utility pole is tilted, a short circuit of a line occurs and a power outage accident occurs, so it can be detected in advance to prevent a safety accident. It is to provide a method.

In addition, in such a system, a utility pole can be photographed separately and its surroundings can be identified, so not only a cross check of the state of the utility pole, but also various situations such as people and structures around it are identified and identified in connection with the inclination of the utility pole, and the situation (e.g.: To provide a method for measuring the inclination of a power pole of a distribution line equipped with a transformer equipped with a photographing means that enables various responses according to the occurrence of an accident depending on the slope, the possibility of damage to people and structures, etc. .

In addition, it is to provide a method of providing a system for measuring the inclination of a power pole of a distribution line installed with a transformer that prevents the stable operation of the camera, bracket, etc. of the photographing means from being inhibited or damaged by a physical shock.

In addition, the main components of each bracket provided together with the camera are connected to each other and fixed, and a power distribution line pole with a transformer that can secure the stability of camera shooting and improvement of shooting quality by giving a fixing force in this linkage It is to provide a method for providing a slope measurement system.

In addition, a transformer that can be installed by adjusting the degree of fixing force between the bracket components in consideration of the environment in which the camera and the bracket are installed (eg, type of site, frequency of impact, strength of impact, etc.) It is to provide a method of providing a system for measuring the inclination of a utility pole of a distribution line in which is installed.

In addition, a method for measuring the inclination of a power pole in a distribution line equipped with a transformer that reinforces the part that can be vulnerable to shock caused by the vertical movement of the camera, reinforces the fixing force in response to the movement of the camera, and enables reliable shooting. Method of providing a system is to provide

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

The present invention provides a method for measuring the inclination of a power pole of a distribution line in which a transformer is installed, the method comprising: installing a tilt notification device of a telegraph pole; Installing a photographing means including a camera bracket device; Recognizing the inclination of the telephone pole through the inclination notification device; and detecting the inclination of the telephone pole or the vicinity of the telephone pole through a photographing means including the camera bracket device, wherein the camera bracket device includes: a camera cover (10); and a frame 20 connected to the camera cover to support the camera cover, wherein the frame 20 includes a vertical frame unit 21 and a horizontal frame unit 22 connected to the vertical frame unit 21 . However, the camera bracket device is interlocked on the camera cover 10 and the frame 20 to further include an interlocking fixing structure for securing the fixing force and shooting performance of the camera cover 10 and the frame 20 It provides a method of providing a system for measuring the inclination of a utility pole of a distribution line including a transformer installed.

According to the present invention as described above, there are one or more of the following effects.

In the present invention, when a utility pole is tilted, a short circuit occurs and a blackout accident occurs, so it can be detected in advance to prevent a safety accident (eg, collision with a nearby object due to the tilt of the utility pole, etc.) As a result, it is possible to provide a method of providing a system for measuring the inclination of a telegraph pole.

In addition, the main components of each bracket provided together with the camera, including the camera bracket device that can ensure the improvement of the shooting quality on the system, are connected to each other and fixed, and the fixing force is given in this connection to take the camera It is possible to provide a method of providing a system for measuring the inclination of a power pole of a distribution line installed with a transformer that can ensure the stability of the camera and the improvement of the shooting quality.

In addition, in applying the fixing force, the camera and the bracket can be installed by adjusting the degree of fixing force between the bracket components in consideration of the environment in which the camera and the bracket are installed (eg, the type of the site, the frequency of impact, the intensity of impact, etc.) It is possible to provide a method of providing a system for measuring the inclination of a power pole of a distribution line in which a transformer including a bracket device is installed.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

