KR102309924B1 - Fixing System for underground power distribution line and method thereof - Google Patents

Abstract

The present invention relates to a distribution line stabilization device in a downtown residential area, and an operation method thereof. The distribution line stabilization device in a downtown residential area according to the present invention comprises: a distribution line fault display device installed on a processed distribution line; and an inspection device for inspecting the processed distribution line. The fault display device comprises: a control unit; a sensing unit; a fault determination unit; and a lamp unit. According to the present invention, a distribution line section where a fault has occurred can be easily recognized from the outside.

Description

A distribution line stabilization device in a downtown residential area and its operation method {Fixing System for underground power distribution line and method thereof}

The present invention relates to an apparatus for stabilizing distribution lines in urban residential areas and a method for operating the same, and more specifically, only a purchaser authorized through authentication uses an analysis tool for effective and safe performance of remote analysis environment management and operation tasks, and other It relates to a data portal system and construction method capable of uploading platform purchase data and existing data to perform various analyzes based on combination with newly purchased data.

In line stabilization, means are being developed to be installed on overhead distribution lines and to externally indicate whether the distribution lines are faulty. These means are contributing as a technology for line stabilization. However, it is difficult to achieve complete stabilization of the line only by these means. In other words, there is a need for a means to more actively manage and understand the track and its surroundings. However, these technologies have not been specifically developed and applied.

Korean Patent Registration No. 10-1978245

The problem to be solved by the present invention is to provide a distribution line failure display device that displays the distribution line section in which a failure has occurred so that it can be easily recognized from the outside, but in a downtown residential area that is operated in combination with inspection and management means for active management of the line It is to provide a stabilization device for the distribution line of

In addition, in operating the track inspection means, which is one of the stabilization measures of the track, it is possible to effectively check the track condition of the drone and to manage and monitor obstacles and approaching objects around the track to check negative factors on the track and take countermeasures. It is to provide a stabilization device for the distribution line of

In addition, it is possible to systematically and efficiently manage and maintain these inspection means to provide a stabilizing device for distribution lines in urban residential areas that is easy to operate for a long period of time.

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, in the distribution line stabilization device of a downtown residential area, a distribution line failure display device installed on the overhead distribution line; and an inspection device for inspecting the overhead distribution line, wherein the failure display device includes: a control unit; a sensing unit sensing at least one of current, voltage and temperature on the distribution line and outputting sensing data; a failure determination unit that determines whether there is a failure on the distribution line by using the sensed data; and a lamp unit that is turned on under the control of the controller when it is determined that a failure has occurred on the distribution line, and the inspection device includes: a drone 110 for pre-photographing the photographing area; and a drone housing structure for temporary or long-term standby of the drone 110, wherein the drone housing structure includes a first pole 1001 and a second pole 2001 facing each other, and the drone housing structure, The first 1-1 fixed installation part 1003 installed on one side of the first telephone pole 1001 and the outer surface of the first electric pole 1001 are located, the 1-1 fixed installation part 1003 and A first fixed installation part including a 1-2 fixed installation part 1004 that is fixedly installed on the first utility pole 1001 with the first utility pole 1001 interposed therebetween, and the second utility pole (2001) The 2-1 fixed installation part 2003 installed on one side and the outer surface of the second telephone pole 2001 are located, and the 2-1 fixed installation part 2003 and the second telephone pole 2001 are installed. It provides a distribution line stabilization device in the downtown residential area, including a second fixed installation part including a 2-2 fixed installation part 2004 that is fixedly installed on the second telegraph pole 2001 with a gap therebetween.

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

The present invention provides a distribution line failure display device for displaying a distribution line section in which a failure has occurred so that it can be easily recognized from the outside, but stabilizing the distribution line in an urban residential area operated in combination with an inspection and management means for active management of the line device can be provided.

In addition, in operating the track inspection means, which is one of the stabilization measures of the track, it is possible to effectively check the track condition of the drone and to manage and monitor obstacles and approaching objects around the track to check negative factors on the track and take countermeasures. of distribution line stabilization device can be provided.

In addition, since it is possible to systematically and efficiently manage and maintain these inspection means, it is possible to provide a stabilization device for distribution lines in urban residential areas that is easy to operate for a long period of time.

