JPWO2013046294A1 - Light bulb lamp - Google Patents

Abstract

The bulb-type lamp of the embodiment includes a substrate, a plurality of light emitting elements arranged in a ring on one surface of the substrate, one end located inside the plurality of light emitting elements, The other end having a larger diameter than the one end so as to intersect the optical axis, a plurality of strip-shaped light transmitting portions extending from the one end to the other end, and the light transmitting A tubular reflector having a light reflecting portion provided on the outer peripheral surface at a position deviated from the portion.

Description

  Embodiments described herein relate generally to a light bulb type lamp that uses a light emitting element such as an LED as a light source.

  There is a light bulb type lamp using a light emitting element such as an LED.

JP 2010-62005 A

  Thus, when using LED as a light emitting element, the need regarding wide light distribution existed.

  The bulb-type lamp of the embodiment includes a substrate, a plurality of light emitting elements arranged in a ring on one surface of the substrate, one end located inside the plurality of light emitting elements, The other end having a larger diameter than the one end so as to intersect the optical axis, a plurality of strip-shaped light transmitting portions extending from the one end to the other end, and the light transmitting A tubular reflector having a light reflecting portion provided on the outer peripheral surface at a position deviated from the portion.

  According to the present invention, it is possible to realize wide light distribution and to prevent the cost from becoming extremely high.

It is the perspective view which decomposed | disassembled and showed a part of bulb type lamp | ramp which concerns on 1st Embodiment. It is sectional drawing along the vertical direction of the lightbulb type lamp shown in FIG. It is a figure which shows the light distribution of the lightbulb type lamp shown in FIG. It is the perspective view which decomposed | disassembled and showed a part of bulb type lamp | ramp which concerns on 2nd Embodiment. It is sectional drawing along the vertical direction of the lightbulb type lamp which concerns on 3rd Embodiment. It is sectional drawing along the vertical direction of the bulb-type lamp which concerns on 4th Embodiment.

  An embodiment of a light bulb type lamp will be described with reference to FIGS. 1 to 3. The light bulb type lamp 11 includes the light emitting element module 12 shown in FIG. 1, a base body 13, a globe 14, and a reflector 15.

  As shown in FIGS. 1 and 2, the light emitting element module 12 includes a substrate 21 (printed circuit board) having one surface 21 </ b> A and the other surface 21 </ b> B on the opposite side, and one surface of the substrate 21. A plurality of light emitting elements 22 arranged in a ring on 21A, a connector 23 disposed in the center of the substrate for supplying power to the light emitting elements 22, and a plug 24 connected to the connector 23 are passed through. And an opening 25 for the purpose. The substrate 21 is formed in a disk shape.

  For example, ten light emitting elements 22 are arranged at equal intervals on the same circle with respect to the center of the substrate 21. In the present embodiment, the light emitting element 22 is composed of LEDs. As the light emitting element 22, a solid light emitting element such as an organic EL element can be applied. The optical axis 22A of the light emitting element 22 extends in the upward direction of the light emitting element 22, and extends in a direction intersecting or orthogonal to the substrate 21 on which the light emitting element 22 is mounted.

  The connector 23 is attached to a position deviated from the center of the substrate 21 inside the light emitting element 22 arranged in an annular shape. The opening 25 is provided in the vicinity of the position where the connector 23 is attached. The plug 24 is connected to a control board disposed inside the base 13. The control board is provided with a power supply circuit and a lighting circuit.

  The base 13 includes a cylindrical heat radiator 26, an insulating material 27 provided inside the heat radiator 26, and a base 31. The radiator 26 is a member having excellent thermal conductivity, which is made of an aluminum alloy die-cast in the present embodiment, and has a contact surface 26A that is thermally connected to the light emitting element module 12 as shown in FIG. doing. The contact surface 26A has at least an area in contact with the substrate 21 in a range where the light emitting element 22 is mounted. As shown in FIG. 1, the heat dissipating body 26 has heat dissipating fins 28 at equal intervals on the outer surface in order to release the heat generated by the light emitting element 22. The insulating material 27 is made of a non-conductive member such as a synthetic resin, is inserted into the radiator 26, and is fixed to the radiator 26 with screws, for example. A control board that controls lighting and extinction of the light emitting element 22 is held inside the insulating material 27. The base 31 is formed so as to be compatible with a socket for an incandescent lamp, and is insulated from the radiator 26 by an insulating material 27. The base 31 is connected to the control board.

