KR102021468B1 - Illuminating System - Google Patents

Abstract

The present invention relates to an assembling type curved LED lighting apparatus and, more specifically, to an assembling type curved LED lighting apparatus which divides an aluminum protecting plate for forming an LED lighting apparatus into two parts and couple the two parts by a coupling member, thereby being easily manufactured and maintained and repaired. The assembling type curved LED lighting apparatus comprises: a light guide plate; an aluminum protecting plate formed on the other surface of the light guide plate and configured to reflect, in one direction, a light source that is introduced thereto when the light source is introduced to the light guide plate; and a light diffusion unit integrally formed on the other surface of the light guide plate. The aluminum protecting plate has a curved shape as the whole, is divided into a first aluminum protecting plate and a second aluminum protecting plate, and assembled by allowing the first aluminum protecting plate to overlap the second aluminum protecting plate. An assembling surface thereof is coupled by means of a coupling member wherein the coupling member has a screw coupling structure, a magnet or double tape coupling structure, or a hook coupling structure.

Description

Prefabricated Curved LED Lighting Fixtures {Illuminating System}

The present invention relates to an assembled curved LED lighting luminaire, and in particular, by combining the aluminum protective plate constituting the LED lighting luminaire with a joining member after two divisions, it is characterized in that it is configured to be more easily manufactured and to perform maintenance more easily It relates to an assembled curved LED lighting fixture.

LED (LED) light source is in the spotlight as a new illumination light source because the luminous efficiency is very good, the brightness is good, and the fast response and lifespan is very excellent.

That is, the illuminance of 40 to 60W incandescent light bulbs can be replaced with 5 ~ 10W power using about 80 LEDs, and the 100W incandescent light bulb can implement the same illuminance with 13W electric power using about 128 LEDs. Therefore, much less power is consumed to achieve the same illuminance than conventional incandescent bulbs and fluorescent lamps.

However, the LED light source having the above characteristics generates a lot of heat in the process of converting electrical energy into light, and the heat has a problem of acting as a factor of shortening the LED life as well as reducing the light emitting characteristics of the LED. Therefore, in order to effectively use the LED lighting, it is essential to have a temperature condition for the LED to operate normally.

In order to solve the heat dissipation problem, there is also a method of reducing the amount of current supplied to the LED to emit light. However, since the LED directly lowers the brightness of the LED, the method reduces the value as a light source, thereby decreasing its utility.

Therefore, in the lighting using the LED as a light source, a separate heat dissipation structure is introduced. The conventional LED lighting is installed in a state of being electrically connected to a predetermined position on a printed circuit board on which a plurality of LED elements are provided. A heat sink made of aluminum (Al) is usually attached to the back side of the printed circuit board on which the device is installed, and is configured to emit heat generated from each of the LED elements to the outside when it is turned on.

In the case of the heat sink of the aluminum material is formed around the seating portion and the seating portion on which the PCB on which the LED element is mounted is formed, and comprises a heat dissipation fin portion for widening the heat dissipation area.

Heat sinks drawn by extrusion mold have a problem that the surface must be post-processed, and heat radiation fins must be configured in order to widen the contact area. There is a problem that there is a limitation in manufacturing a thin heat dissipation fin, and furthermore, when aluminum is heavy, it is difficult to install and release, and the price per unit of aluminum increases.

Domestic Patent Publication 10-2017-0040967 (published April 14, 2017) Patent Registration No. 10-1145844 (announced May 17, 2012)

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, by providing a plurality of LEDs and a curved diffuser plate capable of surface light source integrally, LEDs having a constant and improved illuminance of low power high efficiency as a lighting fixture An object of the present invention is to provide a light diffusion panel and an illumination device using the same, which can easily implement a lighting device.

In addition, an aluminum protective plate is installed on the rear surface of the light guide plate, and the aluminum protective plate is divided into two and then coupled to the coupling member to provide a curved LED luminaire more easily.

In addition, the light guide plate containing round or various shapes can be easily assembled and implemented without making a separate mold, thereby reducing productivity and improving assembly quality as well as reducing mold manufacturing cost and improving productivity.

