CN206713119U - LED intelligent dimming switchs - Google Patents

Abstract

The utility model discloses a kind of ED lamps intelligent dimming switch, including AC DC conversion electric powers module, one-chip computer module, zigbee communication circuit modules, touch-control module and relay module, one-chip computer module respectively with zigbee communication circuit modules, touch-control module and the relay module, wherein the AC DC conversion electric powers module to one-chip computer module power；The beneficial effects of the utility model are：The utility model can realize the local dual-use function for controlling and remotely adjusting, so as to realize the adjustment control to LED lamp brightness.

Description

LED intelligent dimming switchs

Technical field

It the utility model is related to dimmer switch, and in particular to LED intelligent dimming switchs.

Background technology

With advances in technology, household lighting fixtures, the use of LED is more and more common, but LED use is also brought The problem of difficulty of light modulation, the more d. c. voltage signals that 1-10V is produced using mechanical knob of household LED light modulation at present, control LED The adjustable driving power of lamp；But can not so solve intelligent domestic system can local hand-operating light, and can remotely passes through visitor The problem of family end dims or dimmed by the linkage of other trigger conditions.

Utility model content

The purpose of this utility model is that providing a kind of LED intelligent dimming switchs, and solving conventional domestic LED light modulations can not There is the problem of being dimmed by client remote or dimming local hand-operating light by the linkage of other trigger conditions simultaneously.

To solve above-mentioned technical problem, the utility model uses following technical scheme：

LED intelligent dimming switchs, including AC-DC conversion electric powers module, one-chip computer module, zigbee communicating circuit moulds Block, touch-control module and relay module, one-chip computer module respectively with zigbee communication circuit modules, touch-control module and the relay Device module, wherein the AC-DC conversion electric powers module is powered to one-chip computer module.

Further technical scheme is that above-mentioned AC-DC conversion electric powers module includes buck converter U2, the decompression Converter U2 is LMR14006, and the pin 5 of the buck converter U2 is connected with external power supply port U1 pin VCC, described Buck converter U2 pin 2 is connected with external power supply port U1 pin GND, the pin N of the external power supply port U1 with Live wire L connections, pin L are connected with zero line N；

It is connected between external power supply port U1 pin N and buck converter U2 pin 5 by wire with VCC, pin L It is connected between buck converter U2 by wire with earth terminal, polar capacitor C2, institute is connected between the VCC and earth terminal The anode for stating polar capacitor C2 is connected with VCC；

Buck converter U2 pin 1 is connected with electric capacity C1, inductance L1 and polar capacitor C3 successively, wherein polar capacitor C3 Anode tap be connected with inductance L1 and+5V power supplys, cathode terminal ground connection；

Diode D1 is also associated with electric capacity C1, wherein diode D1 cathode terminal is connected with electric capacity C1, anode tap ground connection, Buck converter U2 pin 6 is connected to diode D1 cathode terminal on the cathode terminal；

Resistance R4 and resistance R7, resistance R4 and resistance the R7 series connection are also associated with inductance L1, and resistance R7 is grounded, institute The pin 3 for stating buck converter U2 is connected between resistance R4 and resistance R7.

Further technical scheme is that above-mentioned relay module includes triode Q2, diode D2 and relay, institute It is NPN type triode to state triode Q2, and relay Relay-SPST, wherein triode Q2 base stage pass through resistance R15 and list Piece machine module is connected, and triode Q2 emitter stage is connected by resistance R16 with resistance R15, and the emitter stage of the triode Q2 is also Ground connection, the colelctor electrode of the triode Q2 are connected with diode D2 anode, and negative electrode and the+5V power supplys of the diode D2 connect Connect, electric capacity C8 and relay are also parallel with the diode D2, switch K1, the switch K1 controls are provided with the relay LED processed, and be connected with live wire L.

Further technical scheme is that above-mentioned triode Q2 base stage passes through resistance R15 and PIC16F690 chips U6 On pin 18 connect.

