FI79205C - Ellinjeavbrytare. - Google Patents

Description

79205

SÄHKÖLINJAEROTIN

The invention relates to a power line disconnector placed in connection with a power line, such as an electric pole or the like, by means of which the power line can be disconnected, the power line being a rod by means of which the electric line separator can be actuated at a distance, such as at the base of an electric pole, and to which an intermediate switching device, for example a manual crank and / or a remote-controlled switching device, e.g.

Isolators are installed in the power lines, which are used to cut off the supply of electric current from the desired point. Absolute reliability is required, especially for a high-voltage line disconnector. Usually, the separator is formed by a knife-type circuit breaker mounted on an electric pole, to which a rod extending down to the base of the column is connected. A crank 20 is connected to the lower end of the rod, from which turning the rod moves vertically and opens the separator. The crank is usually also equipped with a lock so that the power line disconnector cannot be used maliciously.

Today, high voltage line disconnectors are generally arranged to be remotely controlled. In this case, the operating lever is replaced by an electric motor that uses a screw mechanism. When the electric motor is started, for example, by radio control, the screw mechanism moves up the rod going to the electric pole, opening the line separator.

30 However, for safety reasons, high-voltage line disconnectors are not operated solely by remote control. Thus, the known motor controller is usually also associated with the possibility of manual operation. If, for example, the electric motor is not made to operate, then there are 2 79205 cranks inside the motor controller housing, by means of which the screw mechanism can be rotated and thus the line separator can be opened. However, such a structure is expensive, complicated and very cumbersome to use if manual control were needed quickly.

The object of the present invention is to provide a remotely controlled power line disconnector in a new way. The invention is characterized in that the actuating member of the remote cutting device is arranged as an extension of the intermediate member so that the operating member and the intermediate member together form a fixed spacer when a manual cutting device is used and the remote line disconnect

The power line separator according to the invention is substantially simpler than the known solutions. In addition, the invention makes it possible to make all old manual line disconnectors remotely controllable with substantially smaller changes than with known motor controllers. At the same time, however, the line separator still remains manually operated. If necessary, the power supply can be switched off with one palm movement in exactly the same way as before the installation of devices related to the remote control. This is not possible with known motor controllers.

The invention will now be described, by way of example, with reference to the accompanying drawings, in which

Figure 1 shows a side view of a line separator according to the invention arranged in an electric pole.

Fig. 2 schematically shows the actuators of the line separator of Fig. 1.

Fig. 3 corresponds to Fig. 2 and shows the line separator actuators in the remote open position.

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Fig. 4 corresponds to Fig. 2 and shows the actuators of the line separator in the open position with the manual crank.

Fig. 1 shows a side view of an electric pole 1, the transverse groove 2 of which is connected to the high voltage line wires 4 by means of insulators 3. At the electric pole 1, electric current is passed through connecting wires 14 through knife-type current paths 6 and 7. The current paths 6 and 7 are fixed to the beam 10 by means of insulators 8 and 9. The second current path 7 of the separator 5 is fixed, but the second current path 6 is formed to be rotatable. When the vertical bar 12 is moved vertically, the lever 13 rotates the current path 6 about the axis 11, whereby the tips 6 and 7 of the line separator 5 open. In older known solutions, the movement of the vertical bar 5 is arranged to open manually by turning the crank 15. In newer solutions, the operation takes place remotely, in which case an electric motor-driven screw mechanism is installed in place of the palm 15. According to the invention, however, the remote control is provided so that the crank 15 is left in place and the actuator 20 is placed immediately in connection with the vertical bar. In the example shown in Fig. 1, the vertical bar 12 is cut off and a spindle motor 16 is interposed therebetween. When the spindle motor operates, its piston 17 moves in the longitudinal direction of the vertical bar 12. That is, by means of the spindle motor 16, the length of the vertical bar 12 can be changed. When a remote control command is received from the control device 18 of the spindle motor 25, for example by radio, the piston 17 of the spindle motor protrudes from the motor body. The effect is the same as if the crank 15 were turned, i.e. the upper end of the vertical bar 12 rises. In this case, the lever 13 rotates the rotating current path element 6 30 about the axis 11 and the tips 6 and 7 of the line separator 5 differ from each other, cutting off the flow of electric current in the line 4.

Figures 2, 3 and 4 show the actuators of the line separator of Figure 1 in different stages of operation. Fig. 2 shows the same situation as in Fig. 1, i.e. the rotating current path 6 of the line separator is turned to the right in the figure, whereby the power in the power line is switched on. In this position, the piston 17 of the spindle motor 16 connected to the vertical bar 12 is in its internal position.

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Figure 3 shows a situation in which the spindle motor 16 has been instructed to operate and the piston 17 has protruded out of the motor-5 body. At the same time, the upper end of the vertical bar 12 rises upwards by turning the rotating part 6 of the line separator 6 about the axis 11 by means of the lever 13, whereby the tips of the line separator are opened.

Fig. 4 shows a situation in which the spindle motor 10 16 of Fig. 1 has not been used for some reason, but the line separator has been opened manually by means of a palm 15. In this case, the spindle motor 16 and its piston 17 form an integral part of the vertical bar 12 in exactly the same way as if the vertical bar 12 were an integral piece without the spindle motor 16.

It will be apparent to those skilled in the art that various embodiments of the invention may vary within the scope of the claims set forth below. Thus, the spindle motor may be replaced by another actuator, such as a pneumatic or hydraulic cylinder. Of course, the structure of the line-20 separator may also be different. Depending on the structure, the switch-off can also take place, for example, by moving the vertical bar downwards. Essential to the invention is that. . an actuator, such as a spindle motor, is placed in connection with the rod between the manual drive mechanism and the line separator.

Claims (3)

79205 5 A power line disconnector arranged in connection with a power line (4), such as a power pole (1) or the like, by means of which the power line of the power line can be disconnected, in which the power line is a power cut-off mechanism comprising an intermediate member (12), such as a rod, by means of which the power line separator can be actuated at a distance, such as at the base of 10 electric poles, and to which the switch member is connected to a power cut-off device such as a manual crank , for example an electric motor-operated cutting device (16, 18), characterized in that the actuating panel (16) of the remote-controlled cutting device (18) is arranged as an extension of the intermediate member (12) so that the actuating member and the intermediate member together form a fixed spacer (12). , 16, 17) when using hand and that when a remote-controlled cutting device is used, the operation of the line separator 20 is effected by changing the length of the spacer by means of the operating member. Power line disconnector according to Claim 1, characterized in that the actuating element (16) of the remote-controlled cutting device (18) is a spindle motor whose axial movement of the piston (17) makes the length of the intermediate element (12) and the intermediate element together variable. Power line disconnector according to Claim 2, characterized in that the disconnection movement of the power line disconnector. . . providing an outwardly directed piston (17) of the spindle motor (16). 30 by moving, i.e. by increasing the length of the spacer formed by the intermediate member (12) and the actuating member. 6 79205