KR101539985B1 - Lamp device - Google Patents

Abstract

The present invention relates to a lighting apparatus installed in a closed interior space in which a sterilizing object is stored, An ultraviolet ray generator for generating ultraviolet rays; An anion generating unit generating an anion; A heat dissipating unit for dissipating heat generated in the illumination unit, the ultraviolet ray generating unit, and the anion generating unit; A blowing unit for cooling the heat generated by the illumination unit, the ultraviolet ray generating unit and the anion generating unit and diffusing the sterilizing material of the anion generating unit; A sensing unit for sensing presence or absence of a person to select an operation of the illumination unit, the ultraviolet ray generator, and the anion generator; A temperature detection unit for detecting an internal temperature of the illumination device; And a control unit for selectively controlling the on / off states of the illumination unit, ultraviolet ray generating unit, and anion generating unit by checking presence or absence of a person by the sensing unit and controlling the blowing unit by the temperature detecting unit .

Description

LAMP DEVICE

The present invention relates to a lighting apparatus, and more particularly, to a lighting apparatus that includes an ultraviolet ray generating unit and an anion generating unit so as to remove various harmful bacteria and pollutants contained in the room air including illumination, To a lighting device.

In general, as the development of industry and the change of residential culture have led to a more comfortable life, lighting devices for simply lighting up are developed with various designs and occupy a part of the interior of the interior.

In general, an illumination device suitable for the interior decoration is an incandescent lamp and a fluorescent lamp widely used as an energy saving type as compared with the incandescent lamp. Recently, the use of an LED lamp for reducing power loss has been increasing .

In addition, I was interested in keeping indoor air as clean as indoor interior.

Therefore, an ultraviolet ray generating device, an anion generating device and the like are used to remove various harmful bacteria and contaminants contained in the air in the room and the closed space.

However, since the ultraviolet ray generator and the anion generator emit ultraviolet rays and anions, respectively, they are harmful to the human body when they are exposed for a long time. Therefore, they should be used only when removing harmful bacteria and pollutants contained in the air or sterilizing them.

Accordingly, there has been developed a device designed to have an efficient and optimized structure capable of selectively controlling each of the ultraviolet ray generating device and the negative ion generating device, as well as the lighting device, in conformity with such use conditions.

Korean Patent Registration No. 0684551 (Feb. 13, 2007)

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide an air purifier integrally installed in a lighting device so as to simultaneously exhibit an air purifying function and a lighting function, Device.

According to an aspect of the present invention, there is provided an illumination device installed in an indoor space, the illumination device comprising: an illumination unit; An ultraviolet ray generator for generating ultraviolet rays; An anion generating unit generating an anion; A heat dissipating unit for dissipating heat generated in the illumination unit, the ultraviolet ray generating unit, and the anion generating unit; A blowing unit for cooling the heat generated by the illumination unit, the ultraviolet ray generating unit and the anion generating unit and diffusing the sterilizing material of the anion generating unit; A sensing unit for sensing presence or absence of a person to select an operation of the illumination unit, the ultraviolet ray generator, and the anion generator; A temperature detection unit for detecting an internal temperature of the illumination device; And a controller for selectively controlling on / off states of the illuminating unit, ultraviolet ray generating unit, and anion generating unit by checking presence or absence of a person by the sensing unit, and controlling the blowing unit by the temperature detecting unit, And the air blowing direction is switched upward or downward according to an internal temperature of the lighting apparatus and an operation of the ultraviolet ray generating unit and the negative ion generating unit. When the internal temperature of the lighting apparatus exceeds the set reference temperature value The lighting unit is blown upward and stops when the internal temperature of the lighting apparatus is lower than the set reference temperature value in the lighting state and the lighting unit is in the unlit state and the ultraviolet generating unit and the anion generating unit are operated When the internal temperature of the lighting apparatus is lower than the reference temperature value, Characterized in that control is configured to be blown downward by the fisherman.

The ultraviolet ray generating unit is disposed on a single flat plate, the illuminating unit is disposed on an outer circumferential surface of the flat plate, the ultraviolet ray generating unit is disposed on a central portion excluding the outer circumferential surface on which the illuminating unit is disposed, And the illuminating unit is disposed at a central portion excluding the outer peripheral surface on which the ultraviolet ray generating unit is disposed.

The ultraviolet ray generating unit is installed outside the heat dissipating unit, and the negative ion generating unit is installed inside the heat dissipating unit.

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And a discharge port is formed in the flat plate on which the illumination unit and the ultraviolet ray generating unit are disposed so that the sterilizing material of the negative ion generating unit can be discharged to the outside.