Further technical scheme is that above-mentioned one-chip computer module leads to including PIC16F690 chips U6, the zigbee News circuit module includes drawing on the pin 12 and zigbee chips U5 on zigbee chips U5, the PIC16F690 chips U6 Pin 23 is connected, and the pin 10 on PIC16F690 chips U6 is connected with the pin 22 on zigbee chips U5.

Further technical scheme is, on the pin 12 on above-mentioned PIC16F690 chips U6 and zigbee chips U5 Pin 23 between be connected with resistance be 100R resistance R17；

It is 100R to be connected with resistance between the pin 22 on pin 10 and zigbee chips U5 on PIC16F690 chips U6 Resistance R18.

Further technical scheme is that above-mentioned touch-control module also includes touch panel interface P2, the touch panel Pin 2 on interface P2 is connected with the pin 7 on PIC16F690 chips U6, the pin 3 on touch panel interface P2 with Pin 8 on PIC16F690 chips U6 connects, the pin 4 on touch panel interface P2 and the pin on PIC16F690 chips U6 9 are connected, and the pin 5 on touch panel interface P2 is connected with the pin 16 on PIC16F690 chips U6；

Pin 15 on PIC16F690 chips U6 is connected with the pin 6 on touch panel interface P2 by resistance R19, Pin 14 on PIC16F690 chips U6 is connected with the pin 7 on touch panel interface P2 by resistance R21, PIC16F690 cores Pin 13 on piece U6 is connected with the pin 8 on touch panel interface P2 by resistance R22, drawing on PIC16F690 chips U6 Pin 6 and pin 11 are connected with the pin 9 on touch panel interface P2 by resistance R23.

Further technical scheme is, above-mentioned also to include burning routine interface, burn pin 5 on routine interface J1 with Pin 18 on PIC16F690 chips U6 connects, the pin 4 on routine interface J1 and drawing on the PIC16F690 chips U6 Pin 19 connects.

Further technical scheme is that above-mentioned also includes switch enclosure housing, and switch enclosure housing is by lid and box body sheet Body is formed, and button is provided with box body body and touches groove, and projection is provided with the medial surface of lid, and projection is stuck in button touch Groove（3）It is interior, and form button cavity with the bottom of button touch groove；

Magnetic sheet is additionally provided with lid medial surface, magnetic sheet is set around projection, and button touches the side of groove on box body body Edge is provided with iron plate, and magnetic sheet is connected with iron plate magnetic force.

Compared with prior art, the beneficial effects of the utility model are at least one of following：

1st, the utility model can realize local control and the dual-use function remotely adjusted, bright to LED lamp so as to realize The adjustment control of degree.

2nd, intelligent domestic system can be added, realizes that LED liberalization adjusts.

3rd, by projection, magnetic sheet and iron plate, then the water resistance of this switch is further improved.

Brief description of the drawings

Fig. 1 is Tthe utility model system block diagram.

Fig. 2 is the utility model AC-DC conversion electric power module diagrams.

Fig. 3 is the utility model one-chip computer module circuit diagram.

Fig. 4 is the utility model zigbee communication circuit module circuit diagrams.

Fig. 5 is the utility model touch-control module circuit diagram.

Fig. 6 is the utility model relay module circuit diagram.

Fig. 7 is that the utility model burns routine interface circuit diagram.

Fig. 8 is the structural representation of the utility model switch enclosure housing.

Embodiment

In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is only explaining The utility model, it is not used to limit the utility model.

Embodiment 1

As shown in figure 1, LED intelligent dimming switchs, including AC-DC conversion electric powers module, one-chip computer module, zigbee lead to Interrogate circuit module, touch-control module and relay module, the one-chip computer module respectively with the zigbee communication circuit modules, touch Module and relay module are controlled, wherein the AC-DC conversion electric powers module is powered to one-chip computer module, in the present embodiment, electricity Source provides electric energy to AC-DC conversion electric powers module, and alternating current is converted to direct current by AC-DC conversion electric power modules, so as to obtain Working power of the 12V DC electricity as dimmer switch, touch panel detection local keys of key signal, Control give LED break-makes Electricity, zigbee modules put capable communication into for calcaneus rete, and the present embodiment is by modules it is achieved thereby that by remotely adjusting LED The function of light fixture.

