DE823755C - Auto switch - Google Patents

Description

(WiGBL p. 175)

ISSUED DECEMBER 6, 1951

W 2i58VIIIb / 2ic

Auto switch

This invention relates to circuit breakers and, more particularly, to circuit breakers for surveillance of light and power circuits of lower power.

The main object of the invention is to provide a circuit breaker with improved thermal and magnetic trip response, wherein the magnetic response mechanism is entirely is assisted by the thermal response mechanism.

For a better understanding of the invention, both in its structure and in its mode of operation, should this on the basis of the description below with reference to the drawings, for example illustrated preferred embodiments are explained in more detail.

Fig. Ι is a side view, partly in section, a circuit breaker according to the invention;

Fig. 2 is a partial side view showing a modification of the trip device;

Figure 3 is a partial side view with another Modification of the release mechanism;

Fig. 4 is a section essentially along the line IV-IV of Fig. I, seen in the direction of the arrow.

The circuit breaker shown in Fig. Ι of the drawing consists of the housing 11 and a cover plate 13, both of molded insulating material are made, a fixed contact member 15, a movable contact member 17, an actuating mechanism 19 and a release device 21.

The fixed contact 15 is rigidly attached to the inner end of an angular clamping member 23, which sits in an angled slot 25 in the press housing 11. The outer end of the clip 23 is equipped with connectors 27 to the terminal 23 to an electrical circuit associate. At the opposite end of the housing ι r a terminal 29 is arranged, which on its inner end carries the release mechanism to be described later and that with a connecting piece 31 is provided at its outer end to the terminal with an electrical circuit connect to.

The movable contact 17 is rigidly connected to the free end of a U-shaped switch lever 37, its legs 57 in recesses in the legs 55 of a U-shaped actuating lever 35 supports. The operating lever 35 is rotatably mounted in a pivot 47, which in a corresponding opening in the housing and a matching opening in the cover 13 is attached. A working spring 39 is under tension between the shift lever 37 and a releasable carrier 33, which is rotatable on the pin 41 in associated openings in the housing 11 and the cover 13 is attached, arranged. The spacer rings 43 are provided to the carrier 33 in keep a suitable distance from the walls of the housing and the cover.

The actuation lever 35 is equipped with an actuation handle 49 which forms a unit therewith and protrudes through an opening 51 into the ao housing 11. The actuating lever is also included equipped with an arched member 53 forming a unit, which together with the housing 11 essentially the opening 51 the handle 49 closes in every position. The switch lever 37 is via a flexible line 59 electrically connected to one end of a bimetal element 45 which is part of the trip device 21 forms and which in a suitable manner, preferably by welding, with the inner End of the terminal 29 is connected.

The switch lever 37 is used to manually open and close the contacts via the handle 49 actuated. The clockwise movement of the handle .from that with the fully extended Lines drawn position carries the legs 57 of the switch arm 37 on the left side of the direction of action of the working spring 39, which then the The switch lever is biased to the "open" position and the movement of the switch lever to the "Open" position effected by means of a snap action. The operating mechanism and switch lever are shown in the manually opened position by dash-dotted lines in FIG.

The contacts are closed manually by reversing the handle. Movement of the handle 49 counterclockwise from the dot-dash position (Fig. I) in the position shown with full lines moves the legs 57 of the Switch arm 37 to the right of the direction of action of the spring 39, which thereupon seeks to close the contacts by a snap action.

An arc extinguisher 60 is provided for quickly extinguishing the arc if the Circuit is interrupted. The extinguisher can be of any suitable design. Of the The extinguisher shown consists of a series of slotted plates into which the arc is drawn and is deleted.

The circuit breaker can instantaneously depending on overload above a predetermined value or from a short circuit and with a delay in the event of a lower overload by means of the tripping mechanism 21 are put into action. The action of the trigger mechanism 21 frees the carrier 33, whereupon the tear-off spring moves the carrier clockwise and thus the direction of action of the Tear-off spring 39 on the right side of the center line of the switch arm 37 advances. Strive for that the spring 39 to bring the switch lever into the "open" position with a snap movement. the Movement of the carrier 33 is brought to a standstill by striking an extension 61 of the housing 11 brought.