  The globe 14 is formed in a substantially spherical shape as shown in FIG. 2 and is attached so as to cover the light emitting element module 12. The globe 14 includes a base portion 14A and a dome portion 14B. As shown in FIG. 1, the base portion 14 </ b> A is formed so as to surround the outer periphery of the light emitting element module 12. The dome portion 14B is formed in a substantially hemispherical surface. The dome portion 14B is melt-bonded to the base portion 14A by ultrasonic bonding or laser bonding.

  As shown in FIGS. 1 and 2, the reflector 15 includes one end 41 disposed inside the plurality of light emitting elements 22, and the other end 42 having a larger diameter than the one end 41. , Has a tubular shape (cylindrical shape). One end 41 of the reflector 15 is bonded to the substrate 21 via, for example, an adhesive. Note that the method of fixing the reflector 15 is not limited to using an adhesive. For example, a hook may be provided at one end 41 and the hook may be fixed to the opening 25 of the substrate 21. The other end 42 extends outward so as to intersect the optical axis 22A of the light emitting element 22, and the edge 42A of the other end 42 is substantially orthogonal to the optical axis 22A of the light emitting element 22. .

  The reflector 15 includes a base material 43 formed in a cylindrical shape, one of which is spread in a trumpet shape by a light-transmitting synthetic resin material, a light reflecting portion 44 provided on at least the outer peripheral surface 43A of the base material 43, A plurality of strip-shaped light transmitting portions 45 extending from the end portion 41 and the other end portion 42 are provided. That is, the reflector 15 of the present embodiment has a plurality of light transmitting portions 45 in a stripe shape at regular intervals. The light reflecting portion 44 is configured by a so-called mirror surface formed by plating the base material 43 with a metal such as silver, aluminum, or gold. The light reflecting portion 44 is provided at a position away from the light transmitting portion 45. In the present embodiment, the light reflecting portion 44 is formed not only on the outer peripheral surface 43A of the base material 43 but also on the inner peripheral surface 43B of the base material. The light reflecting portion 44 provided on the inner peripheral surface 43B improves the efficiency of reflecting the light irregularly reflected in the globe 14 toward the outside and contributes to the improvement of the illuminance of the bulb lamp 11.

  Next, the light distribution characteristics of the light bulb type lamp 11 of the present embodiment will be described with reference to FIGS. As shown in FIG. 2, in the light bulb type lamp 11 of the present embodiment, a part of the light emitted from the light emitting element 22 is emitted toward the outside so as to pass through the light transmitting part 45 and travel substantially straight. . A part of the light emitted from the light emitting element 22 is reflected toward the other surface 21 </ b> B side of the substrate 21 by the light reflecting portion 44. FIG. 2 shows an example of the light reflected by the light reflecting portion 44, but in reality, reflection occurs also in the vicinity of the edge 42A of the other end portion 42 of the reflector 15 and in other portions, and the wide area is wide. Light distribution is realized. As shown in FIG. 3, according to the light bulb type lamp 11 of the present embodiment, a range of about 150 ° from the upper side (the direction with one surface 21A) to the lower side (the direction with the other surface 21B), that is, As a whole (both sides), a sufficiently strong light could be obtained within a range of about 300 °.

  According to the first embodiment, the bulb-type lamp 11 is positioned inside the substrate 21, the plurality of light emitting elements 22 arranged in a ring shape on one surface 21 </ b> A of the substrate 21, and the plurality of light emitting elements 22. One end 41, the other end 42 having a larger diameter than the one end 41 so as to intersect the optical axis 22A of the light emitting element 22, and the one end 41 and the other end 42 A tubular reflector 15 having a plurality of strip-shaped translucent portions 45 and a light reflecting portion 44 provided on the outer peripheral surface 43 </ b> A at a position away from the translucent portion 45.

  According to this configuration, wide light distribution can be realized by the reflector 15 having a simple structure. Accordingly, the other surface 21B side of the substrate 21 can be brightly illuminated, and the reflector 15 can be easily manufactured. For this reason, it can prevent that the manufacturing cost of the lightbulb-type lamp 11 becomes extremely high by providing the reflector 15. FIG.

