DE687238C - Direction indicator for motor vehicles - Google Patents

Description

Direction indicator device for motor vehicles The invention relates to a direction indicator device for motor vehicles, consisting of at least two indicators, the angle arms of which are each actuated by an electromagnet. In the case of the known devices of this type , the disadvantage has been found that the angle arm often does not fully enter the protective housing when it is returned to the rest position. According to the invention, this deficiency is eliminated in that the electromagnet used to swivel out the angle arm also serves to pull the angle arm into the protective housing. '' For this purpose, the core of each electromagnet is designed as a permanent magnet. With the help of a switch, the direction of circulation of the excitation current in the magnet coil is maintained so that, depending on the switch position, the core is drawn into the magnet coil or pushed out of it. The angle arm connected to the core moves accordingly.

Furthermore, according to the invention, the magnet coils of the winker are of this type Can be connected via the winker switch to the power source, that between the swiveling of the winking arm switched on electromagnets and whose core is an opposite one Directed force acts as between the electromagnet in the rest position and its core. This ensures that the former has the associated waving arm pivots into the display position, while the other strives to his core and so that he can pull his arm into the rest position. Accordingly, when using a Winker switch with 'the usual three switch positions in the TvEttelstellung his Switching arm pulled in both waving arms, what the guarantee of a the indicator offers precise work.

The invention also extends to any electromagnet an interrupter is assigned, which is from the core which is in the rest position inevitably opens. This means that the indicator that is not in use switches itself on and saves the power source unnecessary stress.

The subject of the invention is shown in one embodiment in the drawing shown schematically.

According to this, the display device consists of two pointers.

In each indicator housing i or i 'a coil 2 or 2' is attached, which is enclosed by a frame made of magnetically highly conductive material, such as soft iron, and whose parts visible in the drawing are designated 3 and 3 ' , respectively are. The coil arrangement is, as far as the indicator housing i is not already made of insulating material, electrically separated from the indicator housing by an insulating plate 4 or 4 '. In the interior of the coil 2 or 2 ', a longitudinally displaceable core115 or 5' is arranged. This is designed as a permanent magnet. However, a coil through which a direct current flows would also act in the same way.

The core 5 or 5 ' is articulated at its upper end via an intermediate member 6 or e to the angle arm 7 or 7' , which at 8 or, v. 8 ' is mounted on the indicator housing i or i'. At the articulated connection g or g ' of the core and intermediate member, the bore of the intermediate member 6 and 6' has clearance in a known manner. Furthermore, a spring, not shown in the drawing, acts between the angle arm 7 or 7 ' and the intermediate element 6 or 6' , which in the rest position of the angle arm influences the intermediate element and thus the core in such a way that it affects an approach io or io 'to move, the intermediate member with a nose ii or ii' fixed behind it and 'Winkarn' 7 and 7 ' in the rest position.

The core 5 or 5 ' carries at its lower end a switching rod 12 or 12, which serves as a guide and controls a breaker 13 or 13'. As long as the shift rod 12 or, v. 12 'with its curved free end does not touch a projection 14 or 14' of the sub-reclier, this remains closed, while in the other case, when the core 5 or 5 'has emerged furthest from the coil 2 or 2', the Interrupter 13 or 13 'is opened by lifting off one contact part.

A current source 15 is connected via lines 16 and 17 to contact bridges ig and 2o of the angle switch 21, which are attached to the switching arm 18 in an insulated manner. The winker switch 2 1 has three groups 1, 11, 111 each of four contacts isolated from one another. In addition, these twelve contacts can be divided into four rows a ' b, c, d of three contacts each. This double classification results in a unique designation for each contact. The connections of the twelve contacts to the coils 2 or - 'and to the interrupter 13 or 13' do not need 'any special explanation of symbols, since the line routing is sufficiently evident from the drawing.

