JP5923199B1 - Lighting device - Google Patents

Abstract

A small illuminating device capable of emitting a plurality of types of light having different color temperatures and capable of controlling illuminance. An illumination device according to an embodiment of the present invention includes: a first light emitting circuit that emits light with a predetermined color; a second light emitting circuit that emits light with a color different from the predetermined color; A selection circuit that selects at least one of the first light-emitting circuit and the second light-emitting circuit; and a power control circuit configured to be able to adjust power supplied to the light-emitting circuit selected by the selection circuit. [Selection] Figure 1

Description

  The present invention relates to a lighting device.

  Light emitting diodes are used as lighting devices due to advances in semiconductor technology and demands for power saving. For example, a replaceable light bulb-type LED lamp is known in which a light emitting circuit using a light emitting diode is housed in a case having the same shape as a conventional incandescent light bulb. Such a bulb-type LED lamp generally has higher luminous efficiency and lower power consumption than conventional incandescent bulbs and the like.

  Moreover, the electric power supplied to a replaceable bulb-type LED lamp may be adjusted by a phase control type dimmer to control the illuminance of light emitted from the bulb-type LED lamp. For example, when such illuminance control is used for an exchangeable bulb-type LED lamp using a light-emitting diode, a power control circuit corresponding to this is mounted in the bulb-type LED lamp.

  In a light bulb-type LED lamp using a light-emitting diode, two light-emitting circuits having different colors when light is emitted are provided on a substrate on which the light-emitting diode is mounted, and only one light-emitting circuit emits light depending on the operation. By doing so, two kinds of light having different color temperatures can be emitted from one light bulb-shaped LED lamp. In such a case, for example, a mechanism for selecting a light emitting circuit is provided inside the replaceable light bulb-type LED lamp, and two power control circuits are provided outside the lighting device.

JP 2010-15714 A

  For example, when it is intended to provide an interchangeable lighting device capable of emitting a plurality of types of light having different color temperatures and capable of controlling the illuminance, the lighting device is provided with a plurality of light emitting circuits having different color temperatures, Furthermore, a power control circuit is provided independently for each light emitting circuit. However, since the power control circuit is relatively large, there has been a problem that it is difficult to provide a small illumination device such as a replaceable bulb-type LED lamp.

  The present invention has been made in view of such a problem, and an object of the present invention is to provide a compact lighting device that can emit a plurality of types of light having different color temperatures and can control illuminance.

  An illumination device according to an embodiment of the present invention includes a first light emitting circuit that emits light with a predetermined color, a second light emitting circuit that emits light with a color different from the predetermined color, and a first light emitting circuit. And a selection circuit that selects at least one of the second light emitting circuits, and a power control circuit configured to be able to adjust the power supplied to the light emitting circuits selected by the selection circuit.

  The lighting device having such a configuration can select at least one of the first light-emitting circuit and the second light-emitting circuit by the selection circuit, and supply adjusted power to the selected light-emitting circuit. Therefore, the number of power control circuits that tend to be relatively large can be reduced, and the entire components can be downsized. As a result, it is possible to provide a small illuminating device capable of emitting a plurality of types of light having different color temperatures and capable of controlling the illuminance.

  In addition, the lighting device according to the embodiment includes the power control circuit, a first substrate having the first direction as a longitudinal direction, and the first direction as a longitudinal direction. A case to be stored, a cover fixed to one end portion in the longitudinal direction of the case, and covering the first light emitting circuit and the second light emitting circuit, and a other end portion in the longitudinal direction of the case, the power control It may be a light bulb shaped lamp further provided with a base capable of supplying electric power to the circuit.

  Here, the first substrate on which the power control circuit is mounted is likely to be relatively large. Therefore, in such a lighting device, the longitudinal direction of the first substrate and the longitudinal direction of the case storing the first substrate are aligned in the first direction, and the space inside the case is effectively used. Yes. As a result, the configuration as described above is stored inside a so-called bulb-type interchangeable illumination device. As a result, it is possible to provide an interchangeable illumination device that can emit a plurality of types of light having different color temperatures and can control the illuminance.