  Next, a second embodiment of the light bulb type lamp 11 will be described with reference to FIG. The bulb-type lamp 11 of the second embodiment is different from the first embodiment in the structure of the reflector 15, but the other parts are common to the first embodiment. For this reason, a different part from 1st Embodiment is mainly demonstrated, a common code | symbol is attached | subjected about a common location, and description is abbreviate | omitted.

  The reflector 15 has a tubular shape (cylindrical shape) having one end 41 arranged inside the plurality of light emitting elements 22 and the other end 42 having a larger diameter than the one end 41. ing. One end 41 of the reflector 15 is bonded to the substrate 21 via an adhesive or the like, for example, but a hook is provided on the one end 41 to fix it to the opening 25 of the substrate 21. Also good. The other end 42 extends outward so as to intersect the optical axis 22A of the light emitting element 22, and the edge 42A of the other end 42 is substantially orthogonal to the optical axis 22A of the light emitting element 22. This is substantially the same as in the first embodiment.

  The reflector 15 includes a base material 43 formed in a cylindrical shape, one of which is spread in a trumpet shape by a light-transmitting synthetic resin material, a light reflecting portion 44 provided on at least the outer peripheral surface 43A of the base material 43, A plurality of slits 51 extending from the vicinity of the end portion 41 to the vicinity of the other end portion 42. Each slit 51 is formed in a long hole shape penetrating the base material 43. The light reflecting portion 44 is formed of a so-called mirror surface formed by plating the base material 43 with a metal such as silver, aluminum, or gold. The light reflecting portion 44 is provided at a position away from the slit 51. In the present embodiment, the light reflecting portion 44 is formed not only on the outer peripheral surface 43 </ b> A of the base material 43 but also on the inner peripheral surface 43 </ b> B of the base material 43. For this reason, as in the first embodiment, the efficiency of reflecting the light irregularly reflected in the globe 14 toward the outside is increased.

  In the light bulb-type lamp 11 of the second embodiment, a part of the light emitted from the light emitting element 22 is irradiated toward the outside so as to pass through the slit 51 and travel substantially straight. Further, as in FIG. 2 of the first embodiment, a part of the light emitted from the light emitting element 22 is reflected toward the other surface 21B side of the substrate 21 by the light reflecting portion 44. Also in the second embodiment, a light distribution substantially similar to that of FIG. 3 of the first embodiment is obtained, and a wide light distribution can be realized.

  According to the second embodiment, the bulb-type lamp 11 is positioned inside the substrate 21, the plurality of light emitting elements 22 arranged in a ring shape on one surface 21 </ b> A of the substrate 21, and the plurality of light emitting elements 22. One end 41, the other end 42 having a larger diameter than the one end 41 so as to intersect the optical axis 22 </ b> A of the light emitting element 22, and the other end 42 from the vicinity of the one end 41. A tubular reflector 15 having a plurality of slits 51 extending in the vicinity thereof and a light reflecting portion 44 provided on the outer peripheral surface 43 </ b> A at a position deviated from the plurality of slits 51.

  According to this configuration, wide light distribution can be realized by the reflector 15 having a simple structure. As a result, the other surface 21B side of the substrate 21 can be brightly illuminated, and the provision of the reflector 15 can prevent an excessive increase in cost.

  Next, a third embodiment of the light bulb type lamp 11 will be described with reference to FIG. The bulb-type lamp 11 of the third embodiment is different from the first embodiment in the structure of the reflector 15, but the other parts are common to the first embodiment. For this reason, a different part from 1st Embodiment is mainly demonstrated, a common code | symbol is attached | subjected about a common location, and description is abbreviate | omitted.

  The reflector 15 has a tubular shape (cylindrical shape) having one end 41 arranged inside the plurality of light emitting elements 22 and the other end 42 having a larger diameter than the one end 41. ing. One end 41 of the reflector 15 is bonded to the substrate 21 via an adhesive or the like, for example, but a hook is provided on the one end 41 to fix it to the opening 25 of the substrate 21. Also good. The other end 42 extends outward so as to intersect the optical axis 22A of the light emitting element 22, and the edge 42A of the other end 42 is substantially orthogonal to the optical axis 22A of the light emitting element 22. This is substantially the same as in the first embodiment.

