CN2452068Y

CN2452068Y - Remote control apparatus for lamp tube

Info

Publication number: CN2452068Y
Application number: CN 00256520
Authority: CN
Inventors: 翁琳松
Original assignee: Hongjin Electronic Co ltd
Current assignee: Hongjin Electronic Co ltd
Priority date: 2000-11-30
Filing date: 2000-11-30
Publication date: 2001-10-03
Anticipated expiration: 2010-11-30

Abstract

The utility model provides a remote control apparatus for a lamp tube, which carries out wireless remote control on the actions of at least one lamp tube. The wireless remote control lamp device comprises a remote control pattern assembly, at least one base and a remote control receiver, wherein, the remote control receiver is inserted into the base. The remote control pattern assembly emits a remote control signal so that the remote control receiver which learns and has address codes beforehand can receive the signal. After the remote control receiver identifies the correctness of the signal, the lamp is triggered by the base to generate the actions of luminescence or extinction, and thereby, the effect of the implementation of wireless remote control on the lamp is achieved. The utility model has the characteristics of convenient operation and elasticity.

Description

The fluorescent tube telechiric device

The utility model is relevant a kind of wireless remote controller, particularly controls power-saving lighting tube about a kind of in the wireless remote control mode, makes it produce the telechiric device of bright or the action of extinguishing.

At present, the switch of control fluorescent tube commonly used is provided with usually and is fixed on the wall, and each switch only can be controlled it and connect corresponding fluorescent tube originally, arbitrarily change voluntarily again, only with whole tube power line redesign, change circuit, but this engineering need expend considerable time and money, very trouble.

Moreover, with making rapid progress of work development in science and technology, the standard of living that makes people pursue promotes day by day, many people more and more stress convenience in life and agility, make wireless remote mode use widely in daily life, as TV, electric fan, sound equipment and cold air etc., but the light fixture that has illumination only still must be controlled with the switch that is fixed on the wall, quite inconvenience especially to some handicapped people, more increases its difficulty in life and inconvenience.

Therefore, control each fluorescent tube for making people be convenient to elasticity, and make some handicapped users, can be by other people assistance, promptly can wireless remote mode control the action of fluorescent tube voluntarily, the utility model is promptly at above-mentioned difficulty, the wireless remote controller that proposes the bright of a kind of may command fluorescent tube or go out.

Fundamental purpose of the present utility model, but be at the wireless remote controller that the bright of a kind of wireless remote control fluorescent tube is provided or extinguishes, can install according to need, make the last quite facility of its use and have elasticity.

Another purpose of the present utility model, be that a kind of wireless remote controller of controlling bulb is being provided, but make its long-distance remote control fluorescent tube, and control a plurality of fluorescent tubes simultaneously and move together, so that subregion or grouping are planned the bright of fluorescent tube or go out to have managerial convenience and elasticity.

According to the utility model, one fluorescent tube telechiric device comprises a telepilot module, it is to launch a remote control signal, and make a receiver of remote-control sytem that is arranged in the pedestal can receive this signal, and after its identification is errorless, promptly drive fluorescent tube, control the bright of fluorescent tube more than the tool or go out so that utilize with wireless remote mode.

The purpose of this utility model can reach by following measure:

A kind of fluorescent tube telechiric device, it is to control the bright of at least one fluorescent tube or go out in the wireless remote control mode, this fluorescent tube telechiric device comprises:

One telepilot module, comprise a CPU (central processing unit), it is to connect a radio-frequency (RF) transmitter, a Keyboard Control group, a display device and one first storing memory respectively, this CPU (central processing unit) receives data and the remote control preface sign indicating number that this Keyboard Control group is keyed in, and be presented at it on this display device and be stored in this first storing memory, this CPU (central processing unit) is that a remote control control code is sent to this radio-frequency (RF) transmitter, make it launch a remote control signal, other has a power supply unit to provide above-mentioned each element required electric power;

One pedestal, it is a side that is installed in this fluorescent tube, this pedestal is provided with several shrinkage pools, is provided with two elastic conductors that contact in each this shrinkage pool; And

One receiver of remote-control sytem, it is to utilize the number pin to be plugged in the shrinkage pool of this pedestal and be electrically connected with this fluorescent tube formation with an ac power input end respectively, and this pin is to be divided into two with an insulator, this receiver of remote-control sytem comprises a radio-frequency (RF) Receiving Device, it is to receive this remote control signal that this telepilot module is launched, and utilize study and device for identifying to carry out preface sign indicating number identification comparison with after confirming this remote control control code, promptly transmit one and confirm that signal is to a thyristor that it connected, its two ends are connected to this ac power input end and fluorescent tube, to open or to close AC power according to this affirmation signal towards bulb, and this study and device for identifying more connect one second storing memory, to store the remote control control code of The built-in preface sign indicating number and this reception, and one rectification and direct current power supply unit connect this ac power input end, and alternating current is converted to direct current so that above-mentioned each assembly required electric power to be provided.

