CN2321168Y - Energy-saving remote-control wall switch - Google Patents

Abstract

The utility model discloses an energy-saving remote control wall switch, adopting the structural design which is not existed in the prior art. The utility model is provided with a remote control receiving demoding circuit whose output end is connected with a switching control circuit, a switch contact used for connecting with an electricity using circuit is arranged in the switching control circuit, and a power circuit is connected with all the circuits. The utility model has the advantages that the utility model can be conveniently exchanged with the original wall switch, and has the characteristic of light touch and the function of remote control. The utility model also has the advantages of low power consumption of the circuit, energy saving, high reliability, long service life, low cost, and convenient installation and operation.

Description

Energy-saving remote control wall switch

The utility model relates to the electric switch in the electronic technology, is a kind of switch on wall with distant control function.

Electric switch, as the switch of ligthing paraphernalias such as indoor and outdoor electric light, and the switch of the various electrical device of family expenses etc.Because being extensive use of and the modernization in family room, office commercial affairs building and increasing of household electrical appliance, people almost do not contact wall switch nowhere, but these existing wall switchs, though it is more and more beautiful that appearance is decorated, but basic structure does not have how many big variations, especially all these switches all are directly to touch the effect that just can play switch by the people basically, this gives people's life and the control as required of electrical equipment has been brought many inconvenience, has brought trouble also for the installation and the decoration of these switches.

The purpose of this utility model provide a kind of easy to install, reliability is high, low in energy consumption and can realize the energy-saving remote control wall switch of remote control.

Technical solution of the present utility model is: a kind of energy-saving remote control wall switch, adopted in the prior art the structural design that do not adopt: have a remote control to receive decoding circuit, output and an ON-OFF control circuit of remote control reception decoding circuit are joined, the make and break contact that is connected with electrical appliance is arranged in the ON-OFF control circuit, and a power circuit is connected with above-mentioned each circuit.

Remote control described in the utility model receives decoding circuit and is furnished with the remote control coding radiating circuit of a correspondence, and remote control coding radiating circuit, remote control receive to be had infrared respectively in the decoding circuit or radio transmission, receiving element.Certainly, also can adopt other suitable versions, as adopting other suitable emissions, receiving element etc.

Remote control described in the utility model receives decoding circuit and ON-OFF control circuit, power circuit are loaded in the housing together or on the base, remote control coding radiating circuit and dry cell are loaded in the housing in addition.Certainly, also can adopt other suitable versions.

Controllable silicon as switch control device is arranged in the ON-OFF control circuit described in the utility model, and silicon controlled one utmost point connects the electrical appliance circuit, and another utmost point connects the electrical appliance power transmission sequence through a shunting and voltage stabilizing circuit.The SCR control utmost point connects the output of comparison testing circuit through an amplifier, relatively have in the testing circuit with aforementioned remote control to receive the comparison signal input that signal input end reaches and power circuit joins that decoding circuit joins, also be connected to the standby voltage generation circuit in the circuit.Certainly, also can adopt other suitable circuit structures.

Comprise in the power circuit described in the utility model one with aforementioned shunting and voltage stabilizing circuit two ends and the double as that the connects voltage drop element of detection means relatively, reach the rectifier cell that links with voltage drop element, the aforementioned shunting of one termination of rectifier cell two outputs and voltage stabilizing circuit and controllable silicon connecting place, aforementioned standby voltage generation circuit of another termination and comparison detection signal treatment circuit.Certainly, also can adopt other suitable circuit structure forms.

Voltage drop element employing transformer described in the utility model or electric capacity, resistance.

Comparison testing circuit described in the utility model adopts reverser, gate circuit or voltage comparator circuit, amplifier, relatively testing circuit has signal input end of joining with aforementioned remote control reception decoding circuit and the comparison signal input that joins with power circuit, and its output joins through an amplifying circuit and the SCR control utmost point.Certainly, also can adopt other suitable circuit structures.

Standby voltage generation circuit described in the utility model comprises the RC circuit that joins with controllable silicon one utmost point and Light-Emitting Diode, rectification diode.Certainly, also can adopt other suitable circuit structure forms.

Remote control described in the utility model receives decoding circuit and the remote control coding radiating circuit adopts commercially available coding and decoding integrated circuit LC9301, LC9309.Certainly, also can adopt other suitable circuit.

Remote control described in the utility model receives on decoding circuit housing of living in or the base, and a panel is arranged, and manual button and infrared receiving window mouth are arranged on the panel, and open and close state display element also is housed.Certainly, also can adopt other suitable versions.