As a means for achieving the above object,

The present invention is a light guide plate; An aluminum protective plate formed on the other surface of the light guide plate and reflecting the light source flowing in the light guide plate in one direction; The light diffusing part integrally forms a curved LED light fixture on the other surface of the light guide plate, wherein the aluminum protective plate is curved in overall shape, divided into two parts by overlapping with the first aluminum protective plate and the second aluminum protective plate, and the assembly surface is combined. Coupled to the member, the coupling member is characterized in that the screw coupling structure, or a magnet or double tape, or a hook coupling structure.

In addition, the dust measuring unit is installed at one end of the luminaire to measure the dust, and outputs an alarm signal if the reference is higher than the reference; An alarm signal output unit electrically connected to the dust measurement unit and outputting an alarm signal to the outside according to a control signal of the dust measurement unit; The dust measuring means is positioned so as to face the infrared ray transmitting means (A) for emitting infrared rays and the infrared ray transmitting means, and receives the light emitted from the infrared ray transmitting means, and determines the dust inflow according to the degree of the received amount. And a dust measurement control unit C for controlling the input voltage of the infrared ray transmitting means A to increase when the infrared ray receiving means B and the output voltage of the infrared ray receiving means B are smaller than a set value. It is characterized by including the configuration.

In addition, the infrared transmitting means (A) includes a concave lens group mounted with a plurality of concave lenses to limit the output of the infrared; An infrared transmitting element proximate to the concave lens group and outputting infrared rays; It is installed on one side of the concave lens group to control the infrared output by flowing the concave lens group, but if the ambient temperature is high according to the change in temperature, the concave lens group flows to the left to allow infrared light to pass through the lens with a low depression angle A shape memory spring for controlling the output to be high and controlling the infrared output to be lowered by passing the concave lens group to the right when the ambient temperature is low and allowing infrared light to pass through the lens having a high depression angle; Located at the right end of the shape memory spring is characterized in that it comprises a fixing portion for supporting the movement of the shape memory spring.

In addition, the infrared transmitting means (A), the housing for receiving the shape memory spring and the fixing portion; It is installed inside the housing, but installed on one side of the shape memory spring forcibly expands the shape memory spring through the heat to move the concave lens group to the left, thereby allowing infrared light to pass through the lens with a low depression angle to output infrared light Heating means for inducing this force to be raised; It is installed on the inside of the housing, but installed on the other side of the shape memory spring to transfer the cooling heat to force the shape memory spring to contract to move the concave lens group to the right, thereby allowing the lens and the infrared with a high depression angle to pass through A thermoelectric element for inducing an infrared output to be forcibly lowered; The transmission control unit is electrically connected to the heat generating means and the thermoelectric element, and controls to increase the infrared output by operating the heat generating means when there is a lot of dust, and to reduce the infrared output by operating the thermoelectric element when there is little dust. It is characterized by including the configuration.

In addition, a plurality of holes are formed in the rim of the housing in which the fixing part is located, and the holes are formed by inserting and coupling a magnet for setting the position of the fixing part.

As described above, the present invention provides a curved diffuser plate capable of integrating a plurality of LEDs and a surface light source, so that the LED diffuser having a constant and improved illuminance with low power and high efficiency can be easily implemented as a lighting fixture. And it is effective to provide a lighting device using the same.

In addition, an aluminum protective plate is installed on the rear surface of the light guide plate, and the aluminum protective plate is divided into two parts and then coupled to the coupling member, thereby providing a curved LED luminaire more easily.