1 is a view for explaining the connection relationship of the distribution line failure indication device of the distribution line stabilization device in the downtown residential area according to an embodiment of the present invention;
2 is a block diagram of a distribution line failure display device according to an embodiment of the present invention;
3 is a view for explaining the operation of the distribution line failure display device of the distribution line stabilization device in the downtown residential area according to an embodiment of the present invention;
4 is a perspective view of a distribution line failure display device of a distribution line stabilization device in a downtown residential area according to an embodiment of the present invention.
5 to 6 are views schematically illustrating an additional configuration of a distribution line stabilizer in a residential area in the city.

Hereinafter, the embodiment will be described in detail with reference to the accompanying drawings, but regardless of the reference numerals, the same or corresponding components are given the same reference numerals, and the overlapping description thereof will be omitted.

1, 2 and 4, the distribution line failure display device 100 of the distribution line stabilization device in the downtown residential area according to an embodiment of the present invention is installed on the overhead distribution line, the control unit 130, the distribution line A detection unit 110 that detects at least one of current, voltage, and temperature on a circuit and outputs detection data, a failure determination unit 120 that determines whether there is a failure on a distribution line using the detection data, and a failure on the distribution line When it is determined that a failure has occurred, the lamp unit 140 is turned on according to the control of the controller 130, and when it is determined that a failure has occurred on the distribution line, the first that transmits failure information to the outside according to the control of the controller 130 Communication unit 150, the second communication unit 160 that receives the distribution line wide area fault information from the distribution center 200, the tilt sensor 170 that detects the slope of the distribution line and outputs the slope data, the tension of the distribution line is detected The tension sensor 180 for outputting the tension data and the light blocking part 190 installed on the lamp unit 140 to block light incident from the outside may be included.

First, the sensing unit 110 may be configured to include at least one of a current sensing sensor, a voltage sensing sensor, and a temperature sensing sensor. The sensing unit 110 may sense at least one of current, voltage, and temperature on the distribution line and output sensing data. Whether to operate the sensing unit 110 may be determined under the control of the control unit 130 . The failure determination unit 120 may determine whether there is a failure on the distribution line by comparing data on current, voltage, and temperature included in the sensed data with preset data. The failure determination unit 120 may determine that a failure has occurred in the distribution line, for example, when the value of the sensed data exceeds any one of the data set for current, voltage, and temperature, respectively.

When the preset data is set step by step, the failure determination unit 120 may determine whether a step failure occurs by comparing each data value set step by step with the sensed data. The failure determination unit 120, for example, when the preset data of the current data is set to 1A, 2A, 3A, respectively, a warning stage when the current value of the sensed data exceeds 1A, and when it exceeds 2A As a caution step, if 3A is exceeded, the failure can be judged as a dangerous step. Step-by-step failure determination can be made by combining values of current, voltage, and temperature data according to settings. The failure determination unit 120 may determine whether to operate according to the control of the control unit 130 .

When it is determined that a failure has occurred on the distribution line, the lamp unit 140 is turned on and operated under the control of the control unit 130 . The lamp unit 140 may be formed of, for example, an LED. The lamp unit 140 may determine whether to operate, color, and illuminance according to the control of the controller 130 . When it is determined that a failure has occurred on the power distribution line, the first communication unit 150 may transmit failure information to an external patrol officer, the patrol vehicle 400, or the like under the control of the controller 130 . The first communication unit 150 may transmit the failure information using, for example, RF, Zigbee communication, or the like.

The failure information may include information on the location and specifications of the distribution line failure display device along with information on whether the distribution line is faulty and the degree of failure. Whether to operate the first communication unit 150 may be determined according to the control of the control unit 130 . Alternatively, the first communication unit 150 may return the failure information in response to a request for information from the outside. The first communication unit 150 may return failure information in response to an information request when a patrolman or a patrol vehicle approaches, for example, using an RFID tag method.

