KR102385468B1 - Led delineator - Google Patents

Abstract

The present invention relates to an LED delinator capable of operating a light emitting display by generating power by itself using wind power without being supplied with power from the outside.
In more detail, it includes a body part 100 and an operation part 200 , the body part 100 includes a casing part 110 ; Fixed power generation unit 120; Support shaft portion 130; and a light emitting unit 140; and a charging unit; the operation unit 200 includes a rotary power generation unit 210; rotating shaft part 220; Rotating wing portion 230; and a bracket unit 240;
On the other hand, the rotary power generation unit 210 is a coil or a permanent magnet, and the outer periphery takes a ring shape corresponding to the inner periphery of the fixed power generation unit 120 and is spaced apart, and the center is threaded through the rotary shaft unit 220 and fixed to each other It is coupled, the rotating shaft 220 is threaded on the support shaft 130 to be rotationally coupled to each other, and the rotational blade 230 is fixedly coupled to the rotational shaft 220 through the bracket 240 . and rotate together

Description

LED DELINEATOR {LED DELINEATOR}

The present invention relates to an LED delinator capable of operating an LED, which is a light emitting display device, by generating power by itself using wind power without being supplied with power from the outside.

A means for supplying electricity by generating electricity by itself using wind power is provided. When the rotating body is rotated by the wind power, the wind power configured to flicker the LED installed in the barrel with the induced current periodically generated from the wheel generator is provided. Registered Utility Model No. 272033 (2002.04.01.) is provided regarding the self-powered light emitting display device used.

The contents are that the shaft supported by the shaft hole on the bottom plate side of the cylindrical body 3 with the permanent magnet 6 for the wheel generator 4 arranged alternately in the circumferential direction at one end of the N-pole magnet and the S-pole magnet 2) and; The armature core 10 and the induction coil 9 for the wheel generator 4 are installed around the shaft hole of the bottom plate 11, and the circuit board 7 with the LED 8 attached to the plate surface of the bottom plate 11 is installed, and the a cylindrical body 3 supporting the shaft 2 so that the permanent magnet assembly 6 is located inside the armature core 10; Among the shaft (1) and the cylindrical body (3), it consists of a blade (1) for a windshield attached to the side of the rotating body, and the cylindrical body (3) is a transparent body, and the charger 14 for the rechargeable battery 13 is attached to the non-rotating body. to be attached

According to the present invention, when a plurality of LED light emitting display units are installed in a certain area, these light emitting display units are not connected on a line, so even if any one of the light emitting display units fails, the other light emitting display units operate completely and there is no external electricity cost, so economic operation is possible. We want to provide a delinator.

Including the body part 100 and the operation part 200, the LED light is emitted by wind power,

The body portion 100 includes a casing portion 110; Fixed power generation unit 120; Support shaft portion 130; and a light emitting unit 140; and a charging unit;

The casing unit 110 includes a bottom plate serving as a support and an upper case protecting the inside,

The fixed power generation unit 120 is a permanent magnet or a coil, and is fixedly coupled to the inside of the casing unit 110 by taking a ring shape,

The support shaft 130 extends vertically upward from the bottom plate by taking an axial form,

The light emitting unit 140 has a vertical hollow formed in the center and is fixed by being threaded through the support shaft unit 130, and provided with an LED display means on the outside,

The charging unit charges the power generated from the operation unit 200 and supplies it to the light emitting unit 140 ,

The operation unit 200 includes a rotary power generation unit 210; rotating shaft part 220; and a rotary wing unit 230;

The rotary power generation unit 210 is a coil or a permanent magnet, and the outer periphery takes a ring shape corresponding to the inner periphery of the fixed power generation unit 120 and is spaced apart, and the middle is threaded on the rotary shaft unit 220 so that the fixed coupling with each other is possible. become,

The rotating shaft part 220 is threaded on the support shaft part 130 and is rotationally coupled to each other,

The rotary wing unit 230 is fixedly coupled to the rotating shaft unit 220 through the bracket unit 240 so that the rotation center rotates together,

including a bracket unit 240;

The bracket unit 240 is threaded on the rotating shaft unit 220 to be fixedly coupled, and the rotary wing unit 230 is fixedly coupled here.

The LED is operated by wind power, and when the rotor blade rotates, the light of the light emitting part blinks, stimulating the driver's visual acuity to maximize visibility. It keeps the visibility to a minimum while driving the vehicle.

1 shows an embodiment according to the prior art.
Hereinafter, as showing examples related to the present invention,
2 is an exploded perspective view.
3 is an assembled perspective view.
4 is a side cross-sectional view.

Hereinafter, a detailed description will be developed with reference to the examples of the drawings.

The delinator of the present invention is composed of a body part 100 fixed to the facility so as not to be rotated, and an operation part 200 that is rotatably coupled to the body part 100 . In the example of the cross-sectional view of FIG. 4 , the body part 100 and the operation part 200 are marked with different colors.