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According to the lighting apparatus of the present invention having the above-described configuration, the lighting and the air cleaning can be selected through the automatic switching of the switch mode. In particular, when the switch is switched to the automatic mode, Accordingly, the ON and OFF states of the illumination and air cleaning can be selectively controlled.

In particular, various kinds of harmful bacteria in the air are removed through the ultraviolet ray generating unit, and sterilization and purification of various harmful bacteria and pollutants contained in the room air can be rapidly performed through the negative ion generating unit, thereby keeping indoor air always clean.

In addition, the blowing direction of the blowing-out portion can be selectively controlled according to the temperature, and the air cleaning operation according to the indoor environment can be performed more efficiently.

In addition, since the blower unit selectively operates as needed, power consumption can be reduced.

1 is a block diagram showing a wiring state of a lighting apparatus according to the present invention.
2 and 3 are a plan view and a bottom view of the lighting apparatus according to the present invention.
4 is a perspective view showing a heat dissipation part of a lighting device according to the present invention.
5 is a flowchart showing the operational flow of the lighting apparatus according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 1 to 5. FIG.

1 to 4, a lighting apparatus according to the present invention is installed in a closed interior space in which a sterilizing object to be sterilized is stored, and includes an illumination unit 100, an ultraviolet ray generating unit A heat dissipation unit 300 for emitting heat of the illumination unit 100, the ultraviolet ray generation unit 210 and the negative ion generation unit 220, A light emitting unit 400 for cooling the heat generated by the ultraviolet light generating unit 210 and the negative ion generating unit 220 and diffusing the sterilizing material of the negative ion generating unit 220, A sensing unit 500 for sensing the presence of a person to select an operation of the ultraviolet ray generator 210 and the anion generator 220, a temperature detector 600 for sensing an internal temperature of the illuminator, (500) to check the presence or absence of a person to determine whether the illumination unit (100), ultraviolet 210 and a negative ion generation unit selectively control the on and off states of 220, and is configured by a control unit for controlling the blower 400 by the temperature detector 600. The

The case (not shown) that accommodates the illumination unit 100, the anion generator 220, the heat dissipation unit 300, the airflow unit 400 and the like may have various shapes in consideration of design characteristics, In the embodiments of the present invention, detailed description thereof will be omitted.

According to the lighting apparatus of the present invention, the lighting unit 100 may include an incandescent lamp, a fluorescent lamp, an LED lamp, etc. However, in the embodiment of the present invention, And the LED lamp 110 is disposed in the vicinity of the LED lamp 110.

And a plurality of high-output LED elements (not shown) attached to the electrode circuit disposed on the backside of the PCB substrate and electrically connected to each other, the PCB substrate having an electrode circuit for electrically connecting the LED element 111).

Here, the PCB substrate may be made of a resin material that is commonly used, but a metal substrate having a high thermal conductivity may be used so that heat generated from the LED device 111 can be rapidly transferred.

As shown in FIGS. 2 and 3, the light source, such as the LED device 111 included in the LED lamp 110, has a strong linearity of light, has a relatively small light distribution angle, and is semi-permanently usable. And is installed on the front surface of the flat plate 310 located below the heat dissipation unit 300.

The ultraviolet ray generator 210 is uniformly irradiated with ultraviolet rays having a wavelength ranging from 100 nm to 380 nm irrespective of the shape of the object to be sterilized to sterilize various microorganisms and remove various harmful bacteria and contaminants contained in the air A UV LED lamp.

The anion generator 220 may be a plasma module that generates negative ions by causing electrons to be lost by a halogen gas using a microwave such as ionizing radiation having a high energy or vacuum ultraviolet rays and a high frequency.

The anion generator 220 may be an anionization method used in various negative ion generators such as a corona discharge system and an electron emission system, as well as a plasma module using the plasma discharge system.

However, in the corona discharge method and the electron emission method including the plasma discharge method, most of the produced anions are bound to cations in the atmosphere, and the number of anions that are substantially transferred to the human body is limited and ozone by- It is preferable to use only the UV LED lamp when sterilizing, since it will adversely affect the human body when exposed.

The ultraviolet ray generator 210 is installed on the front surface of the heat dissipating unit 300 and the anion generating unit 220 is spaced apart from the rear surface of the heat dissipating unit 300.