The second communication unit 160 may receive the distribution line wide area fault information from the distribution center 200 . The second communication unit 160 may receive the distribution line wide area failure information from the distribution center 200 using, for example, CDMA, WiBro communication method, or the like. The control unit 130 controls operations of the sensing unit 110 , the failure determination unit 120 , the lamp unit 140 , and the first communication unit 150 , and controls at least one of a color and an illuminance of the lamp unit 140 . can do. The control unit 130 may control the operation of the lamp unit 140 and the first communication unit 150 by using the distribution line wide area fault information received from the second communication unit 160 .

The distribution automation terminal device 300 (FRTU, Feeder Remote Terminal Unit) installed in the transformer, switchgear, etc. transmits various status information such as failure information of the distributor and the direction of the failure to the distribution center 200, and the distribution center 200 is From this, a wide range of faulty areas can be identified. The distribution center 200 transmits the distribution line wide area failure information including information on the failure area to the second communication unit 160 . The control unit 130 determines whether an area in which the distribution line failure display device 100 is installed is included in the failure occurrence area, and controls the lamp unit 140 and the first communication unit 150 to operate only if it is included. can Accordingly, the power distribution line failure display device 100 primarily controls the lamp unit 140 and the first communication unit 150 to operate only when it is determined that a failure has occurred through the distribution automation terminal device 300 . Consumption can be reduced, and the accuracy of the failure determination can be improved.

The control unit 130 may control the lamp unit 140 to operate when the failure determination unit 120 determines that a failure has occurred. The control unit 130 may adjust at least one of a color and an illuminance of the lamp unit when the failure determination unit 120 determines whether a failure occurs in stages. For example, when the step-by-step failure status is divided into warning, caution, and dangerous steps, the controller 130 may control the illuminance to increase in the order of warning, caution, and danger steps. Alternatively, the controller 130 may control to change from a yellow color to a red color in the order of warning, caution, and danger. Alternatively, the controller 130 may control the illuminance to increase in the order of warning, caution, and danger, and control the color to change from a yellow color to a red color. The inclination sensor 170 may output the inclination data by detecting the inclination of the distribution line. The inclination sensor 170, for example, when the inclination of the distribution line changes due to the inclination of the electric pole, may detect it and output the inclination data, and the failure determination unit 120 compares the inclination data with a preset data value. Thus, it is possible to determine whether the distribution line is faulty.

In this case, the failure of the distribution line may mean disconnection of the distribution line, dew condensation, or the like, or a preliminary stage with a high probability of failure due to an abnormality occurring in the distribution line. The tension sensor 180 may output tension data by sensing the tension of the distribution line. The tension sensor 180 may output tension data by detecting a difference in the ear canal in the distribution line due to, for example, icing, wind pressure, etc., and the failure determination unit 120 compares the tension data with a preset data value. By comparison, it is possible to determine whether the distribution line is faulty.

In this case, the failure of the distribution line may mean disconnection of the distribution line, dew condensation, or the like, or a preliminary stage with a high probability of failure due to an abnormality occurring in the distribution line. Referring to FIG. 3 , the patrol vehicle or the patrol vehicle 400 can easily identify the faulty distribution line by checking the light emitted from the lamp after arriving in the vicinity of the distribution line determined to have occurred.

In addition, the patrol vehicle or the patrol vehicle can easily identify the faulty distribution line even when it is difficult to check the light emitted from the lamp unit by receiving the fault information transmitted from the first communication unit. Referring to FIG. 4 , a light blocking unit 190 for blocking light incident from the outside is additionally mounted on the upper portion of the lamp unit 140 , so that light emitted from the lamp unit can be more easily checked.

5 to 6 , in the distribution line stabilization apparatus of a downtown residential area, a distribution line failure display device installed on an overhead distribution line; and an inspection device for inspecting the overhead distribution line, wherein the failure display device includes: a control unit; a sensing unit for sensing at least one of current, voltage, and temperature on the distribution line and outputting sensing data; a failure determination unit that determines whether there is a failure on the distribution line by using the sensed data; When it is determined that a failure has occurred on the distribution line, a lamp unit that is turned on under the control of the control unit may be included.

