CN105682293A - Switch control system based on multi-signal integrated acquisition and lamp - Google Patents

Abstract

The invention relates to a switch control system based on multi-signal integrated acquisition. A sensor module acquires an environmental signal, the environmental signal is amplified and processed by a signal amplification module and then output to a signal control module, the signal control module controls turn-on/turn-off of a lamp according to the environmental signal, meanwhile, an iluuminance setting module is used for setting light brightness of the lamp, and thus the turn-on and the turn-off of the lamp are controlled by the environmental signal, namely, illumination intensity, a voice signal, a heat release electrical signal and a human body touch signal all can be taken as the control signal for the turn-on and the turn-off of the lamp. Further, the invention also provides the lamp.

Description

On-off control system and light fixture based on the integrated collection of multi signal

Technical field

The present invention relates to on-off control system, particularly relate to a kind of multiple functional on-off control system based on the integrated collection of multi signal and light fixture.

Background technology

In daily life, sometimes it is not required to turn on light for a long time, or forgets again after turning on light to close, thus easily cause the waste of the energy, go down for a long time, the life-span that also can shorten light fixture the damage bringing other unnecessary. It addition, the light fixture of prior art is it is generally required to manual-lock, this results in the inconvenience of life.

Summary of the invention

Based on this, it is necessary to provide a kind of without manual operation, the multiple functional on-off control system based on the integrated collection of multi signal.

A kind of on-off control system based on the integrated collection of multi signal, controls module, signal output module and illuminance setting module including sensor assembly, signal amplification module, signal;

Described sensor assembly is used for detecting ambient signal; Described signal amplification module controls module for exporting after described ambient signal is amplified process to described signal; Described illuminance setting module controls module for being exported by default illumination intensity signal to described signal; Described signal controls module and controls the switching signal lighted with extinguish of light fixture according to the output of described ambient signal, and described signal controls module and is additionally operable to control, according to described illumination intensity signal, the luminance signal that light fixture is lighted; Described signal controls module and exports to described signal output module by described switching signal and described luminance signal; Described signal output module is for exporting to light fixture by described switching signal and described luminance signal, and described light fixture carries out lighting or extinguishing action according to described switching signal and described luminance signal, and regulates brightness according to described luminance signal;

Described ambient signal includes intensity of illumination, acoustical signal, pyroelectricity signal and human body touch signal.

Wherein in an embodiment, described sensor assembly includes photosensitive sensor module;

Described photosensitive sensor module includes photoconductive resistance RG1, resistance R1, electric capacity C1 and resistance RW1, after described resistance R1, described photoconductive resistance RG1, described resistance RW1 are sequentially connected in series, the points of common connection of described photoconductive resistance RG1 and described resistance RW1 connects signal amplification module, described resistance R1 is away from a termination power of described photoconductive resistance RG1, and described resistance RW1 is away from one end ground connection of described photoconductive resistance RG1; Described electric capacity C1 one end ground connection, another termination power.

Wherein in an embodiment, described sensor assembly includes sound transducer module; Described sound transducer module includes Electret condenser microphone MIC, resistance R6, resistance R7, resistance R4, resistance RG, electric capacity C3 and audion VT1;

Described resistance R6 mono-termination power, another terminates described Electret condenser microphone MIC, the other end ground connection of described Electret condenser microphone MIC;

Described resistance R7 mono-termination power, another terminates the base stage of described audion VT1, the grounded emitter of described audion VT1, and the colelctor electrode of described audion VT1 connects described signal amplification module;

Described resistance R4 and described resistance RG2 is series between power supply and ground connection, and the points of common connection of described resistance R4 and described resistance RG2 connects signal amplification module; Described resistance R4 is away from a termination power of described resistance RG2, and described resistance RG2 is away from one end ground connection of described resistance R4;

Described electric capacity C3 mono-terminates the points of common connection of described resistance R6 and described Electret condenser microphone MIC, and another terminates the base stage of described audion VT1.

