KR101394137B1 - Luminaire - Google Patents

Abstract

The light emitting body includes a lamp holder 1, a lamp cover 2, a light emitting module 3, and a light guiding element 4. The lamp cover (2) is assembled in the lamp holder (1) to define a storage space (21) therebetween. The lamp holder (1) has a platform part (12) protruding into the storage space (21). The light emitting module 3 includes a circuit board 31 mounted on the platform 12 and at least one LED 32 disposed on the circuit board 31. The light guide element 4 is mounted on the platform part 12 and covers the light emitting module 3. The light guiding element 4 has an outer diameter D1 that is longer than the outer diameter D2 of the platform portion 12. [ The light guiding element 4 has a shape such that the light emitted from the LED 43 can be transmitted to the lamp cover 2 through the light guiding element 4 in a lateral direction, .

Description

Luminous body {LUMINAIRE}

FIELD OF THE INVENTION The present invention relates to a light emitting body, more specifically, a light emitting body capable of increasing a viewing angle.

LEDs (Light Emitting Diodes) are widely used for lighting because they have the advantage of meeting power saving, long service life and environmental protection requirements.

However, in the field of light bulbs, incandescent bulbs are still the most used because the viewing angle of conventional LED lamps is only about 120 °, which is much smaller than the viewing angle of incandescent bulbs.

Therefore, it is desirable to increase the viewing angle of the LED bulb.

It is an object of the present invention to provide an illuminant having an increased viewing angle.

Accordingly, the luminous body of the present invention includes a lamp holder, a lamp cover, a light emitting module, and a light guiding element. The lamp cover is assembled in the lamp holder to define a storage space therebetween. The lamp holder has a platform portion protruding into the storage space. The light emitting module includes a circuit board and at least one LED mounted on the circuit board. The light guiding element is mounted on the platform portion and covers the light emitting module. The light guide element has an outer diameter that is longer than an outer diameter of the platform portion.

The light emitting body of the present invention is characterized in that the light emitting module is disposed on the platform portion and the light guide element allows the light beam emitted from the LED to be transmitted laterally out of the light emitting element through the light guiding element and the lamp cover So that the viewing angle of the light emitting body is increased.

These and other features and advantages of the present invention will be apparent from the following detailed description of the preferred embodiments of the invention with reference to the accompanying drawings.
1 is a partially enlarged perspective view of a first preferred embodiment of an illuminant according to the present invention.
2 is a cross-sectional view of the first preferred embodiment.
3 is a comparative data chart of the relative intensities relative to the viewing angles of the illuminants illustrating the improvement of the present invention.
4 is a cross-sectional view of a second preferred embodiment of a light emitter according to the present invention.
5 is a cross-sectional view of a third preferred embodiment of a light emitter according to the present invention.
6 is a cross-sectional view of a fourth preferred embodiment of the illuminant according to the present invention.
7 is a cross-sectional view of a fifth preferred embodiment of the illuminant according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS Before describing the present invention in more detail with respect to preferred embodiments, it is to be understood that similar components and structures throughout the specification are identified with the same reference numerals.

1 and 2, a first preferred embodiment of a luminous body according to the invention comprises a lamp holder 1, a lamp cover 2, a light emitting module 3, and a light guiding element 4.

The lamp holder 1 includes a base portion 11, a platform portion 12 protruding from an upper surface 111 of the base portion 11 and having a predetermined height, And a coupling portion 13 which is disposed in the coupling portion 13. The lamp cover 2 and the lamp holder 1 together define a storage space 21 therebetween. The lamp cover 2 has an annular connecting portion 22 connected to the lamp holder 1. A driving circuit device (not shown) is disposed in the lamp holder 1 and is electrically connected to the light emitting module 3. The base 11 has a plurality of radiating fins 113 formed on the outer surface of the light emitting module 3 for radiating heat. The base portion 11 and the platform portion 12 are made of metal to achieve an excellent heat radiation effect. The coupling portion 13 is used for electrical connection with an external electric circuit (not shown).

