JPH06132901A - Remote control device - Google Patents

Abstract

(57) [Abstract] [Purpose] Multiple transmitters can be controlled by a single transmitter in a wide space, and the devices can be operated without directing the transmitter in the direction of each transmitter. Provide a remote control device that can. A transmission plate L such as a concave lens for diffusing a signal is provided in the vicinity of a transmission direction of a signal source S that emits a signal for remotely controlling an instrument existing at a remote place. Transmission plate L
Is preferably removable. [Effect] The signal is spread over a wide angle range, and it becomes possible to control the operation of a plurality of appliances existing at distant places with one remote control device. In addition, the device can be operated without accurately pointing the remote control device in the direction of the device.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a remote control device, which is used, for example, to control the blinking of a light source of a lighting fixture.

[0002]

2. Description of the Related Art Conventionally, a remote control device has been widely used for remotely controlling a lighting fixture mounted on a ceiling or a wall by using a wireless medium such as infrared rays. A conventional remote control device has an operation button for turning on / off a corresponding lighting fixture, and when this operation button is pressed, a lighting control signal corresponding to each operation button is illuminated by a wireless medium such as infrared rays. The wireless medium is received by the signal receiving unit provided in the lighting apparatus, and the signal receiving unit demodulates the lighting control signal sent by the wireless medium to the control unit. input. The control unit turns on or off the light source based on the input illumination control signal. In addition, there is a lighting device with an additional function of notifying the reception of the lighting control signal from the remote control device by the receiving unit in the lighting device. A conventional remote control device uses one infrared light emitting diode to generate a signal, or refracts a signal emitted from the infrared light emitting diode with a reflector provided in a light emitting portion to form one device. The structure is designed to ensure reliable operation.

[0003]

The conventional remote control device can operate only one instrument for one transmitter, and one transmitter controls a plurality of instruments in a wide space. It was impossible to do. Also,
If one transmitter is intended to operate a plurality of instruments, there is a problem in that the transmitters must be oriented in the directions in which the respective instruments are installed.

The present invention has been made in view of the above points, and it is an object of the present invention to control a plurality of appliances in a wide space by a single transmitter.
Another object of the present invention is to provide a remote control device that can operate the appliances without directing the transmitter to the respective appliances.

[0005]

In the remote control device of the present invention, in order to solve the above-mentioned problems,
As shown in FIG. 1, a transmission plate L for diffusing a signal is provided in the vicinity of a transmission direction of a signal source S that emits a signal for remotely controlling an appliance existing at a remote place. . The transparent plate L is preferably removable.

[0006]

According to the present invention, by providing the transmission plate L such as a concave lens capable of diffusing the signal in the vicinity of the transmission direction of the signal source S for emitting the signal of the remote control device, the range where the signal reaches can be widened. One remote control device can operate a plurality of instruments. Further, by making the transmission plate L removable, it is possible to cope with both wide-angle and narrow-angle cases.

[0007]

FIG. 2 shows a remote control device of the present invention.
An example is shown. Remote control device body
1 has one infrared light emitting diode, its red
Recess that can diffuse the signal transmitted from the external light emitting diode
It has a detachable transmitter 2 with a lens. Send
The structure of the part 2 is enlarged and shown in FIG. As signal source S
The signal from the infrared light emitting diode is refracted by the concave lens
Is spread in. Refraction is a rule sin (θ
₁ ) / Sin (θ₂ ) = N₂ / N₁ It is represented by. here
And n₁ Is the refractive index of the medium, n₂ Is the refractive index of the medium, θ
₁ Is the angle of incidence, θ ₂ Is the angle of refraction. Based on this law
Infrared rays are emitted from a place d = 3 cm away from the flat part of the lens.
When the photo diode is made to emit light,
The way of sharpening is shown in FIG.

In FIG. 4, the direction perpendicularly incident on the lens from the transmission source (point A) is 0 °, and 0 ° to 15 °, 30 °
The figure shows the state of infrared rays that are incident on the lens by changing the angle at which the infrared ray is emitted from the transmission source such as the directions of ° and 45 ° and refracted and transmitted by the lens. 15 ° from point A
When infrared rays are emitted at an angle of
Since the refractive index in air is 1 and the refractive index in the lens is 1.6, the angle of refraction α ₁ from the air to the lens is calculated as sin 25 ° / sin α ₁ = 1.6 / 1. si
n α ₁ = 0.264 and α ₁ = 15 °. Next, the refraction angle α ₂ from the lens to the air is obtained. Since the incident angle in this case is 20 °, sin 20 ° / sin
From α ₂ = 1 / 1.6, sin α ₂ = 0.547,
α ₂ = 33 °. From the above, 15 ° from point A
Infrared rays emitted at an angle of are transmitted through the lens and diffused at an angle of 33 °. The diffusion direction of infrared rays emitted at 30 ° and 45 ° can be calculated in the same manner. The infrared ray emitted at 30 ° from point A is 60 °, and the infrared ray emitted at 45 ° from point A is 58 °. To be done. The angle of the diffusion direction is with respect to 0 °. It should be noted that the number of infrared light emitting diodes is one here, but a plurality of infrared light emitting diodes can be used.

In this way, a signal having a directivity in a wider range than that of the infrared light emitting diode can be obtained from the remote control device. In addition, the transmitting unit is replaceable, and when a non-diffusing type transmitting unit including a black transparent cover 3 as shown in FIG.
A signal having a narrower directivity than that when the transmitting unit 2 with a concave lens as shown in FIG. 1 is attached is output.