Wherein in an embodiment, described sensor assembly includes pyroelectric sensor module;

Described pyroelectric sensor module includes pir sensor, resistance R11, resistance R10, resistance R13, electric capacity C9, resistance VR1;

Described resistance R11 mono-termination power, another terminates described pir sensor, the earth terminal ground connection of described pir sensor, and the output of described pir sensor terminates described signal amplification module;

Described resistance R10 mono-termination power, another terminates described signal amplification module;

Described resistance R13 mono-terminates the outfan of described pir sensor, other end ground connection, and described electric capacity C9 is in parallel with described resistance R13;

Described resistance VR1 one end ground connection, another terminates the outfan of described pir sensor.

Wherein in an embodiment, described sensor assembly includes touch sensor module;

Described touch sensor module includes the touch sensible point for gathering touch signal, resistance R2 and electric capacity C2;

Described touch sensible point connects another described signal amplification module of termination of described resistance R32, described resistance R32,

The one of described electric capacity C32 terminates described signal amplification module, other end ground connection.

Wherein in an embodiment, also include controlling, with signal, the delay time setting module that module is connected; Described delay time setting module is used for setting delay time, and is exported by time delayed signal to described signal control module, and described signal controls module and lights or delay-action for controlling described light fixture time delay according to described time delayed signal.

Wherein in an embodiment, also include controlling, with signal, the induction sensitivity setting module that module is connected; Described induction sensitivity setting module is for setting the induction sensitivity of described sensor assembly.

Additionally, also provide for a kind of without manual operation, multiple functional light fixture.

A kind of light fixture, including the above-mentioned on-off control system based on the integrated collection of multi signal.

The above-mentioned on-off control system based on the integrated collection of multi signal and light fixture gather ambient signal by sensor assembly, and are amplified processing to ambient signal by signal amplification module, are then output to signal and control module. Signal controls module and controls lighting and extinguishing of light fixture according to ambient signal. Meanwhile, illuminance setting module settings light fixture light brightness. Therefore, lighting of light fixture is controlled by ambient signal with extinguishing. Namely intensity of illumination, acoustical signal, pyroelectricity signal and human body touch signal all can be lighted and the control signal extinguished as light fixture.

Accompanying drawing explanation

Fig. 1 is the module map of the on-off control system based on the integrated collection of multi signal in an embodiment;

Fig. 2 is the module map of the on-off control system based on the integrated collection of multi signal in another embodiment;

Fig. 3 is the circuit diagram of photosensitive sensor module;

Fig. 4 is the circuit diagram of sound transducer module;

Fig. 5 is the circuit diagram of pyroelectric sensor module;

Fig. 6 is the circuit diagram of touch sensor module.

Detailed description of the invention

For the ease of understanding the present invention, below with reference to relevant drawings, the present invention is described more fully. Accompanying drawing gives the preferred embodiment of the present invention. But, the present invention can realize in many different forms, however it is not limited to embodiment described herein. On the contrary, the purpose providing these embodiments is to make the understanding to the disclosure more thorough comprehensively.

It should be noted that be referred to as " being fixed on " another element when element, it can directly on another element or can also there is element placed in the middle. When an element is considered as " connection " another element, it can be directly to another element or may be simultaneously present centering elements. Term as used herein " vertical ", " level ", "left", "right" and similar statement are for illustrative purposes only.

Unless otherwise defined, all of technology used herein is identical with the implication that the those skilled in the art belonging to the present invention are generally understood that with scientific terminology. The term used in the description of the invention herein is intended merely to the purpose describing specific embodiment, it is not intended that in the restriction present invention. Term as used herein " and/or " include the arbitrary and all of combination of one or more relevant Listed Items.

As it is shown in figure 1, be the module map of on-off control system based on the integrated collection of multi signal.

A kind of on-off control system based on the integrated collection of multi signal, controls module 202, signal output module 30 and illuminance setting module 203 including sensor assembly 10, signal amplification module 201, signal.

