CN213342771U

CN213342771U - Lamp control system

Info

Publication number: CN213342771U
Application number: CN202020862537.XU
Authority: CN
Inventors: 史昊杨
Original assignee: Opple Lighting Co Ltd; Suzhou Op Lighting Co Ltd
Current assignee: Opple Lighting Co Ltd; Suzhou Op Lighting Co Ltd
Priority date: 2020-05-21
Filing date: 2020-05-21
Publication date: 2021-06-01
Anticipated expiration: 2030-05-21

Abstract

The utility model relates to a lamp control system, which comprises a switch panel and a lamp device; the switch panel comprises a maintenance switch, an equipment switch and at least one signal generator; when the equipment switch is pressed to electrify the signal generator, the signal generator generates a specific signal waveform; and after the lamp equipment receives the specific signal waveform, identifying the operation corresponding to the waveform, and realizing the control of the lamp equipment. The utility model discloses a lamps and lanterns control system does not embed soft switch, does not also use single live wire electronic switch, but sets up an equipment switch alone, realizes the switch to lighting apparatus to and adjust luminance, the function is comparatively perfect, can satisfy user's basic demand, and the cost is lower, realizes getting up relatively easily.

Description

Lamp control system

Technical Field

The utility model belongs to the lamps and lanterns field, concretely relates to low-cost lamps and lanterns control system.

Background

At present, a common intelligent lamp and a switch system are intelligent lamp built-in soft switches, a user switches the lamp through an electronic signal, a matched switch panel is a common mechanical switch, and the defects of the control system of the built-in soft switch are obvious: a. the matched common mechanical switch needs to be opened for a long time, is practically useless, and is mostly controlled by a soft switch; b. if the wall surface mechanical switch is used for control, the problem that the lamp can be turned on by pressing the operation twice can occur, and the operation is very inconvenient. Some manufacturers have proposed a single-live-wire electronic switch, which is an electronic signal generator rather than a physical cut-off switch, and the electronic signal generator sends a control signal to the lamp by using a wireless communication method to control the on/off of the lamp.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a purpose, solve the lamps and lanterns control system among the prior art operation inconvenient, the high price scheduling problem, provided a neotype lamps and lanterns control system.

The technical scheme of the utility model: a luminaire control system, the system comprising, a switch panel, and a luminaire device; the switch panel comprises a maintenance switch, an equipment switch and at least one signal generator; when the equipment switch is pressed to electrify the signal generator, the signal generator generates a specific signal waveform; and after the lamp equipment receives the specific signal waveform, identifying the operation corresponding to the waveform, and realizing the control of the lamp equipment.

Further, the light fixture comprises a signal receiver, a controller, and a light fixture load; the controller is respectively connected with the signal receiver and the lamp load.

Further, the signal receiver is configured to receive a signal generated by a signal generator to generate a specific signal waveform; the signal receiver sends the waveform to the controller; and the controller identifies corresponding operation according to the waveform.

Further, the specific signal waveform is transmitted in a wire.

Further, the switch panel is arranged on a live wire of the lamp equipment.

Further, the specific signal waveform may be a change of a current waveform, or may be an additional harmonic to the original current waveform.

Further, the change of the current waveform includes a change of an amplitude or a phase cut.

Further, when the signal generator is one, the device switch includes 2 pressing positions L1, L2; the pressing position L1 is connected with the lamp equipment; the pressing position L2 is connected to one end of the signal generator, and the other end of the signal generator is connected to the live line between the pressing position L1 and the lighting fixture.

Further, when the number of the signal generators is 2, the device switch includes 3 pressing positions L1, L2, L3; the pressing position L1 is connected with the lamp equipment; the pressing position L2 is connected with one end of a first signal generator, and the other end of the first signal generator is connected with a live wire between the pressing position L1 and the lamp equipment; the pressing position L3 is connected to one end of the second signal generator, and the other end of the second signal generator is connected to the live line between the pressing position L1 and the light fixture.

Further, the waveforms generated by the first signal generator and the second signal generator are different.

The utility model has the advantages that: the utility model discloses a lamps and lanterns control system does not embed soft switch, does not also use single live wire electronic switch, but sets up an equipment switch alone, realizes the switch to lighting apparatus to and adjust luminance, the function is comparatively perfect, can satisfy user's basic demand, and the cost is lower, realizes getting up relatively easily.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive effort.

Fig. 1 is a schematic structural diagram of a preferred lamp control system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a second preferred lamp control system according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The present invention will be further explained with reference to the accompanying drawings.

Example one

Fig. 1 is a schematic structural diagram of a preferred lamp control system according to an embodiment of the present invention.

As shown in fig. 1, the lighting device control system includes a switch panel 1 and a lighting device 2. One end of the lamp equipment 2 is connected with the L pole, the other end of the lamp equipment is connected with the N pole, a switch panel 1 is arranged on a live wire of the lamp equipment 2, and the switch panel 1 is used for controlling the lamp equipment 2.

