AU4763799A - Live line insulation sampling - Google Patents

Description

WO00/04365 PCT/AU99/00570 1 LIVE LINE INSULATION SAMPLING THIS INVENTION relates to apparatus and method for live line sampling of insulation. In particular, the invention is directed to a tool for obtaining different 5 types of samples from polymeric insulators in high voltage installations under live line conditions. BACKGROUND ART The insulators used in high voltage 10 installations are prone to deterioration, particularly when exposed to harsh environmental conditions, such as strong sunlight and heat, for prolonged periods. Further, dust and other material accumulated on the insulation surfaces may provide a current path, leading to 15 insulation breakdown. Proper preventative maintenance requires that the insulation be inspected regularly. New techniques of insulation condition monitoring require sampling of the insulator surface for laboratory analysis. 20 For obvious safety reasons, the high voltage power lines must be de-energised while such sampling or other contact occurs. Such power outages are not only inconvenient for electricity consumers, but also disruptive to the normal operation of power transmission 25 systems. It is an object of the present invention to provide apparatus and method for obtaining small samples of insulating material from high voltage installations under live line conditions. 30 SUMMARY OF THE INVENTION In one broad form, the invention provides an apparatus for obtaining a sample from an insulator in a high voltage installation during live line conditions, 35 the apparatus including a sampling head adapted to be mounted to one end of a hot stick in use, and a sampling device mounted to the sampling head, WO00/04365 PCT/AU99/00570 2 the sampling device being adapted to collect a sample from the surface of the insulator upon manipulation of the hot stick by a user remote from the sampling device. The sampling device is typically a sampling 5 cartridge. Preferably, different sampling cartridges are interchangeably mountable on the sampling head. In the preferred embodiment, one particular type of sampling cartridge is adapted to obtain a sliver of material from an insulator. Another type of cartridge 10 is designed to obtain surface material from the insulator. The sampling head preferably has biasing means to urge the sampling device into contact with the surface of the insulator. In one embodiment, the sampling head 15 has a pivoting block or turret on which the sampling device is mounted. The turret can be cocked against the bias of a spring, and released when the sampling head makes contact with part of the insulator. Upon release of the biased turret, it pivots and places the sampling 20 device onto the surface of the insulator, the bias applied to the turret also serving to keep the sampling device on the surface of the insulator. By moving the sampling head remotely via the hot stick, a sliver or surface sample (depending on the 25 particular sampling device being used) can be obtained. The sample is normally retained in the sampling device for further analysis. This application also discloses a method of obtaining samples from an insulator, using the 30 abovedescribed apparatus. In order that the invention may be more fully understood and put into practice, a preferred embodiment thereof will now be described with reference to the accompanying drawings. 35 BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a sampling head of the tool of the preferred embodiment, WO00/04365 PCT/AU99/00570 3 Fig. 2 is a longitudinal sectional view of the sampling head of Fig. 1, Fig. 3A and Fig. 3B are perspective views of alternative sampling cartridges suitable for use with the 5 sampling head of Fig. 1, Fig. 4 is a schematic part-sectional elevational view showing the operation of the sampling head of Fig. 1, and Fig. 5 is a schematic plan view showing the 10 operation of the sampling head of Fig. 1. DESCRIPTION OF PREFERRED EMBODIMENT As shown in the drawings, a live line sampling tool comprises a sampling head 10 which is adapted to be 15 mounted to a conventional "hot stick" 8 shown in broken outline. The hot stick 8 is a long insulated or non conductive rod used for working on energised high voltage lines. Such hot sticks are well known in the art and need not be described in detail in this application. The 20 sampling head 10 has a platform 11 with a hot stick fitting 12 at the rear end thereof, to enable the sampling head to be adjustably mounted to the hot stick. A block or turret 13 is pivotally mounted to the platform 11. The turret 13 is biased about its pivot 25 pin 9 in an anticlockwise direction (as viewed in Fig. 2) by a coil spring 14. Any other suitable biasing means, such as a leaf spring or elastomeric material, may be used. The turret 13 has a pair of loading fingers or 30 prongs 15 extending therefrom. A sampling cartridge 16 may be interchangeably mounted on the turret by locating the prongs 15 in corresponding bores 17 in the sampling cartridge. The sampling cartridges will be described in more detail later. 