JPH0582264A - Lighting equipment - Google Patents

Abstract

PURPOSE:To prevent light sources from being put out since operation becomes troublesome in the case where the light sources are put out when a switch is turned on for less than a prescribed time by enabling brightness of the light sources to be set clearly in the desired brightness since the brightness of the light sources changes in stages. CONSTITUTION:In the case where a switch 5 continues to be turned on for more than a prescribed time, brightness of light sources 1 and 2 is changed repeatedly between a maximum value and a minimum value beginning with the maximum value. In the case where the switch 5 is turned off in the middle of this change, from this time on, the brightness of the light sources 1 and 2 is kept in the brightness at a point of time when the switch 5 is turned off. Afterwards, in the case where the switch 5 is turned on for less than the prescribed time, the brightness of the light sources 1 and 2 is returned to the maximum value or is transferred to the next stage brightness in the repetition process.

Description

Detailed Description of the Invention

[Object of the Invention]

[0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a luminaire, and more particularly to dimming a light source.

[0003]

2. Description of the Related Art Conventionally, as an incandescent lamp lighting device, it is known that dimming can be performed by operating one normally open push button switch.

FIG. 7 shows a conventional luminaire of this type.
As shown in (4), dimming is performed smoothly and continuously. Then, in the state where the brightness of the incandescent lamp is 0%, that is, in the extinguished state, when the button is continuously pressed for a predetermined time or longer, the incandescent lamp becomes continuously bright while starting from the state of 0%. The incandescent lamp continuously dims after reaching the 100% state, that is, the all-light state of maximum brightness, and when reaching the 0% state, the incandescent lamp becomes continuously bright again. , This is repeated. Then, when the finger is released from the button, thereafter, the brightness of the incandescent lamp is maintained at the brightness when the finger is released. When the incandescent lamp is lit, the button is short, that is, when the button is pressed for the predetermined time or less, the incandescent lamp is turned off, and when the button is pressed for a short time in the unlit state, the all-light state is set.

However, the luminaire capable of such a dimming operation has hitherto been limited to an incandescent lamp luminaire.

Further, in the above-mentioned conventional lighting fixture, when the light control operation is started from the off state, the change in brightness starts from 0%, but this is not good in operability.

Further, when it is desired to make it bright again, it is necessary to turn off the light once.

Further, since the dimming is continuous,
The operation feeling is poor and it is difficult to set the brightness exactly as the user intended. In other words, while pressing the button, for example, the incandescent lamp becomes dark continuously, so the user judges the brightness of the incandescent lamp and then removes the finger from the button. When fixed, this brightness is often darker than intended by the user.

[0009]

As described above, in the conventional luminaire that performs dimming by operating one push button switch, it is necessary to turn off the light once when it is desired to make it bright again. Because it is continuous,
There was a problem with the dimming operability, such as it was difficult to set the brightness exactly as the user intended.

The present invention is intended to solve such a problem, and an object thereof is to provide a lighting fixture having good dimming operability.

[Configuration of Invention]

[0012]

According to a first aspect of the present invention, there is provided a lighting fixture including a light source such as an incandescent lamp or a fluorescent lamp, a lighting dimming circuit for lighting the light source and performing multi-stage dimming, and the lighting dimming circuit. It comprises a control means for controlling the optical circuit and a switch for sending a signal to the control means. And
When the signal is continuously sent from the switch for a predetermined time or more, the control means repeatedly changes the brightness of the light source stepwise within a certain range through the lighting dimming circuit, When the transmission from the switch stops on the way, the brightness of the light source is maintained at the brightness at the time of the stop, and when the switch transmits after the predetermined time, the brightness of the light source is maximized. To do. On the other hand, in the lighting device according to the second aspect of the present invention, after the brightness of the light source is maintained, the brightness of the light source is repeated every time the switch transmits data for the predetermined time or less. The brightness of the next stage is sequentially changed.

