DE7402760U - Circuit breaker trip actuator - Google Patents

Description

Patent attorney
4 Düsseldorf 1 'Schadowplatz

44.169
7405 gm

Düsseldorf, Jan. 25, 1974

Westinghouse Electric Corporation
Pittsburgh, Pa. . V. St. A.

Trip actuator for circuit * breaker

The present invention relates generally to magnetic Triggering serving actuators and in particular such an actuating member for circuit breakers or the like. like ..

From the US Patents 3,530,414, 3,544 9 31 and 3544 9 32, it is known to cause automatic Stromkrelsunterbrecher magnetic in the open state with the help trigger actuators, _f using a magnet armature structure, the als'Auslöseelement by the Hagnetfluß of permanent magnets held in a non-releasing position and released depending on a trigger pulse for its triggering movement, the trigger pulse being fed to the Z-triggering actuator from an external source such as a circuit that detects an overload and fault current.

The object of the present invention is to provide a magnetic trip actuator to create that has a comparatively simple structure and is therefore suitable for easy assembly, moreover is equipped with a release anchor of lesser hatred.

Telephone (0811) 33 0866

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To accomplish this task is a magnetic trip actuator in or for a circuit breaker, with a locking device that the circuit breaker when actuated by the tripping actuator for automatic Contact opening actuation releases, the release actuator a magnetic core movable therein between an initial position and a locking actuation pitch mounted magnetic anchor pin as well as permanent magnets arranged in this way and coil arrangement arranged in this way has, that if the anchor is then in its initial position located, on the one hand, magnetic flux from the permanent magnets over Areas of the magnetic core and the anchor pin acts so that the anchor pin is held in its initial position, and on the other hand Excitation of the coil arrangement influences the magnetic flux in such a way that the armature pin moves from the starting position into the actuated sealing position can move, characterized according to the invention, that the magnetic anchor pin is designed as a tubular body and this in detii core on a non-magnetic Material existing stationary pin body is axially slidably mounted.

The invention is explained below using an exemplary embodiment in connection with the associated drawing. In the Drawing «own;

Pig. 1

Fig. 2 Pig, 3

U% partially broken away representation a side view of the center pole unit of a three-pole circuit breaker, which is equipped with a trip actuator according to the invention;

a partial end view of the release actuator member;

a cross section through Fig, III - Uli and

2 along the line

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FIG. 4 shows a cross section through FIG. 3 along the line

IV - IV with the armature in its actuated or tripped position.

The circuit tester structure of Figure 1 is not an immediate one Part of the invention, so that only a comparatively brief explanation is given here. The circuit breaker 5 has an insulating housing 7, which is internally divided into three adjacent insulating chambers for receiving three poles

, Retrieved is divided, each with a line clamp 9, a conductor 11, a conductor 13, a generally designated 15 movable contact arrangement, a conductor 17 and a load terminal 19 expand. Attached to the movable contact arrangement S5 Contacts 21, 23 and 25 work together with stationary contacts 27, 22 and 29 »to bridge the conductors 13 and 17, When the circuit breaker is closed. A flexible one Conductor 31 electrically connects conductor 13 to a movable contact arm 33, which forms arcing contact 25 wearing. Identify the circuit breaker is opened; so separates the arcing contact 25 moves away from the stationary arcing contact Contact 29 as the last, so that an arc "is drawn, which in an arc-extinguishing system generally designated 35

) facility and is deleted there. The movable contact arrangement 15 is attached to a contact carrier 37 which is pivotably mounted by means of a pivot pin 39-

A lower toggle bracket 41 is pivotably connected at one end to the contact carrier 37 via a pivot pin 43, while the other end is covered with an upper toggle strap 45 is connected via a pivot pin 47. over dead center tiltable tension springs 49 are with their opposite ends on the pivot pin 47 of the toggle straps and the yoke area an operating lever 51 connected. The operating lever 51 is substantially in the shape of an inverted U and is pivotable at the free ends of its legs by means of two pins 53

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stored. The upper toggle strap 45 is pivotable with a releasable trigger element 95 by means of a pivot pin 57 tied together. The releasable release element 55 is pivotably mounted at one end by means of a pivot pin 59, while at its other end with a generally designated 61 Locking device cooperates. An operating handle, generally designated 63, is connected to the upper end of the Actuating lever 51 is connected and has a toggle 65 which protrudes through an opening 67 in the front of the housing 7, to enable manual operation of the circuit breaker. The operating handle 63 also includes a jacket 71, which opens the opening 67 in all positions of the operating handle 63 essentially concludes.

