DE2047114A1 - Flashing switch - Google Patents

Description

concerning
Flashing switch

The invention relates to a flasher switch which is generated by thermally and magnetically Forces is actuated. In the flasher switch according to the invention, a pull wire is used, a main anchor and to control an associated auxiliary armature, while a third armature is controlled by an electromagnet.

A flasher switch designed according to the invention offers numerous advantages. Such a flasher switch can replace both flasher switches of the shunt type and those of the series connection type and serve to provide directional or to give warning signs, and it is also suitable for over a / load range as an unavoidable tax indicator to serve. The duty cycle of the flasher switch according to the invention is almost exclusively a function of the The cooling speed of the pull wire and the setting of the working speed are independent of the setting the ratio between the switch-on time and the switch-off time. Furthermore, the speed at which the contacts are separated from one another is so high that it is possible is to use contacts made of a relatively cheap material.

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The invention and advantageous details of the invention are described below with reference to a schematic drawing explained in more detail using an exemplary embodiment.

The drawing shows schematically a preferred embodiment of a flasher switch according to the invention with its electrical and mechanical characteristics and shows how the flasher switch is connected to an external circuit is connected.

According to the drawing, the indicator switch, designated as a whole by 10, comprises a main armature 12, which is supported by a leaf spring 16 is connected to a rigid support member 14. The main anchor 12 has an extension 18 with which one end a pull wire 20 is mechanically and electrically connected. The other end of the pull wire 20 is through one insulating glass bead 22 connected to a mechanical support 24. The pull wire is with a ballast resistor connected in series, one terminal of which is connected to a fixed contact 28, with the inlet of the main armature 12 arranged movable contact 30 cooperates. The pull wire 20 holds the contacts 28 and 30 against normally the biasing force of the leaf spring 16 is opened.

A flexible auxiliary anchor 32 is mechanically and electrically conductively connected to the main anchor 12, the movements of which depend on the movements of the main anchor 12 and which carries a movable contact 36 which cooperates with a fixed contact 24. An important feature of the invention is that the gap Dp between the normally open contacts 28 and 30 must be wider than the gap D ₁ between the normally open contacts 34 and 36 so that the contacts 34 and 36 open first when the puller wire 20 heats up.

A third armature 38 is connected to a fixed support 4o by a leaf spring 42, which this armature

109820/1306

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biased so that a third movable contact 4-6 attached to armature 38 "is normally spaced apart by a third fixed contact 44 is held. The contacts 4-4 and 46 are closed when the armature 38 is sufficient Magnetic attraction by a coil 48 and a magnetic core 50, which as well as a second magnetic core 52 U-shaped is applied. The magnetic cores 50 and 52 could also be connected as one double-T-shaped component arranged horizontally according to the drawing. The coil 48 and the magnetic core 52 serve to the main anchor 12 and the auxiliary anchor 32 during allow part of the working cycle of the flasher switch to have an electromagnetic force of attraction. The firm one Contact 44 is connected to fixed contact 34, and movable contact 46 is through armature 38 to the fixed Contact 28 connected. The coil 48 lies between the fixed contact 28 and a terminal 54 of a load L leading to Switch S. A terminal 56 of a battery B is via the mechanical support 14, the leaf spring 16 and the main armature 12 with the movable contact 30, via the support 14, the leaf spring 16 and the auxiliary anchor 32 with the movable, borrowed contact 36 and via the support 14, the leaf spring 16, the main anchor 12, the pull wire 20 and the ballast resistor 26 connected to the fixed contact 28.

The external circuit to which the flasher switch 10 is connected includes the aforementioned battery B with the terminal 56 and a load L, which can be connected to the load connection terminal 54 via the switch S.

The flasher holder of the present invention operates in the following described way.

When the switch S is closed, a weak current flows from the battery B via the battery terminal 56, the Leaf spring 16, the main anchor 12, the anchor extension 18, the pull wire 20, the ballast resistor 26, the coil 48, the

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Load connection terminal 54 and the switch S to the load L. If If the load L is a lamp, the strength of this current is not sufficient to feed the filament of the lamp To bring shine. As this current flows through the puller wire 20 so that the puller wire is heated and expands, the main anchor 12 and the auxiliary anchor 32 begin to follow to move down, and in the course of this movement, contacts 34 and 36 close first. However, this has no immediate effect Effect, because contacts 44 and 46 are still open, so that they hold open that part of the circuit which extends from contact 34 to the ground connection. After yourself the contacts 34 and 36 have closed, the downward movement of the main armature 12 continues until the contacts 28 and 30 close to switch on the load L. A current now flows from battery B via terminal 56, the leaf spring 16, main armature 12, contacts 28 and 30, coil 48, terminal 54, switch S and load L to earth, so that magnetic fields are generated in the cores 50 and 52. The magnetic field generated in core 52 causes the main armature 12 is tightened to support leaf spring 16 and keep contacts 28 and 30 closed. That in that Core 50 generated magnetic field zi & ht the armature 38, so that the Contacts 44 and 46 are closed substantially simultaneously with the closing of contacts 28 and 30. The part of the Load current path, the main armature 12 and between the leaf spring 16 and the end exposed to high tension the coil 48 lying contacts 28 and 30 comprises, is now with the auxiliary armature 32, the contacts 34 and 36, the contacts 44 and 46 and the armature 38 are connected in parallel. The heating current is now passed around the pull wire 20, so that the pull wire begins to cool down. As soon as the puller wire contracts, it exerts a force on the main anchor 12 that is sufficient to overcome the magnetic attraction of the magnetic field generated in the core 52, so that the contacts 28 and 30 are opened, but the load current continues through the auxiliary armature 32, the contacts 34 and 36, the contacts