1 is an overall configuration diagram of the present invention after the two divided aluminum protective plate and bonded to each other.
FIG. 2 is a partially enlarged view of FIG. 1 showing a first embodiment in which an aluminum protective plate is coupled by screwing; FIG.
3 is a partially enlarged view of FIG. 1 showing a second embodiment in which an aluminum protective plate is joined by a double adhesive tape; FIG.
FIG. 4 is a partially enlarged view of FIG. 1 showing a third embodiment in which an aluminum protective plate is coupled by a magnet; FIG.
FIG. 5 is a partially enlarged view of FIG. 1 showing a fourth embodiment in which an aluminum protective plate is coupled by a hook; FIG.
6 is a view showing the overall configuration of the present invention the luminaire of the S-shaped (S) type.
7 is a view showing the overall configuration of the present invention to produce a luminaire in the V-shape (V) type.
8 is a view showing the overall configuration of the present invention the luminaire (U) type luminaire.
9 is a view showing the overall configuration of the present invention produced a luminaire (nee) type.
10 is a block diagram of the dust measuring means and the alarm signal output unit of the present invention.
11 is a conceptual diagram of an infrared ray transmitting means and an infrared ray receiving means constituting the dust measuring means of the present invention.
12 is a conceptual diagram of measuring dust using the infrared transmitting means and infrared receiving means of the present invention.
Figure 13 is a first embodiment of the dust measuring means having a shape memory spring in the present invention.
Figure 14 is a second embodiment having a heat generating means, a thermoelectric element and a shape memory spring in the present invention.
FIG. 15 is a first operation diagram of outputting light in a state where the amount of light is increased by moving the concave lens group one space to the right in the present invention; FIG.
16 is a second operation diagram of outputting light in a state in which the amount of light is lowered by moving the concave lens group by one space to the left in the present invention;
FIG. 17 is a third operation diagram of outputting light in a state where the amount of light is further increased by moving the concave lens group two spaces to the right in the present invention; FIG.
18 is a fourth operation diagram of outputting light in a state in which the amount of light is further lowered by moving the concave lens group two spaces to the left in the present invention.
19 is a fifth operation diagram in which the position of the magnet is changed in the present invention;
20 is a conceptual view of the concave lens angle measurement of the present invention.
21 is a configuration diagram of a first concave lens applied to the present invention.
22 is a configuration diagram of a second concave lens applied to the present invention.
23 is a configuration diagram of a third concave lens applied to the present invention.
24 is a fourth concave lens configuration diagram applied to the present invention.
25 is a configuration diagram of the fifth concave lens applied to the present invention.
FIG. 26 is a diagram illustrating the light intensity graph according to the depression angle of the concave lens center of the present invention. FIG.

Hereinafter, with reference to the accompanying drawings and description will be described in detail the operating principle of the preferred embodiment of the present invention. However, the drawings and the following description shown below are for the preferred method among various methods for effectively explaining the features of the present invention, the present invention is not limited only to the drawings and description below.

In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users or operators. Therefore, the definition should be made based on the contents throughout the present invention.

In addition, preferred embodiments of the present invention to be carried out below are already provided in each system functional configuration to efficiently describe the technical components constituting the present invention, or system functions commonly provided in the technical field to which the present invention belongs. The configuration will be omitted, and described mainly on the functional configuration to be additionally provided for the present invention.

If those skilled in the art to which the present invention pertains, it will be able to easily understand the function of the components already used in the prior art among the omitted functional configuration not shown below, and also the configuration omitted as described above The relationship between the elements and the components added for the present invention will also be clearly understood.

In addition, the following examples will be used to properly modify the terms so that those of ordinary skill in the art to clearly understand the key technical features of the present invention, the present invention, thereby It is by no means limited.

As a result, the technical spirit of the present invention is determined by the claims, and the following embodiments are one means for efficiently explaining the technical spirit of the present invention to those skilled in the art to which the present invention pertains. It's just

1 is an overall configuration diagram of the present invention after the two divided aluminum protective plate and bonded to each other.

FIG. 2 is a partially enlarged view of FIG. 1 showing a first embodiment in which an aluminum protective plate is coupled by screwing; FIG.

3 is a partially enlarged view of FIG. 1 showing a second embodiment in which an aluminum protective plate is joined by a double adhesive tape; FIG.

FIG. 4 is a partially enlarged view of FIG. 1 showing a third embodiment in which an aluminum protective plate is coupled by a magnet; FIG.

FIG. 5 is a partially enlarged view of FIG. 1 showing a fourth embodiment in which an aluminum protective plate is coupled by a hook; FIG.

6 is a view showing the overall configuration of the present invention the luminaire of the S-shaped (S) type.

7 is a view showing the overall configuration of the present invention to produce a luminaire in the V-shape (V) type.

8 is a view showing the overall configuration of the present invention the luminaire (U) type luminaire.

9 is a view showing the overall configuration of the present invention produced a luminaire (nee) type.

10 is a block diagram of the dust measuring means and the alarm signal output unit of the present invention.

11 is a conceptual diagram of an infrared ray transmitting means and an infrared ray receiving means constituting the dust measuring means of the present invention.

