CN202617084U - Universal crystal-glass touch remote-control switch - Google Patents

Abstract

The utility model discloses a universal crystal-glass wall remote-control switch. The universal crystal-glass wall remote-control switch includes a shell, and a touch screen, a backlight board and a circuit part together disposed in the shell. The universal crystal-glass wall remote-control switch is characterized in that the circuit part includes a power circuit, a microcomputer control circuit, a drive output return circuit, a wireless receiving circuit, a backlight circuit, a working state indicating circuit and a touch sensing switch circuit connected together successively. The power circuit, the microcomputer control circuit, the drive output return circuit, the wireless receiving circuit, the backlight circuit, the working state indicating circuit and the touch sensing switch circuit are connected with the touch screen and the backlight board respectively, thereby forming a power source part, a microcomputer control part, a drive output return circuit part, a wireless transmitting part, a backlight source, a working state indicating lamp and a touch sensing switch connected with each other. According to the utility model, a microcomputer control IC is introduced and crystal glass is adopted to make a panel of a remote controller. The universal crystal-glass wall remote-control switch provided by the utility model has a characteristic of intelligence and functions of switch state indication, icon display and wireless control, and is provided with a touch sensing button. The intelligent control of lamps of a whole house can be realized. The universal crystal-glass wall remote-control switch is simple and convenient in operation, direct in display, stable and reliable in operation.

Description

The general touching telecontrol switch of crystal glass

Technical field

The utility model relates to the electron controls technology field, relates to household light intelligent control technology, is specifically related to a kind of general touching telecontrol switch of crystal glass that is used for the intelligent control of household light.

Background technology

The intelligent control of present domestic household light is all very low with the hommization level, and most of families all do not have to realize household light is carried out comprehensively intelligent control.What generally adopt at present is the plastic front board switch.The substantial structure of its switch does not have anything to change, just appearance change more and more attractive in appearance, generous, have plenty of a switch panel and can concentrate three to four switches together or the like.Along with development of electronic technology, many electron trades are all being advanced by leaps and bounds, and Novel Intelligent melts closes the hysteresis that research and development then show.Though at present a lot of work manyly aspect the intelligent control of household light have also been done solving by domestic enterprise, in practical application, exist unreliable products performance, service condition has bigger limitation; Therefore also exist many technical problems and wait to solve, comprise the electrical principle, microprocessor and the software thereof that relate to, outward appearance and structural design; Material is selected; Many aspects such as manufacture craft are especially aspect circuit design, still less than reliability is high, the life-span is long and cost is low technical scheme.

The utility model content

The purpose of the utility model is in order to solve the intelligent control of existing household light effectively; Simultaneously also develop the general touching telecontrol switch of a kind of novel crystal glass to many defectives of household light Based Intelligent Control product in the market; This touch crystal glass lamp control switch adopts crystal glass as switch panel, has intellectuality, on off state demonstration, icon display, the touch sensible button; Wireless remote controls etc. can be realized the intelligent control of whole household light.

In order to achieve the above object, the utility model adopts following technical scheme to realize:

The general touching telecontrol switch of a kind of crystal glass; Comprise housing and the touch-screen, backlight and the circuit part that place in the housing; It is characterized in that; Described circuit part comprises power circuit, microcomputer control circuit, driving output loop, wireless receiving circuit, backlight circuit, operating state indicating circuit and the touch sensible switching circuit that connects successively, is connected the back respectively with said touch-screen, backlight and constitutes interconnective power unit, microcomputerized control part, drives output loop part, wireless transmit part, backlight, working station indicator, touch sensible switch.

Said remote control switch housing is the crystal glass material members.