1 is an exemplary view showing an installation example of a telephone pole inclination notification device of a distribution line telephone pole inclination measuring system in which a transformer is installed according to the present invention.
2 is a cross-sectional view showing a main part of an assembly example of a telephone pole inclination notification device of a distribution line telephone pole inclination measuring system in which a transformer is installed according to the present invention.
3 is an exemplary perspective view showing the main part of a telephone pole inclination notification device of a distribution line telephone pole inclination measuring system in which a transformer is installed according to the present invention.
4 is an exploded view of FIG. 3 .
5 is a perspective view schematically showing the configuration of a bracket device for a CCTV camera informing of the danger of a power pole inclination measuring system for a distribution line installed with a transformer according to the present invention.
6 is a cross-sectional view of a bracket device for a CCTV camera notifying the danger of a distribution line telephone pole inclination measurement system in which a transformer is installed according to the present invention.
7 is a cross-sectional view showing an embodiment in which a light emitting means is mounted in a different direction in a bracket device for a CCTV camera that notifies the danger of a power pole inclination measurement system for a distribution line installed with a transformer according to the present invention.
8 is a block diagram showing a communication unit, a control unit, and a sensor unit formed in a bracket device frame for a CCTV camera notifying the danger of a distribution line telephone pole inclination measuring system in which a transformer is installed according to the present invention.
9 shows another example of the communication unit, the control unit, and the sensor unit formed in the bracket device frame for a CCTV camera notifying the danger of the distribution line telephone pole inclination measuring system installed with a transformer according to the present invention.
10 to 11 are views schematically showing the configuration of the bracket device for a CCTV camera according to FIG.

Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related well-known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

1 to 4, the inclination notification device for a power distribution pole according to the present invention, the lower end of the utility pole 100 is fixed by the basic block (200). Therefore, even when the basic block 200 is tilted or moved, the utility pole 100 is tilted, and even when the utility pole 100 is tilted by an external force, unless it is pulled out from the basic block 200, it is inclined together with the basic block 200. .

Therefore, in order to detect the inclination of the telephone pole 100, it cannot be linked with the basic block 200. Accordingly, in the present invention, the auxiliary foundation 210 is further formed to be horizontally buried at a predetermined depth in the ground ERT at a space apart from the basic block 200, and the auxiliary foundation 210 is vertically extended and then horizontally bent. The supported support 220 is firmly fixed. Then, the light emitter 230 is installed at the horizontal end of the support 220 . The light emitter 230 constitutes a photosensor as a means for irradiating light, and a storage battery (not shown) is mounted and driven.

In particular, since the light emitter 230 is installed close to the ground ERT, there is an advantage in that it can be checked and maintained at any time when an abnormality such as a defect or malfunction occurs. In addition, since the light emitter 230 can be driven with a very small voltage, battery consumption is not large. In addition, a light receiver 240 is fixed to a portion of the upper end of the telephone pole 100 . The light receiver 240 is a photosensor, and is a means for detecting when the light emitted from the light emitter 240 is received.

In this case, the light receiver 240 is preferably disposed vertically above the light emitter 240 . In particular, since the light receiver 240 has a built-in controller 250, it detects a light reception failure and transmits information about tilting abnormality of the utility pole 100 to a management center (not shown). In addition, a light receiving cell 242 is provided on the light receiving surface of the light receiving unit 240, and the light receiving cell 242 is configured to have a circular shape having a certain radius to sufficiently include an error range.

In addition, a storage battery (not shown) is mounted on the light receiver 240 , and the electricity collected by the solar module 300 is collected and stored with the storage battery mounted on the light emitter 230 and the light receiver 240 . configured to be able to At this time, the photovoltaic module 300 is installed on the peripheral surface of the upper end of the telephone pole 100, and the driving of the light emitter 230 and the light receiver 240 according to the present invention does not require a large amount of power and is even with a small amount of power. Since it can be sufficiently driven, it can be used throughout the year without power failure through the electricity collected by the solar module 300 . On the other hand, in order to fix the receiver 240 around the telephone pole 100, an iron band is generally used, which has a high risk of safety accidents because it is necessary to concentrate the binding work while riding on the telephone pole 100 for a long time. , it takes a lot of work time, so it is necessary to improve it so that fast, convenient and precise fixing work is possible. Therefore, in the present invention, there is another feature in having a unique structure that can be easily fixed by simply inserting without binding with an iron band.

