CN114511998A - Remote control device and lighting apparatus - Google Patents

Abstract

The invention provides a remote control device and a lighting fixture, which can simply operate the lighting fixture and an external device by transmitting a wireless signal transmitted from a remote controller as an infrared signal from an infrared signal transmitting device arranged in a lighting fixture adapter. The remote control device is provided with: a power supply unit provided in a ceiling; a lighting fixture adapter (10) provided with a hook fitting (15) which is detachably mounted; an AC power output cable (40) connected to the hook fitting and extending from the base plate (13) of the lighting fixture adapter; a DC power supply device (20) that converts AC power supplied from a power supply unit into DC power; an infrared signal transmission device (22) which receives a signal transmitted from a remote controller and has an infrared signal transmission unit (23) which transmits an infrared signal to a lighting fixture attached to a lighting fixture adapter and an external device; and holding members (16, 17) for holding the lighting device main body (80).

Description

Remote control device and lighting apparatus

Technical Field

The present invention relates to a remote control device and a lighting fixture for a general house.

Background

In general houses, lighting apparatuses such as pendant lamps are widely used. When these lighting fixtures are mounted on a ceiling (mounting portion), the lighting fixtures can be mounted on the ceiling (mounting portion) by a simple operation by using the power supply portion and the lighting mounting adapter in this manner. The lighting fixture adapter is mechanically and electrically connected to a power supply unit (suspended ceiling structure) to which AC power for home use is supplied, and functions to hold the lighting fixture body and supply AC power to the lighting fixture body via the lighting fixture adapter.

A power supply unit such as a suspended ceiling used for a lighting apparatus such as a ceiling lamp is a socket dedicated to the lighting apparatus. Therefore, it has been proposed to branch off a part of the AC power supplied from the power supply unit and supply the branched AC power to another lighting apparatus (see, for example, patent document 1).

Patent document 1: japanese patent laid-open publication No. 2016-54122

Patent document 2: japanese patent laid-open No. 2008-16410

In patent document 1, in a lighting device including a suspended ceiling structure (power supply unit) and a lighting fixture adapter (lighting fixture adapter), in order to add an indirect lighting function, a lighting device including an indirect lighting mechanism is added between the lighting device and the lighting fixture adapter, and a power supply unit is provided in the lighting device. In the case where the lighting device provided with the indirect lighting mechanism is a lighting device located at the middle portion as viewed from the whole lighting device, a power supply unit is added to supply power to the lighting device located at the lower portion. However, this lighting apparatus has a problem that the lighting apparatus cannot be simplified because the lighting attachment adapter is not equipped with a remote controller (remote control) function for transmitting and receiving control signals such as lighting on/off and dimming of the lighting fixture.

Further, patent document 2 describes a lighting fixture in which a lighting fixture mounting adapter is used for a power supply unit (suspended ceiling), but since an infrared signal receiving device is provided in a lighting fixture main body, there is a problem of lack of versatility.

Disclosure of Invention

Accordingly, the present invention provides a remote control device and a lighting apparatus, which can easily operate a lighting apparatus and peripheral external devices, for example, a home appliance (hereinafter, also referred to as "home appliance") such as a smart home appliance by transmitting a signal transmitted from a remote controller as an infrared signal from an infrared signal transmitting device provided in a lighting apparatus adapter.

In order to achieve the above object, a 1 st aspect of the present invention relates to a remote control device having a housing, characterized in that,

the housing includes:

a hook fitting which is detachably attached to a power supply unit provided in the attachment unit;

an AC power output cable connected to the hooking fitting and extending from a bottom plate of the housing;

a DC power supply device connected to the AC power output cable, and converting AC power supplied from the power supply unit into DC power;

an infrared signal transmitting device connected to the DC power supply device, receiving a signal output from a remote controller, and transmitting an infrared signal to an external device and a lighting apparatus main body; and

a holding member that detachably holds the lighting apparatus main body,

the external device and the lighting fixture main body are controlled by the remote controller.

In order to achieve the above object, a 2 nd aspect of the present invention relates to a remote control device having a lighting installation adaptor and an infrared signal transmission box, characterized in that,

the lighting installation adapter has:

a hook fitting which is detachably attached to a power supply unit provided in the attachment unit;

an AC power output cable connected to the hook fitting and extending from a base plate of the lighting installation adapter;

a DC power supply device connected to the AC power output cable, and converting AC power supplied from the power supply unit into DC power;

a DC power output cable electrically connected to the DC power supply device;

a DC power output terminal mounted to the base plate of the lighting installation adapter and electrically connected to the DC power output cable; and

a holding member for detachably holding the lighting apparatus main body,

the infrared signal transmission box is provided with:

a DC power input terminal connected to the DC power output terminal and inputting DC power; and

an infrared signal transmitting device connected to the DC power input terminal, receiving a signal output from a remote controller, and transmitting an infrared signal to an external device and the lighting fixture main body,

the external device and the lighting fixture main body are controlled by the remote controller.

In order to achieve the above object, a 3 rd aspect of the present invention relates to a lighting fixture, comprising:

the remote control device according to the above-mentioned aspect 1 or 2;

the lighting fixture body;

a lighting cover covering a lower surface side of the lighting apparatus main body; and

the remote controller operates the lighting apparatus main body.

Effects of the invention

According to the present invention, the infrared signal transmitting device is provided near the lighting fixture adapter, and the contents obtained by receiving the transmission signal transmitted from the remote controller are transmitted by the infrared signal and received by the infrared receiving device of the external device or the lighting fixture main body placed indoors or the like, whereby the external device or the lighting fixture which can be operated only by the infrared signal can be reliably controlled by a method other than the infrared signal by a simple device. Since the infrared signal transmission device disposed in the lighting installation adapter is disposed near the ceiling and can transmit infrared signals to each corner of the room, it is possible to easily control the external device placed in the room by the transmission signal transmitted from the remote controller.