Said power circuit comprises binding post CN4-CN5, transformer T1, rectifier bridge B1, three-terminal regulator block U1-U3, capacitor C 3-C10, diode D1-D3, and wherein, the 1st pin of said transformer T1 links to each other with binding post CN4; The 2nd pin of transformer T1 links to each other with binding post CN5; The 4th pin of transformer T1 links to each other with capacitor C 9 one ends with the 1st pin of rectifier bridge B1, and the 3rd pin of transformer T1 links to each other with the C9 other end with the 3rd pin of B1, and the 2nd pin of rectifier bridge B1 links to each other with the positive pole of an end of capacitor C 10, capacitor C 5, the 1st pin of regulator block U1; The 4th pin ground connection of rectifier bridge B1; Capacitor C 10 other end ground connection, capacitor C 5 minus earths, three-terminal regulator block U1 the 2nd pin ground connection; Three-terminal regulator block U1 the 3rd pin links to each other with the 1st pin of capacitor C 7 one ends, capacitor C 4 positive poles, three-terminal regulator block U1, and provides+the 12V power supply.Capacitor C 7 other end ground connection; Capacitor C 4 minus earths; Three-terminal regulator block U2 the 2nd pin ground connection, the 3rd pin links to each other with an end of capacitor C 6, the anode of capacitor C 3, and provides+the 5V power supply; The other end ground connection of capacitor C 6, capacitor C 3 minus earths; Three-terminal regulator block U3 the 1st pin connects+12V and link to each other with plug-in unit J3 the 1st pin in driving output loop; It is anodal that three-terminal regulator block U3 the 2nd pin meets diode D1; Three-terminal regulator block U3 the 3rd pin with+7.2V, capacitor C 8 positive poles, diode D2 is anodal links to each other; It is anodal that diode D1 negative pole meets diode D3, diode D3 minus earth; Capacitor C 8 minus earths, diode D2 negative pole links to each other with collector electrode, relay K 1 coil, relay K 2 coils, relay K 3 coils one end, diode D4, diode D5, the diode D6 negative pole of triode Q4 in driving output loop.

Said microcomputer control circuit comprises microcontroller IC1, plug-in unit J1, resistance R 1, capacitor C 1; Wherein, the 1st pin of said plug-in unit J1 links to each other with resistance R 1 one ends with the 1st pin of microcontroller IC1, the 2nd pin of plug-in unit J1 and resistance R 1 other end ,+12V, capacitor C 1 one ends link to each other; The 3rd pin ground connection of plug-in unit J1; Capacitor C 1 other end ground connection, the 4th pin of plug-in unit J1 links to each other with the 28th pin of microcontroller IC1, and the 5th pin of plug-in unit J1 links to each other with the 27th pin of microcontroller IC1.The 8th pin of microcontroller IC1, the 14th pin, the 16th pin, the 17th pin, the 18th pin, the 19th pin, the 21st pin, the 23rd pin ground connection, the 20th pin connection+5V of microcontroller IC1.

The model of said microcontroller IC1 chip is PIC16F1933, and its internal configurations has the LCD display drive circuit, includes EEROM, adopts the 8MHZ internal oscillator, is the control core of whole metope remote control switch.

Said driving output loop comprises plug-in unit J3 relay K 1-K3; Triode Q2-Q6; Diode D4-D6, resistance R 10-R15, binding post CN1-CN3, wherein, the collector electrode of said triode Q2 links to each other with the positive pole of diode D4 and coil one end of relay K 1; The grounded emitter of triode Q2; The end of the base stage connecting resistance R10 of triode Q2, the other end of resistance R 10 links to each other with connector J3 the 4th pin, and the coil other end of the negative pole of diode D4 and relay K 1 links to each other with the collector electrode of the negative pole of diode D2 and triode Q4; The collector electrode of triode Q3 links to each other with the positive pole of diode D5 and coil one end of relay K 2; The grounded emitter of triode Q3; The end of the base stage connecting resistance R11 of triode Q3; The other end of resistance R 11 links to each other with connector J3 the 5th pin, and the coil other end of the negative pole of diode D5 and relay K 2 links to each other with the collector electrode of the negative pole of diode D2 and triode Q4; The collector electrode of triode Q6 links to each other with the positive pole of diode D6 and coil one end of relay K 3, the grounded emitter of triode Q6, the end of the base stage connecting resistance R15 of triode Q6; The other end of resistance R 15 links to each other with connector J3 the 6th pin; The negative pole of diode D6 connects with the coil other end of relay K 3 and links to each other with the negative pole of diode D2 and the collector electrode of triode Q4, and plug-in unit J3 the 1st pin connects+12V, and the 2nd pin connects+5V; The end of the 3rd pin connecting resistance R14, the 7th pin ground connection.Fire line terminal CN4 links to each other with an end of the contact terminal of relay K 1, relay K 2, relay K 3 respectively, and the other end of the contact terminal of relay K 1, relay K 2, relay K 3 links to each other with binding post CN1, binding post CN2, binding post CN3 respectively.The collector electrode of triode Q5 links to each other with an end of resistance R 12, resistance R 13, and the base stage of triode Q5 links to each other with the other end of resistance R 14, the grounded emitter of triode Q5.The collector electrode of triode Q4 connects diode D2 negative pole, and the emitter of triode Q4 connects+12V, the base stage connecting resistance R13 other end of triode Q4.

Said wireless receiving circuit comprises receiver module RF1 and capacitor C 2; Wherein, The 1st pin of said receiver module RF1 and an end of capacitor C 2 ,+5V links to each other; The 2nd pin of receiver module RF1 links to each other with the other end of capacitor C 2 and ground connection with the 4th pin, and the 3rd pin of receiver module RF1 links to each other with the 22nd pin of microcontroller IC1.

