SU1001220A1 - Automatic switch - Google Patents

Description

(54) AUTOMATIC SWITCH

The invention relates to low-voltage electrical switching devices, in particular to circuit breakers.

A circuit breaker is known, which contains an insulating body, a lever-and-latching mechanism with which the switch is turned on, its quick shutdown is manual, under normal conditions in the electrical circuit, and also an automatic shutdown when an emergency mode release triggers. in an electrical circuit abnormal conditions 13

This switch has one or more latches (dogs) that hold the release lever. in its fixed position corresponding to the on position of the switch. The release of the lever and the disengagement of the mechanism is carried out by turning the release rail, for which one of the mentioned latches is hooked. Sometimes, the latches and the release rail are installed in the emergency release trip unit, however their kinematic connection with the release lever of the mechanism does not change. Thus, the disadvantage of the known device is due to the large forces transmitted to the tripping lever, which leads to the complexity of the design and limits the possibilities of reducing the size of the switch.

The closest in technical essence to the invention is an automatic switch that contains an insulating body, a contact system with moving and fixed contacts, an emergency release release, a free tripping mechanism.

15

having a body, disengaging a lever, two links (breaking arms), pivotally connected by ends with each other, pinching one of the links by a second hinge is connected with moving contacts. With

20 open contacts (switch position Disable manually or Disable automatically) the indicated links are located relative to each other at a certain angle so that

Claims (2)

