KR101222500B1 - Deterioration sensing method of power line connecting pant - Google Patents

Abstract

PURPOSE: A deterioration sensing method for power line connection spots is provided to quickly and accurately sense deterioration of a power line connection spot. CONSTITUTION: On outer circumference of a power line connection spot(10) four temperature sensors(20) are adhered, which measure the temperature of the power line connection spot. The measured value of each temperature sensor is calculated to measure the deterioration of the power line connection spot.

Description

Deterioration sensing method of power line connecting pant

The present invention relates to a method for detecting degradation of a power line connection point, and more particularly, by attaching a plurality of temperature sensors to an outer circumferential surface of a power line connection point and grasping the difference in temperature detected by the temperature sensor. The present invention relates to a degradation detection method of a power line connection point capable of detecting degradation.

In general, deterioration due to high temperature is likely to occur due to a specific cause in a power line connection point, and a system for detecting such deterioration has been developed in the past. As an example, Korean Patent Laid-Open No. 10-1099686 includes a fixing part to which a first wire connected to a cable and a second wire connected to a ground line of the cable are coupled; And a connection part coupled to the fixed part to connect the first wire and the second wire to an inspection apparatus. The fixing unit, the main body is mounted to the terminal box of the cable; A terminal installed in the main body and coupling the first wire and the second wire to the connection unit; And a switch installed at the main body and determining whether the first wire and the second wire are electrically connected to each other. The terminal may include a first terminal to which the first wire is connected; And a second terminal to which the second wire is connected; A first connection panel is installed between the first terminal and the switch, and a second connection panel is installed between the second terminal and the switch; The switch may include a knob mounted to the main body to electrically connect the first connection panel and the second connection panel; And a second elastic member interposed between the knob and the main body; The connection unit, a connection block coupled to the main body; And a connection jack installed at the connection block and electrically connected to the terminal and connected to the measurement jack of the inspection device. The inspection apparatus is disclosed a connector for detecting a high voltage cable degradation, characterized in that for detecting the abnormal current generated between the cable and the ground line.

Patent Publication No. 10-1077441 has an ultra-high frequency vibration sensor which is installed in the insulation of a plurality of installation devices installed inside the switchboard and is generated by partial discharge when the insulation deteriorates and detects the ultra-high frequency vibration transmitted through the insulation; ; Is installed on the front of the switchboard and electrically connected to the plurality of ultra-high frequency vibration sensor, and receives and stores the ultra-high frequency vibration signal measured by the ultra-high frequency vibration sensor through a sensor input terminal, according to the pattern or intensity of the ultra-high frequency vibration signal Real-time deterioration using the ultra-high frequency sensor comprising a; display the deterioration state of the installation device to the outside, and converts the result into a protocol capable of wired and wireless communication to transmit to the ultra-high frequency vibration monitoring device installed in the central monitoring panel; There is a disclosure about a sensing device.

However, the prior arts could not accurately determine in real time whether the power line connection is deteriorated, and also has the disadvantage of having to check and check the site directly for determination.

Accordingly, the present invention has been made to solve the above problems, and to provide a method for detecting degradation of a power line connection point that can accurately and quickly detect whether the power line connection point deterioration.

The present invention relates to a method for detecting deterioration of a power line connection point. In the method of detecting a deterioration of a power line connection point for detecting a deterioration of a power line connection point, four temperature sensors 20 are connected to the outer circumference of the power line connection point 10. Attaching a temperature sensor; A temperature measuring step of measuring the temperature of the power line connection point 10 using the plurality of temperature sensors; And a measurement value calculation step of measuring the deterioration degree of the power line connection point 10 by calculating the measurement value of each of the temperature sensors 20.

In addition, in the degradation detection method of the power line connection point for detecting the degradation of the power line connection point, a plurality of temperature sensors 20 are radially attached to the outer periphery of the power line connection point 10, and the temperature sensor 20 A temperature sensor attaching step of attaching one reference temperature sensor 40 spaced apart from each other in the longitudinal direction; A temperature measuring step of measuring a temperature of each of the power line connection points 10 by using the plurality of temperature sensors 20 and measuring a reference temperature by using a reference temperature sensor 40; And a measurement value calculating step of determining whether the power line connection point 10 is deteriorated by calculating the measured value of each of the temperature sensors 20 and the measured value of the reference temperature sensor 40.

