KR101776249B1 - Laser safety tripod for vehicle - Google Patents

Abstract

The present invention relates to a laser safety tripod for a vehicle capable of indicating a dangerous situation when a vehicle can not be operated due to a vehicle malfunction or other reasons.
The present invention relates to a beam output module 200 for emitting visible light using a semiconductor laser and diffusing a visible light beam to form a safety mark and a beam output module 200 combined with the beam output module 200, A power supply module 400 for providing driving power to the beam output module 200 and the height adjustment module 600 and a power supply module 400 for supplying power to the height adjustment module 600 The case 610 includes a case 610 having an outer appearance and a predetermined space formed in the height adjusting module 600. The case 610 includes a case 610 and a case 610, A slider 640 slidably moved by the rotation of the traverse cam 660 and a slider 640 slid along the outer surface of the case 610 while the slider 640 and the beam output module 200 An outer guide 620 connecting the outer guide 620, A guider 650 connecting the slider 640 and the traverse cam 660 while moving along a cam groove formed in the rabbet cam 660 and a driving motor 680 for rotating the traverse cam 660 do. According to the present invention, it is possible to improve the visibility of the trailing driver by forming various safety signs with a simpler structure.

Description

[0001] The present invention relates to a safety tripod for a vehicle,

The present invention relates to a laser safety tripod for a vehicle capable of indicating a dangerous situation when a vehicle can not be operated due to a vehicle malfunction or other reasons.

The National Road Traffic Act stipulates the installation of safety tripods on roads to prevent accidents caused by secondary accidents when the vehicle can not be operated due to vehicle breakdown, contact accident or other reasons.

Generally, the safety tripod is composed of an assembly including an emission reflection plate, and when the installation situation occurs, a driver of the vehicle moves to a distance of 150m to 200m behind the installation.

However, in such a case, not only is the installation process troublesome, but also a dangerous situation due to a vehicle running at high speed may occur.

In addition, the safety tripod according to the related art is insufficient to actively display a dangerous situation according to the use of a light emitting reflector, and has a very low recognition rate in a weather condition where the visibility of the driver is low.

On the other hand, in order to solve the problems of the related art as described above, Korean Patent Laid-Open Publication No. 10-2013-004669, entitled " Virtual Tripod ", discloses a technique capable of forming a virtual tripod on a driveway or in the air using a beam projector .

In the prior art, a control signal is input to a sensing signal input unit to which vehicle state information is input, a control unit for determining whether the vehicle is abnormal based on state information of the vehicle, and outputting a signal for driving the beam projector when an abnormality occurs in the vehicle, And a beam projector driving unit for driving the beam projector according to an output driving signal.

Accordingly, the prior art document has an advantage that a warning can be given to the following vehicle immediately without installing a tripod.

However, in the case of the prior art as described above, the control structure is complicated due to the presence of a fault in the vehicle based on the detection signal through the sensor, and a virtual tripod is formed through the beam projector driving unit. There is a problem that the user can not arbitrarily drive the virtual tripod as needed.

KR 2013-0046669 A

SUMMARY OF THE INVENTION An object of the present invention is to provide a safety tripod for a vehicle, which can be mounted on a vehicle and change the position and shape of a cover, if necessary, so as to notify a trailing driver of a dangerous situation.

The present invention relates to a beam output module for emitting visible light using a semiconductor laser and diffusing a visible light beam to form a safety mark, and a beam output module coupled to the beam output module, A power supply module for providing driving power to the beam output module and the height adjustment module, and an attachment means for mounting the height adjustment module on the vehicle, wherein the height adjustment module forms an outer appearance, A slider that slides by the rotation of the traverse cam; a slider that slides along an outer surface of the case and connects the slider to the beam output module, And a guide groove formed in the traverse cam, Guider for connecting the cam and the switch is characterized in that the drive comprises a motor for rotating the traverse cam.

A laser pointer for emitting a visible light beam of a low power laser beam and a visible light beam diffused through the laser pointer to form a safety marker, And a diffusing means for diffusing the liquid.