The switch panel 1 includes a maintenance switch 11, an equipment switch 12, and a signal generator 13. The maintenance switch 11 is a physical switch, and is powered off when a corresponding physical button is used for maintenance or equipment is restarted. The device switch 12 is also a physical switch, and is provided with 2 pressing positions L1, L2. The pressed position L1 is connected to the lighting device 2, the pressed position L2 is connected to the signal generator 13, and the other end of the signal generator 13 is connected to the live line between the pressed position L1 and the lighting device 2.

The luminaire device 2 comprises a signal receiver 21, a controller 22, and a luminaire load 23. The controller 22 is connected to the signal receiver 21 and the lamp load 23. Under the normal use condition, the maintenance switch 11 is normally open, and the key switch is at the position of L1, thereby guarantee that the lamps and lanterns load is in normal on-state, and signal generator 13 does not energize at this moment, and signal generator 13 also can not send any signal to signal receiver 21.

When the user presses the device switch 12, the paddle of the device switch 12 jumps from the pressed position L1 to the pressed position L2, turns on the signal generator 13, and then rebounds to the pressed position L1. At the instant of power-on, the signal generator 13 compounds a specific signal waveform in the mains supply, which is received by the signal receiver 21 built in the lighting device 2. L2 can be a waveform that changes (amplitude, phase, or phase cut) the current or can be a harmonic wave added, for example, a 100HZ waveform is added, and the signal receiver detects the 100HZ waveform and considers the signal as the signal transmitted by L2. The change in waveform is a momentary change, and the device switch 12 jumps to L2 and then L1 at a short instant, without affecting the normal operation of the light fixture 2. The signal receiver 21 sends the specific signal waveform to the controller 22 built in the lighting apparatus 2, the controller 22 recognizes the signal, and the on or off operation of response is realized according to the signal.

The embodiment can realize the functions of dimming and brightness adjustment besides the on-off of the lamp equipment 2. Specifically, when the user presses the device switch 12 once within a certain time, the signal generator 13 is turned on only once to generate only one specific signal waveform, the signal receiver 21 also receives only one specific signal waveform, and the controller 22 presets one signal waveform as an on or off signal to realize the on-off control. If the user presses the device switch 12 2 times within a certain time, the signal generator 13 is turned on 2 times to generate 2 specific signal waveforms, the signal receiver 21 also receives the 2 specific signal waveforms, and the controller 22 presets the 2 signal waveforms as the dimming signal to realize the dimming of the light. If the user presses the device switch 12 3 times within a certain time, the signal generator 13 is turned on 3 times to generate 3 specific signal waveforms, the signal receiver 21 also receives the 3 specific signal waveforms, and the controller 22 presets the 3 signal waveforms as dimming signals to realize dimming of the light. According to the scheme, a simple dimming function can be realized, the operation is simple, the difficulty in learning of a user is low, and the system is low in cost.

Example two

As shown in fig. 1, the second lighting control system includes a switch panel 3 and a lighting device 4. One end of the lamp equipment 4 is connected with the L pole, the other end of the lamp equipment is connected with the N pole, the switch panel 3 is arranged on the live wire of the lamp equipment 2, and the control of the lamp equipment 4 is realized by the switch panel 3.

The switch panel 3 includes a maintenance switch 31, an equipment switch 32, a first signal generator 33, and a second signal generator 34. The maintenance switch 31 is a physical switch, and is powered off when a corresponding physical button is used for maintenance or equipment is restarted. The device switch 32 is also a physical switch provided with 3 press positions L1, L2, L3. The pressing position L1 is connected to the lighting device 2; the pressed position L2 is connected to the first signal generator 33, and the other end of the first signal generator 33 is connected to the live line between the pressed position L1 and the lighting fixture 4; the second signal generator 34 is connected to the pressed position L3, and the other end of the second signal generator 34 is connected to the live line between the pressed position L1 and the lighting fixture 4.

The luminaire 4 comprises a signal receiver 41, a controller 42, and a luminaire load 43. The controller 42 is connected to the signal receiver 41 and the lamp load 43, respectively. Under the normal use condition, the maintenance switch 31 is normally open, and the key switch is at the position of L1, thereby ensuring that the lamp load is in the normally-on state, at this time, the first signal generator 33 and the second signal generator 34 are not powered on, and the first signal generator 33 and the second signal generator 34 do not send any signal to the signal receiver 41.