The trigger mechanism 21 comprises the bimetal element 45, which is connected by means of the flexible conductor 59 to the switch lever 37, an electromagnet consisting of a U-shaped core 63 and a movable armature 65, a pawl element 67 and a resilient member 69, which is fixed to the Bimetal element for the purpose of holding the armature 65 is connected. The clamp 29 is attached to the wall end of the housing 11 by means of a screw 71 and the bimetal element 45 is secured by suitable means, e.g. B. by welding, rigidly connected to the inner upper end of the clamp 29. Immediately below the point of contact of the bimetal element with the clamp 29, the bimetal element is bent inwards at a right angle, then runs downwards for a short distance substantially parallel to the clamp 29 to form a surface to which the resilient member 69 is attached. The resilient member or spring 69 is connected to the bimetal element by means of a rivet 73. Under the rivet 73 the bimetal The lower end of the spring 69 extends downwardly at an acute angle to the terminal 29 forms a loop as at 75 (FIG. 1) is shown, while the upwardly bent end of the loop an insulated handle ¹ J ¹ J carries to isolate the free end of the bimetal element 45 from the free end of the spring 69.

The U-shaped core 63 sits like a saddle on the bimetal element 45 and is with this, preferably connected by welding. The armature 65 is opposite the core 63 with the spring 69 by means a rivet 81, which also serves to fasten the latch element 67 with the spring 69.

Normally, the pawl element 67 engages the carrier 33 and restrains it in the actuated position, as shown in FIG. 1. When an overcurrent occurs below a predetermined value of z. B. ten times the rated current, the bimetal element 45 experiences a deflection, its free end is moved to the right (Fig. 1). The bimetallic element 45 moves the spring 69 in the same direction through the insulating button yy and causes the carrier 33 to be released by the latch element 67, whereupon the actuating mechanism automatically opens the contacts in the manner described above.

Before the contacts can be closed after an automatically effected opening, it is required to readjust the mechanism and re-latch. This is done by a

movement of the handle 49 clockwise to the fully open position, during which movement the leg 55 of the operating lever 35 engages a pin 83 on the carrier 33 and the Carrier pivots counterclockwise about its pivot 41. Towards the end of his Counterclockwise movement slides the free end of the beam 33 onto the Pawl element 67 with slight deflection of the spring 69. The switching arm is then in the above-described way by moving the handle 49 counterclockwise in the closed position for closing the contacts 15, 17 is moved.

When a strong overcurrent or short circuit occurs, for example a tenfold Rated current or higher, the current flowing through the bimetal element 45 sufficiently excites the core Measures to cause immediate attraction and actuation of the armature 65, the Carrier 33 is released and a spontaneous opening of the contacts takes place.

The invention provides a circuit breaker consisting of a few parts, which is simple in construction and at low cost to manufacture, with an improved Tripping device in which all elements at a single point on one of the clamps of the Trigger are stored, the electromagnetic release device as a whole on Bimetal release element is arranged. With this construction, the security is the magnetic Triggering by the adjustment of the thermal triggering element not influenced. The bimetal element can be made more rigid without influencing the required for re-latching Effort, whereby a more inevitable heat release effect is achieved. A Another advantage of the invention is that the magnetic air gap is independent of the changes the temperature of the environment remains constant.

In addition, means are provided with the help of the release device to change the Release time of the time delay release device can be adjusted. The adjustment device consists of a screw 85 screwed into the upper end of the clamp 29 and its rounded head rests against a concave recess in the housing 11. An opening 87 in the housing permits the introduction of a suitable tool to rotate the screw 85 so that the release device can be adjusted without removing the cover 13. This opening can be closed to prevent foreign objects from entering.

In the embodiment of the invention shown in Fig. 2 of the drawings is a straight one Bimetal strip 89 attached, preferably by welding, to the inner end of a clamp 91, which in turn is fastened to the housing by means of a screw 93. A generally designated 95 The electromagnet is firmly connected to the bimetal element 89. The electromagnet 95 consists of a U-shaped core 97 and a -5 bracket 99, both of which, preferably by welding, are connected to the bimetallic element 89, and from a movable armature 101 which is pivotable on the Bracket 99 is applied. The air gap of the magnet allows compression spring 103 to be in the non-attracted position biased against a limit stop consisting of a part 105 and the Bracket 99 is applied. The air gap of the magnet can be changed by bending part 105 of the magnet bracket , whereby the position of the stop for the anchor is shifted. In the not In the tightened position, the armature 101 acts as a pawl, by means of which the releasable carrier 33 can be releasably held in readiness position.

If the bimetal element 89 (Fig. 2) by overcurrents of a certain value of, for example is heated by a certain amount ten times the nominal current, experiences the free End of the bimetallic element together with the whole magnet 95 a deflection from the actuating device away, whereby the carrier 33 is released and an automatic opening of the contacts is effected. When excited by overcurrents over an amount of, for example, ten times the nominal current or as a result of short circuits the core 97 attracts the armature 101 and causes the self-switch to trip spontaneously.

After the contacts have opened automatically the mechanism can be readjusted and the contacts can be adjusted in the manner described above getting closed.

