KR20120050117A - A bollard having lighting function - Google Patents

Abstract

PURPOSE: A bollard having an illumination function is provided to reduce energy consumption by using LED and to collect the solar lights more efficiently. CONSTITUTION: A bollard having an illumination function comprises a support, a body(10), an illumination unit(20), and a floodlighting cap(30). The lower part of the support is buried under the ground so that the support is installed. The body is joined to the support and comprises a concave shape joint(12). The illumination unit comprises a housing, a solar cell(23), a storage battery(24), a circuit board(25), a LED(26), an optical sensor, a control unit. The storage battery stores electric energy generated by the solar cell. The LED is installed in the circuit board embedded in the housing, thereby irradiating light to outside of the housing. The optical sensor is exposed outside of the housing, thereby detecting the illuminance of the solar lights. The control unit collects the solar lights through the solar cell when the illuminance of the solar lights is over a predetermined value and emits LED by using the storage battery as a power source when the illuminance of the solar lights is less than the predetermined value. The floodlighting cap is joined to the upper part of the body, thereby covering the illumination unit.

Description

Bollard with lighting function {A bollard having lighting function}

The present invention relates to a bollard equipped with an illumination function, and more particularly, it is possible to efficiently use energy by condensing sunlight more efficiently and using it as a power source, as well as easy to assemble through one component unit. It relates to a bollard equipped with a function.

In general, the bollard is installed at the boundary of the roadway and sidewalks or at the entrance of the park to prevent the vehicle from entering the sidewalk, and protects the pedestrians without disturbing the pedestrians' traffic. Most bollards are installed in the form of columns. Such bollards are formed in a plurality of spaced intervals narrower than the width of the vehicle to prevent a vehicle from entering.

However, since such a bollard is not easily seen at night, a pedestrian has a problem of being injured while colliding with the bollard. In addition, the driver also has a problem that can cause a car accident because the bollard is not easily recognized from a distance. Meanwhile, although the street lamp is installed and the position of the bollard may be confirmed by the street light, the above problem is not solved in the case of the bollard installed in a place where the street lamp is not installed. In addition, it can be considered to install a lot of street lights, but because the street lights must be turned on all night, because the energy consumption is quite large, there are limitations to installing a lot of street lights. On the other hand, even in the case of a bollard installed in a place adjacent to the street lamp, if the light of the street lamp is not directly irradiated, it is difficult to determine the position of the bollard, the above problem occurs as it is.

The present invention is to solve the problems as described above, the object of the present invention is to collect the sunlight more effectively and can be reduced to the energy consumption by using the LED unit, but the unit is equipped with a very easy lighting is equipped with Is to provide a bollard.

According to a feature of the present invention, the lower body is buried in the ground (1) and the body (10) is coupled to the portion protruding to the ground of the support (1) and the concave shape of the engaging portion 12 is formed on the top (10) ), A lighting unit 20 detachably attached to the coupling part 12 of the body 10, and a light emitting cap 30 coupled to an upper end of the body 10 to cover the lighting unit 20. ,

The lighting unit 20 includes a housing 21 detachably attached to the coupling part 12 of the body 10, a solar cell 23 provided at an upper end of the housing 21, and the solar cell 23. Storage battery 24 for storing the electrical energy generated by the LED, LED 26 for irradiating light to the outside of the housing 21 is installed in the circuit board 25 embedded in the housing 21, the housing 21 ) Is exposed to the outside to detect the illuminance of the sunlight and the light sensor 27 receives a signal from the light sensor 27 when the illuminance of the sunlight exceeds a predetermined value to collect the solar heat through the cell (23) If it is below the numerical value, the bollard provided with the illumination function characterized by including the control part which controls to make LED26 emit light using the storage battery 23 as a light source.

According to another feature of the present invention, the floodlight cap 30 is provided with a bollard having an illumination function, characterized in that the convex lens portion 32 for collecting sunlight is formed.

According to the present invention as described above, in the bollard installed to protrude on the ground, the concave coupling portion 12 is formed on the upper end of the body 10 protruding to the ground, the illumination is detached to the coupling portion 10 Unit 20 is provided, the lighting unit 20 in the form of a solar cell 23, LED 26, a battery 24, an optical sensor 27 and a control unit inside the housing 21 Made, so that the lighting unit 20 can be assembled and replaced very easily in the bollard has an easy effect of assembly and maintenance.

