DE1131310B - Control device for electrical vehicle lighting systems - Google Patents

Description

Control device for electrical vehicle lighting systems The invention relates to control equipment for electrical systems with generator, buffer battery and electromagnetic charging switch, especially for electrical vehicle lighting, to connect the generator to the battery and / or to the consumer if the Generator voltage has reached a certain value. If in such systems auxiliary contacts be provided on the charging switch for subordinate functions, for example to connect an economy resistor to an excitation winding of the switch, see above under certain circumstances you can change the operation of the main switch z. B. by pendulum phenomena affect in an undesirable way. The invention avoids this disadvantage.

The invention is characterized in that an auxiliary contact device at the charging switch to switch on an economy resistor in the voltage path of the charging switch and / or to switch off the winding of an electromagnetic regulator as a snap spring switch is formed, the dead centers of which are substantially different when going back and forth Positions of the path of movement of the main switch are exceeded.

The auxiliary contact device includes, for example, one with contacts provided leaf spring which is attached at one end and by a substantially in the longitudinal direction acting external spring force loaded and after one or other direction is bent in a lateral end position. An actuator is arranged in such a way that it moves the leaf spring from one end position to the other can bring, the leaf spring at an intermediate point of its movement path a Dead center, from which it is curved in the opposite direction End position snapped; on the other hand, when the movement is reversed, it reaches the leaf spring their dead position at a different point, from which they are in the original end position snaps back. As a result, the contacts connected to the leaf spring become closed and open in different phases of movement of the actuator, so that between contact closure and contact opening a substantial difference is covered is.

In this way, the switching operations on the "'fcontacts can be switched against the switching operations at the main age are offset in such a way that they do not match the latter ; iren.

The invention is based on an embodiment, for example and schematically described in more detail with reference to the drawings. It means Fig. 1 a front view of a switch, which an auxiliary contact device according to the invention has, Fig. 2 is a side view of this, Fig. 3 is a view of part of the Switch from the opposite side, Figure 4 is a single view of a fork finger, Seen from below, FIG. 5 is a diagram to illustrate the arrangement of the Auxiliary contacts, Fig. 6 to 8 Diagrams to illustrate functional advantages the invention.

The main switch to be described serves as a switch in a train lighting, heating or similar system. The magnet system consists of a laminated U-shaped yoke 1, which carries the usual secondary and main winding 2, 3 on its two legs and has a V-shaped air gap 4 between pole pieces 5, which cooperate with an armature 6 of complementary shape. The armature 6 is carried by a flap arrangement 7 which is pivotably mounted in the frame 8 of the switch by means of two crossed leaf springs 9 (FIG. 2) so that the armature approaches the air gap in an oblique direction. The arms 10 protruding from the hinged arrangement 7 on the side of the joint 9 opposite the armature 6 carry the usual contacts of the main switch, namely a contact 11 which is open when the switch is not energized and which, when it is closed, the main circuit between the generator and the battery as well the consumer of the system and a contact 12, which is closed in the de-energized state of the switch, which, for example, a regulating resistor or "lamp resistor" which is in series with the consumer, short-circuits. The main contacts can be copper contacts, and the movable contacts 11, 12 are pivotably mounted on pins 13 and loaded by springs 14, so that they have a slightly wiping effect. The movable contact 15 of an additional pair of bridging contacts made of carbon open in the de-energized state of the switch, which close before the contacts 11 and open after the contacts 11, with which they are connected in parallel, is carried by a leaf spring 16 which is on a downward directed extension 17 of the flap arrangement 7 is mounted. At the outermost end of the flap extension 17 there is an anchorage 18 for a helical tension spring 19, which pre-stresses the flap arrangement 7 in the direction of its switched-off position, which is determined by an adjustable stop 20 mounted on the frame 8 by means of a bearing 21. The other anchorage 22 is connected to the frame 8 by a bimetal strip 23. By adjusting the anchorage 18 by means of a nut and screw device 24 which is connected to a scale, the voltage at which the switch closes can be adjusted in a manner known per se. The bimetal strip 23 enables automatic temperature compensation and ensures that the voltage remains essentially constant despite the temperature change.