Drawings

Fig. 1 (a) is a schematic perspective view of a remote control device according to embodiment 1, and (B) is a schematic sectional view of a lighting fixture including the remote control device according to embodiment 1.

Fig. 2 (a) is a schematic perspective view of a remote control device according to embodiment 2, and (B) is a schematic perspective view of a modification of the remote control device for lighting fixtures according to embodiment 2.

Fig. 3 is a schematic perspective view of a remote control device according to embodiment 3.

Fig. 4 is a schematic perspective view of a remote control device according to embodiment 4.

Fig. 5 (a) is a schematic perspective view of a lighting fixture using a general lighting attachment adapter.

Fig. 5 (B) is a schematic cross-sectional view of a lighting fixture using a general lighting attachment adapter.

Fig. 6 is a schematic block diagram of a remote control device according to embodiment 1.

Description of the reference symbols

1 … Power supply part

10 … lighting installation adapter

11 … casing

12 … top plate

13 … bottom plate

14 … side panel

15 … hook fitting

16 … claw-shaped piece (holding member)

17 … release lever (holding member)

18 … ceiling (mounting part)

19 … Release button

20 … DC power supply device

21 … signal receiving part

22 … infrared signal transmitter

23 … infrared signal transmitting part

30 … DC power supply output terminal

31 … DC power input terminal

32 … DC power supply input cable

33 … infrared signal transmitting box

34 … infrared signal transmitting part

40 … AC power supply output cable

41 … AC power supply output terminal

42 … AC power input terminal

43 … AC power supply output cable

44 … AC power supply output terminal

60 … AC power supply output cable

61 … AC power supply output terminal

63 … AC power supply output cable

64 … AC power supply output terminal

65 … power adapter

67 … DC power supply output terminal

68 … AC power input terminal

69 … notch part (groove part)

70 … infrared signal transmitting box

71 … cutting part (groove part)

75 … aperture

76 … infrared signal transmitting part

80 … Lighting apparatus Main body

81 … top plate

82 … light source

83 … control unit

84 … opening part

85 … light receiving part

86 … infrared signal receiver

90 … lighting cover

91 … remote controller (remote control)

100 … lighting device

Detailed Description

In order to facilitate understanding of the present invention, an example of a general lighting fixture will be described with reference to (a) and (B) of fig. 5. Fig. 5 (a) is a schematic perspective view of a lighting fixture using a general lighting attachment adapter shown in patent document 2, and (B) is a schematic sectional view of a lighting fixture using a general lighting attachment adapter.

In a house for general household use, a power supply unit 1 called a ceiling light box, a ceiling structure, a ceiling light box, or the like, for mounting a ceiling lamp or the like, is mounted on a ceiling (mounting portion). As shown in fig. 5 (a) and (B), the lighting fixture is mounted to the power supply unit 1 provided in the ceiling (mounting unit) 18 in the house.

The lighting fixture 100 is composed of the lighting attachment adapter 10, the lighting fixture main body 80, and the lighting cover 90. The accessory device further includes a remote controller 91 for operating lighting of the lighting fixture 100.

In a house for general household use, AC power is supplied from a house power system. By mounting the lighting installation adapter 10 to the power supply unit 1 provided in the ceiling (mounting portion) 18, the power supply unit 1 and the lighting installation adapter 10 are mechanically and electrically connected. By the connection of the power supply section 1 and the lighting installation adapter 10, AC power is supplied from the in-house power line to the lighting installation adapter 10 through the power supply section 1.

Here, a remote control device according to an embodiment of the present invention will be described with reference to the drawings. The embodiments described below are merely examples of the present invention, and the arrangement, functions, numerical values, and the like of the components described in the embodiments are not intended to limit the scope of the present invention.

The release lever 17, which is a part of the holding member constituting the lighting installation adaptor 10, is omitted in fig. 2 to 4 and 5 (the claw 16 and the release lever 17 are collectively referred to as a holding member) because the drawings are complicated.

(embodiment mode 1)

Next, a remote control device and the like according to embodiment 1 of the present invention will be described with reference to the drawings.

First, the structure of the lighting installation adapter 10 is explained. Fig. 1 (a) shows a schematic perspective view of the lighting fixture adapter 10, and (B) shows a schematic cross-sectional view. Fig. 1 (a) and (B) show a lighting fixture adapter 10 functioning as a remote control device. The lighting fixture adapter 10 is provided with a DC power supply device 20, an infrared signal transmission device 22 (a signal reception unit 21, a signal decoding unit 24, an infrared signal transmission unit 23), and the like (see fig. 6). The infrared signal transmitter 22 is, for example, a box-shaped container in a rectangular parallelepiped shape, and is formed of a polycarbonate resin as a material transmitting infrared rays. As the resin constituting the container, a suitable material that transmits infrared rays, such as an acrylic resin, a polypropylene resin, a polyethylene resin, or a polyethylene terephthalate resin, can be selected in addition to the carbonate resin. In fig. 1 and 5 (B), the components such as the DC power supply device 20, the infrared signal transmission device 22, the hook fixture 15, the control unit 83, and the light receiving unit 85 are schematically illustrated in cross-section, and the internal structure and the wiring between the devices are omitted.