  In the lighting device according to any of the above embodiments, the first light emitting circuit includes a plurality of first light emitting diodes connected between a pair of terminals, and the second light emitting circuit includes the other pair. A plurality of second light emitting diodes connected between the terminals may be provided.

  In the lighting device according to any of the above embodiments, one end of each of the first light emitting circuit and the second light emitting circuit is electrically connected to the selection circuit through a common wiring, and the first light emitting circuit The other end of the second light emitting circuit may be electrically connected to the selection circuit via an independent wiring.

  In such an aspect, the connection at the other end may be switched without switching the connection at one end of the first light emitting circuit and the second light emitting circuit in the selection circuit. Therefore, the configuration of the selection circuit can be simplified and the components can be further downsized.

  A lighting device according to another embodiment of the present invention is selected by a plurality of light emitting circuits that emit light of different colors, a selection circuit that selects at least one light emitting circuit from the plurality of light emitting circuits, and a selection circuit. A power control circuit configured to be able to adjust power supplied to the light emitting circuit.

  ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to provide the small illuminating device which can emit several kinds of light from which color temperature differs, and can control illumination intensity.

It is a functional block diagram which shows the structure of the illuminating device which concerns on the 1st Embodiment of this invention. It is a disassembled perspective view which shows the structural example of the same illuminating device.

  First, with reference to FIG. 1, the structure of the illuminating device 100 which concerns on the 1st Embodiment of this invention is demonstrated. It is a functional block diagram which shows the structure of the illuminating device 100 which concerns on the 1st Embodiment of this invention.

  As illustrated in FIG. 1, the lighting device 100 is connected to an AC power source 200 via a dimmer 300 disposed outside the lighting device 100. The illumination device 100 is, for example, an exchangeable LED lamp. The AC power source 200 is, for example, a household power source and supplies an AC voltage having an amplitude of 100V. The dimmer 300 is, for example, a phase control type dimmer, and transfers the AC voltage supplied from the AC power source 200 to the lighting device 100 only for a part of the phase, and does not transfer the remaining phase. The dimmer 300 may be operated by, for example, a switch attached to a wall surface or the like, or may be operated by a remote controller, a smart phone, or the like.

  As illustrated in FIG. 1, the lighting device 100 includes a light emitting unit 110 that emits light, and a power control unit 120 that adjusts the power supplied from the AC power supply 200 and supplies the power to the light emitting unit 110. The light emitting unit 110 includes a first light emitting circuit 111 that emits light with a predetermined color, and a second light emitting circuit 112 that emits light with a color different from the predetermined color.

  The power control unit 120 adjusts the supplied power by selecting a selection circuit 121 that selects at least one of the first light-emitting circuit 111 and the second light-emitting circuit 112 and adjusting the supplied power to the light-emitting circuit selected by the selection circuit 121. A single power control circuit 122 that supplies the power, and a rectification / smoothing circuit that rectifies and smoothes the AC voltage supplied from the AC power supply 200 via the dimmer 300 and supplies the rectified and smoothed power to the power control circuit 122 123. The power adjustment by the power control unit 120 is performed by various known controls, for example, control for adjusting the output power by adjusting the output current output to the light emitting unit 110 (constant current control), and output to the light emitting unit 110. The output power is adjusted by adjusting the output voltage (constant voltage control), and the output power output to the light emitting unit 110 is monitored, and the output power is adjusted by adjusting at least one of the output current and the output voltage. It can be executed by control (constant power control) to be adjusted.

  The first light emitting circuit 111 emits light, for example, in white, and the second light emitting circuit 112 emits light, for example, in a warm color bulb color. As shown in FIG. 1, one terminal n11 of the first light emitting circuit 111 and one terminal n21 of the second light emitting circuit 112 are connected to the selection circuit 121 through a common wiring n31. On the other hand, the other terminal n12 of the first light emitting circuit 111 is connected to the switch sw1 of the selection circuit 121 via the wiring n32, and the other terminal n22 of the second light emitting circuit 112 is electrically connected to the wiring n32. It is connected to the switch sw2 of the selection circuit 121 via an independent wiring n33. In FIG. 1, the anode-side terminals n11 and n21 of the first light-emitting circuit 111 and the second light-emitting circuit 112 are connected in common, and the cathode-side terminals n12 and n22 are independently connected to the selection circuit 121. An example is shown. However, for example, the cathode-side terminals n12 and n22 may be connected in common, and the anode-side terminals n11 and n21 may be independently connected to the selection circuit 121. Alternatively, the anode side terminals n11 and n21 may be independently connected to the selection circuit 121, and the cathode side terminals n12 and n22 may be independently connected to the selection circuit 121.