12 is a conceptual diagram of measuring dust using the infrared transmitting means and infrared receiving means of the present invention.

Figure 13 is a first embodiment of the dust measuring means having a shape memory spring in the present invention.

Figure 14 is a second embodiment having a heat generating means, a thermoelectric element and a shape memory spring in the present invention.

FIG. 15 is a first operation diagram of outputting light in a state where the amount of light is increased by moving the concave lens group one space to the right in the present invention; FIG.

16 is a second operation diagram of outputting light in a state in which the amount of light is lowered by moving the concave lens group by one space to the left in the present invention;

FIG. 17 is a third operation diagram of outputting light in a state where the amount of light is further increased by moving the concave lens group two spaces to the right in the present invention; FIG.

18 is a fourth operation diagram of outputting light in a state in which the amount of light is further lowered by moving the concave lens group two spaces to the left in the present invention.

19 is a fifth operation diagram in which the position of the magnet is changed in the present invention;

20 is a conceptual view of the concave lens angle measurement of the present invention.

21 is a configuration diagram of a first concave lens applied to the present invention.

22 is a configuration diagram of a second concave lens applied to the present invention.

23 is a configuration diagram of a third concave lens applied to the present invention.

24 is a fourth concave lens configuration diagram applied to the present invention.

25 is a configuration diagram of the fifth concave lens applied to the present invention.

FIG. 26 is a diagram illustrating the light intensity graph according to the depression angle of the concave lens center of the present invention;

LED lighting apparatus of the present invention is to include a light source fixing portion 10, and the light diffusion panel (40, 50, 60).

The light source fixing part 10 is a substrate 20 and a plurality of LEDs 30 are arranged, the plurality of LEDs 30 is configured to irradiate a light source to the light diffusion panel.

Although not shown in the drawing, the substrate 20 includes a conventional driving circuit for controlling light emission of the plurality of LEDs 30.

The light diffusion panel provides illumination required for indoor and outdoor by uniformly dispersing a light source in one direction when a plurality of LEDs 30 arranged on a substrate 20 emit light, and provides light to the light guide plate 50. The diffuser 60 is integrally formed and fixed to both ends of the light source fixing part 10 so that a surface light source is formed, or may be divided into a plurality of parts although not shown in the drawing.

In this case, the light diffusion panels 40, 50, and 60 may be curved, and the light diffusion panels 40, 50, and 60 having such a shape may include the light guide plate 50, the aluminum protective plate 40, and the light guide plate 50. And a light diffusion unit 60 integrally formed on one or the other surface of the panel, and the LED 30 of the substrate 20 fixed to the light source fixing unit 10 is driven from the control operation of the driving circuit to emit light. At this time, the light source according to the light emission of the LED 30 is introduced into the light guide plate 50 constituting the light diffusion panel (40, 50, 60) and evenly diffused in the room, it is to be used as the main lighting in the room.

In more detail, when the light source is introduced into the light guide plate 50 included in the light diffusion panel 40, 50, 60, the incoming light source is diffused to the entire surface of the light guide plate 50 to the outside. Emanates.

In this case, the aluminum protective plate 40 formed on the other surface of the light guide plate 50 reflects the light emitted from the light guide plate 50 in one direction, that is, in one direction of the light guide plate 50, and at least one surface of the light guide plate 50. The light diffuser 60 integrally formed in the light diffuser 60 diffuses the light source emitted from the light guide plate 10 in one direction, that is, the indoor side. Accordingly, the lighting effect in the indoor side may be the same as using a conventional incandescent lamp or a fluorescent lamp. It is.

The aluminum protective plate 40 of the present invention is divided into two parts, and may be divided into a first aluminum protective plate 41 and a second aluminum protective plate 42, and the first aluminum protective plate 41 and the second aluminum protective plate 42 are provided. ) And overlap the first aluminum protective plate 41 and the second aluminum protective plate 42 with a coupling member.

The coupling member may be a screw coupling structure 110 formed with a screw thread, and may be composed of a double tape 120. The magnet 130 is mounted on the first aluminum protection plate and inserted into the second aluminum protection plate. It can be configured to.

