WO1987004004A1 - Protection switch - Google Patents

Abstract

A protection switch with an over-current element (4) and a transfer element (2), which is applied to the movable contact portion (6), in which is provided a manual control (1) located in direct operating contact with the transfer element (2). The over-current element (4), in the event of an over-current or short-circuit, actuates a triggering lever (5) so that the transfer element (2) is deflected and the contact is opened. At the upper end of the transfer element (2) is a resetting piece (8) which ensures the return of the manual control (1) to the off-position.

Description

Circuit breaker

The invention relates to a circuit breaker according to the preamble of patent claim 1.

Such a circuit breaker is e.g. known from CH-A-563 659. An electrical interrupter is described in this document. This consists essentially of a pair of contacts 10, 12, 14, a leaf spring 26, two coil springs 36 and 38, a contact carrier 24, a guide piece 16, an electromagnet 20 and a trigger 42 (FIGS. 1 to 3). With the electromagnet 20, the contacts 10, 12, 14 are normally closed and opened. In the event of an overcurrent or short circuit, the trigger 42 generates a deflection of the leaf spring 42. As a result, the contacts 10, 12, 14 are opened. When the electromagnet 20 is turned off, the leaf spring 26 returns to the elongated shape.

The known circuit breaker has the disadvantage that at least two coil springs, a leaf spring and a contact carrier are required, which results in a relatively large moving mass. Another disadvantage of this circuit breaker is that the serial arrangement of the leaf and coil springs requires a rather long construction.

The object of the invention is to improve a circuit breaker of the aforementioned type in such a way that a minimum of components - especially moving parts - is required and a compact design is achieved.

This object is achieved in a circuit breaker of the type mentioned above by the features of claim 1.

The basic idea of the invention is that the transmission element:

1. ensures the transmission of power from the handle to the contact device and enables it to be interrupted,

2. unlatches and resets the handle, and 3. automatically returns to the stretched shape, so that the power transmission is guaranteed again.

In a particularly favorable embodiment, the contact spring and the movable contact part are in one piece.

Since the number of components is significantly reduced compared to conventional circuit breakers and the components have a simpler shape, the new circuit breakers are particularly suitable for automatic production. Further advantages of the invention follow in the description below. There, the invention is explained in more detail using an exemplary embodiment shown in the drawing. It shows:

1 a shows a circuit breaker with a rocker, FIG. 1 b the same circuit breaker in the off state,

1c shows a cross section of the same circuit breaker along the line

A-A in Fig. La, Fig. 2a cut-out a circuit breaker with a push button, Fig. 2b cut-out the same circuit breaker in the off state, Fig. 2c a cross section of the same circuit breaker according to the line

B-B in Fig. 2a, Fig. 3 shows a section of a circuit breaker with a contact spring, and

Fig. 4 shows a section of a circuit breaker with a rocker arm

In Fig. La, a circuit breaker with a handle 1, here a rocker is shown. The rocker 1 is in direct operative contact with a transmission element 2, a leaf spring, which can be moved in its longitudinal direction by means of guides 3. The guides 3 consist of tubular end pieces of the leaf spring 2, which are longer than the width of the leaf spring 2, and of two grooves in the switch housing (Fig. Lc). An overcurrent element 4 is operatively connected to the leaf spring 2 via a release lever 5. The overcurrent element 4 is here a bimetallic element, but can also be a magnetic release or a release with a memory alloy. The leaf spring 2 lies directly on a movable contact part 6, which forms the contact device of the circuit breaker with a fixed contact part 7. The movable contact part 6 is made of an electrically highly conductive and resilient metal, preferably of a copper alloy such as spring bronze. The upper end of the leaf spring 2 contains a reset member 8 which causes the rocker 1 to be returned to the off position. The distance between the bimetallic element 4 and the release lever 5 is set with a calibration screw 9. The electrical connections are designed as flat plugs 10 and 11. The entire arrangement is housed in a housing 12. A snap-on front piece 13 is used to attach the circuit breaker. A guide support 14 is provided in the housing 12 for guiding the leaf spring 2.

In Fig. 1b the same circuit breaker as in Fig. La is shown, but in the off position. 1c shows a cross section of the same circuit breaker along the line A-A in FIG. The same reference numerals have been used for the same elements in FIGS. 1 a to 1 c.