[0013]

In the lighting equipment of the invention described in claim 1, first,
When the user continues to send a signal from the switch to the control means for a predetermined time or longer by operating the switch,
The brightness of the light source repeatedly changes stepwise within a certain range. Here, the user actually sees the brightness of the light source, and when the brightness reaches a desired brightness, the user stops the transmission from the switch to the control means. After that, the brightness of the light source is maintained at the brightness at the time of stopping the transmission. After the brightness of the light source is maintained in this way, when the switch is operated to send a signal from the switch to the control means for the predetermined time or less, the brightness of the light source returns to the maximum.

On the other hand, in the luminaire according to the second aspect of the invention, after the brightness of the light source is maintained as described above, the switch is operated to send a signal from the switch to the control means for the predetermined time or less. Then, each time, the brightness of the light source sequentially shifts to the brightness of the next stage in the repeating process.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of the lighting equipment of the present invention will be described below with reference to FIGS.

As shown in the block diagram of FIG. 1, this luminaire includes a light source such as an incandescent lamp 1 or a fluorescent lamp 2 and a lighting dimming circuit 3 for lighting the light source and performing multi-stage dimming.
And a microcomputer 4 as a control means for controlling the lighting dimming circuit 3, and one switch 5 for sending a signal to the microcomputer 4.
The switch 5 is a normally open push button switch, which is turned on and sends a signal to the microcomputer 4 only while the button is pressed.

Although not shown, the incandescent lamp 1 or the fluorescent lamp 2, the lighting dimming circuit 3 and the microcomputer 4 are provided in the main body of the lighting fixture. The switch 5 may be directly connected to the microcomputer 4 or the like by a cord, or may be provided in the remote control transmission unit. When the switch 5 is provided in the remote control transmitting unit, the light receiving unit corresponding to the light emitting unit in the remote control transmitting unit is required in the main body of the lighting fixture.

Next, an electronic circuit including the lighting dimming circuit 3 will be described with reference to FIG. A series circuit of photodiodes 11 and 12, resistors 13 and 14, and npn-type transistors 15 and 16 is connected between both poles of the DC power supply. The positive electrode of the DC power supply is connected to the DIM terminal c of the ballast 17, and the resistor 18 and the npn-type transistor 19 are connected in series between the DIM terminal b of the ballast 17 and the negative electrode of the DC power supply. Has been done. Although not shown, the DIM terminals b and c are connected to the input side of a photocoupler including a photodiode and a phototransistor on the ballast 17 side. The bases of the transistors 15, 16, and 19 are connected to the output ports P1, P2, and P2 of the microcomputer 4 via the resistors 20, 21, and 22, respectively.
It is connected to P3.

Further, a series circuit of a capacitor 23, a phototriac 24 and a resistor 25 is connected to the AC power source, and the phototriac 24 is photocoupled to the photodiode 11. The connection point between the condenser 23 and the photo triac 24 is connected to the gate of the triac 26 connected between the AC power supply and the incandescent lamp 1. A series circuit of a capacitor 27 and a resistor 28 is connected in parallel to the triac 26.

Similarly, a series circuit of a capacitor 29, a phototriac 30 and a resistor 31 is connected to the AC power source, and the phototriac 30 is photocoupled to the photodiode 12. The connection point between the condenser 29 and the phototriac 24 is connected to the gate of the triac 34 connected between the AC power source and the ON / OFF terminal a of the ballast 33 for the fluorescent lamp 2.

When there is a high output from the output port P1 of the microcomputer 4, the transistor 15, the phototriac 24 and the triac 26 are turned on, and the incandescent lamp 1 is supplied with power. Where the output port
By changing the timing of the output from P1, the phase of the triac 26 is controlled and the dimming of the incandescent lamp 1 is performed.

When there is a high output from the output port P2 of the microcomputer 4, the transistor 16, the phototriac 30 and the triac 34 are turned on,
Electric power is supplied to the terminal a of the ballast 17, but when the electric power is supplied to this terminal a, the fluorescent lamp 2 is turned on, and when not supplied, the fluorescent lamp 2 is turned off. Furthermore, if there is a high output from the output port P3 of the microcomputer 4,
The transistor 19 is turned on, and the dimming signal is input to the DIM terminals b and c of the ballast 17. Where output port P3
By changing the timing of the output from, the dimming signal changes, and the step control of the fluorescent lamp 2 is performed by the phase control.