Described sensor assembly 10 is used for detecting ambient signal; Described signal amplification module 201 controls module 202 for exporting after described ambient signal is amplified process to described signal; Described illuminance setting module 203 controls module 202 for being exported by default illumination intensity signal to described signal; Described signal controls module 202 and controls the switching signal lighted with extinguish of light fixture according to the output of described ambient signal, and described signal controls module 202 and is additionally operable to control, according to described illumination intensity signal, the luminance signal that light fixture is lighted; Described signal controls module 202 and exports to described signal output module 30 by described switching signal and described luminance signal; Described signal output module 30 is for exporting to light fixture by described switching signal and described luminance signal, and described light fixture carries out lighting or extinguishing action according to described switching signal and described luminance signal, and regulates brightness according to described luminance signal;

Described ambient signal includes intensity of illumination, acoustical signal, pyroelectricity signal and human body touch signal.

Concrete, sensor assembly 10 is used for gathering intensity of illumination, acoustical signal, pyroelectricity signal and hot body touch signal, and the signal collected is exported to signal amplification module 201, signal amplification module 201 export after being amplified process and control module 202 to signal. Signal controls the operation that module 202 is used for judging whether according to ambient signal light fixture being lighted or extinguishing.

In the present embodiment, if the intensity of illumination collected is more weak, and lower than specified intensity of illumination threshold value, then illustrate now to need illumination, then signal control module 202 then controls light fixture and lights. If the intensity of illumination collected is relatively strong, and higher than specified intensity of illumination, then illustrate that now ambient brightness is stronger, it is not necessary to illumination, then signal controls module 202 and then controls light fixture extinguishing.

In like manner, the acoustical signal collected is more weak, and lower than specified acoustical signal threshold value, then illustrates now do not have User Activity, it is not necessary to illumination, then signal controls module 202 and then controls light fixture extinguishing. If the acoustical signal collected is relatively strong, and higher than specified acoustical signal threshold value, then illustrate now there is User Activity, it is necessary to illumination, then signal control module 202 then controls light fixture and lights.

In like manner, when collecting stronger pyroelectricity signal, then illustrate have user to be about near light fixture, then signal controls module 202 and then controls light fixture and light; When collecting more weak pyroelectricity signal, then illustrate do not have user near light fixture, then signal controls module 202 and then controls light fixture extinguishing.

When collecting human body touch signal, then illustrate there is user's Touching controlling lamp tool switch, then signal controls module 202 and then controls light fixture and light; When not collecting human body touch signal, then illustrate do not have user to touch lamp switch, then signal controls module 202 and then controls light fixture extinguishing.

The above-mentioned on-off control system based on the integrated collection of multi signal gathers ambient signal by sensor assembly 10, and is amplified processing to ambient signal by signal amplification module 201, is then output to signal and controls module 202. Signal controls module 202 and controls the lighting and extinguishing of light fixture according to ambient signal, and signal is controlled the control signal that module 202 exports and exports to light fixture by signal output module 30, and then reaches to control the effect of light fixture. Meanwhile, what illuminance setting module 203 set light fixture lights brightness. Therefore, lighting of light fixture is controlled by ambient signal with extinguishing. Namely intensity of illumination, acoustical signal, pyroelectricity signal and human body touch signal all can be lighted and the control signal extinguished as light fixture.

Incorporated by reference to Fig. 2.

In one embodiment, sensor assembly 10 includes photosensitive sensor module 101, sound transducer module 102, pyroelectric sensor module 103 and touch sensor module 104. Corresponding, signal output module 30 includes photoreceptor signal output module 301, acoustical signal output module 302, pyroelectricity signal output module 303 and touch signal output module 304.

Photosensitive sensor module 101, sound transducer module 102, pyroelectric sensor module 103 and touch sensor module 104 are all connected with signal amplification module 201. Photoreceptor signal output module 301, acoustical signal output module 302, pyroelectricity signal output module 303 and touch signal output module 304 are all simultaneously connected with signal and control module 202 and light fixture.

Incorporated by reference to Fig. 3.

