KR101295341B1 - A method for control of arrangement of the lightening - Google Patents

Abstract

PURPOSE: A method for controlling side rear lighting of a street lamp is provided to prevent restriction of aiming, by installing a skirt whose height is regulated by an additional formula. CONSTITUTION: A substrate supporting part inserts a number of light sources. A light source cover is installed in the substrate supporting part. A number of skirts (150) are comprised in each light source. A top cover (160) inserts the light source cover. A bottom cover (170) is connected to the top cover.

Description

A method for control of arrangement of the lightening}

The present invention relates to a method for controlling the backlight of a street lamp, and more particularly, by efficiently calculating the height of a skirt by using a separate formula for not being constrained by the height of the street lamp, the aiming orientation, and the like. It relates to a method for controlling projection.

Fluorescent lamps are mostly used as street lamps, which are applied to roads, to secure vehicle visibility.

However, a fluorescent lamp used as a street lamp has a disadvantage in that the blackening of the tube is accelerated when it is out of the range of ± 6% of the rated voltage, and the life is shortened, and the lamp is not lit when the voltage is too low.

In addition, even if the number of blinking of the fluorescent lamp is increased, the consumption of the emitter is increased, the life is shortened, the lamp after the end of life has a problem that the luminous flux is lowered, which is uneconomical.

In order to solve the above problems, sodium lamps or ordinary metal lamps may be used as street lights. However, since sodium lamps and metal lamps are discharge type, a lot of power is consumed and electric waste is severe. In recent years, street lamps using LED chips as light sources have been developed.

On the other hand, street lamps using LEDs must use a plurality of light sources, and in particular, funnel-shaped hoods are generally used to control the irradiation angle of the irradiated light (the angle between the reflected light and the reflected light). Due to the uniform hood to be a light (that is, back-illuminated light) is irradiated to the house or facility adjacent to the road there was a problem that causes inconvenience to people due to light pollution.
In other words, it is common that the angle of the transfer light of the light source and the angle of the rear light are the same, but there is a problem that some of the rear light that may cause light pollution such as homes is maintained while maintaining the transfer light toward the road.

(Patent Document 1) KR10-1152950 B

An object of the present invention for solving the above problems is to provide a method for controlling the backlight of a street lamp that is not restricted by the height of the street lamp, the aiming (aiming) by calculating the height in a separate formula.
In other words, when a plurality of light sources are installed, a skirt is disposed between the light source and the light source. The back light of the light source located on the other side of the skirt can be properly adjusted by the user without interfering with the transfer light of the light source located on one side of the skirt. By being able to select and control, it is intended to provide a street lamp rear light control method that can prevent the back light from being reflected in the adjacent house or facility while maintaining the aming by the transfer light.

Back light control method of the street lamp according to the present invention for solving the above problems, (a) a plurality of arranged on the same line of the substrate 110 of the street lamp 100 having a predetermined transfer light angle (B '). Selecting a light source adjacent to the first light source 121 and the second light source 122, wherein the interval between the first light source 121 and the second light source 122 is a predetermined L1, the light source selection step. ; And (b) disposing the skirt 150 spaced apart from the first light source 121 by a predetermined distance L between the selected first light source 121 and the second light source 122. The thickness of the skirt 150 is characterized in that it comprises a skirt placement step, the predetermined T and the height is a settable a.

Preferably, the step (b) comprises the steps of: (b1) selecting the backlight angle B of the plurality of light sources; And (b2) the formula of tan (B) = a / L and tan (B ') = a / (L1-LT) is calculated according to a predetermined value of L1, T, B' and the value of B selected so that L, a Is calculated and set, and thus, the skirt 150 having a height a is disposed to be spaced apart from the first light source 121 by a predetermined distance L such that the angle of the rear light is B.

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Preferably, the angle B 'of the transfer light and the angle B of the rear reflected light are in the range of 30 ° to 60 °.

The present invention as described above can be used in any environment without being restricted by the height of the street light, the aiming (aiming) by being able to install a skirt, the height is defined by a separate formula. In other words, the back light of the light source located in the front of the skirt is appropriately selected by the user without interfering with the transfer light of the light source located at the rear of the skirt, as described above, while maintaining the amming by the transfer light. It is possible to prevent the light from being reflected in this adjacent house or facility.

In addition, the present invention can operate the energy resources more efficiently as the partial light irradiation is possible.

1 is a perspective view in one direction of a street lamp for explaining a method of controlling rear light of a street lamp according to an exemplary embodiment of the present invention, and is illustrated by changing back and forth to expose light sources, and a pillar of the street lamp is on the left side of the drawing. It is located, but the column is omitted for explanation.
2 is an exploded perspective view of FIG.
3 is a cross-sectional view of the substrate support, the light source cover, and the skirt of FIG. 2 viewed from one direction, and a plurality of auxiliary lines are illustrated to explain the equation.
FIG. 4 is a schematic diagram showing the relationship between the second light source, the substrate support and the skirt in FIG. 3, illustrating the equation according to the angle B ′ of the transfer light.
FIG. 5 is a schematic view showing the relationship between the first light source, the substrate support, and the skirt of FIG. 3, illustrating the equation according to the angle B of the back-illuminated light.