The utility model has the advantages that: novel structure, circuit are rationally succinct, can use with convenient exchange of former wall switch, but have characteristics and the distant control function that touches.Circuit itself is low in energy consumption, and is energy-conservation and reliability is high, long service life, and cost is low, and is easy to install.

The utility model is described in further detail below in conjunction with accompanying drawing and example:

Fig. 1 is the shape assumption diagram of a kind of energy-saving remote control wall switch of the present utility model.

Fig. 2 is the remote control coding radiating circuit figure in the utility model.

Fig. 3 is that the remote control in the utility model receives decoding circuit figure.

Fig. 4 is ON-OFF control circuit in the utility model and power supply, indicator light circuit figure.

Fig. 1 has described contour structures of the present utility model.It is identical with existing wall switch installation dimension, profile physical dimension, therefore can be replaced easily, and itself and general 86 types (or other suitable types) magazine can adapteds.Panel can adopt PVC to paste, (but also other suitable number) manually button 3 fixed screw covering plate 1 is arranged, is equipped with in the middle of it one or two arranged in PVC panel 2, the PVC panel 2 among the figure, manually above the button 3 an infrared receiving window mouth 4 is being arranged then, and on off state display lamp 5.Certainly, with above hand-hold type infrared transmitter in addition that matches, can adopt common reflector profile and structure.

Fig. 2 has described the circuit in the infrared remote-control emitter, comprising a block encoding integrated circuit LC9301, certainly, also comprise its peripheral cell: capacitor C 21, C22, C22, C24, resistance R 21, R22, R23, R24, R25, crystal oscillator, LED 1, LED2, triode BG21 etc., its circuit theory is a known technology, no longer describes at this.

Fig. 3 has described infrared remote control and has received decoding circuit, comprising a decoding integrated circuit LC9309, and infrared receiving terminal RW, with and peripheral cell: C31, C32, C33 C34 etc.Have five tunnel control output ends (can certainly adopt the control output end of other suitable ways).

Fig. 4 is described to be ON-OFF control circuit, power circuit and indicator light circuit, controllable silicon DK, diode D1, D2, D3, D4, D5, D6, D7, D8, D9, D10, D11, D13, D15 luminous tube diode D12, D14, triode BG1, BG2 transformer T are wherein arranged, capacitor C 1, C2, C3, C4, resistance R 1, R2, R3, R4, R5 and ic chip 1 etc.Formations such as IC1 voltage available comparator, amplifier, gate circuit.A is a signal input end.

Under the normality, resistance R 4, capacitor C 4, (C4 selects 0.022/630V for use) provide the voltage of 1mA, 9-10V to supply with complete machine by load, make switch be in holding state, when IC1 input control signal is high level, IC1 output high level acts on the BG2 base stage, controllable silicon DK triggering and conducting, and transformer T secondary induction goes out correspondent voltage, this voltage is on the one hand after rectification, as the supply voltage of complete machine, deliver to relatively testing circuit of IC1 on the other hand, so that control silicon controlled conducting state.D1-D4 does shunting and voltage stabilizing.D12 is used for manual button indication, can be clear that the position of manual button at night.D14 makes the open and close state and shows indicator light.BG1, D10, R1, C1, C2, C3, the typical voltage stabilizing circuit of formation.

Fig. 1, Fig. 2, Fig. 8, Fig. 4 have described an embodiment of the present utility model jointly.In this embodiment, the remote control that is made of together peripheral cells such as LC9309 decoding integrated circuit and electric capacity that has a Fig. 3 to describe receives decoding circuit, the output of remote control reception decoding circuit is connected with the signal input end A in the described ON-OFF control circuit of Fig. 4, two utmost points of controllable silicon DK in the ON-OFF control circuit respectively with or be connected with electrical appliance through shunting and voltage stabilizing circuit, as make and break contact, describe among Fig. 4 by transformer T, power circuit that rectifier bridge D5-D8 constitutes and aforesaid remote control receive decoding circuit, ON-OFF control circuit etc. are connected, so that working power to be provided.

Above-mentioned remote control receives the corresponding remote control coding radiating circuit of being furnished with Fig. 2 description of decoding circuit, include peripheral cells such as coding integrated circuit LC9301 and electric capacity, resistance, crystal oscillator, light-emitting diode, triode in the remote control coding radiating circuit, LED 2 is arranged as infrared emission component in the remote control coding emission decoding circuit, correspondingly, remote control receives in the decoding circuit then has infrared receiving terminal RW as infrared receiver component.

