DE891509C - Electric flashing signal light and quiet signal light device for motor vehicles and rail vehicles - Google Patents

Description

Electrical flashing signal light and quiet signal light device for r Motor vehicles and. Rail vehicles The invention relates to a device which, when the motor vehicle is moving, flashing light signals proportional to the Vehicle speed, flashing frequency in various signal forms and automatically displays continuous light signals when the vehicle is stopped.

Facilities are known for flashing direction indicators Use with a constant flashing frequency. Facilities are also known in which different colored and different using a centrifugal governor Shaped signal panels light up and thereby the respective prevailing vehicle speed Show.

The known devices use a flashing light as an optical element with constant flashing frequency or steady continuous light in conjunction with colored Bezels. The invention, on the other hand, uses at least two with a frequency proportional Signal lamps flashing at the driving speed, the flashing of which is staggered takes place, so that when driving slowly the impression of one from one to the other Lamp light signal that moves in rhythm with the speed of travel and when driving fast, the impression of separate light signals is created. she allow the previously common rear signal and warning lights, z. B. Taillights and stop lights to be combined into one unit. It would be good to use the inventive Equipment not only to be attached to the rear, but also to the front for daytime and night operation, so not only the concurrent traffic, rather the particularly dangerous traffic in the opposite direction can also be taken into account, because up to now no signaling device is known, which in the opposite direction Traffic shows more than just the presence of an opposing vehicle. Whether the same approaches quickly or slowly, whether acceleration, braking or stopping intentions exist, is hardly recognizable or not at all. This is true to a greater extent Darkness and poor vision too.

In the case of the flashing signal light according to the invention, a clear distinction must be made between whether a motor vehicle is at the prescribed speed of, for example, 40 km / h when passing through built-up areas exceeds or not, because up to about 40 km / h, the warning lights show moving flashing signal light and beyond steady flashing signal light with corresponding flashing frequency, like this further on is explained in the description. It would be beneficial to also use the direction indicators to equip with the flashing light according to the invention, so for the other road users not only the upcoming change of direction, but also the other traffic-related Behavior of the motor vehicle concerned to the observation of only one warning signal point, instead of the previous two, is tied. The facility is particularly suitable for everyone Public transport vehicles that often stop and change direction must, including for rail vehicles. .

According to the invention, the flashing signal light and rest signal light device contains a contact disk arrangement with an interrupter circuit for at least two spatially separate signal lamps, the contact disc depending on the vehicle speed and each time offset current pulses for the signal lamps indicates that this flashing light is generated, the frequency of which is proportional to the Vehicle speed grows. Preferably, a known circuit breaker is used used, whose contact disc has a current conductor lamella, whose arc length by the quotient 36o divided by the sum of the existing luminous element connections is determined and its number of power supply contacts is the sum of the luminous element connections times two is.

In the drawing, FIG. I shows a section along the line A-B of FIG. 2, FIG. 2 cut a circuit breaker in a side view, FIG. 3 a Circuit diagram, with the carbon slip springs 21, 22, 23, 24 for a better overview are omitted for the sake of Fig. 4 the contact disk with current conductor lamella, the is rotated by 180 ° with respect to the position in FIG. 3, FIG. 5 with the contact disk Current conductor lamella, which is rotated by 27o ° compared to the position in Fig. 3.

