JP6738040B2 - lighting equipment - Google Patents

Description

Embodiments of the present invention relate to a lighting device that is wirelessly controllable.

Conventionally, in a lighting device that is wirelessly controllable, a wireless signal transmitted from a remote controller is received by a receiving unit, and a light source is dimming-controlled according to the received wireless signal.

Further, for example, there is a high-ceiling lighting fixture used for lighting a space with a high ceiling such as a facility. In this high ceiling lighting fixture, a light emitting module having a light emitting element is used, and the light emitting module is attached to the lower surface of the radiator. A plurality of radiating fins for radiating the heat generated by the light emitting element are projected on the upper surface of the radiator. The radiator is supported by a main body chassis arranged above the radiator, and a power supply unit is arranged on the main body chassis. An arm for installation on the ceiling is connected to the main body chassis.

In such a high-ceiling lighting fixture, when a receiving unit is provided to enable wireless control, the receiving unit may be affected by heat from the light emitting module depending on the place where the receiving unit is provided, There is a possibility that the reception intensity of the receiving unit will be low.

JP, 2015-37042, A JP, 2013-201080, A

The problem to be solved by the present invention is to provide a luminaire in which the receiving unit is less susceptible to the heat from the light emitting module and the receiving intensity of the receiving unit can be secured.

The luminaire of the embodiment has a light emitting module, a radiator, a main body chassis, a power supply section, an arm, and a receiving section. The light emitting module has a light emitting element. The radiator has a light source mounting portion on the lower surface of which the light emitting module is disposed, and a plurality of heat radiation fins protruding from the upper surface of the light source mounting portion. The main body chassis has a power source mounting portion which is arranged above the radiator with a space, and supports the radiator. Power supply unit is disposed on the upper side of the power supply mounting portion, Ru lights the light-emitting module. The arm has an installation portion that is arranged above the power supply portion with a space, and a pair of side portions that are provided at both ends of the installation portion and that rotatably support the main body chassis on the tip end side. The receiving unit is located above the radiator and is provided inside the side portion of the arm and closer to the installation portion than the tip end side of the side portion, and receives a radio signal for controlling the power supply unit. The receiving unit is connected to the power supply unit by a connecting line and is arranged separately from the power supply unit.

According to the present invention, the receiving unit is less likely to be affected by heat from the light emitting module, and it can be expected that the receiving intensity of the receiving unit is secured.

It is a perspective view of the lighting fixture which shows one Embodiment. It is a block diagram of the lighting system using the lighting fixture same as the above.

Hereinafter, one embodiment will be described with reference to FIGS. 1 and 2.

As shown in FIG. 1, the lighting fixture 10 is, for example, a high-ceiling lighting fixture used for lighting a space with a high ceiling such as a facility.

The luminaire 10 supports a light emitting module 11, a radiator 12 to which the light emitting module 11 is attached, a body chassis 13 that supports the radiator 12, a power supply unit 14 that is attached to the body chassis 13, and a body chassis 13. It has an arm 15 and a wireless module 16.

The light emitting module 11 includes a substrate 20 and a plurality of light emitting elements 21 mounted on one surface of the substrate 20 (note that a part of the light emitting element 21 is shown in FIG. 1 and the others are not shown). Omitted). As the light emitting element 21, for example, an LED is used, but another light emitting element such as an organic EL may be used. The other surface of the substrate 20 is disposed on the lower surface of the radiator 12, and the light emitting module 11 is thermally connected to the radiator 12.

The light emitting module 11 is covered with a translucent cover 22 attached to the lower surface of the radiator 12.

Further, the radiator 12 includes a light source mounting portion 26 and a plurality of heat radiation fins 27 protruding from the upper surface of the light source mounting portion 26. The radiator 12 is formed of a metal material such as aluminum. The light source mounting portion 26 and the respective heat radiation fins 27 may be provided separately, and the respective heat radiation fins 27 may be inserted and fixed in the slits provided on the upper surface of the light source mounting portion 26. Alternatively, the light source mounting portion 26 and the heat radiation fins 27 may be fixed. May be integrally formed by, for example, extrusion molding.

Further, the main body chassis 13 is provided above the radiator 12 so as to face each other with a space 31 therebetween, and the power source mounting portions 32 are provided on both sides of the power source mounting portion 32 and are connected to the radiator 12. It has a support portion 33. The main body chassis 13 is formed of, for example, a metal plate.

The power supply unit 14 is attached to the upper side of the power supply attachment unit 32 of the main body chassis 13. The power supply unit 14 includes a power supply box 37 mounted on the upper side of the power supply mounting unit 32, and a power supply circuit 38 housed in the power supply box 37. Further, the power supply box 37 includes a terminal block box 39 provided on the upper side of the power supply box 37. In this terminal block box 39, a terminal block (not shown) for inputting AC power is arranged. Then, the power supply unit 14 (power supply circuit 38) receives an AC power supply, converts the AC power supply into a predetermined DC power supply, supplies the light emitting element 21 of the light emitting module 11, and lights the light emitting element 21. Further, the power supply unit 14 (power supply circuit 38) inputs a dimming signal from the wireless module 16 and dimming-controls the light emitting element 21 according to the dimming signal.