Then, the hook coupling structure 150 is applied to install the hook shape in the first aluminum protection plate and form the coupling hole in the second aluminum protection plate, thereby inserting the hook shape of the first aluminum protection plate into the coupling hole of the second aluminum protection plate. Can be combined to complete.

In addition, the curved shape of the LED lighting luminaire can be diversified, it can be discouraged by very diversified, such as S-shaped, V-shaped, U-shaped, needle-shaped.

On the other hand, one side of the LED lighting luminaire is further installed by adding a dust measuring means 1000, and if it is determined that there is dust above the reference result of the measurement of the dust measuring means 1000, the alarm signal through the alarm signal output unit 2000 Output to induce contaminants.

The dust measuring means 1000 of the present invention is positioned to face the infrared transmitting means (A) for emitting infrared rays and the infrared transmitting means, and receives the light emitted from the infrared transmitting means and according to the degree of the received amount An infrared receiver (B) for determining dust inflow and a dust measurement controller for controlling the input voltage of the infrared transmitter (A) to increase when the output voltage of the infrared receiver (B) is smaller than a set value (C) is made.

Then, the infrared ray transmitting means (A) receives the infrared ray transmission control signal from the dust measurement control unit (C) to determine the infrared ray amount and outputs the changed infrared ray amount.

That is, when the resultant value of the infrared receiver B is transmitted to the dust measurement controller C, the dust measurement controller C predicts the dust generation amount based on the data of the infrared receiver B, and according to the dust generation amount. By outputting a control signal to the infrared transmitting means (A) to control the amount of infrared transmission to guide the output.

That is, the dust measurement control unit reads the light quantity data output from the infrared receiving means, and automatically controls the light quantity of the infrared light emitting means based on this, so that the sensitivity control is automatically kept constant so that dust detection is optimal even in a contamination situation caused by dust. It is to keep the sensitivity and measure.

In other words, the dust measurement control unit C determines that the pollution degree is high when the amount of received light from the infrared receiver B is weak, and outputs a control signal to increase the amount of light from the infrared transmitter A for more accurate dust measurement. When the received light amount of the infrared ray receiving means C is too high, since there is no contamination or it is difficult to precisely measure, the control signal is output to lower the amount of light of the infrared ray transmitting means A. In other words, it is necessary to maintain the amount of infrared ray transmitting light in an appropriate state. Only then, the amount of infrared radiation measured by the infrared receiver can be accurate, so that dust generation can be predicted more precisely. Therefore, the dust amount data measured by the dust measurement control unit of the present invention can output a dust measurement result of high reliability.

The present invention includes a concave lens group (1) mounted with a plurality of concave lenses to limit the output of the infrared;

An infrared transmitting element (2) which is close to the concave lens group and outputs infrared rays;

Is installed on one side of the concave lens group to flow the concave lens group to adjust the infrared output, if the ambient temperature is high according to the change in temperature flows the concave lens group to the left to pass infrared light through the lens with a low depression angle A shape memory spring 3 which controls the output to be high and controls the infrared output to be lowered by passing the concave lens group to the right when the ambient temperature is low and allowing infrared light to pass through the lens having a high depression angle;

Located at the right end of the shape memory spring is configured to include a fixing portion (4) for supporting the movement of the shape memory spring.

And, the housing (5) for receiving the spring and the fixing portion;

It is installed inside the housing, but installed on one side of the shape memory spring forcibly expands the shape memory spring through the heat to move the concave lens group to the left, thereby allowing infrared light to pass through the lens with a low depression angle to output infrared light Heating means 6 for inducing this force to be raised;

It is installed inside the housing but is installed on the other side of the shape memory spring (3) to transfer the cooling heat to force the shape memory spring (3) to shrink to move the concave lens group to the right, accordingly the lens with a high depression angle And a thermoelectric element 7 for inducing infrared rays to pass through to induce the infrared output to be forcibly lowered.

The transmission control unit 8 is electrically connected to the heat generating means and the thermoelectric element, and controls to increase the infrared output by operating the heat generating means when there is a lot of dust, and to reduce the infrared output by operating the thermoelectric element when there is little dust. Consists of including.