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44 and 46, the armature 38 and the coil 48 flows. Since the magnetic field of the coil 48 is maintained in this way, there is no inductively generated voltage present which could cause sparks to occur when the contacts 28 and 30 open. When the main anchor 12 moves upwards, it rests against the auxiliary anchor 32 so that the latter opens the contacts 34 and 36. Because of the camming action that the main armature 12 exerts on the auxiliary armature 32, the contacts 34 and 36 are opened relatively quickly. In addition, when the contacts 34 and 36 open, the magnetic field in the core 52 collapses, since no more load current flows through the coil 48, so that the magnetic forces previously acting on the armatures 12 and 12 cease and thereby the opening speed of the contacts 34 and 36 continues is increased. Essentially simultaneously with the opening of the contacts 34 and 36 , the contacts 44 and 46 also open, since the magnetic field pulling the armature 38 against the core 50 collapses. Now the heating current begins to flow again in the manner described through the pull wire 20, so that the work cycle described is repeated continuously as long as the switch S remains closed.

All information and features disclosed in the documents, in particular the disclosed spatial design, are, insofar as they are individually or in combination new compared to the state of the art, as essential to the invention claimed.

Expectations:

109820/1306

Claims (1)

EXPECTATIONS lJ thermal-magnetic flasher switch, geke η η is characterized by first circuit control means (12 - 30, 48, 52) for closing and opening a first load circuit (56, 16, 12, 30, 28, 48, 54) and second circuit control means (32 - 50), which in conjunction with the first circuit control means (12-30, 48, 52) come into effect to close a second load circuit (56, 16, 32, 36, 34, 44, 46, 38, 48, 54) and to open which is connected substantially in parallel with the first load circuit and that when a direct current source (B) and a load (L) are connected in series between a first (54) and a second terminal (56) of the flasher switch, during of each flashing cycle first the first and then the second load circuit is closed and first the first and then the second load circuit is opened. 2. Flasher switch according to claim 1, characterized in that the first circuit control means (12-30, 48, 52) comprise a main armature (12) carrying a first movable contact (30) cooperating with a first fixed contact (28), further Support means (14, 16) for the main anchor (12), a pull wire (20) connected to the main anchor for controlling the position of the main anchor (12) and electromagnet! 109820/1306 see actuating means (48, 52) that can be energized, to exert a magnetic force of attraction on the main anchor (12), 3 · flasher switch according to claim 2, characterized in that a ballast resistor (26) between the pull wire (20) and the first fixed contact (28) is connected. 4. Flasher switch according to one of claims 2 to 3 * thereby gekennzei ch.net that the support means (14, 16) for the main anchor (12), one of the first Contacts (28, 30) comprise leaf springs (16) which prestress them towards their closed position. 5. Flashing switch according to one of claims 1 to 4, characterized in that the second Circuit control means comprise a flexible auxiliary armature (32) attached to the main armature (12) which has a cooperating with a second fixed contact (34) second movable contact (36) carries, and a relay device (38 - 50) with one of the electromagnetic ones Actuating means for the main armature and the auxiliary armature (12 or 32) common magnetic coil (48), which can be excited is to establish an electrical connection between the second fixed contact (34) and the first connection (54) of the flasher switch (10) to manufacture. 109820/1306 20471U β. Flashing switch according to claim 5 *, characterized in that the relay device (38 - 50) and the solenoid (48) common to the electromagnetic actuating means (48, 52) between the first fixed Contact (28) and the first connection (54) of the flasher switch (10) is connected and at least one magnetizable Core (50, 52) encloses. 7. Flashing switch according to claim 5 or 6, characterized in that the relay device (38 - 50) and the electromagnetic actuators (48, 52) common magnetic coil (48) a first and a second U-shaped magnetizable core (52, 50) encloses and the first, core (52) the main anchor (12) and is assigned to the auxiliary armature (32), and the second core (50) is a component of the relay device (38 - 50) forms. 8. Flashing switch according to one of claims 5 to 7, characterized in that the relay device (38-50) a third armature (38), with one cooperating with a third fixed contact (44) third movable contact (46), and that this relay device (38-50) is used when energized by means of the third contacts (44, 46) an electrical connection from the second fixed contact (34) via 10 9820/1306 ' that of the relay device (38-50) and the electromagnetic Actuating means (48, 52) common magnetic coil (48) to the second connection (54) of the flasher switch (10) to manufacture. 9. Flashing switch according to one of Claims 2 to 8, characterized in that the gap (D2) between the first contacts (28, j50) is wider than the gap (D1) between the second contacts (34, 36). 10. Flasher switch according to one of claims 2 to 9 * thereby characterized in that the support means (14, 16) for the main anchor electrically with the second connection (56) of the flasher switch (10) are connected. 11. Flashing switch according to one of claims 2 to 9, characterized in that the pull wire (20) for controlling the position of the main anchor (12) attached with its one end to the main anchor (12) and with its other end is connected to stationary fastening means (22, 24) and in its cooled state holds the first contacts (28, 30) normally open. 109820/130 6 Blank page