KR101595313B1 - A road guide apparatus - Google Patents

Abstract

[0001] The present invention relates to a route guidance apparatus capable of identifying a feature using a laser in a dark state, in a dark state, comprising a laser body for irradiating a point light source, a power supply unit for supplying power to the laser body, A case for accommodating the power supply unit, a light conversion member positioned in front of the laser irradiation unit for irradiating the laser light to convert the point light source into a path mark so as to confirm the forward state of the wearer in the traveling direction, And fixing means for mounting to the wearer.
Therefore, the road guide mark is displayed in front of the wearer's head to prevent safety accidents caused by the land surface, and the land surface can be easily grasped even in the dark.

Description

Description of the Related Art [0002] A road guide apparatus,

Field of the Invention [0002] The present invention relates to a route guiding apparatus capable of identifying a feature using laser in darkness and night.

Generally, when a fire occurs, a thick smoke is generated which is mixed with various gases pyrolyzed by hot air. This dark smoke blocks the field of view, so it can not be evacuated because the feature is not visible, and there is a problem that prevents the firefighter from evolving.

In order to solve such a problem, there has been disclosed a "nozzle for fire suppression using a laser" of Korean Registered Utility Model No. 20-0319375 (registered on Jun. 26, 2003).

A nozzle for fire suppression using a conventional laser is connected to a hose of a fire engine or a fire hydrant at a fire occurrence part and is sprayed with water through a connected hose so as to suppress the fire. A nozzle is installed on the other side of the connecting member in order to discharge the fire water in the place where the fire is generated and the fire extinguishing water sprayed through the nozzle is sprayed to the upper part of the housing A position display means is provided and is configured to be capable of performing digestion, position confirmation, route guidance, and the like through a position display, a lighting function, and a smoke inspecting function with respect to a fire point (fire position) using the laser of the position display means .

The laser nozzle for fire suppression using this type of laser was able to confirm the direction of spraying the fire water using the laser, thus preventing the fire water from being sprayed in the other direction and accelerating the fire suppression.

However, there is a problem that it is difficult not only to identify the target in a state where there is no nozzle, but also to identify the feature only by aiming the target.

Korean Patent Publication No. 10-2003-0021341 (published on Mar. 15, 2003)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and method for identifying a land feature, And to provide a route guidance apparatus capable of identifying a feature using a laser which is easy to carry.

According to another aspect of the present invention, there is provided a device for identifying a feature using a laser, comprising: a laser main body for illuminating a point light source; a power supply for supplying power to the laser main body; A case for accommodating the power supply unit, a light conversion member positioned in front of the laser irradiation unit for irradiating the laser light to convert the point light source into a path mark so as to confirm the forward state of the wearer in the traveling direction, And fixing means for mounting to the wearer.

The point light source may be diffused and irradiated so that the size of the light guide mark gradually increases as the distance at which the light guide mark is irradiated increases.

The path guide mark may include a front sight guide line irradiated in a linear shape to the front bottom of the wearer and deformed according to the shape of the floor.

The path guide mark may include a right-side and left-eye view guide lines that are irradiated to the left and right bottoms of the wearer and deformed according to the shape of the left and right topographical objects.

The front sight guiding line and the left and right sight guiding lines may cross each other in a cross shape.

And a landmark size adjusting unit for adjusting a distance between the light converting member and the laser main body to adjust the size of the road guide mark irradiated through the light converting member.

And an angle adjusting unit for adjusting the angle of the case in the fixing unit so as to adjust an angle of the up and down direction of the illuminated direction indicator.

And a heat insulating layer disposed inside the case and insulated from the outside of the case.

And a coolant filled in the heat insulating layer to cool the laser main body.

The case may include a filling port for filling the refrigerant.

According to the present invention, a road guide mark is displayed in front of a wearer to prevent a safety accident caused by a feature item, and the feature item can be easily identified even in the dark.

Further, the distance between the laser main body and the light conversion member can be adjusted by the landmark size adjusting unit, and the size of the road guide mark can be adjusted.

Further, the angle at which the path guide mark is irradiated can be adjusted by the angle adjusting portion.