To this end, in the present invention, a portion of the outer peripheral surface of the upper end of the telephone pole 100 is formed with an installation groove 110 close to an approximately 'L' shape. In addition, the movable fixture 120 is inserted and installed in the installation groove 110 . At this time, the floating fixture 120 includes a first rod 124a having a round male hinge 122a formed at one end thereof, as illustrated in FIGS. 7 and 8 ; a second rod (124b) having a female hinge (122b) into which the male hinge (122a) can be fitted; first and second shafts (R1, R2) in which the male hinge (122a) is inserted into the female hinge (122b) and passes through it laterally to form an axis by being forcibly fitted to each other; In a state of being fitted to the first shaft R1, one end is fitted and fixed into the first rod 124a, and the other end is fitted and fixed into the second rod 124b, so that the first and second rods 124a and 124b are fixed. It includes a torsion spring (SPR) that provides an elastic force so that it always unfolds horizontally.

Here, a spring groove (HOM) cut in a slit shape is formed on the circumferential surface of the male hinge (122a) to facilitate installation of the torsion spring (SPR).

In addition, the cut spring groove (HOM) of the male hinge (122a) is preferably covered through the lower cover (COV) for finishing after the torsion spring (SPR) is installed. In addition, a rod fixing groove 126 is formed in the center of the front end surface of the first rod 124a so that the light receiver fixing rod 244 (refer to FIG. 6 ) can be screwed. By doing so, it is possible to fix the light receiver 240 on the floating fixture 120 . In addition, a wireless communication module (MOD) is embedded in the upper surface of the front end of the first rod (124a), and an antenna (ANT) is connected to the wireless communication module (MOD) and is connected and controlled to the controller 250, the wire communication The module MOD is supplied with power from a storage battery mounted on the light receiver 240 .

Thus, during installation, the operator gently bends the first and second rods 124a and 124b to face each other and pushes the second rod 124b side into the installation groove 110 of the telephone pole 100 so that the side is fitted. Then, the second rod 124b is about to be unfolded by the torsion spring (SPR), but is constrained in the narrow installation groove 110, so it is maintained in a bent state as in the example of FIG. becomes this Similarly, the first rod 124a pushes the upper surface of the installation groove 110, and the force pushing the upper surface becomes the fixing force.

In this way, the first and second rods 124a and 124b push the inner wall of the installation groove 110 by the elastic return force to be unfolded, respectively, and it is possible to maintain the bound state for a long period of time by this force. In other words, by simply inserting one end of the flexible fixture 120 into the installation groove 110 , it is possible to maintain a strong fixing force quickly and easily. After that, the light receiver 240 is screwed to the floating fixture 120 , and then a power source is connected, and a horizontal state with the light emitter 240 is adjusted.

Then, when the telephone pole 100 is tilted, the light receiver 240 cannot receive the light sent by the light emitter 230. At this time, an error signal is output and transmitted to the management center, the management center immediately recognizes the inclination of the telephone pole and It will issue a warning or take follow-up action. Of course, at the same time as the error signal is output, a speaker is further installed in a part of the pole 100 to broadcast a warning or to output a warning sound so that passersby or vehicles passing around the pole 100 are broken. Of course, it can be further configured to prevent safety accidents from occurring.

Hereinafter, a photographing means including a camera bracket device will be described. Referring to FIG. 5 , the bracket device 1 for a CCTV camera notifying the danger of the present invention may mainly include a camera cover 10 and a frame 20 . The camera cover 10, in order to emit the light emitted from the light emitting means 11 to the outside, the camera cover 10 is composed of a material (eg, acrylic, polycarbonate, etc.) that does not reflect the light is diffused. This is preferable. In addition, the frame 20 to be described later may also be made of the same material as the cover 10 . At this time, the light emitting means 11 may be configured in the transverse direction of the camera cover 10 as shown in FIG. 6 of the accompanying drawings, or may be configured in the longitudinal direction as shown in FIG. 7 . In addition, the arrangement method of the light emitting means 11 may have various arrangement methods so that the light of the light emitting means 11 can be realized.

