[0001] The subject of the invention is an electronic warning device, which - when used instead
of the traditional arrow with fluorescent stripes on one side and the fog light -
is suitable for more efficient warning and thus improvement of traffic safety.
Vehicles stranded on the road, moving slowly or being towed constitute a serious traffic
obstacle, thus a source of danger to other vehicles, consequently warning signals
have to be applied to inform vehicles traveling in the same lane. Passive warning
devices - especially when lit by reflectors - can be effective in some cases, but
they can only be noticed from a short distance and offer little help in conditions
offering poor visibility. On the other hand, placing and affixing the device in order
to provide for unequivocal warning and stable fastening is also cause for concern.
The warning device according to
Hungarian patent application number P93 01972 wishes to achieve warning with lights by equipping the warning device to be affixed
to the traffic obstacle with an electric circuit charged by the reflectors of passing
vehicles and a lighting apparatus connected to the circuit, whereby the rechargeable
circuit - when charged and passed by the light of the reflectors - turns on and powers
the signaling device until the charge is depleted. This warning device has not spread,
probably because it doesn't give enough of a warning.
[0002] The aim of the invention is to combine the known passive warning arrow and signaling
lights in such a way as to provide for more effective warning and more expedient ways
of affixing the device.
This is achieved by installing an individually supplied low-consumption light source
in a lightweight device fashioned in the shape of a flat arrow, and coating its frontal
surface with a transparent, photomultiplying diffusing coating, and equipping its
flat back surface with a magnet, and in a given realization the base end or the middle
part (near the center of gravity) of the arrow is supplemented by an assembly allowing
for rigid suspension or hanging.
[0003] The solution according to the invention is thus an arrow-shaped electronic warning
device suitable for self-bearing fastening and emitting flashing light,-whereby an
integrated power supply, an integrated control unit and connected to them, affixed
to the inner side of the back panel, optoelectronic lighting units are installed in
a flat, arrow-shaped housing, the outer surface of the back panel being magnetically
coated, and the coating on frontal surface of the housing is transparent to light,
the coating comprising light-diffusing optical subsystems, and in a given realization
the base end or the middle part of the arrow shape is supplemented by a fixture suitable
for attaching an assembly allowing for hanging or a snap-on support.
In an expedient realization of the invention according to the invention the power
supply is an extra low voltage battery, the lighting units are LEDs, the control unit
is a free-running multivibrator equipped with a switch, and the optical subsystem
is formulated by fashioning composite lens eyes by varying the thickness of fluorescent-colored
transparent cover in front of the light sources.
[0004] In a given realization the back panel of the housing is almost completely covered
by the permanently affixed (e.g. glued) magnetic plate, in some realizations the housing
is equipped with a snap-on support or a tapped hole at the base end or near the canter
of gravity of the arrow shape suitable for attaching a hanging or flat spring assembly.
[0005] The electronic warning device according to the invention is detailed through figures
where figure:
- 1
- is an axonometric representation of an expedient form of realization of the device;
- 2
- is the circuit diagram of an expedient form of realization;
- 3
- is a frontal view of an expedient arrangement of the light-diffusing optical subsystems
in the transparent frontal cover;
- 4
- is a section view of a possible optical subsystem of the transparent cover;
- 5
- is an axonometric representation of an expedient form of realization of the snap-on
support;
- 6
- is an axonometric representation of a form of realization of the screw-on assembly.
Figure 1 illustrates an expedient form of realization of the device from the back. The lightweight,
flat arrow-shaped 1 housing contains an integrated 3 electrical supply, a 4 control unit affixed to an optoelectrical panel, and low-consumption 5 lighting units; a significant part of its 2 back panel is covered by 8 a magnet. The 3 electric supply can be reached through the opening-closing panel at the base of the
arrow shape; the 4 flashing lights can be operated through the 14 switch on the outside of the 1 housing. The 2 bottom plate and 6 transparent front cover of the 1 housing are secured by screws. In a given realization the 1 housing is equipped with a 13 tapped hole near the center of gravity of the arrow shape allowing for affixing a
hanging assembly.
Figure 2 is the circuit diagram of an expedient form of realization, in which the 3 electrical supply comprises a few extra low voltage (AAA) batteries, the 5 lighting units are LEDs, the 4 control unit is a free-running multivibrator operated by a 14 switch.
