SU184952A1 - - Google Patents

Description

Known high-speed mechanisms for free tripping of circuit breakers are capable of tripping in any position. However, they are used only for small moments on a contact shaft. For switches with a large contact pressure, additional (spring, cargo) devices with energy storage are used to disconnect from small forces. This leads to the complexity of the design, reduced reliability and a significant decrease in speed.

The described mechanism of free tripping allows tripping (switching off) both with the switch fully turned on and in any intermediate position in the contact section from the force of the falling spring-loaded zero coil core (undervoltage relay) without any accumulating devices.

For this, the specified mechanism, which contains the driven and driving levers, which rotate one common shaft, breaks the lever and the locking element, has on the driven lever a three-arm with three rollers fixed by means of an axis. His two short arms serve as breaking links, and the third, the elongated shoulder serves to communicate with the locking element.

In order to hold and release the elements of the mechanism in any intermediate position in the process of cocking, the shoulder roller (used for communication with the locking element) of the three-arm lever rolls around the roller located coaxially with the common shaft of the mechanism and mounted on the double-arm lever connected to the release latch.

FIG. Figure 1 shows the construction of the described section free release mechanism; in fig. 2-structural diagram of the mechanism in the initial position for inclusion; in fig. 3 - the moment when the mechanism is disengaged in the intermediate position of the moving contacts of the switch.

A drive lever 2 with a roller 3 is rigidly seated on the drive shaft 1, breaking on axis 4 in one direction. In the cheeks 5 and 6, seated

on the bearings 7 freely relative to the shaft /, the roller 8 is placed on the bearings 9. A two-shoulder lever, shoulders of which carry rollers, and a lever with a roller, the length of which is much longer than shoulder, are rigidly seated.

A single three-shoulder arm is formed, having two short arms 10 –1 11 with rollers 12–13 –l long shoulder 14 with roller 15. The locking device is designed as a two-arm rotating on the axis, and long arm 18 when the contacts are turned on abuts the latch 19. The starting position for connecting the contacts is the position /. When the contacts are turned on, the axis Oi of the shaft 1 coincides with the axis Oa of the roller 17 locking its devices. The cheeks 5 and 6 form a "driven lever, freely rotating around the axis of the drive shaft and carrying a roller 8 with a three-arm arm, which is freely reinforced in it, the roller 15 of the long arm 14 of which is turned on, coaxially aligned with the shaft / roller 17 of the locking device. Moreover, in the hemline / rollers 15 and 17 are installed with overlap so that the three-shouldered lever can rotate around the base roller 8 counterclockwise for the entire activation time. If you turn the latch 19 and the double-shouldered lever along arrow A, then the support in the form of roller 17 is removed, and the three-blade arms can turn counterclockwise around the axis of the roller 8, i.e. roller 15 pass over roller 17. When the drive shaft is turned on / with the driving lever 2 turning counterclockwise, I will apply the roller 3 to the roller 13 of the shoulder 11 of the triple arm. Rollers 3 and 13 are also installed with overlap relative to each other. When turned on, the lever 2 cannot break around axis 4, i.e., it is light from the center of axis 4 to the edge of roller 3 cannot rotate about axis 4 clockwise, but only in the opposite direction. In view of this, and since shoulder 14 with a roller / 5 "supported by roller 17", the driven lever (with which the moving contacts of the switch and opening spring are connected) also rotates counterclockwise. In this case, the roller 15 rolls around the roller 17 with iodine pressure. This is possible due to the fact that the long arm 18 rests on the latch 19. The pressure of the roller 15 on the roller 17 and the shoulder 18 on the latch 19 is small, which is ensured by an appropriate selection of the lengths of the shoulders 11, 14, 16, 18 and their angular position. This is also a distinctive feature of the proposed mechanism. When the driven lever is rotated, the breaking springs expand, the pressure rises, and it remains approximately constant at the latch 19, since as a result of rolling the roller 15 along the roller 17, the leverage of the force decreases. At the end of the movement (position //), the driven lever roller 12 comes in behind the spring-loaded pawl 20, and the switch is turned on. Disengagement is possible both with the switch fully turned on (position // J, and B any intermediate transition field on the moving contact section. When protection or manual action is triggered, the latch 19 turns with the arrow A, releasing the long arm 18 of the two shoulders, 18 15 the roller 17 of the three-arm arm 15 can now also be turned onto the roller 17. Under the pressure of the rollers 3 and 13, the three-arm levers rotate along the arrow L around the axis of the roller 8, the roller 13 passes over the roller 3 and the roller 15 over the p OLCOM 17: “the driven lever with contacts under the action of the breaking spring returns to the position /, and the driving lever 2 continues to move counterclockwise until the drive is discharged and the lever 2 turns to the position // (zeroing is on The live action is carried out continuously and almost instantaneously, since, due to the force contact of the parts of the mechanism, there are no backlash and no additional devices, which ensures fast response when uncoupling. The double-shouldered lever remains in the hem: in Figs. 3 under the action of spring-i-21. At the approach of the “driven lever to the position / roller 13, interacting with the stop 22, turns the three-arm arm around the aspen 8 in the direction opposite to arrow A. The three-arm arm is set to position I, simultaneously strung) the stop 23, which is located on the cheek 6 (the “trailing lever”), will act on the long arm 18 of the two shoulders, rotates the latter in the direction opposite to the arrow A; The latch 19 also returns to the original iolol: a mechanism. When the drive is cocked, the driving lever 2 returns from the pole // to the position /. The roller 3 passes under the roller 13, as the lever 2 breaks around the axis 4. The switch is turned off as follows: the included contacts are held by the swivel pawl 20, which interacts with the three-arm lever roller 12 with the roller 3. When the latch 19 is turned The arrow A is released by a "backup of the roller 15 of the three-arm arm, the latter is rotated around the axis of the roller S, etc.". The disengagement and disengagement is ensured in any position of the driving lever 2 relative to the "driven arm, i.e. with the functioning of the switch and the device both with the instantaneous automatic switch on and off. Other options for folding the mechanism are possible, for example, the stop 22 is removed, instead of the spring 21 to the long arm 18, the spring 24 is loaded. The three shoulders arm is pinched by torsion 25 (see Fig.) So that under its action it tends to turn around the axis of the roller 8 (see Fig.) in the direction, antiiolol: nom arrow A. In general, the interaction is the same as during disengagement. A special feature is the following: after the arrival of the roller 3 under the handle 13 (disengagement) under the action of the spring

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Compiled by N. Karaseva. Editor N. Dzharagetti Tekhred. P. Kurilko Proofreaders: E. D. Kurdyumova and T. N. Kostikova