Here, the inspection device includes: a drone 110 for pre-photographing the photographing area; and a drone housing structure for temporary or long-term standby of the drone 110, wherein the drone housing structure includes a first pole 1001 and a second pole 2001 facing each other, and the drone housing structure, The first 1-1 fixed installation part 1003 installed on one side of the pole 1001 and the outer surface of the first pole 1001 are located, and the 1-1 fixed installation part 1003 and A first fixed installation part including a 1-2 fixed installation part 1004 that is fixedly installed on the first utility pole 1001 with the first utility pole 1001 interposed therebetween, and the second utility pole (2001) The 2-1 fixed installation part 2003 installed on one side and the outer surface of the second telephone pole 2001 are located, and the 2-1 fixed installation part 2003 and the second electric pole 2001 are installed. It may include a second fixed installation part including a 2-2 fixed installation part 2004 that is fixedly installed on the second telegraph pole 2001 between them.

On the other hand, in the operating method of the distribution line stabilization device in the urban residential area based on the above-mentioned contents, the method comprising: installing a distribution line failure display device installed on an overhead distribution line; installing an inspection device for inspecting the overhead distribution line; and operating the failure display device and the inspection device.

Here, the failure display device includes: a control unit; a sensing unit for sensing at least one of current, voltage, and temperature on the distribution line and outputting sensing data; a failure determination unit that determines whether there is a failure on the distribution line by using the sensed data; When it is determined that a failure has occurred on the distribution line, a lamp unit that is turned on under the control of the control unit may be included.

The inspection device includes: a drone 110 for pre-photographing the photographing area; and a drone dwelling structure for temporary or long-term standby of the drone 110, wherein the drone dwelling structure includes a first electric pole and a second electric pole facing each other, and the drone dwelling structure is the 1-1 fixed It is installed on the installation part 1003 below the 1-1 drone housing unit 1010 to form a 1-1 holding space H11, and the drone 110 is seated on the 1-1 holding space H11. Installed below the 2-1 drone housing unit 2010 on the first 1-2 drone housing unit 1020 and the 2-1 fixed installation unit 2003, the 2-1 holding space H21 ), and may include a 2-2 drone housing unit 2020 in which the drone 110 is seated and waiting on the 2-1 mounting space H21.

Here, the 1-2 drone housing unit 1020 is provided with a 1-2 battery charging unit 1021 therein to perform wireless charging of the seated drone 110, and the 2-2 drone The housewife 2020 is provided with a 2-2 battery charging unit 2021 therein to perform wireless charging of the seated drone 110 . On the other hand, the 1-1 drone housing unit 1010 is provided with a 1-1 photographing unit 1012 on the lower surface to monitor the drone 110 located in the 1-2 drone housing unit 1020, , the check-in and check-out states of the drone 110 for the 1-1 holding space H11 are checked, and the 2-1 drone housing unit 2010 has a 2-1 photographing unit 2012 on the lower surface. ) is provided to monitor the drone 110 located in the 2-2 drone housing unit 2020, and check the check-in and check-out status of the drone 110 for the 2-1 holding space H21. have.

The drone housing structure is installed below the 1-2 drone housing unit 1020 on the 1-1 fixed installation unit 1003 to form a 1-2 mounting space H12, and the first- The first 1-3 drone housing unit 1030 in which the drone 110 is seated and waiting on the second mounting space H12, and the 2-2 drone housing unit 2020 on the 2-1 fixed installation unit 2003 ) to form a 2-2 holding space (H22), the drone 110 is seated on the 2-2 holding space (H22), and a 2-3rd drone housing unit 2030 is further added. may include

Here, on the 2-1 fixed installation part 2003, it is installed below the 2-1 drone housing unit 2010 to form a 2-1 staging space H21, and the 2-1 st mounting space ( A 2-2 drone housing unit 2020 in which the drone 110 is seated and waiting on H21) may be further included.

The 1-3 drone housing unit 1030 is provided with a 1-3 battery charging unit 1031 therein, performs wireless charging for the seated drone 110, and the 2-3 drone housing unit ( 2030) is provided with a 2-3th battery charging unit 2031 therein, and may perform wireless charging of the seated drone 110 .

On the other hand, the 1-2 drone housing unit 1020 is provided with a 1-2 photographing unit 1022 on the lower surface to monitor the drone 110 located in the 1-3 drone housing unit 1030, , the check-in and check-out states of the drone 110 for the 1-2 holding space H12 are checked, and the 2-2 drone housing unit 2020 has a 2-1 photographing unit 2012 on the lower surface. ) is provided to monitor the drone 110 located in the 2-3rd drone housing unit 2030, and check the check-in and check-out status of the drone 110 for the 2-2 holding space H22. have.

