KR100378262B1 - Combined Aging Test Facility for Polymer insulator - Google Patents

Abstract

The present invention relates to a polymer insulator composite deterioration test apparatus, comprising: a chamber unit having a polymer insulator for testing by installing a sample in a predetermined internal volume and installing an ultraviolet lamp capable of irradiating ultraviolet rays to an inner wall surface; It is installed at the back of the part and has a cooling device, a heater and a stabilizer inside, which can apply temperature and humidity to the inside of the chamber, and apply a constant mechanical tension to the sample by using a hydraulic cylinder installed at the upper part of the chamber. Hydraulic control unit for water, and water and fog water purifying device for processing the water supplied to the chamber portion and control device for controlling the amount of water supplied to the ground water to the test device to send to the tank unit, the ground water supplied to the test Tank part, automatic voltage regulator, which is manufactured in a suitable amount and supplied into the chamber part when spraying water and mist A power supply unit for applying a voltage to a sample installed in the chamber unit, a temperature / humidity in the chamber unit, a tensile load value, water and fog amount of each device, conductivity, voltage The control panel unit for controlling the test apparatus to display the value and the leakage current value coming from the measuring unit and the PC unit for storing and analyzing all the data displayed on the control panel unit through RS232C communication, thereby affecting the outdoor environment. It is possible to evaluate the characteristics of various products that can be received and has the advantage of bringing great ripple effects to various industrial developments.

Description

Combined Aging Test Facility for Polymer insulator

The present invention relates to a polymer insulator composite deterioration test apparatus, wherein the polymer insulator is installed to maintain insulation between electric wires and supports by installing on electric poles of power distribution and transmission towers, etc. It occupies most of the quantity, and it is lightweight and has excellent insulation characteristics to cope with existing magnetic insulators.

Currently, polymer insulators have been imported from foreign countries or developed in Korea since the mid 90s, and are being used in some regions.

The magnetic insulators used as the existing electrical insulators have been proven to have some long-term reliability because they have more than 100 years of operation experience in the field.However, since the polymer insulators have little experience in use, Evaluating long-term reliability in a short time is an urgent task.

On the other hand, in the case of foreign countries, most polymer insulators have polymer insulators for accelerated deterioration test, but mainly test the transmission insulator of 1m or more. Only a few samples can be tested in the chamber. , Simultaneous simulation of tension, UV, shareholders (rain), and fog (flame) has not been reported, and there is a problem in that it is not possible to evaluate the long-term reliability of a sample according to voltage by applying a different voltage for each sample.

In addition, some of the devices manufactured and used in Korea do not have UV irradiation device or watering device, or there is no tensile test device, and the horizontal and vertical tests of insulators cannot be performed at the same time. It is not possible to evaluate this and there is no example of a protection system to protect the UV lamp from contamination.

In order to solve the above problems, the present invention, in order to evaluate the long-term reliability of the polymer insulator for a short time to install a polymer insulator in a chamber of a constant size and various stress (temperature / humidity, It is an object of the present invention to provide a polymer insulator composite deterioration test apparatus that simulates ultraviolet rays, rain, salt, mechanical load, voltage) at regular intervals similar to the natural environment.

In order to achieve the above object, the present invention, the chamber portion having a polymer insulator for testing by installing an ultraviolet lamp capable of irradiating ultraviolet rays on the inner wall surface having a sample in a predetermined internal volume, installed on the rear of the chamber portion Air conditioner which has cooling device, heater and stabilizer inside, and can apply temperature / humidity inside the chamber, hydraulic control part and water supply to apply constant mechanical tension to the sample by using the hydraulic cylinder installed on the upper part of the chamber. And a water purifying device for treating the water supplied into the chamber part during the fog and a device for controlling the amount of water supplied to the ground water to a test device to control the water supply to the tank part, and to produce the purified water in an appropriate amount. Tank part to supply into the chamber part when the mist spray, automatic voltage regulator, voltage variable slide, high voltage transformer And a power supply unit for applying a voltage to a sample installed in the chamber unit, the temperature and humidity inside the chamber unit, the tensile load value of each device, the amount of water and fog, the conductivity, the voltage value, and the leakage current value from the measuring unit. And a PC unit for storing and analyzing all data displayed on the control panel and the control panel to control the test apparatus to be displayed through RS232C communication.

The stress that can be applied to the test product using the composite deterioration test apparatus is a sudden temperature and humidity change, mechanical tensile force, water (artificial cost) and salt fog, high voltage, ultraviolet light, the internationally recommended standards (IEC 61109) solves these technical problems, because only the test method is briefly specified, and there is little mention of specific test equipment specifications, and no consideration is given to the mechanical load applied when the insulator is operated. In order to simulate the environmental factors on the degradation of polymer materials, the following factors were considered in the design.