The lighting fixture adapter 10 has a top plate 12 at the upper part, a bottom plate 13 at the lower part, and a side plate 14 at the side surface, and is substantially cylindrical as a whole. The top plate 12 and the bottom plate 13 are substantially circular flat plates, and a pair of key-shaped hook fittings 15 are fixed to an upper portion of the top plate 12. The hook fitting 15 is fixed to the 2 circular arc-shaped locking grooves (hook fitting locking grooves) provided in the power supply unit 1 provided in the ceiling (mounting unit) 18 so that the key-shaped portion of the hook fitting 15 is fitted into the grooves. Therefore, while the lighting attachment adapter 10 is locked to the power supply unit 1, the key-shaped portion of the hook fitting 15 is electrically conducted to the output terminal in the power supply unit 1, and the AC power is supplied to the lighting attachment adapter 10.

The lighting fixture adapter 10 further includes a pair of claws (holding members) 16 protruding from a cutout hole (not shown) provided through the side plate 14. The claw member 16 urges in the outer direction of the side plate 14 of the lighting installation adapter 10.

Here, a method of attaching the luminaire main body 80 to the lighting fitting adapter 10 will be described with reference to fig. 5.

First, the lighting installation adapter 10 is installed to the power supply section 1. Next, the top plate 81 of the lighting fixture main body 80 is held, and the opening 84 provided in the top plate 81 is inserted into the lighting fixture 10. Next, when the top plate 81 is lifted up so as to push up the claw 16 of the lighting fixture 10 from below, the claw 16 is pressed into the side plate 14 by the peripheral edge portion of the opening 84 of the top plate 81 provided in the lighting fixture main body 80. When the top plate 81 is continuously lifted in this state, the edge of the opening 84 of the top plate 81 passes over the claw 16, and the claw 16 is positioned below the top plate 81. The claw 16 is biased in the outer direction of the side plate 14, and therefore protrudes in the outer direction of the side plate 14 again, and supports the top plate 81 from below.

To detach the top plate 81 from the lighting installation adapter 10, 2 release levers 17 provided to the bottom plate 13 of the lighting installation adapter 10 are used. By moving the 2 release levers 17 inward simultaneously by hand, the claw 16 is retracted into the side plate 14, the locking of the top plate 81 is released, and the top plate 81 is detached from the lighting installation adapter 10.

The shape of the illumination attachment adapter 10 is not limited to a substantially cylindrical shape, and various shapes such as a rectangular parallelepiped, a triangular prism, and an octagonal prism can be employed.

In order to detach the lighting attachment adapter 10 from the power supply unit 1, the lighting attachment adapter 10 may be horizontally rotated while pressing a release button 19 provided on a side plate 14 of the lighting attachment adapter.

In embodiment 1, the lighting fixture adapter 10 includes an AC power output cable 40 for outputting AC power supplied from the power supply unit 1 to the outside of the housing 11. An AC power output terminal 41 is attached to a distal end portion of the AC power output cable 40. The AC power output terminal 41 is connected to an input terminal, not shown, provided in the lighting apparatus main body 80, and supplies AC power to the lighting apparatus main body 80. Further, the AC power output cable 40 may be provided with a plurality of AC power output terminals 41 by branching. The AC power output terminal 41 may be provided on the bottom plate 13 of the case 11. In this case, the front end portion of the AC power output terminal 41 is preferably flush with the bottom surface.

In addition, a DC power supply device 20 and an infrared signal transmission device 22 that receive supply of AC power are housed in the housing 11 of the lighting installation adapter 10. The AC power input to the DC power supply device 20 is converted into DC power and supplied to the infrared signal transmission device 22.

Fig. 6 is a schematic block diagram of a remote control device according to embodiment 1. The signal transmitted from the remote controller 91 is received by the signal receiving unit 21 of the infrared signal transmitting device 22, the signal transmitted from the remote controller 91 is decoded by the signal decoding unit 24, the infrared signal is transmitted from the infrared signal transmitting units 23, 34, and 76 to the infrared signal receiving device 86 including the light receiving unit 85 of the lighting fixture main body 80 and an external device such as a TV (television), an air conditioner (air conditioner), and the like, and the ON/OFF of the home appliances such as the TV, the air conditioner, and the like is controlled by the transmitted control signal in addition to the lighting/lighting-OFF, dimming, color modulation, and the like of the lighting fixture 100. The home appliances to be controlled are TVs, blue-ray video recorders, air conditioners, electric fans, desk lighting fixtures, and the like, but are not limited thereto, and any external device may be used as long as it is an external device having an infrared receiving device and controlled by an infrared signal.

Here, a configuration of a general lighting fixture 100 will be described with reference to (a) and (B) of fig. 5.

The lighting fixture 100 is mounted to the power supply portion 1 using the lighting mounting adapter 10. The top plate 81 of the lighting apparatus main body 80 is a flat plate formed by molding metal, but the top plate 81 is not limited to metal, and synthetic resin may be used. The top plate 81 has an opening 84 at the center and is annular as a whole. As described above, the claw member 16 of the lighting attachment adapter 10 functions to support the periphery of the opening 84 of the top plate 81 from below. Thereby, the lighting fixture body 80 including the top plate 81 is held by the claw member 16 so as not to fall off the lighting fitting adaptor 10. A light source 82 having a light emitting element such as an LED and a mounting board (not shown) thereof, and a control unit 83 are disposed below the top plate 81. The LEDs of daylight color and the LEDs of electric light color are alternately arranged on the mounting substrate. The control unit 83 is provided with an infrared signal receiving device 86 having a light receiving section 85, a drive circuit not shown, and the like. The components constituting the light source 82, the control unit 83, the infrared signal receiving device 86 including the light receiving section 85, the lighting fixture main body 80, the drive circuit, and the like are connected by unillustrated wirings.