In the embodiment of FIG. 3, the electromagnet is referred to in summary with 107 and of a slightly different shape, although it is supported entirely on the bimetallic element 89 is. A U-shaped core 109 is suitably attached to the bimetal element, preferably by welding attached. An armature in, around one in the legs of the U-shaped magnetic core 109 mounted pivot pin 113 is pivotable, carries a pawl element 115, which is normally on the releasable Attacks carrier 33 and holds it in the working position. The anchor 111 is through a Spring 117 against a fixed stop 119 forward no curious which latter extends from one leg of the core 109 inward and so one creates invariable magnetic air gap. A screw 121 that goes into the core 109 and the Bimetal element 89 is screwed in, is provided to change the tension of armature spring 117, whereby a change is required for the momentary release of the self-switch Minimum overcurrent is enabled.

The operation of the embodiment of the invention of Figure 3 is essentially the same like that of the embodiment of Fig. 2. When an overcurrent below a certain value occurs in the circuit of the circuit breaker, the bimetal element 89 is heated, whereupon after heating be the same by a certain amount

free end is deflected to the right, whereby the electromagnet and thus at the same time the Armature 111 is moved with it. This movement brings the pawl member 115 out of engagement with the releasable member 33 and causes the opening of the contacts.

When a large overcurrent occurs over a certain amount, the electromagnet 107 j (F'g · 3) excites and attracts the armature in so that the member 33 is disengaged and an immediate opening of the contacts is effected.

The mechanism and the contacts are reset after each automatic opening process in the embodiment of the invention described in connection with the embodiment of the invention shown in FIG Way closed.

From the foregoing it can be seen that the invention provides an improved circuit breaker of simple construction and low manufacturing cost is created in which all elements the trip device including the electromagnetic trip mechanism and the movable Armature are mounted on the bimetal release element. With this construction, the The tripping time of the delay device of the self-switch on the bimetal element can be adjusted in order to without changing the magnetic air gap, changing the spontaneous tripping time of the self-switch.

Claims (11)

PATENT CLAIMS: 1. Automatic switch with mutually movable contacts and a switching mechanism for the opening of these contacts and with current-dependent elements to trigger the To effect switching mechanism depending on overcurrents, characterized in that that the current-dependent member consists of a bimetal element, which is fixed with one end one of the circuit breaker terminals is connected and a magnetic one attached to the bimetal Member with a second magnetic member is made by the first-mentioned magnetic member depending on overcurrents can be attracted beyond a predetermined value, that also the current-dependent Member has a spring body which is attached to said bimetallic element in order to to support the second magnetic member, the bimetal element by actuating the Spring body depending on overcurrents below a predetermined value the release of the releasable member causes and the second magnetic member depending on overcurrents is attracted above the aforementioned specific value in order to put the spring body into action and so the spontaneous Ausj solution of the switching mechanism. j 2. circuit breaker according to claim 1, characterized in that one end of the j? Spring body is firmly connected to the bimetal element and that its free end with the free end of the Bimetallic element cooperates. 3. Automatic switch according to claim 1 or 2, characterized in that the bimetal element is deflected when heated by a certain amount by overcurrents, so that the spring body experiences a bend, whereby the switching mechanism is released. 4. circuit breaker according to claim 1, 2 or 3, characterized in that the on one Current flow responsive magnetic release device consisting of a core and an armature consists, with one of these two parts fixed to the bimetallic element and the other to the Spring body is connected and wherein the core and the armature by one through the bimetal element flowing current are excited and in this state when excited by overcurrents, which are above a certain amount, deflect the spring body spontaneously and cause the switching mechanism to be released. 5. Automatic switch according to one of the preceding claims, characterized in that a latch device on the spring body blocks the switching mechanism in normal operation. 6. circuit breaker according to claim 1, characterized in that the responsive to current flow Release device consists only of a bimetal element and an electromagnet, which the latter is formed from a core and a movable armature, both on Bimetal element are arranged. 7. Automatic switch according to claim 6, characterized in that the movable armature is pivotably mounted on the core. 8. Automatic switch according to claim 6 or 7, characterized in that the movable Armature is in frictional engagement with the releasable device. 9. Automatic switch according to one of the preceding claims, characterized in that the triggering device that responds to the flow of current is designed in such a way that it is caused by overcurrents, which are above a certain amount for the momentary triggering of the switching mechanism can be actuated without the bimetallic element being moved significantly. 10. Automatic switch according to one of the preceding claims, characterized in that the bimetal element through the current of the circuit of the switch and the magnetic Limbs is heated and the magnetic elements are excited by the current flowing through the bimetal element. 11. Circuit breaker according to one of the preceding claims, characterized by means to adjust the setting of the bimetal element without changing the magnetic one Air gap between the magnetic elements. 1 sheet of drawings Q 2470 11