JPS6056398A - Remote control illuminator - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field] The present invention relates to a remote control lighting device that can remotely control switching on and off.

[Background technology]

FIG. 1 shows a schematic diagram of a conventional remote control lighting device. In Fig. 1, 1 is the transmitter, 2 is the main body of the lighting equipment, 3 and 4 are the discharge lamp ballast, 5 and 6 are the annular fluorescent lamps, 7 is the night light, 8 is the shade, and 9 is the reception control unit. be.

This remote control lighting device 1, transmitter 1 transmit button l
Each time a is pressed, the reception control unit 9 repeatedly switches between 2 lights on - 1 light on → night light on → lights off.

As shown in FIG. 2, the transmitter 1 is
In addition, this transmitter 1 is equipped with a Vc circuit section and a C/signal button 1a on the top surface 1 of the case 1b. In response to the on/off transmission switch 5°, this transmission switch 8° turns mIQ 7 transmission <%fi'? & (M 50110 X P;
=F 'ii3' P1 stock n'-1) 10 and 1-- which turns on and off according to the lj3 force of this transmitting integrated circuit 1o.
Funjista old 7□ and this Tou7njista TF? Infrared emitting Y for transmitting that flashes in response to on/off of the power: diode LED, battery BT, capacitor 4JC, amplification amount F in the transmission multiplier circuit 1o, and resistor 1
01): 30 to 501 (frequency T' of llz
Crystal oscillation that forms the optical oscillation quenching circuit O5C 41-v:+
++ child X fluctuation capacitor c2. The transmission output circuit 10 consists of a key human control circuit 10C, a timing generation circuit]0(I, a shift register 10e, a pulse train generation circuit!, and an ILF circuit). The adjustment circuit IQg and the above-mentioned oscillation circuit addition l'7.
H1a and t (from anti-10b and I7I? make 1
, teru-naka, Iri 1, and R2 are in opposition.

This transmission switch 11 has a transmission switch 1. Chi S. When fully turned on, pulse train generation circuit 1. Ofjri 41st AI LA
A pulse train with a waveform as shown in I is generated, and it is 1, and from the entire thread circuit (') SC, a pulse train of 30 to 5 as shown in Figure 4 tel is generated.
An oscillation signal of 0 K R17 is output, and a drive signal of the same wave as shown in FIG. 4 FBI is output from each 1f1g with the same modulation. This drive signal turns the transistor on and off, and the infrared light emitting diode LED blinks accordingly. The light from this infrared light emitting diode (LEr) is irradiated in the direction of the arrow P from the end face of the case 1b in Figure 2. , a face-to-face power supply 11VC and a reception control section 12 are connected to the same, and a night light 13 and a switch 1. ChiS series circuit and ring-shaped fluorescent pump 14. A series circuit of a discharge lamp ballast 15 and a switch S2 is connected to a ring-shaped fluorescent tube 2 16° discharge lamp ballast 17 and a 1-lamp line circuit of Sui-Sochi S:5. The reception control unit 12 receives the optical signal sent from the transmitter I.
Figure 4 shows a receiving circuit 12a that reproduces the ↓ pulse train of AI, and a signal discriminating circuit 12b that determines that the output signal of the receiving path 12a is the above-mentioned pulse train.
and switch S according to the output of this signal discrimination circuit 12b.
It is connected to the 2I switch control circuit 12c that switches the opening and closing of the 82-53, and the power supply circuit 12 for each circuit (!). 18 and 19 are starters.

NF': Explain about the work. When the transmitter l generates an optical signal, each of the receiving control variables V detects it and switches the states of switch, S, S2, and S3. .53 are all off, when the 11th!] ;η signal is received, the switch I
fsl.

S2. Turn S3 off, on, on, 1, annular '
When the second transmission signal is received and the signal is turned on (2 lights, 3 lights), Sui,
Sochi S1. S2-83'k "f: off, off, respectively
Turn on the fluorescent ring 116, turn on the ring-shaped fluorescent lamp 116, and receive all the transmitted signals for the third time.Switches s1, s2, and q3 turn on, off, and off, respectively, and turn on the night light 13 is turned on (the night light is turned on). When the fourth consecutive signal is received, the switch S, 8. state) VC returns, and from then on, the above operation is repeated every time all transmission signals are received.