Therefore, the present invention has a remarkable effect that can accurately and quickly detect whether the power line connection point is degraded.

1 is a cross-sectional view of a temperature sensor for detecting degradation in a power line connection of the present invention
2 is a perspective view of a temperature sensor for detecting degradation in a power line connection of the present invention
3 is a cross-sectional view of the temperature sensor for detecting degradation in the power line connection of the present invention
4 is a perspective view of a temperature sensor and a reference temperature sensor attached to the power line connection of the present invention for detecting degradation
5 is a cross-sectional view of a temperature sensor and a reference temperature sensor for detecting degradation in the power line connection of the present invention

The present invention relates to a method for detecting deterioration of a power line connection point. In the method of detecting a deterioration of a power line connection point for detecting a deterioration of a power line connection point, four temperature sensors 20 are connected to the outer circumference of the power line connection point 10. Attaching a temperature sensor; A temperature measuring step of measuring the temperature of the power line connection point 10 using the plurality of temperature sensors; And a measurement value calculation step of measuring the deterioration degree of the power line connection point 10 by calculating the measurement value of each of the temperature sensors 20.

In addition, the measuring value calculating step may measure the temperature of each of the two left and right temperature sensors, when the temperature difference is more than a predetermined value (x ℃), the difference between the temperature of the left temperature sensor and the predetermined set temperature is a constant value (y ℃) or more, or if the difference between the temperature of the right temperature sensor and the predetermined set temperature is more than a certain value (y ℃), a warning alarm is generated, and the temperature of each of the two upper and lower temperature sensors is measured. (x ℃) or more, alarm occurs when the difference between the upper temperature sensor and the predetermined set temperature is above a certain value (y ℃) or when the difference between the lower temperature sensor and the predetermined set temperature is more than a certain value (y ℃). Characterized in that.

In addition, the measuring value calculating step may measure the temperature of each of the two left and right temperature sensors, when the temperature difference is more than a predetermined value (x ℃), the difference between the temperature of the left temperature sensor and the predetermined set temperature is a constant value (y ℃) or more, or if the difference between the temperature of the right temperature sensor and the predetermined set temperature is more than a certain value (y ℃), a second alarm is generated, and the temperature of each of the two upper and lower temperature sensors is measured. If it is more than (± 0 ℃), the difference between the temperature of the upper temperature sensor and the predetermined set temperature is above a certain value (y ℃) or if the difference between the temperature of the lower temperature sensor and the predetermined temperature is constant (y ℃) It is characterized by generating a second level alarm if abnormal.

In addition, when the temperature of each of the two left and right temperature sensors are measured and the temperature difference is above a certain value (± 0 ° C.), the difference between the temperature of the left temperature sensor and the predetermined set temperature is above a certain value (y ° C.) or If the difference between the temperature of the right temperature sensor and the predetermined set temperature is more than a certain value (y ℃), a first grade alarm is generated, and the temperature of each of the two upper and lower temperature sensors is measured, and the temperature difference is constant (± 0 ℃). ) Or above, if the difference between the temperature of the upper temperature sensor and the predetermined set temperature is above a certain value (y ℃) or if the difference between the temperature of the lower temperature sensor and the predetermined set temperature is above a certain value (y ℃) Characterized in that generates.

In addition, in the degradation detection method of the power line connection point for detecting the degradation of the power line connection point, a plurality of temperature sensors 20 are radially attached to the outer periphery of the power line connection point 10, and the temperature sensor 20 A temperature sensor attaching step of attaching one reference temperature sensor 40 spaced apart from each other in the longitudinal direction; A temperature measuring step of measuring a temperature of each of the power line connection points 10 by using the plurality of temperature sensors 20 and measuring a reference temperature by using a reference temperature sensor 40; And a measurement value calculating step of determining whether the power line connection point 10 is deteriorated by calculating the measured value of each of the temperature sensors 20 and the measured value of the reference temperature sensor 40.