The concrete connection of Fig. 5 telepilot module is as follows:

CPU (central processing unit): 31 legs of CPU (central processing unit) 8051 meet power supply VCC and series capacitance C15, resistance 8.2K to ground, the connection mid point of its series capacitance C15, resistance 8.2K connects 9 legs of CPU (central processing unit) 8051,19,18 legs of CPU (central processing unit) 8051 crystal oscillator CR1 in parallel and respectively by capacitor C 16, C17 to ground;

Radio-frequency (RF) transmitter: 23 legs of CPU (central processing unit) 8051 connect the base stage of transistor Q1 and pass through protection tube Q3 to ground by resistance R 1, power supply VCC connects the collector of transistor Q1 by resistance in series R7, inductance L 1, the mid point of its resistance in series R7, inductance L 1 passes through capacitor C 1 to ground, the collector of transistor Q1 connects transistorized emitting stage by capacitor C 2, and transistorized emitting stage connects parallel resistor R2, capacitor C 3 circuit;

The Keyboard Control group: the matrix circuit that 32 buttons of Keyboard Control group are formed connects 1,2,3,4,5,6,7,8,12,13,14,15 legs of CPU (central processing unit) 8051 respectively, and 1,2,3,4,5,6,7,8 of CPU (central processing unit) meets power supply VCC by resistance 10K respectively;

Display device: 32,33,34,35,36,37,38,39 legs of CPU (central processing unit) 8051 connect 7,8,9,10,11,12,13,14 legs of liquid crystal display module LCD16X2 respectively, 21 legs of CPU (central processing unit) 8051 connect 6 legs of liquid crystal display module LCD16X2,22 legs of CPU (central processing unit) 8051 connect 4 legs of liquid crystal display module LCD16X2,1,3, the 5 leg ground connection of liquid crystal display module LCD16X2,2 legs of liquid crystal display module LCD16X2 meet power supply VCC;

First storing memory: 25,26,27,28 legs of CPU (central processing unit) 8051 connect 1,2,3,4 legs of the first storing memory 93C66 respectively, shunt capacitance C19 between 5,8 legs of the first storing memory 93C66,8 legs of the first storing memory 93C66 meet power supply VCC, the 5 leg ground connection of the first storing memory 93C66;

The concrete connection of Fig. 6 receiver of remote-control sytem is as follows:

Radio-frequency (RF) Receiving Device: 1 of integrated circuit RX3310,2 leg shunt inductance L1,

capacitor C

10,3 of integrated circuit RX3310,11 leg shunt capacitance C14,4 of integrated circuit RX3310,5,9 legs are respectively by capacitor C 11, capacitor C 12, resistance R 7 ground connection, 8 legs of integrated circuit RX3310 connect 17 legs of power supply VCC and integrated circuit PIC16C54/JW (18) by resistance R 8, the 7 leg ground connection of integrated circuit RX3310,10 of integrated circuit RX3310,12,13 legs are respectively by capacitor C 19, C18, C17 ground connection, the 15 leg ground connection of integrated circuit RX3310 and meet power supply VCC by capacitor C 22, antenna is by capacitor C 20 and inductance L 3 in parallel, capacitor C 21 ground connection, the inductance L 3 of capacitor C 20 and series connection, the mid point of capacitor C 21 connects 14 legs of integrated circuit RX3310 by

capacitor C

16,16 of integrated circuit RX3310,17 legs connect the inductance L 2 of series connection, capacitor C 15, power supply VCC is by capacitor C 13 ground connection, power supply VCC connects 18 legs of integrated circuit RX3310, and power supply VCC connects 16 legs of integrated circuit RX3310 by resistance R 9;

