KR101108689B1 - Parabolic LED lights with light loss prevention - Google Patents

Abstract

The present invention adopts a two-stage parabolic luba divided into upper and lower surfaces based on the bent portion and installs a diffuser plate at the bent portion, thereby reducing light loss compared to a parabolic lamp using an existing light source as an LED. The parabolic LED lighting lamp which has a light loss prevention structure to finally improve the irradiation efficiency by introducing a structure that can reduce the
A lamp body, a parabolic luba inserted into the lamp body, and
Including the LED light source located in the parabolic luba,
The LED light source is located on the parabolic luba upper surface, the side of the parabolic luba is characterized in that the bent two-stage structure divided into the upper surface and the lower surface on the basis of the bent portion, the diffusion plate is provided with It is a technical feature.

Description

Parabolic LED lighting lamp with light loss prevention structure {PARABOLIC LED LIGHTING}

The present invention relates to a parabolic LED lamp having a light source as an LED even in a parabolic lamp,

By adopting a two-stage parabolic luba divided into an upper surface and a lower surface on the basis of the bent portion, and installing a diffusion plate on the bent portion

The present invention relates to a parabolic LED lighting lamp having a light loss prevention structure that ultimately increases irradiation efficiency by introducing a structure that reduces light loss as compared to a parabolic lamp using an existing light source as an LED.

Commonly used fluorescent lights are very glare and have a significant effect on vision loss when stared straight for a long time.

Even if a phosphor that absorbs ultraviolet rays is painted inside the tube, some of the ultraviolet rays tend to pass through as they are.

In particular, when exposed to ultraviolet rays for a long time, the yellowing phenomenon of the painting, wallpaper and painted parts installed inside the building should occur, so great care should be taken.

In order to solve this problem, we can consider changing the luminaire structure.

For example, a parabolic lamp provided with parabolic luva provided with a plurality of barrier plates in a grid form. When the parabolic luba is installed at an angle away from the predetermined angle by looking at the fluorescent device, the parabolic luba, i.e., is blocked by the lower blocking plate, thereby preventing the glare from being directly visible inside.

On the other hand, a fluorescent light, which is commonly used recently, is used as a light emitting diode (Light Emitting Diode, LED / hereinafter, LED).

The LED has a long lifespan, and since electric energy is directly converted into light energy, the power consumption is low, so the efficiency is excellent, and the lifespan is longer than that of the fluorescent lamp, and thus it can be used semi-permanently.

After all, the ultimate purpose of using parabolic lubbers with blocking plates is the ergonomic suitability of cultural life by preventing glare and improving the atmosphere caused by increased horizontal illuminance. It can be said.

In this case, when the light source is used as an LED, it is possible to reduce power consumption as well as to prevent glare and to use semi-permanently.

For this reason, many parabolic LED lamps have been proposed.

The LED lighting device of Unexamined-Japanese-Patent No. 10-2010-0066683 (2010.06.18), and the patent No. 10-0863979 (2008.10.10) parabolic LED lighting lamp are mentioned.

Korean Patent Publication No. 10-2010-0066683 discloses a structure for reflecting light through a reflective surface of a lubricator to overcome the limitation of the LED light source of straightness to prevent light glare and at the same time widen the light irradiation range,

Patent No. 10-0863979 also aims to overcome the limitation of LED light source of straightness and to prevent glare and to obtain a wide range of irradiation by parabolic luba and reflector.

However, both Patent No. 10-0863979 and Patent Publication No. 10-2010-0066683 do not have any special mention with respect to the diffusion plate structure that can be said to be an essential element in the adoption of LED light source,

There is only a declarative disclosure of the use of light reflections from LED light sources, more specifically how and for what purposes light reflections can be used, and the ability to reduce light loss due to the characteristics of LED light sources with straightness. There is a limit to techniques that are not being studied at all.

Parabolic LED lighting according to the present invention,

By adopting a curved two-stage parabolic luba, inserting a diffusion plate in the bent portion, and installing an LED light source on the upper surface of the parabolic luba

Then, while securing a space for the side luba insert, the distance between the diffuser plate and the LED light source can be minimized,

And a lot of reflexes occur at the shortest distance

In the end, the object of the present invention is to provide a parabolic LED lamp that can increase light transmittance through light reflection and minimize light loss.