For example, the light emitting means 11 may be arranged in various ways, such as horizontally, vertically, diagonally and obliquely. In addition, the light emitting means 11 may be composed of an LED and a surface light emitting sheet, in addition to this, other components capable of emitting light may be used. When the light emitting means 11 is an LED, it may be composed of a chip, a lamp, or a device. The light emitting means 11 may emit a plurality of colors to detect danger and warn of danger. The color of light implemented through the light emitting means 11 may emit colors such as red, yellow, green, blue and white. In this case, the white light may be implemented as white by mixing red, green, and blue light, and this white light may be used for a lighting function or a crime prevention function at night.

That is, at night (usually), white light can be emitted to illuminate the surroundings, and when a danger is sensed, other colors (blue, red, yellow and green) other than white are emitted to alert the surroundings. In addition, it can be designed so that the light emitted from the telegraph pole inclination measurement system according to the present invention blinks or alternates, which will be described later. According to different design conditions, the camera cover 10 may be configured in various shapes to correspond to various types of cameras, such as box-type, square, and bullet-type cameras, in addition to the dome-type camera according to the accompanying drawings. Accordingly, regardless of the type of camera, it is possible to apply the bracket device for the CCTV camera of the telegraph pole inclination measurement system according to the present invention, thereby reducing the installation cost.

The frame 20 may be configured on the upper portion of the camera cover 10 according to the type of CCTV camera or on the lower portion of the camera cover 10 depending on the user.

5 , the frame 20 may be configured on the top of the dome-type camera, but box-type and bullet-type cameras may be configured on the top or the bottom. In addition, it may be configured integrally with the camera cover 10 or configured to be separately configured to be coupled through a bolt and a nut. In addition, a screw thread may be formed on one side of the camera cover 10 to which the outer surface of the frame and the frame are connected, and may be configured to be connected by screwing them.

The frame 20 is connected to the camera cover 10 and performs a function of fixing the camera cover 10 to a wall, a ceiling, or a pole.

That is, when configuring the present invention as shown in FIG. 5 , the bracket may be fixed to the wall, and the frame 20 is not configured in a ''' shape as shown in FIG. If it is configured in a shape, the bracket may be fixed to the ceiling. Furthermore, when the frame 20 is configured in a ''' shape as shown in FIG. 5, although not shown in the drawings, it may be designed to be fixed to a separate pole. At this time, the frame 20 is made of acrylic, polycarbonate, etc. having high light transmittance as described above, so that the light emitted from the light emitting means 11 of the camera cover 10 is diffused through the frame 20 . It can be configured to

In addition, the frame 20 may be made of a metal material at one end to fix the CCTV camera to the ceiling or wall, and may be made of a material capable of supporting the CCTV camera and/or the camera cover 10 . . In addition, the frame 20 may include the communication unit 100 , the control unit 200 , and the sensor unit 300 to detect and notify the surrounding dangerous situation. This will be described with reference to FIGS. 8 and 9 of the accompanying drawings. 8 is a block diagram showing the communication unit, the control unit and the sensor unit formed in the frame of the bracket device for CCTV cameras notifying the danger of the telegraph pole inclination measurement system according to the present invention.

That is, as shown in FIG. 8 of the accompanying drawings, the frame 20 is a communication unit 100, a control unit 200 and a sensor unit 300 in order for the bracket device 1 for a CCTV camera to recognize the danger and inform the surroundings of the danger. It may be composed of The communication unit 100 includes a communication module 110 capable of transmitting and receiving information through wireless communication with a management center located at a remote location.

As the wireless communication that can be used here, it can be configured to communicate by adopting a wireless communication method such as Bluetooth, wCDMA, Zigbee or Wi-Fi. , the microphone 410 and the speaker 420 may be activated. The communication interface 400 , the microphone 410 and the speaker 420 may be configured on a wall or a pole on which a bracket device for a CCTV camera of the telegraph pole inclination measurement system according to the present invention is installed, or may be formed in the frame 20 . That is, by activating the microphone 410 and the speaker 420 through the communication interface 400, it is possible to make a voice call with the manager located in the control center.

