KR101337070B1 - Led lamp with an anion generator - Google Patents

Abstract

The present invention relates to an anion generating lamp using an LED made of; a housing in which an upper side is opened and a base is formed on a lower side; an anion generating device which is included within the housing and forms a lead line and a high tension wire; a first substrate which is installed within the housing and mounts the anion generating device which generates anions by receiving a power source through the base; a protection pipe which is formed on the center of the first substrate and is penetrated by the high tension wire; an anion generating part made of a metal fiber on the end part of the high tension wire; a second substrate which is penetrated by the protection pipe and is connected to multiple LEDs emitting light by receiving the power source through the first substrate; and cover which is combined to the upper side of the housing and has an opened lower side. A liberation pore in which the metal fiber is exposed to outside is formed on the upper side of the cover. The anion generating lamp has a branching form in which a part of the cover around the liberation pore is dented. The anion which is generated and radiated from the metal fiber exposed to outside by the liberation pore is focused and radiated. The present invention minimizes anion loss without a separate structure or an additional composition and improves the degree of agglomeration of the anion by concentrating a radiation direction of the anion to one side, thereby increasing the efficiency of a purification function. [Reference numerals] (AA) Anion radiation angle

Description

LED lamp with negative ion generator {LED LAMP WITH AN ANION GENERATOR}

The present invention relates to an anion generating lamp using an LED (Light Emitting Diode), in particular, the application of anion generating chip integrally applied to the luminaire to illuminate the room using a plurality of high brightness LED, a separate The present invention relates to an LED lamp having an anion generator for increasing anion emission efficiency by limiting an emission angle of anion to a certain angle range without implementing an additional mechanism.

In general, indoor air in which a person lives includes various germs and dusts that are harmful to the human body, and when a person inhales it into the body through a respirator, there is a risk of harming health.

With the recent improvement in living standards and the increasing interest in health, most households have installed indoor air cleaners, negative ion generators or humidifiers to keep indoor air containing various germs and dust clean and comfortable at all times. .

Among the various air treatment devices installed and used indoors, the negative ion generator neutralizes odors in the air to purify the air and prevent bacteria from propagating. It is known that it is effective in the treatment and prevention of insomnia, neuralgia, etc., and also has the effect of restoring fatigue and relieving stress by activating the human body.

The negative ion generator dedicated to negative ion generation is not only expensive but also inconvenient to occupy the installation space. Therefore, instead of the negative ion generator dedicated to negative ion generation, an anion generator is attached to a lamp installed on the ceiling of the room to illuminate the room at the same time. Negative ion generator with lamp for purifying air has been developed and used.

As an example, there may be mentioned Utility Model Registration No. 421556 (designation name: Anion generating lamp using LED), which has a socket coupled to one end and opened on one side as shown in FIG. In the housing (1), the LED module (2) installed in the housing (1), the lens cover (3) and the LED module (2), which are mounted on the open surface of the housing (1) and transmit light It is made of a metal fiber (4) extending and protruding out of the lens cover (3).

The anion generator basically generates negative ions to adsorb and remove cations such as dust in the air, which causes cationic substances to collect around the negative ion lamp. Etc. are integrated.

In this case, dust accumulated on the lens cover must be wiped out. To do this, first remove the lens cover from the lamp, wipe off the accumulated dust on the lens cover, and then attach the lens cover to the lamp again. Metal fibers protrude out of the lens cover. In the same structure as the above invention, which has a longer length than necessary, it takes time to install because the metal fiber is bent in the process of remounting because the metal fiber is long when the lens cover is remounted to the lamp. If it is not installed, it can be easily broken, and there is a problem in that the lens cover cannot be easily attached or detached.In addition, when the metal fiber is used for a long time, polymer oil mist, nicotine, tar, etc. are accumulated on the end of the metal fiber. As a result, the release of negative ions from the metal fiber is not smooth. The problem is.

The technology proposed to solve such a problem is Patent No. 0950713 (name of the invention: anion lamp using the LED), as shown in the accompanying Figure 2, the upper portion is provided with a coupling socket terminal and the lower portion A main body 10 having a lower surface having an opening formed in the center thereof, and an LED module 20 positioned in the main body 10 and installed to expose the LED 21 to the outside of the main body 10 through the opening hole. ), A metal fiber 30 protruding downward from the outside of the main body through the center of the LED module 20 from the negative ion generator provided in the main body 10, and coupled to the lower end of the main body 10 and the upper circumference Is composed of a lens shade 40 to form a narrower than the lower periphery; The lens shade 40 includes a circular band formed at an upper end thereof: a lens portion 41 is formed in the upper end of the lens shade 40 to be curved downward to have a convex lens shape, and the lens portion 41 is provided. ), A guide hole 42 through which the metal fiber 30 drawn out from the main body 10 is inserted is formed.