The receiving circuit 12a includes an infrared light emitting diode -+-L of the transmitter 1.
The optical signal from EI) is received by the photodiode PI),
The AC component of the voltage at the connection point between photodiode PD and resistor R3 is input to amplifier AP1. It is amplified by AP2, AP3 and transformer TR2, and the cap and lid outputs of transformer TR2 are added to the primary fIIll of transformer TF.
The secondary output of Tomens TF is connected to diode D1. Resistor R4
Then, the signal is rectified and smoothed by the coin IJ-C4, and the waveform is shaped by the 11-circuit SM to obtain the pulse rate rI of IAI in FIG. 4). 0. The signal discriminating circuit 12t), in which capacitors R5 to RIO are represented, and resistors R5 to RIO, generates an output at @ when the pulse train tAI in FIG. 4 is reproduced by the receiving circuit 1.2aVC.

Suinochi II control ["l u 12c is two D-flips, three-dimensional amplifier DFF1. DFF2 and two AND gates ANDl.

Aj\IIJ2 and resistance R, k, R□2. R-work 3 and Towa]
Jister TR3゜T'tS4. TR5 and relay RY engineering,
RY2. RY3 and ゛Iode D2 D3. I)
It consists of 4.

I will now explain vJ's work. Now, as the initial state ■, Dfri... Jpflo7p DFF, DFF2σ, I output page.

02 are respectively set. In this case, Sui Sochi S□, S2. S3+': j off, off. Turn it off.
] There is a lights-out notice.

In this situation, the C14a discrimination circuit 22b and the first episode ``When the 10 discrimination signals are input, the IJ -7'j-J F'' RO, 2'' DFF, DFF2 output direction 1. Direction 2
are respectively notl(, H and l, switch s, s2.
S3 is off and on respectively.

When the 1st, 2nd, and 4th discrimination signals that turn on and turn on two lamps are input, the D-free)7”
70 = + 7" 1) FF1. DFF2 (7) Output Q1, O,, i)" JC each.

H, and switches 81, 82, and 83 turn off, off, and on (f-j-), resulting in one light being lit.

The 23rd discrimination signal is input 1,,1) F! I・
q Defro, Pu DFF1. That's the output of DFF2.
It becomes II, L, and Suiso pS□, S2. S3 turns on, shuts off, and turns off to become a night light (long light).

When the 4th old 1 separate fn power l] power is applied, the output of ■) flip flow knob I) FF engineering, I) FF2 becomes L, and the first fold ■VC returns to Z.

Such a remote control lighting device is one;
Just operate 1a - Fortunately, 11'llI work is very simple. However, the hope (Tōjo Oborokan/Shun ``e''
8 Therefore, a remote control 1)6 lighting device has been proposed that can instantly obtain the desired lighting state transition.

FIG. 7 is a perspective view showing the groove of the transmitter 20 of this remote control lighting device. In figure Wj7, 21) a is the case, 20bl-! : 2 lights, (light button, 20c is a 1-light on button, 20d is a night light on button, 20e is a lights off button, 20f is a light signal transmitter, and infrared rays are emitted in the direction of -arrow P'.

FIG. 8 shows a schematic diagram of the transmitter 20. In Fig. 8, 54 indicates 2 lights, V, 2 lights turn on in response to sweeping of the light button 20b [l switch, 8°, means 1 light τf]
1 lamp light switch is turned on according to the operation VC of the button 20c, 56 is the night light switch Jchi, which is turned on according to the operation f'\i of the night light button 2nd, and s7 is the operation of the light off button 20M. 7'
f- and a thousand rt! x is the same as in FIG.

Insert this transmitter 2o, press the 2-light lighting button 20b, and press 2
When the lighting switch s4 is turned on, the pulse train of Δ1 is output from the pulse train generating circuit 1of. FIG. 3 shows the output from the circuit 1o.

Infrared light emitting diode LE1. ．． ) will be destroyed.

Also, if you turn on 1 light, (lamp 9 20c f 4tF I-Te1<-1,, s, H(L), I, l'f-35 more, Figure 9 JHI's Pa4/Suda win. : Output, otherwise the same as above V?: Operates.

f, '△゛Night light on button 20d (7-c night light, z light switch, f86f When turned on, pulsed 1 of Figure 9 + C1 is output, otherwise the same as above [!I'
Make l1.

-Also, press the light off button 20e and turn off the light switch 8・l.
When turned on, the pulse train tDI shown in FIG. 9 is output, and other than that the operation is the same as above.

FIG. 10 shows the transmission control section 21 of this remote control lighting device. ,
The pulse train of FIG. 9 fA1-(r)) is reproduced.