Then, the microcomputer 4
When the signal is continuously sent from the switch 5 for a predetermined time or longer, the brightness of the light source, that is, the incandescent lamp 1 or the fluorescent lamp 2 is gradually changed from 100% to 0%, and after reaching 0%. On the contrary, gradually change to 100% and repeat this. Further, when the transmission from the switch 5 is stopped in the middle of this repeated change, the brightness of the light sources 1 and 2 is maintained at the brightness at the time of this stop. Further, when the switch 5 transmits again after the predetermined time, the light sources 1, 2
Return the brightness of 2 to 100%. When there is a transmission from the switch 5 for a predetermined time or longer while the light sources 1 and 2 are off, the brightness of the light sources 1 and 2 is changed starting from 100%.

Next, an example of the light control operation will be described with reference to FIG.

When the user presses the button of the push button switch 5 with the light source, that is, the incandescent lamp 1 or the fluorescent lamp 2 turned off, and the switch 5 is turned on, the light sources 1 and 2 reach the maximum 100%. Lights up with brightness. Then, when the switch 5 is continuously turned on for a predetermined time or longer, the brightness of the light sources 1 and 2 is gradually decreased from 100% to 0%, that is, the extinguished state. After reaching 0%, it will brighten up to 100% again, and after reaching 100%, it will fade out again. That is, switch 5
The brightness of the light sources 1 and 2 is 100% while the
It changes in a stepwise manner within the range from 0% to 0% (automatic change state).

In this automatic change state, the user actually looks at the brightness of the light sources 1 and 2, and when the brightness reaches a desired brightness, removes his / her finger from the button and presses the switch 5. Turn off. After that, the brightness of the light sources 1 and 2 is maintained at the brightness when the switch 5 is turned off.

After that, when the button is pressed for a short time and the switch 5 is turned on for the predetermined time or less, the brightness of the light sources 1 and 2 returns to 100%.

Although not shown, even if the light sources 1 and 2 are lit, if the button is pressed for the predetermined time or longer, the brightness of the light sources 1 and 2 is repeated within the range of 100% to 0%. It is possible to return to the changing automatic changing state again.

According to the above configuration, when the button is pressed for a predetermined time or longer after the light is turned off, the brightness of the light sources 1 and 2 becomes
The operability is good because it starts from 100% and becomes brighter, but it starts from 100% and becomes darker. In addition,
In FIG. 3, the switch 5 is turned off in the second cycle of the change in brightness, but this is for the purpose of explanation, and in a normal dimming operation, the brightness of the light sources 1 and 2 becomes dark first. Often, switch 5 is turned off as

In the dimming operation, the brightness of the light sources 1 and 2 does not change continuously, but changes stepwise,
Since the light is kept at a certain brightness for a certain time, the user can clearly set the brightness of the light sources 1 and 2 as desired. For example, you can accurately reproduce 20% brightness as often as you like.

Further, when the brightness of the light sources 1 and 2 is less than 100% to return to 100% full light, it is only necessary to press the button for a short time, and it is not necessary to turn off the light once. Operability is good.

Further, the circuit configuration as shown in FIG. 2 enables the above-described multi-step dimming operation not only with the incandescent lamp 1 but also with the fluorescent lamp 2.

The change in the brightness of the light sources 1 and 2 in the automatic change state is not limited to 100 to 0 to 100% of the above-mentioned embodiment, and for example, as in the second embodiment shown in FIG. It may be 90 to 10 to 90%. That is, the upper and lower limits of the brightness of the light sources 1 and 2 in the automatic change state may be arbitrary. However, it is advisable that at least the automatic change state following the off state starts from 100% brightness.
If the lower limit of the brightness is not 0%, in addition to the dimming switch 5, a means such as a switch for turning off the light is required.

Next, a third embodiment of the present invention will be described with reference to FIG.

In the third embodiment, the switch 5 is operated for a predetermined time or less after the automatic change state is completed and the brightness of the light sources 1 and 2 is maintained under the control of the microcomputer 4 in the first embodiment. Light sources 1 and 2 when turned on
Instead of returning the brightness of the light source to 100%, the brightness of the light sources 1 and 2 is shifted to the brightness of the next stage in the process of repeating the automatic change state.

