DE1114911B - Thermal overcurrent release - Google Patents

Description

Thermal overcurrent release Addition to patent 1083 413 In patent 1083 413 a thermal overcurrent release is described, which has a contact spring provided with a contact at the free end and a bimetallic spring which, with the help of a tilting piece, which has two opposing V-shaped recesses, the contact spring in which swivels on and off. The tilting piece with its V-shaped recesses is mounted swinging freely on the ends of the contact spring and the bimetallic spring, the contact spring engaging the corresponding V-shaped recess under pretension. In this thermal overcurrent release according to the main patent, the tilting piece consists of an insulating body that is rigid. If the bimetal strip bends when an overcurrent occurs, relatively large forces must be exerted on the contact spring by this bimetal strip in order to overcome the tipping point and to separate the switching contacts. The invention is based on the object of improving the thermal overcurrent release according to the main patent in such a way that the contacts can be separated using lower switching forces. According to the invention, this object is achieved in that the tilting piece consists of a leaf spring in a manner known per se, the two ends of which are angled and bent in a V-shape. As a result of this elastic design of the tilting piece, it can give way when the tilting point is exceeded, so that even with lower forces it is possible to overcome the tilting point and thus trigger the switch.

Since an automatic closing of the contacts is not desired, takes place closing the contacts, for example with the help of a push button. To this To prevent automatic closing of the contacts are in a further embodiment the invention, the switch parts arranged so that in the off position at cold bimetallic strip, the end of the contact spring engaging in the tilting piece is above the extension of the bimetal strip. To with the lowest possible Forces the contact spring from this switch-off position into the switch-on position bring, the push button is arranged above the contact spring end. By actuation of the push button is inserted into the corresponding V-shaped recess of the tilting piece engaging end of the contact spring moved beyond the tipping point, so that through the force of the resilient tilting piece closes the contacts with a jerk will.

The push button can in a known manner in a recess of the housing be guided. According to a development of the invention, the push button has a wide incision lying transversely to the longitudinal direction, in which a transverse web of the Housing engages the, movement of the push button in the recess of the housing limited. Furthermore, the push button has a recess below the wide incision in which a compression spring supported on the crosspiece is inserted.

An embodiment of the invention is shown in the drawing. It shows Fig. 1 is a side view of the upper overcurrent release according to the invention, Fig. 2 is a view from below according to Fig. 1, Fig. 3 is a view from above of Fig. 1, Fig. 4 shows the side view of FIG. 1 in an enlarged scale, the The cover of the switch is removed, and FIG. 5 shows the same view as FIG. 4 in the open state of the switch contacts.

The thermal overcurrent release has a housing 1 into which all switch parts are inserted and fastened. A cover 2, which is inserted into a corresponding recess in the housing 1 , covers the switch parts from the outside. The housing 1 has two angular flanges 3 and 4, in one leg of which bores 5 and in the other leg of which slot-shaped recesses 6 are provided, which are used to attach the thermal overcurrent release.

The connection lugs 7 and 8, which are fastened to the housing 1 with the aid of the screws 9, are used for the electrical connection.

A contact spring 11 , provided with a contact 10 , is connected to the connection lug 8 , which contact spring 11 can be adjusted with the aid of a pressure screw 12 which is screwed into a metal plate 13 . The metal plate 13 is located in a corresponding recess in the housing 1. A contact 14, which is fastened to a contact spring 15 , works together with the contact 10 of the contact spring 11. The contact spring 15 and the bimetallic strip 16, which is provided with a heating coil 17 , are fastened to a projection 19 of the housing 1 with the aid of a screw 9 # and a nut 18. The heating coil 17 is conductively connected at one end at 20 to the bimetallic strip 16 and at 21 to the terminal lug 7.