Said backlight circuit comprises triode Q1, LED 7, LED 8, LED 9, resistance R 8, resistance R 9; Wherein, One end of said resistance R 9 with+12V links to each other, the other end links to each other with the positive pole of LED 7, the positive pole of LED 8 links to each other with the negative pole of LED 7, the positive pole of the negative pole LED 9 of LED 8 links to each other; The negative pole of LED 9 links to each other with the collector electrode of triode Q1; The base stage of triode Q1 links to each other with resistance R 8 one ends, the grounded emitter of triode Q1, and resistance R 8 other ends link to each other with microcontroller IC1 the 15th pin.

Said operating state indicating circuit comprises resistance R 2-R7, LED 1-LED6; Wherein, Said LED 1 anodal resistance R 2 one ends that connect, resistance R 2 another termination microcontroller IC1 the 11st pin, LED 1 negative pole connects microcontroller IC1 the 10th pin; LED 2 anodal resistance R 3 one ends that connect, resistance R 3 another termination microcontroller IC the 12nd pin, LED 2 negative poles connect microcontroller IC1 the 10th pin; LED 3 anodal resistance R 4 one ends that connect; Resistance R 4 another termination microcontroller IC1 the 13rd pin, LED 3 negative poles connect microcontroller IC the 10th pin, LED 4 anodal resistance R 5 one ends that connect; Resistance R 5 another termination microcontroller IC1 the 11st pin; LED 4 negative poles connect microcontroller IC1 the 9th pin, LED 5 anodal resistance R 6 one ends, resistance R 6 another termination microcontroller IC1 the 12nd pin of connecting; LED 5 negative poles connect microcontroller IC the 9th pin; LED 6 anodal resistance R 7 one ends that connect, resistance R 7 another termination microcontroller IC1 the 13rd pin, LED 6 negative poles connect microcontroller IC the 9th pin.

Said touch sensible switching circuit comprises that button is electrode sensing chip SW1-SW5; Wherein, said electrode sensing chip SW1, electrode sensing chip SW2, electrode sensing chip SW3, electrode sensing chip SW4, electrode sensing chip SW5 link to each other with the 6th pin, the 7th pin, the 24th pin, the 25th pin, the 26th pin of microcontroller IC1 respectively.

Because the utility model refers to advanced person's intelligent digital technology in the switch; With crystal glass as switch panel; And combine with three kinds of functional products of touch sensible switch key, backlight of prior art, switch can combine remote controller to carry out straighforward operation again simultaneously.Thereby realize that simple to operation, demonstration comes into plain view, working stability is reliable.So the utility model can reach the purpose of drafting.

Description of drawings

Fig. 1 is the circuit theory diagrams of the utility model embodiment.

Embodiment

In order to make those skilled in the art can further understand the characteristic and the technology contents of the utility model, see also following detailed description and accompanying drawing about the utility model.

See also shown in Figure 1ly, the general touching telecontrol switch of a kind of crystal glass that the utility model embodiment provides comprises housing and the touch-screen, backlight and the circuit part that place in the housing; Described circuit part comprises power circuit 1, microcomputer control circuit 2, driving output loop 3, wireless receiving circuit 4, backlight circuit 5, operating state indicating circuit 6 and the touch sensible switching circuit 7 that connects successively, is connected the back respectively with said touch-screen, backlight and constitutes interconnective power unit, microcomputerized control part, wireless transmit part, backlight, operating state indication, touch sensible switch.

The housing of said remote control switch is the crystal glass material members, makes remote control switch generous, the fashion that seems.