35 The platform 11, turret 13 and cartridge 16 are made of a suitable material, for example, metal. The front end of the platform 11 is bifurcated WO00/04365 PCT/AU99/00570 4 to form a pair of fingers 18 spaced on either side of a recess 19. The bifurcated front end of the sampling head assists in locating the sampling head at an insulator. A release button 20 is located at the base of the recess 5 19, and is connected to a release rod 21 extending into the platform 11 as shown more clearly in Fig. 2. The release button is formed by the outer tip of the release rod, which is biased forwardly relative to the platform, i.e. the button 20 is biased into the recess 19 between 10 the fingers 18. The release rod 21 cooperates with a locking pin 22 which extends upwardly through the platform 11 into a recess in the turret 13. The locking pin is pivotally connected to the turret. 15 Various sampling cartridges may be used interchangeably with the sampling head 10. A first cartridge type 16A is shown in Fig. 3A. The cartridge 16A is constructed as a miniature wood plane, and has an inclined blade 23. In use, the cartridge 16A cuts a small 20 sliver from the surface of an insulator shed. Typically, the sliver is about 10mm x 10mm x 0.3mm. To prevent damage to the sliver before and during cutting, the front bottom part of the cartridge preferably is approximately 1.5-2.0mm above the bottom 25 surface of the cartridge sides, i.e. about 1.5-2.0mm above the polymer insulator surface in use. This is a particular advantage of this cartridge design. Pressure plates along the front part of the cartridge 16A ensure that a sufficient pressure is applied to enable the 30 sample to be taken. As the sliver is cut from the insulator, it curls up into the cartridge 16A. A cover 24 on the top of the plane-like cartridge 16A prevents the sliver from falling out of the cartridge. 35 A second type of cartridge 16B is shown in Fig. 3B. The cartridge 16B has a socket 25 into which sampling inserts may be interchangeably inserted. For example, a cotton swab 26 dipped in a polymer solvent may be WO00/04365 PCT/AU99/00570 5 inserted in the socket 25, the bottom tip of the swab protruding from the underside of the cartridge 16B. As the cartridge moves on the surface of an insulator, polymer material present on the surface of the insulator 5 is collected onto the cotton swab 26. Further, or alternatively, an insert, such as a cylinder 27 with an abrasive pad on its underside can be inserted in the socket 25, such that the abrasive surface and a part of the insert protrudes from the underside of 10 the cartridge 16B. As the cartridge moves on the surface of the insulator, the abrasive surface collects material present on the surface of the insulator. In use, the sampling head 11 is mounted to a hot stick. The turret is "cocked" by normally pressing 15 down on its rear end to cause it to pivot clockwise (Fig. 2) against the bias of spring 14. This causes the turret 13 to depress the locking pin 22 whereupon it is retained in its depressed position by the rod 21. The turret 13 is thereby held against the bias of spring 14. The 20 appropriate sampling cartridge 16 is then loaded onto the sampling head 11 by locating it on the prongs 15 on the turret 13. The sampling head on the end of the hot stick is then presented to an insulator 28 in live line 25 conditions. The insulator 28 typically consists of a rod 29 and a number of sheds 30 extending radially from the rod 29. The prongs 18 of the platform 11 are located about the insulator rod under a shed 30, so that the shed rests on the platform 11. 30 When the platform 11 is urged against the rod 29, the release button 20 is depressed, causing the release of the locking pin 22 and turret 13. Through the action of the spring 14, the turret 13 snaps the cartridge 16 into position on the upper surface of the 35 shed 30 as shown in Fig. 4. The spring 14 acting on the turret 13 ensures the correct pressure for sampling. If a sliver sample is to be obtained, the WO00/04365 PCT/AU99/00570 6 cartridge 16A is used. The sample is obtained by a smooth unidirectional movement of the platform around the rod depicted by arrow "B" in Fig. 5. If surface samples of an insulator are to be taken using either a cotton bud an 5 abrasive pad, the cartridge 16B is used. In that case, several bidirectional movements (arrow "C") are normally executed to collect sufficient amount of polymeric material onto the abrasive pad or cotton swab from the surface of the insulator shed. 10 Once the samples have been obtained, the cartridges are preferably stored in sealed metallic containers to prevent contamination of the samples. The sliver or other sample is subsequently analysed to provide numeric indications of the condition of the line 15 insulation. The abovedescribed sampling apparatus and method enables a small sample of an insulator to be obtained during live line conditions in a safe and efficient manner. 20 The sampling tool can be manufactured easily and economically. The spring 14 acting on the turret 13 ensures the correct pressure for sampling. The foregoing describes only one embodiment of 25 the invention, and modifications which are obvious to those skilled in the art may be made thereto without departing from the scope of the invention. For example, the configuration of the sampling head may be changed to suit differently shaped 30 insulators. The sampling head can be modified to sample the lower surface of the insulator sheds. Further, the sampling cartridge may be mounted to the turret in any other suitable manner, or may form part of the turret. The release button may be replaced by 35 any other mechanism to release the turret, such as a light sensor or proximity detector, or the turret may be released by the operator by remote control.