3, the illumination unit 100 and the ultraviolet ray generating unit 210 are installed on a front surface of a flat plate 310 located below the circular heat dissipation unit 300. As shown in FIG. 3, An ultraviolet ray generator 210 is disposed at a central portion except an outer circumferential surface where the illumination unit 100 is disposed or an ultraviolet ray generator 210 is disposed on an outer circumferential surface of the flat plate 310. [ It is preferable that the illumination unit 100 is disposed at a central portion except for the outer circumferential surface where the ultraviolet ray generating unit 210 is disposed.

The driving circuits of the illumination unit 100, the ultraviolet ray generator 210, and the anion generator 220 may be realized by using a generally known technology as shown in Korean Registration Nos. 0684551 and 1207365, A detailed description thereof will be omitted in the embodiment of the present invention.

As shown in FIG. 4, the heat dissipating unit 300 is for emitting heat generated from the illuminating unit 100. In the embodiment of the present invention, a plurality of heat dissipating fins 320 And a heat sink provided with a heat sink.

The heat dissipation unit 300 is preferably formed with a discharge port 330 through which the sterilizing material of the negative ion generator 320 can be widely diffused and discharged to the outside by the discharge unit 400.

The blowing unit 400 is spaced apart from the back surface of the flat plate 310 of the heat dissipating unit 300 and cools the heat generated in the illumination unit 100, the ultraviolet generating unit 210 and the anion generating unit 220 And an air blowing fan that functions to diffuse the germicidal material generated by the negative ion generator 220.

The blowing unit 400 is controlled to be capable of forward and reverse rotation in which the blowing direction is switched upward or downward according to the internal temperature of the lighting device and the operation of the ultraviolet ray generating unit 210 and the negative ion generating unit 220.

For example, when the internal temperature of the illumination device exceeds a set reference temperature value (about 45 ° C), the heat is cooled by the blowing part 400. When the illumination part 100 is in the on state or the ultraviolet It is preferable that the blowing unit 400 is controlled to blow upward so that hot air does not directly contact the sterilizing object regardless of the state in which the unit 210 and the anion generating unit 220 are operated.

At this time, the sterilizing material discharged from the anion generator 220 is not blown downward for the time until the internal temperature of the illumination device drops below the reference temperature value.

Conversely, when the lighting unit 100 is in the on-state and the internal temperature of the lighting apparatus is lower than the reference temperature value, the air-blowing unit 400 preferably stops.

In a state where the illumination unit 100 is in an unlit state and the internal temperature of the illumination apparatus is lower than a reference temperature value in a state where the ultraviolet ray generator 210 and the anion generator 220 are operated, The blowing unit 400 may be controlled to be blown downward.

Here, it is a matter of course that the temperature detecting unit 600 for detecting the internal temperature of the illumination device is installed inside the heat dissipating unit 300.

The sensing unit 500 senses the entrance and exit of a person and controls the control unit 700 to control whether the illuminating unit 100, the ultraviolet generating unit 210 and the anion generating unit 220 are operated. Signal.

Here, the sensing unit 500 may be an image sensor that senses a person using an infrared camera or the like. However, the sensing unit 500 is not necessarily limited to this, and any sensing means may be adopted Do. For example, it may be a voice recognition sensor that detects voice or sound of a person.

The control unit 700 enables selection of illumination and air cleaning through manual switching or automatic switching of the switch mode. In particular, when the switch is switched to the automatic mode, the control unit 700 detects the entrance / The ON and OFF states of illumination and air cleaning can be selectively controlled by the signal.

Of course, the control unit 700 may control the blowing direction of the blowing unit 400 by the temperature detecting unit 600 as described above.

Hereinafter, an operation flow of the lighting apparatus by the control unit 700 will be described with reference to FIG.

First, the ultraviolet ray generating unit 210 and the anion generating unit 220 are operated in an airtight room where sterilization objects are stored, ultraviolet rays and anions are generated, and the sterilizing material is diffused into the room air. On the other hand, the illumination unit 100 is turned off.

Since the illumination device that continuously irradiates the ultraviolet rays in the air in the room and emits the negative ions as described above, freshness of objects to be sterilized in storage, such as foods, can be improved as well as corruption and contamination can be prevented .

When a person including a worker enters the room, the sensing unit 500 senses a person. When the sensed signal is transmitted to the control unit 700, the control unit 700 operates the lighting unit 100 Thereby lighting the LED lamp 110, thereby facilitating the activity of the person entering the room.

On the other hand, the controller 700 turns off the ultraviolet ray generator 210 and the anion generator 220 to block the generation of ultraviolet rays and anions that may be harmful to the human body.

