JP5163285B2 - Control device and lighting apparatus - Google Patents

Description

  The present invention relates to a control device that switches a device to be controlled to a desired state according to a switch operation time or the number of operations or a combination of the operation time and the number of operations, and a lighting fixture including the control device.

There is known a lighting fixture in which a pull switch is operated to switch a lighting state (all lighting, partial lighting, nightlight lighting, all light extinction, etc.) (for example, Patent Document 1). The pull switch is a switch that is operated by a pull string hanging from the switch body. The pull switch of Patent Document 1 includes a rotary contact that rotates by a predetermined angle when the pull string is pulled once, and a plurality of contacts arranged in an annular shape around the rotary contact, and pulls the pull string once. Each time, the contact point that contacts the rotary contact is switched (Patent Document 1 FIGS. 9 to 13).
JP 2007-335415 A

  However, since the number of contacts attached to the pull switch is limited, there is a problem that the lighting state to be switched is limited. For this reason, the brightness and the like of the lighting fixture cannot be finely adjusted.

  The present invention has been made in view of such a background, and provides a control device capable of variously switching the state of a device to be controlled by a simple switch operation, and a lighting fixture including the control device. is there.

The control device according to the present invention comprises a momentary operation type switch, an operation time measuring means for measuring an operation time of the switch, a storage means for storing data describing a control signal corresponding to the operation time of the switch, wherein the operation time of the switch, which is measured by the operation time measuring means against the said data stored in said storage means, e Bei calculation means for outputting a control signal corresponding to the operating time system of the controlled object The calculation means sets a control signal to set the state of the control target to one of a finite number of stages set in advance when the operation time is equal to or less than a first threshold based on the data. When the operation time is greater than the first threshold and less than or equal to the second threshold, the control target state is set to either 0% output or 100% output. It outputs a signal, if the operation time is greater than the second threshold value, and outputs a control signal for changing the state of the control object steplessly in response to the operation time.

  According to the present invention, since the control signal corresponding to the switch operation time is output to the device to be controlled, the state of the device to be controlled can be switched variously with a simple switch operation. Moreover, the lighting state of a lighting fixture can be switched variously by simple switch operation.

  Hereinafter, the best mode for carrying out the present invention will be described.

  FIG. 1 is a configuration diagram showing a conceptual configuration of a lighting fixture according to the present invention. As shown in FIG. 1, the luminaire 1 includes a main light (fluorescent lamp) 2, a nightlight (small incandescent lamp) 3, a lighting circuit 4, and a control device 5.

  The lighting circuit 4 is an electronic circuit that turns on the main light 2 or the nightlight 3 in a desired state (full lighting, partial lighting, nightlight lighting, all light off, etc.) in accordance with a control signal from the control device 5. It consists of devices.

  The control device 5 includes a pull-up resistor 6, a switch 7, a measuring device 8, an arithmetic device 9, and a storage device 10.

  The pull-up resistor 6 and the switch 7 are connected in series and spanned between the high potential side 11 and the low potential side 12 of the signal power source, and the terminal 13 between the pull-up resistor 6 and the switch 7 is connected to the measuring device 8. It is connected to the. Therefore, the potential of the terminal 13 is high while the switch 7 is open, and the potential of the terminal 13 is low when the switch 7 is closed.

  The measuring device 8 is a device that measures the operation time of the switch 7, that is, the time when the potential of the terminal 13 becomes low. The switch 7 is a momentary operation type, that is, a switch that closes while external force is applied and opens when the force is removed.

  The arithmetic device 9 compares the operation time of the switch 7 measured by the measuring device 8 with the control rule stored in the storage device 10 and outputs a control command corresponding to the operation pattern of the switch 7 to the lighting circuit 4. It is a computer.

  The control rules stored in the storage device 10 are composed of the following three rules.

If the operation time T of the switch 7 is T ≦ T ₁ , each time the switch 7 is operated, the lighting state of the lighting fixture 1 is cyclically changed (for example, all off → main light 100% on → main 60% light → 30% main light → main light off, night light on → all off →.

If the operation time T of the switch 7 is T ₁ <T ≦ T ₂ , each time the switch 7 is operated, the lighting state of the luminaire 1 is alternately switched between full extinction and main lamp 100% lighting (for example, all Off (main light 100% on → all off) (second rule).

If the operation time T of the switch 7 is T ₂ <T, the brightness of the main light is changed steplessly while the switch 7 is operated (third rule).