Further, it can be attached to the wearer by means of the fixing means, which makes it easy to carry.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a device for identifying a feature using a laser according to an embodiment of the present invention; FIG.
2 is a side cross-sectional view of a device for identifying a feature using a laser according to an embodiment of the present invention.
3 is a front view of a device for identifying a feature using a laser according to an embodiment of the present invention.
4 is a perspective view showing a point light source of a path guide device capable of identifying a feature using a laser, according to an embodiment of the present invention, passing through the light conversion member.
FIG. 5 is a perspective view showing a route guide mark of a device capable of identifying a feature using a laser according to an embodiment of the present invention. FIG.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

In the present specification, the front means the direction in which the point light source is irradiated, and the rear means the opposite direction in front.

As shown in FIGS. 1 to 4, the laser-based feature identification apparatus 100 according to the embodiment of the present invention may include a power supply unit 140.

The power supply unit 140 can supply power to the laser main body 150.

On the other hand, the power supply unit 140 can be accommodated in the rear of the case 110, which will be described later, and can be opened or closed by the sealing means 180 described below to easily replace the power supply unit 140 have.

The power supply unit 140 may include a rechargeable nickel cadmium battery, a nickel metal hydride battery, a lithium ion battery, a secondary battery such as a lithium polymer battery, or a portable and replaceable power source such as a primary battery.

The device 100 for identifying the feature using the laser according to the embodiment of the present invention may include a laser main body 150.

The laser main body 150 is formed in a cylindrical shape and can be received in front of the case 110.

The laser main body 150 may include a diode 151.

The diode 151 can irradiate the laser of the point light source.

Here, a plurality of diodes 151 may be provided to enhance the brightness.

On the other hand, the diode 151 can be turned on or off by the switch 120.

The laser main body 150 may include a lens 155.

The lens 155 may be positioned in front of the diode 151. [

Meanwhile, the lens 155 may include a first lens 157 and a second lens 159.

The first lens 157 and the second lens 159 can condense the light emitted from the diode 151 and emit the condensed light to the point light source.

For example, either the first lens 157 or the second lens 159 may be implemented as a combined lens, and the other may be implemented as a condenser lens.

The path guide device 100 for identifying a feature using a laser according to an embodiment of the present invention may include a case 110.

The case 110 can receive the power supply unit 140 and the laser main body 150.

The case 110 is formed in the shape of a box with the rear open and can be replaced with the rear side of the case 110. The front side of the case 110 is provided with a marking irradiation hole 130 May be formed.

In addition, the case 110 may include a filling port 111.

The filling port 111 can inject the refrigerant 115.

Meanwhile, the filling port 111 may be formed to penetrate the upper portion of the case 110, and the filling port 111 may be closed by the cap 113.

The case 110 may include a refrigerant 115.

The coolant 115 may be configured to surround the periphery of the laser main body 150. The coolant 115 may take the heat generated from the laser main body 150 to prevent the efficiency of the laser main body 150 from being lowered can do.

Further, the refrigerant 115 may be implemented by an alcohol, water, an aqueous solution of calcium chloride, saline, ethylene glycol or the like, but may also be a known gas capable of absorbing heat.

The case 110 may include a heat insulating layer 118.

The heat insulating layer 118 is installed on the inner surface of the case 110 to insulate the case 110.

On the other hand, the heat insulating layer 118 may be formed of a heat insulating material such as urethane, styrofoam, glass fiber, or silicone.

The heat insulating layer 118 may be formed by forming a refrigerant receiving space in the case 110 and filling the refrigerant receiving space with the refrigerant 115.

By forming the heat insulating layer 118 inside the case 110, heat inside and outside of the case 110 can be prevented from being transmitted to each other.

And, the case 110 may include a switch 120.

The switch 120 may turn on or off the power supplied from the power supply unit 140 to the laser main body 150 to turn on or off the navigation apparatus.

On the other hand, the switch 120 may be implemented with the button switch 120.

The path guide device 100 capable of identifying the feature using the laser according to the embodiment of the present invention may include a mark size controller 160.

The mark size adjusting unit 160 may be formed to surround the marking irradiation hole 130.

Meanwhile, the mark size adjusting unit 160 may adjust the distance between the laser main body 150 and the light converting member 165, which will be described later.

In this case, the marker size adjusting unit 160 forms a screw thread so that the inner circumferential surface of the marker size adjusting unit 160 and the outer circumferential surface of the marking irradiation hole 130 are engaged with each other and the marker size adjusting unit 160 is rotated clockwise or counterclockwise The distance between the laser main body 150 and the light conversion member 165 can be adjusted.