On the surface of the top plate 81 on which the light source 82 is disposed, the surface is white-coated so that light from the light source 82 is efficiently reflected toward the lower surface.

The lighting apparatus 100 is remotely operated by a remote controller 91 associated with the infrared signal receiving device 86 provided with the light receiving section 85. The remote controller 91 outputs an infrared signal or the like indicating the content (control content how to control the lighting fixture 100) instructed by an operation performed by a user or the like. The Infrared signal may be a signal indicating an IR (Infrared) code indicating control content, for example. The remote controller 91 outputs an infrared signal indicating the control content of the lighting fixture 100 by outputting an infrared signal indicating an IR code corresponding to the operation content, for example.

The light receiving section 85 provided in the lighting apparatus main body 80 receives an infrared signal from the remote controller 91. The light receiving unit 85 is configured by a light receiving element (for example, an infrared sensor or the like) capable of receiving an infrared signal. The infrared signal receiving device 86 provided with the light receiving unit 85 converts the received infrared signal into an electric signal and supplies the electric signal to a driving circuit, not shown. The drive circuit controls the light source 82 in accordance with an electric signal (for example, control contents indicated by an infrared signal) output from the infrared signal receiving device 86, and performs lighting/unlighting, dimming, color adjustment, and the like. That is, the light receiving unit 85 functions as a detection unit that detects an infrared signal transmitted from the remote controller 91.

The infrared signal receiving device 86 including the light receiving section 85, the control unit 83, and the like realize remote operation of the lighting apparatus 100 by the remote controller 91. For example, when the user operates the remote controller 91 to turn on the lighting fixture 100, an infrared signal indicating the turning on is supplied to the lighting fixture 100, and the control unit 83 receives the infrared signal via the light receiving section 85 and turns on the light source 82 based on the infrared signal. For example, when the user turns off the lighting fixture 100 with respect to the remote controller 91, an infrared signal indicating the turning off is output to the lighting fixture main body 80, and the light source 82 is turned off based on the infrared signal.

Similarly, the remote control 91 remotely operates an external device including an infrared receiver, such as a TV110 or an air conditioner 120, which is a home appliance, by using the infrared signal receiver 86 including the light receiver 85, the control unit 83, and the like.

AC power is supplied from the power supply section 1 to the control unit 83 through the lighting installation adapter 10, and the drive circuit supplies the power to the light source 82. The control unit 83 controls the light source 82 by controlling the power supplied to the light source 82 (specifically, the amount of current flowing to the light source 82) in accordance with the infrared signal. The drive circuit supplies power to the light source 82, thereby lighting the light source 82. Further, the drive circuit stops the supply of power to the light source 82, thereby turning off the light source 82. The drive circuit changes the amount of power supplied to the light source 82 (specifically, the amount of current), thereby performing dimming that changes the luminance of the light source 82. Then, the lighting ratio of the LED of the daylight color and the LED of the electric light color arranged in the light source 82 is changed, thereby adjusting the color of the lighting fixture 100. In addition, the control unit 83 is provided at an appropriate position and in an appropriate shape so as to avoid the generation of shadows by the light from the light source 82. In this way, the control unit 83 functions as a light source control unit that controls the light source 82.

The remote controller 91 may include a receiving device that uses, as signals, Wi-Fi (registered trademark) signals, Bluetooth (registered trademark) signals, mobile communication signals (e.g., signals such as 3 rd generation mobile communication (3G), 5 th generation mobile communication (5G), LTE (Long Term Evolution), LPWA (Low Power Wide Area network) communication), and the like other than infrared signals, and a transmitting device that transmits these signals.

The infrared signal transmission device 22 provided in the lighting fixture adapter 10 and the like may include a signal reception unit 21 and a signal decoding unit 24 that receive and decode signals such as Wi-Fi (registered trademark) signals, Bluetooth (registered trademark) signals, and mobile communication signals (for example, signals of 3 rd generation mobile communication (3G), 5 th generation mobile communication (5G), Long Term Evolution (LTE), Low Power Wide Area network (LPWA) communication, and the like) other than infrared signals.

Further, the infrared signal transmitting device 22 may receive and decode signals transmitted via the remote controller 91 and PLC (Power Line Communication), wired LAN, or Ethernet (IEEE802.3) depending on the in-home wiring connected to the lighting fixture attachment adapter 10, transmit infrared signals from the infrared signal transmitting units 23, 34, and 76, and operate the lighting fixture 100 and the external devices by the infrared signal receiving device 86 including the light receiving unit 85 provided in the lighting fixture main body 80.

That is, the infrared signal transmitter 22 may be configured as follows: the remote controller 91 is not only equipped with a function as an infrared signal transmitter for operating an infrared signal, but also equipped with a function of being able to cope with devices such as a mobile phone, a tablet computer, and a notebook computer, which are remote controllers 91, and PLC devices, by changing the specification of the signal receiver 21.

The lighting cover 90 is a member that diffuses light emitted from the light source 82, and covers the lower surface side (light source side) so as to cover all members constituting the lighting apparatus main body 80, such as the light source 82 and the control unit 83. The lighting cover 90 is detachably attached to the top plate 81 of the lighting apparatus body 80 by a locking member, not shown, provided on the top plate 81. The lighting cover 90 is made of a synthetic resin member that transmits infrared rays, such as milky acrylic resin.

(embodiment mode 2)

Next, a remote control device and the like according to embodiment 2 of the present invention will be described with reference to fig. 2 (a).

In the present embodiment, the infrared signal transmission device 22 provided in the lighting fixture adapter 10 in embodiment 1 is disposed in the independent infrared signal transmission box 33.

