DE1964237A1 - Energy storage device with release lock and pressure device - Google Patents

Description

"Energy storage device with release lock and push-up device" The drive bßw. the tripping of diverter switches for transformers with step windings takes place known to save with the help of force, the one hand the open contact give the initial speed required for opening under load, on the other hand the power requirement of the contact to be made a until it hits the firm one Contact cover. The energy store also has the task of keeping the contact closed to lock and thereby in its position until switching to hold on. To keep the current fluctuation associated with switching as short as possible, the energy store must relax in the shortest possible time and the switching process cause. So that all of the tasks outlined above can be fulfilled, it is required that the release of the energy storage mechanism at the precisely defined time, i.e. takes place at the moment when the energy store has the greatest potential energy owns. However, difficulties arise here which are based on that the switching mechanism is in an unstable state of equilibrium shortly before triggering is located so that; I postpone the point in time at which the switching process begins can. In addition, it can happen that the closed contacts with each other slightly are welded, whereby the triggering of the energy storage device is delayed.

The object of the invention is to provide an energy storage arrangement for diverter switch to create a trip of the diverter switch at the time causes in which the energy store has its greatest potential energy, and which ensures a safe triggering of the switch even if at the beginning the switching process large mechanical forces must be overcome. The inventions Energy storage arrangement is characterized in that 4e energy storage spring between a rocker arm einessaits tt.au one moving on a circular path Bolt on the other hand is arranged that the locking and the release of the rocker arm takes place by a cam and that a pusher device to increase the release force is provided. Both the bolt tensioning the Kraftapeicherfeder and the Tach pressing device is firmly connected to the cam, so that its position is always dependent on the position of the cam with respect to the rocker arm. Since then, depending on the position of the cam, the rocker arm is released or is locked, the energy storage mechanism and thus the diverter switch are triggered always at the same time and under the most favorable conditions.

An exemplary embodiment of the invention is described below with reference to the Figures 1 and 2 explained. The disc 1, which is driven via the shaft 12, is provided with a semicircular cutout 7 at both ends is expanded. The disk 1 continues to carry the bolt 3 on which the energy storage spring 2 engages The other end of the force storage spring engages the upper end of the rocker arm 9 at. The rocker arm 9, which is firmly connected to the output shaft 5, has over the output shaft 5 also has an extension 10 which has a roller 1i at its end wearing. The role Ii is supported on the inside of the semicircular cutout 7, whereby the rocker arm in the drawn position only can turn counterclockwise. A release of the KirDphebels can only then take place when one of the two extended end regions by turning the disk 1 of the mouth section 7 has migrated into the area of the extension 10. buf the Disc 1, the two bolts 8 are also provided, which are arranged so that they inevitably move the rocker arm 9 out of its end position, if the The force of the spring is not sufficient to trigger the switching process, for example may be the case with welded contacts. As can be seen from Fig. 2, the Eraft storage arrangement constructed symmetrically, i.e.

the energy storage spring 2 lies in the axis of symmetry between two Cam disks 1. It is of course possible instead of a force storage spring 2 to use a spring battery consisting of several springs, with only the force diagram of the arrangement, but not the function is affected.

The arrangement is driven via the shaft journal 12.

The drive angle is + 2 x °. For example, if the drive moves in the opposite direction clockwise, the distance between the bolt 3 and the decreases upper end of the rocker arm 9, so that the power storage spring 2 is tensioned.

If the bolt 3 moves beyond the angle p, then occurs on the output shaft 5 clockwise torque.

Due to the locking curve 7, however, the rocker arm 9 and thus the Output shaft 5 temporarily locked. Only when the role 11 of the extension 10 of the rocker arm 9 has reached the wider end of the locking cam 7, the Rocker arm 9 released and thus triggered the raft memory. Until that happens can, the bolt 3 has the angle γ °. back, whereby the spring 2 continues has been stretched. When the energy store is triggered, the rocker arm 9 can to cover the angle 2 x /.

Its path is limited by end stops, not shown.

The next switching process takes place in the opposite direction of rotation.

The energy storage arrangement according to the invention ensures a possible high drive speed of the diverter switch and thus a rapid opening of the Diverter switch contacts, the start of the switching process continues through the trip lock at some point. By the jach pushing device provided according to the invention it is also ensured that the diverter switch is triggered when the energy of the energy storage springs is not sufficient to overcome the initial moment.

5 pages description 2 claims 1 sheet of drawing with 2 Figo

Claims (2)

Patent claims energy storage arrangement for diverter switches, thereby characterized in that the force storage spring between a rocker arm (9) on the one hand and a bolt (3) movable on a circular path is arranged on the other hand, that the locking and release of the rocker arm (9) takes place by a cam and that a Nachdückvorrichtung is provided to increase the release force. 2. energy storage arrangement according to claim 1, characterized in that that the bolt (3) and the pushing device are firmly connected to the cam are.