Said power circuit 1 comprises binding post CN4, binding post CN5, transformer T1, rectifier bridge B1, three-terminal regulator block U1, three-terminal regulator block U2, three-terminal regulator block U3, capacitor C 3, capacitor C 4, capacitor C 5, capacitor C 6, capacitor C 7, capacitor C 8, capacitor C 9, capacitor C 10, diode D1, diode D2, diode D3; Wherein, The 1st pin of said transformer T1 links to each other with binding post CN4, and the 2nd pin of transformer T1 links to each other with binding post CN5, and the 4th pin of transformer T1 links to each other with capacitor C 9 one ends with the 1st pin of rectifier bridge B1; The 3rd pin of transformer T1 links to each other with the C9 other end with the 3rd pin of B1; The 2nd pin of rectifier bridge B1 links to each other with the positive pole of an end of capacitor C 10, capacitor C 5, the 1st pin of regulator block U1, the 4th pin ground connection of rectifier bridge B1, capacitor C 10 other end ground connection; Capacitor C 5 minus earths; Three-terminal regulator block U1 the 2nd pin ground connection, three-terminal regulator block U1 the 3rd pin links to each other with the 1st pin of capacitor C 7 one ends, capacitor C 4 positive poles, three-terminal regulator block U1, and provides+the 12V power supply; Capacitor C 7 other end ground connection; Capacitor C 4 minus earths.Three-terminal regulator block U2 the 2nd pin ground connection, the 3rd pin links to each other with an end of capacitor C 6, the anode of capacitor C 3, and provides+the 5V power supply.The other end ground connection of capacitor C 6, capacitor C 3 minus earths.Three-terminal regulator block U3 the 1st pin connects+12V and link to each other with plug-in unit J3 the 1st pin in driving output loop; It is anodal that three-terminal regulator block U3 the 2nd pin meets diode D1; Three-terminal regulator block U3 the 3rd pin with+7.2V, capacitor C 8 positive poles, diode D2 is anodal links to each other; It is anodal that diode D1 negative pole meets diode D3, diode D3 minus earth; Capacitor C 8 minus earths, diode D2 negative pole links to each other with collector electrode, relay K 1 coil, relay K 2 coils, relay K 3 coils one end, diode D4, diode D5, the diode D6 negative pole of triode Q4 in driving output loop.

The operation principle of this power circuit 1 is: electrical network exchanges 220 volts/50 hertz and inputs to utmost point two ends at the beginning of the transformer through binding post; Transformer time 12 volts of left and right sides voltages of utmost point two ends output AC, 12 volts of voltages of output direct current offer light-emitting diode and drive output loop after rectification, filtering, voltage stabilizing; Output direct current DC5 volt is supplied with IC1 and RF1, and output direct current DC7.2 volt is supplied with and driven output loop.

Said microcomputer control circuit 2 comprises microcontroller IC1, plug-in unit J1, resistance R 1, capacitor C 1; Wherein, the 1st pin of said plug-in unit J1 links to each other with resistance R 1 one ends with the 1st pin of microcontroller IC1, the 2nd pin of plug-in unit J1 and resistance R 1 other end ,+12V, capacitor C 1 one ends link to each other; The 3rd pin ground connection of plug-in unit J1; Capacitor C 1 other end ground connection, the 4th pin of plug-in unit J1 links to each other with the 28th pin of microcontroller IC1, and the 5th pin of plug-in unit J1 links to each other with the 27th pin of microcontroller IC1.The 8th pin of microcontroller IC1, the 14th pin, the 16th pin, the 17th pin, the 18th pin, the 19th pin, the 21st pin, the 23rd pin ground connection, the 20th pin connection+5V of microcontroller IC1.

The model of said microcontroller IC1 chip is PIC16F1933, and its internal configurations has the LCD display drive circuit, includes EEROM, adopts the 8MHZ internal oscillator, is the control core of whole metope remote control switch.Certainly, as required, also can select the chip of other models among other embodiment for use.

Said driving output loop 3 comprises plug-in unit J3, relay K 1, relay K 2, relay K 3; Triode Q2, triode Q3, triode Q4, triode Q5, triode Q6; Diode D4, diode D5, diode D6, resistance R 10, resistance R 11, resistance R 12, resistance R 13, resistance R 14, resistance R 15, binding post CN1, binding post CN2, binding post CN3 are wherein; The collector electrode of said triode Q2 links to each other with the positive pole of diode D4 and coil one end of relay K 1; The grounded emitter of triode Q2; The end of the base stage connecting resistance R10 of triode Q2, the other end of resistance R 10 links to each other with connector J3 the 4th pin, and the coil other end of the negative pole of diode D4 and relay K 1 links to each other with the collector electrode of the negative pole of diode D2 and triode Q4; The collector electrode of triode Q3 links to each other with the positive pole of diode D5 and coil one end of relay K 2; The grounded emitter of triode Q3; The end of the base stage connecting resistance R11 of triode Q3; The other end of resistance R 11 links to each other with connector J3 the 5th pin, and the coil other end of the negative pole of diode D5 and relay K 2 links to each other with the collector electrode of the negative pole of diode D2 and triode Q4; The collector electrode of triode Q6 links to each other with the positive pole of diode D6 and coil one end of relay K 3, the grounded emitter of triode Q6, the end of the base stage connecting resistance R15 of triode Q6; The other end of resistance R 15 links to each other with connector J3 the 6th pin; The negative pole of diode D6 connects with the coil other end of relay K 3 and links to each other with the negative pole of diode D2 and the collector electrode of triode Q4, and plug-in unit J3 the 1st pin connects+12V, and the 2nd pin connects+5V; The end of the 3rd pin connecting resistance R14, the 7th pin ground connection.Fire line terminal CN4 links to each other with an end of the contact terminal of relay K 1, relay K 2, relay K 3 respectively, and the other end of the contact terminal of relay K 1, relay K 2, relay K 3 links to each other with binding post CN1, binding post CN2, binding post CN3 respectively.The collector electrode of triode Q5 links to each other with an end of resistance R 12, resistance R 13, and the base stage of triode Q5 links to each other with the other end of resistance R 14, the grounded emitter of triode Q5.The collector electrode of triode Q4 connects diode D2 negative pole, and the emitter of triode Q4 connects+12V, the base stage connecting resistance R13 other end of triode Q4.