The light emitting module 3 is disposed in the receiving space 21 and includes a circuit board 31 disposed on the platform unit 12 and a plurality of light emitting units 31 disposed on the circuit board 31 for upward light emission therefrom. LEDs 32 as shown in FIG. The LEDs 32 are distributed in the circumferential direction over the circuit board 31 and extend from the upper surface 111 of the base 1 to the predetermined surface of the circuit board 31 due to the presence of the platform part 12 and the circuit board 31. [ Are spaced apart by a distance (H). That is, the predetermined distance H is equal to the sum of the heights of the platform part 12 and the circuit board 31, and the upper surface of the platform part 12 and the upper surface of the base part 11 111). The LEDs 32 are positioned at a predetermined distance H because the connecting portion 22 of the lamp cover 2 and the upper surface 111 of the base portion 11 are generally located at the same level. The ramp holder 1 can not prevent the inclined light beam that is transmitted downward from the light guide element 4 downward. The light-guiding element 4 will be described in more detail below. Preferably, the light emitting module 3 is disposed at a height position of the lamp cover 2 having the maximum diameter so that the lamp cover 2 achieves an optimum viewing angle. The predetermined distance H is 10 to 12 mm. In this embodiment, the predetermined distance H is 11.6 mm.

The light guiding element 4 is disposed on the platform portion 12 of the lamp holder 1 and in the accommodating space 21 to cover the light emitting module 3. The light guiding element 4 includes a lower surface 41, an upper surface 42 facing the lower surface 41, a side surface 43 interconnecting the lower surface 41 and the upper surface 42, And a plurality of curved cavities 44 formed in the lower surface 41 for receiving the LEDs 32, respectively. Preferably, the curved cavity 44 has a hemispherical shape so that each light beam emitted from the LEDs 32 enters the light guide element 4 in the normal line direction, thereby preventing light loss resulting from the refraction. do. In this embodiment, looking from the top, the light guiding element 4 has a circular contour, so that the side surface 43 is circular and surrounds the light guiding element 4. The upper surface 42 has a flat area 421 and a curved area 422 surrounding the flat area 421. The flat area 421 of the upper surface 42 is parallel to the lower surface 41 and has the same horizontal length as the lower surface 41. The side surface 43 has an inclined region 431 extending upwardly from the periphery of the lower surface 41 and a vertical outer annular region 432 extending upwardly from the periphery of the inclined region 431. The curved region 422, the inclined region 431 and the outer annular region 432 are annular. The outer annular region 432 defines the outer diameter D1 of the light guide element 4. [ The lower surface 41 of the light-guiding element 4 covers the platform portion 12 and the circuit board 31. The outer diameter D1 of the light guide element 4 is 1.1 to 1.5 times the outer diameter D2 of the platform 12 so that all the light beams emitted from the LEDs 32 are incident on the light- (4) so that they can be uniformly delivered to the outside. In this embodiment, the outer diameter D1 of the light guide element 4 is 13.2 to 50 mm and the outer diameter D2 of the platform portion 12 is 12 to 35 mm. Due to the presence of the curved region 422, the light refraction angle increases. The total reflection is prevented by the presence of the inclined region 431 so that the light beam can be transmitted to the light guiding element 4 through the inclined region 431. [ In addition, the longitudinal cone angle (FIG. 2) of the curved region 422 has a conic coefficient of 0.1 to 0.9. Alternatively, the cone angle is replaced by a rounding angle having a radius of curvature of 1 to 5 mm. In this embodiment, the cone factor of the cone angle is 0.4. Preferably, the inclined region 431 has an inclined surface that forms an angle (A) of 20 to 60 degrees with respect to the plane of the lower surface 41. In this embodiment, the angle (A) is 28.1 degrees. Preferably, the thickness of the light-guiding element 4 (i.e., the distance between the lower surface 41 and the flat area 421 of the upper surface 42) is between 5 and 20 mm. In this embodiment, the thickness is 8.5 mm.