The inspection device of the distribution line using the drone 110 is provided between the first utility pole 1001 and the second utility pole 2001, and through bars 1041 and 1042 installed in the upper region from left to right are interposed. and an intermediate support 1040 for supporting and fixing the 1-1 fixed installation part 1003 and the 2-1 fixed installation part 2003 to each other, the first pole 1001, and the second pole ( 2001), an insertion panel body 1050 into which the intermediate support 1040 is vertically inserted, and the first electrical pole 1001, the second electrical pole 2001, and the intermediate support 1040 are the insertion panels In the state of being inserted and fixed to the sieve 1050, a first horizontal support body 1061 made of rubber is inserted between the first telegraph pole 1001 and the intermediate support 1040 in a forced-fitting manner, and the second A second horizontal support body 1062 made of rubber is inserted between the utility pole 2001 and the intermediate support 1040 in a forced fitting manner, and the first utility pole 1001, the intermediate support 1040, and the The second telegraph pole 2001 may interact with each other in a pressing and fixing force by the first horizontal support body 1061 and the second horizontal support body 1062 on the insertion panel.

On the other hand, the 1-1 drone housing unit 1010 , the 1-2 drone housing unit 1020 , and the 1-3 drone housing unit 1030 are the heights of the 1-2 fixed installation unit 1004 . A first variable position is made in a sliding manner in the direction, and the 1-1 holding space H11, the 1-2 holding space H12, and the 1-th based on the first position change are made. The margin of the third holding space H13 is adjusted, and the 1-1 drone housing unit 1010 is provided with a 1-1 driving control unit 1013 located at the outer end, and the 1-2 drone housing unit 1020 is provided with a 1-2 driving control unit 1023 located at the outer end, and the 1-3 drone housing unit 1030 is provided with a 1-3 driving control unit 1032 located at the outer end can be

On the other hand, the 1-1 driving control unit 1013 closes the 1-1 staging space H11 downward to protect the drone 110 positioned on the 1-1 staging space H11 from the outside. The 1-1 finishing panel 1014 is driven so that it is possible, and the 1-2 driving control unit 1023 closes the 1-2 holding space H12 downward to close the 1-2 holding space H12. ), a 1-2 closing panel 1024 that protects the drone 110 from the outside is driven, and the 1-1 closing panel 1014 is connected to the 1-2 driving control unit 1023. A predetermined portion is inserted and mounted, and the 1-2 finishing panel 1024 may be partially inserted and mounted into the 1-3 driving control unit 1032 .

At this time, the 2-1 drone housing unit 2010 , the 2-2 drone housing unit 2020 , and the 2-3 drone housing unit 2030 are the 2-2 fixed installation units 1004 . A second positional variable position adjusted in a sliding manner in the height direction is made, and based on the second positional variableness, the 2-1 holding space H12, the 2-2 holding space H22, and the second -The margin of the -3 mounting space H23 is adjusted, and the 2-1 drone housing unit 2020 is provided with a 2-1 driving control unit 2013 located at the outer end, and the 2-2 drone holder unit 2020 is provided. The main part 2020 is provided with a 2-2nd drive control unit 2023 located at the outer end, and the 2-3rd drone housing unit 2030 has a 2-3rd drive control unit 2032 located at the outer end. can be provided.

In addition, the second-first driving control unit 2013 closes the second-first mounting space H12 downward to protect the drone 110 positioned on the second-first mounting space H12 from the outside. A 2-1 finishing panel 2014 is driven to make it possible, and the 2-2 driving control unit 2023 closes the 2-2 holding space H22 downward to close the 2-2 holding space H22. ), a 2-2 closing panel 2024 that protects the drone 110 from the outside is driven, and the 2-1 closing panel 2014 is connected to the 2-2 driving control unit 2023. A certain portion is inserted and mounted, and the second-second closing panel 2024 may be partially inserted and mounted into the second-third driving control unit 2032 .