In the present embodiment, described sensor assembly 10 includes photosensitive sensor module 101; Described photosensitive sensor module 101 includes photoconductive resistance RG1, resistance R1, electric capacity C1 and resistance RW1, after described resistance R1, described photoconductive resistance RG1, described resistance RW1 are sequentially connected in series, the points of common connection of described photoconductive resistance RG1 and described resistance RW1 connects signal amplification module 201, described resistance R1 is away from a termination power of described photoconductive resistance RG1, and described resistance RW1 is away from one end ground connection of described photoconductive resistance RG1; Described electric capacity C1 one end ground connection, another termination power.

Concrete, when light illumination is more than 20LX, under light illumination, resistance is only small for photoconductive resistance RG1, and the resistance sum through RW1 and RG1R1 carries out dividing potential drop, in the 2 of IC1,6 foot input high levels, 3 foot output low levels; When light illumination is less than 20LX, under light illumination, resistance is very big, and the resistance sum through RW1 and RG1R1 carries out dividing potential drop, inputs low high level at the 2 of IC1,6 feet for photoconductive resistance RG1,3 foot output high level. So the level of output is one high and one low, it may be achieved the on an off of light fixture, the 5V power supply of circuit job demand is provided by power module.

Incorporated by reference to Fig. 4.

Sensor assembly 10 includes sound transducer module 102; Described sound transducer module 102 includes Electret condenser microphone MIC, resistance R6, resistance R7, resistance R4, resistance RG, electric capacity C3 and audion VT1;

Described resistance R6 mono-termination power, another terminates described Electret condenser microphone MIC, the other end ground connection of described Electret condenser microphone MIC;

Described resistance R7 mono-termination power, another terminates the base stage of described audion VT1, the grounded emitter of described audion VT1, and the colelctor electrode of described audion VT1 connects described signal amplification module 202;

Described resistance R4 and described resistance RG2 is series between power supply and ground connection, and the points of common connection of described resistance R4 and described resistance RG2 connects signal amplification module 202; Described resistance R4 is away from a termination power of described resistance RG2, and described resistance RG2 is away from one end ground connection of described resistance R4;

Described electric capacity C3 mono-terminates the points of common connection of described resistance R6 and described Electret condenser microphone MIC, and another terminates the base stage of described audion VT1.

Concrete, when surrounding has sound to send, after being picked up by Electret condenser microphone MIC, it is transformed into the signal of telecommunication, it is coupled to audion VT1 by ceramic condenser C3 to be amplified, the acoustical signal being exaggerated exports from the colelctor electrode of VT1, when 2 feet of IC1 reach high level signal require time, its outfan 3 foot is one low level signal of output just, after anti-phase, 4 foot output high level, charge to electrochemical capacitor C2 through diode VD1, owing to charging resistance is very little, quickly it is charged to supply voltage value, even if 4 feet become low level subsequently, existence due to diode VD1, electrochemical capacitor C2 discharges only by R5, in the time maintaining high level on electrochemical capacitor C2, 11 feet export high level all the time. if period no longer has sound to send, the electric charge on C2 is released through R7, and when voltage is lower than high level voltage value, NAND gate overturns, 11 foot output low levels, changes the capacity of C2, can set different delay times. required+5V the power supply of circuit is provided by power module.

Incorporated by reference to Fig. 5.

Described sensor assembly 10 includes pyroelectric sensor module 103;

Described pyroelectric sensor module 103 includes pir sensor, resistance R11, resistance R10, resistance R13, electric capacity C9, resistance VR1;

Described resistance R11 mono-termination power, another terminates described pir sensor, the earth terminal ground connection of described pir sensor, and the output of described pir sensor terminates described signal amplification module 202;

Described resistance R10 mono-termination power, another terminates described signal amplification module 202;

Described resistance R13 mono-terminates the outfan of described pir sensor, other end ground connection, and described electric capacity C9 is in parallel with described resistance R13;

Described resistance VR1 one end ground connection, another terminates the outfan of described pir sensor.

Concrete, pyroelectric sensing switch (also known as human induction switch) is processed integrated circuit U1 by pyroelectric infrared sensor pir sensor, transducing signal and peripheral cell forms.