Figure 3 illustrates a possible optical subsystem of the transparent cover. The 6 fluorescent colored transparent cover, possibly of a material resistant to heat and
ultraviolet rays is above the 5 lighting unit integrated into the optoelectronic panel attached to the back panel,
separated by a small 9 air gap, and 10 collecting-dispersing lenses are fashioned in the transparent cover by varying the
thickness of the transparent material. In this case the light of the LED spreading
over 15 degrees is focused by the curve of the collecting-dispersing lens, then passed
on dispersed over 70 degrees.
Figure 4 illustrates an expedient arrangement of the light-dispersing optical subsystem in
the 6 transparent cover of the front surface. Regarding the front surface from close up
depressions can be seen above the 7 optical subsystems (eyes). In the case of the placement most expedient for light
dispersion each 7 optical subsystem is positioned above a 5 lighting unit.
[0006] Figure 3 illustrates a
15 snap-on support, which is attached to the 1 housing from the direction of the
2 back cover, and using which the device according to invention can be rigidly attached
to any flat object (e.g. window glass) from its base end.
[0007] Figure 6 shows a possible form of the
16 flat spring assembly, which can be screwed onto the
1 housing, and which allows for various types of rigid fixing according to which part
of the device and in what configuration it is attached. It is expedient to configure
13 tapped holes on various points (e.g. at the base or near the center of gravity on
the side ore the back plate) of the
1 housing of the device according to the invention to allow the user to find the most
expedient way and position of affixing the device.
[0008] The device according to the invention offers more of a warning than conventional
warning devices, and it can also be affixed to allow for greater stability and visibility,
as - thanks to its magnetic backing - it can be attached to the vertical back surface
of the vehicle in one simple movement or may be affixed to a slightly opened window
or door latch in the desired direction using the screw-on flat spring support. The
form of realization illustrated in the figure offers reliable operation and about
10 hours of operation with long-life batteries without the need for battery change.
[0009] The device according to the invention is economical to manufacture thanks to its
inexpensive and simple parts, and offers manifold applicability and fills a void in
traffic safety because of the clear warning it gives.
[0010] References used in the illustrations:
- 1
- housing;
- 2
- bottom plate;...
- 3
- electric supply;...
- 4
- control unit;
- 5
- lighting unit;
- 6
- (transparent) cover;
- 7
- optical subsystem;
- 8
- magnet;
- 9
- air gap;
- 10
- collecting-spreading lens;
- 11
- (fastening) screw;
- 13
- tapped hole;
- 14
- switch;
- 15
- snap-on support;
- 16
- (screw-on) assembly;
1. An electronic warning device suitable for self-bearing attachment and emitting flashing
light - characterized by a flat, arrow shaped housing with an integrated power supply (3), an integrated control unit (4), optoelectronic lighting units (5) connected to the former and attached to the back panel (2) of the housing (1); a transparent front cover (6) on the housing (1), which cover (6) comprises light-dispersing optical subsystems (7); and part of the back panel (2) being magnetically coated (8).
2. The device according to claim 1 characterized by having eyes containing collecting-diffusing lenses (10) as a light-diffusing optical subsystems (7) in the transparent cover (6) above the individual lighting units (5).
3. The device according to claims 1 and 2 characterized by a housing (1) made of plastic, an extra low voltage battery as a power supply (3), LEDs as lighting units (5), and the control unit (4) being a free-running multivibrator equipped with a switch (14), the transparent front cover made of fluorescent colored, plastic resistant to heat
and UV-radiation, the eyes containing the collecting-dispersing lenses (10) being formulated by varying the thickness of the material of the cover (6), and having a permanently fixed thin magnetic plate on the outer surface of the
back panel (2) of the housing.
4. The device according to claim 1 characterized by having a snap-on support (15) that can be attached to the back panel (2) of the housing (1).
5. The device according to claim 1 characterized by having a tapped hole (13) at the base end of the arrow-shaped housing (1), and a screw-on hanging assembly.
6. The device according to claim 1 characterized by having a tapped hole (13) near the center of gravity of the arrow-shaped housing (1), and a screw-on hanging assembly.