  The first light emitting circuit 111 includes, for example, a plurality of light emitting diodes that emit white light. The plurality of light emitting diodes may be connected in series between the terminal n11 and the terminal n12, for example, or may be connected in parallel. Moreover, you may connect by the other method.

  For example, the second light emitting circuit 112 includes a plurality of light emitting diodes that emit light in warm colors. The plurality of light emitting diodes may be connected in series between the terminal n21 and the terminal n22, for example, or may be connected in parallel. Moreover, you may connect by the other method.

  Note that the number of light emitting diodes in the first light emitting circuit 111 and the number of light emitting diodes in the second light emitting circuit 112 may be the same or different. For example, the number of light emitting diodes included in the first light emitting circuit 111 that emits light of a warm color may be smaller than the number of light emitting diodes in the second light emitting circuit 112 that emits white light.

  For example, when power is supplied for the first time, the selection circuit 121 selects the first light emitting circuit 111, and within a predetermined time (for example, 0.1 second to 3) after the supply of power is cut off. When power is supplied again, the second light emitting circuit 112 is selected. After that, when the supply of power is further cut and the power is supplied again within the predetermined time, the first light emitting circuit 111 may be selected again. When the first light emitting circuit 111 is selected, the power supplied from the power control circuit 122 is transferred between the wiring n31 and the wiring n32. On the other hand, when the second light emitting circuit 112 is selected, the power supplied from the power control circuit 122 is transferred between the wiring n31 and the wiring n33. For example, the first light emitting circuit 111 and the second light emitting circuit 112 may be selected at the same time so that power can be transferred to both of them.

  Note that the power required for light emission may be different between the first light emitting circuit 111 and the second light emitting circuit 112. In such a case, the selection circuit 121 is configured so that the conditions for transferring power are different between the case where the first light emitting circuit 111 is selected and the case where the second light emitting circuit 112 is selected. Also good. For example, a resistor, a predetermined circuit, or the like is inserted between the switch sw1 and the wiring n32 or between the switch sw2 and the wiring n33, and the first light emitting circuit 111 and the second light emitting circuit are connected from the power control circuit 122. The power supplied to 112 may be adjusted.

  The power control circuit 122 adjusts at least one of the output voltage and the output current to the output of the dimmer 300 (for example, phase information such as a phase angle) based on the voltage supplied from the rectifying / smoothing circuit 123, for example. Configured to adjust. More specifically, the voltage (or current) supplied from the rectifying / smoothing circuit 123 to the power control circuit 122 includes phase information such as a phase angle, and the power control circuit 122 The output power supplied to the light emitting unit 110 is adjusted based on phase information such as a phase angle included in the current. The rectification / smoothing circuit 123 includes, for example, a diode for rectification. The rectifying / smoothing circuit 123 includes, for example, a low-pass filter for smoothing. Note that the arithmetic circuit 122 corresponds to a dimming ratio of 10% to 100%, for example.

  Next, with reference to FIG. 2, the structural example of the illuminating device 100 which concerns on the 1st Embodiment of this invention is demonstrated. FIG. 2 is an exploded perspective view showing a configuration example of the illumination device 100. As shown in FIG. 2, the illumination device 100 is, for example, a so-called exchangeable bulb-type LED lamp.

  In the example shown in FIG. 2, the lighting device 100 includes a case 131 that houses the power control unit 120, and a screw-type (Edison base) base 132 and a center electrode 133 that are connected to the lower end of the case 131. . In the example shown in FIG. 2, the lighting device 100 covers the case 131 and is connected to the main body 134 provided with a mounting portion 134 </ b> A on which the light emitting unit 110 is mounted on the upper surface. A light source cover 135 covering the portion 110. In addition, these structures are located in a line along the first direction in FIG.

