DE2300746C3 - Device for setting the tripping current on a thermal relay - Google Patents

Description

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The invention relates to a device for setting the tripping current strength on a thermal relay with a transmission device for at least one deformation caused by the tripping current acted upon bimetallic element caused movement on the bolt of a locking device, wherein the transmission device comprises a spring-loaded release lever.

Such a device is known from DT-AS 31 315. Here is the transmission device formed from a pivotably mounted release lever which is attached to a lever arm with a compensation bimetallic element is provided and the other lever arm actuates a pawl. The compensation bimetal element stands over a bolt and a driving sleeve with the tripping current flowing through it Bimetal elements in connection.

The bolt is screwed adjustable inside the driver sleeve and allows through in this way Axial displacement a setting of the tripping current strength.

Another device is from DT-AS 10 37 565 known for setting the tripping current, the transmission device of a rocker and a there is related locking bracket, the axis of which is displaceable with respect to a pawl is. By adjusting the axis of the locking bracket, there is a change in the engagement surface of the locking bracket with the latch causes and thus also a change in the tripping current strength.

These devices are usually used in conjunction with the associated thermal relays as overcurrent releases on a contactor for electrical equipment. In the event of an overload, ie if ίο the tripping current of the overcurrent relay is exceeded, the contactor is activated and the electrical device is disconnected from the power supply. These devices are therefore primarily intended to protect electrical consumers and must therefore work very reliably. So that these overcurrent releases can be used on electrical devices with different power consumption, a device must also be provided which allows the required tripping current to be set. In many cases, however, the setting of the tripping current strength alone is not sufficient; rather, the individual overload capacity of the device concerned must also be taken into account. This means that in addition to the required tripping current strength, the sensitivity of the overcurrent release must also be adapted. In analogy to the term “inertia” of a fuse, “sensitivity” or “response sensitivity” is understood to mean that property that indicates how quickly the fuse or thermal relay responds to an excess of the tripping current, or with what amount of energy the thermal relay uses must be overloaded beyond the response threshold. In many cases, the permissible current strength of electrical devices is linked to the overload capacity. Two assignments are conceivable, with the overload capacity increasing with increasing permissible current strength on the one hand or decreasing on the other hand. Accordingly, the tripping sensitivity of the thermal relay must be adapted to the set tripping current for adequate protection of the electrical devices. This is not guaranteed with the thermal relays known from the prior art and the electrical devices to be protected can therefore be damaged or destroyed, although the prescribed tripping current has been observed.

Accordingly, the invention is based on the object of the device of the type mentioned in such a way to improve that with a change in the tripping current strength and the sensitivity of the Thermal relay is changed.

According to the invention, this object is achieved in that the transmission device with a, through the Bimetallic element actuatable, pivotably mounted control lever and with a pivotably mounted control lever Release lever is equipped that the control lever and the release lever with a variable lever arm in engagement stand and that the lever arm is adjustable together with the advance travel of the bimetal element.

By changing the pre-travel path of the bimetal element, the first of the required Deformation of the bimetal element-dependent tripping current set while the change of the lever arm mainly influences the trigger sensitivity.

A preferred embodiment of the device according to the invention is that the release lever has two arms on either side of his

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Pivot axis are arranged, and that the control lever is arranged and shaped so that an enlargement of the forward travel of the bimetal element is connected to an enlargement of the lever arm. At this Design decreases with increasing tripping current strength, the trigger sensitivity.

It is also preferably provided that the control lift! on a pin of an adjustment lever is pivotably mounted and that the setting lever is pivotable about the pivot axis of the release lever. A particularly simple structure is achieved in this way.

Another preferred embodiment is characterized in that the control lever consists of a rectilinearly movable, pivotable lever sees.

The invention is illustrated below using exemplary embodiments, explained in more detail with reference to the drawing. It shows

F i g. 1 an embodiment in which the trigger sensitivity decreases with the tripping current,

F i g. 2 shows a further embodiment in which, however the tripping sensitivity increases with the tripping current and

F i g. 3 and 4 modified embodiments.

The device according to the invention is equipped with a transmission device that controls the movement a bimetallic element 1 with a variable transmission ratio on a release slide 10 transmits, which under the action of a spring 15 actuates electrical contacts (not shown) when a bolt 16 mounted on the release slide and engaging with a projection 12 is in Moved towards Fi.

As in Fig. 1, the transmission device a release lever 8, the two arms 9 arranged on the left and right of a pivot axis 7 and 11 owns. The bolt 16 is arranged at one end of the arm 11. This release lever 8 consists in Reality from a bimetal strip, which depending on the ambient temperature a certain Can assume curvature and thus plays the role of a compensatory organ.

An adjusting lever 6, which represents the adjusting member of the device, is mounted on a pivot axis, in the embodiment of FIG. 1 coincides with the pivot axis 7 on which the release lever 8 is arranged.