Described driving output loop 3 repeat circuit coil working voltages are DC12V, more than the relay contact electric current 5A/AC250V.Triode Q4, triode Q5, resistance R 12, resistance R 13, resistance R 14 are formed composite switch circuit in the described driving output loop provides 12 volts of power supplys to driving output loop.Described driving output loop operation principle is: when when CPU (being microcontroller IC1) adopts the input of soft-touch control button or through wireless receiving (RF), installing the input switch signal; CPU is through IC1 the 5th pin output high level; Make triode Q4 and triode Q5 conducting through resistance R 14; + 12V voltage is added to relay coil one end through triode Q4, and CPU 2,3,4 pin will be exported corresponding high level and make corresponding triode Q2, triode Q3, triode Q6 conducting simultaneously.Behind the certain hour (3 seconds), CPU the 5th pin will be got back to low level, and triode Q4, triode Q5 end.Relay coil one end by+12V fall back to+6.6V (+7.2V after through the D2 diode the actual voltage that drops on the relay coil end for+6.6V), final leaning on+6.6V keep the relay adhesive (with+it is in order to reduce power consumption that 6.6V keeps).

Said wireless receiving circuit comprises receiver module RF1 and capacitor C 2; Wherein, The 1st pin of said receiver module RF1 and an end of capacitor C 2 ,+5V links to each other; The 2nd pin of receiver module RF1 links to each other with the other end of capacitor C 2 and ground connection with the 4th pin, and the 3rd pin of receiver module RF1 links to each other with the 22nd pin of microcontroller IC1.

Wireless receiving partly adopts the dedicated RF receiver module, frequency 315MHZ ± 0.5MHZ, and baud rate 9.6kb/s adopts the ASK modulation system, and the less radio-frequency carrier signal is exported to IC1 the 22nd pin by the 3rd pin of RF1 after the demodulation of RF receiver module.

Said backlight circuit comprises triode Q1, LED 7, LED 8, LED 9, resistance R 8, resistance R 9; Wherein, One end of said resistance R 9 with+12V links to each other, the other end links to each other with the positive pole of LED 7, the positive pole of LED 8 links to each other with the negative pole of LED 7, the positive pole of the negative pole LED 9 of LED 8 links to each other; The negative pole of LED 9 links to each other with the collector electrode of triode Q1; The base stage of triode Q1 links to each other with resistance R 8 one ends, the grounded emitter of triode Q1, and resistance R 8 other ends link to each other with microcontroller IC1 the 15th pin.

Backlight and backlight by force a little less than backlight circuit control backlight is divided into, when IC1 the 15th pin output high level, triode Q1 conducting, LED 7, LED 8, LED 9, the about 20MA of R9 series loop electric current (backlight by force).IC1 the 15th pin is low level under holding state at ordinary times; Triode Q1 ends; LED 7, LED 8, LED 9, the about 0.5MA of resistance R 9 series loop electric currents (a little less than backlight, be mainly used in the character on the identification switch button at night).

Said operating state indicating circuit comprises resistance R 2, resistance R 3, resistance R 4, resistance R 5, resistance R 6, resistance R 7, LED 1, LED 2, LED 3, LED 4, LED 5, LED 6; Wherein, Said LED 1 anodal resistance R 2 one ends that connect; Resistance R 2 another termination microcontroller IC1 the 11st pin, LED 1 negative pole connects microcontroller IC1 the 10th pin; LED 2 anodal resistance R 3 one ends that connect, resistance R 3 another termination microcontroller IC1 the 12nd pin, LED 2 negative poles connect microcontroller IC1 the 10th pin; LED 3 anodal resistance R 4 one ends that connect; Resistance R 4 another termination microcontroller IC1 the 13rd pin, LED 3 negative poles connect microcontroller IC1 the 10th pin, LED 4 anodal resistance R 5 one ends that connect; Resistance R 5 another termination microcontroller IC1 the 11st pin; LED 4 negative poles connect microcontroller IC1 the 9th pin, LED 5 anodal resistance R 6 one ends, resistance R 6 another termination microcontroller IC1 the 12nd pin of connecting; LED 5 negative poles connect microcontroller IC1 the 9th pin; LED 6 anodal resistance R 7 one ends that connect, resistance R 7 another termination microcontroller IC the 13rd pin, LED 6 negative poles connect microcontroller IC the 9th pin.