The lighting fixture adapter 10 includes an AC power output cable 40 for transmitting AC power supplied from the power supply unit 1, and an AC power output terminal 41 attached to the tip end thereof. The AC power supply output terminal 41 is connected to an input terminal, not shown, provided inside the lighting apparatus main body 80, and supplies AC power to the lighting apparatus main body 80.

The AC power output cable 40 may be branched in two directions at a middle point thereof, and may include a plurality of AC power output terminals 41. The AC power output terminal 41 may be provided on the bottom plate 13 of the housing 11 so as to be aligned with the DC power output terminal 30 provided on the bottom plate 13, instead of being provided at the tip of the AC power output cable 40. The shape of the infrared signal transmission box 33 is a rectangular parallelepiped in the embodiment, but is not limited thereto, and various shapes such as a triangular prism, an octagonal prism, and a hemispherical shape may be adopted in addition to a cylindrical shape having the same shape as the illumination attachment adapter 10.

The infrared signal transmission box 33 is attached to the bottom plate 13 of the housing 11 of the lighting installation adapter 10. As a simple means for attaching the infrared signal transmitting box 33, if the infrared signal transmitting box 33 is an extremely lightweight object, it can be directly attached by being inserted into the DC power supply output terminal 30 or the like, and thus can be maintained in a fixed state. Further, if the infrared signaling box 33 is a lightweight object, it can be attached with a double-sided tape, an adhesive, or the like, and when the housing 11 of the lighting attachment adapter 10 has a metal material such as iron inside, a magnet may be attached to the infrared signaling box 33, and the infrared signaling box 33 may be attached to the bottom plate 13 of the housing 11 by the magnetic force of the metal being attracted by the magnet. By the mounting with the magnet, it is not necessary to prepare a double-sided tape or the like, and the mounting of the infrared signal transmission box 33 becomes easy. Alternatively, screw clamps, special attachments, may be used for installation.

In addition, in the bottom plate 13 of the housing 11 of the lighting fixture adapter 10 shown in fig. 2, as in embodiment 1, although not shown because the drawings are complicated, release levers are provided at two locations (see fig. 1). The infrared signal transmission box 33 is attached to the bottom plate 13 of the housing 11 so as to avoid the release lever.

As in embodiment 1 shown in fig. 1, a DC power supply device (not shown) connected to the power supply unit 1 is accommodated in the housing 11 of the lighting installation adapter 10. The AC power input to the DC power supply device is converted into DC power, and is output to the DC power supply output terminal 30 through a DC power supply output cable, not shown. For example, 100V AC voltage is converted to DC5V, etc. The DC voltage output to the DC power supply output terminal 30 is not limited to DC5V, and can be set to DC15V to output an appropriate voltage according to the characteristics of the connected device. The DC power supply output terminal 30 is usually provided on the bottom plate 13 of the housing 11 so that the tip thereof does not protrude from the bottom plate 13 and is substantially flush with the bottom plate 13. The DC power supply output terminal 30 may be configured to extend from the bottom plate 13 of the housing 11.

The infrared signal transmission box 33, which is a member separate from the lighting installation adapter 10, is provided with an infrared signal transmission unit 34 on the bottom surface and a DC power input cable 32 on the top surface, and the DC power input terminal 31 is attached to the DC power input cable 32 at the tip end connected to the DC power output terminal 30 provided on the bottom surface 13 of the lighting installation adapter 10. The infrared signal transmission box 33 incorporates therein the infrared signal transmission device 22 similar to that of embodiment 1. The DC power output from the DC power output terminal 30 is supplied to the infrared signal transmission device 22 provided in the infrared signal transmission box 33 through the DC power input cable 32.

The DC power supply output terminal 30 is a USB (Universal Serial Bus) terminal or the like. Further, the DC power supply output terminal 30 can be provided at a plurality of places as two places by branching the DC power supply output cable as necessary. Further, in the case where the DC power supply output terminal 30 on the side of the lighting installation adapter 10 is a USB terminal, the DC power supply input terminal 31 on the side of the infrared ray signal transmission box 33 also uses a USB terminal connected by a USB cable.

In the present embodiment, the description has been given mainly on the example using the USB terminal, but the DC power input terminal 31 does not necessarily need to use the USB terminal, and a necessary corresponding terminal may be provided according to the connected device, such as a DC power outlet.

Although the DC power input cable 32 and the DC power input terminal 31 are provided on the infrared signal transmission box 33, the DC power output cable may be provided on the lighting fixture adapter 10 side and the DC power input terminal may be provided on the infrared signal transmission box 33 side.

Fig. 2 (B) is a schematic perspective view showing a modification of the remote control device for lighting apparatus according to embodiment 2. The infrared signal transmission box 33 having a substantially rectangular parallelepiped shape is integrally attached to the bottom portion 13 of the housing 11 of the lighting installation adapter 10. The bottom portion 13 of the present modification is formed by molding to form a convex portion corresponding to the infrared signal transmission box 33, and the infrared signal transmission device 22 is incorporated in the convex portion.

(embodiment mode 3)

Next, a remote control device and the like according to embodiment 3 of the present invention will be described with reference to fig. 3.

