DE2413499A1 - OVERCURRENT CIRCUIT BREAKER - Google Patents

Description

PATH NTANWAiT Dipl. Ing. R. HOLZEB

AUGSBURG

PHILIPPINE-WELSKR-8XBASB »U

f.656

Augsburg, March 19, 1974

Westinghouse Electric Corporation, Westinghouse Building,
Gateway Center, Pittsburgh, Allegheny County,
Pennsylvania 15222, V.St.A.

Overcurrent circuit breaker

The invention relates to an overcurrent circuit breaker a switching mechanism containing a releasable actuator, with a locking mechanism for locking the switching mechanism against the efforts of the switching mechanism to open the switch automatically, and with an off

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release mechanism for releasing the switching mechanism when it occurs an overcurrent of predeterminable size, wherein the trigger mechanism has a trigger rod and wherein the locking mechanism a locking lever which is movable relative to the actuating member into a locking and an unlocking position, and an unlocking lever which cooperates with the release rod and relative to the locking lever in a locking and an unlocking position is movable.

It is known to provide tripping and locking devices in an overcurrent circuit breaker, which lock the switching mechanism of the switch in the normal operating state, ie when the current in the circuit to be protected does not exceed the permissible value, contrary to the efforts of the switching mechanism to automatically open the switch and release when an overcurrent of predeterminable size occurs, so that the switching mechanism opens the switch automatically. Such an arrangement is known from US-PS 3 5 ¹ IO 414th In this known arrangement, the switching mechanism and the switching pieces are housed in an insulating switch housing and the release and locking elements are located in a separate insulating housing, which is also housed in the switch housing. In the course of further development of the circuit breakers, the ones in the switch housing

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Mechanisms located in other devices, such as earth fault protection devices, have been added. With the extension The need to puncture the circuit breaker also grows economical use of space so that the overall dimensions of the circuit breaker are not undesirably large.

The invention is therefore based on the object of the locking mechanism a circuit breaker of the type set out above compact and made of as few moving parts as possible build up that work together with as little friction as possible.

Such an overcurrent circuit breaker is in the sense of solving this problem according to the invention characterized in that the locking lever and the unlocking lever to each other parallel axes are rotatably mounted, cooperate with one another in their locking positions with rolling friction and stand under them in their locking positions urging bias that further locked the actuator in his Position exerts a release force on the locking lever, which is greater than the biasing force on the locking lever and the unlocking lever is and transmitted from the locking lever to the unlocking lever is, and that the release rod the release lever to prevent the release process due to the release

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force normally locked and releases the release lever when the above-mentioned overcurrent occurs.

A preferred embodiment of the invention is described below with reference to the accompanying drawings, for example.

Fig «I a vertical section through a

Circuit breaker according to the invention,

Fig. 2 is a section along the line II-II

in Fig. 1,

Fig. 3 is a vertical section along the

Line III-III in Fig. 2,

FIG. 4 is a plan view of the FIG

2 and 3, and

5 shows a section along the line V-V

in Fig. 3

The circuit breaker shown in Fig. 1 and provided with the reference numeral 3 has an insulating housing 5 and a

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mechanism 7 housed therein. The housing 5 has an insulating base 9 and an insulating cover 11. The mechanism 7 includes a switching mechanism 13 and a Locking and tripping mechanism 15 The circuit breaker is a three-pole switch with three side by side, arranged chambers, the middle chamber (Fig, I) from the two outer chambers by insulating partition walls is separated »which are formed by the housing base 9 and the cover 11. The switching mechanism 13 is in the middle Chamber and serves to switch all three poles,

Each of the three switch poles has a fixed contact piece 21, which is on a rigid, by means of a screw 25 on Housing base 9 attached Sehaltstück 23 is arranged, and a movable contact piece 27, which on a switching piece 29 is arranged, which in turn is pivotably mounted on a switching arm 31 by means of a pin 33. The moving ones Switching pieces 29 and the switching arms 31 of all three Switch poles are rigidly connected to one another by means of a common insulating rod 35 so that they can be moved together are «Each of the switching pieces 29 is biased by means of a spring 37 so that when the switch is closed there is a Exerts contact pressure on the stationary contact piece.