Thereafter, when a person leaves the room, the sensing unit 500 can not sense a person. When the sensing unit 500 transmits the sensing signal to the controller 700, the controller 700 controls the lighting unit 100 The LED lamp 110 is turned off to turn off the LED lamp 110. The ultraviolet ray generator 210 and the anion generator 220 are operated to emit ultraviolet rays and other negative ions to remove various harmful bacteria and pollutants contained in the indoor air .

On the other hand, the blowing direction of the blowing part 400 is selectively controlled by the control part 700 according to the internal temperature of the lighting device.

That is, it is controlled to be blown upward or downward according to the internal temperature of the lighting apparatus.

If the internal temperature of the lighting apparatus exceeds the set reference temperature value regardless of whether the illumination unit 100 is in the on state or the ultraviolet generating unit 210 and the anion generating unit 220 are operated, Enrichment 400 operates to cool the internal heat of the lighting device.

At this time, the blowing unit 400 blows upward so that hot air does not directly contact the sterilizing object.

In the lighting state of the illumination unit 100, when the internal temperature of the illumination device is lower than the reference temperature value, the power supply unit 400 stops.

Alternatively, in a state in which the illumination unit 100 is in an unlit state and the ultraviolet ray generator 210 and the anion generator 220 are operated, when the internal temperature of the illumination apparatus is lower than the reference temperature value, The blowing unit 400 blows downward.

Meanwhile, the illumination unit 100, the ultraviolet ray generator 210 and the anion generator 220 can be turned on or off simultaneously by switching the switch mode manually.

Accordingly, the illumination device according to the present invention can be used semi-permanently for a long period of time by using a light source made up of the LED lamp 110 as the illumination unit 100. In addition to cost reduction with low power consumption, And a generating unit 220. The ultraviolet rays are irradiated and the sterilizing material can be diffused into the room through the anion. Thus, indoor air contaminated with various pollutants or harmful bacteria can be purified and fresh indoor air can be maintained.

Particularly, the blowing direction of the blowing part 400 can be selectively controlled according to the internal temperature of the lighting device, so that the air cleaning operation according to the indoor environment can be performed more efficiently.

In addition, since the power supply unit 400 is selectively operated as needed, power consumption can be reduced.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It should be understood that various modifications made by the person skilled in the art are also within the scope of protection of the present invention.

100: illumination unit 210: ultraviolet ray generator
220: Negative ion generator 300:
310: flat plate 400:
500: sensing part 600: temperature detecting part
700:

Claims (8)

A lighting device installed in an indoor space,
An illumination unit;
An ultraviolet ray generator for generating ultraviolet rays;
An anion generating unit generating an anion;
A heat dissipating unit for dissipating heat generated in the illumination unit, the ultraviolet ray generating unit, and the anion generating unit;
A blowing unit for cooling the heat generated by the illumination unit, the ultraviolet ray generating unit and the anion generating unit and diffusing the sterilizing material of the anion generating unit;
A sensing unit for sensing presence or absence of a person to select an operation of the illumination unit, the ultraviolet ray generator, and the anion generator;
A temperature detection unit for detecting an internal temperature of the illumination device; And
And a controller for selectively controlling on / off states of the illuminating unit, ultraviolet ray generating unit, and anion generating unit by checking presence or absence of a person by the sensing unit, and controlling the blowing unit by the temperature detecting unit,
The air blowing unit is configured to perform normal / reverse rotation in which an air blowing direction is switched upward or downward according to an internal temperature of the illumination device and an operation of the ultraviolet ray generating unit and the negative ion generating unit. The lighting unit is in an unlit state, and the ultraviolet ray generating unit and the anion generating unit are stopped when the internal temperature of the lighting apparatus is lower than the set reference temperature value, Wherein when the internal temperature of the lighting apparatus is lower than a reference temperature value in a state where the lighting apparatus is operated, blowing control is performed downward by the control unit.
The method according to claim 1,
Wherein the illumination unit and the ultraviolet ray generation unit are disposed on a single flat plate, an illumination unit is disposed on an outer circumferential surface of the flat plate, an ultraviolet ray generating unit is disposed in a central portion except for an outer circumferential surface on which the illumination unit is disposed,
Wherein an ultraviolet ray generating section is disposed on an outer circumferential surface of the flat plate and an illuminating section is disposed on a central portion excluding an outer circumferential surface on which the ultraviolet ray generating section is disposed.
The method according to claim 1,
Wherein the ultraviolet ray generating unit is provided outside the heat radiating unit,
And the negative ion generating part is provided inside the heat radiating part.
delete The method according to claim 1,
Wherein a discharge port is formed in the flat plate on which the illumination unit and the ultraviolet ray generating unit are disposed so that the sterilizing material of the negative ion generating unit can be discharged to the outside.
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