Study and device for identifying: 15 of integrated circuit PIC16C54/JW (18), 16 legs crystal oscillator OSCI in parallel and pass through capacitor C 6 respectively, C7 ground connection, 7 of integrated circuit PIC16C54/JW (18), 8,9,10 legs meet 1 of the second storing memory 93C66 respectively, 2,3,4 legs, 5 of the second storing memory 93C66,8 leg shunt capacitance C9, power supply VCC connects 8 legs of the second storing memory 93C66, the 5 leg ground connection of the second storing memory 93C66, the 3 leg ground connection of integrated circuit PIC16C54/JW (18), power supply VCC is by resistance R 2 and shunt capacitance C2, resistance R 3 ground connection, resistance R 2 and shunt capacitance C2, the tie point of resistance R 3 connects 4 legs of integrated circuit PIC16C54/JW (18), 1 of integrated circuit PIC16C54/JW (18), 2,6,18 legs connect the input end of thyristor control circuit darlington amplifying circuit respectively;

The thyristor control circuit: the collector of darlington amplifying circuit meets power supply VCC, the emitter of darlington amplifying circuit is by resistance R 6 ground connection, the input end of two termination photoelectric coupled devices of its resistance R 6, the output terminal of photoelectric coupled device connects the ac input end of bridge rectifier by resistance R 5, the dc output end anode of bridge rectifier and negative terminal connect the two ends of thyratron by capacitor C 8, the negative terminal of bridge rectifier connects the trigger electrode of thyratron, two termination AC power of thyratron.

Wherein the CPU (central processing unit) in this telepilot module more connects a radio receiver, in order to receive the data that another telepilot module of copy is transmitted.

The concrete circuit of its radio receiver Fig. 5 connects as follows:

1 of radio receiver integrated circuit RX3310,2 leg shunt inductance L1,

capacitor C

6,3 of integrated circuit RX3310,11 leg shunt capacitance C10,4 of integrated circuit RX3310,5,9 legs are respectively by capacitor C 4, capacitor C 5, resistance R 1 connects 24 legs of CPU (central processing unit) 8051,8 legs of integrated circuit RX3310 meet power supply VCC by resistance R 3, the 7 leg ground connection of integrated circuit RX3310,10 of integrated circuit RX3310,12,13 legs are respectively by capacitor C 8, C6, C7 ground connection, the 15 leg ground connection of integrated circuit RX3310 and meet power supply VCC by capacitor C 14, antenna is by capacitor C 13 and inductance L 2 in parallel, capacitor C 12 ground connection, capacitor C 13 and inductance L 2 in parallel, the mid point of capacitor C 12 connects 14 legs of integrated circuit RX3310 by

capacitor C

9,16 of integrated circuit RX3310,17 legs connect the inductance L 3 of series connection, capacitor C 9, power supply VCC is by capacitor C 11 ground connection, power supply VCC connects 18 legs of integrated circuit RX3310, and power supply VCC connects 16 legs of integrated circuit RX3310 by resistance R 2;

But this first storing memory and second storing memory are to be an electronic type clear program ROM (read-only memory).

The utility model has following advantage compared to existing technology:

Because independent remote control need have the demand of independent addressing, so interior receiver of remote-control sytem of each fluorescent tube that the utility model is designed, all has an independently preface sign indicating number addressing, and can provide study of telepilot module and copy, therefore every telepilot module can not only independently be controlled a fluorescent tube, also can control the dozens of fluorescent tube simultaneously through study, the telepilot module also can be set at identical button simultaneously with the number fluorescent tube, make it start when controlling the number fluorescent tube or close according to this button, so that subregion or grouping are planned the bright of fluorescent tube or go out to have managerial convenience and elasticity.

Fluorescent tube telechiric device provided by the utility model is controlled opening or closing of at least one fluorescent tube with wireless remote control mode, and can install according to need, makes the last quite facility of its use and has elasticity.In addition, when the utility model did not use, as long as the receiver of remote-control sytem on the pedestal that fluorescent tube is other pulls up, then this fluorescent tube directly with the control of the switch on the wall, had more increased the elasticity and the convenience that use promptly as common fluorescent tube.

Under utilize specific embodiment to cooperate appended diagram to illustrate in detail, when the effect that is easier to understand the purpose of this utility model, technology contents, characteristics and is reached.

[illustrating]

Fig. 1 is the structure calcspar of telepilot module of the present utility model.

