DE1048803B - Electromagnetic switch for triggering intermittent signals, especially light signals - Google Patents

Description

GERMAN

INTERNAT

kl. G08f

PATENT OFFICE

B45831VIHd / 74d

REGISTRATION DAY: AUGUST 28TH 1 9 5 7

NOTICE
LOGIN
AND ISSUE OF THE
EDITORIAL: JANUARY 15, 1959

The invention relates to an electromagnetic Switch to. Triggering intermittent signals, especially light signals, with a switch armature that can be connected to a power source and is under the influence of the electromagnet, on which a return spring and a hot wire attack, which in the cold state has a switching contact of the armature against the force of the spring in contact with a stationary mating contact holds. ίο

In a 'known electromagnetic switch for triggering intermittent signals, whose Switch armature also under the influence of a hot wire and a return spring as well as the electromagnet when the hot wire is cold, the switch armature is connected to a switch contact at a distance of held its associated fixed mating contact. This arrangement has the disadvantage that from the moment the device is turned on a a certain time elapses until the hot wire is heated and allows the switching contacts to close. Around To avoid this disadvantage, it has already been proposed to use an angular, on the magnet frame to use a pivoting switch armature to which the hot wire is anchored in an isolated manner and attacks in such a way that, when cold, it keeps the contacts closed against the force of a spring. However, this design is disadvantageous in that the training and storage of the switch armature and the isolated anchoring of the hot wire on the switch armature are cumbersome and expensive.

These disadvantages are avoided according to the invention that the core of the electromagnet on his one pole carries a bracket-like approach made of ferromagnetic material, which the Armature near its free end encompasses a magnetic pole when the electromagnet is excited forms whose holding force acts on the armature as long as its contact with the stationary one the signal lights connected to the mating contact is present.

An advantageous development of the subject matter of the invention in electromagnetic switches for alternating switching of two lighting groups, for example the dipped and high beam filaments of ■ headlights on motor vehicles, their switch armatures can be swiveled back and forth between two fixed contacts, one of which is conductive is connected to one of the two lighting groups, results from the fact that the in series to The excitation winding of the electromagnet switched armature from each of its two contact positions can be torn out against the holding force of the electromagnet.

Electromagnetic switch for triggering intermittent signals, especially light signals

Applicant:

Robert Bosch G. mb H. _r Stuttgart-W, Breitscheidstr. 4th

Dipl.-Ing. Albert Lichtenberger, Stuttgart,

and Joachim Heß, Ludwigsburg,

have been named as inventors

In the drawing are two examples of the subject matter of the invention shown schematically. It shows

Fig. 1 shows an electromagnetic switch for triggering intermittent light signals with the Headlight high-beam filaments on motor vehicles,

Fig. 2 is a view of the magnetic core, seen in the direction of arrow II in Fig. 1,

3 is a view of a differently designed magnetic core,

Fig. 4 shows an electromagnetic switch for alternately switching two groups of lights and

Fig. 5 is a view of the magnetic core; seen in the direction of arrow V in FIG.

The electromagnetic switch of FIGS. 1 and 2 has an electromagnet 10 with an I-shaped Core 11 and an excitation winding 12. At one end of the core is a switch armature on one side 13 with a switching contact 14 and on the other side a switching armature 15 with a switching contact 16 pivotally arranged. A return spring indicated by an arrow grip the switch armature 13 and one end of a hot wire 17, which in the cold state, the switching contact 14 of the Armature 13 holds against the spring force in contact with a stationary mating contact 18. One am Switching armature 15 attacking, also indicated by an arrow return spring strives to the Switching armature 15 with its switching contact 16 at a distance from a stationary mating contact 19 keep. At the other pole end of the I-shaped core 11 is made of a ferromagnetic material

'' 809 729/48

U-shaped bent bracket 20 attached, the free leg of which the switch armature 13 in the vicinity of his encompasses the free end and forms a magnetic pole when the electromagnet is energized.

• From the positive pole of a power source 21, its negative pole is connected to ground, a branching line 22 leads to the stationary mating contacts 18 and 19. The other end, anchored in isolation at 23, of the hot wire 17 is via a Resistor 24 connected to a line 25. ■ This line connects a fixed contact 26 of a manually operated switch 27 with one end of the excitation winding 12. the other end thereof the switching armature 13 is connected. The switch 27 has one with the. Contact 26 Working Together movable switching element 28 which is connected to ground. The switching armature 15 is connected by a line 29 the high beam filaments 30 of the headlights connected, only one of which is shown.

The electromagnetic switch operates in the following way: In case of open manual switch 27 of the cold hot wire 17 keeps the switching armature 13 with its switching contact 14 against the force of the return spring in contact with the mating contact 18. If now the switch 27 is closed, current flows \ ^r on ' the current source21 via the line 22, contacts 18 and 14, armature 13, excitation winding 12, line 25 and switch 27 to ground. The now excited electromagnet 10 attracts the armature 15 so that the high beam threads 30 of the headlights emit light. In addition, the electromagnet 10 exerts a magnetic holding force on the switch armature 13 via the pole formed by the bracket 20. At the same time, a current also flows through the hot wire 17, resistor 24 and switch 27 to ground. The hot wire warms up and expands. Depending on this expansion, the tensile force of the hot wire decreases. The contact 14 of the switching armature 13 is therefore torn off from its counter-contact 18 by the force of the return spring against the resulting force formed by the holding force of the hoop pole and the tensile force of the hot wire as soon as that resulting force has become less than the spring force. As a result, the excitation winding 12 and the hot wire 17 are de-energized. The switching armature 15 falls off and the high beam threads of the headlights go out. The currentless hot wire cools down and shortens. As a result, the switching armature 13 with its switching contact 14 is pulled again against the contact 18 against the force of the spring, whereupon the game begins again and is repeated as long as the switch 27 is closed.