And the diffusion transmitting means is an OPP film.

According to another aspect of the present invention, there is provided an optical module including a beam output module for emitting visible light using a semiconductor laser and diffusing a visible light beam to form a safety mark, And a power supply module for supplying driving power to the beam output module and the height adjustment module, wherein the height adjustment module includes a case having an outer appearance and a predetermined space formed therein, An outer guide that connects the slider and the beam output module while sliding along an outer surface of the case, and a guide member which is provided on the traverse cam, A guider connecting the slider and the traverse cam while moving along the traverse cam, And a driving motor configured to rotate the cam, wherein the beam output module moves up and down by a predetermined range when the driving motor is rotated by the traverse cam to form a safety mark.

The case may further include attaching means for attaching the height adjusting module to the vehicle, and a switch provided on the side of the case at different heights, the switch being selectively turned on / off according to a moving position of the slider .

The beam output module is further provided with a proportional controller for controlling an output of the laser pointer by a plurality of switches formed on a side surface of the case.

The case has attachment means for attaching the height adjustment module to the vehicle, and further includes a plurality of sensors provided at side surfaces of the case at different heights for sensing a moving position of the slider, The output module may further include a proportional controller for controlling an output of the laser pointer according to a moving position of the slider sensed by the plurality of sensors.

Wherein the attaching means is formed of a magnetic material attached to the vehicle by a magnetic force or an elastic rubber material adhered to the vehicle by being compressed in close contact with the vehicle to form a vacuum state.

According to the present invention, a user can easily mount a vehicle on a vehicle if necessary, and the beam height of the beam is constantly varied by the height adjustment module in a mounted state.

That is, in the present invention, the height of the beam output module is continuously adjusted up and down by a traverse cam and a slider that reciprocates linearly upward and downward along the traverse cam, thereby changing the safety mark position mechanically while maintaining the basic control state of the laser beam The visibility of the trailing driver can be improved.

In addition, since the laser beam irradiation pattern of the beam output module can be varied in a state where the safety mark position is mechanically changed as described above, the safety mark can be informed to the trailing driver in various forms and positions, It has an advantage that it can be prevented.

1 is a block diagram schematically showing the configuration of an embodiment of a laser safety tripod for a vehicle according to the present invention;
2 is a block diagram schematically illustrating another embodiment of the present invention.
FIG. 3 and FIG. 4 are views for showing the outer shape and the height adjustment form of the laser safety tripod for a vehicle according to the present invention. FIG.
5 and 6 are views for explaining a detailed structure of a height adjusting module which is a main constituent of the present invention.
FIG. 7 and FIG. 8 are views showing an installation mode of a safety tripod for a vehicle according to the present invention. FIG.

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings. It is to be understood, however, that the spirit of the invention is not limited to the embodiments shown and that those skilled in the art, upon reading and understanding the spirit of the invention, may easily suggest other embodiments within the scope of the same concept.

FIG. 1 is a block diagram schematically showing a configuration of an embodiment of a laser safety tripod for a vehicle according to the present invention. FIG. 2 is a block diagram schematically showing another embodiment of the present invention, 3 and FIG. 4 are views showing the shape and height-adjusting form of the laser safety tripod for a vehicle according to the present invention.

Referring to these drawings, the laser safety tripod for a vehicle according to the present invention allows a driver to mount a vehicle on a vehicle and to recognize a safety indicator from a rear driver through a laser beam.

To this end, a laser safety tripod for a vehicle according to the present invention includes a beam output module 200 for emitting visible light using a semiconductor laser, diffusing visible light rays to form a safety marker, 200 and a power supply module 400 for providing driving power to the beam output module 200 and the height adjustment module 600. [

The beam output module 200 includes a housing 210 forming an outer appearance, one or more laser pointers 240 provided inside the housing 210 to emit visible light of a low power laser beam, And diffusion transmitting means 230 for diffusing and transmitting a visible light irradiated from the light source 240 to form a safety marker.