Accordingly, it is natural that a microphone and a speaker (not shown in the drawing) are also formed on the control center side. Therefore, the manager located in the control center can quickly recognize the danger that occurred around the bracket device for the CCTV camera, and accordingly, by operating the CCTV camera and controlling the lighting, it informs the surroundings of the danger, and prompt follow-up measures such as reporting to the competent authority can be carried out. It is possible. The control unit 200 may include a risk recognition module 210 , a lighting control module 220 , and a risk notification module 230 .

The risk recognition module 210 may recognize the occurrence of a risk based on the detection value of the sensor unit 300 . A description of the sensor unit 300 will be described later. The risk recognition module 210 may classify and store the degree of risk, for example, it may be divided into three stages. Stage 1 is a stage in which danger is not recognized, and when darkness is recognized through the illuminance sensor 330 in the usual surrounding situation, and there is no information detected from the heat and smoke sensors, it can be divided into stage 1. The second stage is a stage of caution and warning, and when the smoke is detected through the smoke detection sensor 320, it can be divided into two stages.

Step 3 is an emergency step, and when heat and smoke are simultaneously detected through the heat sensor 310 and the smoke sensor 320, it can be divided into three steps. Step 3 described above is given as an example for easy explanation of the present invention, and may be classified into more various steps such as step 4 or step 5 according to different design conditions. When a risk is recognized by the risk recognition module 210 , the lighting control module 220 may control the light emission of the light emitting means 11 . Here, as described above, the light emission of the light emitting means 11 can be controlled to emit light of one color (white) and then light of another color (yellow, red, etc.) according to the degree of danger.

According to other design conditions, the light emitted from the light emitting means 11 can be controlled to flicker in a single color. According to another design condition, the colors of a plurality of colors (red, blue, yellow, green and white) that can be emitted by the light emitting means 11 may be alternately controlled. That is, by causing the light to flash or alternate in the light emitting means 11, when a danger occurs, there is an advantage that can further evoke the danger by people present in the vicinity. More specifically, when ambient smoke is detected through the smoke detection sensor 320, the risk recognition module 210 recognizes in two stages regardless of day or night, and flickers the yellow light emitting means 11 to can signal danger. In addition, when heat and smoke are simultaneously detected through the heat sensor 310 and the smoke sensor 320, the risk recognition module 210 recognizes it as a three-step emergency, and the red light emitting means 11 blinks. can

Here, as the flashing means repeats on/off, a dangerous situation can be quickly recognized in the vicinity, and the colors of yellow indicating a warning and red indicating an emergency emit light alternately to quickly reduce the danger can recognize In this way, the lighting control module 220 can recognize the occurrence of danger and control the light emitting means 11 to inform the surroundings of the danger. The sensor unit 300 includes a heat sensor 310 capable of detecting ambient heat, a smoke sensor 320 capable of detecting smoke, and an illuminance sensor 330 capable of detecting ambient illuminance. can do.

In addition, various sensors may be further configured depending on the location of the CCTV camera to be installed, and a gas sensor, a flame sensor, and a radiation sensor may be included around the factory handling the compound. When the risk notification module 230 recognizes the risk, it can notify the risk to the manager of the control center through the communication module 110 of the risk. 9 is a block diagram showing another example of the communication unit, the control unit, and the sensor unit formed in the frame of the bracket device for a CCTV camera notifying the danger of the telephone pole inclination measurement system according to the present invention. Another embodiment of the present invention may further include a camera communication module 120 in the communication unit 100, and an image analysis module 240 in the control unit 200, as shown in the attached FIG. .

The camera communication module 120 may communicate with a camera mounted on the camera cover 10 . The image analysis module 240 includes an image receiving unit 241 and an image analysis unit 242 capable of analyzing and receiving an image captured by a CCTV camera. The image analysis unit 242 may analyze a dangerous situation through an image captured by a CCTV camera. When a person, a prohibited area, or a fire occurs in a specific time period, the risk may be analyzed through the image analysis unit 242 , and an image may be received through the image receiving unit 241 to notify the control center of the risk.