First, 16 polymer insulators (12 vertical and 4 horizontal) are used to determine the optimal number of samples that can be tested in a defined chamber space (10 m3) and to install a device for simulating various complex environments. Samples and internal devices were placed inside so that they could be tested at the same time, and the incoming cable for voltage application was removed from the outer layer and the semiconducting layer, and after the introduction, it was again wrapped with insulation to protect against salt or ultraviolet rays.

Secondly, in order to secure the installation space of the ultraviolet fluorescent lamp and to protect the lamp light source from water and salt, UV irradiation devices are arranged at regular intervals on both sides of the inner wall of the chamber, and grooves are formed in the wall of the chamber and protected by a lamp case. The controller is designed so that the lamp comes out automatically by air pressure only when the lamp is used.

Third, not only accelerated deterioration test of polymer insulator, but also tensile load test of up to 10 ton per sample is designed together. Samples are arranged so that the chamber structure is not deformed. It was.

Currently, the internationally known long-term reliability evaluation method of polymer insulators is IEC61109 recommended method, but the deterioration apparatus is manufactured and used at home and abroad according to this standard, but it accepts all 16 elements recommended by IEC61109 like the device of the present invention. Samples can be tested at the same time, and control of ultraviolet and tensile loads for each sample has not been reported.

1 is an overall plan view of a polymer insulator composite deterioration test apparatus to which the present invention is applied;

2a to 2c is a deterioration chamber internal configuration of the present invention,

3 is a deterioration chamber inner wall configuration diagram of the present invention,

4 is a plumbing configuration of the main water and brine supply apparatus according to the present invention,

5 is a power supply configuration diagram of a sample according to the present invention,

6 is a block diagram of the leakage current measurement according to the present invention;

7 is a block diagram of the ultraviolet lamp control and protection device according to the present invention,

* Explanation of symbols for main parts of the drawings

100: deterioration chamber 200: air conditioning unit

300: hydraulic control unit 400: flow control unit

500 tank portion 600 power portion

700: control panel portion 800: PC portion

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

1 is an overall plan view of a polymer insulator composite deterioration test apparatus to which the present invention is applied, and includes tensile, rain, salt-free, high voltage, and the like in a chamber unit 100 in which a specimen (polymer insulator) is to be installed and a specimen installed in the chamber unit. It consists of accessory parts 200 to 800 for applying stress.

As an accessory device for applying deterioration stress to the test product installed in the chamber part of the device, the air conditioner part 200 for applying temperature and humidity, the hydraulic control part 300 for applying a tensile force to the sample, and the chamber part 100 Flow rate control unit 400 is connected to control the quantity and air volume, the tank unit 500 for manufacturing and storing the pure water, brine and compressed air under the control of the control unit, the power supply unit 600 for applying a voltage to the sample, each Control panel portion 700 for controlling the test conditions of the accessories and the PC portion 800 for recording and calculating the test value.

The chamber part 100 is a chamber in which a test product is installed with an internal volume of 10 m 3, and temperature and humidity are supplied by the air conditioning unit 200, and a tensioning device controlled by the hydraulic control unit 300 is installed on the upper part. And a nozzle, which is controlled by the flow control unit 400 and supplied with pure water and salt water (salt + compressed air), supplied from the tank unit 500, is installed in the upper part of the ceiling. The high voltage is supplied from the power supply unit 600, an ultraviolet fluorescent lamp for ultraviolet irradiation is installed on three walls except for the front surface, and the air conditioning unit 200 is the chamber unit 100 in which a test product is installed as an air conditioning unit. It is a device that can apply temperature and humidity inside and is installed at the rear of the chamber part, and a cooling device, a heater, and a safety device are built in the inside, and a signal of a temperature and humidity sensor installed in the chamber part 100 is provided. Is controlled by the panel unit 700.

In addition, the hydraulic control unit 300 is a hydraulic control device for controlling the tension applied to the test article installed in the chamber unit 100, the control amount is shown in the panel unit 700, the flow control unit 400 is a quantity and compressed air amount As a control device, the pure water, brine, and compressed air coming from the tank unit 500 are controlled in a predetermined amount to be supplied into the chamber unit 100, and the control amount is displayed on the panel unit 700. 500 is a tank for storing pure water, brine, and compressed air required for the test, the panel unit 700 and the PC unit 800 receives a command from the pure water, brine and compressed air through the control unit 400 chamber portion It is supplied to (100).