This embodiment is an example in which the DC power supply device 20 and the infrared signal transmission device 22 provided in the lighting fixture adapter 10 in embodiment 1 are disposed in the independent infrared signal transmission box 70. In the present embodiment, a DC power supply device, an infrared signal transmission device, and the like, which are not shown, similar to those in embodiment 1 are disposed in the infrared signal transmission box 70. The infrared signal transmitting unit 76 is incorporated in the infrared signal transmitting box 70, and the AC power input terminal 42 and the AC power output cable 40 are arranged on the bottom surface of the infrared signal transmitting box 70, and the AC power output cable 40 has the AC power output terminal 44 attached to the tip thereof extending from the small hole 75. Then, at the separate lighting installation adaptor 10, the AC power output cable 40 is provided, and the AC power output cable 40 is extended from the same small hole as the small hole 75 provided at the bottom plate 13 of the infrared ray signal transmission box 70. An AC power output terminal 41 is attached to the tip of the AC power output cable 40, and AC power supplied from the power supply unit 1 is transmitted. The AC power supply output terminal 41 is connected to an AC power supply input terminal 42 provided in the infrared ray signal transmission box 70, and supplies AC power to the infrared ray signal transmission box 70.

The AC power output cable 40 is wired in a cutout (groove) 71 provided in a recessed manner in the infrared signal transmission box 70, and is connected to an AC power input terminal 42 provided on the bottom surface of the infrared signal transmission box 70. The cutout (groove portion) 71 is used to house the AC power output cable 40 when the infrared signal transmission box 70 is attached to the lighting fixture adapter 10, so as not to cause interference.

The shape of the infrared signal transmission box 70 is substantially cylindrical in the present embodiment, as in the case of the lighting attachment adapter 10, but is not limited thereto, and various shapes such as a rectangular parallelepiped, a triangular prism, and an octagonal prism can be adopted.

The infrared signal transmission box 70 is attached to the bottom plate 13 of the housing 11 of the lighting installation adapter 10. As a simple means for attaching the infrared signal transmission box 70, when the infrared signal transmission box 70 is a light-weight object, it is attached with a double-sided tape, an adhesive, or the like. In the case where the lighting fixture adapter 10 has a metal material such as iron inside, a magnet may be attached to the infrared signal transmission box 70, and the infrared signal transmission box 70 may be attached to the bottom plate 13 of the housing 11 by a magnetic force of the metal attracted by the magnet. By mounting using a magnet, it is not necessary to prepare a double-sided tape or the like, and mounting of the infrared signal transmission box 70 becomes easy. Alternatively, screw clamps, special attachments may be used for installation.

In addition, in the bottom plate 13 of the housing 11 of the lighting fixture adapter 10 shown in fig. 3, as in embodiment 2, although illustration is omitted because the drawing becomes complicated, release levers (holding members) are provided at two locations as in embodiment 1 (see fig. 1). A recess (not shown) for accommodating a release lever (holding member) is provided at two locations through the upper surface of the infrared signaling box 70, and the bottom plate 13 of the lighting fixture attachment adapter 10 and the upper surface of the housing 11 are disposed on the same horizontal plane by accommodating the release lever (holding member) in the recess.

The infrared signal transmission box 70 houses the DC power supply device 20 and the infrared signal transmission device 22, which are not shown, connected to the AC power supply input terminal 42, as in embodiment 1. The AC power input to the DC power supply device 20 through the AC power input terminal 42 is converted into DC power and output to the infrared ray signal transmission device 22. An AC power input terminal 22, an AC power output cable 43 having an AC power output terminal 44 attached to the tip thereof, and an infrared signal transmitting unit 76 are disposed on the bottom surface of the infrared signal transmitting box 70. The infrared signal transmitter 76 is provided on the bottom surface of the infrared signal transmitting box 70, but the installation position is not limited thereto, and may be provided inside the infrared signal transmitting box 70.

The AC power supplied from the AC power output cable 43 is output from the AC power output terminal 44 and supplied to the lighting apparatus main body 80.

(embodiment mode 4)

Next, a remote control device and the like according to embodiment 4 of the present invention will be described with reference to fig. 4. The remote control device shown in fig. 4 employs the lighting fixture adapter 10 shown in embodiment 3 (see fig. 3) and the infrared signal transmission box 33 shown in embodiment 2 (see fig. 2), and a power adapter 65 is newly added between the lighting fixture adapter 10 and the infrared signal transmission box 33.

In the present embodiment, the lighting installation adapter 10 and the power adapter 65 are both cylindrical shapes having substantially the same size. As the infrared signal transmission box 33, the same infrared signal transmission box as that described in embodiment 2 is used.

The power adapter 65 accommodates a DC power supply device, not shown, similar to that of embodiment 1. The AC power supplied from the lighting installation adapter 10 is converted into DC power by the DC power supply device, and is output from the DC power supply output terminal 67 provided on the bottom surface of the power supply adapter 65. The DC power output terminal 67 is generally provided on the bottom surface of the power adapter 65 so that the tip thereof does not protrude from the bottom surface and is substantially flush with the bottom surface.

Further, an AC power input terminal 68 for inputting AC power output from the lighting fixture adapter 10 is disposed on the bottom surface of the power adapter 65. The AC power input terminal 68 is generally provided on the bottom surface of the power adapter 65 so that the tip thereof does not protrude from the bottom surface and is substantially flush with the bottom surface, similarly to the DC power output terminal 67.

A cutout portion (groove portion) 69 into which the AC power output cable 40 extending from the lighting fitting adapter 10 can enter is provided on a side surface of the power adapter 65.

Further, an AC power output cable 63 for transmitting AC power supplied from the power supply unit 1 and an AC power output terminal 64 at the tip thereof are provided on the bottom surface of the power adapter 65. The AC power supply output terminal 64 is connected to an input terminal, not shown, provided in the lighting apparatus main body 80, and supplies AC power to the lighting apparatus main body 80 and the like.

