DE1033110B - Electromagnetic flasher, especially for flashing lights on motor vehicles - Google Patents

Description

The invention relates to flasher units, in particular for flasher lights on motor vehicles one extending at least approximately parallel to the longitudinal axis of the magnet frame, essentially rod-shaped switch armature, which at the free end of one with its other end on the magnet frame clamped leaf spring is attached and to which, in addition to the force of the leaf spring and the magnetic force the tensile force acting essentially parallel to the longitudinal axis of the magnet frame next to the Switch armature arranged, in the blinking rhythm of current-carrying expansion wire attacks.

In known flasher units, the armature extending along the magnet frame is on one Leg of an angle leaf spring attached, the other leg is attached to the magnet frame. Of the Expansion wire engages and runs at the free end of the anchor at a slight incline to it Anchor, so that the effective on the anchor, perpendicular to this component of the tensile force of the The main part of this tensile force is a component in the longitudinal direction of the wire Ankers itself runs.

Flasher units have already become known in which the expansion wire is directly connected to an as Armature and at the same time designed as a contact element leaf spring engages in the direction of the switching movement. With these flasher units there is the difficulty in finding the necessary parts with small dimensions To achieve switching travel with sufficient stability of the system.

In another known flasher unit, the armature of the system and a breaker lever are in the Flashing circuit pivoted and are under the influence of coil springs. On the lever attacks an expansion wire that controls the flasher circuit. This device is liable to the defect that the Flashing contacts are slowly opened, which leads to a rapid destruction of the contacts. aside from that its structure is involved.

The shortcomings described are avoided according to the invention in that the leaf spring is rectilinear is formed and extends only transversely to the longitudinal axis of the magnet frame and that the expansion wire at the end connected to the leaf spring of the anchor attacks.

In the drawing, an embodiment of the subject matter of the invention is shown. It shows

Fig. 1 shows a flasher unit with electromagnet and expansion wire in view,

2 and 3 each show a side view of the flasher unit, and FIG. 4 shows a circuit diagram of the flasher unit.

The flasher unit shown consists essentially of an electromagnet with a magnetic frame 10 and

Electromagnetic flasher,

especially for flashing lights

on motor vehicles

Applicant:

Robert Bosch GMBH,
Stuttgart-W, Breitscheidstr. 4th

Dipl.-Ing. Erich Dobler, Feuerbach,
and Joachim Heß, Ludwigsburg,
have been named as inventors

Excitation winding 11, an armature 12 which is suspended by means of a leaf spring 13 on the magnet frame and on that. a thermal expansion wire 14 engages, and a pair of flashing contacts 15, 16, which is from the armature is operated.

The magnet frame punched out of a piece of sheet metal has a core for the excitation winding 11 Serving section 17, at the ends of which cross webs 18 and 19 adjoin in a double T-shape. Of the The middle of the lower transverse web 19 extends downward as an extension of the core section 17 angularly bent foot section 20 which is fastened on a base plate 21. At one end 22 of the upper transverse web 18 sits an upwardly directed tab 23, the upper end of which is at right angles opposite is bent to the foot 20. The straight leaf spring is on the bent section of the tab 13 with one end attached so that its other end over the magnet frame after Protrudes towards the foot.

The armature 12 consists of a sheet metal strip 25, the end sections 26 and 27 of which are in opposite directions Are bent at right angles. The upper end portion 26 is attached to the leaf spring 13 so that

809 558/124

that he has turned away from the magnet frame. The middle section of the anchor runs at a small distance parallel to the magnet frame. The lower angled section 27 of the anchor protrudes below the Crossbar 19 over to the side of the magnet frame facing away from the armature. On the upper anchor section 26, one end of the thermal expansion wire 14 is insulated and attached, the other end to a finger 29 of a sheet metal strip 30 sitting on the foot 20 of the magnet frame is suspended.

On the side of the magnet frame facing away from the armature the base plate carries an angled leaf spring 31 on its free-standing leg 32 of a flashing contact 15 is attached to the end of the other flashing contact 16 carrying Anchor section 27 is opposite. A resilient tongue protruding somewhat from this sits on the leg 32 34. A stop strip 35 attached to the magnet frame protrudes between the leg and the tongue into it, which limits the deflection of the spring 31 in both directions.

On the base plate there is also an angularly bent spring 36, the free leg of which covers the sections 37 and 38 of the two transverse webs 18 and 19 and carries an armature 36 a with a contact 39 that cooperates with a contact bracket 40 attached to the base plate . The rest position of the spring 36 is determined by a stop 41 seated on the magnet frame.