On the other hand, the insertion panel body 1050 is provided with tilting rotating plates 1051 and 1052 at both ends, so that the range in which the drone is dropped or related parts, structures, etc. can be constantly adjusted. 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: distribution line fault display device 110: detection unit
120: failure determination unit 130: control unit
140: lamp unit 150: first communication unit

Claims (2)

In the method of operating a distribution line stabilizer in a downtown residential area,
Installing a distribution line failure display device installed on the overhead distribution line;
installing an inspection device for inspecting the overhead distribution line; and
Including the step of operating the failure display device and the inspection device,
The fault indication device is
control unit; a sensing unit sensing at least one of current, voltage and temperature on the distribution line and outputting sensing data; a failure determination unit that determines whether there is a failure on the distribution line by using the sensed data; and a lamp unit that is turned on under the control of the control unit when it is determined that a failure has occurred on the distribution line;
The inspection device is
Drone 110 for pre-photographing the shooting area; and a drone dwelling structure for temporary or long-term standby of the drone 110, wherein the drone dwelling structure includes a first electric pole 1001 and a second electric pole 2001 facing each other,
The drone housing structure is
A 1-1 fixed installation part 1003 installed on one side of the first telegraph pole 1001 and,
Positioned on the outer surface of the first telegraph pole 1001, the first-1-1 fixed installation part 1003 and the first telegraph pole 1001 between the first- 2 and a first fixed installation part including a fixed installation part 1004,
A 2-1 fixed installation part 2003 installed on one side of the second telegraph pole 2001 and,
Positioned on the outer surface of the second telephone pole 2001, the second 2-1 fixed installation part 2003 and the second electric pole 2001 are fixed to the second electric pole 2001 with the second 2-second 2 It includes a second fixed installation unit including a fixed installation unit 2004,
The drone housing structure is
It is installed below the 1-1 drone housing unit 1010 on the 1-1 fixed installation unit 1003 to form a 1-1 mounting space H11, and on the 1-1 mounting space H11. A second drone housing unit 1020 on which the drone 110 is seated and waiting, and a second drone housing unit 1020 installed below the 2-1 drone housing unit 2010 on the 2-1 fixed installation unit 2003 are installed. -Contains a 2-2 drone housing unit 2020 that forms a -1 holding space (H21), and the drone 110 is seated on the 2-1 holding space (H21) and waits,
The 1-2 drone housing unit 1020,
A 1-2 battery charging unit 1021 is provided therein to perform wireless charging of the seated drone 110, and the 2-2 drone housing unit 2020 is provided with a 2-2 battery charging unit ( 2021) is provided to perform wireless charging for the seated drone 110,
The 1-1 drone housing unit 1010,
A 1-1 photographing unit 1012 is provided on the lower surface to monitor the drone 110 located in the 1-2 drone housing unit 1020, and the drone for the 1-1 mounting space H11. The check-in and check-out states of 110 are checked, and the 2-1 drone housing unit 2010 is provided with a 2-1 photographing unit 2012 on the lower surface, and the 2-2 drone housing unit 2020 is provided. monitors the drone 110 located in the
The drone housing structure is
On the 1-1 fixed installation part 1003, it is installed under the 1-2 drone housing unit 1020 to form a 1-2 staging space H12, and the 1-2 staging space H12. It is installed below the 1-3 drone housing unit 1030 on which the drone 110 is seated and waiting, and the 2-2 drone housing unit 2020 on the 2-1 fixed installation unit 2003. A 2-3rd drone housing unit 2030 that forms a 2-2 holding space (H22), and the drone 110 is seated on the 2-2 holding space (H22) to stand by;
On the 2-1 fixed installation unit 2003, it is installed below the 2-1 drone housing unit 2010 to form a 2-1 staging space H21, and the 2-1 st mounting space H21. It further includes a 2-2 drone dwelling unit 2020 on which the drone 110 is seated and waiting on it,
The 1-3 drone housing unit 1030 is provided with a 1-3 battery charging unit 1031 therein, performs wireless charging for the seated drone 110, and the 2-3 drone housing unit ( 2030) is a method of operating a power distribution line stabilization device in a residential area in the city, in which the 2-3th battery charging unit 2031 is provided therein to perform wireless charging for the seated drone 110 .

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