The upper portion of the housing 210 provides a mounting position of the laser pointer 240 and the diffusion transmitting means 230 and the lower portion of the housing 210 provides a height adjustment module 600 And an external guide 620. [0156] The upper portion and the lower portion of the housing 210 are hinged together so that the upper portion can be manually adjusted up and down.

The laser pointer 240 may be provided in a plurality of colors to emit light of various colors. In this embodiment, the laser pointer 240 is composed of a red color having a wavelength of 635 nm, a green color having a wavelength of 532 nm, and a blue color having a wavelength of 445 nm, So that a safety mark can be formed.

As described above, the plurality of laser pointers 240 concentrate the output terminal at the central portion so that the irradiation angle of the light toward the diffusion transmitting means 230 does not have a large difference.

The diffusion transmitting means 230 is configured to diffuse and transmit visible light emitted from the laser pointer 240 to form a triangle-shaped safety mark. In the present embodiment, the diffusion transmitting means 230 is formed by forming an image with an OPP film. The OPP film may be replaceably mounted on the housing 210 if necessary, and may have a predetermined curvature.

Meanwhile, the beam output module 200 configured as described above may be further provided with a proportional controller 220.

The proportional control unit 220 controls on / off the plurality of laser pointers 240 in proportion to the movement position of the beam output module 200 according to the height adjustment module 600, When used, the output level is variably controlled.

In this embodiment, the height of the beam output module 200, which is variable in the height adjustment module 600, is divided into upper, middle, and lower portions, and laser points 240 driven thereby are divided into red / green / , The safety marking is made in different colors at different positions, and when only one red color system is operated, the output can be adjusted according to the height.

5 and 6 are views for explaining a detailed structure of a height adjusting module which is a main constituent of the present invention.

Referring to these drawings, a height adjustment module 600 according to the present invention includes a case 610, a traverse cam 660 provided inside the case 610, a slider 640 moving along the traverse cam 660, 640 and a traverse cam 660 and a driving motor 680 for rotating the traverse cam 660.

In detail, the case 610 is formed hollow and is coupled with the beam output module 200 by the external guide 620 to form a movement path of the beam output module 200. A switch or a sensor connected to at least the power supply switching circuit of the laser pointer 240 is provided in the case 610 so that the moving position of the beam output module 200 can be detected.

The traverse cam 660 has a pair of corrugated cam grooves formed on the outer surface of the body to form a closed curve. A pair of guiders 650 are inserted into the cam groove and the slider 640 is moved along the closed curve so that the slider 640 connected to the guider 650 is automatically turned at the upper and lower ends of the traverse cam 660, 640 perform a sliding reciprocating motion in a certain range up and down.

Meanwhile, the slider 640 slidably reciprocating as described above is coupled to the outer guide 620 using a coupling hole 670. Due to such a coupling structure, the beam output module 200 can be moved up and down The sliding cover is moved to form a safety mark at various positions.

The coupling member 670 may be formed as a fastening protrusion protruding from the inner side of the outer guide 620 toward the slider 640 and fitted to the slider 640, (620). ≪ / RTI >

The power supply module 400 is installed inside the case 610 and provides driving power to the driving motor 680 and the laser pointer 240 and is separately mounted to the driving motor 680 and the laser pointer 240. And a switching circuit for a selective power supply.

When the power supply module 400 supplies driving power to the laser pointer 240, each laser pointer 240 has a separate on / off switching structure. The switch for the laser pointer 240 is connected to the case 610 And can be turned on / off according to the moving position of the slider 640 while interfering with the slider 640.

Although not shown, the power supply module 400 further includes a main switch separately formed in the case 610 or the case 610 and the housing 210 so that the user can manually turn on / off the main power Control.

On one side of the case 610, an attachment means 800 for mounting on a vehicle is further provided.

FIGS. 7 and 8 are views showing a mounting configuration of a safety tripod for a vehicle according to the present invention.

Referring to these drawings, a safety tripod for a vehicle according to the present invention can be mounted on the upper surface of a vehicle or installed on a trunk hood in a state where the trunk is opened and closed.