A cut-out circuit breaker with a push button is shown in detail in FIG. 2a. The same elements as in FIG. 1 have the same reference numbers. The handle here consists of a push button 15 with a locking lever 16. The push button 15 has a force-transmitting effect on the leaf spring 2. The locking lever 16 ensures that the handle engages. With a spring arm 17, which is part of the locking lever 16, the necessary contact pressure is generated so that the locking lever 16 remains locked. Fig. 2b shows sections of the same circuit breaker in the off position. 2c shows a cross section of the same circuit breaker along the line B-B in FIG. 2a. In FIGS. 2a to 2c, the same reference numbers have also been used for the same elements. The parts of the circuit breaker (not shown) are the same as in FIG. 1.

For higher nominal currents, a version of the circuit breaker as in Fig. 3 is provided. The movable contact arm 6 is in this case made of an electrically highly conductive metal, such as copper or brass. The

Contact pressure is generated here by a contact spring 18.

4 is a section of a circuit breaker with a rocker arm

1 shown. The front piece 13 is fastened with a union nut 19 on a mounting plate 20.

The circuit breaker works as follows (Fig. La and lb):

In the on position of the rocker 1, the leaf spring 2 is stretched and presses on the movable contact part 6, so that the contact is closed. In the event of an overcurrent or short circuit, the bimetal element 4 bends out and moves the release lever 5, so that the leaf spring

2 causes a deflection in the transverse direction (dash-dotted ge ^¬ drawn in Fig. La). The restoring element 8 of the leaf spring 2 now exerts a force on the rocker 1, so that a torque is produced in a clockwise direction around the pivot point of the rocker 1. This causes the rocker 1 to turn to the off position. At the same time, the leaf spring 2 stretches, so that the circuit breaker can be switched on again. (Fig. Lb). This applies mutatis mutandis to the versions with a push button or rocker arm, and for the versions with a rigid, movable contact part and separate contact spring.

Claims

Claims - 5 -

1. Circuit breaker with

- A transmission element (2) which is elastic in the transverse direction. - An overcurrent element (4) which is operatively connected to the transmission element (2), and

- A contact device which assumes a rest position under spring action, consisting of a movable contact part (6) and a fixed contact part (7), characterized in that - a handle (1) is provided which is in direct operative contact with the transmission element (2) ,

- The transmission element (2) is movable in the longitudinal direction by means of guides (3) at its ends and rests directly on the movable contact part (6), so that the contact of the contact device is closed in the on position of the handle (1),

- at most one contact spring (17) returns the movable contact part (6) to the rest position,

- The overcurrent element (4) acts on a release lever (5) in the event of an overcurrent or short circuit, such that when the circuit breaker is switched on, the release lever (5) deflects the transmission element (2) in its transverse direction so that the contact opens will, and

- The transmission element (2) has a reset element (8) at the upper end, in such a way that the deflection of the transmission element (2) in the transverse direction also brings about a reset of the handle (1).

2. Circuit breaker according to claim 1, characterized in that the overcurrent element (4) is ther o-mechanical.

3. Circuit breaker according to claim 1, characterized in that the overcurrent element (4) is magneto-mechanical.

4. Circuit breaker according to one of claims 1 to 3, characterized in that the handle (1) consists of a push button (15) and a Rast¬ lever (16) which in the longitudinal direction on the upper end of the transmission element (2) Exercise strength.

5. Circuit breaker according to one of the preceding claims, characterized ge indicates that the handle (1) is rotatable about an axis.

6. Circuit breaker according to claim 5, characterized in that the handle (1) is a rocker on which at least two scenes are provided in such a way that the transmission element (4) transfers the rocker (1) into a, rest position.

7. Circuit breaker according to claim 5, characterized in that the handle (1) is a rocker arm on which at least two links are provided, such that the transmission element (2) transfers the rocker arm (1) to a rest position.

8. Circuit breaker according to one of the preceding claims, characterized in that the movable contact part (6) consists of a copper alloy and at the same time has the function of the contact spring (18).

Designation list (only intended for the examiner, is not part of the registration)

1. Handle, rocker 2. Transmission element, leaf spring

3. Leadership

4. Overcurrent element, bimetal

5. Release lever

6. movable contact part 7. fixed contact part

8. Reset element

9. Calibration screw

10th

11. Flat connector

12. Housing

13. Front piece

14. Guide support

15. Snap button

16.Latch lever

17. Spring arm

18. Contact spring

19. Throw nut

20. Mounting plate