DE1044233B - Electric circuit breaker with a pivoting insulating plate - Google Patents

Description

The invention relates to improvements in electrical circuit breakers with thermal and magnetic Overcurrent release. Such a circuit breaker has a bimetallic plate, which in the event of an overcurrent is bent out and actuated a trigger, and has a time delay in the Meaning that the tripping time decreases with increasing current. This plate can be used with a magnetic Arrangement be connected to actuate the device instantly in short circuit conditions. The overcurrent protection can also consist of an armature, which in the event of an overcurrent or short circuit is tightened immediately and actuated the release mechanism.

The invention relates primarily to a small and compact design of such an automatic switch, in which the risk of rollover between contacts is eliminated or minimized is reduced and in which a very fast interruption at a certain overcurrent or is reached in the event of a short circuit.

A circuit breaker with a pivotable insulating plate on which one of the movable contacts is known is known supporting bridge is attached, so that by this arrangement, the chambers containing the contacts separated and a flashover between the contacts is prevented. According to the invention in the case of an automatic switch, the insulating plate that holds the movable ones Wears contacts, influenced by a bimetal element via a release lever, which in turn is acted upon by an induced magnetic field, the induced magnetic field through the arrangement is generated by bimetal and a live metal strip. One that can be moved by hand Toggle can also be effective, which acts practically directly on the insulating plate. Only A roller is interposed for better gliding. The one carrying the moving contacts Isolation plate is arranged and designed so that it pivots into engagement with a trip lever can come and opposing chambers in which the fixed contacts are housed are able to separate from one another, so that flashover between the chambers is prevented.

In addition, a longitudinally divided or forked flexible element is provided, one leg of which is arranged parallel to a current-carrying strip, so that in the event of an overcurrent a magnetic field is created for actuating the triggering device. The flexible current-carrying element for the actuation of the release device can be connected to a metal strip which is arranged at a distance therefrom and is traversed by current in the same direction, so that the electrical circuit breaker
with a swiveling insulating plate

Applicant:

JA Crabtree & Co., Limited,
ίο Walsall, Staffordshire (Great Britain)

Representative: Dipl.-Ing. K.-A. Brose, patent attorney,
Pullach near Munich, Wiener Str. 1/2

¹ ^ Claimed priority:

Great Britain December 15, 1954 and February 25, 1955

Edward Coleman,

Walsall, Staffordshire (UK),
has been named as the inventor

flexible element is actuated instantaneously in the event of overcurrent if the element is an armature, and also in the case of a short circuit, if the element is a bimetal element.

The flexible element is held in contact with a stop in the housing by a spring, whose tensile or compressive stress is adjustable, so that the current required for tripping is changed can be changed without changing the degree of locking engagement of the element with a trip lever needs to become.

The insulating plate carrying the moving contacts is initially free at a certain overcurrent through an air gap up to the stop · moved with a fulcrum before the movable ones Contacts are detached from the fixed contacts. This will reduce the inertia of the moving contact overcome and an initial welding of the contacts repealed.

The automatic switch can be operated by a toggle that has a cam-shaped surface, which acts on the insulating plate via a pin or a roller held in a guide, which can come into engagement with an inclined ramp on the insulating plate. The housing can be molded from or cast housing halves exist, on the opposite walls of which grooves and recesses

«09 679- / 256

or chambers are formed to receive the bearing pins, rollers, contacts and other parts of the switch are. Ribs or baffles can also be present on the housing halves, which by winding paths help to extinguish the arc faster. "From these chambers, the are separated by the insulating plate, the arcs can be separated by appropriately shaped insulating Partitions or screens are deflected sideways in expansion chambers, from which the gases ίο can be discharged through outlet openings in the housing.

The release mechanism reacts very quickly to the induced magnetic field. Also can through the invention the sensitivity of the switching device can be set. This means that the new switch can be used without the need for structural modifications. can be used for a variety of uses as a quick adjustment to various Current quantities is possible. The invention also enables a reduction in friction and wear and thus a reduction in the for the actuation of the release device by the overcurrent protection required force on one Minimum value. The invention also relates to a switching device in which *, the locking engagement between a trip lever and the overcurrent device desirably small and for different Current settings KonstaaOst. Furthermore, the invention provides simple tools for displaying the Switching state of the circuit breaker and for a reliable and easy setting of the trigger required current, so that an actuation of the bimetallic element "or a change of its Location is superfluous.