The body portion 100 includes a casing portion 110; Fixed power generation unit 120; Support shaft portion 130; light emitting unit 140; and a charging unit; so that the operation unit 200 can rotate with respect to the body unit 100 using wind power as a power source, it supports.

The casing unit 110 is composed of a bottom plate serving as a support and an upper case extending over the bottom plate and protecting the inside. The bottom plate and the case may be made as a body in a single mold, or may be provided to be separated and combined to facilitate mounting of an internal configuration as illustrated in FIG. 2 .

The stationary power generation unit 120 takes the form of a ring with an empty center in order to generate power, and is disposed and fixed inside the casing unit 110 . The fixed power generation unit 120 is provided as a coil or a permanent magnet, and the charging unit may be disposed in the casing unit 110 together with the fixed power generation unit 120 .

The support shaft portion 130 has a vertical length and is configured to extend upright from the bottom plate. The support shaft 130 may be provided as a body from the bottom plate or separately provided so that the lower end is attached to the center of the bottom plate and fixedly coupled (fixed and immovably coupled).

The light emitting part 140 takes the form of surrounding the support shaft part 130, and for this, the center of the light emitting part 140 is penetrated to form an upright hollow, and this is threaded to the support shaft part 130 and fixed. , the upper end of the support shaft 130 is assembled to protrude higher than the upper end of the light emitting unit 140 . In this way, the light emitting part 140 is attached and fixed to the support shaft part 130 . Although the light emitting part 140 is fixedly coupled to the support shaft part 130 so as not to rotate, it may be installed so that the viewing direction can be adjusted in advance by artificially rotating it at a predetermined angle depending on the installation environment. The light emitting unit 140 may include a light emitting display means on the outside thereof, for example, an LED light emitting display means.

The charging unit may be mounted inside or outside the casing unit 110 , and serves to charge power generated from the operation unit 200 and supply it to the light emitting unit 140 . However, the illustration of the charging part is omitted in the illustration of the drawings.

The operation unit 200 includes a rotary power generation unit 210; rotating shaft part 220; And the rotary wing portion 230; is configured to generate electric power by rotational movement with respect to the body portion (100). The operation unit 200 may further include a bracket unit 240 . The rotor blade 230 is configured by arranging a plurality of impellers in a circle.

The rotational power generation unit 210 is disposed so that its outer periphery corresponds to the inner periphery of the fixed power generation unit 120 and surrounds the inner periphery by taking a spaced ring shape. The rotary power generation unit 210 is provided as a permanent magnet or a coil. The center of the rotary power generation unit 210 is threaded to the lower end of the rotary shaft unit 220 to be fixedly coupled, so that the rotary power generation unit 210 rotates along with the rotation of the rotary shaft unit 220 so that the fixed power generation unit 120 is connected with each other. An electromotive force is generated therebetween to supply power to the charging unit and the light emitting unit 140 .

The rotating shaft part 220 takes the form of a pipe having a hollow penetrating vertically, and the hollow of the rotating shaft part 220 is threaded through the support shaft part 130 and rotatably coupled. At this time, a bearing is configured between the rotating shaft portion 220 and the fixed shaft portion to facilitate rotation.

The operation unit 200 constitutes a power generation device together with the fixed power generation unit 120, a charging unit is added to the power generation device to constitute a power supply device, and a light emitting unit 140 is added to the power supply device to constitute a light emitting device. do. The light emitting display means of the light emitting unit 140 receives power from the power generation device or from the charging unit when no power is generated from the power generation device. The wiring of the electric wire for power supply is connected from the fixed power generation unit 120 to the charging unit, from the charging unit to the supporting shaft unit 130 , and from the supporting shaft unit 130 to the light emitting unit 140 .

The rotary blade unit 230 has an area to meet the wind, is arranged at right angles to each other in plan view, and has four impellers 232 (pallange) having a vertical length, and the rotation center side of each impeller 232 It is composed of an impeller-side fixture 231 protruding toward the center at the upper and lower ends. The impeller-side fixture 231 consists of an upper impeller-side fixture provided at the upper end of the rotor blade 230 and a lower impeller-side fixture provided at the lower end. The body of the impeller 232 and the upper impeller-side fixture and the lower impeller-side fixture is made together to take a C shape with a cut out in the middle, and the light emitting part 140 is disposed in the hollow space in the middle of the C shape so that the light emitting unit 140 does not contact the impeller 232 (interposed apart from each other).

The rotary wing unit 230 is rotationally coupled (rotatably coupled) to the upper end of the support shaft portion 130 at the upper end of the center of rotation. That is, the support shaft portion 130 is provided to be non-rotatable, and the rotational blade portion 230 is coupled so that the upper end of the rotation center is rotationally coupled with the upper end of the support shaft portion 130 so that it can be rotated alone and at the same time, strong It is supported so that it does not sway in the wind. And the lower end of the rotational wing unit 230 is fixedly coupled to the upper end of the rotating shaft unit 220 . Therefore, the rotation blade unit 230 is rotated together with the rotation shaft unit 220 . Accordingly, when the rotor blade unit 230 is rotated by wind power, the rotational force is transmitted to the rotation shaft unit 220 .