Embodiment 2

As shown in Fig. 2 in contrast to embodiment 1, the present embodiment optimizes AC-DC conversion electric power modules, AC-DC conversion electric powers Module is LMR14006 including buck converter U2, the buck converter U2, the pin 5 of the buck converter U2 with it is external Power port U1 pin VCC connections, the pin 2 of the buck converter U2 are connected with external power supply port U1 pin GND, The pin N of the external power supply port U1 is connected with live wire L, and pin L is connected with zero line N；External power supply port U1 pin N with It is connected between buck converter U2 pin 5 by wire with VCC, by wire with connecing between pin L and buck converter U2 Ground terminal connects, and polar capacitor C2 is connected between the VCC and earth terminal, the anode of the polar capacitor C2 is connected with VCC；Drop Pressure converter U2 pin 1 is connected with electric capacity C1, inductance L1 and polar capacitor C3 successively, wherein polar capacitor C3 anode tap with Inductance L1 connects with+5V power supplys, cathode terminal ground connection；Diode D1, wherein diode D1 cathode terminal are also associated with electric capacity C1 It is connected with electric capacity C1, anode tap ground connection, buck converter U2 pin 6 is connected to diode D1 negative electrode on the cathode terminal End；Resistance R4 and resistance R7, resistance R4 and resistance the R7 series connection are also associated with inductance L1, and resistance R7 is grounded, the drop Pressure converter U2 pin 3 is connected between resistance R4 and resistance R7, and in the present embodiment, AC-DC conversion electric power modules pass through Diode, resistance, inductance are converted to alternating current 12V DC voltage.

Embodiment 3

As shown in fig. 6, in contrast to embodiment 1, the present embodiment optimizes relay module, and relay module includes triode Q2, diode D2 and relay, the triode Q2 are NPN type triode, relay Relay-SPST, wherein triode Q2 Base stage be connected by resistance R15 with one-chip computer module, triode Q2 emitter stage is connected by resistance R16 with resistance R15, institute The emitter stage for stating triode Q2 is also grounded, and the colelctor electrode of the triode Q2 is connected with diode D2 anode, the diode D2 negative electrode is connected with+5V power supplys, and electric capacity C8 and relay are also parallel with the diode D2, is provided with the relay K1 is switched, the switch K1 controls LED, and is connected with live wire L, and in the present embodiment, Relay-SPST is single-pole single-throw(SPST, It is exactly the relay of only a pair of electric shocks, as illustrated, when resistance R5 JDQ control terminals are high level, triode Q2 conductings, after Electrical equipment adhesive, LED drive power are powered；When resistance R5 JDQ control terminals are low level, triode Q2 is not turned on, and relay breaks Open, LED drive power power-off.

Embodiment 4

As shown in fig. 6, in contrast to embodiment 3, the present embodiment optimizes triode Q2, and triode Q2 base stage passes through resistance R15 is connected with the pin 18 on PIC16F690 chips U6., in the present embodiment, triode Q2 and PIC16F690 chips U6 it Between more stable signal can be transmitted by resistance R15.

Embodiment 5

As shown in Figures 3 and 4, in contrast to embodiment 1, the present embodiment optimizes one-chip computer module, and one-chip computer module includes PIC16F690 chips U6, the zigbee communication circuit modules are included on zigbee chips U5, the PIC16F690 chips U6 Pin 12 be connected with the pin 23 on zigbee chips U5, the pin 10 on PIC16F690 chips U6 and zigbee chips U5 On pin 22 connect, in the present embodiment, zigbee communication circuit modules are connected with one-chip computer module so as to realize long-range control System.

Embodiment 6

In contrast to embodiment 5, the present embodiment optimizes the pin 12 on PIC16F690 chips U6, PIC16F690 chip U6 The resistance R17 that resistance is 100R is connected between the pin 23 on zigbee chips U5；Pin on PIC16F690 chips U6 The resistance R18 that resistance is 100R is connected between pin 22 on 10 and zigbee chips U5, in the present embodiment, resistance can be steady Determine protection circuit, serve the function of partial pressure.

