RU177676U1 - THREE-POLE HIGH VOLTAGE CIRCUIT BREAKER - Google Patents

Abstract

The utility model relates to electrical engineering, namely to gas-insulated switches, for example gas-insulated. The essence of the utility model lies in the fact that in the well-known high-voltage circuit breaker containing gas-insulated arcing devices with movable and fixed contacts, a drive controlling these devices with dielectric rods and common traction by means of external and internal levers and gearboxes with flanges, as well as a frame with supporting posts, dielectric rods are equipped with one-side threaded tips for adjusting the length of rods, while the total rod is made of at least two parts equipped with a double with threaded tips for adjusting the length of these parts, and additional holes are made on the said flanges and external levers for fixing with the locking bolts the lengths of the mentioned dielectric rods and parts of the common rod. In this case, the switch may contain a spring-hydraulic drive located between the support posts and have two support posts symmetrically located relative to the middle pole. The utility model allows one-time adjustment of the contacts of the switch at the factory. The claimed utility model has already been implemented by ZETO CJSC (Velikiye Luki) in the VGT-220-1K circuit breaker, which successfully passed all the necessary tests.

Description

The utility model relates to electrical engineering, namely to gas-insulated switches, for example gas-insulated.

High-voltage circuit breakers (hereinafter referred to as circuit breakers) are known, containing gas-insulated arcing devices with movable and fixed contacts, a drive that controls these devices using dielectric rods and common traction by means of external and internal levers and gearboxes with flanges, and also a frame with supporting racks ( ELECTRIC SWITCHES type VGT-1A1-220. Operation manual: CJSC Energomash (Yekaterinburg) -Uralelectrotyazhmash, July 26, 2010). The disadvantages of this design are as follows.

1. The complexity of the polar adjustment of the simultaneous opening of the contacts, which is also made by the consumer when installing the switch.

2. The use of a spring drive, which in its kinematics is installed on the end of the common frame, which increases the overall size of the switch and requires three support posts with a foundation under each pole.

The objective of this utility model is to create a switch devoid of deficiencies in paragraphs. 1 and 2, i.e. having simplified adjustments made once at the factory, as well as providing the possibility of using a combined spring-hydraulic drive, the installation of which allows to reduce the overall size of the circuit breaker and to reduce the number of support posts and associated foundations.

The solution to this problem is achieved by the fact that in the well-known three-pole high-voltage circuit breaker containing gas-insulated arcing devices with movable and fixed contacts, a drive that controls these devices using dielectric rods and common traction through external and internal levers and gearboxes with flanges, as well as a frame with supporting posts, dielectric rods are equipped with one-side threaded tips for adjusting the length of rods, while the total rod is made of at least two parts, sleep conjugated bilateral threaded lugs length adjustment of these parts, and on said flanges and external levers are made, additional holes for fixing the locking bolt lengths of said dielectric rods and parts of total thrust.

The switch may include a spring-hydraulic actuator located between the support posts.

The switch may contain two support legs symmetrically located relative to the middle pole.

In FIG. 1 shows a general view of a gas-insulated high-voltage circuit breaker; FIG. 2 is a sectional view of a high voltage switch, in FIG. 3 is a section through its pole, in FIG. 4 is a view of a gearbox with adjustment holes “A”, in FIG. 5 - internal gear lever, in FIG. 6 - its external lever, with holes for adjustment “A”, in FIG. 7 - locking bolt, in FIG. 8 - dielectric rod with a one-way threaded tip for adjusting the length, in FIG. 9 is a section through a pole with a movable contact in a thrust position; FIG. 10 is a section through a pole with a locking bolt; FIG. 11 is a section through a pole with an internal arm and dielectric traction, FIG. 12 is a section through a pole with an extractable locking bolt; FIG. 13 gearbox with adjusting hole "B", in FIG. 14 an external lever with an adjustment hole “B”, in FIG. 15 pole link with bilateral threaded tips for adjusting the length, in FIG. 16 is a sectional view of a switch with adjusting pointers; FIG. 17 is a sectional view of a switch with adjusted poles; FIG. 18 - removing the locking bolts at the switch, ready for operation.