As used herein, the term “transmission light” refers to light that is directed toward a front surface of a street lamp, and “rear light” refers to light that is directed to a rear surface opposite to a front surface of a street lamp. For example, if a street lamp is installed on a vehicle road, the street lamp is intended to be reflected on the vehicle road, so that the light that is directed toward the road becomes the transfer light, and the outside of the road (for example, sidewalk or sidewalk). The light that is inevitably shined into the home house adjacent to becomes the backlight. In the case of Figure 1, considering the position of the column not shown, the upper right side of the drawing is the transfer light, the lower left side of the drawing is the rear light, and in the case of Figures 3 to 5 What is projected light, and what is projected to the right side of the drawing is rear light.
On the other hand, in the present invention, a plurality of distances (L, L1, T, a, a ') and angles (B, B') are described. As can be easily understood by those skilled in the art, the units for the distances are the same. It may be any unit such as mm, cm, m, inch, ft, etc., and the unit of angle is also sufficient, and any unit such as degree (°), minute ('), second (") may be used.
On the other hand, the components constituting the backlight control method of the street lamp of the present invention may be used integrally or separately separated as needed. In addition, some components may be omitted depending on the form of use.

Hereinafter, a preferred embodiment of the method for controlling the backlight of a street lamp according to the present invention will be described with reference to FIGS. 1 to 5. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, the definitions of these terms should be described based on the contents throughout this specification.

A street lamp 100 according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2.

The street lamp 100 includes a substrate 110, a plurality of light sources 120 arranged on the substrate 110, a substrate support 130 contacting an upper portion of the substrate 110, and a plurality of light sources 120 are inserted and protruded. It is coupled to the light source cover 140 mounted on the substrate support 130 to surround the light source 120, a plurality of skirts 150 arranged in a vertical direction with the light source cover 140, the upper portion of the substrate support 130 The upper cover 160 is inserted into the plurality of light source cover 140, protrudes, the lower cover 170 and the upper cover 160 and the lower cover (160) which are fastened to the upper cover 160 while contacting the lower portion of the substrate (120). It includes a fixing pin 180 for fixing through the 170.

In particular, the light source 120 is preferably applied to the LED.

Hereinafter, a method of controlling rear light of a street lamp according to an exemplary embodiment of the present invention will be described with reference to FIGS. 3 to 5.

(A) selecting a first light source 121 and a second light source 122, which are arbitrary light sources, among a plurality of light sources 120 disposed on the same line of the substrate 110 according to an embodiment of the present invention, (b) disposing a skirt between the selected first light source 121 and the second light source 122. Wherein (c) calculating the height of the skirt 150 through a formula associated with the angle of the rear light and the distance between the selected first light source 121 and the second light source 122. The height may be set, and the position where the skirt 150 is disposed through the associated equation may be set.

Meanwhile, in the step (a), selecting the adjacent first light source 121 and the second light source 122 among the plurality of light sources 120 while viewing the substrate support 130 shown in FIG. 2 in one direction. it means.

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In addition, in the step (c), the height of the skirt 150 is calculated through a formula associated with the angle of the rear light and the distance between the selected first light source 121 and the second light source 122, where the skirt 150 ) Is divided into the height (a) of the first skirt according to the angle of the transfer light and the height (a ') of the second skirt according to the angle of the rear light. Of course, as shown in FIG. 3, for each of the light sources 121 and 122, the first skirt and the second skirt mean one skirt 150, and a and a ′ have the same value.

First, the height a of the first skirt is calculated by the following equation.

Where B = angle between the first light source 121 and the substrate 110, B ′ = angle between the second light source 122 and the substrate 110, L = distance from the light source 120 to the skirt, L1 = The distance between the first light source 121 and the second light source 122, T = thickness of the skirt, a = height of the first skirt, a '= height of the second skirt, which will be described later The same applies to calculating (a ').
In other words, the angle of the transfer light is B '. Referring to Figures 3 and 4 it can be confirmed more clearly.
Moreover, the preferable angle of back light is B. In general, the angle of the transfer light initially set by the light source is the same as the angle of the reflected light. As shown in FIG. 3, when the angle B ′ of the transfer light of the second light source 122 and the skirt 150 do not exist, the angles of the rear light of the first light source 121 are the same. As shown in FIG. 3 and FIG. 5, the angle of the rear light can be increased to some extent by controlling the height a and the position of the skirt 150.
That is, in the present invention, the resultant control is the angle B of the back light using the skirt 150. As described above, if the angle of the rear light is too low, the surface to be illuminated by the street lamp 100 may cause light pollution to nearby homes, etc., so that the angle of the rear light is appropriately controlled to a level desired by the user.
Of course, if the height (a) of the skirt 150 for this purpose can be effectively controlled rear light, but under the condition that a large number of light sources are installed as in the present invention can also screen the transfer light to find the appropriate height and placement position Should be.
Equations 1 and 2 are used for this.