Fig. 2 is the preceding synoptic diagram of the assembling of pedestal of the present utility model and receiver of remote-control sytem.

Fig. 3 is a synoptic diagram after the assembling of pedestal of the present utility model and receiver of remote-control sytem.

Fig. 4 is the structure calcspar of receiver of remote-control sytem of the present utility model.

Fig. 5 is the electrical schematic diagram of telepilot module of the present utility model.

Fig. 6 is the electrical schematic diagram of receiver of remote-control sytem of the present utility model.

Main feature of the present utility model is to utilize a Digiplex module to launch a remote control signal, and Make a receiver of remote-control sytem that is installed in the pedestal can receive this signal, and after its identification is errorless, namely drive lamp Pipe action is so that the user can utilize radio controlled mode to control the bright of at least one fluorescent tube or go out.

As shown in Figure 1, a telepilot module 10 comprises a CPU (central processing unit) 12, and it is to connect a radio-frequency (RF) transmitter 14, a Keyboard Control group 16, a display device 18, one first storing memory 20 and a radio receiver 22 respectively.This CPU (central processing unit) 12 is used to receive the data that this Keyboard Control group 16 is keyed in, remote control preface sign indicating number and region code with the bulb of user institute desire control, receive the usefulness of study and identification for receiver of remote-control sytem, at this moment, remote control module 10 also is presented at this sign indicating number on the display device 18 simultaneously and is stored in first storing memory 20; CPU (central processing unit) 12 is sent to a radio-frequency (RF) transmitter 14 with a remote control control code, so that make it launch a remote control signal to receiver of remote-control sytem, to set this receiver of remote-control sytem and to control it; The radio receiver 22 that CPU (central processing unit) 12 is connected then transmits next data in order to receive another telepilot module of copy; And power supply unit 26 is generally electric battery, and then in order to provide above-mentioned each assembly required electric power, its concrete electrical schematic diagram is shown in Figure 5.

Receiver of remote-control sytem 40 of the present utility model is to receive the remote control signal that above-mentioned telepilot module 10 is launched, as shown in Figures 2 and 3, receiver of remote-control sytem 40 is to be plugged in the pedestal 30, and pedestal 32 is to be installed in fluorescent tube one side and to be connected to fluorescent tube and ac power input end thereof respectively.On this pedestal 30, be provided with several shrinkage pools 32, be provided with two elastic conductors that contact 34 in each shrinkage pool 32; The bottom of receiver of remote-control sytem 40 then is provided with several conductive connecting pins 42 relatively, and for being plugged in this shrinkage pool 32, wherein each conductive connecting pin 42 is to utilize an insulator 44 to be divided into two conductive parts 46 fully.In the conductive connecting pin 42 of receiver of remote-control sytem 40 is inserted in the shrinkage pool 32 of pedestal 30 and separately with two elastic conductors 34, and two conductive parts 46 respectively contact conducting with two elastic conductors 34, this moment, receiver of remote-control sytem 40 was to form with fluorescent tube and ac power input end to be electrically connected, and can accept the control of telepilot module at any time, with the action of control fluorescent tube; And when receiver of remote-control sytem 40 nothings were plugged in the pedestal 30, two elastic conductors 34 in the shrinkage pool 30 restored to the original state and contact with each other, and this moment, fluorescent tube was promptly identical with general fluorescent tube, directly controlled fluorescent tube with the switch on the wall.

The circuit block diagram of above-mentioned receiver of remote-control sytem 40 as shown in Figure 4, its electrical schematic diagram as shown in Figure 6, this receiver of remote-control sytem 40 includes a study and a device for identifying 48, and it is to connect a radio-frequency (RF) Receiving Device 50, a rectification and direct current power supply unit and one second storing memory 54.Radio-frequency (RF) Receiving Device 50 is to be used for receiving the remote control signal that telepilot module 10 is emitted, and recognize through preface sign indicating number study and device for identifying 48 whether comparison is correct to confirm its remote control control code, radio-frequency (RF) Receiving Device 50 also can be stored in second storing memory 54 receiving the remote control control code of coming, and is to store the built-in preface sign indicating number of receiver of remote-control sytem 40 itself for comparison in second storing memory 54; Wireless remote controlled receiver 40 with the remote control control code that receives after study and device for identifying 32 identifications are errorless, promptly transmit one and confirm that signal is to the thyristor (TRIAC) 56 that it connected, thyristor 56 is to be an interchange gauge tap, and its two ends utilize pedestal respectively and are connected on the ac power input end 60 and fluorescent tube start end 70 of fluorescent tube.