The signal discrimination (uJ path 211) is as follows: ・τ signal circuit 21a
If the pulse train reproduced in Figure 9 is the pulse train of Figure 9, then all the pulses are generated from T, and the reproduced pulse train is the pulse train of Figure 9 iBl.
- If a pulse is generated from 'l'41 and the reused pulse train is the pulse train of FIG. 91 IO, then terminal 'r3
Generate a pulse from (7, reproduction formula C, if the generated pulse train is the pulse train shown in Figure 9 (D), then the terminal)
Glow into life.

At the time of switch xtl DO, 21c is free/l flow.
lbu FF1, FF2, FF3 too 7 game 1-
OR1, OR2, (H<, .

OR4 and N1 are omitted, but they are the same as in Figure 15.
- One register TR3~TR,5, relay RY1~RY3
．． Diodes D2-r)-- and resistors R11-R13
It is made of Togara PfA.

The operation of this switch control circuit 21c will now be explained.

2 light lighting signal +ll! A pulse is output from terminal T1 at 71. Then, Free Knob Flop FF2. F
F3 is theft sale, 7s rbu flop FF1 is recenot salel 6 As a result, Furi Sodef [1 rip FF1.
FF2. FF3's 1JI7-+C)5rL, fl,
H to fz-r-C, Vf-8,, S2. S3 turns off, on, and on, respectively, and the two lamps are turned on.

When a pulse is output from the terminal T2 in response to the L lamp lighting signal, the flip-flop 70rf FF3 is turned on, and the flip-flop FF1. , FF2 is the first stage of Lyceum.

As a result, Furi..., Puff ``T..., 7°FF engineering,''
Summer jF2. FF5 (7) output Q is distorted, 1. ,
H and 11 switches.

S2. S3 goes off, off, on, and 14.
The T ignition 1 state is reached.

When a pulse is output from terminal T3 by the night light lighting signal, the FF2. FF3 is reset and Furi 4. Pflotube FF1 is defeated.

As a result, Flimp 70 Rip FF, FF2, F
The output Q of F3 becomes 5, L, and L, respectively, resulting in switch and 7-chi sl.

! 32. S3 becomes ON, OFF, OFF V, and a night light lighting signal, respectively.

When the terminal T4j repulse is output at 1 due to the light-off signal, the Blinob flops FF□, FF2 . FF3 is liseri t
be done. As a result, Prino Pfrono 7°FF1°FF2
．． As the output Q of FF3 changes, the L, I-, and switch s turn 52.83 off, off, and off, respectively, and the light goes out.

Such>(Wp control lighting device, button frame fT;
IC allows the desired state to be obtained instantaneously. However, when transitioning from the off state to any of the on states, the operation button of the transmitter 2J- must be 41.
v! fl=L fz, and in this case, it is conceivable that the light-off button 20e may be pressed by mistake. In this case, the operator had no idea whether it was the F'F that had malfunctioned, and had to operate it many times before he could figure it out.

To deal with such problems, no matter what state you are in, if you perform one of the operations, you can determine whether there is a malfunction or the operation fF is incorrect when the state changes. If the position of the VC can be easily confirmed, it will be very convenient and it is expected that the operability will be improved.

[Eye of invention Ml]

The invention of ξ allows you to instantly obtain the desired state, and what's more, if you perform all the operations in any state, the state will change and you can perform the operation whether there is a plate or not. It is possible to judge whether or not the operation button is located easily.
The purpose is to provide.

[Disclosure of the invention]

Remote control device ego for illuminator H of this invention? ＞”J'
All of the 121 lighting states are selected using the M number of light buttons and the light-off button, respectively.
A transmitting means for transmitting a type A signal to be received in response to each VC, and a transmitting means for receiving the transmitted signal of the transmitting stage (H).
a signal discriminating means for distinguishing the type of the received signal received by the receiving means VC; a switching control means for controlling the selection of all switching patterns of the switching means according to the way of discrimination by the discriminating means; and a switch means for supplying power to the fan 7° in response to 1.5V;
It is characterized by (-).

An example of this invention will be described based on the brush 11 and FIG. 12. Wait for this, 1'! Figure 11'tc As shown in Figure 10'')
S□(Jchii!l!I!, knee 11 times P2; 21
c IC, free H7' 70 =) 7" FF,,
Antgame-1・A N+)3. A, NO3-ΔN+)
9. Or game) OR5, OR,, Inver9 IN
, :yinty"PCIQ,resistance RE-4o,!-viba.