The pole acting on the armature 13 can also be formed by the fact that the free The armature end facing the pole end of the magnet core is designed as a U-shaped bent bracket (Fig. 3). In the second embodiment shown in FIGS. 4 and 5, the electromagnetic switch 31 also has an I-shaped core 32 with an excitation winding 33, one end of which, however, with the Core 32 connected and the other end via a manually operated switch 34 to the positive pole of a Power source 35 can be connected. The negative pole of the power source is connected to ground. On the one The end of the core is on one side a switching armature 36 with a switching contact 37 through a leaf spring 38 and on the other side of the core a control anchor 39 with a switching contact 40 through a leaf spring 41 hinged. The direction of the force with which each of the springs 38 and 41 their associated anchors strives to pivot. is through each time. indicated by an arrow. The switch contact 37 of the armature 36 works with two fixed counter contacts 42 and 43, the switch contact 40 of the armature 39 with a fixed contact 44 together. The magnetic core 32 of the electromagnet 31 carries on its pole opposite the free end of the armature one made of ferromagnetic material existing U-shaped curved bracket 45. This bracket engages with its free leg the Switching armature 36 in the vicinity of its free end and forms a magnetic when the electromagnet is excited Pole, so that the holding force of the energized electromagnet 31 acts on the armature 36 for so long how its contact 37 rests on one of the two mating contacts 42 and 43.

At the free end of the armature 36, one end of a hot wire 46 is attached, which in the cold state the switching contact 37 of the switching armature 36 pulls against the spring force against the contact 43. The other end of the hot wire 46 is anchored in isolation at 47 and connected to the contact via a resistor 48 42 connected. A line 49 leads from contact 44 to a control lamp. 50, from contact 42 a branching line 51 to two lamps 52 and from contact 43 one branching line as well Line 53 to two lights 54.

The electromagnetic switch works in the following way: The cold hot wire 46 pulls when it is open Hand switch 34 the switching armature 36 with its switching contact 37 against the contact 43. Will now If the actuating switch 34 is closed, current flows from the current source 35 via switch 34, excitation winding 33, magnetic core 32, armature 36 on the one hand via contact 37 and 43, line 53 through the lights 54 to ground and on the other hand via the hot wire 46, resistor 48, contact 42, line 51 through lights 52 to ground. The lights 54 emit light, but the lights 52 do not, there the current flowing through it due to the upstream hot wire 46 and the resistor 48 only is low. The now excited electromagnet 31 exerts an additional holding force on the hoop pole Switching armature 36 and also pulls the control armature 39 with its switching contact 40 against the force the spring 41 against the contact 44, so that the control lamp 50 is current flowing through and light radiates. The hot wire 46 is heated by the current flowing through it and expands. Of the Switching armature 36 with its switching contact 37 is moved by the force of spring 38 from its mating contact 43 torn off and printed against its mating contact 42. The lights 54 go out and the Lights 52 emit light. The excited electric magnet now exercises a through its I-shaped core additional holding force on the switch armature 36. The short-circuited in this position of the armature 36 Hot wire 46 cools and contracts. This is the switch armature 36 with his Contact 37 torn from mating contact 42 against the holding force of the magnet and the force of spring 38 and pressed against the mating contact 43, whereupon the game begins again. As long as the Actuating switch 34 is closed, the lights 52 and 54 are switched alternately while the control lamp 50 emits a steady light. The force of the return spring 41 can be such that at Failure of a luminaire in a luminaire group of the KontroIlankcT 39 is no longer attracted in the corresponding contact position of the switch armature 36, so

that the control lamp emits flashing light in the switching rhythm of the other lighting group and thereby indicates the failure of a luminaire.

Claims (5)

Patent claims:, 1. Electromagnetic switch for triggering intermittent signals, in particular Light signals, with a connectable to a power source, under the influence of the electromagnet standing switch armature, attacked by a return spring and a hot wire, which is in cold state a switching contact of the armature against · the force of the spring in contact with holds a stationary mating contact, characterized in that the core of the electromagnet at one pole it has a stirrup-like attachment made of ferromagnetic material, which encompasses the armature in the vicinity of its free end when the electromagnet is energized forms magnetic pole whose holding force acts on the armature as long as its contact is applied to that fixed mating contact connected to the signal lights. 2. Switch according to claim 1, characterized in that the bracket-like extension consists of one There is a U-shaped bent strip which is attached to the pole core of the electromagnet. 3. Switch according to claim 1, characterized in that the switch armature facing contact-side pole end of the magnetic core is designed as a U-shaped bent bracket. 4. Switch according to claim 1, 2 or 3 for alternately switching two groups of lights, for example, the dipping and front lights of headlights on motor vehicles, its Switching armature between two fixed contacts can be swiveled back and forth, each of which one conductive with one of the two light units is connected, characterized in that in series with the excitation winding of the electromagnet switched armature from each of its two contact positions out against the Holding force of the electromagnet can be torn off. 5. Switch according to claim 4, characterized in that the electromagnet with a fixed contact cooperating additional anchor is assigned, which is in its working position a control lamp connects to the power source. Considered publications:
German interpretation document St 7014 VIIId / 74d
(announced June 7, 1956); German utility model No. 1 722 621. 1 sheet of drawings © 809 729/48 1.59