The negative ion generator induces the flow of air around the metal fiber by using the lens shade, and the heat generated when the LED is emitted to the outside easily to extend the life of the LED, and the appearance is beautiful and various colors It creates a variety of atmospheres by allowing the lights to be illuminated indoors.

The negative ion generator according to the above-mentioned prior arts is usually used as a ceiling light, by radiating negative ions from the ceiling to the floor to neutralize the positively charged dust or contaminants present in the space between the ceiling and the floor to cause air to fall to the floor. Techniques to make it clean.

At this time, looking at the clean efficiency according to the anion radiation angle for the prior art shown in Figures 1 and 2, in the case of the prior art shown in Figure 1 anion radiated from the metal fiber 4 has a radiation angle of 180 Since the negative ions radiated toward the bottom surface are smaller than the total radiation amount because they deviate from the range of, the clean efficiency decreases and causes the problems as described above.

On the other hand, in the prior art illustrated in FIG. 2, the radiation angle is reduced by an additional structure called the lens shade 40, but the radiation angle having effectiveness among the anions emitted from the metal fiber 30 is indicated by a red one-dot chain line. Negative ions radiated into the lens shade 40 as compared to the) is charged while colliding with the lens shade 40 causes a loss (denoted by a blue one-dot chain line), resulting in a deterioration of the clean function.

Furthermore, the phenomenon of dust gathering around the lamp, which is a problem that has occurred in the attached technology of FIG. 1, causes a problem that is more concentrated in the lens shade 40 in which negative ions are charged.

An object of the present invention for solving the above-described problems, relates to an anion generating lamp using a light emitting diode (LED), in particular, the illumination for illuminating the room using a plurality of high brightness LED (High Brightness LED) the chip for anion generation The present invention provides an LED lamp having an anion generator for increasing the anion emission efficiency by applying the unit integrally to the device and limiting the emission angle of the anion to a predetermined angle without implementing an additional device.

The characteristics of the negative ion generating lamp using the LED according to the present invention for achieving the above object, the upper surface is opened and the base is formed in the lower surface, and the negative ion generation included in the housing and the lead wire and the high voltage line is formed A first substrate installed in the housing, the negative ion generator generating negative ions by receiving power through the base, and a protective tube formed in the center of the first substrate and passing through the high voltage line; A second substrate is connected to the negative ion generating unit consisting of metal fibers at the end of the high voltage line, a plurality of LEDs connected to the protection tube through the center and receiving power through the first substrate, and a lower surface thereof. In the negative ion generating lamp using an LED composed of a cover coupled to the housing upper surface: On the upper surface of the cover A discharge hole is formed in which the metal fiber is exposed to the outside, and has a branched structure in which the cover portion around the discharge hole is recessed, whereby negative ions generated and radiated from the metal fiber exposed to the outside by the discharge hole are discharged. It is focused and radiated.

As an additional feature of the anion generating lamp using the LED according to the present invention for achieving the above object, the branched structure is a bottom surface having a predetermined curvature with a concentric circle based on the discharge hole, and the bottom surface and Sidewalls having a predetermined slope connected to each other are formed concentrically with respect to the discharge hole.

As another additional feature of the anion generating lamp using the LED according to the present invention for achieving the above object, the final end position of the metal fiber exposed through the discharge hole is relative to the height of the side wall of the branched structure As it is low.

As another additional feature of the anion generating lamp using the LED according to the present invention for achieving the above object, the branched structure is to have the shape of the fallopian tube based on the discharge hole.

As another additional feature of the anion generating lamp using the LED according to the present invention for achieving the above object, the first substrate is provided to the second substrate having a ring-shaped switch connecting the housing and the cover By controlling the power supply through the substrate to control the degree of light emission of the LED emitted from the second substrate.

According to the proposed embodiment, it is possible to improve the degree of integration of negative ions by minimizing negative ions and minimizing negative ions, and improving the concentration of negative ions to one side without additional structures or additional components.

1 and 2 is a cross-sectional view illustrating a LED lamp having a negative ion generator according to the prior art.
Figure 3 is a transparent perspective view showing the housing configuration of the LED lamp having an anion generator according to the present invention.
4 is a cutaway perspective view of FIG. 3.
5 is an exemplary view of a main portion enlarged cross section.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the anion generating lamp using the LED according to the present invention.