  The reflector 15 includes a base material 43 formed in a cylindrical shape, one of which is spread in a trumpet shape with a light-transmitting synthetic resin material, and a half mirror portion 61 provided on at least the outer peripheral surface 43A of the base material 43. doing. The half mirror part 61 is formed of a so-called mirror surface formed by vapor-depositing a metal such as silver, aluminum, or gold on the base material 43. The thickness of the half mirror part 61 is formed as a vapor deposition layer thinner than the thickness of the light reflection part 44 of 1st Embodiment and 2nd Embodiment. In the present embodiment, the half mirror portion 61 is formed not only on the outer peripheral surface 43 </ b> A of the base material 43 but also on the inner peripheral surface 43 </ b> B of the base material 43. This is the same as in the first embodiment in that the efficiency of reflecting the light irregularly reflected in the globe 14 toward the outside is increased.

  Then, with reference to FIG. 5, the effect | action of the lightbulb type lamp 11 of this embodiment is demonstrated. As shown in FIG. 5, in the light bulb type lamp 11 of the present embodiment, a part of the light emitted from the light emitting element 22 passes through the half mirror part 61 of the reflector 15 and travels almost straight to the outside. Irradiated. A part of the light emitted from the light emitting element 22 is reflected toward the other surface 21 </ b> B side of the substrate 21 in the half mirror unit 61. FIG. 5 shows an example of the light reflected by the half mirror unit 61. However, in reality, reflection occurs also in the vicinity of the edge 42A of the other end 42 of the reflector 15, and the light distribution is widened. Is realized. Also with the light bulb type lamp 11 of the present embodiment, a wide light distribution substantially equivalent to that shown in FIG. 3 of the first embodiment can be obtained.

  According to the third embodiment, the bulb-type lamp 11 is positioned inside the substrate 21, the plurality of light emitting elements 22 arranged in a ring shape on one surface 21 </ b> A of the substrate 21, and the plurality of light emitting elements 22. One end 41, the other end 42 having a larger diameter than the one end 41 so as to intersect the optical axis 22A of the light emitting element 22, and a half mirror 61 provided on the outer peripheral surface 43A, And a tubular reflector 15.

  According to this configuration, wide light distribution can be realized by the reflector 15 having a simple structure. As a result, the other surface 21B side of the substrate 21 can be brightly illuminated, and the provision of the reflector 15 can prevent an excessive increase in cost.

  Next, a fourth embodiment of the light bulb type lamp 11 will be described with reference to FIG. The bulb-type lamp 11 of the fourth embodiment is different from the first embodiment in the position of the light-emitting element 22 and the structure of the reflector 15, but the other parts are common to the first embodiment. For this reason, a different part from 1st Embodiment is mainly demonstrated, a common code | symbol is attached | subjected about a common location, and description is abbreviate | omitted.

  In the present embodiment, the light emitting element 22 is configured by an LED. A plurality (6 to 8) of light emitting elements 22 are arranged on one surface 21A of the substrate 21 (only one is shown in FIG. 6).

  As shown in FIG. 6, the reflector 15 has a dome shape and covers a plurality of light emitting elements 22. In FIG. 6, only the left side of the reflector 15 is cut to show a cross section, and the right side of the reflector 15 shows its appearance. The reflector 15 has a top portion 71 located on the top of the dome shape and an edge portion 72 that contacts the substrate 21. The edge 72 of the reflector 15 is bonded to the substrate 21 through an adhesive or the like, for example. However, for example, a hook may be provided at the edge 72 and the reflector 15 may be fixed by hooking the hook to the opening 25 of the substrate 21.

  The reflector 15 includes a base 43 formed into a dome shape by a light-transmitting synthetic resin material, a light reflecting portion 44 provided on the inner surface of the base 43, and a plurality of belt-shaped strips extending from the top 71 and the edge 72. A translucent part 45. The light reflecting portion 44 is provided at a position away from the plurality of light transmitting portions 45. The light reflecting portion 44 is formed of a so-called mirror surface formed by plating the base material 43 with a metal such as silver, aluminum, or gold. The plurality of translucent portions 45 are provided in stripes at regular intervals.