The power supply unit 600 includes a circuit breaker for safety, an automatic voltage regulator for maintaining a constant voltage, a voltage variable slide, a regulator, and a booster capable of boosting a 220V voltage up to 50 kV. Step up to the required voltage and then apply a voltage to the sample installed in the chamber unit 100, the control panel panel 700 controls each peripheral device (200 ~ 600) and read the value of the PC unit (800), the PC unit (800) is a PC device for test condition program and test data recording and analysis, each of the devices (200 to 600) received by the control panel panel 700 for RS232 communication Read and store the data value of the control unit and transmits the control amount of the respective devices (200 to 600) to the control panel panel 700.

2 is an internal configuration diagram of the deterioration chamber of the present invention, wherein the chamber may be installed with a sample and implement a test environment such as temperature, humidity, ultraviolet light, drinking water, saline, tensile load, voltage, and the like. 12 vertical directions and 4 horizontal directions can be installed, and ceramic support insulator is used to maintain insulation and tensile load between the sample and the chamber during the test, and salt water is used during the test, so the inner wall of the chamber is corroded by salt water. Material for prevention was selected and special coating for ship was coated on glass fiber reinforced resin.

The upper left part of FIG. 2 shows a plan view, the upper right part shows an internal plan view, and the lower left part shows a front view. In order to apply a tensile force to a test article installed in a chamber, the input value is received from the control panel 700 of FIG. Tension parts 4 arranged on each of left and right sides controlled by the hydraulic control part 300, bushing part 16 into which the voltage boosted by the power supply part 600 is introduced, and the control panel part 700. In accordance with the input program, the transmission unit 13 is installed on the left and right sides up and down the shot protector for protecting the ultraviolet lamp, and six in a row on the left and right sides of the chamber ceiling, two are installed at the rear part of FIG. The water supply nozzle unit 6, which is supplied from the tank unit 500 of the control unit 400 and sprays rain (water) onto the test product, receives the signal from the control panel 700 and the tank unit 500 Before and after the UV lamp using compressed air To the air cylinder section 9, the ultraviolet lamp group 5 which is advanced back and forth by the air cylinder, and the shot lamp which is up / down by the electric motor for protecting the ultraviolet lamp group 5 from water and salt. consist of.

In addition, a temperature / humidity air conditioner 200 is installed at the rear of the chamber for temperature and humidity control, which is connected to the chamber by a duct, and the air conditioner 200 includes a circulation fan and an inverter ( Inverter), humidification heater, heating heater, refrigeration unit, dehumidification filter, decontamination filter and temperature / humidity controller (Controller), etc., receiving the signal of the temperature humidity sensor installed in the ceiling of the chamber set in the control panel 700 The value is automatically controlled.

3 is a configuration diagram of the inner wall of the deterioration chamber of the present invention, the fluorescent lamp unit 12 consisting of one ultraviolet lamp group (nine lamps) for three test product units 13 installed vertically for ultraviolet irradiation; Shaft portion 15 connected to the hydraulic cylinder installed in the upper chamber to apply tension to the specimen, the insulating flange portion 14 for the electrical insulation of the specimen 13 and the hydraulic cylinder shaft for electrical measurement , Which consists of a support insulator portion 11 having a load capacity at the same time with respect to the tensile force and the voltage applied to the test article. In this way, the test specimens can be vertically installed in two rows of six left and right inside the chamber, and four horizontal specimens can be installed in the vicinity of the rear wall where no tensile force is applied. Therefore, up to 16 specimens (12 vertical installations and 4 horizontal installations) can be installed.

4 is a plumbing and brine supply pipe configuration according to the present invention, the purified water unit 501 for producing a water supply for drinking water, the pure water tank unit 502 for storing the produced water using its own pump, salt ( It consists of a salt tank unit 503 for preparing and storing salt water for spraying salt fog, and an air compressor 504 for storing compressed air necessary for salt spray and air cylinder control.

When the water stored in the pure water tank unit 502 is drained to the test product, the water (nozzle) unit 507 is opened by receiving a signal from the control panel unit 700, and the pure water is supplied to each main nozzle installed in the ceiling inside the chamber. It is supposed to supply.

In addition, when salt fog is supplied, the control unit panel 700 receives a signal from the nozzle part 506 of the salt water tank part 503 and the valve part 505 of the air compressor 504. ) Will open at the same time to form salt water through the nozzle installed on the ceiling in the brine and compressed air.

The main nozzles (14) are installed one by one for the vertically installed test article, one nozzle is installed per two test specimens are installed horizontally, using a nozzle connector tube that is easily bent to adjust the water supply angle.