Also in the third embodiment, when the switch 5 is kept on for a predetermined time or longer, the brightness of the light sources 1 and 2 is changed stepwise within the range of 100% to 0%, and in the middle thereof. When the switch 5 is turned off at, the brightness at the time of turning off is maintained thereafter. However, after that, when the switch 5 is turned on for a predetermined time or less by pressing the button shortly, the brightness of the light sources 1 and 2 shifts to the brightness of the next stage in the above-described repeating process. Then, each time the switch 5 is turned on for the predetermined time or less, the brightness of the light sources 1 and 2 sequentially shifts to the brightness of the next stage.

On the other hand, when the switch 5 is turned on for the predetermined time or longer, the brightness of the light sources 1 and 2 is from 100% to 0.
It returns to the automatic change state that changes repeatedly within the range of%.

According to the configuration of the third embodiment, the brightness of the light sources 1 and 2 can be changed step by step by pressing the button shortly after the automatic change state is completed. Subtle adjustment of the brightness of 1 and 2 can be easily performed.

Of course, the light source 1 in the automatic changing state
The change in brightness of 2 is 100 to 0 to 100 of the third embodiment.
It is not limited to%, but may be 90 to 60 to 90% as in the fourth embodiment shown in FIG. That is, the upper and lower limits of the brightness of the light sources 1 and 2 in the automatic change state may be arbitrary.

[0040]

According to the present invention, the dimming of the light source is not continuous dimming but stepwise dimming. Therefore, the transmission from the switch is stopped while the brightness of the light source is automatically changing. By doing so, when setting the brightness of the light source, the brightness of the light source can be clearly set as desired. Further, in the luminaire according to the first aspect, when the light source is dark, it is not necessary to turn off the light once when returning to the maximum brightness, and thus the operability is good.

On the other hand, in the luminaire according to the second aspect, since the brightness of the light source is once set and then transmitted from the switch for a predetermined time or less, the brightness of the light source shifts to the next level of brightness. You can easily adjust the brightness of the light source.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of a lighting fixture of the present invention.

FIG. 2 is a circuit diagram of the same.

FIG. 3 is a graph illustrating a dimming operation in the first embodiment of the present invention.

FIG. 4 is a graph illustrating a dimming operation in the second embodiment of the present invention.

FIG. 5 is a graph illustrating a dimming operation in the third embodiment of the present invention.

FIG. 6 is a graph illustrating a dimming operation in the fourth embodiment of the present invention.

FIG. 7 is a graph illustrating a dimming operation in a conventional lighting fixture.

[Explanation of symbols]

 1 incandescent lamp as a light source 2 fluorescent lamp as a light source 3 lighting dimming circuit 4 microcomputer 5 as a control means 5 switch

Claims (2)

[Claims] 1. A light source, a lighting dimming circuit for lighting the light source and performing multi-stage dimming, a control means for controlling the lighting dimming circuit, and a switch for sending a signal to the control means, When the signal is continuously sent from the switch for a predetermined time or longer, the control means repeatedly changes the brightness of the light source stepwise within a certain range through the lighting dimming circuit, and in the middle of this change. When the transmission from the switch is stopped, the brightness of the light source is maintained at the brightness at the time of the stop, and when the switch transmits after the predetermined time, the brightness of the light source is maximized. Lighting equipment characterized by the above. 2. A light source, a lighting dimming circuit for lighting the light source and performing multi-stage dimming, a control means for controlling the lighting dimming circuit, and a switch for sending a signal to the control means, When the signal is continuously sent from the switch for a predetermined time or longer, the control means repeatedly changes the brightness of the light source stepwise within a certain range through the lighting dimming circuit, and in the middle of this change. When the transmission from the switch is stopped, the brightness of the light source is maintained at the brightness at the time of the stop, and thereafter, the brightness of the light source is repeated every time the switch transmits for the predetermined time or less. The lighting fixture is characterized by sequentially shifting to the brightness of the next stage in the process of.