The present invention will be described in detail with reference to the accompanying drawings. 1 is a cross-sectional view of the temperature sensor for detecting degradation in the power line connection site of the present invention, Figure 2 is a perspective view of the temperature sensor for detection of degradation in the power line connection site of the present invention, Figure 3 is a degradation in the power line connection site of the present invention 4 is a perspective view of a temperature sensor and a reference temperature sensor for deterioration detection in the power line connection site of the present invention, Figure 5 is a temperature sensor for detecting degradation in the power line connection site of the present invention; This is a sectional view with a reference temperature sensor attached.

The degradation detection system of the power line connection point of the present invention attaches a plurality of temperature sensors to the outer periphery of the power line connection point, and calculates the measurement value of the temperature sensor to measure the degree of degradation of the power line connection point.

The power line connecting portion 10 inserts both ends of the power line conductor 60 into the sleeve, compresses the sleeve 52 to secure the connection, and then insulates the cover 51 again on the sleeve 52. Will be covered. And radially attach a plurality of temperature sensors 20 of the present invention on the insulating cover 51.

The temperature sensor uses a conventional temperature sensor that can be easily obtained on the market, and attaches four, compares two temperature differences between the left and right sides, and also compares two temperature differences between the upper and lower sides.

In other words, while the temperature difference between the left and right side is not large, the temperature difference of the upper and lower side tends to be higher than the temperature of the lower side. Therefore, when the temperature difference is more than a certain value after comparing the left and right temperature difference with each other, By comparing the differences, any one of the left and right temperature sensors generates an alarm when the difference with the predetermined set temperature is more than a predetermined value.

After comparing the upper and lower temperature difference with each other separately from the left and right temperature measurement, if the temperature difference is more than a certain value, the difference between the upper and lower temperature and the predetermined set temperature is compared, respectively, and the difference between the predetermined set temperature of any one of the upper and lower temperature sensors is different. If a certain value is exceeded, an alarm is issued.

In this case, the predetermined set temperatures of the left and right temperature sensors are the same, but the values of the predetermined set temperatures of the upper and lower temperature sensors are set differently. The set temperature of the upper temperature sensor is set higher than the set temperature of the lower temperature sensor.

The alarm signal is divided into warning alarm, second alarm, and first alarm, and the alarm notification is automatically notified by the system wirelessly.

First, a description will be given of the case of automatic alarm generation as follows.

     1) in the case of A-A '= ± x ° C or more,

         A-＠ (set temperature) = ± 0 ℃ or more, and

         A'- ＠ (Set temperature) = ± 0 ℃ Over alarm occurs.

     2) When B-B '= ± z ℃ or more occurs

         B-＠ (set temperature) = ± 0 ℃ or more, and

         B'- ＠ (set temperature) = ± 0 ℃ or more alarm occurs.

(A: upper sensor, A ': lower sensor, B: left sensor, B': right sensor)

If you describe in detail about automatic alerting,

Measure the temperature of each of the two left and right temperature sensors, and if the temperature difference is more than a certain value (x ℃),

If the difference between the temperature of the left temperature sensor and the predetermined set temperature is more than a certain value (y ℃) or if the difference between the temperature of the right temperature sensor and the predetermined set temperature is more than a certain value (y ℃), a boundary alarm occurs.

And measure the temperature of each of the upper and lower temperature sensors, if the temperature difference is a certain value (x ℃) or more,

The alarm occurs when the difference between the upper temperature sensor and the predetermined set temperature is higher than or equal to a predetermined value (y ° C) or when the difference between the lower temperature sensor and the predetermined set temperature is higher than or equal to a certain value (y ° C).

As an example, titration (set temperature) = 43 ° C, x = 3 ° C, y = 3 ° C, z = 3 ° C.

In the case of the above-mentioned warning alert, it is determined that the temperature rise is detected in the system due to other reasons rather than the deterioration of the power line connection point, and notify only the person in charge.

Secondly, in case of automatic occurrence of Class 2 alarm, the facility management supervisor and the installation company shall be notified at the same time.

Automatic notification to the person in charge and department head.

     1) In the case of A-A '= ± x ℃,

        ① A-＠ (set temperature) = + y ℃ or more, and

        ② Class A alarm occurs when A'- ＠ (set temperature) = + y ℃ or more.

     2) When B-B '= ± 0 ℃ or more occurs

        ③ B-＠ (set temperature) = + y ℃ or more, and

        ④ B′- ＠ (Set temperature) = + y It generates Class 2 alarm when it is over ℃.

