KR20130125030A - Led light system - Google Patents

Abstract

The purpose of the present invention is to maximize an energy saving effect and improve brightness in a region required for focusing light by sensing the movement of a worker in a place such as a warehouse and automatically controlling the irradiation angle of an LED lamp for replacing a fluorescent light fixed to a wall or ceiling, and to save initial installation costs by reducing the number of installed lamps.

Description

LED Lighting System {LED Light System}

The present invention relates to an LED lamp device having a function of adjusting the irradiation angle. More specifically, by applying a rotating socket to the LED lamp, the irradiation angle is changed in the direction of the object detected by the human body sensor, thereby reducing the number of LED lamp devices compared to LED lamp devices having the same irradiation angle, thereby maximizing efficiency. The invention relates to a device.

The reason for using LED lighting is that it can save energy significantly compared to existing lighting, and can see various interior effects in the space where lighting is installed.

Since the conventional LED fluorescent lamp replacement type fluorescent lamps are manufactured to have a specific irradiation angle, the irradiation angle cannot be adjusted in a direction desired by the user when it is fixed to a ceiling or a wall. In addition, in places such as warehouses, LED lighting devices are arranged at regular intervals, and in such a place, although there are few people, there is a large waste of energy, such as the need to turn on all the lights in the warehouse while the worker is working. In this state, the flexibility of the installation of the lamp, which is an advantage of using the LED light, that is, the interior effect of reducing the number of installed lights can not be obtained, and thus the initial installation cost and energy saving effect cannot be expected.

In the present invention, in order to improve such a problem, a fluorescent replacement type LED lighting device is installed fixed to the ceiling or the wall, but LED lights that can focus the light by automatically adjusting the irradiation angle to a position where the illumination should be high by detecting the movement of the worker. I would like to propose a system. This maximizes the interior effect, initial installation costs, and energy savings.

The present invention is to increase the illuminance of the place where the light should be concentrated by automatically adjusting the irradiation angle of the fluorescent replacement type LED lighting device fixed to the ceiling or wall by detecting the movement of the worker in a place where the movement of people, such as a warehouse The purpose is to maximize energy savings through this. In addition, the purpose of reducing the initial installation cost by reducing the number of lights installed.

Applying a straight-type LED lighting device that can adjust the illuminance distribution by changing the irradiation angle proposed in the present invention has the advantage that can significantly reduce the number of LED lighting devices having the same lighting angle in the space of the same area. To this end, in the present invention, as shown in FIG. 5, the socket-type socket 120 rotates so that the straight LED lamp 120 is not fixed in the LED lighting device 10 but irradiated at a desired illumination angle. (210) is used. In the rotary socket part 210 proposed in the present invention, the motor driving part 114 is configured at the rear of the socket frame 112 to rotate the socket holder 115.

When applying the LED light that can adjust the irradiation angle proposed in the present invention can detect the movement of the worker in a place where the movement of people, such as a warehouse, to increase the illumination of the place where the light should be concentrated, thereby saving energy The effect can be maximized. In addition, it is possible to reduce the initial installation cost by reducing the number of lights installed.

1 is a schematic diagram of a fluorescent lamp replacement type LED lamp device of the general two-light type
2 is a schematic diagram of a connection configuration of a general linear LED lamp.
3 is the interval of the lighting device in the case of using a general linear LED lighting
Fig. 4 Arrangement of the lighting device in the case of using a general linear LED lighting device
Figure 5 is a modified view of the rotary socket portion of the linear LED lamp device that can adjust the irradiation angle of the present invention
6 is the interval of the lighting device in the case of using the linear LED lighting device of the present invention
Fig. 7 Arrangement of the illuminating device in the case of using the linear LED illuminating device of the present invention
8 is a modified view of a rotary socket unit including a human body sensor of the present invention
9 is a schematic view of the LED lighting system of the present invention to adjust the illuminance according to the movement path of a person

The conventional two-lamp type fluorescent lamp replacement type linear LED lighting device 10 is located at both ends of the linear LED lighting lamp 120, as shown in Figure 1, the socket portion 110 can be inserted into the base of the LED lighting, constant angle It consists of a reflector plate 130 to allow light to be emitted, a cover 140 for scattering light while protecting the LED lamp, a ballast 150 for supplying power, and the like.

As shown in FIG. 2, the base 122 of the LED lamp 120 is fitted into the hole 111 of the socket part 110. Since the socket holder 115 of the socket 110 is fixed to the frame 112 and cannot be moved, the angle of illumination cannot be changed after the LED lamp 120 is installed in the LED lamp device 10.

In such a general straight LED lighting device 10 there is a problem that the angle of the light irradiated by the LED light is usually limited to about 120 degrees. In this case, in order to obtain a uniform illuminance in the space where the lighting is used, it is inevitable to arrange a plurality of LED lights. For example, as shown in FIG. 3, when the height of the ceiling, that is, the illumination height H is 2.7 m, the longitudinal irradiation angle A1 and the unidirectional irradiation angle A2 of the lighting device 1 11 are 120 degrees and 100 degrees, respectively. The lower surface illuminating device 1 (11) has an illumination range of 9.4 m and 6.4 m in the long direction and the unidirectional direction, respectively. In order to create a uniform illuminance distribution, the illumination may be arranged such that the illumination range of the illumination device 2 (12) having the same irradiation angle is placed at a point half of the illumination range of the illumination device 1 (11). That is, the lighting device 2 (12) should be installed at a distance away from the lighting device 1 (11) so that the long-directional lighting interval (D1) and unidirectional lighting interval (D2) is about 7m and 5m, respectively.