In addition, in the adoption of the diffusion plate having the basic function as described above, an object of the present invention is to provide a parabolic LED lighting having a structure that can be easily removable from the body (parabolic luba).

Parabolic LED lighting of the present invention for solving the above problems,

With the lamp body,

A parabolic luba inserted into the lamp body, and

Including the LED light source located in the parabolic luba,

The LED light source is located on the upper surface of the parabolic luba,

The side of the parabolic luba is characterized in that the bent two-stage structure divided into the upper surface and the lower surface based on the bent portion,

It is a technical feature that the diffusion plate is provided at the bent portion.

In particular, the bottom surface of the parabolic luba side of the present invention is characterized by having an angle greater than the top surface.

And the bent portion of the present invention is a groove recessed to the outside,

It is a technical feature that the diffusion plate is installed by forcing the diffusion plate into the recessed recess.

In addition, the bottom surface of the parabolic luba of the present invention is provided with an insertion groove for inserting the side luba,

The insertion groove is characterized in that the two sides of the upper side is made of a rhombic shape shorter than the two sides of the lower side.

According to the parabolic LED lamp of the present invention having the above configuration,

In addition to the advantages of parabolic lighting, that is, it prevents glare of light to lift the user's fatigue and create an atmosphere like indirect lighting.

Not only can you enjoy the advantages of adopting LED as light source, that is, low power consumption and long-term use.

It is possible to maintain the shortest distance from the LED light source, and the light is ultimately irradiated into the room through numerous reflections by the diffuser plate installed in a simple structure.

Light loss can be significantly reduced compared to conventional parabolic LED lighting.

The lower surface of the side of the parabolic luva, which has a wider opening angle than that of the upper surface, has the effect that a wider coverage range can be obtained.

1 is a bottom perspective view of a lamp according to the present invention, (b) is a view showing a state before the side luba is inserted.
2 is an exploded perspective view of a lamp according to the present invention.
Figure 3 is a cross-sectional view schematically showing the internal structure of the lamp according to the present invention.
4 is a view showing another embodiment of a lamp according to the present invention.
5 is a table for comparing the light distribution state of the lamp according to the present invention with a lamp using only a conventional diffusion plate.

Hereinafter, a parabolic LED lighting lamp according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 3, the parabolic LED lamp of the present invention,

With the lamp body 10,

A parabolic luba 20 inserted into the lamp body; and

It comprises a LED light source unit 30 located in the parabolic luba.

The LED light source unit 30 is a conventional structure of a state in which the LED light source 31 is mounted on the PCB substrate 32, a detailed description thereof will be omitted.

And in the present invention is characterized in that the LED light source unit 30 is provided on the upper surface of the parabolic luba (20).

This is to create a number of light reflection state within the shortest distance to the diffuser plate 40 in order to minimize the light loss to be described later,

In the present invention, the LED light source unit 30 is preferably provided on the upper surface of the parabolic luba (20).

Next, look at the parabolic luba 20 which can be said to be the core of the present invention,

The parabolic luba of the present invention maintains the shape of a conventional parabolic luba consisting of an upper surface and four side surfaces connected downward from the upper surface,

The side surface is bent once, characterized in that the divided into the upper surface 21 and the lower surface 22 based on the bending portion (20a).

That is, as confirmed in Figure 3,

The side of the parabolic luba is preferably a two-stage bent structure divided into the upper surface 21 and the lower surface 22 on the basis of the bent portion (20a),

The reason for forming the bent two-stage structure is to insert the diffusion plate 40 in the bent portion.

In the case of a lamp having a conventional LED as a light source, it is necessary to have a diffuser plate due to the straightness of the LED.

The position at which the diffuser plate is provided is typically the lowest point in the spot where the lamp cover is located, that is, the lamp.

However, in the present invention, the shortest distance from the LED light source 31 to the diffuser plate 40 is required in order to reduce light loss and widen the irradiation range through numerous light reflections.

In addition, a method of easily inserting and installing a diffuser plate had to be considered for workability.

In order to solve the above problems, a two-stage structure parabolic luba side is employed.

Accordingly, the operator can easily position the diffusion plate 40 in the bending portion 20a of the parabolic luba without a separate fastening means,

As the LED light source and the diffuser plate are maintained at the shortest distance, the light is repeatedly reflected several times and finally irradiated with the interior.

Workability is improved compared to conventional parabolic LED lights

In addition, the amount of light that irradiates the interior is also increased, and the range of irradiation is also widened.