(A: upper sensor, A ': lower sensor, B: left sensor, B': right sensor)

If you describe in detail the automatic occurrence of Class 2 alarms,

Measure the temperature of each of the two left and right temperature sensors, and if the temperature difference is more than a certain value (x ℃),

If the difference between the temperature of the left temperature sensor and the predetermined set temperature is more than a certain value (y ℃) or if the difference between the temperature of the right temperature sensor and the predetermined temperature is more than a certain value (y ℃), a second level alarm is generated.

And measure the temperature of each of the upper and lower temperature sensors, if the temperature difference is more than a certain value (± 0 ℃),

If the difference between the temperature of the upper temperature sensor and the predetermined set temperature is more than a certain value (y ℃) or if the difference between the temperature of the lower temperature sensor and the predetermined set temperature is more than a certain value (y ℃), a second level alarm occurs.

In one embodiment, titration (set temperature) = 43 ° C, x = 1 ° C, y = 5 ° C.

Third, in case of automatic occurrence of first-class alarm, the equipment management supervisor and installation company shall be notified at the same time, but the person in charge, department head and general manager shall be notified automatically.

     1) When A-A '= ± 0 ℃ occurs,

        ① A- ＠ (set temperature) = + y ℃ or more, and

        ② If 'A'- 설정 (set temperature) = + y ℃ or more, Class 1 alarm is generated.

     2) When B-B '= ± 0 ℃ or more occurs

        ③ B-＠ (set temperature) = + y ℃ or more, and

④ B′- ＠ (Set temperature) = + y It generates first grade alarm when it is over ℃.

If you describe in detail the automatic occurrence of the first-class alarm,

Measure the temperature of each of the two left and right temperature sensors, and if the temperature difference is above a certain value (± 0 ℃),

If the difference between the temperature of the left temperature sensor and the predetermined set temperature is more than a certain value (y ℃) or if the difference between the temperature of the right temperature sensor and the predetermined set temperature is more than a certain value (y ℃), a first class alarm is generated.

And measure the temperature of each of the upper and lower temperature sensors, if the temperature difference is more than a certain value (± 0 ℃),

If the difference between the temperature of the upper temperature sensor and the predetermined set temperature is more than a certain value (y ℃) or if the difference between the temperature of the lower temperature sensor and the predetermined set temperature is more than a certain value (y ℃), a first class alarm occurs.

As an example, titration (set temperature) = 43 ° C, y = 10 ° C.

In addition, according to another embodiment of the present invention, the degradation detection device of the power line connection point for detecting the deterioration of the power line connection point attaches a plurality of temperature sensors 20 radially to the outer periphery of the power line connection point 10, the temperature Spaced apart from the sensor 20 in the longitudinal direction is to attach one more reference temperature sensor 40. The plurality of temperature sensors are all three by attaching one to each of the upper and left sides.

Then, the difference between the measured values of the plurality of temperature sensors 20 and the measured values of the reference temperature sensor 40 is respectively calculated. It is judged to be deteriorated, and the boundary alarm, the second level alarm and the first level alarm are issued. As an example, assuming three temperature sensors 20 (A, B, C) and one reference temperature sensor 40 (P), 1) Boundary alarm: AP = x, BP = y, CP If any one of x, y, and z values is equal to or greater than a certain value (2 ° C) in = z, a warning alert is issued.

2) Class 2 alarm: If A-P = x, B-P = y, C-P = z any one of x, y, z value is over (5 ℃), Class 2 alarm is issued.

3) Class 1 alarm: If A-P = x, B-P = y, C-P = z any one of x, y, z value is more than a certain value (10 ℃), first class alarm is issued.

The object of notifying the boundary alarm, the second alarm, and the first alarm is as described above.

Therefore, the present invention has a remarkable effect that can accurately and quickly detect whether the power line connection point is degraded.