The bracket device for a CCTV camera that notifies the danger of the telephone pole inclination measurement system according to the present invention can detect a risk through an installed sensor, and the manager analyzes the CCTV image transmitted through wireless communication to detect the risk. It has the advantage of being able to inform the surrounding area according to the risk priority through the light-emitting means of various colors designed to recognize the detected danger and inform the surrounding area. In addition, it is designed to replace and use only the bracket device for CCTV cameras that informs the existing CCTV of danger, thereby reducing costs. In addition, it can be applied regardless of the type of CCTV.

Referring to Figs. 10 to 11 based on the above-mentioned cold, the camera bracket device is a camera cover (10); and a frame 20 connected to the camera cover to support the camera cover, wherein the frame 20 includes a vertical frame unit 21 and a horizontal frame unit 22 connected to the vertical frame unit 21 . includes

Here, the camera bracket device further includes an interlocking fixing structure interlocked on the camera cover 10 and the frame 20 to secure the fixing force and shooting performance of the camera cover 10 and the frame 20. do.

The interlocking fixing structure includes a wall structure 1100, an upper panel part 1110 installed horizontally at the upper end of the wall structure 1100, and a lower panel installed horizontally at the lower end of the wall structure 1100. A part 1120 and a horizontal frame actuator 1130 installed between the upper panel part 1110 and the lower panel part, and the horizontal frame part 22 is installed to move the horizontal frame part 22 forward and backward. ) is included.

In addition, the position movement of the camera cover 10 is made based on the forward and backward flow of the horizontal frame part 22 . The interlocking fixing structure includes a first support body 1141 installed at the lower end of the horizontal frame part 22 and a lower portion of the first support body 1141, and is fixed to the lower panel part 1120. The installed first support structure 1142 and the second support body 1151 installed so as to be adjacent to the outside of the first support body 1141, are installed under the second support body 1151, the lower end It further includes a second support structure 1152 fixedly installed on the panel unit 1120 .

In addition, the first support structure 1142 and the second support structure 1152 flow downward from the first support body 1141 and the second support body 1151, respectively, and the lower panel part 1120. A first lifting force is applied so that the first support body 1141 and the second support body 1151 press and support the horizontal frame part 22 upward, and the upper panel part 1110 is located in the lower part. A press-fitting fixture for applying a first descending force corresponding to the first ascending force by press-fitting the horizontal frame part 22 downward is installed.

The press-fitting fixture 116 is located in the upper opposite portion of the first support body 1141 and is press-fitted in the first press-fitting fixture 1161 and the second support body 1151 in the upper opposed portion. A second press-in fixture 1162 to be press-fitted, the first press-in fixture 1161 and the second press-fit fixture 1162 are positioned between the first support body 1141 and the second support body An intermediate press-in fixture 1163 for press-fitting an intermediate region between 1151, a third press-in fixture 1164 adjacent to the outside of the second press-in fixture 1162, and the third press-fit fixture ( A fourth press-fitting fixture 1165 adjacent to the outside of 1164 is included.

The first press-in fixture 1161 to the fourth press-in fixture 1165 and the intermediate press-in fixture 1163 are selectively or entirely horizontally depending on the reinforcing force corresponding to the first lifting force or additionally required. Press-fitting is performed on the frame part 22, and the first press-fitting fixture to the fourth press-fitting fixture 1165 and the intermediate press-fitting fixture 1163 are inserted and mounted in the horizontal frame part 22 Each of the insertion end structures 116a is provided to re-apply a fixing force to the horizontal frame part 22 through rotation while being mounted on the horizontal frame part 22 .

At the lower portion of one end of the upper panel part 1110, a lower outer moving body 1110a, a lower outer moving body 1110b fixed to the lower end of the lower outer moving body 1110a, and the lower outer moving body 1110b Installed to be orthogonal to the lower outer moving body 1110a, including an extrapolated panel part 1110c that is extrapolated to the vertical frame part 21,

The extrapolated panel portion 1110c is moved forward or backward from the lower outer actuator 1110b to suppress vibrations caused by impact to the vertical frame portion 21 and the camera cover 10, and the vertical frame portion 21 is movable in a certain range in the horizontal frame part 22 to move downward, and the extrapolated panel part 1110c moves forward or backward in a state where the position is determined according to the lower movement, and the position is confirmed. Finally, the vertical frame portion 21 is fixed.