In addition, the convex lens unit 32 is formed on the light-transmitting cap 30 to conceal the illumination unit 20 from the outside so that sunlight is formed by the convex lens unit 32 while passing through the convex lens unit 32. Focused toward the focal point, the amount of solar light condensed relative to the unit time and the unit area of the solar cell 23 is increased, thereby increasing the production of electric energy, so that the LED 26 can be more efficiently emitted at night without a separate energy source. It has an effect. Accordingly, since the driver or pedestrian can easily check the position of the bollard even at night, there is an effect that a safety accident such as a pedestrian or a vehicle colliding with the bollard is prevented.

1 is an exploded perspective view showing an embodiment of a bollard equipped with an illumination function according to the present invention
2 is a side cross-sectional view of the embodiment
3 is a use state diagram of the embodiment

The objects, features and advantages of the present invention described above will become more apparent from the following detailed description. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is an exploded perspective view showing a preferred embodiment of a bollard equipped with an illumination function according to the present invention, Figure 2 is a side cross-sectional view of the embodiment, Figure 3 is a state diagram of the use of the embodiment.

As shown, the bollard is equipped with a lighting function according to an embodiment of the present invention is coupled to the support (1), the lower side is buried in the ground, and the support (1) protruding to the ground and concave shape at the top A body 10 having a coupling portion 12 formed thereon, a lighting unit 20 detachably attached to the coupling portion 12 of the body 10, and coupled to an upper end of the body 10, the lighting unit 20. It is configured to include a light transmitting cap 30 to cover.

The support 1 is formed in a cylindrical shape having a predetermined height, and is buried so that its lower side is fixed by concrete or the like so that the upper side is upright on the ground.

The body 10 also has a cylindrical shape having a predetermined height, and a hollow portion 11 is formed therein so as to fit into a portion protruding to the ground of the support 1. And, the upper end of the body 10 is formed with a coupling portion 12 of the shape concave downward, made of a circular cross-sectional shape having a predetermined depth.

The lighting unit 20 includes a solar cell 23, a battery 24, a circuit board 25, an LED 26, an optical sensor 27, and a control unit (not shown) inside the housing 21. Used in the form of parts. The housing 21 has a cylindrical shape, which is an outer circumferential surface of a shape corresponding to the inner circumferential surface of the body 10 coupling portion 12, and is detachably attached to the coupling portion 12 of the body 10. And, the housing 21 is made of a transparent body, the upper surface is convexly formed on the upper side, and the convex upper surface is formed on the concave-convex surface 22, the light irradiated from the LED 26 to be described later on the concave-convex surface 22 It is configured to be irradiated laterally through diffuse reflection. At this time, the housing 21 may be composed of a transparent cover that covers the upper end of the housing and the upper end of the housing, not the transparent body.

The solar cell 23 is installed horizontally with the upper surface of the housing 21, the edge may be configured to be coupled to the side of the housing 21 or supported on a separate support not shown. In addition, the storage battery 24 is provided inside the housing 21, and stores the solar light collected through the solar cell 23 in the storage battery 24 in the form of electrical energy. In addition, the LED 26 is installed in the circuit board 25 inside the housing 21 and mounted below the solar cell 23, and the LED 26 penetrates the center portion of the solar cell 23 to the housing. (21) It is installed to be exposed to the outside. That is, a through hole (not shown) is formed in the center of the solar cell 23, and the LED 26 is installed to protrude upward of the solar cell 23 through the through hole.

On the other hand, the optical sensor 27 is installed to be exposed to the outside of the housing 21, the optical sensor 27 detects the illuminance of the sunlight and sends the detected value to the controller to be described later in the form of a signal. The controller, which is not shown, is embedded in the housing 21 in the form of a chip, and is electrically connected to the optical sensor 27 so that a signal received from the optical sensor 27 is a predetermined value of preset solar illuminance. When exceeding the program is set to focus the sunlight through the solar cell (23). That is, the controller is electrically connected to the LED 26, the solar cell 23, and the battery 24, and the solar cell 23 condenses solar light according to the signal received from the optical sensor 27. Mechanism for storing electrical energy at 24 is implemented, or a mechanism is performed so that the LED 26 emits light using the electrical energy of the battery 24 as a light source.