First, Equation 1 is described. In general, since the angle B 'of the transfer light and the angle B of the rear-beam are in the range of 30 ° to 60 °, for example, tanB = 45 and L = 12.

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1 = a / 12,

It can be seen that a = 12.

For example, if tanB = 60 and L = 12

1.732 = a / 12,

It can be seen that a = 20.7846.

For example, when tanB = 30 and L = 12

0.577 = a / 12,

It can be seen that a = 6.9282.

On the other hand, the height a 'of the first skirt is calculated by the following equation.

For example, if B '= 45, L = 12, T = 2, L1 = 24

1 = a '/ (L1-12-2),

a '= 1x (L1-12-2),

a '= 24-14,

It can be seen that a '= 10.

For example, if B '= 60, L = 12, T = 2, L1 = 24

1.732 = a '/ (L1-12-2),

a '= 1.732x (L1-12-2),

a '= 1.732 (24-14),

It can be seen that a '= 17.32.

For example, if B '= 30, L = 12, T = 2, L1 = 24

0.577 = a '/ (L1-12-2),

a '= 0.577x (L1-12-2),

a '= 0.577x (24-14),

It can be seen that a '= 5.77.

That is, the height a of the first skirt and the height a 'of the second skirt can be calculated according to the angles of the transfer light or the rear light through the above-described Equations 1 and 2. As described above and well illustrated in FIG. 3, a mathematical operation can be performed by making the height a 'of the first skirt and the height a' of the second skirt the same. (Ie tan (B ') = a / (L1-LT))
In other words, the value of B ′ having a unique transfer light angle for each light source 120 is predetermined, the distance L1 between the light sources is also predetermined, and the thickness T of the skirt 150 is also predetermined. At this time, according to the environment and conditions in which the street lamp 100 is installed, the user selects and sets B, which is the angle of the back light desired by the user, and the values of a and a 'are the same, so that the skirt 120 is obtained through the above two equations. The height a of) and L, which is the distance at which the skirt 120 should be spaced apart from the first light source 121, can be calculated.

Through the above-described method, it is possible to control the calculated transfer light and the rear-beam light as desired by the user, and to irradiate the desired part.

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 invention as defined in the appended claims. It will be understood that the present invention can be changed.

100: street light
110: substrate
120: light source
121: first light source
122: second light source
130: substrate support
140: light source cover
150: skirt
160: top cover
170: lower cover
180: fixed pin
B ': angle of transfer light
B: angle of back light
L1: Distance between adjacent light sources
L: Distance from any light source to the skirt
a: height of the first skirt
a ': height of second skirt
T; The thickness of the skirt

Claims (3)

Substrate 110;
A plurality of light sources 120 arranged collinearly on the substrate 110 and having a predetermined transfer light angle B ', each of which is an LED;
A substrate support 130 which is in contact with an upper portion of the substrate 110 and in which the plurality of light sources 120 are inserted and protruded;
A light source cover 140 mounted to the substrate support 130 to surround the plurality of light sources 120;
A plurality of skirts 150 disposed in a vertical direction with the light source cover 140 and provided for each of the plurality of light sources 120;
An upper cover 160 coupled to an upper portion of the substrate support 130 and inserted into the light source cover 140 to protrude;
A lower cover 170 which is in contact with the lower portion of the substrate 110 and fastened to the upper cover 160; And
As a method for controlling the rear light while maintaining the transfer light without affecting the street light 100 including a fixing pin 180 for fixing through the upper cover 160 and the lower cover 170,
(a) the adjacent first and second light sources 121 and second light sources of the plurality of light sources 120 disposed on the same line of the substrate 110 of the street light 100 and having a predetermined transfer light angle B ′. 122 is selected, wherein a distance between the first light source 121 and the second light source 122 is a predetermined L1; And
(b) disposing the skirt 150 spaced apart from the first light source 121 by a predetermined distance L between the selected first light source 121 and the second light source 122. The thickness of the skirt 150 comprises a skirt placement step, wherein the thickness is predetermined T and the height is a settable,
The step (b)
(b1) selecting the back-illumination angles B of the plurality of light sources 120; And
(b2) The formulas of tan (B) = a / L and tan (B ') = a / (L1-LT) are calculated according to the values of L1, T, B' and B selected in advance so that L and a Is calculated and set so that the skirt 150 having a height a is spaced apart from the first light source 121 by a predetermined distance L such that the angle of the rear light is B, and
Characterized in that the angle (B ') of the transfer light and the angle (B) of the rear reflection light is in the range of 30 ° to 60 °,
Backlight control method of street light. delete delete

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