Here, the outer driving part 1141a is installed on the outer surface of the first support body 1141, and the outer driving part 1141a pushes the second support body 1151 to the outside through the pushing means 1141b. In addition, the wall structure 1100 has a first upper push module 1100a that protrudes and protrudes from the upper region to push and fix the first supporting structure 1142, and protrudes and protrudes from the lower region to support the first supporting structure 1142. A first lower push module 1100b for pushing and fixing is provided.

The second support structure 1152 includes a second upper push module 1100c that presses the first support structure 1142 on a surface opposite to the first support structure 1142, and the first support structure 1142 ) and a second lower push module (1100d) for pressing the first supporting structure (1142) on the opposite surface, wherein the second upper push module (1100c) is opposite to the first upper push module (1100a) Press the region of the first support structure 1142 corresponding to the region. The second lower push module 1100d presses the area of the first supporting structure 1142 corresponding to the opposite area of the first lower push module 1100b.

In addition, the deformable structure 1100 includes a penetrating body 117 penetrating the first supporting structure 1142 and the second supporting structure 1152, and the through body 117 being provided outside the camera cover ( 10) and a mounting ring 118 mounted to surround the outside, and the mounting ring 118 fixes the camera cover 10 by the flow of the penetrating body 117 . The upper panel part 1110 and the lower panel part 1120 flow in a direction toward or away from each other on the wall structure 1100 . The camera cover 10 is rotated on the vertical frame 21 to change the shooting range of the camera, and the camera cover 10 is rotated so that the lower part faces the front and the outer side and the side part faces the lower part.

Here, the lower panel part 1120 includes a forward panel 1120a provided to flow back and forth to the outside, a vertical panel 1120b provided to an upper portion of the advance panel 1120a, and an upper portion of the vertical panel 1120b. It is provided in the camera cover 10 includes a support structure (1120c) for supporting the side portion located in the lower portion.

The side portion of the camera cover 10 includes a metal material, and the support structure 1120c is magnetically coupled to the side portion including the metal material to fix the support, and by rotation of the camera cover 10 A reinforcing structure is provided between the upper surface portion positioned as the side portion from the upper portion and the second support structure 1152 . In addition, the reinforcing structure includes a fixing structure 1152a that is fixedly installed on the second support structure 1152, and the fixing structure 1152a protrudes from the front surface of the fixing structure 1152a and is magnetically coupled to the upper surface including a metal material to be fixed. and an assembly 1152b.

On the other hand, the method of providing a system for measuring the inclination of a power pole of a distribution line in which a transformer is installed based on the above-described content includes the steps of: installing a tilt notification device of the pole; Installing a photographing means including a camera bracket device; Recognizing the inclination of the telephone pole through the inclination notification device; and detecting the inclination of the telephone pole or the vicinity of the telephone pole through a photographing means including the camera bracket device. Here, the camera bracket device includes a camera cover 10; and a frame 20 connected to the camera cover to support the camera cover.

The frame 20 includes a vertical frame part 21 and a horizontal frame part 22 connected to the vertical frame part 21 . The driving method of the physical components described above is based on a motor, an actuator, etc., and the forward and backward movement and rotational movement are made, and the shape and size of each component can be variously selected and provided according to the installation site and materials to be implemented. . Although the present invention has been described with reference to the embodiment shown in the drawings, which is merely exemplary, it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible therefrom. Accordingly, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