On daytime, the dividing potential drop circuit being made up of CDSVR1 and R10,9 feet of U1 are closed by its value, now have human body infrared in time, and circuit below does not work. Time-division at dusk, the resistance of CDS becomes big, and the partial pressure value of CDSVR1 and R10 raises, and 9 feet of U1 open internal circuit.

When the temperature that the micro-infrared that human body sends causes the inside sensing element of PIR changes, PIR, by producing transducing signal, shunt capacitance C9 on R13 at the two ends of external resistance R13, can increase capacity of resisting disturbance. This signal sends into in-phase input end 14 foot being dealt into the preamplifier within U1 through R12, export from 16 feet after amplification, inverting amplifier input 13 foot being coupled to two-level operating amplifier by electric capacity C14 carries out two grades of amplifications, makees to remove Time delay intervalometer after two-way amplitude discrimination processes at U1 internal circuit. Delay time is determined by the numerical value of the outward element of 34 feet of U1, thus controlling width and the delay time of input 2 foot high level pulse. So both can having realized people Lai Dengliang, people walks the purpose of time delay a period of time shutoff LED node. VR1 can set light illumination value, and VR2 is used for setting induction sensitivity, and VR3 is used for setting delay time. + 5V power supply required for whole line work is provided by power module.

Incorporated by reference to Fig. 6.

Described sensor assembly 10 includes touch sensor module 104;

Described touch sensor module 104 includes the touch sensible point for gathering touch signal, resistance R32 and electric capacity C32;

Described touch sensible point connects another described signal amplification module 202 of termination of described resistance R32, described resistance R32;

The one of described electric capacity C32 terminates described signal amplification module 202, other end ground connection.

Concrete, touching TOUCH touch point, process chip U3 by entering touch signal after resistance R32, electric capacity C32 filtering interfering, export high level signal at 8 feet, LED node is lighted, after time delay a period of time, 8 foot output low levels. Change the resistance of resistance R31, different delay times can be set. + 5V power supply needed for circuit has power module to provide.

On-off control system based on the integrated collection of multi signal also includes controlling, with signal, the delay time setting module 204 that module 202 is connected; Described delay time setting module 204 is used for setting delay time, and is exported by time delayed signal to described signal control module 202, and described signal controls module 202 and lights or delay-action for controlling described light fixture time delay according to described time delayed signal.

On-off control system based on the integrated collection of multi signal also includes controlling, with signal, the induction sensitivity setting module 205 that module 202 is connected; Described induction sensitivity setting module 205 is for setting the induction sensitivity of described sensor assembly 10.

A kind of light fixture, including the above-mentioned on-off control system based on the integrated collection of multi signal.

The above-mentioned on-off control system based on the integrated collection of multi signal gathers ambient signal by sensor assembly 10, and is amplified processing to ambient signal by signal amplification module 201, is then output to signal and controls module 202. Signal controls module 202 and controls lighting and extinguishing of light fixture according to ambient signal. Meanwhile, what illuminance setting module 203 set light fixture lights brightness. Therefore, lighting of light fixture is controlled by ambient signal with extinguishing. Namely intensity of illumination, acoustical signal, pyroelectricity signal and human body touch signal all can be lighted and the control signal extinguished as light fixture.

Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics is absent from contradiction, all it is considered to be the scope that this specification is recorded.

Embodiment described above only have expressed the several embodiments of the present invention, and it describes comparatively concrete and detailed, but can not therefore be construed as limiting the scope of the patent. It should be pointed out that, for the person of ordinary skill of the art, without departing from the inventive concept of the premise, it is also possible to making some deformation and improvement, these broadly fall into protection scope of the present invention. Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (8)

1. the on-off control system based on the integrated collection of multi signal, it is characterised in that include sensor assembly, signal amplification module, signal control module, signal output module and illuminance setting module;

Described sensor assembly is used for detecting ambient signal; Described signal amplification module controls module for exporting after described ambient signal is amplified process to described signal; Described illuminance setting module controls module for being exported by default illumination intensity signal to described signal; Described signal controls module and controls the switching signal lighted with extinguish of light fixture according to the output of described ambient signal, and described signal controls module and is additionally operable to control, according to described illumination intensity signal, the luminance signal that light fixture is lighted; Described signal controls module and exports to described signal output module by described switching signal and described luminance signal; Described signal output module is for exporting to light fixture by described switching signal and described luminance signal, and described light fixture carries out lighting or extinguishing action according to described switching signal and described luminance signal, and regulates brightness according to described luminance signal;

Described ambient signal includes intensity of illumination, acoustical signal, pyroelectricity signal and human body touch signal.