3 is a transparent perspective view illustrating a housing configuration of an LED lamp having an anion generator according to the present invention, FIG. 4 is a cutaway perspective view of FIG. 3, and FIG.

As shown, the LED lamp having an anion generator according to the present invention is similar to the configuration of the technology shown in the prior art, but the purpose of the present invention is to increase the degree of integration of the negative ions emitted, the focus on the configuration related thereto This will be described below.

Therefore, the same or equivalent configuration (for example, the configuration of the negative ion generator and the LED lamp) as in the prior art is not shown and the description thereof will be omitted.

LED lamp having an anion generator according to the present invention, the upper surface is opened and the base is formed in the lower surface, the negative ion generating device included in the housing 100, the lead wire and the high voltage line (shown) And a first substrate (not shown) installed in the housing, the negative ion generator generating negative ions by receiving power through the base, and a central portion of the first substrate. The protective tube 210 through which the high voltage line passes, an anion generating unit composed of a metal fiber 500 at the end of the high voltage line, and the protective tube penetrates to the center and receives light through the first substrate. A second substrate 300 to which a plurality of LEDs are connected, and a lower surface of the second substrate 300 are opened and coupled to the upper surface of the housing 200.

At this time, the upper surface of the cover 200 is formed with a discharge hole 220 to expose the metal fiber 500 to the outside, a branched structure in which a portion of the cover 200 around the discharge hole 220 is recessed By having 230, negative ions generated and radiated from the metal fiber 500 exposed to the outside by the discharge hole 220 are focused and radiated.

In the configuration, the branched structure 230 has a bottom surface (not given reference number) having a predetermined curvature with concentric circles with respect to the discharge hole 220 and a sidewall having a predetermined slope connected to the bottom surface (see Unnumbered) is formed in a concentric circle with respect to the discharge hole (220).

Therefore, the branched structure 230 has a shape of a fallopian tube based on the discharge hole 220, and as shown in FIG. 5, the metal fiber 500 exposed through the discharge hole 220. The final position of the c) is relatively low compared to the height of the sidewall of the branched structure 230.

This is because the final end position of the metal fiber 500 is relatively high compared to the height of the sidewall of the branched structure 230 and is exposed when viewed from the side, which is the same as FIG. 1 referring to the prior art.

In this case, the protective tube 210 and the cover 200 are integrally configured in the drawing of an embodiment of the present invention, but the present disclosure is not limited thereto.

Therefore, the negative ion radiation angle of the LED lamp having the negative ion generator according to the present invention has a considerably higher degree of integration compared to the prior art shown in FIG. 1, as shown in FIG. 5, and the prior art shown in FIG. Compared to this, the loss rate is reduced, and further, no additional configuration is required, thereby reducing the production cost.

Furthermore, in the present invention, the second switch is provided by adjusting the power through the first substrate supplied to the second substrate 300 by having a ring-shaped switch 400 connecting the housing 100 and the cover 200. The degree of emission of the LED emitting light from the substrate can be adjusted.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes and modifications may be made by those skilled in the art without departing from the spirit and scope of the present invention.

100: Housing
200: cover
210: sheriff
220: discharge hole
230: branched structure
300: substrate
500: metal fiber

Claims (6)

A housing having an upper surface open and a base formed on the lower surface, an anion generator included in the housing and having a lead wire and a high voltage line formed therein, and an anion generator generating negative ions by receiving power through the base. A first tube installed inside the housing, a protective tube penetrating the central portion of the first substrate and passing through the high voltage line; And a second substrate connected with a plurality of LEDs emitting light by receiving power through the first substrate, and an LED having a cover having a bottom surface opened and coupled to an upper surface of the housing.
The protective tube and the cover are integrally formed, and the upper surface of the cover is formed with a discharge hole for exposing the metal fiber to the outside, the portion of the cover around the discharge hole is recessed to form the fallopian tube based on the discharge hole Having a branched structure with;
The branched structure has a bottom surface having a predetermined curvature and a concentric circle with respect to the discharge hole, and a sidewall having a predetermined slope connected to the bottom surface is formed with a concentric circle with respect to the discharge hole;
The final end position of the metal fiber exposed through the discharge hole is relatively lower than the sidewall height of the branched structure, and negative ions generated and radiated from the metal fiber exposed to the outside by the discharge hole are focused and radiated. Anion generating lamp using LED, characterized in that losing. delete delete delete delete delete

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