On the opposite side of the switch to the jumper contacts an auxiliary contact device is arranged, which enables the switching of an adjustable Economy resistor 25 (Fig. 5) in series with the shunt winding 2 of the switch controls. This device consists, as shown in particular in FIG. 3, of one movable contact 26, which at an intermediate point along a slightly flexible projecting leaf spring 27 is arranged, a forked finger 28 on the Flap assembly 7 is attached and between its prongs 29 (Fig. 4) the free extreme end of the leaf spring 27 with a small dead gear in both directions engages, and two coil springs 30. The latter extend substantially in the plane of the leaf spring, one on each side of the same, between Anchoring eyes 31 (Fig. 1) near the free end of this spring 27 and fixed Anchors 32 near the other end thereof which is secured by a tenon 33 is connected to a bracket 34 fastened to the frame 8. The movable one Contact 26 has contact pieces which are arranged on both surfaces of the leaf spring 27 are and cooperate with fixed contacts 35, 36 on opposite sides this spring are arranged. If necessary, the contacts 35, 36 can also be adjusted be arranged.

The effect of the contact device is similar to that of the others, coordinated by the flap assembly 7 actuated contacts, so that the following Sequence of operations arises: If, as shown in Fig. 2 and 3, the Armature 6 is not attracted and the main switch is in the off position is located, the contacts 26, 35 of the auxiliary contact device are closed and the contacts 26, 36 open as shown in Fig. 5, with the center of the leaf spring 27 bent or kinked in the direction of the back of the switch (Fig. 3) is. After a certain movement of the attracted armature 6, it settles with it the armature moving front prong 29 of the fork 28 against the front of the free End of the leaf spring 27 and moves the same in the rearward direction. after the Bridging contacts 15 closed and contacts 12 opened and the contacts 11 have then been closed, carries the further movement of the armature 6 and the Fork 28 this end of the leaf spring 27 beyond the dead center position of the system, which consists of this spring and the tension spring 30. The spring 27 bends or kinks with a snap action forward, thereby opening the contacts 26, 35 and closing the contacts 26, 36 of the auxiliary contact device. As soon as the anchor 6 is triggered, the rear prong 29 of the fork 28 carries the end of the leaf spring with it until after both the main and the bridging contacts 11, 15 open have, the dead center position of the aforementioned system has been exceeded and the leaf spring bends or kinks backwards with a snap action and thereby the contacts 26, 36 opens and the contacts 26, 35 closes. It's understandable, that this snap backwards at a substantially different point with respect to the movement of the armature 6 takes place opposite that in which the snap action was forward.

The contacts 26, 35 of the auxiliary contact device control the economy resistor 25 and open a short circuit across this resistor to generate the magnetic excitation to decrease after the main switching contacts 11 have closed.

The parts connected to the switch are the generator G, the Battery B and the consumers, e.g. B. Lamps L, with only these as the most essential Parts of the overall system are shown. R can be a normal lamp series resistor be, which is short-circuited by the contact 12 when the main contacts 11 are open are. But if the contacts 11 are closed and the contacts 12 are open, falls at this resistor the voltage difference between the charging voltage of the battery and the operating voltage of the lamps. The resistor R or parts of it can to regulate the lamp voltage through the variable resistance of a carbon pressure regulator be educated. In this case, the circuit of the voltage winding W of this regulator are closed by the contacts 26, 36 when the main contacts are closed are. The controller is then excited and only works when necessary is.

The correct actuation of the contacts of such an electromagnetic switch with a clean positive action by the armature 6 depends on the difference in the attractive force during the attraction and the release in the corresponding positions of the armature. This is illustrated by FIG. 6, in which the force of attraction f on the armature is plotted as a function of the position p of the armature between the release position and the fully attracted position, curve fa being the force during the attraction and curve fb being the force represents during the release of the anchor. For the switch to be operated effectively, it is desirable that there be a so-called narrow margin of difference between the maximum force achieved upon attraction and the force at which the release is initiated, ie that point B should be as close to point A as possible . However, the closeness of the curves fa and fb is determined by the hysteresis of the iron of the magnet. The curve r represents the total spring reaction (ie the reaction of the main spring 1.9 and the various contact springs for the switch, which were described with reference to FIGS. 1 to 5). The step at C represents the net increase in response when contacts 15 close and contacts 12 open, and the step at D the increase when contacts 11 close. For effective contact actuation, the curve r must lie well within the curves fa and fb.