FIG. 2 is a conceptual flowchart of a control program executed by the control arithmetic device 9. As shown in FIG. 2, when the switch 7 is operated and the potential of the terminal 13 becomes low, the control program is executed, and at the same time, measurement of the operation time T of the switch 7 is started (step 1). When the operation time T of the switch 7 is completed by T ₁ below, by executing the first rule, then, it ends the control program (step 2,3). Operating time T of the switch 7, when finished with T ₂ less beyond T _1, by executing the second rule, then, ends the control program (step 4 and 5). Operation of switch 7 is further continued, the operation time T Once exceed T _2, performing the third rule (step 6). Then, when the operation of the switch 7 is finished, the control program is finished (step 7).

  3 to 5 are timing charts showing the relationship between the operation of the switch 7 and the lighting state of the luminaire 1.

As shown in FIG. 3, when T ₁ following brief switch operation is repeated, (switched to a high potential from the low potential) switch operation is terminated Then at the same time, the lighting state of the lighting apparatus 1 is fully turned off → flash unit 100% lighting → main light 60% lighting → main light 30% → main light extinguishing, nightlight lighting → all extinguishing.

When the switch 7 is operated so that the operation time exceeds T ₁ and is equal to or less than T ₂ , the operation of the switch 7 ends (switches from a low potential to a high potential) as shown in FIG. Switches between 100% main light on and all off.

Further, as shown in FIG. 5, when the operation time of the switch 7 is greater than T _2, since the third rule is executed, the brightness of the main lamp of the luminaire 1, from 100% to 0% (Off) Decrease gradually. Moreover, when the brightness of the main lamp of the lighting fixture 1 reaches 0%, the brightness of the main lamp gradually increases to 100%. Thus, while the switch 7 is operated, the brightness of the main light repeatedly increases and decreases gradually. When the switch 7 is returned to its original state, the brightness is maintained thereafter.

  Instead of the operation time of the switch 7, the number of times of operation of the switch 7 is measured by the measuring device 8, and the lighting state of the lighting fixture (full lighting, partial lighting, nightlight lighting, all lighting off, etc.) is determined according to the number of operations. You may make it switch. In addition, the operation time and the number of operations of the switch 7 are measured by the measuring device 8, and the lighting state of the luminaire (full lighting, partial lighting, nightlight lighting, all lighting off, etc.) according to the combination of the operation time and the number of operations. If these are switched, complicated control becomes possible.

  In the present embodiment, an example in which the control device of the present invention is applied to a lighting fixture is shown, but the control target of the control device of the present invention is not limited to this. It goes without saying that the present invention can be applied as a control device for various electric machine appliances and home appliances.

It is a block diagram which shows the notional structure of the lighting fixture which concerns on this invention. It is a block diagram which shows the notional structure of the control apparatus which concerns on this invention. It is a conceptual flowchart of the control program of the said control apparatus. It is a timing chart which shows the relationship between operation of a switch, and the lighting state of a lighting fixture. It is a timing chart which shows the relationship between operation of a switch, and the lighting state of a lighting fixture. It is a timing chart which shows the relationship between operation of a switch, and the lighting state of a lighting fixture.

Explanation of symbols

1 Lighting equipment 2 Main light (fluorescent lamp)
3 Nightlight (small incandescent lamp)
4 lighting circuit 5 control device 6 pull-up resistor 7 switch 8 measuring device 9 computing device 10 storage device 11 high potential side 12 low potential side 13 terminal

Claims (4)

Momentary operation type switch ,
An operation time measuring means for measuring an operation time of the switch;
Storage means for storing data describing a control signal corresponding to the operation time of the switch;
Wherein the operation time of the switch, which is measured by the operation time measuring means against the said data stored in said storage means, e Bei calculation means for outputting a control signal corresponding to the operating time system of the controlled object ,
The computing means is
Based on the data,
When the operation time is equal to or less than a first threshold, a control signal for setting the state of the control target to one of a finite number of stages set in advance is output,
When the operation time is greater than the first threshold and less than or equal to the second threshold, a control signal for setting the state of the control target to either 0% output or 100% output is output,
A control device that outputs a control signal that changes the state of the control target in a stepless manner according to the operation time when the operation time is greater than the second threshold . When the operation time is equal to or less than the first threshold, the calculation means outputs a control signal for changing the state of the control target cyclically step by step each time the switch is operated. The control device according to claim 1. A control device according to claim 1;
A light source device whose lighting state is controlled by the control device;
The computing means is
When the operation time is less than or equal to the first threshold, a control signal for setting the lighting state of the light source device to any one of a finite number of stages set in advance is output,
When the operation time is greater than the first threshold and less than or equal to the second threshold, a control signal for setting the lighting state of the light source device to either the extinguishing state or the 100% lighting state is output.
When the operation time is larger than the second threshold, a lighting fixture that outputs a control signal for changing the lighting state of the light source device steplessly according to the operation time . When the operation time is equal to or less than the first threshold value, the arithmetic means outputs a control signal for changing the lighting state of the light source device cyclically step by step each time the switch is operated. The lighting fixture according to claim 3 .

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