  Then, with reference to FIG. 6, the effect | action of the lightbulb type lamp 11 of this embodiment is demonstrated. As shown in FIG. 6, in the light bulb type lamp 11 of the present embodiment, a part of the light emitted from the light emitting element 22 passes through the light transmitting part 45 of the reflector 15 and travels almost straight to the outside. Irradiated. Further, part of the light emitted from the light emitting element 22 is reflected by the light reflecting portion 44, passes through the light transmitting portion 45 on the side opposite to the light reflecting portion 44, and is on the other surface 21 </ b> B side of the substrate 21. Irradiated towards. FIG. 6 shows an example of light reflected by the light reflecting portion 44, but in reality, reflection occurs at every position on the inner surface of the reflector 15, and wide light distribution is realized. Furthermore, in the present embodiment, it is preferable that the light transmitting portion 45 is located at a position 180 ° opposite to the light reflecting portion 44 with respect to the central axis 73 of the reflector 15.

  According to the fourth embodiment, the bulb-type lamp 11 includes a substrate 21, a plurality of light emitting elements 22 provided on one surface 21 </ b> A of the substrate 21, a top portion 71, an edge portion 72 that contacts the substrate 21, It has a plurality of strip-shaped light transmitting portions 45 extending from the top portion 71 and the edge portion 72 and a light reflecting portion 44 provided on the inner surface at a position deviated from the plurality of light transmitting portions 45 and covers the plurality of light emitting elements 22. A dome-shaped reflector 15.

  According to this configuration, wide light distribution can be realized by the reflector 15 having a simple structure. As a result, the other surface 21B side of the substrate 21 can be brightly illuminated, and the provision of the reflector 15 can prevent an excessive increase in cost.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. In particular, in the first to third embodiments described above, the light reflecting portion 44 or the half mirror portion 61 is provided on at least the outer peripheral surface 43A of the reflector 15, but the light reflecting portion 44 is provided only on the inner peripheral surface 43B of the reflector 15. Or even if the half mirror part 61 is provided, a certain degree of wide light distribution can be expected. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

DESCRIPTION OF SYMBOLS 11 ... Light bulb type lamp, 15 ... Reflector, 21 ... Board | substrate, 21A ... One side, 21B ... The other side, 22 ... Light emitting element, 22A ... Optical axis, 41 ... One end part, 42 ... Other end part, 43A ... outer peripheral surface, 43B ... inner peripheral surface, 44 ... light reflecting portion, 45 ... light transmitting portion, 51 ... slit, 61 ... half mirror portion, 71 ... top portion, 72 ... edge portion.

Claims (4)

A substrate,
A plurality of light emitting elements arranged in a ring on one surface of the substrate;
One end located inside the plurality of light emitting elements, the other end having a larger diameter than the one end so as to intersect the optical axis of the light emitting element, and the one end A tubular reflector having a plurality of band-shaped light transmitting parts extending to the other end, and a light reflecting part provided on the outer peripheral surface at a position deviated from the light transmitting part,
A light bulb type lamp equipped with. A substrate,
A plurality of light emitting elements arranged in a ring on one surface of the substrate;
One end located inside the plurality of light emitting elements, the other end having a larger diameter than the one end so as to intersect the optical axis of the light emitting element, and the one end A tubular reflector having a plurality of slits extending from the vicinity of the other end to the vicinity of the other end, and a light reflecting portion provided on the outer peripheral surface at a position deviated from the plurality of slits;
A light bulb type lamp equipped with. A substrate,
A plurality of light emitting elements arranged in a ring on one surface of the substrate;
One end located inside the plurality of light emitting elements, the other end having a larger diameter than the one end so as to intersect the optical axis of the light emitting elements, and an outer peripheral surface A tubular reflector having a half mirror part;
A light bulb type lamp equipped with. A substrate,
A plurality of light emitting elements provided on one surface of the substrate;
A top, an edge in contact with the substrate, a plurality of band-shaped light-transmitting portions extending between the top and the edge, and a light reflecting portion provided on the inner surface at a position away from the plurality of light-transmitting portions; And a dome-shaped reflector that covers the plurality of light emitting elements,
A light bulb type lamp equipped with.

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