10: power line connection point 20: temperature sensor
21: Left sensor 22: Right sensor
23: upper sensor 24: lower sensor
40: reference temperature sensor
51: insulation cover
52: sleeve 53: power line insulation coating
60: conductor 54: sleeve crimping site

Claims (5)

delete A temperature sensor attachment step of attaching four temperature sensors 20 to the outer periphery of the power line connection point 10; A temperature measuring step of measuring the temperature of the power line connection point 10 using the four temperature sensors; In the method for detecting the deterioration of the power line connection point comprising; measuring value calculation step of calculating the measurement value of each temperature sensor 20 to measure the degree of deterioration of the power line connection point 10,
The measuring value calculating step measures the temperature of each of the two left and right temperature sensors of the temperature sensor, and if the temperature difference is more than a certain value (x ℃), the difference between the temperature of the left temperature sensor and the predetermined set temperature is a constant value ( y ℃) or more, or if the difference between the temperature of the right temperature sensor and the predetermined set temperature is more than a certain value (y ℃), a boundary alarm is generated, and the temperature of each of the two upper and lower temperature sensors is measured. If it is above the fixed temperature (x ℃), if the difference between the upper temperature sensor and the predetermined set temperature is more than a certain value (y ℃) or if the difference between the lower temperature sensor and the predetermined set temperature is more than a certain value (y ℃) Degradation detection method of the power line connection point characterized in that occurring A temperature sensor attachment step of attaching four temperature sensors 20 to the outer periphery of the power line connection point 10; A temperature measuring step of measuring the temperature of the power line connection point 10 using the four temperature sensors; In the method for detecting the deterioration of the power line connection point comprising; measuring value calculation step of calculating the measurement value of each temperature sensor 20 to measure the degree of deterioration of the power line connection point 10,
The measuring value calculating step measures the temperature of each of the two left and right temperature sensors of the temperature sensor, and if the temperature difference is more than a certain value (x ℃), the difference between the temperature of the left temperature sensor and the predetermined set temperature is a constant value ( y ℃) or higher, or if the difference between the temperature of the right temperature sensor and the predetermined set temperature is higher than a certain value (y ℃), a second alarm is generated, and the temperature of each of the two upper and lower temperature sensors is measured. If it is over a certain value (± 0 ℃), the difference between the temperature of the upper temperature sensor and the predetermined set temperature is more than a certain value (y ℃) or if the difference between the temperature of the lower temperature sensor and the predetermined set temperature is a certain value (y ℃) ) Detects the degradation of the power line connection point, characterized in that a second level alarm occurs if A temperature sensor attachment step of attaching four temperature sensors 20 to the outer periphery of the power line connection point 10; A temperature measuring step of measuring the temperature of the power line connection point 10 using the four temperature sensors; In the method for detecting the deterioration of the power line connection point comprising; measuring value calculation step of calculating the measurement value of each temperature sensor 20 to measure the degree of deterioration of the power line connection point 10,
Measuring the temperature of each of the two left and right temperature sensors of the temperature sensor, when the temperature difference is a certain value (± 0 ℃) or more, when the difference between the temperature of the left temperature sensor and the predetermined set temperature is a certain value (y ℃) or more Alternatively, if the difference between the temperature of the right temperature sensor and the predetermined set temperature is more than a certain value (y ℃), a first grade alarm is generated, and the temperature of each of the two upper and lower temperature sensors is measured, and the temperature difference is constant (± 0). ℃) or above, if the difference between the temperature of the upper temperature sensor and the predetermined set temperature is above a certain value (y ℃) or if the difference between the temperature of the lower temperature sensor and the predetermined set temperature is above a certain value (y ℃) Degradation detection method of the power line connection point, characterized in that generating an alarm A plurality of temperature sensors 20 are radially attached to the outer circumference of the power line connection point 10, and a temperature sensor is attached to one reference temperature sensor 40 spaced apart from the temperature sensor 20 in the longitudinal direction. step; A temperature measuring step of measuring a temperature of each of the power line connection points 10 by using the plurality of temperature sensors 20 and measuring a reference temperature by using a reference temperature sensor 40; A measurement value calculation step of determining whether the power line connection point 10 is deteriorated by calculating the measured value of each temperature sensor 20 and the measurement value of the reference temperature sensor 40; In the method,
The difference between the measured values of the plurality of temperature sensors 20 and the measured values of the reference temperature sensor 40 are respectively calculated, and if any one of the difference values is equal to or greater than a predetermined value, the power line connection point ( Determination of 10) is deteriorated, according to the value of the predetermined value detection method for deterioration of the power line connection point, characterized in that it is issued by distinguishing the boundary alarm, class 2 alarm and class 1 alarm.

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