The AC power output cable 63 may be provided with a plurality of AC power output terminals 64 by branching. The AC power output terminal 64 may be provided on the bottom surface of the power adapter 65 so as to be aligned with the DC power output terminal 67. The shape of the power adapter 65 is substantially cylindrical in the present embodiment, as in the case of the lighting attachment adapter 10, but is not limited thereto, and various shapes such as a rectangular parallelepiped, a triangular prism, and an octagonal prism can be adopted.

The power adapter 65 accommodating the DC power supply device is mounted to the bottom plate 13 of the housing 11 of the lighting installation adapter 10. As a simple means for attaching the power adapter 65, when the power adapter 65 is a light-weight object, it can be attached with a double-sided tape, an adhesive, or the like. When the lighting fixture adapter 10 has a metal material such as iron inside, a magnet may be attached to the power adapter 65, and the magnet may attract the magnetic force of the metal to attach the power adapter 65 to the bottom plate 13 of the housing 11. By the mounting with the magnet, it is not necessary to prepare a double-sided tape or the like, and the mounting of the power adapter 65 becomes easy.

The bottom plate 13 of the housing 11 of the lighting installation adapter 10 may be fastened to the power adapter 65 by a screw clamp. Further, mounting accessories may also be used to secure the housing 11 with the power adapter 65. In addition to the lighting fixture body 80, it is also possible to attach devices such as a speaker, an electric fan, an emergency alarm, and a monitoring camera to the lighting attachment adapter 10, and to operate the devices by the power output from the AC power supply output terminal 64 or the DC power supply output terminal 67.

Further, in the bottom plate 13 of the housing 11 of the lighting fixture adapter 10 shown in fig. 4, as in embodiments 2 and 3, although not shown because the drawings are complicated, release levers (holding members) are provided at two locations as in embodiment 1 (see fig. 1). A recess (not shown) for accommodating the release lever (holding member) is provided at two locations through the upper surface of the power adapter 65, and the bottom plate 13 of the lighting fixture adapter 10 and the upper surface of the power adapter 65 can be disposed on the same horizontal plane by accommodating the release lever (holding member) in the recess.

The infrared signal transmission box 33 is the same as the infrared signal transmission box 33 of embodiment 2 described above. The infrared signal transmission box 33 has the infrared signal transmission device 22 housed therein. The DC power output from the DC power output terminal 67 is output to the infrared signal transmission device 22 inside the infrared signal transmission box 33 through the DC power input cable 32.

The infrared signal transmission box 33 is attached to the bottom surface of the power adapter 65. As a simple means for attaching the infrared signal transmitting box 33, the infrared signal transmitting box 33 can be directly attached to the DC power output terminal 67 if it is an extremely lightweight object, or can be attached by a double-sided tape, an adhesive agent or the like if the infrared signal transmitting box 33 is a lightweight object, or can be attached to the bottom surface of the power adapter 65 by attaching a magnet to the infrared signal transmitting box 33 and attracting the magnetic force of the metal by the magnet when the power adapter 65 has a metal material such as iron inside. By the mounting with the magnet, it is not necessary to prepare a double-sided tape or the like, and the mounting of the infrared signal transmission box 33 becomes easy. Alternatively, screw clamps, special attachments, may be used for installation.

Further, in order to attach the infrared signal transmission box 33 to the bottom surface of the power adapter 65, it is attached so as to avoid the DC power output terminal 67 and the AC power input terminal 68.

The DC power supply output terminal 67 is a USB terminal or the like. The output voltage is, for example, DC5V or the like. When the DC power output terminal 67 on the power adapter 65 side is a USB terminal, a USB terminal connected by a USB cable is also used on the DC power input terminal 31 side on the infrared signal transmission box 33 side.

In the present embodiment, an example is shown in which a lighting fixture dedicated lighting fixture adapter is mounted to a power supply unit such as a suspended ceiling provided in the ceiling 18 (mounting unit) and a lighting fixture body is mounted to the lighting fixture adapter, but a remote control device for a lighting fixture capable of controlling an external device and a lighting fixture using the same can be realized by using an E26 connector as the power supply unit 1 connected to the power supply unit provided in the ceiling 18 (mounting unit), using a GX53 connector as the lighting fixture adapter 10, and disposing the infrared signal transmission device 22 near the lighting fixture adapter 10, thereby controlling the lighting fixture and transmitting an infrared signal to the external device such as a home appliance.

In the present embodiment, the description has been given mainly on the example using the USB terminal, but the DC power input terminal 31 does not necessarily need to use the USB terminal, and a DC power outlet or the like may be provided.

In the present embodiment, an example in which the DC power output terminal 67 is disposed in the lighting fixture adapter 10 or the power adapter 65 is shown, but alternatively, a terminal to which DC power is input may be disposed in the infrared signal transmission box 33.

The present invention is not limited to the above embodiments, and various modifications and applications can be made to the above embodiments.

In the above-described embodiment, the configuration example of the remote control device of the lighting apparatus 100 mounted on the lighting installation adapter 10 provided on the ceiling (mounting portion) 18 has been described, but the position where the lighting installation adapter 10 is disposed is not limited to the ceiling (mounting portion) 18. For example, even when the lighting fixture 100 is mounted to a remote control device including the lighting mounting adapter 10 provided on the upper portion of the wall surface, the same effects as those of the above-described embodiments can be expected.

According to the present invention, by providing an infrared signal transmitting device near the lighting fixture adapter, transmitting the contents obtained by receiving the transmission signal transmitted from the remote controller with an infrared signal, and receiving the transmitted infrared signal by an infrared signal receiving device provided in the lighting fixture, it is possible to reliably control lighting/lighting-off, dimming, color mixing, and the like of the lighting fixture by a method other than the infrared signal with a simple device, and to transmit the infrared signal to an external device such as a home appliance, thereby realizing a remote control device capable of controlling the external device and a lighting fixture using the same.