  In the example shown in FIG. 2, the light emitting unit 110 is formed by, for example, forming a plurality of light emitting elements 114 on a substantially circular substrate 113 and connecting these light emitting elements by a printed wiring 115. Some of the plurality of light emitting elements 114 are commonly connected by the printed wiring 115 and function as the first light emitting unit 111. The remaining part of the plurality of light emitting elements 114 is also connected in common by the printed wiring 115 and functions as the second light emitting unit 112.

  In the example illustrated in FIG. 2, the power control unit 120 is formed, for example, by mounting a plurality of integrated circuits, elements, or the like on a substrate 124 whose longitudinal direction is the first direction. As shown in FIG. 2, the selection circuit 121 is realized by an integrated circuit, for example, and is connected to the printed wiring 115 via the wiring 125. Note that the wiring 125 functions as the wiring n31, the wiring n32, and the wiring n33 described with reference to FIG. The power control circuit 122 is realized by an integrated circuit, for example. The rectification / smoothing circuit 123 is realized by a plurality of elements mounted on the substrate 124, for example. However, for example, the rectification / smoothing circuit 123 may be realized by an integrated circuit. The power control unit 120 has a size that can be accommodated in the case 131.

  In the example shown in FIG. 2, the case 131 is formed in a substantially cylindrical shape with the first direction as the longitudinal direction and the axial direction. The case 131 houses the power control unit 120 therein. Accordingly, the inner diameter of the case 131 is adjusted to be equal to or greater than that of the substrate 124 of the power control unit 120. Further, a male screw 131A is formed on the outer peripheral portion of the lower portion of the case 131, and this male screw 131A is screwed into a female screw 132A formed on the base 132. In addition, a through hole (not shown) to which the center electrode 133 is connected is provided on the lower surface of the case 131. The base 132 and the center electrode 133 are electrically independent from each other, and each is connected to the rectifying / smoothing circuit 123 of the power control unit 120.

  In the example shown in FIG. 2, the main body 134 is formed in a substantially cylindrical shape formed such that the first direction is the axial direction and the lower radius is smaller than the upper radius. The main body 134 may be connected to the case 131 by inserting the case 131 from below, for example. In addition, on the upper surface of the main body 134, a mounting portion 134A on which the light emitting unit 110 is mounted is formed. The placement unit 134A is formed so that the substrate 113 of the light emitting unit 110 is provided on a plane that intersects the first direction. Note that the substrate 113 may be fixed to the placement portion 134 </ b> A by a screw 136.

  In the example shown in FIG. 2, the light source cover 135 is formed in a substantially spherical shape. The light source cover 135 is formed of a transmissive member so as to transmit at least part of the light emitted from the light emitting unit 110. In addition, the light source cover 135 has, for example, a ring-shaped portion 135A formed at the lower portion, and this portion 135A engages with a concave portion 134B formed along the inner periphery of the upper portion of the main body 134, whereby the main body 134.

  As described with reference to FIG. 1, the lighting device 100 according to the first embodiment of the present invention emits light with a first light emitting circuit 111 that emits light with a predetermined color and a color different from the predetermined color. The second light emitting circuit 112, the selection circuit 121 that selects at least one of the first light emitting circuit 111 and the second light emitting circuit 112, and the light emitting circuit that adjusts the supplied power and is selected by the selection circuit 121. And a power control circuit 122 for supplying to the power supply.

  The lighting device 100 having such a configuration selects at least one of the first light-emitting circuit 111 and the second light-emitting circuit 112 by the selection circuit 121, and supplies adjusted power to the selected light-emitting circuit. ing. Therefore, the number of power control circuits 122 that tend to be relatively large can be reduced, and the entire components can be downsized. As a result, it is possible to provide a small illuminating device 100 that can emit a plurality of types of light having different color temperatures and can control the illuminance.

  In addition, as described with reference to FIG. 2, the lighting device 100 according to the first embodiment includes the power control circuit 122, the substrate 113 having the first direction as the longitudinal direction, and the first direction. Is fixed to the upper end of the case 131, the cover 135 covering the first light emitting circuit 111 and the second light emitting circuit 112, and the lower end of the case 131, The power control circuit 122 includes a screw-type base capable of controlling power.

