SU568404A3 - Pushbutton-operated multipole automatic circuit breaker - Google Patents

Description

one

Known multipole pushbutton automatic switches with a thermal maximum release are known, comprising a housing with ISOLATION.NN intermediate partitions, fixed contacts, a movable contact bridge connected to the control button by freely releasing the knee-lever mechanism, fixed and turned on the bolts moved in the housing grooves. tied through levers with a bimetallic heat release plate and fixed in the included: state by a stopper paw, deviating on the fixed support and interacting through the spring by means of. protrusions with a free-release mechanism.

In the proposed circuit breaker, in order to simplify its design, the free decoupling mechanism is designed so that its first lever is connected through a spline connection with a shtangt push-button mechanism, which interacts with a bolt moving in the housing grooves, on which

the first lever, as well as the second L-shaped lever, one shoulder of which is connected to the thermal release of the switch, and the second shoulder through the spring with the pawl, which interacts with the bolt and bolt, and the second shoulder of the L-shaped lever through the spline joint St. It is fitted with a spring-loaded third lever, having a protrusion interacting with a protrusion on the housing, and a pin, with a movable contact bridge mounted on it, entering the figure groove on the housing.

The mechanism of the thermal release is made in the form of a disconnecting lever with a cut-out, interacting with the free-release mechanism and mounted on the shaft. on which an additional spring-loaded compensation bimetallic plate is installed, interacting through the pusher with the main bimetallic plate.

FIG. 1 shows the lower part of the switch body with a free-release switching mechanism located in it which is in the on position; in fig. 2 - the upper part of the housing without an outer wall with a thermal overload switch located there; in fig. 3 - the switch in the off position; in fig. 4 - section A - A of FIG. 3; in fig. 5 and 6 - multi-pole maximum switch, two projections. The switch contains a body of insulating material, divided into two parts: the bottom 1 and the top 2. Both parts of the body are joined together by hollow rivets that fit into the matching drilled holes 3. The parts of the body that are in contact with their torn sides have matching parts a cutout into which the intermediate partition 4 is tightly inserted, made of insulating material and separating the case into two chambers: upper and lower, the switching mechanism is placed in the upper chamber, and the lower chamber is a bimetallic ppastinka 5 of the thermal disintegrator. This two-chamber system has the advantage that, when turned off, the electric arc cannot exert a physical effect on the bimetallic plate 5. For electrical connection outside the chain there are busbars 6 and 7. One shoulder is welded to the clamp 6 (J-shaped, straight heated the load current of the bimetallic plate 5 (Fig. 2). The other arm (the J - shaped bimetallic plate 5 is in electrical connection with a flexible copper conductor 8, mounted on the intermediate part 9, which projects in The lower chamber of the switch and sleep housing is fixed by the fixed part 10. Another fixed part of the other part 11 is fixed on the connecting side 7. The fixed contact part 12 of the contact bridge 13 interacts with these fixed contact parts Yu, 11, the Contact bridge 13 is connected hingedly by means of a bolt 14 with a lever 15. This lever 15 has two plates arranged in parallel, joined together by means of a transverse bar 16. The lever 15 can be made together as one piece with said two plates and cross bar 16 of plastic sy. Both plates of the lever 15 are provided with a pin 17, which fits into the closed groove of the crank lever 18. The lever 18 is provided with a support bolt 19, which moves transversely in the corresponding slots 20 of the housing 1 and the intermediate partition 4. The bolt 14 can move across in the slots 21 of the housing 1 and an intermediate partition 4. In these grooves 21, stops are made - clamps 22. In the Enabled position, the support bolt 19 (Fig. 1) rests on the knee shaped cutout 23 of the locking pawl 24, which consists of two plates located at a distance of plates along the transverse part 25. This locking pawl 24, ie. e, its both plates, and the transverse member 25 can be manufactured as one whole from plastic. As a whole with the plates, two trunnions are molded, due to which, the locking pawl 24 can be supported and rotated in the corresponding openings of the housing. At some distance from the trunnions to the locking pawl 24, one end of the disconnecting spring 26 is attached, the other end of which enters the notch 27 of the lever 18. The ground platform 28 of the locking pawl 24 rests on the protrusion 29, which is made on the inner end of the stripper 30, of strip material G - figuratively fastened to the push button 31 using a rivet 32. The push button of the rivet is provided with a thickening for manual deactivation. Shaltshtanga ZO has a semicircular notch 33 and a lead 34 at the lower end. A transverse spring 35 is mounted on the transverse shelf of the L-shaped stanchion 30, which at its lower end encloses the trunnion 36 on the intermediate partition 4 and is adjacent to the latter. A ring 37 is installed at the lower end of the push button 31, which is made of a material of a different color than the push button 31 itself. In the off position, the push button 31 together with the ring 37 protrudes from the threaded sleeve 38, which is inserted into the corresponding cuts of both parts of the housing. This threaded bushing is used to fasten the maximum switch. A switch shaft 39 is mounted in the switch body, on which the disconnecting lever 40 is rigidly attached. This razorikayuschy lever 40 has a cutout that includes the free arm of the lever 18 with a holding leash 41 and rests on the edge of this cutout. On the shaft 39, the lever 42, which consists of a compensation bimetallic plate, is seized. The turning spring 43 holds the lever 2 so that it rests on the pusher 44, the other end of which lies on the free shoulder of the bimetallic plate 5. The set screw 45 serves to precisely adjust the set point of the bimetallic plate 5. The arm 15 has a protrusion 46, which can interact with the stop 47 on the case. The contact pressure is created by a rotary spring 48 mounted on the bend 49 of the lever 18, with one end resting on the pin 17 and the other end on the bend 50 of the lever 18. On the pin 17 a rotary spring 51 is mounted, one end of which lies against the transverse part 16 of the lever 15, and the other end is drawn to the chaga 18. The supporting bolt 19 is fitted with a rotating connecting lever 52, on which an elongated hole is made and a pin 53 enters this hole, made in the form of a hollow sleeve fixed to shaltshang 30. The principle of the described maximum Foot switch sleduyushy. When a bimetallic plate 5 is loaded, due to the maximum current (overload), its free arm (Fig. 2) bends to the right. Since the overload current has a counter-direction in both arms of the bimetallic plate 5, an electrodynamic force will act on its free pressure, which will bend this band as well to the right. The curved free shoulder of the bimetallic plate will move the pusher 44 to the right. The latter will turn the lever 42 and the shaft 39 associated with it counterclockwise. In this case, the rotation of the opening lever 4O, fixed on the shaft 39, releases the retaining lead 41 of the lever 18, as a result of which the opening spring 26 deflects the lever 18 on the support bolt 19 in the direction of the clockwise direction. The knee-lever mechanism is activated and its lever 15 lifts the contact bridge 13 together with the contact overheads 12 from the fixed contacts 10, 11. As a result, the current circuit inside the maximum switch is disconnected due to the fact that the opening spring 26 is less than the force of the loaded return spring 35. The spring overcomes the force of the spring 26, and the locking pawl 24 is deflected clockwise by means of the protrusion 29, and the push button 31 moves to the off position (Fig. 3). By means of the pin 53, the connecting lever 52 and the support bolt 19, the knee-lever mechanism is brought into position shown in FIG. 3. If the push button 31 is still held in a certain position when the thermal release trips, then the contact bridge with the movable contact part 12 will be lifted from the fixed contacts 10 and 11 (free disconnection). The maximum switch can also be turned off manually. If you create a stretching vulture on a push button, then the protrusion 29 of the shafts 30 will press the beveled area 28 of the locking pawl 24 and deflect the latter against the action of the force of the opening spring.26 in the direction of the clockwise direction. The support bolt 19 of the lever 18 will be released from the locking pawl 24. The crank joint may now work, and the contact bridge 13 will be lifted from the fixed contacts 10 and 11, to turn the switch off from the off position, press the push button 31 on the switch body. At the same time, the original leash 34 begins to act, and then the cutout 33 of the anvil shalts on the support bolt 19 of the lever 18, so that the lever 18 moves down. Initially, the free shoulder of the lever 18 engages over the notch of the disconnecting lever 40, and then the lever 18 rotates. In this case the knee-lever mechanism will be tense. At the same time, the rotating spring on 5 will push the lever 15 on the knee-lever mechanism with the bolt 14 in the groove 21 thus in the direction to the right. This bolt 14 will rest against the stop 22 in the groove 21. In this position, the slide will not move to the contact part 12 of the contact bridge 13 with the fixed; contacts 10 and 11. Thanks to the slot, the lever 19 may still be overturned counterclockwise around its blocked place. During this movement, the protrusion 46 of the lever 15 bumps against the stop 47 on the body, as a result of which the lever 15 will be rotated clockwise, and the bolt 14 slides off the stop-clamp 22. Under the action of the rotary spring 48, the contact bridge 13 will move with its movable contacts 12 in steps until its contacts with unsuitable ontact contacts 10, 11 - about 1, instantaneous activation occurs. Between the three separate switches, insulating baffles 54 can be installed to separate one from the other.