13 Sui with F, -r- restraint circuit'2
1...'? iy Ill, that ([IL borrowed Vi, sweep example and 1. 川L7cE+.

With 1C1 This switch Xfelt +1 circuit '21 (
:'behavior?' Referring to Figure 12, 21 lamps are turned on (in total, 21 lamps are turned on when the lamp is turned off).
When the terminal TI of 1h is outputted, the free + 7" -, /b, -1 b l1 is output.
F2. FF3 is sesoto, Fritzbufu OI7”F
F] is reset. As a result, Friso 7°70 knob FF1°FF2. Output of FF3. are respectively the 12th
Figure (Jl, (It, σ11-) IcL, H, H next to each other.

Chi S,,S2. s3 turns off, on, and on, resulting in the qv, 2suJ, and Q lamp states. Furthermore, the pulse of FIG.
The input of Nofa BF is the differential waveform of iFl in Figure 12,
The output of the Benofcho PF is the blind shaped fang 1. Figure 12 I
G4 becomes a normal bus, and the pulse of ζ causes it to become free.
Ip7 CI =, FFF.

11', the force Q is up to L01' as shown in Figure 12 iLl.

When the light is dim to the 2 lights, the signal discrimination circuit 2 is activated by the lights out signal.
1h terminal T, to pulse S (121'; 1 (DI
When l is it37+, Antogame-LAN+),...
5. ANI), the output is shown in Figure 12 IMIINIIIC if IC! (, L Door

The output Q of FF2 and FF3 is shown in Fig. 12 IJ1, respectively.
．． fil.

(Like III, Ll, L and 1 are Sui Nochi S
,,S□.

5 turns off, off, off, resulting in 77'1 light V.

-2 woman,, Figure 12 tD+ pulse is or game) (l
It is applied to the inverter IN via R5', and the flip-flop knob FF is reset, but its output Q is -! of vCL as before. It is 1 sun. Manto game-1-A
The output of the ND5 becomes H as shown in FIG. 12 (K), and the output Q of the flip flow knob FF becomes H.

In the moon-out state, the 1 fl" lighting signal has the following signals:
11'c! When lBi l is output, flip 70
・Tsubu FF3 is set, i is set, and Fritsub FF3) h
" L -FF 2 is struck seven times. As a result, 7°70・r 7' FF, FF2. I?F3
The output Q of is as shown in Fig. 12 (J), ■, and 01j, respectively. It becomes L, H and Sui.・Nochi S1. S2. ．． 8
3 is off.

It goes off, then on, and then one light stays on. Also, the 12th
When the pulse in the diagram (■3) reaches the OR gate 0■<5, an error is added to the inverter IN, and the circuit becomes FF.

is recessed), and its output remains at 1 cL as before.

When one light is on, when a pulse (C1 in FIG. 12) is output from the terminal T3 of the signal discrimination circuit 21b in response to the night light lighting signal, the 17"FF-
Free I Pflo Tsubu FF2. FF3 is released.

L・Sare, Furi, Pflo, PFF Engineering, FF'2, F
The output Q of F3 is shown in FIG. 12, tJ1. fIl,
tH+! Sea urchin Ho;1. L becomes Sui, border S work,
s2. S3 is on and off.

It turns on and the night light turns on. -t, 12th
Figure + (71 pulses are applied to inverters J and H via the OR game l-OR5k, and the FF is applied to the reseno 1, and its output is connected to the I/C as above.
When the night light remains at L, a pulse (2312 iDI +
is output, the AND gate AND3. The output of AND is FIG. 12 IM+, [H,! -, and this: 11 means Furi, Sodeflo, J7″FF,
, FF2. FF3 is reset. As a result, Furi = I Pflo 1FF.

FF2. The output Q of FF3 becomes L and L, respectively, and the output is S2. S3 turns off, off, off, turning off. In addition, as shown in Fig. 12 (the pulse of the I sword is applied to the inverter INVC via OR5-OR5,
t, the pre-live flop FF is reset and remains at L as described above. Also, the output of the AND gate ANI) 5 is as shown in FIG.
(Then, the output Q of the flip 70.+7''FF'4 becomes H.

In the unlit part, f and V discrimination 10 by the unlit jT signal
■Terminal T4 of path 21b. 'js et al pulse' (12th
When the figure (group) receives the output, the AND gate AND3゜AN
I) The output of 4 is shown in Fig. 12 N+, already 1 [shows KL, H
Therefore, from this hII, Furi V 7" 7 U T-/"I'F1 Camo 5. 7 rip 70 =z 7” FF7., FF3
) 5” is flipped. As a result, flip-flop 1
7″FT’.

The output of FF2 and FF3 is H, 1 respectively.
,, T- and na-ri-te sweep p4-S engineering, S2.
S3 turns on, off, and off, and the night light turns on.