Alternatively, protrusions or grooves respectively formed on the outer circumferential surface of the case 110 and the inner circumferential surface of the landmark size control section 160 may be engaged to adjust the distance between the laser main body 150 and the light conversion member 165 in a sliding manner.

Therefore, when the distance between the diode 151 and the light conversion member 165 is narrowed by the marker size adjusting unit 160, the distance to which the light guide mark 170 is irradiated becomes narrow, and the light guide mark 170 And the distance between the diode 151 and the light conversion member 165 is increased, the distance to which the path guide mark 170 is irradiated may be distanced and the size of the path guide mark 170 may be increased.

In addition, the marker size adjusting unit 160 may include a light conversion member 165.

The light conversion member 165 can be converted into a road marking 170 by passing or reflecting the point light source.

The light conversion member 165 is arranged in a plurality of semi-cylindrical shapes parallel to the center of the laser main body 150 when viewed from the front of the laser main body 150, A plurality of semicircular cylinders may be arranged in the lateral direction and a plurality of semicircular cylinders may be arranged in the longitudinal direction on the other side.

For example, when the point light source irradiates the light conversion member 165, the point light source is extinguished at the portion where the plurality of light conversion members 165 are abutted, diffused at the convex portion and irradiated in a straight line, Can be converted.

The navigation marker 170 may include a forward-looking guide line 171.

The front sight line guide 171 is extinguished at the butted portion of the light conversion member 165 arranged in the transverse direction and diffused in the convex portion so that the point light source can be converted into a straight shape.

Therefore, when the front eye guide line 171 is irradiated to the front bottom of the wearer, it can be seen to be deformed according to the shape of the floor.

For example, if there is a hole in the front, it may be displayed in a straight line only in the remaining portion except for the hole, or in the form of a bent line when an object exists.

In addition, the path guide mark 170 may include a left and right sight guide line 175.

The left and right viewing guide lines 175 are extinguished at the butted portions of the light conversion members 165 arranged in the longitudinal direction and diffused in the convex portions so that the point light sources can be converted to the left and right directions.

Accordingly, when the right and left eyeballs 175 are irradiated to the left and right bottoms of the wearer, they can be deformed according to the shape of the left and right topographical objects.

For example, when there is a wall or an object on the left and right, the line can be deformed into a bent shape.

The front sight line guide 171 and the left and right sight line guides 175 may be irradiated in a direction intersecting with each other, and the length of the distance guide mark 170 may be more than 1M.

The path guide device 100 for identifying the feature using the laser according to the embodiment of the present invention may include the sealing means 180.

 The sealing means 180 may be formed in the shape of a plate and may seal the open portion where the power supply portion 140 of the case 110 is located.

The device 100 for identifying the feature using the laser according to the embodiment of the present invention may include an angle adjusting unit 181.

The angle adjuster 181 adjusts the angle of the case 110 in the up and down direction and adjusts the angle of the illumination of the road guide mark on the floor.

The angle regulating portion 181 may be coupled to the rear of the sealing means 180 and may be formed in the shape of a plate. The angle regulating portion 181 is coupled to the lower portion by the sealing means 180 and the rotary shaft so as to be rotatable, The angle of the case 110 can be adjusted.

The device 100 for identifying the feature using the laser according to the embodiment of the present invention may include the fixing means 185.

The fastening means 185 can be mounted on the wearer.

On the other hand, the fixing means 185 may be embodied as a band for covering the head, a Velcro tape for detachably coupling, and a hook for putting on a belt, a pocket or the like. The securing means can also be embodied by various known means for attaching the guiding device to the wearer.

The operation and effect between the above-described respective constitutions will be described.

A laser source 150 is installed in front of a case 110 and a power supply unit 140 is disposed at a rear of the case 110. The laser source 150 is installed in front of the case 110, And a heat insulating layer 118 is installed inside the case 110. The heat insulating layer 118 is formed of a material having heat conductivity.

A diode 151, a first lens 157 and a second lens 159 are accommodated in the laser main body 150. The periphery of the laser main body 150 is filled with the coolant 115. [

A laser beam is irradiated onto the surface of the laser light source 150 and the laser light emitted from the laser light source 150 is incident on the laser light source 150, Adjust the gap.

The fixing means 185 is coupled to the rear of the sealing means 180 and both sides and the upper portion of the fixing means 185 can be coupled to the wearer by a fixing band.