The floodlight cap 30 is detachably coupled to the upper end of the body 10 to conceal the lighting unit 20 from the outside. In addition, the floodlight cap 30 is made of a synthetic resin such as polycarbonate, and is molded in a substantially hemispherical shape so as to be smoothly connected to the body 10. At this time, one end of the floodlight cap 30 is formed to form a coupling tube 31 of a single tube shape to be inserted into the coupling portion 12 of the body 10, the coupling protrusion 31 is a coupling portion of the body 10 It is configured to fit between the 12 and the lighting unit 20 inserted thereto.

On the other hand, the convex lens portion 32 is formed in the central portion of the floodlight cap 30, the sunlight is formed by the convex lens portion 32 while passing through the convex lens portion 32 as shown by the arrow of FIG. Focus on poor focus. Accordingly, sunlight can be more concentrated in the solar cell 23 having a relatively small surface area compared to the surface area of the light emitting cap 30, while the sunlight is constantly passing through the light emitting cap 30. And since it can concentrate the maximum amount of solar light over time, there is an advantage that can produce energy more effectively. At this time, the curvature of the convex lens unit 32 is designed to an appropriate value such that the focal point of the convex lens unit 32 is close to the surface of the solar cell 23, so that the amount of sunlight collected by the solar cell 23 is unit area. And maximum value over time.

Referring to the operation of the bollard equipped with a lighting function according to the present invention configured as described above are as follows.

First, since the illuminance of the sunlight detected by the light sensor 27 exceeds a predetermined value of the solar illuminance preset in the control unit during the day, the solar cell 23 condenses the sunlight by the control unit 27 to store the battery ( 24) store electrical energy. At this time, as described above, the sunlight is transmitted to the solar cell 23 while passing through the convex lens part 32 of the floodlight cap 30 to collect the maximum sunlight with a unit area and time.

In addition, since the illuminance of the sunlight detected by the light sensor 27 does not exceed a predetermined value of the solar illuminance preset in the control unit at night, the electric energy stored in the storage battery 24 is controlled by the control unit 27 as a light source. LED 26 emits light. The light irradiated from the LED 26 is transmitted through the convex upper surface of the housing 21 and is transmitted through the floodlight cap 30 to be dispersed to the outside. At this time, the light irradiated from the LED 26 hits the concave-convex surface 22 formed on the convex upper surface of the housing 21 and is irradiated upward through diffuse reflection as well as irradiated laterally.

Therefore, the concave coupling part 12 is formed on the upper surface of the body 10 installed upright on the ground, and the solar cell 23, the storage battery 24, the LED 26, and the circuit board 25 are formed inside the housing 21. By configuring the lighting unit 20 equipped with an optical sensor 27 and a control unit to be detachably attached to the coupling unit 12, not only the assembly is very easy but also the body 10 during maintenance of the lighting unit 20. It can be easily removed or replaced, and the maintenance work is very easy. Then, the convex lens portion 32 is formed on the light emitting cap 30 covering the lighting unit 20, so that the solar light is transmitted through the light emitting cap 30 and positioned at the focal point of the convex lens portion 32. Concentrated in the cell 23 has the advantage of producing more electric energy compared to the unit area and time. In addition, the electrical energy produced in this way is used for the light emission of the LED 26 at night, and the more produced electrical energy enables the LED 26 to emit light for a long time at night, so that the It is easy to check the location of the pedestrian or vehicle is prevented from colliding with the bollard has the advantage of preventing accidents.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

Claims (2)

The body 10, which is coupled to the support (1), the lower side is buried in the ground, protruding to the ground of the support (1) and formed a concave coupling portion 12 of the upper end, and the body (10) Lighting unit 20 detachably attached to the coupling portion 12, and the floodlight cap 30 is coupled to the upper end of the body 10 to cover the lighting unit 20,
The lighting unit 20 includes a housing 21 detachably attached to the coupling part 12 of the body 10, a solar cell 23 provided at an upper end of the housing 21, and the solar cell 23. Storage battery 24 for storing the electrical energy generated by the LED, LED 26 for irradiating light to the outside of the housing 21 is installed in the circuit board 25 embedded in the housing 21, the housing 21 ) Is exposed to the outside to detect the illuminance of the sunlight and the light sensor 27 receives a signal from the light sensor 27 when the illuminance of the sunlight exceeds a predetermined value to collect the solar heat through the cell (23) The bollard is equipped with an illumination function, characterized in that it comprises a control unit for controlling the LED 26 to emit light with the storage battery 23 as a light source if the value is less than the numerical value.
According to claim 1, The floodlight cap 30 is provided with a convex lens unit 32 for collecting sunlight, characterized in that the bollard with illumination function.

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