25, the distance between opposing hinges connected to the disengaging lever and the moving contacts is reduced compared with that of. distance in the Enabled position. When the contacts are closed (the position of the links is rectified, and the hinges are almost in line. Fixation of the links in this position is ensured by the stop of the link pivotally connected with the disengaging lever to this lever. The position of the mechanism is changed with a handle , moving one end of the spring mechanism, in the position of the longitudinal axis of the spring; located between the hinge, which connects the disengagement lever with the Even and the stop, the mechanism with the emergency release release through the disconnecting rail installed in the unit of this release. The release lever in the On position is connected to the release rail with two latches that are also secured in the release unit. The latches are divergence levers and are designed to reduce the force transmitted from the release lever to disconnecting rail 2. However, in this switch the force transmitted to the release lever from the spring of the mechanism and the contact system is significant, which requires the presence of two latches Between the disengaged lever and the deflecting rail to reduce the force on the rail to a level that ensures the normal operation of the emergency release. This complicates the design of the switch and does not allow its dimensions to be reduced. The purpose of the invention is to simplify the design of the switch and reduce its dimensions. The goal is achieved by the fact that the circuit breaker relies on a fixed one of the fixed elements of the circuit breaker. A stop may be installed on the inside of the body of the free-release mechanism. In addition, the stop may be installed on the inside of the insulating body of the switch. The proposed solution allows to reduce the force of the springs on the disengaging lever, since a significant part of this force is perceived from the link by focusing in the place of their contact. Thus, the force on the uncoupling lever is reduced, and consequently, the force transmitted by it to the disconnecting force is reduced. the rail, which reduces the number of latches between the lever and the disconnecting rail, or eliminates them completely and thereby simplifies the design and reduces the size of the switch, FIG. 1 shows a circuit breaker with a stop fixed on the mechanism case, in the on position, a cut / in FIG. 2 - the same, with a stop fixed inside the insulating case; Fig. 3 is the same, the variant with the adjustment of the force transmitted by the disengaging lever to the shut-off rail. The circuit breaker contains inside the insulating body 1 at each pole a main electrical circuit consisting of a fixed contact 2 terminated with a terminal 3 for connecting external conductors to the switch, a movable contact 4, a flexible connection 5 and a current-carrying bus 6 terminating with a terminal 7 to the switch of external conductors. Clicking on the contacts is created by the spring 8; The free release mechanism is located in the middle pole of the switch and includes a housing 9 on which the lever 10 on the axis 11 is hinged, the latch 12 on the axis 13, the control handle 14 on the hinge 15, the contact holder 16 on the axis 17 and the disconnecting rail 18, except In addition, the support 19 is strengthened on the housing 9. This support can also be strengthened on the insulating housing 1, the link 20 is connected with the lever 10 by means of the hinge A, and the link 21 is connected by the hinge B by means of the hinge 16, the links 21 are interconnected associated spring 22 height With a handle 14, Near the disconnecting rail 18 there is an emergency mode release 23, having a stem 2 4, with which it acts on the disconnecting rail 18. To provide a fixed open position of the moving contacts, there is an emphasis 25 on the mechanism housing. As shown in FIG. 1, links 20 and 21 are straightened, their hinges A, B, C are located on the same line. The arbitrary movement of the links by the force of the spring 22 is prevented by an abutment 19 against which the link 20 rests, the force of the spring 22 is transmitted through the link 20 to the lever 10, and from it to the latch 12 and then to the disconnecting rail 18, the amount of force applied by the latch 12 to the disconnecting rail 18 is determined by the gear ratio of the arms of the said levers and the latch, as well as by correlating the distance from the stop 19 to the longitudinal axis of the spring 22 and to the hinge A, C by decreasing the distance to the longitudinal axis of the spring 22, the force applied by the latch 12 to disengaging the rail 18 also decreases with an increase — on the contrary, when combining the point of contact between the link 20 and the stop 19 with the longitudinal axis of the spring 22, the force of this spring will not be fully transferred to the deflecting rail 18. Thus, the use of the stop 19 fixed to the mechanism housing 9 or on the insulating body 1, and the choice of an appropriate place for its attachment, allows the pressure applied to the deflector rail 18 to be varied over a wide range without the use of additional latches. Sometimes it is necessary to adjust the force applied to the disconnecting rail 18 to compensate for possible production deviations in the manufacture of parts. by the stop 19, the movable mechanical connection of this stop to the mechanism case by means of an adjusting screw 27 connected by a thread to the stop ensures a smooth adjustment of the force when turning the screw transmitted by the mechanism to the disconnecting rail 18, due to the movement of the stop in the elongated holes. I. The principle of operation of the mechanism of free disconnection of the proposed switch is similar to the principle of the mechanisms of known switches. So, to turn off the switch manually, you need to move the handle 14 to the right, so that the end of the spring 22 connected to the handle turns to the right relative to the hinge A. the link 21 and the contact holder 16 associated with it. The contact holder 16, together with the movable contact 4, rotates clockwise around the axis 17 and reach the stop 25, occupying a fixed open position. When a deviation from the normal mode occurs in the electric circuit (for example, when a short circuit current occurs), emergency conditioner 23 triggers, the rod 24 strikes the tripping rail 18 and turns it on. The release rail 18 releases the catch 12 from engagement, which in turn releases the lever 10. Under the force of the spring 22, the lever 10 rotates counterclockwise around the axis 11, and with it the link 20 and 21 start to move. in the hinge B, as well as the contact holder 16 with a movable contact 4. As a result, the contact holder 16 with a movable contact 4 occupies a fixed open position as described above. In order to carry out the switching operation, the handle 14 must be moved to the left relative to the hinge A. If the switch was turned off automatically (by the release, before switching it on), first of all it is necessary to take its mechanism, i.e., to engage the lever 10, the latch 12 and the disconnecting rail 18. Dp This handle 14 is moved to the right until refusal, pressing the lever 10 and turning it clockwise, the lever will act on the latch 12, engages it with the release rail 8, and then locks itself with the latch. As soon as you move your hands To the left, the direction of the force of the spring 22. is left to the left relative to the hinge A, the link 20 begins to rotate around this hinge clockwise jv drive the link 21 and the contact holder 16 with a moving contact 4. A, B and C are approximately on the same line) the further movement of the link 20 is limited by the stop 19. As a result, the closed position of the contacts is fixed. Reducing the effective force of the springs of the mechanism through the link to the release of a significant part of this force by an emphasis fixed on one of the fixed parts of the switch allows to simplify the design and reduce its dimensions, and the placement of the said stop in the oval holes of the fixed CH1STI switch and its connection with this part with an adjusting screw makes it possible to carry out an adjustment of the force,. the lever that is disengaged from the link and, consequently, the establishment of the optimum value of the force perceived by the disconnecting rail, and thereby compensating for possible production deviations. Claim 1. A circuit breaker comprising an insulating body, a contact system including movable and fixed contacts, an emergency release release, a free tripping mechanism comprising a body, an unlocking lever, a latch disengaging the rail, a handle, at least one a spring, two links pivotally connected to each other, wherein one of the links is pivotally connected to the release lever, and the other to moving contacts, and a stop restricting the movement of said links in position and Enabled mechanism, wherein the longitudinal axis of the spring in position Included Raspaud lozhena between the hinge, that is coupled through- disengaged yuschy lever with one of said units and uporbm, characterized in that, on the. in order to simplify the construction and reduce the dimensions, the said support is fixed on one of the fixed elements of the switch. 2. The switch according to claim 1, which is based on the fact that the stop is mounted on the inside of the body of the free-release mechanism. fB 3, the switch according to claim 1, characterized in that the stop is mounted on the inside of the insulating body of the switch. Sources of information taken into account in the examination 1. Kuznetsov RS Apparatuses for the distribution of electrical energy for a voltage of up to 1000 V.M., Energii, 1970, p. 195-201, 217-226. 2. Mishustina L.I. Circuit Breakers Series A3100. ML, Energie, 1965, p. 11-15, 22-24 (prototype), fl