Claims (11)

1. A remote control device having a housing, characterized in that,

the housing includes:

a hook fitting which is detachably attached to a power supply unit provided in the attachment unit;

an AC power output cable connected to the hooking fitting and extending from a bottom plate of the housing;

a DC power supply device connected to the AC power output cable, and converting AC power supplied from the power supply unit into DC power;

an infrared signal transmitting device connected to the DC power supply device, receiving a signal output from a remote controller, and transmitting an infrared signal to an external device and a lighting apparatus main body; and

a holding member that detachably holds the lighting apparatus main body,

the external device and the lighting fixture main body are controlled by the remote controller.

2. A remote control device having a lighting installation adapter and an infrared signal transmission box,

the lighting installation adapter has:

a hook fitting which is detachably attached to a power supply unit provided in the attachment unit;

an AC power output cable connected to the hook fitting and extending from a base plate of the lighting installation adapter;

a DC power supply device connected to the AC power output cable, and converting AC power supplied from the power supply unit into DC power;

a DC power output cable electrically connected to the DC power supply device;

a DC power output terminal mounted to the base plate of the lighting installation adapter and electrically connected to the DC power output cable; and

a holding member for detachably holding the lighting apparatus main body,

the infrared signal transmission box is provided with:

a DC power input terminal connected to the DC power output terminal and inputting DC power; and

an infrared signal transmitting device connected to the DC power input terminal, receiving a signal output from a remote controller, and transmitting an infrared signal to an external device and the lighting fixture main body,

the external device and the lighting fixture main body are controlled by the remote controller.

3. A remote control device having a lighting installation adapter and an infrared signal transmission box,

the lighting installation adapter has:

a hook fitting which is detachably attached to a power supply unit provided in the attachment unit;

an AC power output cable connected to the hook fitting and extending from a base plate of the lighting installation adapter;

an AC power output terminal mounted on a front end of the AC power output cable; and

a holding member for detachably holding the lighting apparatus main body,

the infrared signal transmission box comprises:

an AC power input terminal provided on the bottom surface and connected to the AC power output terminal;

a DC power supply device that converts AC power supplied from the AC power supply input terminal into DC power;

an infrared signal transmitting device connected to the DC power supply device, receiving a signal output from a remote controller, and transmitting an infrared signal to an external device and the lighting fixture main body; and

an AC power output cable having an AC power output terminal at a tip end thereof extending from the small hole in the bottom surface,

the external device and the lighting fixture main body are controlled by the remote controller.

4. A remote control device having a lighting installation adapter, a power adapter and an infrared signal transmission box,

the lighting installation adapter has:

a hook fitting which is detachably attached to a power supply unit provided in the attachment unit;

an AC power output cable connected to the hook fitting and extending from a base plate of the lighting installation adapter;

an AC power output terminal mounted on a front end of the AC power output cable; and

a holding member for detachably holding the lighting apparatus main body,

the power adapter has:

an AC power input terminal provided on the bottom surface and connected to the AC power output terminal;

a DC power supply device that converts AC power supplied from the AC power supply input terminal into DC power;

a DC power output cable electrically connected to the DC power supply device;

a DC power output terminal mounted on the bottom surface and electrically connected to the DC power output cable; and

an AC power output cable extending from the aperture in the bottom surface,

the infrared signal transmission box is provided with:

a DC power input terminal connected to the DC power output terminal and inputting DC power; and

an infrared signal transmitting device connected to the DC power input terminal, receiving a signal output from a remote controller, and transmitting an infrared signal to an external device and the lighting fixture main body,

the external device and the lighting fixture main body are controlled by the remote controller.

5. The remote control apparatus according to any one of claims 1 to 4,

the infrared signal transmission device is provided with:

a signal receiving unit connected to the DC power supply device, receiving a signal output from the remote controller, and transmitting the signal to a signal decoding unit;

the signal decoding unit decodes the signal transmitted from the signal receiving unit and transmits the decoded signal to the infrared signal transmitting unit; and

the infrared signal transmitting unit receives the signal transmitted from the signal decoding unit and transmits an infrared signal to the external device and the lighting fixture main body.

6. The remote control apparatus according to any one of claims 1 to 5,

the DC power output terminal is a USB terminal.

7. The remote control apparatus according to any one of claims 1 to 6,

the infrared signal transmission device is disposed inside the illumination attachment adapter or the infrared signal transmission box.

8. The remote control apparatus according to any one of claims 1 to 7,

the infrared signal transmitting device receives and decodes an infrared signal, a Wi-Fi (registered trademark) signal, a Bluetooth (registered trademark) signal, a mobile communication signal, or an LPWA communication signal, transmits an infrared signal from the infrared signal transmitting unit, and operates the external device and the lighting fixture main body by the infrared signal receiving device provided in the lighting fixture main body, the infrared signal receiving device including the light receiving unit.

9. The remote control apparatus according to any one of claims 1 to 7,

the infrared signal transmitting device receives and decodes a signal transmitted via a PLC, a wired LAN, or Ethernet (IEEE802.3), transmits an infrared signal from the infrared signal transmitting unit, and operates the external device and the lighting fixture body by the infrared signal receiving device provided in the lighting fixture body, the infrared signal receiving device including the light receiving unit.

10. The remote control apparatus according to any one of claims 1 to 9,

the external device is a home appliance.

11. A lighting device, comprising:

the remote control device of any one of claims 1 to 10;

the lighting fixture body;

a lighting cover covering a lower surface side of the lighting apparatus main body; and

the remote controller operates the lighting apparatus main body.

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