Further, the arm 15 is provided with an installation portion 44 disposed above the power supply portion 14 so as to face each other with a predetermined space 43, and a pair provided at both ends of the installation portion 44 and connected to the main body chassis 13. Side portion 45 of the. The tip of the side portion 45 is attached to the connecting fitting 46 attached to the main body chassis 13 so as to be rotationally adjustable.

Further, the wireless module 16 receives a wireless signal having a predetermined frequency, and a control unit 51 that outputs a dimming signal corresponding to the wireless signal received by the receiving unit 50 to the power supply unit 14 (power supply circuit 38). , And a connection line 52 for electrically connecting the receiving unit 50 and the control unit 51. The wireless signal is a signal that controls the lighting state of the light emitting element 21, and includes dimming information. The receiver 50 has an antenna for receiving a radio signal, and sends the received signal to the controller 51. The control unit 51 outputs a dimming signal such as a PWM signal according to the signal input from the receiving unit 50 to the power supply unit 14 (power supply circuit 38).

The receiver 50 of the wireless module 16 arranged in the lighting fixture 10 can be easily arranged in the lighting fixture 10, is not easily affected by heat from the light emitting module 11, and is arranged in a position where reception strength can be secured. Has been done. This position is above the radiator 12 (radiation fin 27).

As long as the position of the receiver 50 is above the radiator 12 (radiation fin 27), the position a on the upper surface of the body chassis 13 or the position b on the side surface, or the position c on the upper surface of the power supply unit 14 or the position on the side surface. d, or the position e on the lower surface of the installation portion 44 of the arm 15, the position f on the inner surface side of the side portion 45, the position g on the outer surface side, or the like.

The position of the receiving portion 50 is preferably the position f on the inner surface side of the side portion 45 of the arm 15 because it can be easily arranged in the lighting fixture 10, is not easily affected by the heat from the light emitting module 11, and secures the reception strength. Alternatively, there is a position g on the outer surface side. Furthermore, the wiring distance between the receiving unit 50 and the control unit 51 is short, and in order to make the receiving unit 50 difficult to see from the outside in consideration of the appearance, a more preferable position of the receiving unit 50 is the position of the arm 15 shown in the present embodiment. There is a position f on the inner surface side of the side portion 45.

On the other hand, since the control unit 51 is electrically connected to the receiving unit 50 and the power supply unit 14 (power supply circuit 38), it is preferable to dispose the control unit 51 at a position close to each of the receiving unit 50 and the power supply unit 14. For example, the inside of the power supply box 37 of the power supply unit 14 shown in this embodiment is preferable. When arranged in the power supply box 37, a wiring hole 37a through which the connection line 52 passes is formed in the power supply box 37.

The control unit 51 may be arranged at each of the positions a to g where the receiving unit 50 is arranged together with the receiving unit 50. In this case, the receiving unit 50 and the control unit 51 may be integrated.

Further, FIG. 2 shows a lighting system using the lighting fixture 10. In the lighting system, the lighting state of the lighting fixture 10 is operated by the terminal 56 including a mobile terminal such as a tablet terminal or a smartphone.

By operating the illumination state on the terminal 56, a wireless signal of a predetermined first frequency is transmitted from the terminal 56, and the controller 57 receives the wireless signal, and the controller 57 receives a predetermined first frequency different from the first frequency. The wireless signal of the frequency of 2 is transmitted, and the receiving unit 50 of the luminaire 10 receives the radio signal, and the lighting state of the luminaire 10 is switched.

Then, according to the lighting fixture 10 of the present embodiment, by arranging the receiving section 50 of the wireless module 16 above the radiator 12 (radiating fins 27), the receiving section 50 receives heat from the light emitting module 11. It is unlikely to be affected and the reception intensity of the receiving unit 50 can be secured.

Further, the receiving unit 50 may be arranged on any of the main body chassis 13, the power supply unit 14 and the arm 15 as long as it is located above the radiator 12 (radiation fin 27), but on the side portion 45 of the arm 15. By disposing the receiving unit 50, the receiving unit 50 is not easily affected by heat from the light emitting module 11, the receiving intensity of the receiving unit 50 can be secured, and the receiving unit 50 can be easily attached.

Although some embodiments of the present invention have been described, these embodiments are presented as examples 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 spirit of the invention. These embodiments and their modifications are included in the scope and gist of the invention, and are also included in the invention described in the claims and the scope of equivalents thereof.

10 lighting equipment
11 Light emitting module
12 radiator
13 body chassis
14 Power supply section
15 arms
21 Light emitting element
26 Light source mount
27 Radiation fin
32 Power supply mounting part
44 Installation department
45 sides
50 Receiver

Claims (1)

A light emitting module having a light emitting element;
A light source mounting portion for disposing the light emitting module on a lower surface thereof, and a radiator having a plurality of heat radiation fins protruding from an upper surface of the light source mounting portion;
A main body chassis having a power source mounting portion disposed above the radiator with a space therebetween, and supporting the radiator;
Said disposed on the upper side of the power source mounting portion, a power supply unit which Ru lights the light emitting module;
An installation part disposed above the power supply part with a space, and an arm provided at both ends of the installation part and having a pair of side parts on the tip side for rotatably supporting the main body chassis;
It is located above the radiator and inside the side portion of the arm and closer to the installation portion than the tip end side of the side portion, and receives a radio signal for controlling the power supply unit. A receiver;
Equipped with,
The lighting device is characterized in that the receiving unit is connected to the power supply unit by a connection line and is arranged separately from the power supply unit .

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