  Here, the power control unit 120 includes a relatively large power control circuit 122, a rectification / smoothing circuit 123, and the like. Therefore, the substrate 124 of the power control unit 120 tends to be relatively large. Therefore, in the lighting device 100 according to the first embodiment, the longitudinal direction of the substrate 124 and the longitudinal direction of the case 131 that accommodates the substrate 124 are aligned in the first direction, so that the space inside the case 131 is increased. We use effectively. Thereby, each structure of the light emission part 110 and the electric power control part 120 is stored in the inside of an interchangeable illuminating device, for example, an interchangeable bulb-type LED lamp. As a result, it is possible to provide an exchangeable illumination device 100 that can emit a plurality of types of light having different color temperatures and can control the illuminance. Such an illuminating device 100 can be used in an existing environment, and has high versatility.

  In addition, as described with reference to FIG. 1, in the lighting device 100 according to the first embodiment, one terminal n11 of the first light emitting circuit 111 and one terminal n21 of the second light emitting circuit 112 are The other terminal n12 of the first light emitting circuit 111 and the other terminal n22 of the second light emitting circuit 112 are selected via independent wirings n32 and n33, respectively, connected to the selection circuit 121 via a common wiring n31. The circuit 121 is connected.

  In such an embodiment, the connection at the other end may be switched without switching the connection at one end of the first light emitting circuit 111 and the second light emitting circuit 112 in the selection circuit 121. Therefore, the configuration of the selection circuit 121 can be simplified and the components can be further reduced in size.

  Note that the lighting device 100 according to the first embodiment includes the first light emitting circuit 111 and the second light emitting circuit 112 that emit light in different colors. On the other hand, for example, the lighting device may be provided with a plurality of three or more light emitting circuits that emit light of different colors. In this case, for example, at least one light emitting circuit may be selected by the power control circuit, and the power supplied from the power control circuit may be transferred. Even in such a case, since it is sufficient to provide one power control circuit, the entire component can be reduced in size. As a result, it is possible to provide a small illuminating device capable of emitting a plurality of types of light having different color temperatures and capable of controlling the illuminance.

  DESCRIPTION OF SYMBOLS 100 ... Illuminating device, 110 ... Light emission part, 111 ... 1st light emission circuit, 112 ... 2nd light emission circuit, 113 ... Board | substrate, 114 ... Light emitting element, 115 ... Wiring, 120 ... Power control part, 121 ... Selection circuit, DESCRIPTION OF SYMBOLS 122 ... Power control circuit, 123 ... Rectification / smoothing circuit, 124 ... Board | substrate, 125 ... Wiring, 131 ... Case, 132 ... Base, 133 ... Center electrode, 134 ... Main body, 135 ... Light source cover, 200 ... AC power supply, 300 ... Dimmer.

Claims (1)

A first light emitting circuit that emits light of a predetermined color;
A second light emitting circuit that emits light in a color different from the predetermined color;
And a single selection circuit for selecting either of the first light-emitting circuit and the second light-emitting circuit,
A single power control circuit configured to adjust the illuminance of the light emitting circuit selected by the selection circuit by adjusting the power supplied to the light emitting circuit selected by the selection circuit ;
A rectifying / smoothing circuit that rectifies and smoothes an alternating voltage supplied via a dimmer of a single-sided phase control method disposed outside, and supplies the rectified and smoothed power to the power control circuit ,
The lighting device is a light bulb-type LED lamp that houses the first light emitting circuit, the second light emitting circuit, the selection circuit , the power control circuit, and the rectifying / smoothing circuit ,
The voltage or current supplied from the dimmer to the power control circuit via the rectification / smoothing circuit includes phase angle information,
The power control circuit supplies power to the light emitting circuit selected by the selection circuit based on phase angle information included in the voltage or current supplied from the dimmer via the rectification / smoothing circuit. Is configured to adjust
The selection circuit supplies power to the first light emitting circuit by supplying power to the first light emitting circuit when power is supplied again within a predetermined time after the power supply is cut off by the dimmer. An illumination device configured to switch between an illumination state in which a circuit emits light and an illumination state in which the second light emitting circuit emits light by supplying power to the second light emitting circuit .

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