Next, due to the characteristics of the parabolic luba, the side of the parabolic luba forms an inclination angle that opens from the top to the bottom.

In the side of the bent two-stage structure, such as the present invention, the lower end surface 22 of the side is preferably to have a greater angle than the upper surface 21.

This also aims to broaden the scope of irradiation during indoor irradiation.

Next, with regard to inserting the diffuser plate 40 on the side of the parabolic luba,

As shown in FIG. 3, the bent portion 20a is preferably a recessed groove 23 recessed to the outside.

Accordingly, the operator can easily install the diffuser plate on the parabolic luba by forcing the diffuser plate 40 into the recessed groove 23.

The side plate 50 is inserted into the side of the parabolic luba after the diffusion plate is positioned in the parabolic luba.

That is, the side luba 50 is provided on the bottom surface of the parabolic luba,

The bottom surface of the luba is formed with an insertion groove 24 for inserting the side luba.

In particular, the insertion groove 24 has a rhombic shape as a whole,

The insertion grooves are formed in a rhombus shape in which the two sides of the upper side are shorter in length than the two sides of the lower side, rather than the same rhombus shape.

Of course, the cross section of the side luba inserted into the insertion groove 24 also corresponds to the shape of the insertion groove, that is, the two sides of the upper side to be made of a rhombic shape having a shorter length than the two sides of the lower side,

Due to the rhombic shape, the light emitted from the LED light source is reflected many times on the side luba by each side protruding outward, and finally, the interior is irradiated with a deep and wide range.

Referring to FIG. 5 again, FIG. 5 illustrates a surface reflectance, that is, a light distribution state of a parabolic LED lamp according to the present invention.

(a) The drawing shows the surface reflectance of the lamp according to the present invention, and (b) below shows the surface reflectance of the LED lamp using only a general diffuser plate for comparison with the present invention.

As can be seen in Figure 5, it can be seen that according to the parabolic LED lamp of the present invention as compared to the LED lamp using only the conventional diffuser plate can realize a wide and deep irradiation range, that is, a light distribution state.

Next, FIG. 4 illustrates a parabolic LED lamp employing a parabolic luba 20 of another form.

The side of the parabolic luba is also provided with a bent two-stage structure,

It can be confirmed that the diffusion plate 40 is inserted and fastened to the bent portion 20a,

The same function and effect as the parabolic LED lamp of the present invention described above can be obtained.

Next, referring to FIGS. 1 to 3,

Parabolic LED lamp of the present invention can be seen that the two parabolic luba 20 is installed in the lamp body 10,

The number of the luba can be more than three,

Each parabolic luba may be individually installed, but may be integrally formed as one structure as shown in the drawings.

In this case, a space S is formed between each parabolic luba (that is, between a parabolic luba side and a neighboring parabolic luba side).

In the present invention, the space is utilized as a space in which a lighting device such as a converter or inverter (I) can be installed.

Therefore, compared to the existing parabolic LED lighting, it is possible to obtain a more compact and compact lighting.

In the above description of the present invention has been described with respect to parabolic LED lighting having a specific shape and structure with reference to the accompanying drawings, the present invention can be variously modified and changed by those skilled in the art within the claims described below, Such modifications and variations are to be interpreted as falling within the protection scope of the present invention.

Explanation of symbols on the main parts of the drawings
10: lamp body 20: parabolic luba
30: LED light source portion 40: diffuser 50: side lumbar
20a: Bend 21: Top 22: Bottom
23: groove groove 24: insertion groove

Claims (4)

delete delete delete Lamp body;
A parabolic luba inserted into the lamp body; And
Including the LED light source located in the parabolic luba,
The LED light source is located on the upper surface of the parabolic luba,
The side of the parabolic luba is a bent two-stage structure divided into the upper surface and the lower surface on the basis of the bent portion
Characterized in that the diffusion plate is provided at the bent portion,
The bent portion is a groove recessed to the outside, the diffusion plate is pressed into the recessed groove, characterized in that the installation of the diffusion plate for the luba,
The lower surface of the parabolic luba side is characterized in that it has an angle greater than the upper surface,
The lower surface of the parabolic luba is provided with an insertion groove for inserting the side luba, the insertion groove has a light loss prevention structure characterized in that the two sides of the upper side is made of a rhombic shape shorter than the two sides of the lower side; Equipped with parabolic LED lighting.

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