In addition, a plurality of holes 5a, 5b, and 5c are formed at the edge of the housing in which the fixing part 4 is positioned, and the magnet 9 is inserted into and coupled to the hole to set the position of the fixing part 4. It is done by

That is, the fixing part 4 is made of metal, and the magnet 9 is inserted into the hole to temporarily fix the fixing part. Accordingly, the area with low temperature is set by placing the magnet in the center hole 5b or the left hole 5a, and the area with high temperature is set by placing the magnet 9 in the center hole 5b or the right 5c. do.

Then, the position of the first transmission element 2 is located at the center of the concave lens group 1, and then expands and contracts according to the temperature change so that the concentration of dust can be accurately determined.

According to the present invention, the output of the transmitting element 2 is automatically adjusted according to the change of temperature. The shape memory spring 3 is set to a basic temperature. The light is reduced and output, and when the temperature decreases, the shape memory spring 3 is reduced and the light of the transmitting element 2 is lowered and output.

That is, since the dust is distributed in the gas, the movement becomes active when the temperature rises, so that it is possible to check the dust concentration more precisely than when the output of the transmitting element 2 is lowered, and when the temperature decreases, the movement becomes dull. You can check the dust concentration more precisely than when you increased the output of 2).

Accordingly, the present invention allows the concave lens group 1 to flow to reflect the temperature change so that the dust concentration can be more accurately understood.

Referring to the actual operation, first, light of the transmitting element is output through the third concave lens 1c installed at the center of the concave lens group 1.

When the ambient temperature rises, the shape memory spring expands and is positioned on the right side of the third concave lens 1c, and at the same time, the second concave lens 1b having a recessed angle lower than that of the third concave lens 1c is located at the position of the transmitting element. Accordingly, the light output of the transmitting element 2 is lowered and output. When the ambient temperature decreases, the shape memory spring 3 contracts and is positioned on the left side of the third concave lens 1c, and at the same time, the fourth concave lens 1d having a depression angle higher than that of the third concave lens 1c is transmitted. At the position of the device 2, the light output of the transmission device 2 is increased, thereby outputting.

As described above, the present invention facilitates the change of the amount of light according to the movement of the dust by automatically expanding and contracting the shape memory spring 3 in response to the ambient temperature, so that the dust concentration can be detected more precisely, and the alarm output is more accurate. This is done.

On the other hand, the present invention is configured so that the transmission control unit 8 can determine the most accurate dust concentration by forcibly moving the concave lens group 1 in accordance with the dust concentration, even if there is no temperature change, the amount of light of the transmission element according to the dust concentration By adjusting, it is possible to determine the exact dust concentration.

That is, in the present invention, when the dust measurement control unit C outputs a control signal in order to facilitate the change of the amount of light of the infrared transmission means, the transmission control unit 8 recognizes this and drives the heat generating means 6 and the thermoelectric element 7. The most appropriate infrared transmission was made.

First, the infrared light is output through the third concave lens 1c basically installed at the center of the concave lens group 1, and when the infrared light needs to be reduced a little, the transmission control unit 8 generates the heating means 6. 2) concave lens group 1 is moved but the second concave lens is installed on the right side of the third concave lens 1c because the shape memory spring is expanded and the transmitting element 2 is fixed. As the lens 1b moves to the position of the transmitting element 2, the output light of the transmitting element is output through the second concave lens.

When the infrared light needs to be reduced and outputted more, the transmission control unit 8 operates the heat generating means 6 to generate more heat so that the shape memory spring 3 expands more, and thus the concave lens group 1 ) Moves, but the first concave lens (1a) is heated to move to the position of the transmitting element (2), thereby outputting the light of the transmitting element (2) through the first concave lens (1a).

When the infrared light is to be raised and output, the transmission control unit 8 drives the thermoelectric element 7 to generate cooling heat so that the shape memory spring 3 is contracted, and thus the concave lens group 1 is moved. The fourth concave lens 1d, on which the left side of the third concave lens 1c is provided, is positioned in the transmitting element, and thus the light of the transmitting element 2 is output through the fourth concave lens 1d.

In addition, when the infrared light needs to be higher and output, the transmission control unit 8 drives the thermoelectric element 7 to generate more cooling heat, thereby causing the shape memory spring 3 to contract more. ) Is moved but the fifth concave lens 1e is moved to the position of the transmitting element 2, whereby the light of the transmitting element 2 outputs light through the fifth concave lens 1e.