The device switch 32 is provided with 2 keys, one key is corresponding to brightness adjustment, and one key is corresponding to dimming adjustment, for example, the brightness adjustment corresponds to L2, and the dimming adjustment corresponds to L3. When the user presses the highlight key, the paddle of the device switch 32 jumps from the pressed position L1 to the pressed position L2, turns on the first signal generator 33, and then rebounds to the pressed position L1. The first signal generator 33, at the instant of power-on, composes a specific signal waveform in the mains, which is received by the signal receiver 41 built in the lighting device 4. L2 can be a waveform that changes (amplitude, phase, or phase cut) the current or can be a harmonic wave added, for example, a 100HZ waveform is added, and the signal receiver detects the 100HZ waveform and considers the signal as the signal transmitted by L2. The change in waveform is a momentary change, and the device switch 32 jumps to L2 and then to L1 at a short instant, without affecting the normal operation of the light fixture 4. The signal receiver 41 sends the specific signal waveform to the controller 42 built in the lighting device 4, the controller 42 recognizes the signal, and the lighting operation of the lighting device is realized according to the signal.

When the user presses the dim button, the paddle of the device switch 32 jumps from the pressed position L1 to the pressed position L3, causing the second signal generator 34 to turn on and then spring back to the pressed position L1. The second signal generator 34, at the instant of power-on, composes a specific signal waveform in the mains, which is received by the signal receiver 41 built in the lighting device 4. L3 can be a waveform that changes (amplitude, phase, or phase cut) the current or can be a harmonic wave added, for example, a 100HZ waveform is added, and the signal receiver detects the 100HZ waveform and considers the signal as the signal transmitted by L3. The change in waveform is a momentary change, and the device switch 32 jumps to L3 and then to L1 at a short instant, without affecting the normal operation of the light fixture 4. The signal receiver 41 sends the specific signal waveform to the controller 42 built in the lighting device 4, the controller 42 recognizes the signal, and dimming operation of the lighting device is realized according to the signal. The specific signal waveform generated by the second signal generator 34 is different from the waveform generated by the first signal generator 33.

If the user presses the key for brightness adjustment and dimming at the same time, the dial plate of the device switch 32 jumps from the pressing position L1 to the pressing position L2 and then jumps to the pressing position L3, or jumps to the pressing position L3 and then jumps to the pressing position L2, the first signal generator 33 and the second signal generator 34 are energized instantaneously to generate a first specific signal waveform and a second specific signal waveform sequentially, both the first specific signal waveform and the second specific signal waveform are conducted to the signal receiver 41 through a live wire, the signal receiver 41 sends the specific signal waveforms to the controller 42 arranged in the lamp device 4, and the controller 42 recognizes that the two specific signal waveforms appear sequentially as the switch signals, so that the lamp load 43 is switched.

The utility model provides a technical scheme does not all embed soft switch, does not use single live wire electronic switch yet, but sets up an equipment switch alone, realizes the switch to lighting apparatus to and adjust luminance, the function is comparatively perfect, can satisfy user's basic demand, and the cost is lower, realizes getting up easier.

While the preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the appended claims be interpreted as including the preferred embodiment and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. A light fixture control system is characterized by comprising a switch panel and a light fixture;

the switch panel comprises a maintenance switch, an equipment switch and at least one signal generator;

when the equipment switch is pressed to electrify the signal generator, the signal generator generates a specific signal waveform;

and after the lamp equipment receives the specific signal waveform, identifying the operation corresponding to the waveform, and realizing the control of the lamp equipment.

2. The luminaire control system of claim 1,

the light fixture comprises a signal receiver, a controller and a light fixture load;

the controller is respectively connected with the signal receiver and the lamp load.

3. The luminaire control system of claim 2,

the signal receiver is configured to receive a signal generator and generate a specific signal waveform;

the signal receiver sends the waveform to the controller;

and the controller identifies corresponding operation according to the waveform.

4. The luminaire control system of claim 3,

the specific signal waveform is transmitted in a wire.

5. The luminaire control system of claim 1,

the switch panel is arranged on a live wire of the lamp equipment.

6. The luminaire control system of claim 2,

the specific signal waveform includes a change in the current waveform or an addition of harmonics to the original current waveform.

7. The luminaire control system of claim 6,

the change in the current waveform includes a change in amplitude, or phase cut.

8. The luminaire control system of claim 1,

when the signal generator is one, the device switch comprises 2 pressing positions L1, L2;

the pressing position L1 is connected with the lamp equipment;

the pressing position L2 is connected to one end of the signal generator, and the other end of the signal generator is connected to the live line between the pressing position L1 and the lighting fixture.

9. The luminaire control system of claim 1,

when the number of the signal generators is 2, the device switch includes 3 pressing positions L1, L2, L3;

the pressing position L1 is connected with the lamp equipment;

the pressing position L2 is connected with one end of a first signal generator, and the other end of the first signal generator is connected with a live wire between the pressing position L1 and the lamp equipment;

the pressing position L3 is connected to one end of the second signal generator, and the other end of the second signal generator is connected to the live line between the pressing position L1 and the light fixture.

10. The luminaire control system of claim 9,

the first signal generator and the second signal generator generate different waveforms.