Gogo switching spaces 55 individual switches. In both extreme individual switches, insulating parts 56 are inserted into the notches to form a cover.

The push button 31 is only on the middle switch. The support bolt 19 of the lever 18 of the middle switch is extended to the outer (extreme) switches and on it one lever 18 is mounted in each, extreme, separate switch. The locking pawl 24 and the push button 31 with the shalts 30, as well as the connecting lever 52 are made only in the middle switch. For this reason, in the external switches, the upper end of the release spring 26 is fixed to the housing. Each individual switch has its own disconnecting shaft 39. Separate disconnecting shafts of the switches are interconnected by means of a connecting bar that fits into the corresponding slots of the disconnecting shafts 39. The resulting tolerances of the switch mechanism are compensated for by the retaining leash 41 of the free arm of the lever 18 designed in such a way that it turns when only one switch is activated, the disconnecting shaft is such that it can also work other individual switches. All individual switches simultaneously turn on or off.

Claims (2)

1. Multi-pole pushbutton circuit breaker with thermal, maximum release, comprising a housing with isolating intermediate intercom partitions, fixed contacts, a movable contact bridge connected to a button for controlling by means of a knee-lever mechanism for uncoupling, fastened and rotated on bolts, moved in housing grooves, connected through levers to a bimetallic plate of a thermal release and fixed in the on state by a locking paw, tilted on a fixed support and interacting through a spring by means of projections with a mechanism free tripping, characterized in that, in order to simplify the design of the switch, the free tripping mechanism is provided with that its first lever is connected to the push-button mechanism through the clamping joint, which interacts with a bolt moving in the housing grooves, on which the first lever is rotatably mounted, and the second L-shaped lever, one arm of which is connected to the thermal release . switch, and the second shoulder through the spring with a dog interacting with shchaltschtangoy and bolt, and the second shoulder of the L-jubilee lever through the spline connection is connected with a spring-loaded third lever. With a protrusion that interacts with the protrusion on the body, and the eagle pin installed on It has a movable contact bridge that enters the shaped groove on the body. 2. The multi-pole pushbutton breaker according to claim 1, in connection with the fact that the thermal release mechanism is made in the form of a disconnect lever with a cutout interacting with the free-release mechanism and mounted on a shaft on which an additional spring-loaded compensation bimetallic plate, interacting through the pusher with the main bimetallic plate, is installed. 52 25 38 1 55 6