In the path guide device 100 capable of identifying the feature using the laser according to the embodiment of the present invention, the plug 113 coupled to the case 110 is detached and the coolant is injected into the fill port 111 The user closes the filling port 111 with the stopper 113, and then the wearer uses the fixing means 185 to engage with a part of the body.

When the switch 120 is pressed, the power supply unit 140 provides power to the diode 151. [ The point light source of the diode 151 provided with electric power is converted into the road marking mark 170 through the first lens 157, the second lens 159 and the light conversion member 165. [

Here, if the size of the road guide mark 170 is large, the marker size adjusting unit 160 is rotated clockwise or counterclockwise. The distance between the laser main body 150 and the light conversion member 165 is narrowed and the distance to which the path guide mark 170 is irradiated is narrowed by rotating the mark size control unit 160, . On the other hand, if the size of the road guide mark 170 is small, the marker size adjusting unit 160 is rotated clockwise or counterclockwise. The distance between the laser main body 150 and the light conversion member 165 is increased and the distance to which the path guide mark 170 is irradiated is increased and the size of the path guide mark 170 is increased It grows.

In addition, the angle of the case 110 is adjusted by the angle adjusting unit 181 so that the road marking mark 170 can be irradiated toward the floor.

Accordingly, the path guide device 100 capable of identifying the feature using the laser according to the embodiment of the present invention is capable of preventing a safety accident caused by the feature item by displaying the path guide mark 170 in front of the wearer, , The feature can be easily identified even in the dark.

Further, the distance between the laser main body 150 and the light converting member 165 can be adjusted by the landmark size adjusting unit 160, and the size of the landing marker 170 can be adjusted.

Further, the angle adjusting unit 181 can control the angle at which the path guide mark 181 is irradiated.

Further, it can be attached to the wearer by means of the fixing means 185, which makes it easy to carry.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And all changes and modifications to the scope of the invention.

100: Identification of a feature using a laser
110: Case 111: Charging port
113: plug 115: refrigerant
118: insulation layer 120: switch
130: Marker irradiation hole 140: Power supply unit
150: laser main body 151: diode
155: Lens 157: First lens
159: Second lens 160: Marker size adjusting section
165: photo-conversion member 170: road marking
171: Front view guide line 175: Left and right view guide lines
180: sealing means 181: angle adjusting portion
185: Fixing means

Claims (10)

A laser main body for irradiating a point light source,
A power supply unit for supplying power to the laser main body,
A case for accommodating the laser main body and the power supply unit,
A light conversion member positioned at a front side irradiated from the laser main body and converting the point light source into a path guide mark so as to illuminate the front point of the traveling direction of the wearer,
And fixing means provided on the case for mounting to the wearer,
Wherein the guide mark includes a front sight guide line irradiated in a linear shape to the front bottom of the wearer and deformed according to the shape of the floor,
The path guide mark includes right and left eye guide lines of a straight shape that are irradiated to the left and right bottoms of the wearer and deformed according to the shape of the feature in the left and right direction,
The light conversion member
A plurality of semicircular cylinders are arranged vertically in the upper portion of the point light source, and the point light sources are extinguished in the portions where the semicircular elements are butted against each other, and the point light sources are diffused in the convex portions, Conversion,
A plurality of semicircular cylinders are arranged in the horizontal direction at the lower portion of the point light source, and the point light sources are extinguished at the portions where the semicircular elements are in contact with each other, and the point light sources are diffused at the convex portions to convert the left and right eye- Wherein the laser is a laser beam. The method according to claim 1,
The light conversion member
Wherein the point light source is diffused and irradiated so that the size of the path guide mark increases as the distance to which the path guide mark is irradiated increases. delete delete The method according to claim 1,
Wherein the front sight guiding line and the left and right sight guiding lines cross each other in a cross shape. A device for the identification of features using lasers. The method according to claim 1,
And a landmark size adjusting unit for adjusting the distance between the light converting member and the laser main body to adjust the size of the road guide mark irradiated through the light converting member. Guide device. The method according to claim 1,
And an angle adjusting unit for adjusting an angle of the case in the fixing unit so as to adjust an angle of the up and down direction of the road guide mark. The method according to claim 1,
And a heat insulating layer installed inside the case and insulated from the outside of the case. 9. The method of claim 8,
And a coolant filled in the heat insulating layer to cool the laser main body. 10. The method of claim 9,
The case
And a filling port for filling the coolant.

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