For a better understanding of the invention is in the drawings an embodiment of an electrical Circuit breaker shown with overcurrent protection, the flexible element of which takes the form of a Has bimetal plate. It shows

Fig. 1 is a perspective view of the circuit breaker, on a larger scale than the remaining figures, with one side of the housing removed, and the moving parts take the switch-on position,

FIG. 2 is a side view of the switch according to FIG. 1,

Fig. 3 is a section along the line III-III "in Fig. 2,

■ Fig. 4 shows a section along the line IV-IV in Fig. 2,

FIGS. 5, 6 and 7 are views corresponding to FIG. 2, however show the parts in other positions, namely Fig. 5 in the released position, 6 in the switch-off and return position and FIG. 7 in an intermediate position between the Positions according to Fig. 5 and 6,

8 is a perspective view of the bimetal element and the associated parts in a larger one Scale.

As can be seen in detail from the drawings, each of the parts 1 and 2 of a two-part molded or cast housing is provided on its opposite sides with recesses or chambers for receiving the components of the circuit breaker. The parts or halves 1 and 2 are connected by rivets la and provided with terminals 3 and 4 on the top and bottom. The upper clamp 3 is attached to the protruding upper end of a metal strip 5 which, at its lower end, is connected to one of the two fixed contacts? and 1 (ti , which are arranged in the front part of a rectangular chamber 8 of the housing. The other fixed contact 7 α is attached to one end of a rearward-facing strip 9, the other end of which by screws 10 to the free end of a leg 11 of a bifurcated or U-shaped bimetallic plate is attached, which is attached in opposite grooves on the back of the housing parts. The free end of the other leg 11 α of the bimetal plate is fastened by screws 10 a to a strip 6 of extensive length. At the end this strip is formed into a right-angled bend, the protruding lower arm of which is provided with the terminal 4

- is. The strip is bent so that the greater part runs parallel and without contact with the back of the first-mentioned leg 11 of the bimetal plate, so that a narrow space 6 α remains between these parts. This arrangement has the consequence that the current flows through the leg and the strip in the same direction. The magnetic field causes the bimetal plate to be bent out at its united or closed end and the release device to be actuated quickly. This arrangement enables extremely effective tripping in short-circuit conditions, practically entirely by magnetic attraction between the two current-carrying strips, so that a sudden deflection of the leg 11 is caused without the aid of coiled magnets.

The united end or the apex of the U-shaped bimetal plate can bend freely and has on one leg an inwardly projecting nose 11 &, on which the end of a pivotally mounted release lever 12_ attacks. A coil tension spring 13 engages with one end the bimetal plate and presses the free end of this plate against a stop 14 on the housing. the

.Pressure force with which the bimetal plate is pressed against the stop can be determined by the setting a screw 15 can be changed, the head of which is accessible from the front of the housing and whose other end into a threaded part in an L-shaped Holder 16 engages to which the other end of the spring 13 is attached. This arrangement enables the locking engagement between the release lever 12 and the bimetal plate 11 as small as desired and for all settings to make the screw constant. The setting affects the tension the spring and consequently the pressure with which the bimetal plate is pressed against the stop 14, so that a more or less strong heating of the bimetal plate is required to trigger the To call up contacts. The current required for tripping can be read on a scale, which is attached to the housing opposite the screw.

Instead of a tension spring, a compression spring can be provided which is attached to the back of the bimetal plate acts.

The release lever has two parallel cheeks 18 and 18 a, and one of the latter is a backward directed extension 12 is formed which can come into engagement with the bimetal plate. The lever is on a solid transverse pin between its ends 17 mounted, and in the cheeks 12 slots 19 are formed at right angles to the length of the extension, which can freely receive a pin 20 "attached to the lower end of a flat insulating plate 21 is seated. This plate is mounted between the molded or cast housing halves, and its top

The end of greater extent is provided with a small opening 21 α, into which a transverse strip 22 is tightly fitted, which as a contact bridge at the ends carries contacts 23 α, which cooperate with the fixed contacts 7 and la . The attachment of the movable contacts on both sides of the insulating plate 21 results in a separation of the contact chambers from one another, so that an overlay between the contacts accommodated in these chambers is effectively prevented.

In its center, the flat plate 21 is rotatably connected by a pin 23 to a small U-shaped part 24, at the rear end of which a helical compression spring 25 rests, the other end of which is in a recess 25 α of the housing. sits. The ends of the pin 23 are accommodated in guide grooves 26 in the opposite surfaces of the housing halves 1 and 2. In the on position the spring exerts a pressure on the plate 21 forwards with respect to the pin 20, so that the movable contacts in system are held on the fixed contacts, as in Fig. 2 can be seen. the existing of insulating knob 27 is disposed between the housing parts 1 and 2 and includes a forwardly protruding handle on. a semi-circular portion 27a, through the center of a bearing pin 28 runs, is designed on its rear side in the form of a cam which acts on a metal pin or a roller 30, the ends of which are held in short horizontal guide grooves 30 α on the opposite inner sides of the housing parts 1 and 2. The pin 30 is between the Cams 29 and an inclined ramp 21 & are arranged on the insulating plate 21. This arrangement ensures an inevitable or non-positive Liquid drive of the contacts so that the interruption of the circuit does not depend on the action of the spring.