The utility model has six kinds of operating state indications when using, adopt six LEDs 1, LED2, LED3, LED4, LED5, LED6 to show respectively.

Said touch sensible switching circuit comprises electrode sensing chip SW1, electrode sensing chip SW2, electrode sensing chip SW3, electrode sensing chip SW4, electrode sensing chip SW5; Wherein, said electrode sensing chip SW1, electrode sensing chip SW2, electrode sensing chip SW3, electrode sensing chip SW4, electrode sensing chip SW5 link to each other with the 6th pin, the 7th pin, the 24th pin, the 25th pin, the 26th pin of microcontroller IC1 respectively.

The touch sensible switch key is partly linked to each other with the 6th pin, the 7th pin, the 24th pin, the 25th pin, the 26th pin of IC1 respectively by electrode sensing chip SW1, SW2, SW3, SW4, SW5; Electrode sensing chip SW3, SW4, SW5 utilize the deposited copper on the PCB circuit board to do; Deposited copper face amasss at 1 to 5 square centimeter; It is best to be shaped as square, and SW1, SW2 then directly make with copper sheet.The utility model touch sensible switch operation principle is: electrode sensing chip SW links to each other with the input pin of microcontroller IC1 through connecting line; Like this; Electrode sensing chip SW has just constituted a RC oscillating circuit with the internal hardware circuit of IC1, and this RC oscillating circuit can pass through its natural mode shape of software set.When people's hand during near certain electrode sensing chip SW, the capacitance of this RC oscillating circuit will change, and causes the oscillating circuit frequency shift, and CPU just can detect this new frequency of oscillation like this, thereby confirms that certain electrode sensing chip button is effective.

Through above-mentioned design; Because the utility model is through adopting microcontroller IC1; Advanced person's intelligent digital technology is referred in the switch;, and combine with three kinds of functional products of touch sensible switch key, backlight of prior art as switch panel with crystal glass, switch can combine remote controller to carry out straighforward operation again simultaneously.Thereby realize that simple to operation, demonstration comes into plain view, working stability is reliable.So the utility model can reach the purpose of drafting.

Of the utility model the foregoing description, adopt the multi-functional touching telecontrol switch of other novel crystal glasses that obtains with the same or similar structure of the utility model, all in the utility model protection range.

Claims (10)

1. general touching telecontrol switch of crystal glass; Comprise housing and the touch-screen, backlight and the circuit part that place in the housing; It is characterized in that; Described circuit part comprises power circuit (1), microcomputer control circuit (2), driving output loop (3), wireless receiving circuit (4), backlight circuit (5), operating state indicating circuit (6) and the touch sensible switching circuit (7) that connects successively, is connected the back respectively with said touch-screen, backlight and constitutes interconnective power unit, microcomputerized control part, wireless transmit part, backlight, operating state indication, touch sensible switch.

2. the general touching telecontrol switch of crystal glass as claimed in claim 1 is characterized in that, the housing of said remote control switch is the crystal glass material members.