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The switching arms 31 are actuated by the switching mechanism 13, which has an actuating lever 39 »a tilting mechanism with two members 41 and 43 and springs 45 and 47, and a disengageable arm 49, the latter of which is pivotably mounted at one end on a pin 173 and with its other end cooperates with the locking mechanism of the locking and release device 15. At the outer end of the actuating lever 39 there is arranged an insulating plate 51 which closes the opening 53 in the housing cover and with which a slide button protruding through the opening 53 for manual operation of the switch is formed in one piece. The two Kippspannwerkglxeder 4l and 43 are articulated to each other by a pin 57 and the link 4l is also articulated by means of a pin 59 on the detachable arm 49. The link 43 is articulated to the switching arm 31 by a pin Sj. The springs 45 and 47 are mounted under tension between the pin and the outer end of the actuating lever 39. The switch can be opened by hand by moving the slide button 55 counterclockwise into an off position, whereby the springs 45 and 47 bring the tilting clamping mechanism 4l, 43 into a bent position and thereby bring about the opening movement of the contact pieces 29 of all three switch poles, such as known per se.

By moving the slide button 55 in the opposite direction

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the switch is from the off position to an on position can be closed by hand, with the springs 45 and 47 being the tilting mechanism 41, 43 stretch and thereby the contact pieces 29 all move three switch poles into their closed position, as is also known per se «

The locking and release device 15 is used to automatically release the lever 49 and consequently to open it of the contact pieces of all switch poles, if at one or at all Poles of the switch an overcurrent of certain magnitude occurs *

The circuit leads at each switch pole from a connection 63 through the contact piece 23, the contact pieces 21 and 27, the movable contact piece 29, a flexible conductor 65, a conductor 67 and a trip conductor 69 to one Terminal 71β on the other side of the switch, the release conductor 69 i3t fastened with one end by means of a screw 73 to the conductor 67 and lies between with its other end a support plate 75 and the connector 71 to which it is fastened by means of a screw 77.

The locking and release device 15 arranged in the switch housing 5 has an insulating housing with a lower part 79 and a cover 81 which is detachably attached to the lower part 79

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is attached. The device 15 also includes a Locking mechanism, which is fastened outside the housing 79, 81 on the lower housing part 79, and release elements, which normally hold the locking mechanism in the locking position and which the locking mechanism release and let jump into an unlocked position if an overcurrent occurs at one of the switch poles or a fault current of a certain magnitude occurs, which is detected by the triggering devices. The trigger organs the locking and release device 15 are arranged within the housing 79 «31, but with the exception of the Trigger bar 83 is neither shown nor described below, since they themselves do not belong to the invention.

As can be seen in particular from FIGS. 2 to 5, the locking mechanism according to the invention has an unlocking lever 153 and a locking lever 155, which are pivotably mounted about mutually parallel axes in an approximately U-shaped frame 157, which in turn is attached to the Housing lower part 79 is attached. The release lever is rotatably mounted on a pin 161 which is on a Page 157a of the frame 157 is mounted. The locking lever 155 is rotatably mounted on a pin 168 which on both sides 157a and 157b of the frame 157 is mounted.

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The pin I6l protrudes through holes in each other parallel approaches of a substantially U-shaped part of the unlocking lever. 153 are formed, the pin 168 protrudes through bores which are formed in legs of the locking lever 155 which are essentially parallel to one another. On the pin 168 there is a torsion spring 171, one end of which is on the web of the U-shaped part 159 of the unlocking hebeis 153 is supported so that the unlocking lever 153, as can be seen from Fig. 3, counterclockwise relative to the locking lever 155 is pushed into a © locking position. The other end of the torsion spring 171 is supported on one Web between the legs of the locking lever 155 so that it is also counterclockwise according to FIG. 3 relative to the releasable lever 49 of the switching mechanism in the locking position is pushed »The movement of the locking lever in the locking direction is controlled by a Projection 79b (FIG. 4) in the lower housing part 79, which serves as a stop for one of the two legs of the locking lever 155. At its distance from the axis of rotation 161 The unlocking lever 153 has a flange located at the end, which is connected to a flange through an opening I67 in the lower housing part 79 projecting part of the release rod 83 (Pig, 3) cooperates · This part of the release rod 83 is with a Notch I65, in which the flange 163 normally engages, so that the unlocking movement of the unlocking

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Yo

hebeis 155 is prevented.

In their locking positions, which are drawn in full lines in Pig · 3, the unlocking lever act and the locking lever 155 with rolling friction (im As opposed to sliding friction). The connection between These two levers are made by a rotatable part 175 which is carried by the release lever 153 and cooperates with part of the lower edge of the locking lever. This rotatable part 175, which according to FIGS Pig, 2, 4 and 5 arranged between the parallel legs of the approximately U-shaped part 159 of the release lever 153 is, can be a pivot rotatably mounted in the legs of the part 159 or is preferably a roller that can be rotated on is mounted on a pin attached to the two legs »

The full lines in Pig, 3 show the parts of the locking mechanism in their locking positions, in which it cooperates through the release rod 83, the notch 165 of which with the Plansch I63 of the release lever I53, and are locked by the rotatable part 175 on the unlocking lever, whereby the unlocking movement of the locking hebeis 155 is blocked. If the circuit breaker is reset, the free end of the disengageable arm 49 engages - although this not shown in Pig, 3, under the transverse flange of the

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Locking lever and transmits an unlocking force to this (due to springs 45 and 47), the greater Is the locking preload on the locking lever and the unlocking lever is and from the locking lever on the rolling Friction having contact point on the release lever is transmitted.