Thus, the light beam emitted from the light emitting module 3 passes through the curved surface cavity 44 and enters the light guiding element 4. Most of the light beams emitted onto the flat area 421 of the upper surface 42 are directly transmitted out of the light guide element 4. [ The prime number of the light beam emitted onto the flat area 421 can be totally reflected but can still be transmitted out of the light guiding element 4 when it reaches the inclined area 431. [ The refraction angle of each light beam emitted onto the curved area 422 of the upper surface 42 increases with the curvature of the curved area 422. [ Most of the light beams emitted onto the curved region 422 are directly transmitted to the light guiding element 4 so that the viewing angle can be increased by the curvature of the curved region 422. Since the total reflection is prevented by the inclined region 431, the remaining light beam emitted onto the curved region 422 is transmitted onto the inclined region 431 and out of the light guiding element 4 there. Since the light emitting module 3 is located on the upper surface 111 and the connecting portion 22 of the base 11, the light beam transmitted from the inclined region 431 passes through the lamp cover 2, The viewing angle can be increased. 3, the view angle of the illuminant of the present invention is 160 degrees or less as shown by the first curve C1, and the viewing angle of the conventional illuminant is about 120 degrees as shown in the second curve C2 . That is, the viewing angle of the light emitting body of the present invention is wider than the viewing angle of the conventional light emitting body, and is almost the viewing angle of the incandescent bulb.

Figure 4 shows a second preferred embodiment of an illuminant according to the invention, which is similar in structure to the first preferred embodiment. In this embodiment, the platform 12 and the assembly of the base 11 of the lamp holder 1 are not of a two-step configuration, and the platform 12 is formed from the entire upper surface of the base 11, Extends upwardly into the storage space (21) in the housing (2). In this way, the light emitting module 3 is also located above the connection portion 22. [

The first and second embodiments are illustrated using a lamp bulb. The remaining preferred embodiments will be illustrated using a lamp tube.

5 is a cross-sectional view of a third preferred embodiment of a light emitter according to the present invention. The lamp holder 1, the lamp cover 2, the circuit board 31 and the light guiding element 4 are elongated and extend in the direction perpendicular to the drawing in this embodiment. The base portion 11 of the lamp holder 1 has a curved bottom end cooperating with the lamp cover 2 to form a cylindrical outer appearance, and its cross section is circular. The platform portion 12, the circuit board 31 and the light-guiding element 4 are elongated and elongated. LEDs 32 are arranged on the circuit board 31 in one or two rows. In this embodiment, the LEDs 32 are arranged in two rows on the circuit board 31. One row of the LEDs 32 is aligned with another row of the LEDs 32, respectively.

Instead, one row of LEDs 32 alternates with another row of LEDs 32.

The base 11 of the lamp holder 1 may be designed to have a specific heat dissipation structure as required. However, since the heat dissipation structure is not suitable for the claimed invention, its detailed description is omitted here for the sake of brevity.

Figure 6 shows a fourth preferred embodiment of the illuminant according to the invention, which is similar in structure to the third preferred embodiment. In this embodiment, the platform 12 and the assembly of the base 11 of the lamp holder 1 are not of two-stage construction, and the platform portion 12 is formed from the entire upper surface of the base 11, (See Fig. In this way, the light emitting module 3 is also located above the connection portion 22. [

Figure 7 shows a fifth preferred embodiment of the illuminant according to the invention, which is similar in structure to the third preferred embodiment. In this embodiment, the lamp cover 2 is tubular, and the lamp holder 1 is fixed in the lamp cover 2. [ The lamp cover (2) is connected to the lamp holder (1) at a connection part (22). The light emitting module 3 is also located above the connection 22.

The platform portion 12 and the base portion 11 of each of the above preferred embodiments are integrally formed with each other. Alternatively, the platform portion 12 and the base portion 11 may be two separate films that are fixedly interconnected.

As described above, the illuminant of the present invention may be a lamp bulb or a lamp tube. Since the curved region 421 and the inclined region 431 of the light guide element 4 as well as the light emitting module 3 are disposed on the platform portion 12 of the lamp holder 1, Is located above the connecting portion (22) to increase the viewing angle of the light emitting body. Therefore, the object of the present invention is achieved.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the scope and spirit of the invention. It is therefore intended that the present invention be limited only by the scope of the appended claims.