In the case of using the general linear LED lighting device 10 for a warehouse building having a length of 50 m and a length of 20 m, as shown in FIG. If you apply each of the seven and four lights in the horizontal and vertical directions respectively arranged all 28 LED lighting device 10 must be used. As such, when using a conventional conventional straight-type LED lighting device, there is a problem that the initial installation cost is high due to the increase in the number of the installed lighting lights.

If the rotational socket portion 210 of the LED lamp 120 is rotated toward the operator in the fluorescent lamp replacement-type LED lamp device 20 proposed in the present invention is much less than when using a conventional straight-type LED lamp device 10 Even using a number of lighting devices it is possible to obtain a uniform illuminance in the working space. For example, as shown in FIG. 6, when the straight LED lamp unit 20 proposed in the present invention is applied to the lighting space of FIG. 2 and irradiated by rotating the rotating socket part 210 at 15 degrees toward the operator, the straight tube type rotation The illumination range of the illuminator 1 (21) is 10 m and 6.4 m in the long and unidirectional directions, respectively. To create a uniform illuminance distribution, the illumination is placed so that the illumination range of the linear rotating luminaire 2 (22) with the same irradiation angle (A1, A2) is located at half of the illumination range of the rotary luminaire 1 (21). Place it. That is, when the rotary socket unit 210 of the rotating lamp unit 2 (22) is rotated 15 degrees toward the operator, the rotating lamp unit 2 (22) has a long direction light spacing (D3) and a unidirectional light spacing (D4), respectively, 15 m and It should be installed at a distance from rotating lamp device 1 (21) to be about 5m.

In the case of using the linear LED lamp device 20 proposed in the present invention in the same sized space as in FIG. 3, the long direction light spacing D3 is 15 m and the unidirectional light spacing D4 is 5 m as shown in FIG. 7, respectively. If applied, four and four lamps 20 are arranged in the horizontal and vertical directions, respectively, and all 16 LED lamps 20 may be used. The number of lights can be reduced by 40% or more as compared with the case of using a general linear LED light device 10.

Intuitive LED lighting device 20 that can adjust the lighting angle proposed in the present invention can be used in conjunction with the human body sensor 230 to configure the LED lighting system that can be illuminated at the optimal illumination in the working place. For example, as shown in Figure 8, the human body sensor 230 is installed on the upper portion of the rotary socket 210 to detect the movement of the operator in the installation space of the LED lamp device 20 of the rotary socket 210 The motor driving unit 114 outputs a signal capable of rotating.

As shown in FIG. 9, a worker enters a warehouse in which a straight LED lamp device 20 including a human body sensor 230 proposed in the present invention is installed, and works at a work place through a path of ① → ② → ③ → ④. Assume a situation in which When the worker is in the position of ①, the sensor 230 included in the lighting device 20 of (4 rows, D columns) detects the worker and changes the lighting angle toward the worker while the lamp is turned on. When moving, the sensor included in the (3 rows, column D) lights detects the worker and turns on the light, changing the lighting angle toward the worker. When the worker moves to the position of ③, the sensors included in the lighting devices of (3 rows, D columns), (3 rows, C columns), (3 rows, B columns) in turn detect the worker and turn on the lights. The lighting angle is changed in turn in the direction of the operator. When the worker moves from the position of ④ to the final work place, the sensor 230 included in the lighting device 20 of (1 row, C column), (1 row, B column), (1 row, A column) in turn. When the operator detects the worker's light, the lamp turns on and changes the lighting angle in the worker's direction. If the worker is out of the range of the human body detection sensor 230 while the worker moves from the position of ① to the position of ④, the lamp is automatically turned off. As the human body sensor 230 of the linear LED lamp device 20 proposed in the present invention, an infrared detection method, an RF detection method, a vibration detection method, a magnetic field detection method, or the like may be applied.

10: general LED lighting device 11: general LED lighting device 1
12: general LED lighting device 2 110: socket 111: hole
112: frame 114: motor drive unit 115: socket holder
120: LED light 122: base 130: reflector
140: cover 150: ballast 210: rotary socket portion
20: LED lighting device of the present invention 21: rotating lighting device 1
22: rotating lighting device 2
230: human body detection sensor

Claims (6)

Straight type LED lighting lamp which is mounted by mounting a plurality of LEDs on a PCB in a longitudinal direction and laminated on a heat dissipation frame;
LED driving circuit unit for supplying power to the LED lamp;
A socket unit positioned at both ends of the LED lamp and configured to plug the base of the LED lamp;
A reflector for illuminating the light from the LED lamp at a specific illumination angle;
A cover for scattering light while protecting the LED lamp; LED lighting device comprising a, LED lighting device that can change the illumination angle of the LED lamp by rotating the socket.
The LED lighting device of claim 1, wherein the LED lighting device may include one or more linear LED lightings.
The method of claim 1, wherein the LED lighting lamp may use a transparent cover or a transparent cover of a scattering material, it may not use the transparent cover.
The method of claim 1, wherein the LED lighting device may include one or more human body detection sensor.
The method of claim 4, wherein the human body sensing sensor may apply an infrared sensing method, an RF sensing method, a vibration sensing method, or a magnetic field sensing method.
Straight type LED lighting lamp which is mounted by mounting a plurality of LEDs on a PCB in a longitudinal direction and laminated on a heat dissipation frame;
LED driving circuit unit for supplying power to the LED lamp;
A socket part positioned at both ends of the LED lamp and plugging the base of the LED lamp, and capable of rotating in a direction perpendicular to the longitudinal direction of the LED lamp to change an illumination angle of the LED lamp;
A reflector for illuminating the light from the LED lamp at a specific illumination angle;
A cover for scattering light while protecting the LED light;
Human body detection sensor for detecting the movement of the human body;
A motor driving unit configured to rotate the socket part in response to a signal of the human body detecting sensor;
LED lighting system that can create an optimal illuminance distribution by changing the lighting angle of the LED lighting device.

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