In the ON-OFF control circuit that Fig. 4 describes, with two utmost points respectively with or be the switch control element via the shunting of formations such as diode D1-D4 and the controllable silicon DK that voltage stabilizing circuit is connected with electrical appliance, an input A by the comparison testing circuit that comparator ICI and corresponding other elements constitute is connected with the output that aforementioned remote control receives in the decoding circuit, another input then is connected with rectifier cell output in the aforementioned power source circuit, relatively the output of testing circuit is through amplifying triode BG2 and resistance R 5, light-emitting diode D1 4 elements such as grade connect the control utmost point of controllable silicon DK, with control silicon controlled conducting state.Also have the standby voltage generation circuit of forming by resistance R 4, capacitor C 4, light-emitting diode D12, rectifier diode etc. that the standby voltage of 1mA, 9-10V is provided for complete machine in the circuit.

Also comprise power circuit among Fig. 4.This wherein has a transformer T as voltage drop element, reach the rectifier bridge D5-D8 that links with transformer, transformer also connects with aforesaid shunting and rectification circuit (D1-D4), the end of the controllable silicon DK that one termination of the output of rectifier bridge and aforementioned shunting and rectification circuit join, aforesaid standby voltage generation circuit of another termination and comparison testing circuit are so that circuitry can be in good holding state and switch state of a control.

Claims (10)

1, a kind of energy-saving remote control wall switch, it is characterized in that: have-individual remote control reception decoding circuit, output and an ON-OFF control circuit of remote control reception decoding circuit are joined, and the make and break contact that is connected with electrical appliance is arranged in the ON-OFF control circuit, and a power circuit is connected with above-mentioned each circuit.

2, energy-saving remote control wall switch according to claim 1, it is characterized in that: remote control receives decoding circuit and is furnished with the remote control coding radiating circuit of a correspondence, and remote control coding radiating circuit, remote control receive to be had infrared respectively in the decoding circuit or radio transmission, receiving element.

3, energy-saving remote control wall switch according to claim 2 is characterized in that: remote control receives decoding circuit and ON-OFF control circuit, power circuit are loaded in the housing together or on the base, remote control coding radiating circuit and dry cell are loaded in the housing in addition.

4, according to claim 1 or 2,3 described energy-saving remote control wall switchs, it is characterized in that: a controllable silicon as switch control device is arranged in the ON-OFF control circuit, silicon controlled one utmost point connects the electrical appliance electric line, another utmost point connects the electrical appliance power transmission sequence through a shunting and voltage stabilizing circuit, the SCR control utmost point connects a relatively output of testing circuit through an amplifying circuit, relatively have in the testing circuit with aforementioned remote control to receive the comparison signal input that signal input end reaches and power circuit joins that decoding circuit joins, also be connected to the standby voltage generation circuit in the circuit.

5, energy-saving remote control wall switch according to claim 4, it is characterized in that: comprise in the power circuit one with aforementioned shunting and voltage stabilizing circuit two ends and the double as that the connects voltage drop element of detection signal sampling relatively, reach the rectifier cell that links with voltage drop element, the aforementioned shunting of one termination of rectifier cell two outputs and voltage stabilizing circuit and controllable silicon connecting place, aforementioned standby voltage generation circuit of another termination and comparison detection signal treatment circuit.

6, energy-saving remote control wall switch according to claim 5 is characterized in that: voltage drop element employing transformer or electric capacity, resistance.

7, energy-saving remote control wall switch according to claim 4, it is characterized in that: compare testing circuit employing gate circuit or negater circuit, voltage comparator, amplifier, relatively testing circuit has signal input end of joining with aforementioned remote control reception decoding circuit and the comparison signal input that joins with power circuit, and its output joins through an amplifying circuit and the SCR control utmost point.

8, energy-saving remote control wall switch according to claim 4 is characterized in that: the standby voltage generation circuit comprises RC circuit that joins with controllable silicon one utmost point and light-emitting diode, the rectifier diode that joins with RC.

9, energy-conservation remote control wall switch according to claim 2 is characterized in that: remote control receives decoding circuit and the remote control coding radiating circuit adopts commercially available coder and decoder ic LC9301, LC9309.

10, energy-saving remote control wall switch according to claim 3 is characterized in that: remote control receives on the decoding circuit housing base of living in, and a panel is arranged, and manual button and infrared receiving window mouth are arranged on the panel, and open and close state display element also is housed.

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