The circuit breaker is shown in FIG. 1 in its open position, with the releasable trigger element 55 in a non-releasing position by means of the locking device 61 is locked. To close the circuit breaker, toggle 65 is turned clockwise from the "off" position moved to an "on" position to operate the operating lever 51 to pivot clockwise about the pins 53. During this movement, the tension springs 49 are moved beyond the dead center, so that the toggle tabs 41, 45 straighten up and thus the movable contact carrier 47 of the central pole unit in a clockwise direction is rotated about the pivot pin 39 and the movable contact arrangement 15 reaches its closed contact position. Since the Contact carrier 37 of all three pole units via a rigid insulating Anchor pin 75 are coupled to one another, a closure of the central pole unit leads to a closure at the same time the contact arrangements of the other two pole units. To the Circuit breaker to be opened manually, will be operated * - handle 6 3 counterclockwise in the "off" position of Fig. moved so that the tension springs 49 move back over the dead center and the toggle tabs 41, 45 collapse and while the three contact carriers 47 counterclockwise around the

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Pivot pin 39 in the open contact position of FIG. 1 . be tilted.

The free end of the releasable trigger element 55 is below a roller body 79 locked on a first locking member 81 is attached, which is pivotally mounted on a fixed pivot pin 83. I'm a second locking link 85, which is pivotable on two axially spaced apart arranged pins 87 (of which only one can be seen in Fig. 1) is mounted, has two with roller bodies 89 | on the first locking member 81 cooperating arms which; hold the first locking member 81 in a locked position. A third locking member 93 is about an axis which normal to correspond to the plane of the paper. 1 extends and is denoted by 95, stored. The first locking member 81 has a window that has a protrusion on the second locking member 85 receives so that locking member 85 lock in the position shown in FIG.

A trip actuator, generally designated 99, with improved magnetic flux transfer is provided to cause the circuit breaker to trip upon the occurrence of an overload current in one of the three pole units of the circuit breaker. The trip actuator 99 has an anchor pin 101 (Figs. 2-4) with a protrusion 103 and a shoulder surface 105. When the anchor pin 101 is released, as explained below, a spring 165 moves the anchor from its initial position of FIG 4. During this movement, the projection 103 moves through an opening in the third locking member 93 (FIG. 1), and the shoulder surface 105 engages the third locking member 93 in a counterclockwise direction by the Axis 95 to pivot. When the circuit breaker is in the closed position and the toggle lugs 41, 45 are erected, the movement of the third locking member 9 3 into the unlocking position releases the locking device 61 so as to free the releasable release element 55.

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. sugeben on what dia prestressed ode? "loaded" extension springs 49 let the gag spawns 41, 45 ■ us flap and thus the Trigger circuit breaker.

The improved trip actuator 99 (Figs. 2-4) has one U-shaped core 133 made of non-magnetic material such as iron. End straps 135 of the legs of the core 133 protrude through openings in a “pegboard 137 made of“ soft ”“ soft material like biscuit. In the support plate 137 are two screws 141 (Fig. A and 4)

/ J screwed in to connect the base plate 137 and the core 133 together in a closed magnetic core structure. A pin body 145 made of a non-magnetic material such as brass is provided with a section 147 of reduced diameter which extends through an opening in a magnetic piece 149 made of soft magnetic material such as bisen and an opening in the end part of the core 133. The pin body 145 is provided with a rivet 151 by which it and the pole piece 149 are connected to the core 133 , a shoulder 153 on the pin body 145 being tensioned against the pole piece 149 when the pin is provided with the rivet 151. A coil assembly 157 having a coil 159 and an insulating liner 161 attached thereto is disposed over the pole piece 149.

O The anchor pin 101 _f the group consisting of soft magnetic · "Material as Bisen is made, has a collar 163 and transmits the helically formed spring 165, the" wipe the coil assembly 157 and the collar is arranged 163, extended to the anchor pin 101 in sifting on his or to preload the actuation position. The anchor pin 101 is tubular and supported by the non-magnetic pin body 145 so that it can slide axially on it. The anchor pin 101 has a reduced diameter band section. which extends through an opening 169 in the magnetic support plate 137. On opposite sides of the anchor pin 101, two permanent magnets 171, 173 are arranged in the vicinity of the corresponding legs of the magnetic core 133, which are held on the legs, for example by their magnetic forces.