3. the general touching telecontrol derailing switch of crystal glass as claimed in claim 1; It is characterized in that; Said power circuit (1) comprises binding post (CN4), binding post (CN5), transformer (T1), rectifier bridge (B1), three-terminal regulator block (U1), three-terminal regulator block (U2), three-terminal regulator block (U3), electric capacity (C3), electric capacity (C4), electric capacity (C5), electric capacity (C6), electric capacity (C7), electric capacity (C8), electric capacity (C9), electric capacity (C10), diode (D1), diode (D2), diode (D3); Wherein, The 1st pin of said transformer (T1) links to each other with binding post (CN4), and the 2nd pin of transformer (T1) links to each other with binding post (CN5), and the 4th pin of transformer (T1) links to each other with electric capacity (C9) end with the 1st pin of rectifier bridge (B1); The 3rd pin of transformer (T1) links to each other with electric capacity (C9) other end with the 3rd pin of rectifier bridge (B1); The 2nd pin of rectifier bridge (B1) links to each other with an end of electric capacity (C10), the positive pole of electric capacity (C5), the 1st pin of regulator block (U1), the 4th pin ground connection of rectifier bridge (B1), electric capacity (C10) other end ground connection; Electric capacity (C5) minus earth; Three-terminal regulator block (U1) the 2nd pin ground connection, three-terminal regulator block (U1) the 3rd pin links to each other with electric capacity (C7) end, electric capacity (C4) the 1st pin anodal, three-terminal regulator block (U1), and provides+the 12V power supply; Electric capacity (C7) other end ground connection; Electric capacity (C4) minus earth; Three-terminal regulator block (U2) the 2nd pin ground connection, the 3rd pin links to each other, and provides+the 5V power supply with an end of electric capacity (C6), the anode of electric capacity (C3); The other end ground connection of electric capacity (C6), electric capacity (C3) minus earth; Three-terminal regulator block (U3) the 1st pin connects+12V and link to each other with plug-in unit (J3) the 1st pin in driving output loop; Three-terminal regulator block (U3) the 2nd pin connects diode (D1) positive pole; Three-terminal regulator block (U3) the 3rd pin with+7.2V, electric capacity (C8) is anodal, diode (D2) is anodal links to each other; Diode (D1) negative pole connects diode (D3) positive pole, diode (D3) minus earth; Electric capacity (C8) minus earth, diode (D2) negative pole links to each other with collector electrode, relay (K1) coil, relay (K2) coil, relay (K3) coil one end, diode (D4), diode (D5), diode (D6) negative pole of triode (Q4) in driving output loop.

4. the general touching telecontrol switch of crystal glass as claimed in claim 1; It is characterized in that said microcomputer control circuit (2) comprises microcontroller (IC1), plug-in unit (J1), resistance (R1), electric capacity (C1), wherein; The 1st pin of said plug-in unit (J1) links to each other with resistance (R1) end with the 1st pin of microcontroller (IC1); The 2nd pin of plug-in unit (J1) and resistance (R1) other end ,+12V, electric capacity (C a 1) end link to each other the 3rd pin ground connection of plug-in unit (J1), electric capacity (C1) other end ground connection; The 4th pin of plug-in unit (J1) links to each other with the 28th pin of microcontroller (IC1), and the 5th pin of plug-in unit (J1) links to each other with the 27th pin of microcontroller (IC1); The 8th pin of microcontroller (IC1), the 14th pin, the 16th pin, the 17th pin, the 18th pin, the 19th pin, the 21st pin, the 23rd pin ground connection, the 20th pin connection+5V of microcontroller (IC1).

5. the general touching telecontrol switch of crystal glass as claimed in claim 4 is characterized in that, the model of said microcontroller (IC1) chip is PIC16F1933.

6. like claim 4 or the general touching telecontrol switch of 5 described crystal glasses; It is characterized in that; Said operating state indicating circuit (6) comprises resistance (R2), resistance (R3), resistance (R4), resistance (R5), resistance (R6), resistance (R7), light-emitting diode (LED1), light-emitting diode (LED2), light-emitting diode (LED3), light-emitting diode (LED4), light-emitting diode (LED5), light-emitting diode (LED6); Wherein, Anodal resistance (R2) end that connects of said light-emitting diode (LED1), another termination microcontroller (IC1) the 11st pin of resistance (R2), light-emitting diode (LED1) negative pole connects microcontroller (IC1) the 10th pin; Anodal resistance (R3) end that connects of light-emitting diode (LED2), another termination microcontroller (IC1) the 12nd pin of resistance (R3), light-emitting diode (LED2) negative pole connects microcontroller (IC1) the 10th pin; Anodal resistance (R4) end that connects of light-emitting diode (LED3); Another termination microcontroller (IC1) the 13rd pin of resistance (R4), light-emitting diode (LED3) negative pole connects microcontroller (IC1) the 10th pin, anodal resistance (R5) end that connects of light-emitting diode (LED4); Another termination microcontroller (IC1) the 11st pin of resistance (R5); Light-emitting diode (LED4) negative pole connects microcontroller (IC1) the 9th pin, anodal resistance (R6) end, another termination microcontroller (IC1) the 12nd pin of resistance (R6) of connecting of light-emitting diode (LED5); Light-emitting diode (LED5) negative pole connects microcontroller (IC1) the 9th pin; Anodal resistance (R7) end that connects of light-emitting diode (LED6), another termination microcontroller (IC1) the 13rd pin of resistance (R7), light-emitting diode (LED6) negative pole connects microcontroller (IC1) the 9th pin.