Is z. If, for example, the switching arm 8 of the angle switch zi is placed on I, i.e. to the right, the following connections result: A current flows from the + battery via the line 1 6, the contact bridge 1 9 of the bevel switch S21, contactIb, line22, coil2, Line23, LCitUng24, Kontaktlc, contact bridge2o, line17 to the battery back. The coil 2 is connected in such a way that it enters the core 5 , which is designed as a permanent magnet, as a result of which the angle arm 7 swings out. As long as the wink arm 7 ' is not drawn in and the interrupter IY is not open, there is another circuit. The contact ia is at the same time in contact with the contact bridge ig. From this there is a connection via the line 2m ', the interrupter 13', the line 23 ', the coil 2', the line 22, the line 26, contact Id to the contact bridge 2o. The direct current flowing through the coil 2 'generates a magnetic field which is directed in the opposite direction to that of the core 5'. The core 5 'is pushed out, the angle arm 7' is pulled in and at the same time the interrupter 13 'is opened, whereby the coil 2' is de-energized. The Wirikarm 7 ' now inevitably retains the rest position because the intermediate member 6' has placed in a known manner with its nose ii 'behind, the approach io'.

When the switching arm 1 8 is moved into the middle position on II, the following connections result: i. From + battery, line 1 6, contact bridge ig, contact Ha. Line 27 ', line 25' to interrupter 13 '. 2. From - battery, line 17, contact bridge 20, contact Ile, line 28 ', line, ->6', line 22 ', solenoid 2', line 23 ' to breaker 13'. If the breaker 13 'were not already closed from the previous switch position, a current would flow through the solenoid 2' in such a way that the core 5 'would be pushed out, the angle arm 7' would be drawn in and the breaker IY would be opened. However, no change occurs in this way. The sawn-sensitive at rest Winker consumes no power, 3. From contact bridge 1 9, contact jib, line 27, Leitung25, Unterbrecheri3, Leitung23, C Spule2, Leitung22, Leitung26, Leitung28, KontaktIP to Kontaktbrücke2o. Accordingly, the direct current flows around the coil 2 in such a way that the core 5 is forced out of the coil, the angle arm 7 is brought into the rest position and the intermediate member 6 holds the angle arm 7 in the rest position in a known manner. The breaker ZD 13 switches off the power at the same time. This ensures that in the middle of the switching arm 18, both indicators are definitely in the rest position, in which no electricity is consumed.

If the switching arm 1 8 is placed all the way to the left in position III, the following connections result: i. A current flows from the + battery via line 16, contact bridge 1 9, contact I I Ib, line 2 2 ', coil 2, line 23', line 24 ', contact III "contact bridge 2o, line 17 to the - battery. The current in the coil 2 'flows around the core 5' in such a way that it is drawn into the coil 2 ', the angle arm 7' assumes the display position and the interrupter 13 'closes. 2. From contact bridge ig via contact 1 1 Yes, Line 2 5 to interrupter 1 3. 3. From contact bridge 2o via contact IIId, line 26, line 22, coil 2, line 23 to interrupter 13. Since the angle arm 7 has already been pulled in from the previous switch position, interrupter 13 is open so that the winker maintains its rest position without having to run out of power. If the wink arm 7 had left the rest position again for any reason, then the breaker 13 'would be closed and a current would then flow around in the coil 2, whose magnetic field denotes no 5 again a We would displace the coil 2 and thereby return the angle arm 7 to the rest position.

Regarding the circuit diagram in the figure it should also be mentioned that those Lines that are not taken into account in the explanation of the three switch positions are, however, also connected to the power source via the winker switch21 stand, end dead, so that they do not cause short circuits.

To reduce spark formation on the lower breaker contacts, the interrupter sections are expediently equipped with condensers of suitable capacity Bridged, as is already used in other areas of electrical engineering.

Claims (2)

PATENT CLAIM: i. Direction indicator device for motor vehicles, consisting of at least two indicators, the angle arms of which are each actuated by an electromagnet, characterized in that the cores (5, 5 ') of the electromagnets are permanent magnets and the coils (2, 2'y of the electromagnets via a switch (21), are connected to the power source (15) in such a way that the core of each of the electromagnets causing the corresponding angle arm to pivot into the display position is subject to the opposite direction of force as the core of the electromagnet for whose angle arm the rest position is provided. 2. Apparatus according to claim i, characterized in that the two pole terminals of the power source (15) with two on the switching lever (18) of the winker switch (2 1) arranged contact bridges (19, 20) are in connection, which are isolated from each other with three Fixed contact groups (I, II, III) each working together to form four contacts (a, 17, c, d), one of which (yes, IIIa; Ic > Mc) are conductively connected to the terminals of breakers (13, 13 ') are controlled by extensions (12, 12 ') of the cores (5, 5') of the electromagnets.