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In every pole unit of the circuit breaker there is a current " , transducer 175 arranged so that it surrounds the conductor 11 and thus can detect an overload current flowing therein, in order to then, in Depending on such an overload current, a static trip circuit to actuate on a Sahaltplatte 177 and thus the coil assembly 157 of the magnetic trip actuator to excite, so that the anchor pin 101 in the manner to be described in more detail below, its Auslöaebewigung executes.

3 shows the armature pin 101 of the magnetic tripping actuator 99 in its initial or non-tripping position, in which it is held away from the action of the spring 165 by the magnetic flux, i.e. the two permanent magnets 171 provide 173 and the magnetic two latches acts, of which one of the permanent magnet 171 to the adjacent '\ leg and the yoke of the core 133, the pole piece 149, the anchor pin 101, the collar 163 of the anchor pin 101, the gap between the The collar 163 and the permanent magnet 171 runs back to the latter and the other of the permanent magnet 173 extends over the adjacent leg and yoke of the magnetic core 133, the magnetic pole piece 149, the anchor pin 101, the collar 163 of the anchor pin 101 and the air gap between the Bund 163 and

7 the permanent magnet 163 runs back to the permanent magnet 173. The magnetic flux from the permanent magnets 171, 173 is strong enough to put san anchor pin 101 in his / her home or not out to hold releasing position in which he opposed to the pole piece 149 the action of the helical spring 165 strikes the anchor pin 101 in the direction of the actuation or release position pretensioned.

When the coil assembly 157 after an overload current condition has occurred, As mentioned above, is excited by a direct current, the magnetic resistance becomes that mentioned above Magnetic holding circuits increased to a sufficient extent to put the spring 165 in the position su, the holding force of the permanent magnets 171 and 173 to overcome and so the anchor 1C in his

. 4 illustrated actuation or release position, see below move, the movement being limited by the attack of the collar 163 of the anchor pin 101 on the magnetic support plate 137 will.

After shifting dna anchor pins 101 in the Aualöse position of the circuit breaker mechanism, our is unlocked · "ao dab of Stronkreisunterbrecher is triggered in the manner explained above. When the armature pin 101 is in the release position ( the magnetic flux from the permanent magnets 171 acts via the adjacent leg of the magnetic core 133, the magnetic support plate 137, the radial air gap at the opening 169, the armature pin 101 and the air gap between the collar 163 of the anchor pin 101 and the permanent magnet 171 back on the permanent magnet 171, while the FIuB of the permanent magnet 173 over the lower leg (Fig. 3) of the magnetic core 133, the magnetic support plate 137, the radial air gap at the opening 169, the armature pin 101 and the air gap between the collar 16 3 of the armature pin 101 and the permanent magnet 173 becomes effective back to the permanent magnet 173. The armature 101 remains in the actuation or release position of FIG of the toggle 65 (FIG. 1) is reset and locked again, the casing 71 of the operating handle 6 1, a reset member 125 pivots in a clockwise direction, so that a portion 129 engages the reset element to the projection 103 of the anchor pin 101 and the anchor pin 101 3 moves back to its initial position of FIG.. When the armature pin 101 reaches the starting position, the magnetic flux of the permanent magnets 171, 173 is shifted back from the right-hand area of the magnetic circuits according to FIG. 4 into the magnetic holding circuits which run over the yoke part of the magnetic core 133, so that the armature pin 101 is held in its initial position against the biasing action of the spring 165 until the coil assembly 157 is again energized in order to bring about a further triggering process.

With reference to Fig. 3 it can be seen that during assembly there «pole piece 149 and the coil arrangement 157 initially at their intended Space can be brought into the U-shaped core 133, whereupon the assembly of the spring 165, the anchor pin 101 and the non-magnetic one Pin body 145 follows. That through the opening in the ■ Yoke of the core 133 protruding end of the pin body 145 is then riveted to fix the parts in the assumed position. Then the permanent magnets 171, 173 are in their intended Positioned, and the magnetic support plate 137 is with their , Openings pushed over the end regions 135 of the legs, whereupon the screws 141 are screwed into the magnetic plate 137 the entire structure, as shown in Fig. 2-4, su secure.