If, as in the case of FIG. 7, an economy resistor is arranged in series with the shunt winding of the magnet, which is to be switched on and off approximately at armature position E, in such a way that the changed force curves f a 1, f b 1 arise, so the difference range A 1, B 1 is smaller, but the possible reduction is limited by the need to accommodate the curve r between the composite curve f a 1 and f b 1. As can be seen from FIG. 7, it is not easily possible to fit the curve r well between the curves f a 1 and f b 1 . If, however, an auxiliary contact device is used which, as is possible with the devices described with reference to FIGS. 1 to 5, a wide span between the armature position F (FIG. 8), at which the economy resistor is switched on, and the position G, at which the economy resistor is switched off, then the difference range A 1, B 1 can be smaller again without, however, any difficulty arises with regard to accommodating all parts of the curve r between the composite curves f a 2 and f b 2. A clean positive or compulsory actuation of the switching contacts can therefore be reliably ensured. Instead of the only restrictive "neck" that exists between the curves f a 1 and f b 1 in FIG. 7, FIG. 8 shows two widely separated "necks" with little constricting effect and a considerable interval between them the curves fa2 and f b 2 are far apart and which can be used to advantage. It is therefore an important feature of the auxiliary contact device described with reference to FIGS little difference between the opening and closing positions works.

The on switch and its resistors, such as the economy resistor 25 and the temperature compensation resistor 37 (Fig. 2) and other auxiliary parts are arranged in such a way that that they form an independent, self-contained unit. The same goes for for each of the other main control parts of the device, in particular a regulator for the generator and the lamp voltage regulator, the several being individually set Units are united on a switchboard. Compared to the usual arrangement, in which the various sub-devices by setting associated resistances are set, the proposed arrangement has the advantage that the units can easily be replaced by similar individually set units. Mounting on the switchboard is also made easier.

The arrangement of the windings of the switch is preferably so chosen so that they can be easily replaced. That way they can simply be pushed over the legs of the yoke 1, which with the help of clamping pieces 38 and long bolts 39 are attached to the main frame 8.

Claims (4)

PATENT CLAIMS: 1. Control device for electrical vehicle lighting systems with generator, buffer battery and electromagnetic charging switch, characterized in that that an auxiliary contact device (26, 35, 36) on the charging switch for switching on a Economy resistor (25) in the voltage path of the charging switch and / or for switching on the winding (W) of an electromagnetic controller designed as a snap spring switch is whose dead centers when going back and forth at significantly different points the path of movement of the main switch is exceeded. 2. Electromagnetic Switch according to Claim 1, characterized in that the auxiliary contact device a known leaf spring switch (26, 35, 36) is used, whose on one end attached leaf spring (27) under a substantially in its longitudinal extension acting and they sagging spring load (30) is and by a with the Actuator (28) connected to the main switch under the respective overshoot of a dead center from one end position into the opposite curved other end position is brought, with auxiliary contacts (26) connected to the leaf spring (27) in substantial different phases of movement of the actuator are closed or opened. 3. Electromagnetic switch according to claim 1 or 2, characterized in that that the leaf spring (27) of its auxiliary contact device is articulated at one end (33) is mounted and the spring load (30) and the actuator (28) on or in close to their other free end act while the contact or contacts are arranged in an intermediate layer in the longitudinal extent of the spring. 4. Switch according to one of claims 1 to 3, characterized in that the actuating member (28) of the auxiliary contact device on a swinging flap arrangement (7) is attached, which carries the armature (6) of the electromagnet of the switch. Documents considered: Swiss Patent No. 181631; french Patent No. 999 233.