The housing 1 has a projection 22 which has a rectangular recess 23 in which the rectangular push button 24 is mounted displaceably in the longitudinal direction. The push button 24 has a wide incision 25 into which a transverse rod 26 engages, which is formed in one piece with the housing 1 made of insulating material. Below the wide incision 25 , the push button 24 has a recess 27 into which a compression spring 28 is inserted, the upper end of which is supported on the underside of the transverse web 26.

On the free end of the bimetallic strip 16 and the free end of the contact spring 15 , a resilient tilting piece is placed, which in this case consists of a leaf spring 29 , the two ends 30 and 31 of which are angled and bent in a V-shape. The ends of the bimetallic strip 16 and the contact spring 15 can be designed in the shape of a cutting edge in order to ensure a slight tilting of the leaf spring 29, which acts as a tilting piece.

The mode of operation of the thermal overcurrent release is as follows: In normal operation, the thermal overcurrent release is in the position shown in FIG. closed. Here passage are while the contacts of the operation 10 and is heated by the bimetal strip 16 from the heating coil 17 is a 14 exceeds gestrom on, then a deflection of the bimetallic strip 16 in the clockwise direction in Fig. 4. In this pivotal movement of the bimetallic strip 16 is the leaf spring 29 is compressed somewhat and thus tensioned until the tipping point is reached. When the tipping point is exceeded, the tensioned leaf spring 29 transfers the work stored in it to the contact spring 15 , causing it to turn counterclockwise according to FIG. 4 swiveled accelerated and its contact 14 jerky, from the contact 10 of the contact spring 11 is lifted. In this way an accelerated interruption of the circuit is achieved. The C reached this position, the contact spring 15 is shown in Fig. 5. Here, the U-shaped creates bent end of the contact spring 15 to the lower edge 32 g of the push button 24, the push button 24 is pressed against the force of the compression spring 28 against the Querste- 26th So that during this pivoting movement of the contact spring 15 the movement of the leaf spring 1-9 is not disturbed by the push button 24, the push button 24 has a recess 33 . After cooling, the bimetallic strip returns to the position shown in FIG. 4. In this position of the cooled bimetallic strip, the blade-shaped end of the U-shaped bent contact spring 15 is slightly above the elongated bimetallic strip, so that in this position the contacts 14 and 10 cannot close automatically. When a closure of the contacts desired, the push button must be pushed out in Fig. Position shown in Figure 5 into the position shown in Fig. 4 position 24, wherein the blade-shaped end of the contact spring arrived overall 15 below the extension of the cooled bi-metal strip 16, so that the leaf spring 29 pushes the contact spring back with its contact 14 into the position shown in FIG. 4, in which the circuit of the thermal overcurrent release is closed.

Of course, instead of resetting using the push button 24 reset by means of electromagnets or in some other way.

Claims (1)

PATENT CLAIMS -1. Thermal overcurrent release with a contact spring provided with a contact at the free end and a bimetallic spring which, with the help of a tilting piece that has two opposing V-shaped recesses, swivels the contact spring into the on and off position, the tilting piece with its V- Förniigen recesses is mounted freely swinging on the ends of the contact spring and the bimetallic spring and the contact spring engages under bias in the corresponding ', L-shaped recess, according to patent 1083 413, characterized in that the tilting piece consists of a leaf spring in a manner known per se , both ends of which are angled and bent V-shape. 2. Overcurrent release according to claim 1, characterized in that in the off position when the bimetal strip is cold, the end of the contact spring engaging in the tilting piece is above the extension of the bimetal strip. 3. Overcurrent release according to claim 1 and 2, characterized in that a push button is provided for switching on the release , which acts on the end of the contact spring. 4. characterized overcurrent release according to claim 1 to 3, characterized in that the pushbutton is guided in a known manner in a recess of the housing and a transverse to the longitudinal direction wide incision into which a transverse web of the housing for limiting the movement engages the push button, and below the incision 'g aufweisi a Aussparun, in a located, supporting pressure spring is inserted on Quersteo. References considered p: British Patent No. 536,357; U.S. Patent Nos. 2,7814.85 , 2,568,323, 2313341.