The flasher unit described is, as FIG. 4 shows, switched in the following way: One end of the field winding 11 is connected to the magnet frame, the other to a changeover switch 42, with the Flashing lights 43 and 44 can be switched on alternately. The dormant flashing contact 15 is with • connected to one pole of a battery 45, the other pole of which is connected to ground. From the on Anchor 12 insulated attached end of the expansion wire leads a line via a resistor 46 to • the contact 40. Between this contact and the switch 42 is a control lamp 47 for the flashing lights. The contact 39 is connected to ground.

The flasher unit works as follows: When switch 42 is open, i.e. the flasher lights are not switched on (position shown), the contacts 15, 16 are created by the force of the spring 13 acting on the armature ■ counteracting tensile force of the cold expansion wire 14 closed, while the contacts 39, 40 open because the electromagnet is not energized. If with the switch 42 one of the two groups of Flashing lights are switched on, flows from the battery via contacts 15, 16, armature 12, leaf spring 13, Magnet frame 10, excitation winding 11, switch 42 and the flashing lights switched on a current. Of the energized electromagnet 10 attracts the armature 36 and closes the contacts 39, 40. This causes the expansion wire connected to ground via the resistor 46, so that now from the magnet frame via the expansion wire a current flows that heats the wire.

At the same time, current also flows from switch 42 via control lamp 47 and contacts 39, 40 Dimensions. When the expansion wire has warmed up enough and has expanded in the process, the spring 13 pulls the armature 12 away from the magnet frame. The contacts 15, 16 are opened and the connection of the flasher unit with the battery completely interrupted. The wire 14, which is now cooling, swivels the armature 12 in the opposite direction the force of the spring 13 again so far against the magnet frame until the contacts 15, 16 Touch, whereupon the game starts again and repeats itself as long as the flashing lights are on are. After the turn signal lights have been switched off, the flasher unit is de-energized. When the stretch wire When cooling, the armature is pivoted so that the contacts 15, 16 touch, the contact 15 is somewhat, since it sits on the spring 32, so that the tensile stress in the expansion wire does not increase suddenly.

Claims (9)

Patent claims: 1. Electromagnetic flasher, especially for flashing lights on motor vehicles with one extending at least approximately parallel to the longitudinal axis of the magnet frame, im essential rod-shaped switch armature, which at the free end of one with its other end at the Magnet frame clamped leaf spring is attached and to which except the force of the leaf spring as well as the magnetic force acting essentially parallel to the longitudinal axis of the magnet frame Tensile force of an expansion wire, which is arranged next to the switch armature and has a current flowing through it in a blinking rhythm engages, characterized in that the leaf spring (13) is straight and extends only transversely to the longitudinal axis of the magnet frame (10) and that the expansion wire (14) engages the end of the armature (12) connected to the leaf spring. 2. Flasher unit according to claim 1, characterized in that the armature (12) at one end has an angled arm (26) to which the leaf spring (13) and one end of the expansion wire (14) are attached. 3. Flasher unit according to Claims 1 and 2 with one consisting of a piece of sheet metal Magnetic frame, the core of which has a crossbar at each end in at least one direction, characterized in that one of the transverse webs (18) has an angled on one of its longitudinal sides has bent flaps (23) to which the leaf spring (13) carrying the armature (12) is attached. 4. flasher unit according to claim 3, characterized in that the tab (23) according to the from Armature (12) facing away from the magnet frame is bent. 5. Blinkgelier according to claim 4, characterized in that the resting contact (15) on one Spring (31) is seated, the path of which at least in the direction towards the magnet frame through a stop (35) is limited. 6. flasher unit according to claim 5, characterized in that the stop (35) by an on Magnet frame attached sheet metal piece is formed. 7. Flasher unit according to one of the preceding claims, characterized in that the armature (12) on the flap (23) on the crosspiece (18) opposite side of the magnet frame and the resting contact (15) is arranged on the same side as the tab. 8. flasher unit according to claim 7, characterized in that the armature (12) at its free End of the resting contact (15) facing, the movable contact (16) carrying Approach (27) has. 9. Flasher unit according to one of the preceding claims with an additional from the electromagnet actuated switching element for a monitoring device for the flashing lights, : iifiii characterized in that this switching element (36. 36 a, 39) on the armature (12) for the flashing contacts opposite side of the magnet frame is arranged and the cross arms (37, 38) of the magnetic core is opposite. Considered publications: German utility model No. 1680112; French Patent No. 1093188; U.S. Patent Nos. 1704 300, 2172 666. 1 sheet of drawings