A reflective member may be provided in the rotary wing unit 230 . When the light emitting unit 140 does not operate due to the absence of wind power or a failure of the power generation unit (power generation device) due to a reflective member attached to either side or both sides of the impeller, the headlight of the vehicle can be reflected to the driver at night, and light is emitted When the unit 140 is operated, the light of the light emitting unit 140 may be reflected forward.

In the example of FIG. 3 , each reflective member attached to the four impellers constituting the rotor blade 230 is composed of a combination of the mirror reflecting members 1 and 3 and the retroreflective members 2 and 4 having different reflection methods. can That is, the mirror reflection members (1, 3) and the retroreflection members (2, 4) are attached to the four impellers one by one, that is, the mirror reflection members (1, 3) are provided in odd-numbered times, and even-numbered (2, 4) is provided with a retro-reflecting member, so that when the rotary wing unit 230 rotates, the mirror-reflecting members 1 and 3 intermittently reflect the LED light of the light-emitting unit 140 and demonstrate to the driver as if blinking. to improve visibility. When the rotor blade 230 rotates at the same time, the retroreflecting members 2 and 4 intermittently retroreflect the headlights of the vehicle so as to flicker, thereby improving the driver's visibility. When these two are combined together, excellent visibility can be secured.

The bracket part 240 is provided as a pair of the upper bracket part 241 and the lower bracket part 242 . Each of the bracket parts 240 has an impeller rotation shaft b0 having a hollow penetrating vertically in the center, and four bracket-side fixing bars b1 taking a cross (+) shape around it are formed to protrude, and each A bracket-side fastening hole b2 penetrated horizontally is formed in the bracket-side fixing table b1.

The bracket-side fixture b1 and the impeller-side fixture 231 coupled in four pairs take a form corresponding to each other so that they can be surface-coupled (face-to-face), and after they face each other, the bracket-side/impeller-side is fastened with a fastening screw The ball b2 is clamped and fixed at the same time.

The bracket part 240 is interposed between the support shaft part 130/rotation shaft part 220 and the rotor blade part 230 to promote coupling with the support shaft part 130/rotation shaft part 220 and the rotation blade part 230 . do. In more detail, the upper bracket part 241 is threaded on the upper end of the support shaft part 130 so as to be idling with each other, and the lower bracket part 242 is threaded on the rotation shaft part 220 and firmly fixed together. The fixed coupling is made to rotate, so that the upper and lower ends of the rotary blade unit 230 are supported at the same time not to be shaken even by strong wind power, and when the rotary blade unit 230 rotates with the wind power, the rotating shaft portion fixed to the lower side of the rotary blade unit 230 220 rotates at the same time, and within the casing 110 , the rotational power generation unit 210 fixed to the lower end of the rotating shaft unit 220 receives rotational force and rotates together to generate power.

body part 100; casing unit 110; Fixed power generation unit 120; Support shaft portion 130; light emitting unit 140; operation unit 200; Rotational power generation unit 210; rotating shaft part 220; and a rotary wing unit 230; bracket unit 240;

Claims (1)

Including the body part 100 and the operation part 200, the LED light is emitted by wind power,
The body portion 100 includes a casing portion 110; Fixed power generation unit 120; Support shaft portion 130; and a light emitting unit 140;
The casing unit 110 includes a bottom plate at the bottom and a case at the top,
The fixed power generation unit 120 is fixedly coupled to the inside of the casing unit 110 by taking a ring shape,
The support shaft 130 extends vertically upward from the bottom plate by taking an axial shape,
In the LED delinator having a vertical hollow in the center, the light emitting unit 140 is formed with a vertical hollow in the center, and the excitation is threaded to the support shaft unit 130 and fixedly coupled thereto, and then the LED display means is provided on the outside,
The operation unit 200 includes a rotating power generation unit 210 , a rotating shaft unit 220 , and a rotating blade unit 230 ,
The rotary power generation unit 210 is spaced apart from its outer periphery to take a ring shape corresponding to the inner circumference of the fixed power generation unit 120, and is threaded in the center of the rotary shaft unit 220 to rotate together,
The rotating shaft 220 takes the form of a pipe having a vertically penetrated hollow, threaded on the support shaft 130 and rotatably coupled,
The rotary blade 230 includes a plurality of impellers 232 arranged in a circle; to the upper and lower ends of the center of rotation of each impeller 232 and the impeller-side fixture 231 protruding toward the center; It takes the form in which the middle is cut, and the light emitting part 140 is disposed so as not to contact the impeller 232,
The rotary wing unit 230 is rotationally coupled to the upper end of its rotation center with the upper end of the support shaft unit 130, and the lower end of the rotation center is fixedly coupled to the upper end of the rotating shaft unit 220, and the upper and lower ends are supported while the rotation shaft unit ( 220) and rotate with
The reflective member attached to each impeller constituting the rotor blade 230 is composed of a combination of the mirror reflecting members (1, 3) and the retroreflective members (2, 4) having different reflection methods, LED deli characterized in that Nator.

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