Claims (15)

1. Apparatus for obtaining a sample from an insulator in a high voltage installation during live line conditions, the apparatus including 5 a sampling head adapted to be mounted to one end of a hot stick in use, and a sampling device mounted to the sampling head, the sampling device being adapted to collect a sample from the surface of the insulator upon manipulation of 10 the hot stick by a user remote from the sampling device.

2. Apparatus as claimed in claim 1, wherein the sampling device is a sampling cartridge removably mounted to the sampling head.

3. Apparatus as claimed in claim 1, wherein the 15 sampling device has a planing blade adapted to cut a sliver from the surface of the insulator upon movement of the sampling device across the surface of the insulator.

4. Apparatus as claimed in claim 3, wherein the sampling device has a receptacle adapted to collect the 20 sliver cut from the surface of the insulator.

5. Apparatus as claimed in claim 1, wherein the sampling device includes a swab adapted to collect material from the surface of the insulator.

6. Apparatus as claimed in claim 1, wherein the 25 sampling device includes an abrasive pad adapted to collect material thereon from the surface of the insulator.

7. Apparatus as claimed in claim 1, further comprising bias means for urging the sampling device 30 against the surface of the insulator.

8. Apparatus as claimed in claim 7, further comprising a trigger mechanism operable by contact of the sampling head with the insulator, the bias means being actuated by the trigger mechanism. 35

9. Apparatus as claimed in claim 1, wherein the sampling head has a pair of spaced finger portions adapted to receive part of the insulator therebetween in use, to thereby position the sampling head relative to WO00/04365 PCT/AU99/00570 8 the insulator.

10. A sampling tool for obtaining a sample from the surface of an insulator in a high voltage installation during live line conditions, the sampling tool including 5 a hot stick, a sampling head mounted to one end of the hot stick, a sampling device removably mounted to the sampling head, the sampling device having means thereon 10 for collecting a sample from the surface of the insulator, bias means on the sampling head for urging the sampling device against the surface of the insulator, whereby in use, by manipulation of the hot 15 stick by the user, the sampling device can be moved across the surface of the insulator while being urged thereagainst by the bias means to thereby collect a sample from the surface of the insulator.

11. A method of taking a sample from the surface of 20 an insulator in a high voltage installation during live line conditions using the apparatus of claim 1, the method including the step of manipulating the hot stick at a position remote from the sampling device to cause the sampling device mounted on the sampling head at the 25 end of the hot stick to move across the surface of the insulator and collect a sample therefrom.

12. A method as claimed in claim 11, wherein the sampling device includes a planing blade, and the sample is obtained in the form of a sliver from the surface of 30 the insulator.

13. A method as claimed in claim 11 wherein the sampling device includes a swab, and the sample is obtained as a swab sample from the surface of the insulator. 35

14. A method as claimed in claim 11, wherein the sampling device includes an abrasive pad, and the sample is obtained from the surface of the insulator by rubbing the surface with the pad. WO00/04365 PCT/AU99/00570 9

15. A method as claimed in claim 11, wherein the sampling head has bias means for urging the sampling device against the surface of the insulator, the method including the step of actuating the bias means to urge 5 the sampling device against the surface prior to collecting a sample therefrom.