As a result of this adjustment, you can instantly get the desired state, and you will also be able to get the desired state H'r in an instant.・When you press the off button 20e of the transmitter 21,
The night light will be on, making it difficult to confirm the position of each operation button on the feeder 1 unit 21.Also, no matter what state it is in, the lighting state will be changed by pressing any button, so there is no possibility of a malfunction. 11. It is very convenient to be able to determine whether something is wrong with the vI work.

In the embodiment, when the lights are off, if you press the lights off buttons S' and Oe, the night lights will turn on during the eclipse.
Although theory A was that the IUI would shift to a two-lamp lighting state, a one-lamp lighting state, or other lighting loads may be turned on.

1111 embodiments of the invention of S: will be described based on FIGS. 13□□□ to 15. This remote braking illumination device includes a transmitter 20D, a coos 22a & a lamp 2 for illuminating the operation button, as shown in FIG. 13"f?" and FIG.
2, the window 20k of the case 20a is opened to illuminate the operation fV buttons 20b to 20e.

20h is Shimoike.

On the H path, there is a switch to turn off the light, and a switch that works with the nochi S7.5. ] Free Knob Flow Knob FF5
Ise.

Toy - With Otsu (・te, 2 lights lit Sui Nochi Dori, 1 light,
Light switch S and night light ON/(-, CH 56V
c Each switch S9.8□ operates f1. , 8□, by turning on any one of FF5
'I'm going to lie down, and this is going to be fun... Nobu FF
5 output Q H.

Transistor TR6f turns on #' according to L 71.
,) The lamp 22i is turned on when the register TR is turned on. is resistance.

With this configuration, the wamp 22 responds to the press of the light-off button 20e by pressing ('I'T, each press of the button 20b).
, 20c, 20d, and 20e are illuminated, and under any circumstances, each operation button 20b to 20e is
You can check everything 6. Even when the lights are off, when it is bright like daytime, V
In case C, since the battery 20h is wasted, the lamp 22 may be turned off by detecting all the surrounding brightness.

〔Effect of the invention〕

According to the remote control lighting device of the present invention, the desired state can be obtained instantaneously, and since the state can be changed by performing any operation, there is no problem with malfunctions. You can check whether there are any operating buttons or not, and you can also easily confirm the position of the operating buttons.

[Brief explanation of the drawing]

Fig. 1 is a schematic diagram of a conventional remote control lighting device, and Fig. 2 shows the structure of its transmitter. Figure 4 shows the waveform diagram of each part in Figure 3, Figure 5 shows the electrical circuit diagram of the illuminator, and Figure 45 shows the circuit diagram of the circuit. On the receiving end? 1
Figure 7 is the circuit diagram of the transmitting base C, f, in the proposed example.
Fig. 8 is the circuit diagram, Fig. 9 is the waveform diagram of each part of Fig. 8, Fig. 10 is the circuit diagram of the receiving side sub-B of the fat-mechanical device, and Fig. 1
Fig. 1 is a circuit diagram of a transmitter control unit in an embodiment C of this invention, Fig. 12 is a diagram of each part of A, and Fig. 13 is a transmitter in an embodiment C of this invention. FIG. 14 is a sectional view, and FIG. 1h is a circuit diagram thereof. 20h...2 light button, 20c...1 light button, 20/I...night light button, 20e...
Light off button, 10/PART integrated circuit, LEI)...
Infrared light emitting diode, 21...reception control section, 21a.
...Reception apposition, 21b...Signal discrimination circuit, 21c...
・Switch control circuit, 13... night H114, 16・
...Fluorescent lamp, Sl, ~s3...Swing f? Mu-11A

Claims (1)

[Claims] ]11 A plurality of light buttons for selecting a plurality of lighting states, a light-off button for selecting a light-off state, and different lights corresponding to the operations of the plurality of light-on buttons and the light-off button, respectively. a transmitting means for transmitting a type of signal; a receiving means for receiving a signal at a transmitter of the transmitting means; and a signal determining means for determining the type of a received signal received by the receiving means; Lighting 2! a four-stage switch for switching on and off of the lighting equipment; a switching control means for selectively controlling a switching pattern of the switching means in accordance with a discrimination output of the signal discrimination means; the plurality of lighting buttons; A remote control lighting device comprising: a lamp that illuminates a light-off button; and switch/jwitch means for supplying power to the lamp in response to an operation of the light-off button. (2) The lamp is a remote control lighting device according to claim 2, which is also used by the lighting device (31) The 9 lamps are buttons arranged near the plurality of on/off buttons. The remote control lighting device according to claim 11, which is a lamp exclusively for illumination.