The construction of the magnetic tripping control element 99 leads to a relatively simple structure, which enables easy assembly and provides an anchor element with a reduced mass, so that it is less likely to be released unintentionally under the effect of mechanical shock fluxes or as a result of stray magnetic fields . The acceleration of the connecting element can also be increased as a result of its reduced mass. Dan AnkeretoMtnt which is guided rectilinearly in {essentially by the nichtmagnutischen supporting pin body 145, has a good erection in a ratio below the pole piece 149 _f so that a good level Connection '£ flat between the anchor member and the Poletück in the output ?? 'The location of the anchor event results. The creation of the wide magnetic circuit via the etüteplatte 137 ensures a greater speed in the flux displacement and therefore a greater switching speed during disengagement, with the advantage of working with an anchor element of relatively low mass, so that a weaker preload spring is used the bias of the armature element can be used in the direction of the I release position, which also enables the use of smaller permanent magnets in the structure *. If-

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the same as the macmetieoh "Auelöee participation link here specifically in Connection to a camouflaged or pre-welded housing Circuit breaker was explained, so it understands «IQh yes, dft« the magnetic Auelöae actuator for other devices and other types of circuit breakers or switching devices could be used.

Protection claims;

Claims (1)

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III I I fc * I ι • · t t I « I · I I I I I 1 till I · - 11 - Protective cap ruche> 1. Magnetic power supply link in or for one Circuit breaker, with a locking device, the circuit breaker when actuated by the Au · - ' lüee set actuator for automatic contact opening actuation releases, the Auelöae actuating member a magnetizable Core rail; one therein movably mounted between an initial position and a locking actuation position magnetic anchor pin and so arranged therein Has permanent magnets and a coil arrangement arranged in such a way that when the armature "is in its initial position" on the one hand magnetic flux from the permanent magnets over areas of the magnetic core and the anchor pin acts so that the Armature pin is held in its initial position, and on the other hand, excitation of the coil arrangement influences the magnetic flux so that the anchor pin can move from the starting position into the locking actuated position, characterized in that that the magnetic anchor pin (101) as tubular Body formed and this in the core (133) on a non-magnetic material consisting of itationary The pin body (145) is mounted so that it can slide axially Release actuator according to Claim 1, characterized in that the permanent magnets (171, 173) and the coils arrangement (157) spatially from the magnetic anchor pin (101) are separated and held stationary in the magnetizable core (133). id in 3, Auslöee actuator according to claim 1 or 2, with a magnetic pole piece, characterized in that the stationary pin body (145) at its one end to part of the Core (133) is attached and is provided with a shoulder (153) arranged at an axial distance from its two ends, «5ΓΓ - 12 - that the pole piece (149) on the stationary pin body (145) seated between the shoulder (153) and the part of the core (133) is clamped and that the magnetic anchor pin (101) slidably mounted on the part of the pen body (145) that extends between the shoulder (153) and the other end of the Body (145) is located. 4. tripping actuator according to claim 1 or 2 or 3, wherein the magnetizable core has a substantially U-shaped body made of magnetically soft material and a support plate, which is connected to the free ends of the legs of the substantially U-shaped body and is located between them extends, characterized in that the support plate (137) is made of soft magnetic "" material and is part of magnetic circuits with the anchor pin (101) and the permanent magnets (171, 173) and that the magnetic flux from the permanent magnets (171, 173) in the starting position of the armature pin (101) onto the anchor pin over the yoke area of the essentially U-shaped body in which the lock is actuated Position of the anchor pin (101) on the other hand over the support plate (137) acts on the anchor. Γ) S ₄ tripping Setätigungeglied according to claim 4, characterized in that _r is provided in the Stützp ^ atte (137) "ine opening through the check extends a Endbereieti of Magnetic anchor pin (101)! And that pin on the armature ( IOD a collar (163) is provided, which is located in the vicinity of the end area of the anchor pin and can be hit against the support plate (137) when the anchor pin is in its locking actuating position. 6. Auslöee actuator according to claim 5, wherein the coil assembly is mounted in the maynetisable core in the vicinity of the yoke of the essentially U-shaped body, characterized in that that the magnetic anchor pin (101) in the direction of ft - 13 - the locking actuating position by means of a helical spring (165) biased 1st, which is on the anchor pin (101) and is compressed between the collar (163) and the coil assembly (157). Trip actuator according to claim 5 or 6, wherein the Circuit breaker has a manually operated control handle for manual opening, closing and resetting of the Circuit breaker, characterized in that the armature pin (101) is assigned a reset element (125), which interacts with the end area of the anchor pins (101) and after the return movement of the manually operated operating handle (63) can be actuated by this so that the armature from the position actuating the lock into its Initial position is reset. KN / jn 5