2. the on-off control system based on the integrated collection of multi signal according to claim 1, it is characterised in that described sensor assembly includes photosensitive sensor module;

Described photosensitive sensor module includes photoconductive resistance RG1, resistance R1, electric capacity C1 and resistance RW1, after described resistance R1, described photoconductive resistance RG1, described resistance RW1 are sequentially connected in series, the points of common connection of described photoconductive resistance RG1 and described resistance RW1 connects signal amplification module, described resistance R1 is away from a termination power of described photoconductive resistance RG1, and described resistance RW1 is away from one end ground connection of described photoconductive resistance RG1; Described electric capacity C1 one end ground connection, another termination power.

3. the on-off control system based on the integrated collection of multi signal according to claim 1, it is characterised in that described sensor assembly includes sound transducer module; Described sound transducer module includes Electret condenser microphone MIC, resistance R6, resistance R7, resistance R4, resistance RG2, electric capacity C3 and audion VT1;

Described resistance R6 mono-termination power, another terminates described Electret condenser microphone MIC, the other end ground connection of described Electret condenser microphone MIC;

Described resistance R7 mono-termination power, another terminates the base stage of described audion VT1, the grounded emitter of described audion VT1, and the colelctor electrode of described audion VT1 connects described signal amplification module;

Described resistance R4 and described resistance RG2 is series between power supply and ground connection, and the points of common connection of described resistance R4 and described resistance RG2 connects signal amplification module; Described resistance R4 is away from a termination power of described resistance RG2, and described resistance RG2 is away from one end ground connection of described resistance R4;

Described electric capacity C3 mono-terminates the points of common connection of described resistance R6 and described Electret condenser microphone MIC, and another terminates the base stage of described audion VT1.

4. the on-off control system based on the integrated collection of multi signal according to claim 1, it is characterised in that described sensor assembly includes pyroelectric sensor module;

Described pyroelectric sensor module includes pir sensor, resistance R11, resistance R10, resistance R13, electric capacity C9, resistance VR1;

Described resistance R11 mono-termination power, another terminates described pir sensor, the earth terminal ground connection of described pir sensor, and the output of described pir sensor terminates described signal amplification module;

Described resistance R10 mono-termination power, another terminates described signal amplification module;

Described resistance R13 mono-terminates the outfan of described pir sensor, other end ground connection, and described electric capacity C9 is in parallel with described resistance R13;

Described resistance VR1 one end ground connection, another terminates the outfan of described pir sensor.

5. the on-off control system based on the integrated collection of multi signal according to claim 1, it is characterised in that described sensor assembly includes touch sensor module;

Described touch sensor module includes the touch sensible point for gathering touch signal, resistance R32 and electric capacity C32;

Described touch sensible point connects another described signal amplification module of termination of described resistance R32, described resistance R32,

The one of described electric capacity C32 terminates described signal amplification module, other end ground connection.

6. the on-off control system based on the integrated collection of multi signal according to claim 1, it is characterised in that also include controlling, with signal, the delay time setting module that module is connected; Described delay time setting module is used for setting delay time, and is exported by time delayed signal to described signal control module, and described signal controls module and lights or delay-action for controlling described light fixture time delay according to described time delayed signal.

7. the on-off control system based on the integrated collection of multi signal according to claim 1, it is characterised in that also include controlling, with signal, the induction sensitivity setting module that module is connected; Described induction sensitivity setting module is for setting the induction sensitivity of described sensor assembly.

8. a light fixture, it is characterised in that include the on-off control system based on the integrated collection of multi signal described in claim 1-7 any one.