7. like claim 4 or the general touching telecontrol switch of 5 described crystal glasses; It is characterized in that; Said touch sensible switching circuit (7) comprises that button is electrode sensing chip (SW1), electrode sensing chip (SW2), electrode sensing chip (SW3), electrode sensing chip (SW4), electrode sensing chip (SW5); Wherein, said electrode sensing chip (SW1), electrode sensing chip (SW2), electrode sensing chip (SW3), electrode sensing chip (SW4), electrode sensing chip (SW5) link to each other with the 6th pin, the 7th pin, the 24th pin, the 25th pin, the 26th pin of microcontroller (IC1) respectively.

8. like claim 4 or the general touching telecontrol switch of 5 described crystal glasses; It is characterized in that; Said backlight circuit (5) comprises triode (Q1), light-emitting diode (LED7), light-emitting diode (LED8), light-emitting diode (LED9), resistance (R8), resistance (R9), wherein, an end of said resistance (R9) with+12V links to each other, the other end links to each other with the positive pole of light-emitting diode (LED7); The positive pole of light-emitting diode (LED8) links to each other with the negative pole of light-emitting diode (LED7); The positive pole of the negative pole light-emitting diode (LED9) of light-emitting diode (LED8) links to each other, and the negative pole of light-emitting diode (LED9) links to each other with the collector electrode of triode (Q1), and the base stage of triode (Q1) links to each other with resistance (R8) end; The grounded emitter of triode (Q1), resistance (R8) other end links to each other with microcontroller (IC1) the 15th pin.

9. like claim 4 or the general touching telecontrol switch of 5 described crystal glasses; It is characterized in that; Said wireless receiving circuit (4) comprises receiver module (RF1) and electric capacity (C2), wherein, an end of the 1st pin of said receiver module (RF1) and electric capacity (C2) ,+5V links to each other; The 2nd pin of receiver module (RF1) links to each other with the other end of electric capacity (C2) and ground connection with the 4th pin, and the 3rd pin of receiver module (RF1) links to each other with the 22nd pin of microcontroller (IC1).

10. the general touching telecontrol switch of crystal glass as claimed in claim 1; It is characterized in that; Said driving output loop (3) comprising: plug-in unit (J3) relay (K1), relay (K2), relay (K3); Triode (Q2), triode (Q3), triode (Q4), triode (Q5), triode (Q6); Diode (D4), diode (D5), diode (D6), resistance (R10), resistance (R11), resistance (R12), resistance (R13), resistance (R14), resistance (R15), binding post (CN1), binding post (CN2), binding post (CN3), wherein, the collector electrode of said triode (Q2) links to each other with the positive pole of diode (D4) and coil one end of relay (K1); The grounded emitter of triode (Q2); One end of the base stage connecting resistance (R10) of triode (Q2), the other end of resistance (R10) links to each other with connector (J3) the 4th pin, and the coil other end of the negative pole of diode (D4) and relay (K1) links to each other with the collector electrode of the negative pole of diode (D2) and triode (Q4); The collector electrode of triode (Q3) links to each other with the positive pole of diode (D5) and coil one end of relay (K2); The grounded emitter of triode (Q3); One end of the base stage connecting resistance (R11) of triode (Q3); The other end of resistance (R11) links to each other with connector (J3) the 5th pin, and the coil other end of the negative pole of diode (D5) and relay (K2) links to each other with the collector electrode of the negative pole of diode (D2) and triode (Q4); The collector electrode of triode (Q6) links to each other with the positive pole of diode (D6) and coil one end of relay (K3); The grounded emitter of triode (Q6); One end of the base stage connecting resistance (R15) of triode (Q6), the other end of resistance (R15) links to each other with connector (J3) the 6th pin, and the negative pole of diode (D6) connects with the coil other end of relay (K3) and links to each other with the negative pole of diode (D2) and the collector electrode of triode (Q4); Plug-in unit (J3) the 1st pin connects+12V; The 2nd pin connects+5V, an end of the 3rd pin connecting resistance (R14), the 7th pin ground connection; Fire line terminal (CN4) links to each other with an end of the contact terminal of relay (K1), relay (K2), relay (K3) respectively, and the other end of the contact terminal of relay (K1), relay (K2), relay (K3) links to each other with binding post (CN1), binding post (CN2), binding post (CN3) respectively; The collector electrode of triode (Q5) links to each other with an end of resistance (R12), resistance (R13), and the base stage of triode (Q5) links to each other with the other end of resistance (R14), the grounded emitter of triode (Q5); The collector electrode of triode (Q4) connects diode (D2) negative pole, and the emitter of triode (Q4) connects+12V, the other end of the base stage connecting resistance (R13) of triode (Q4).

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