In the clockwise triggering movement according to FIG. 3 the trigger rod 83, which in a certain overload condition by the triggering means, not shown in is caused in a known manner, the flange comes free from the notch I65, so that the release lever Unlocking force exerted becomes effective. The locking lever 155 thus rotates the unlocking lever clockwise via the rotatable part 175 and moves itself into the unlocking position, which is indicated in Fig. 3 with dashed lines "This releases the disengageable arm 49"

As can be seen, the locking mechanism has two levers 153 and 155 which are rotatable about mutually parallel axes and cooperate with each other with rolling friction «Therefore, the locking mechanism contains a minimum number moving parts that interact with each other with minimal friction

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interact · This enables the release lever and the locking lever can be relatively short, which enables a compact design »As can also be seen from FIG is, the distance between the axis of rotation 169 of the release lever and the contact point 163, 165 is between the release lever and the release rod greater than the distance between the axis of rotation of the locking lever and the point of contact between the locking lever 155 and the release arm 49 · It can also be seen that the Point of contact between the rotatable part 175 and the locking lever between the axis of rotation I61 of the unlocking lever and the point of contact between the latter and the Release rod is that further the axis of rotation 168 of the locking lever a distance from the contact point of the latter having the rotatable part 175, which is greater than the distance from the point of contact between the locking lever 155 and the releasable part 49, and that finally part 49 cooperates with a part of the locking lever, i.e. with the transverse flange of the locking lever, which is essentially runs parallel to the axis of rotation I68 of the locking lever · This arrangement results in a considerable mechanical advantage that also contributes to the compact design.

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Claims (5)

Claims \. 1, overcurrent circuit breaker with a switching mechanism containing a releasable actuator, with a locking mechanism for locking the switching mechanism against the efforts of the switching mechanism to automatically open the switch, and with a tripping mechanism for releasing the switching mechanism when an overcurrent of a predeterminable size occurs, the tripping mechanism having a release rod and wherein the locking mechanism has a locking lever which is movable relative to the actuating member into a locking and an unlocking position, and an unlocking lever which cooperates with the release rod and is movable relative to the locking lever into a locking and an unlocking position, characterized in that that the locking lever (155) and the unlocking lever (153) are rotatably mounted about mutually parallel axes (168, 16l), in their locking positions with rolling friction mi t cooperate and stand under them in their locking positions urging bias that further the actuating member (49) in its locked position exerts a triggering force on the locking lever, which is greater than the bias - 13 - 4098 4.1 / 0724 force on the locking lever and the unlocking lever is and is transferred from the locking lever to the unlocking lever, and that the trigger rod the unlocking ---.- lever to prevent the release process normally locked due to the release force and the release lever releases when the above-mentioned overcurrent occurs. 2. Sehalter according to claim 1, characterized in that the unlocking lever (153) carries a rotatable part (175) which cooperates with an edge of the locking lever (155) so that between the locking lever and the unlocking lever there is rolling friction, 3. Switch according to claim 2, characterized in that the rotatable part (175) a rotatable on the release lever (153) arranged pin is. 4. Switch according to claim 2, characterized in that the rotatable part (175) is a roller which is rotatable on a the pin attached to the release lever (153) is mounted, 5. Switch according to one of claims 1 to 4, characterized characterized in that the distance between the axis of rotation (l6l) of the release lever (153) and the point of contact (I63, I65) between the release lever and the release rod (83) - 14 409841/0724 greater than the distance between the axis of rotation (168) of the locking lever (155) and the point of contact between the locking lever and the releasable actuating member ( ¹ IJJ). 6, switch according to one of claims 1 to 5, characterized characterized in that the point of contact between the locking lever (155) and the release lever (153) on one between the axis of rotation (l6l) of the release lever and the The point of contact (163, 164) between the release lever and the release bar is located. 7o switch according to one of claims 1 to 6, characterized characterized in that the axis of rotation (168) of the locking lever (155) is a greater distance from the point of contact between the locking lever and the unlocking lever (153) as the point of contact between the locking lever and the has disengageable actuating member (49) « 8, switch according to one of claims 1 to 7, characterized characterized in that the locking lever (155) has a flange which is approximately parallel to the axis of rotation (168) of the Locking lever runs, and that the disengageable actuator (49) can be locked by this splash is. - 15 - A D9841 / 0724 4k Blank page