A three-pole high-voltage switch contains three poles 1, a common frame 2, support legs 3, a pole control drive 4, internal levers 5, external levers 6, a common rod 7 with threaded tips for adjusting length 14, dielectric rods 8 with threaded tips for changing length 13, movable contacts 9, fixed contacts 10, gearbox with flanges provided with holes for adjustment 11, locking bolts 12.

The switch operates as follows. Three poles 1, mounted on a common frame 2, are connected to the drive 4, using common rods 7. When moving the lever of the drive 4, the moving contacts 9 are closed or opened with the fixed contacts 10.

According to the requirement of GOST R 52565-2006, the greatest difference between the moments of closing of the contacts of the poles during switching should not exceed 0.005 s, and the greatest difference between the moments of opening of the contacts of the poles of switches during switching should not exceed 0.0033 s.

According to the utility model, these requirements are met by external and internal rods equipped with threaded length adjustment tips. In this case, the movable contacts 9 are set relative to the fixed contacts 10 at the same distance. It is also necessary that these distances are maintained between the three poles. Contact regulation occurs during pole assembly (Fig. 3). An internal lever 5 (Fig. 5) and an external lever 6 (Fig. 6) are mounted on the gearbox shaft (Fig. 4) and the external lever 6 (Fig. 6) is at an angle of 90 ° to the internal lever. The inner lever 5 is connected to the dielectric rod 8 (Fig. 8). By rotating the external lever 6 counterclockwise, the movable contact 9 is brought to the fixed contact 10, in the thrust position (Fig. 9), while the inner lever 5 is disconnected from the dielectric rod 8, (Fig. 11). Further, the hole "A" (Fig. 6) is combined with the hole "A" on the gearbox (Fig. 4). After combining these holes (Fig. 10), the lever and gearbox are fixed with a locking bolt 12 (Fig. 7). At the same time, a gap is formed between the internal lever 5 and the dielectric rod 8 (Fig. 11, view K), which must be compensated by changing the length of the dielectric rod 8 with a threaded tip 13 and to connect the internal lever 5 with the dielectric rod 8. For this, the locking bolt 12 is removed from the holes "A" (Fig. 12), after which the pole can be installed on a common frame 2 of the switch.

To compensate for the length between the three poles and the drive lever (Fig. 16), it is necessary to rotate the external levers 6 to align the holes "B" (Fig. 14) with the hole "B" on the gearbox (Fig. 13). After aligning the holes, it is necessary to connect the external lever 6 with the gearbox 11 using the locking bolt 12. Then, the switch command must be turned on, the drive lever will go to the upper on position, and the external levers 6 and the drive lever 4 (Fig. 17) will be in a locked position. After this, it is necessary to install four interpolar rods 7 with threaded ends 14 (Fig. 15), if necessary changing their length until the holes of the rod 7 coincide with the holes on the external levers 6. Then the locking bolts 12 (Fig. 18) must be removed from the holes " B ”on the external levers 6 and gears 11. The switch is ready for operation.

As a result of these actions, the drawback mentioned in clause 1 is eliminated. The drawback in clause 2 is eliminated by using two supports 3 (Fig. 1), on which the frame 2, drive 4 and poles 1 are mounted.

Thus, when performing the switch in accordance with the formula of the utility model, the disadvantages indicated in paragraphs are eliminated. 1 and 2, which indicates a solution to the problem.

The claimed utility model has already been implemented by ZETO CJSC (Velikiye Luki) in the VGT-220-1K circuit breaker, which successfully passed all the necessary tests.

Claims (3)

1. Three-pole high-voltage switch containing gas-insulated arcing devices with movable and fixed contacts, a drive that controls these devices using dielectric rods and common traction through external and internal levers and gearboxes with flanges, as well as a frame with support legs, characterized in that the dielectric rods are equipped with one-sided threaded tips for adjusting the length of the rods, while the total rod is made of at least two parts equipped with bilateral threaded rods the lengths of adjusting the length of these parts, and on the said flanges and external levers additional holes are made for fixing with the locking bolts the lengths of the aforementioned dielectric rods and parts of the common rod. 2. The switch according to claim 1, characterized in that the drive is spring-hydraulic and is located between the support posts. 3. The switch according to claim 2, characterized in that it comprises two support posts symmetrically located relative to the middle pole.

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