100: telephone pole 200: basic block
300: solar module ERT: ground

Claims (3)

delete A method of providing a system for measuring the inclination of a power pole of a distribution line in which a transformer is installed, the method comprising:
Installing a tilt notification device on the telephone pole;
Installing a photographing means including a camera bracket device on the telephone pole;
determining the inclination of the telephone pole through the inclination notification device; and
Comprising the step of grasping the inclination of the telephone pole or the periphery of the telephone pole through the photographing means including the camera bracket device,
The camera bracket device is
camera cover (10); and a frame 20 connected to the camera cover to support the camera cover,
The frame 20 includes a vertical frame part 21 and a horizontal frame part 22 connected to the vertical frame part 21,
The camera bracket device is
Further comprising an interlocking fixing structure interlocked on the camera cover 10 and the frame 20 to secure the fixing force and shooting performance of the camera cover 10 and the frame 20,
The interlocking fixing structure is,
A wall structure (1100) and,
an upper panel part 1110 installed horizontally at the upper end of the wall structure 1100;
a lower panel part 1120 installed horizontally at the lower end of the wall structure 1100;
It is installed between the upper panel part 1110 and the lower panel part, and the horizontal frame part 22 is installed to include a horizontal frame actuator 1130 for moving the horizontal frame part 22 forward and backward,
The position movement of the camera cover 10 is made based on the forward and backward flow of the horizontal frame part 22,
The interlocking fixing structure is,
A first support body 1141 installed at the lower end of the horizontal frame portion 22, and,
A first support structure (1142) installed as a lower portion of the first support body (1141) and fixedly installed on the lower panel part (1120) and
a second support body 1151 installed to be adjacent to the outside of the first support body 1141;
It is installed as a lower portion of the second support body 1151, and further includes a second support structure 1152 that is fixedly installed on the lower panel part 1120,
The first support structure 1142 and the second support structure 1152 flow downward from the first support body 1141 and the second support body 1151, respectively, and from the lower panel part 1120 A first lifting force is applied so that the first support body 1141 and the second support body 1151 press the horizontal frame part 22 upward to support it,
The upper panel part 1110,
A press-fitting fixture 116 for applying a first descending force corresponding to the first ascending force by press-fitting the horizontal frame part 22 to the lower portion is installed at the lower portion,
The press-fitting fixture 116 is,
A first press-fitting fixture 1161 which is located in the upper opposite portion of the first support body 1141 and press-fits;
and a second press-fitting fixture 1162 which is located in the upper opposite portion of the second support body 1151 and press-fits;
It is located between the first press-in fixture 1161 and the second press-in fixture 1162 and press-fits an intermediate region between the first support body 1141 and the second support body 1151. body (1163), and
and a third press-fitting fixture 1164 adjacent to the outside of the second press-fitting fixture 1162;
Including a fourth press-in fixture 1165 adjacent to the outside of the third press-in fixture 1164,
The first press-in fixture 1161 to the fourth press-in fixture 1165 and the intermediate press-in fixture 1163 are selectively or entirely horizontally depending on the reinforcing force corresponding to the first lifting force or additionally required. Press-fitting to the frame portion 22,
The first press-fitting fixture to the fourth press-fitting fixture 1165 and the intermediate press-fitting fixture 1163 are provided with an insertion single structure 116a inserted and mounted in the horizontal frame part 22, respectively, and the horizontal A method of providing a system for measuring the inclination of a power pole of a distribution line in which a transformer is installed to re-apply a fixing force to the horizontal frame part 22 through rotation in a state mounted on the frame part 22.
3. The method of claim 2,
A lower outer movable body 1110a and a lower portion of one end of the upper panel 1110;
The lower outer moving body (1110a) and the lower outer moving body (1110b) fixed to the lower end,
It is installed orthogonally to the lower outer moving body 1110a in the lower outer actuator 1110b, and includes an extrapolated panel portion 1110c that is extrapolated to the vertical frame portion 21,
The extrapolated panel unit 1110c is moved forward or backward from the lower outer actuator 1110b to suppress vibrations caused by impact between the vertical frame unit 21 and the camera cover 10,
The vertical frame part 21 is movable downward in a certain range in the horizontal frame part 22,
The extrapolation panel unit 1110c moves forward or backward in a state where the position is determined according to the lower movement, and measures the inclination of a power pole of a distribution line in which a transformer is installed to finally fix the vertical frame unit 21 in the state in which the position is confirmed. How to provide the system.

Images