On the drive shaft 3 (Fig. 1, 2) sits the contact disk i. It has a circular shape and is made of electrically non-conductive material. The current conductor lamella 2, made of copper or similar material, is fitted into its outer arc of a circle. They are arranged so that their mutual distance is go °. The power supply contacts 4 and 5 (Fig. 3) are connected by power lines 6 and 7 to the electrical luminous elements 8 and g on the one hand and the power lines io and ii on the other hand. 12 is an electrical switch of known design and 13 the power line to the positive pole of the vehicle battery 14. 21, 22, 23, 24 are carbon compression springs. 25, 26, 27, 28 are electrical insulations of the carbon brushes from the housing 29. The illustrated embodiments of the subject matter of the invention are exemplary and schematic; she. are only intended to illustrate the underlying principles of the invention. Mode of operation: When the contact disk i is rotated clockwise (driven by components that are dependent on the vehicle movement, e.g. the speedometer drive shaft, the vehicle cardan shaft, the vehicle wheels), the current conductor lamella 2 alternately provides current passage through the electrical luminous elements 8 and g by the current following the path must do (Fig. 3): From 13 via the closed switch i2 to 11, 1o ,. g, 7, 5 to 2. From there on to zg, 17 or 2o, 18 via 16, 15 back to the negative pole of the vehicle battery serving as a power source , 8, 6, 4, 2 from there further (Fig. 3) to ig, 17, 16, 15, 14 or 2o, 18, 16, 15, 14th current path with contact disk position according to Fig. 5: 13, 12, 11, io, 8, 6, 4, 2 and also at the same time via 13, 12, 11, 10, g, 7, 5, 2 then further via ig, 17, 16 and back via 15 to the negative pole of the vehicle battery 14. Through the Current conductor lamella a acting as a current bridge, the circuits 13, 12, ii, io, 8, 6, 4 or 13, 12, 11, 10, g, 7, 5 via ig, 17, 16, 15, 14 or 2o, 18, 16, 15, 14 alternately open and closed, so that the electrical luminous elements 8 and g are alternately switched on and off, as further shows the schematic mode of operation according to FIG Advance clockwise from its starting position, cautiously the electrical luminous bodies 8 and g are as follows: Contact disc or electrical one lights up Stro ml pus lame ll e l Se ttings Le u chtkörper 1 9 , 5, 20 8 not g long 5, 20, 4 9 short 8 long 20, 4, 19 9 not 8 long 4, 19, 5 8 short g long The simultaneous lighting up of 8 and g is only momentary, because the initial stage of one luminous element coincides with the final stage of the other luminous element. This reciprocity on the one hand and the spatial distance between the two luminous bodies on the other hand, for example 60 to 70 millimeters, creates the visual impression of a ball of light moving back and forth or up and down between 8 and g as a new flashing light effect with the following properties: As long as the motor vehicle For example, if the speed is up to qo km / h and the contact disc rotates slowly, the visual impression of the ball of light moving back and forth or up and down remains. However, from the point in time when the light change takes place so quickly that the optical limit of inertia of the eye is overcome, each of the two luminous bodies appears as an independent flashing light, ie from then on each luminous body gives flashing light signals which appear mutually independent. In the device shown, the flashing light effect according to the invention thus breaks down into two sharply separated manifestations, form x: a ball of light moving up and down, which is proportionally adapted in its change to the prevailing vehicle speed, up to, for example, qo km / h, according to the vehicle movements: start-up , Accelerate, slow down or brake until stopping.

Form 2: the flashing light signals appear from each of the two luminous bodies starting as mutually independent flashing light signals according to Vehicle movements at speeds above ¢ o km / h and the respective prevailing Speed proportionally adjusted flashing frequency.

In summary, the illustrated device results in the following types of signal light, automatically triggered: r. steady, steady signal light when the vehicle is stationary; 2. Signal light in the form of a light ball moving up and down (light migration) up to the specified speed of about q.o km / h; 3. Signal light in shape of separate flashing lights as soon as the vehicle speed is above the set Maximum value goes beyond; q .. signal light signals whose frequency is proportional Dependence on the prevailing vehicle speed runs. Comes the Contact disk z to a standstill, this is the case as soon as the vehicle reaches the speed value If zero is reached, at least one of the above-mentioned circuits is through the current conductor lamella 2 closed, regardless of the point at which the contact disk comes to a standstill may also take place. This is also possible from Fig. 3, q. and 5 with any intermediate positions the contact disc. It therefore always arises when the contact disk has come to a standstill Signal steady light.

Claims (2)

PATENT CLAIMS: r. Electric flashing signal light and quiet signal light device for motor vehicles and rail vehicles, characterized by a contact disk arrangement with an interrupter circuit for at least two spatially separated signal lamps, wherein the contact disk rotates depending on the vehicle speed and thereby each time there are such current pulses for the signal lamps that are offset from one another, that this flashing light is generated, the frequency of which is proportional to the vehicle speed grows, so that when driving slowly the impression of a signal lamp to other wandering light balls, on the other hand the impression of being separated when driving fast Flashing signals are generated and a steady light is achieved when the vehicle is stationary. 2. Device according to claim z, characterized in that a known circuit breaker is used, the contact disc (z) has a current conductor lamella (2) whose arc length is determined by the quotient 36o divided by the sum of the existing lamp connections of the device furthermore symmetrically arranged power supply and power dissipation contacts (q., 5, zg, 2o) in alternating order, the total number of which is given by the formula sum of the luminous element connections times two. Cited publications: German patent specifications No. 567 80 =, 705 72g.