From the above, in the case of the remote control device using the diffusive concave lens, as compared with the case of only the infrared light emitting diode, as shown in FIG. 4, the emitted signal has an angular spread. As shown in FIG. 6, it becomes possible to control a plurality of instruments 4 and 5 present at positions angularly separated from the remote control device body 1 by one remote control device. FIG. 7 shows how infrared rays from the main body 1 are diffused by the concave lens-equipped transmitter 2 and are simultaneously received by the receivers 6 and 7 of the respective appliances. Also, when the black transparent cover 3 as shown in FIG. 5 is attached to the main body 1, the directivity of the signal is narrowed, and it is suitable for operating one instrument like the conventional remote control device. Like

Next, an embodiment in which the remote control device of the present invention is used to control a lighting fixture will be described. FIG. 8 shows the configuration of this embodiment. A light source 12 such as an incandescent lamp or a fluorescent lamp is provided in a lighting fixture 11 attached to a ceiling, a wall or the like, and a lighting circuit 13 for driving the light source 12 to light. A signal receiving unit 14 for receiving a control signal transmitted by a wireless medium, a microcomputer for controlling the lighting circuit 13 or operating an additional function 16 based on the control signal input from the signal receiving unit 14 It has a control unit 15 consisting of. The remote control device 17 includes a lighting operation unit 18 for operating turning on / off of the light source 12, and an additional function selecting unit 19 for selecting an operation of an additional function.
And a signal transmission unit 20 that converts signals from the lighting operation unit 18 and the additional function selection unit 19 into a wireless medium and transmits the wireless medium. In this embodiment, as an additional function, a lighting device that emits a buzzer sound when a control signal from the remote control device 17 is received by the signal receiving unit 14 of the lighting device 11 will be described.

Light source 1 by remote control device 17
In the case of controlling the lighting / extinguishing of No. 2 and the like, the lighting operation unit 18 is operated to transmit the control signal from the signal transmission unit 20, and the signal reception unit 14 of the lighting fixture 11 receives and demodulates the control signal to control. Input to the section 15. The control unit 15 judges the control signal and gives the lighting circuit 13 a lighting / extinguishing signal for turning on / off the light source 12. The lighting circuit 13 controls the light source 12 on the basis of the lighting / extinguishing signal so as to be in a lighting state according to the operation of the lighting operation unit 18 of the remote control device 17. Further, when the control signal from the remote control device 17 is received by the signal receiving unit 14 of the lighting fixture 11 and the buzzer sound of the additional function 16 sounds when the signal is input to the control unit 15, the control from the remote control device 17 is performed. The control unit 15 is informed that the signal has been input.

By the way, in contrast to the basic function of turning on / off the light source 12 and dimming the light source 12, the additional function 16 such as a buzzer sound sometimes feels harsh or harsh, and from the viewpoint of energy saving. Some users found it unnecessary. Therefore, in order to be able to select when such an additional function is necessary and when it is not necessary, there is a lighting device provided with a selection switch from the past, but in a lighting device provided with such a selection switch, When selecting an additional function, it is necessary to reach to the lighting equipment and operate it, and it is not possible to operate it from a distant position. In view of such a point, in the present embodiment, when the additional function 16 is required on the remote control device 17 side (that is,
It is provided with an additional function selection section 19 which can be arbitrarily selected between the case where the buzzer sound is set to sound) and the case where the additional function 16 is unnecessary (that is, the case where the buzzer sound is set not to sound). By operating the additional function selection unit 19, the operation of the additional function 16 is remotely controlled.
N / OFF control. For example, in the case where the buzzer sound is set to sound now, if it is desired to set the buzzer sound not to sound, the remote control device 1
7 operates the additional function selection unit 19 to transmit a control signal from the signal transmission unit 20, and the signal reception unit 14 of the lighting fixture 11 receives and demodulates the control signal and inputs the control signal to the control unit 15.
The control unit 15 judges the control signal and turns off the additional function 16.
Set to F, that is, no buzzer sound. On the contrary, when the buzzer sound is set not to sound,
You can do the same when you want to set the buzzer to sound. With such a configuration, not only the basic function of turning on / off the lighting fixture 11 but also ON / OFF setting of the additional function 16 such as a buzzer sound can be operated by the remote control device 17. it can.

[0014]

According to the remote control device of the present invention, a transmission plate for diffusing a signal is provided in the vicinity of the transmission direction of a signal source that emits a signal for remotely controlling an instrument existing at a remote place. , The signal is spread over a wide range of angles, and the operation of multiple instruments located at different distances
It is possible to control with one remote control device. In addition, the device can be operated without accurately pointing the remote control device in the direction of the device. As a result, for example, a single remote control device can produce various lights with a plurality of lighting fixtures. If the transmission plate having the diffusion function is removable, it is possible to transmit a signal in a narrow angle range, and it is possible to operate only one device.

[Brief description of drawings]

FIG. 1 is a front view showing the basic configuration of the present invention.

FIG. 2 is a perspective view showing an embodiment of the present invention.

FIG. 3 is an explanatory diagram showing the principle of refraction used in the present invention.

FIG. 4 is an explanatory view showing the operation of the transmission plate used in the present invention.

FIG. 5 is a perspective view showing another embodiment of the present invention.

FIG. 6 is an explanatory diagram showing a usage state of the present invention.

FIG. 7 is an explanatory diagram showing a signal transmission state in the present invention.

FIG. 8 is a block diagram showing another embodiment of the present invention.

[Explanation of symbols]

 S signal source L transmission plate

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁵ Identification code Office reference number FI technical display location H05B 37/02 D 8715-3K

Claims (2)

[Claims] 1. A remote control device comprising a transmission plate for diffusing a signal in the vicinity of a transmission direction of a signal source for emitting a signal for remotely controlling an instrument existing at a remote place. 2. The remote control device according to claim 1, wherein the transparent plate is removable.