The brine tank is equipped with a conductivity measuring sensor (conductivity meter), and the brine manufacturing is to prepare the brine (water + NaCl) according to the set conductivity when the conductivity input to the control panel 700, the test conditions, the water level The water is automatically operated according to the water level sensor built in the pure water tank and the brine tank itself, to stop the operation and generate a warning sound in the singular water, the water supply is automatically returned.

5 is a power supply configuration diagram of a sample according to the present invention, showing a power supply for supplying voltage to a test article installed in a chamber by boosting the commercial voltage 220V to 20 kV or 50 kV.

The power supply device of the sample of FIG. 5 is boosted by a high voltage transformer 602 through a slide unit 601 through a power supply of 220V, and the boosted power is supplied through an insulating bushing unit (103 in FIG. 2) with a high voltage cable. It is applied between the support insulator part (101 of FIG. 3) and the test object part (103 of FIG. 3) provided in the chamber. In addition, in order to measure the small current flowing through the surface of the sample was connected to the ground wire through a resistor.

FIG. 6 is a schematic diagram illustrating a leakage current measurement according to the present invention. When voltage is supplied to a test article, when a voltage is supplied from the power supply to an upper part of the insulator, a test article section ( 901) A small current flows to the ground grounded through the protective fuse 902 and a resistor 903. At this time, a small current value flowing through the test product by measuring the voltage indicated by the resistor 03 is measured. V / R), and the measured voltage value is stored in the PC 800 through RS232 communication through the converter 906 PLC PLC 907 in the control panel 700 of FIG. do.

At this time, since the change of the current is large according to the state of the specimen, three shunt resistors are connected in parallel to detect a wide range of current, and the bidirectional diode unit 904 and the discharge gap unit 905 are connected to each other. The parallel connection was made to protect the measuring units 908 and 909 from surges and overcurrents generated from the specimen.

7 is a block diagram of a UV lamp control and protection device according to the present invention, an air cylinder unit 1100 and a chamber for advancing and reversing an ultraviolet lamp group 1120 for irradiating ultraviolet rays to the test unit 1130. The lamp group protection case part 1110 provided in the inner wall, and the transmission shaft part 1140 which drives the lamp group protection shot part 1150 are comprised.

The top plan view of the upper part shows a state in which the ultraviolet lamp group (nine fluorescent lamps) is moved forward or backward by two air cylinder parts 1110 operated by compressed air in the tank part 500 of FIG. The front view shows a shot protector for protecting the ultraviolet fluorescent lamp group from the water spray and salt spray sprayed from the water spray nozzle unit 6, the salt spray nozzle unit 10 of FIG.

The detailed operation of the ultraviolet fluorescent lamp will be described below.

The ultraviolet fluorescent lamp is a holder of a total of 42 lamps on three walls (left; 18 lamps in two groups, 18 lamps in two groups, 18 lamps in two groups, rear lamp; six lamps in one group) in the chamber (Fig. 2). Installed.

In order to prevent water and salt from being attached to the surface of the lamp as a long time test, the wavelength and intensity of ultraviolet rays emitted from the lamp are changed from the initial stage, as shown in FIG. 7. Prepare and store a shoter, and when the ultraviolet irradiation period from the control panel 700 according to the program content of the PC portion 800 of FIG. 1, the electric shaft unit 1140 is rotated to protect the lamp in front of the ultraviolet lamp group After the shutter unit 1150 installed to automatically open (DOWN), each lamp group is advanced by the air cylinder 1110 to a predetermined position near the test unit 1130. The forward position of the lamp group is determined by the setting value of the sensor, and when the ultraviolet irradiation cycle is completed, the lamp group is automatically reversed according to the program and the protective glass shutter is raised to protect the lamp. In addition, the operation status of the lamp can be detected online.

On the other hand, Teflon-based support with excellent insulation was used so that the stability problem does not occur even when the lamp group support approaches the high voltage charging part.

In addition, the control is performed by two types of manual control and automatic control. The manual control is mainly used for checking the performance of the unit part before the test, setting the optimum condition, or installing the sample. Use automatic control.

As described above, when the polymer insulator composite deterioration test apparatus of the present invention is used, not only the test of the polymer insulator's test standard IEC61109 can be carried out, but also the environmental simulation test can be completely implemented, and the sample which requires the accelerated deterioration test is installed. By operating the environment to be simulated, the long-term reliability of the sample can be evaluated in a short time, and it can be used for environmental degradation characteristics evaluation and long-term life prediction of the polymer material, and it can be used for environmental characteristics test when developing various sensors. Do.

In particular, the device of the present invention can simulate the natural environment can be used to extend the evaluation of the characteristics of various products that can be affected by the surrounding environment has the advantage that it can bring a ripple effect on various industrial developments.