Embodiment 7

As shown in Figures 3 and 5, in contrast to embodiment 5, the present embodiment optimizes touch-control module, and touch-control module also includes touching Pin 2 on panel interface P2, the touch panel interface P2 is connected with the pin 7 on PIC16F690 chips U6, touch panel Pin 3 on interface P2 is connected with the pin 8 on PIC16F690 chips U6, the pin 4 on touch panel interface P2 with Pin 9 on PIC16F690 chips U6 connects, the pin 5 on touch panel interface P2 and the pin on PIC16F690 chips U6 16 are connected, and the pin 15 on PIC16F690 chips U6 is connected with the pin 6 on touch panel interface P2 by resistance R19, Pin 14 on PIC16F690 chips U6 is connected with the pin 7 on touch panel interface P2 by resistance R21, PIC16F690 cores Pin 13 on piece U6 is connected with the pin 8 on touch panel interface P2 by resistance R22, drawing on PIC16F690 chips U6 Pin 6 and pin 11 are connected with the pin 9 on touch panel interface P2 by resistance R23, and in the present embodiment, user of service is led to Touch-control module is crossed to realize brilliance control of the regulation to LED.

Embodiment 8

As shown in fig. 7, in contrast to embodiment 5, the present embodiment is additionally arranged burning routine interface, burns the pin on routine interface J1 5 are connected with the pin 18 on PIC16F690 chips U6, on the pin 4 on routine interface J1 and the PIC16F690 chips U6 Pin 19 connects, and in the present embodiment, burning routine interface can come to carry out program burn writing to single-chip microcomputer.

Embodiment 9

As shown in figure 8, in contrast to embodiment 1, the present embodiment is additionally arranged switch enclosure housing, and switch enclosure housing is by the He of lid 1 Box body body 2 is formed, and button is provided with box body body 2 and touches groove 3, projection 4, projection 4 are provided with the medial surface of lid 1 It is stuck in button to touch in groove 3, and button cavity is formd with the bottom of button touch groove 3；Also set up on the medial surface of lid 1 Have magnetic sheet 5, magnetic sheet 5 is set around projection 4, and button touches the edge of groove 3 and is provided with iron plate 6 on box body body 2, magnetic sheet 5 with The magnetic force of iron plate 6 connects, and in the present embodiment, by projection 4, lid 1 touches groove 3 with button and forms a step-like company It junction, so effectively can prevent water from being penetrated from connection gap, and be connected by magnetic sheet 5 with the magnetic force of iron plate 6, then enter One step adds and is completely embedded degree between lid 1 and box body body 2, so as to further prevent in use, there is moisture content to enter At the button entered, the problems such as causing button malfunction.

Although reference be made herein to the utility model is described multiple explanatory embodiments of the present utility model, still, It should be understood that those skilled in the art can be designed that a lot of other modifications and embodiment, these modifications and embodiment It will fall within spirit disclosed in the present application and spirit.More specifically, in disclosure, drawings and claims In the range of, a variety of variations and modifications can be carried out to the building block and/or layout of theme combination layout.Except to building block And/or outside the modification and improvement of layout progress, to those skilled in the art, other purposes also will be apparent.

Claims (8)

1.LED lamps intelligent dimming switchs, it is characterised in that：Lead to including AC-DC conversion electric powers module, one-chip computer module, zigbee Interrogate circuit module, touch-control module and relay module, the one-chip computer module respectively with the zigbee communication circuit modules, touch Module and relay module are controlled, wherein the AC-DC conversion electric powers module is powered to one-chip computer module.

2. LED intelligent dimming switch according to claim 1, it is characterised in that：The AC-DC conversion electric powers module bag It is LMR14006, the pin 5 of the buck converter U2 and external power supply end to include buck converter U2, the buck converter U2 Mouth U1 pin VCC connections, the pin 2 of the buck converter U2 are connected with external power supply port U1 pin GND, described outer The pin N for meeting power port U1 is connected with live wire L, and pin L is connected with zero line N；

It is connected between the pin N and buck converter U2 of the external power supply port U1 pin 5 by wire with VCC, pin L It is connected between buck converter U2 by wire with earth terminal, polar capacitor C2, institute is connected between the VCC and earth terminal The anode for stating polar capacitor C2 is connected with VCC；