Lamp holder (1) Lamp cover (2)
Light emitting module (3) Light guiding element (4)
The base part (11)
The coupling space (13)
The connection portion 22, the radiating fin 113,
Circuit Board (31) LEDs (32)
The upper surface 111 lower end 112,
The lower surface 41 has an upper surface 42,
The side surface 43 has a curved cavity 44,
The flat area 421 curved area 422,
The inclined region 431, the outer annular region 432,

Claims (10)

Lamp cover (2):
A lamp holder 1 having a platform part 12 connected to the lamp cover 2 and defining a storage space 21 therebetween and protruding into the storage space 21;
A light emitting module (3) arranged on a platform part (12) of the lamp holder (1) and comprising a circuit board (31) and at least one LED (32) arranged on the circuit board; and
And a light guide element (4) disposed on the platform part (12) to cover the light emitting module (3) and having an outer diameter (D1) longer than an outer diameter (D2) of the platform part (12)
The light guiding element 4 has a lower surface 41, an upper surface 42 facing the lower surface, and a side surface 43 interconnecting the lower surface 41 and the upper surface 42 ,
The upper surface 42 has a flat area 421 parallel to the lower surface 41 and a curved area 422 surrounding the flat area 421, 31,
The side surface 43 has an inclined region 431 extending outwardly from the periphery of the lower surface 41 and an outer annular region 432 extending upward from the periphery of the inclined region 431,
The inclined region 431 of the light guide element 4 has an inclined surface forming an angle A of 20 to 60 degrees with respect to the plane of the lower surface 41,
Most of the light beams emitted to the flat area 421 are directly transmitted out of the light guide element 4 and when a part of the light beam reaches the inclined area 431, 4). ≪ / RTI > delete The method according to claim 1,
Wherein the curved region (422) of the light-guiding element (4) has one of a cone angle of cone factor of 0.1 to 0.9 and a rounding angle of 1 to 5 mm of radius of curvature in the longitudinal section. The method according to claim 1,
The outer diameter D1 of the light guide element 4 is 1.1 to 1.5 times the outer diameter D2 of the platform portion 12,
Characterized in that the light-guiding element (4) has at least one curved cavity (44) formed in the lower surface (41) for receiving the LED (32). The method according to claim 1,
Wherein the light emitting module (3) is disposed at a height position of the lamp cover (2) having the maximum diameter of the lamp cover (2). The method according to claim 1,
The lamp cover 2 has a connection part 22 connected to the lamp holder 1 and the position of the light emitting module 3 is made higher than the position of the connection part 22 by a predetermined distance, The lamp holder 1 has a base portion 11 which extends upward from the upper surface 111 of the base portion 11 and has a predetermined height and the lamp cover 2 has a base portion 11, (11). ≪ / RTI > Lamp holder (1):
A lamp cover 2 connected to the lamp holder 1 and defining a storage space therebetween and having a connection part 22 connected to the lamp holder 1;
A light emitting module (3) arranged on the lamp holder (1), the position of the light emitting module (3) being higher in the storage space (21) than the position of the connection part (22)
A lower surface 41 adjacent to the light emitting module 3, a lower surface 41 disposed on the lower surface 41, and a lower surface 41 disposed on the lamp holder 1 and in the storage space 21 for covering the light emitting module 3. [ And a top surface 42 having a curved area 422 located in the vicinity of the curved area 422 and facing the curved area 422 by interconnecting the bottom surface 41 and the top surface 42, Beams are transmitted to the side surface 43 or to the outside of the light guide element 4,
≪ / RTI > 8. The method of claim 7,
The lamp holder 1 has a base portion 11 and a platform portion 12 disposed on the base portion 11 and projecting into the storage space 21,
The light emitting module 3 and the light guiding element 4 are disposed on the platform portion 12 and the light guiding element 4 has an outer diameter D1 longer than the outer diameter D2 of the platform portion 12, ). ≪ / RTI > A lamp holder (1) having a base part (11) and a platform part (12) arranged on the base part (11)
A lamp cover 2 connected to the base 11 of the lamp holder 1;
A light emitting module (3) disposed on a platform portion (12) of the lamp holder (1), the lamp cover (2) being disposed at a height position of the lamp cover (2)
A part of the light beam having an outer diameter D1 longer than the outer diameter D2 of the platform part 12 is provided on the platform part 12 to cover the light emitting module 3, A light-guiding element 4 for transmitting the light from the light-guiding element 4 toward and out of the lamp holder 1,
≪ / RTI > delete

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