In addition, the concave lens group is designed to vary the degree of output of the infrared light according to the depression angle of the center portion, the third concave lens (1c) is basically installed at the center of the operating rod to form a depression angle of 25 degrees.

The second concave lens 1b is used when the infrared light needs to be slightly reduced and output. The second concave lens 1b is provided on the right side of the third concave lens 1c to form a depression angle of 15 degrees.

In addition, the first concave lens 1a is used when the infrared light is to be reduced and output more, and is installed on the right side of the second concave lens 1b to form a depression angle of 5 degrees.

In addition, the fourth concave lens 1d is used in the case where the infrared light is to be further raised and output, and the fourth concave lens 1d is installed on the left side of the third concave lens 1c to form a depression angle of 35 degrees.

In addition, the fifth concave lens 5e is used in the case where the infrared light needs to be increased to output more, and is installed on the left side of the fourth concave lens 1d to form a depression angle of 45 degrees.

1: concave lens group 2: light emitting element
3: shape memory spring 4: fixing part
5: housing 6: heating means
7: thermoelectric element 8: transmission control unit
9: magnet 10: light source fixing part
20: substrate 30: LED
40: aluminum reflector 50: light guide plate
60: light diffusion unit 1000: dust measurement control unit
2000: alarm signal output unit

Claims (5)

A light guide plate; An aluminum protective plate formed on the other surface of the light guide plate and reflecting the light source flowing in the light guide plate in one direction; On one surface of the light guide plate to form a light emitting unit integrally curved LED lamp,
The aluminum protective plate,
It is generally curved, divided into two parts, the first aluminum protective plate and the second aluminum protective plate, and assembled together.
The assembled surface is coupled with a coupling member, wherein the coupling member is a screw coupling structure or a magnet or double tape or a hook coupling structure;

Dust measuring means installed at one end of the luminaire to measure dust, and outputting an alarm signal if it is above a reference;
An alarm signal output unit electrically connected to the dust measuring means and configured to output an alarm signal to the outside according to a control signal of the dust measuring means;
The dust measuring means,
An infrared ray transmitting means (A) for emitting infrared rays, and an infrared ray receiving means for facing the infrared ray transmitting means and receiving the light emitted from the infrared ray transmitting means and determining the inflow of dust according to the amount of the received amount (B) and a dust measuring control unit (C) for controlling the input voltage of the infrared transmitting unit (A) to increase when the output voltage of the infrared receiving unit (B) is smaller than a set value;

The infrared transmitting means (A),
A concave lens group in which a plurality of concave lenses are mounted to limit the output of infrared rays;
An infrared transmitting element proximate to the concave lens group and outputting infrared rays;
It is installed on one side of the concave lens group to flow the concave lens group to adjust the infrared output, but if the ambient temperature is high according to the change in temperature, the concave lens group flows to the left to allow infrared light to pass through the lens with a low depression angle A shape memory spring for controlling the output to be high and controlling the infrared output to be lowered by passing the concave lens group to the right when the ambient temperature is low and allowing infrared light to pass through the lens having a high depression angle;
And a fixed part for supporting the movement of the shape memory spring located at the right end of the shape memory spring. delete delete The method of claim 1,
The infrared transmitting means (A),
A housing accommodating the shape memory spring and the fixing part;
It is installed inside the housing, but installed on one side of the shape memory spring forcibly expands the shape memory spring through the heat to move the concave lens group to the left, thereby allowing infrared light to pass through the lens with a low depression angle to output infrared light Heating means for inducing this force to be raised;
It is installed on the inside of the housing, but installed on the other side of the shape memory spring to transfer the cooling heat to force the shape memory spring to contract to move the concave lens group to the right, thereby allowing the lens and the infrared with a high depression angle to pass through A thermoelectric element for inducing an infrared output to be forcibly lowered;
It is electrically connected to the heat generating means and the thermoelectric element, and if there is a lot of dust control to operate to increase the infrared output, and if there is less dust to control the operation to lower the infrared output by operating the thermoelectric element; Built-in curved LED lighting fixture characterized in that the configuration. The method of claim 4, wherein
And a plurality of holes are formed at an edge of the housing in which the fixing part is positioned, and the holes are inserted into and coupled to a magnet for setting the position of the fixing part.

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