The pin 1 of the buck converter U2 is connected with electric capacity C1, inductance L1 and polar capacitor C3 successively, wherein polar capacitor C3 Anode tap be connected with inductance L1 and+5V power supplys, cathode terminal ground connection；

Diode D1 is also associated with the electric capacity C1, wherein diode D1 cathode terminal is connected with electric capacity C1, anode tap ground connection, Buck converter U2 pin 6 is connected to diode D1 cathode terminal on the cathode terminal；

Resistance R4 and resistance R7, resistance R4 and resistance the R7 series connection are also associated with the inductance L1, and resistance R7 is grounded, institute The pin 3 for stating buck converter U2 is connected between resistance R4 and resistance R7.

3. LED intelligent dimming switch according to claim 1, it is characterised in that：The relay module includes three poles Pipe Q2, diode D2 and relay, the triode Q2 are NPN type triode, relay Relay-SPST, wherein triode Q2 base stage is connected by resistance R15 with one-chip computer module, and triode Q2 emitter stage is connected by resistance R16 with resistance R15, The emitter stage of the triode Q2 is also grounded, and the colelctor electrode of the triode Q2 is connected with diode D2 anode, two pole Pipe D2 negative electrode is connected with+5V power supplys, and electric capacity C8 and relay are also parallel with the diode D2, is set on the relay There is switch K1, the switch K1 controls LED, and is connected with live wire L.

4. LED intelligent dimming switch according to claim 3, it is characterised in that：The base stage of the triode Q2 passes through Resistance R15 is connected with the pin 18 on PIC16F690 chips U6.

5. LED intelligent dimming switch according to claim 1, it is characterised in that：The one-chip computer module includes PIC16F690 chips U6, the zigbee communication circuit modules are included on zigbee chips U5, the PIC16F690 chips U6 Pin 12 be connected with the pin 23 on zigbee chips U5, the pin 10 on PIC16F690 chips U6 and zigbee chips U5 On pin 22 connect.

6. LED intelligent dimming switch according to claim 5, it is characterised in that：On the PIC16F690 chips U6 The resistance R17 that resistance is 100R is connected between pin 23 on pin 12 and zigbee chips U5；

The electricity that resistance is 100R is connected between the pin 22 on pin 10 and zigbee chips U5 on PIC16F690 chips U6 Hinder R18.

7. LED intelligent dimming switch according to claim 5, it is characterised in that：The touch-control module also includes touching Pin 2 on panel interface P2, the touch panel interface P2 is connected with the pin 7 on PIC16F690 chips U6, touch panel Pin 3 on interface P2 is connected with the pin 8 on PIC16F690 chips U6, the pin 4 on touch panel interface P2 with Pin 9 on PIC16F690 chips U6 connects, the pin 5 on touch panel interface P2 and the pin on PIC16F690 chips U6 16 connections；

Pin 15 on PIC16F690 chips U6 is connected with the pin 6 on touch panel interface P2 by resistance R19, Pin 14 on PIC16F690 chips U6 is connected with the pin 7 on touch panel interface P2 by resistance R21, PIC16F690 cores Pin 13 on piece U6 is connected with the pin 8 on touch panel interface P2 by resistance R22, drawing on PIC16F690 chips U6 Pin 6 and pin 11 are connected with the pin 9 on touch panel interface P2 by resistance R23.

8. LED intelligent dimming switch according to claim 1, it is characterised in that：Also include switch enclosure housing, it is described to open Box housing is closed by lid（1）With box body body（2）Form, the box body body（2）On be provided with button touch groove（3）, institute State lid（1）Medial surface on be provided with projection（4）, the projection（4）It is stuck in button and touches groove（3）It is interior, and touched with button Touch groove（3）Bottom form button cavity；

The lid（1）Magnetic sheet is additionally provided with medial surface（5）, the magnetic sheet（5）Around projection（4）Set, the box body sheet Body（2）Upper button touches groove（3）Edge be provided with iron plate（6）, the magnetic sheet（5）With iron plate（6）Magnetic force connects.