Claims (10)

A chamber portion having a sample in a predetermined internal volume and having a polymer insulator for testing by installing an ultraviolet lamp capable of irradiating ultraviolet rays to the inner wall surface; An air conditioning unit installed at the rear of the chamber unit and configured to include a cooling device, a heater, and a stabilizer therein and to apply temperature and humidity to the inside of the chamber; Hydraulic control unit for applying a constant mechanical tension to the sample by using the hydraulic cylinder installed on the chamber portion; A flow rate control unit comprising a device for controlling the amount of water, brine and air supplied into the chamber during water and fog; Purifying the ground water to produce and store the pure water and brine required for the test tank unit for supplying into the chamber during spraying water and mist; A power supply unit configured of an automatic voltage adjusting device, a voltage variable slide, and a high voltage transformer to apply a voltage to a sample installed in the chamber part; A control panel panel unit for displaying the temperature and humidity inside the chamber unit, the tensile load value of each device, the amount of water and fog, the conductivity, the voltage value, and the leakage current value from the measuring unit and controlling the test apparatus; And And a PC unit for storing and analyzing all data displayed on the control panel unit through RS232C communication. The method of claim 1, wherein the chamber portion A tension unit disposed in a predetermined number on the left and right side controlled by the hydraulic control unit; A bushing unit for introducing a voltage boosted by the power supply unit; An electric motor unit installed on the upper left and right sides of up / down the shot protector protecting the ultraviolet lamp according to the program inputted to the panel control unit; Water injection nozzle unit for spraying the rain on the test piece is installed in a predetermined number on the left and right sides and the rear portion of the ceiling of the chamber portion and the amount of supply control from the control unit and the tank unit; An air cylinder unit which receives the signal of the control panel unit and advances the ultraviolet lamp back and forth by using the compressed air of the tank unit; UV lamp group forward and backward by the air cylinder portion; A shoter unit which is up / down by the electric motor unit to protect the UV lamp group from water and salt; And a load cell and a hydraulic unit for applying a tensile force to a test product installed in the chamber controlled by the hydraulic control unit by receiving an input value from the control panel unit. The test article installed in the chamber part is A support insulator for supporting the specimen and maintaining insulation when a voltage is applied; An ultraviolet fluorescent lamp unit composed of one lamp group for the predetermined test article installed vertically for ultraviolet irradiation; And a connecting rod and a shaft connected to an hydraulic cylinder installed at an upper portion of the chamber to apply tension to the test product, and connected to an insulating flange for electrical insulation. The method of claim 3, wherein the ultraviolet fluorescent lamp unit In order to prevent water and salt from adhering to the lamp surface and changing the wavelength and intensity of ultraviolet rays emitted from the lamp as a result of prolonged testing by installing a predetermined number of lamps in the holder, the left, right and rear sides of the chamber part The polymer insulator composite deterioration test apparatus, characterized in that the space is formed on the wall surface of the glass shutter. The method of claim 1, wherein the tank unit Pure water production unit for producing water in the feed water; Pure water tank unit for storing the produced water using its own pump; An air compressor unit for producing and storing compressed air; A salt water tank unit for receiving salt signals from the control panel unit to open the valves of the salt water tank and the air compressor to form salt salts through nozzles installed in the ceiling of the brine and compressed air; The polymer insulator composite deterioration testing apparatus comprising a valve unit for receiving the signal from the control panel when receiving the stored water to the test product to supply pure water to each of the nozzles. The nozzle of claim 5, wherein the main nozzle Vertical installation time The polymer insulator composite deterioration testing apparatus, characterized in that one for each of the test specimens, one for each of the two specimens horizontally installed, and the main quantity is automatically controlled. The pure water and brine tank portion of claim 5 The polymer insulator composite deterioration tester, which automatically operates according to the calibrated water level sensor, stops operation in a single stage, generates a warning sound, and automatically returns upon resupply. The method of claim 1, wherein the power supply unit And connecting the power supply of the predetermined bolt to the boosting transformer through the slide to apply the boosted power between the support insulator installed in the chamber and the test article through the insulating bushing. According to claim 1, wherein the hydraulic control unit A polymer insulator composite deterioration testing apparatus characterized by controlling the tensile load by the input control of the hydraulic device and the up / down transfer control of the hydraulic cylinder measured by the load cell. According to claim 1, wherein the hydraulic control unit A polymer insulator composite deterioration test apparatus, characterized in that automatic control by a program is used when checking the performance of a unit portion before a test, setting an optimum condition, or performing a long-term test to use a sample.