During operation, switching is done manually from the on to the off position by the Gags causes, the cam ensures that the roller 30 acts on the plate 21 and this thereby rotates about the pin 20 against the action of the spring, whereby the contacts are separated, as from FIG. 6 emerges. The movement of the toggle into the on position is permitted by the pressure of the Spring 25 to return the parts to the switched-on position according to FIG. 2, in which the roller 30 is in a V-shaped Engages peripheral part of the cam. During the manual actuation, the release lever 12 is engaged held with the bimetal plate 11. By moving the pin 30 over the top of the cam 29 the corresponding positions of the toggle are determined.

When excessive current conditions occur, the lower end of the bimetal plate is bent backwards releases the release lever. A spring 31 rotates the lever around his Hinge pin 17 in the position shown in FIG. As a result, the pin 20 is at the lower end of the Plate 21 moved forward by spring 25. Here, the front edge of the plate hits against you fixed pin 32, which then forms the pivot point for the plate, so that it is in the released position Fig. 5 is pivoted and 'the contacts are quickly separated. A stop 33 is limited on the housing the rotation of the plate. During this movement, a spring 34 moves the toggle into a central position rotated, in which the designations "on" and "off" attached to the toggle through the housing parts be covered. In the positions according to FIGS. 2 and 6, the corresponding designation is in each case visible.

In order to tension the switch again after a release, the toggle is out of position pressed according to Fig. 5 in the position of FIG. 6, wherein an intermediate position in FIG. 7 is illustrated. As can be seen, the release lever is turned around the pin 17 rotated so that it re-engages the bimetal plate and the parts back into the Switch-off position are brought, whereupon the latter by actuating the toggle in the switch-on position can be brought.

Two correspondingly shaped insulating shields 35, which are arranged on both sides of the spring 25, are used to deflect arcs from the contacts 7 and 7a into "separate" channels, each of which has protruding baffles or ribs 36, which are so arranged are that they force the bow to follow a tortuous path. Beyond the baffles or ribs, the gases are directed into expansion chambers from which they are expelled through openings 38 in the side walls of the housing.

Claims (13)

Patent claims: 1. Electrical circuit breaker with a swiveling insulating plate, the two fixed contacts containing chambers separates and carries the two fixed contacts associated contacts, thereby characterized in that a bimetal element has a release lever (18, 18 a) or a toggle (27) acts directly on the insulating plate (21). 2. Electrical circuit breaker according to claim 1, characterized in that for the purpose of a electromagnetic interference one leg (11) of a bimetal element (11, lla) in parallel in is arranged at a small distance from a current-carrying metal strip (6). 3. Electrical circuit breaker according to claims 1 and 2, characterized in that the bimetallic element (11, 11a) is pressed against a stop (14) in a controllable manner. 4. Electrical circuit breaker according to claim 3, characterized by a tension spring (13) with one end into a bore in the bimetal element (11, 11 α) and the other end into a bore engages in the holder (16) which can be moved by means of a screw (15). 5. Electrical circuit breaker according to claims 1 to 4, characterized in that a nose (11 b) is attached to one leg (11) of the bimetal element. 6. Electrical circuit breaker according to claims 1 to 5, characterized in that a about a pin (17) tiltable release lever (12) rests in the working position with its free end spring-loaded on the nose (11 b) of the bimetallic element. 7. Electrical circuit breaker according to claim 6, characterized in that the release lever (12) has two parallel cheeks (18, 18 a), the slots (19) of which are directed approximately perpendicular to the release lever (12) and to the insulating plate (21) show. 8. Electrical circuit breaker according to claims 1 to 7, characterized in that a on the insulating plate (21) attached driver pin (20) with its two free ends in the Slots (19) of the release lever engages. 9. Electrical circuit breaker according to claims 1 to 8, characterized in that a compression spring (25) acts on the insulating plate (21) and this always in the direction of the toggle (27) seeks to move. 10. Electrical circuit breaker according to claims 1 to 9, characterized in that when the release lever (12) is released, a pin (32) serves as the axis of rotation for the insulating plate (21). 11. Electrical circuit breaker according to claims 1 to 10, characterized by a End stop (33) to limit the opening movement of the insulating plate (21). 12. Electrical circuit breaker according to claims 1 to 11, characterized by an in Grooves (30 c) guided roller (30) which is arranged between a slope (21 V) attached to the insulating plate (21) and a curved surface (29) of the toggle (27). 13. Electrical circuit breaker according to claims 1 to 12, characterized in that the curved surface (29) has a V-shaped indentation and an apex. Considered publications:
Swiss Patent No. 245 200;
U.S. Patents Nos. 2,020,332, 2,020,331,
020 330. For this purpose 2 sheets of drawings © 809 679/256 11.55