The free end of the setting lever 6 is provided with a pointer 13 which faces a scale 14. A second pivot axis 5 is located between this free end of the setting lever 6 and the pivot axis 7 provided on which a control lever 2, 3, 4 is mounted. This control lever 2, 3, 4 consists of three parts, from which part 2 extends into the vicinity of the bimetal element 1.

This bimetal element 1 deforms depending on the current to be monitored, which flows through it. The bimetal element 1 can interact with the control lever 2, 3, 4 either directly or indirectly via a connecting device which responds to a phase equilibrium of currents flowing through a plurality of bimetal elements.

Another part 3 of the control lever 2, 3, 4 is equipped at its end with a cam 4 which is in contact with the arm 9 of the Auslöschebcls 8. The contact point of the cam 4 on the release lever 8 is at a distance corresponding to a lever arm b from the pivot axis 7.

The method of operation of the device according to the invention will now be explained below:

An increase in the temperature of the bimetal element 1, depending on the current flow, causes a mechanical deformation of the bimetal element 1 in such a way that its distance from the part 2 of the control lever 2, 3, 4, corresponding to the advance path a, is reduced in the direction Fi. When the temperature rises accordingly, the bimetal element 1 rests against part 2 of the control lever 2, 3, 4 and exerts a force on it, which is transmitted from the cam 4 to the release lever 8. As a result, the release lever 8 is pivoted in the direction Fi up to a position in which the bolt 16 releases the release slide 10.

The transmission ratio of the movements of the bimetallic element 1 and the bolt J6 is primarily dependent on the lever arm b.

To set a higher release current, the setting lever 6 is pivoted so that its pointer 13 points to another point on the scale 14 and at the same time the control lever 2, 3, 4 is moved in direction Fi . As a result, the advance path a is increased and the contact point of the cam 4 on the release lever 8 is shifted so that the lever arm b is lengthened.

As a result, a larger path of the cam 4 in the direction of Fj is now required, so by corresponding Pivoting the release lever 8 causes the release slide 10 to be unlocked. This results in, that at the same time as a change in the tripping current strength, there is also a change in the tripping sensitivity is done.

In FIG. 2 shows an embodiment of the device according to the invention in which the triggering sensitivity increases as the triggering current strength increases. In this embodiment, the increase in the advance path a is linked to a decrease in the lever arm b . As in FIG. 2, the setting lever 6 ′ can be pivoted about a pivot axis 17 which does not coincide with the pivot axis of the release lever 8. This particular constructive measure can also be used in an embodiment as shown in FIG. 1 is shown.

According to a further embodiment, which is shown in FIG. 3 is shown, it can also be provided that a movable control lever 20 is arranged between the bimetal element 1 and a release lever 8 ', which is pivoted at an incline with respect to the release lever 8' and whose lateral setting 14 'can be changed. By shifting this control lever 20 laterally in the direction of the longitudinal axis of the release lever 8 ', the distance between one end of the control lever and the bimetallic element 1 is changed, as well as the distance between the support point of its other end and the pivot axis of the release lever 8', so that the lever arm with the control lever 20 engages with the trip lever 8 engaged un ^one change is terworfen.

Another particularly simple embodiment of the device according to the invention is shown in FIG shown. The bimetal element 1 is connected to a control lever 30, the longitudinal direction of which is opposite the direction of movement of the bimetal element 1 is tilted, and its free end to change the tripping current can be pivoted so that the point of application of this free end on a release lever

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at 8 "is slidable. In this way, appropriate Pivoting of the fire lever 30 both the distance of its free end from the trigger lever 8 ", the forward travel a, and at the same time the lever arm on the release lever 8 ″ changed.

1 sheet of drawings

Claims (4)

23 OO claims: 1. Device for setting the tripping current on a thermal relay with a transmission device for the movement on the bolt of a locking device caused by deformation of at least one bimetallic element acted upon by the tripping current, the transmission device having a release lever held under spring tension, characterized in that the transmission device ( 2 to 9, 11; 2 to 5, 6 ', T 8, 9, 17; β', 20; 8 ". 30) with a pivoted control lever (2, 3, 4 ; 20; 30) and is equipped with a pivotably mounted release lever (8; 8 '; 8 ") that the control lever (2, 3, 4; 20; 30) and the release lever 8; 8th'; 8 ") are in engagement with the variable lever arm (b) and that the lever arm (b) can be adjusted together with the advance path (a) of the bimetal element (1). 2. Apparatus according to claim 1, characterized in that the release lever (8) has two arms (9, 11) which are arranged on both sides of its pivot axis (7), and that the control lever (2, 3, 4) so arranged and is shaped so that an enlargement of the advance path (a) of the bimetal element (1) is connected to an enlargement of the lever arm (b) . 3. Device according to one of claims 1 and 2, characterized in that the control lever (2, 3, 4) is pivotably mounted on a pin (5) of an adjusting lever (6) and that the adjusting lever (6) is pivotable about the pivot axis (7) of the release lever (8). 4. Apparatus according to claim 1, characterized daduroii, that the control lever (20; 30) consists of a linearly movable, pivotable lever.