To this end, the attachment means 800 is formed of a magnetic material and is attached to the outer surface or the trunk hood of the vehicle by magnetism, or formed of an elastic rubber material and pressed against the vehicle outer surface or the trunk hood, Can be mounted.

Hereinafter, the operation of the present invention having the above-described configuration will be described.

When the vehicle driver can not operate the vehicle due to a vehicle failure, a contact accident, or other reasons while driving the vehicle, the laser safe tripod for a vehicle according to the present invention may be mounted on the upper surface of the vehicle or on the upper surface of the opened trunk hood, .

When the installation is completed, the driver rotates the driving motor 680 by supplying the driving power by operating the main switch of the power supply module 400, and light is emitted from the laser pointer 240 to form a safety marker . At this time, the upper part of the housing 210 is manually operated so that light irradiated downwardly has a predetermined inclination toward the ground.

When the drive motor 680 rotates in a state where the safety mark is formed by the beam output module 200 as described above, the slider 640 is moved by the traverse cam 660 in the vertical direction And the beam output module 200 connected to the slider 640 through the external guide 620 is slidably moved upward and downward by a predetermined distance.

Accordingly, the laser safety tripod for a vehicle according to the present invention is continuously adjusted in height up and down in a state where it is installed in a vehicle, so that the irradiation position of the safety marker is continuously variable, thereby improving the visibility of the trailing driver.

In the present invention, a plurality of laser pointers 240 having different wavelengths are provided. By emitting light of different color series according to the position of the beam output module 200, safety markers are formed in various forms, The visibility of the driver can be further improved.

In addition, when the proportional control unit 220 is provided in the beam output module 200, the output of the irradiated light is controlled by controlling the current supplied according to the position of the beam output module 200, A trailing driver can easily recognize this, and avoid a dangerous situation so that the driver can travel.

200 ......... beam output module 210 ......... housing
220 proportional control unit 230 diffusion diffusion means
240 ........ Laser pointer 400 ........ Power supply module
600 ........ height adjustment module 610 ........ case
620 external guide 640 slider
650 ........ Gader 660 ........ Traverse cam
670 ........ coupling part 680 ......... drive motor
800 ........ Attachment means

Claims (8)

A housing 210 which forms an outer appearance of the housing 210; at least one laser pointer 240 provided inside the housing 210 to emit a visible light beam of a low power laser beam; and a diffuser 230 which diffuses visible light emitted from the laser pointer 240 A beam output module 200 configured to include a diffusing transmission means 230 for forming a safety mark to transmit a visible light and diffuse visible light rays to form a safety mark;
A slider 640 slidably moved by the rotation of the traverse cam 660. The slider 640 slides on the slider 640 when the traverse cam 660 slides, An external guide 620 connecting the slider 640 and the beam output module 200 while being slid along the outer surface of the case 610 and an external guide 620 moving along the cam groove formed in the traverse cam 660 A guider 650 for connecting the slider 640 and the traverse cam 660 and a driving motor 680 for rotating the traverse cam 660. When the driving motor 680 rotates, A height adjustment module 600 for allowing the beam output module 200 to form a safety mark while repeatedly moving the beam output module 200 up and down by a traverse cam 660 in a predetermined range;
A power supply module 400 for providing driving power to the beam output module 200 and the height adjustment module 600; And
And attachment means (800) provided on a lower surface of the case (610) for attaching the height adjustment module (600) to the vehicle,
A plurality of sensors provided at different heights on the side surface of the case 610 to sense a moving position of the slider 640,
The beam output module 200 is further provided with a proportional control unit 220 for controlling the output of the laser pointer 240 according to the moving position of the slider 640 sensed by the plurality of sensors,
The plurality of laser pointers 240 are composed of a red series having a wavelength of 635 nm, a green series having a wavelength of 532 nm, and a blue series having a wavelength of 445 nm. And a safety mark is formed on the tripod.
The method according to claim 1,
Characterized in that the diffusion transmission means (230) is replaceably mounted on the housing (210) with an OPP film.
delete delete delete delete delete delete

Images