If modern when receiver 40 has the remote control signal that receives wireless remote controller, the thyristor 56 of receiver of remote-control sytem 40 is breakdown or closes AC power towards fluorescent tube, makes fluorescent tube shinny or extinguish; Other has a rectification and direct current power supply unit 52 to be connected to this bulb interior ac power input end 60 and other assemblies, in order to alternating current is converted to direct current so that each the assembly required electric power in the receiver of remote-control sytem 30 to be provided.

In addition, but the first above-mentioned storing memory 20 and second storing memory 54 are to be an electronic type clear program ROM (read-only memory) (Electrically Erasable Prograrammable Read-OnlyMemory).

The utility model must be imported the bulb preface sign indicating number of institute's desire control and affiliated region code thereof at the telepilot module with the Keyboard Control group earlier before use, and be emitted in the receiver of remote-control sytem with radio-frequency (RF) transmitter, radio-frequency (RF) Receiving Device in this receiver of remote-control sytem reaches after receiving the preface sign indicating number in this study device for identifying, be stored in second storing memory for its learning and memory and commentaries on classics, so that the telepilot module can it be learnt at least one receiver of remote-control sytem of setting in advance with above-mentioned mode remote control, and makes this telepilot module can control the action of at least one fluorescent tube.

But the above person is preferred embodiment of the present utility model only, is not to be used for limiting the scope that the utility model is implemented.All equalizations of doing according to the spirit that the utility model disclosed change or modify, and must be encompassed in the claim of the present utility model.

Claims

1. fluorescent tube telechiric device, it is to control the bright of at least one fluorescent tube or go out in the wireless remote control mode, it is characterized in that: this fluorescent tube telechiric device comprises:

2. fluorescent tube telechiric device as claimed in claim 1 is characterized in that:

The concrete connection of telepilot module is as follows:

Radio-frequency (RF) transmitter: 23 legs of CPU (central processing unit) 8051 connect the base stage of transistor Q1 and pass through protection tube Q3 to ground by resistance R 1, power supply VCC connects transistor Q1 collector by resistance in series R7, inductance L 1, the mid point of its resistance in series R7, inductance L 1 passes through capacitor C 1 to ground, the collector of transistor Q1 connects transistorized emitting stage by capacitor C 2, and transistorized emitting stage connects parallel resistor R2, capacitor C 3 circuit;

The concrete connection of receiver of remote-control sytem is as follows:

Radio-frequency (RF) Receiving Device: 1 of integrated circuit RX3310,2 leg shunt inductance L1, capacitor C 10,3 of integrated circuit RX3310,11 leg shunt capacitance C14,4 of integrated circuit RX3310,5,9 legs are respectively by capacitor C 11, capacitor C 12, resistance R 7 ground connection, 8 legs of integrated circuit RX3310 connect 17 legs of power supply VCC and integrated circuit PIC16C54/JW (18) by resistance R 8, the 7 leg ground connection of integrated circuit RX3310,10 of integrated circuit RX3310,12,13 legs are respectively by capacitor C 19, C18, C17 ground connection, the 15 leg ground connection of integrated circuit RX3310 and meet power supply VCC by capacitor C 22, antenna is by capacitor C 20 and inductance L 3 in parallel, capacitor C 21 ground connection, the inductance L 3 of capacitor C 20 and series connection, the mid point of capacitor C 21 connects 14 legs of integrated circuit RX3310 by capacitor C 16,16 of integrated circuit RX3310,17 legs connect the inductance L 2 of series connection, capacitor C 15, power supply VCC is by capacitor C 13 ground connection, power supply VCC connects 18 legs of integrated circuit RX3310, and power supply VCC connects 16 legs of integrated circuit RX3310 by resistance R 9;

3. fluorescent tube telechiric device as claimed in claim 1 is characterized in that: wherein the CPU (central processing unit) in this telepilot module more connects a radio receiver, in order to receive the data that another telepilot module of copy is transmitted.

4. fluorescent tube telechiric device as claimed in claim 3 is characterized in that: the concrete circuit of its radio receiver Fig. 5 connects as follows:

1 of radio receiver integrated circuit RX3310,2 leg shunt inductance L1, capacitor C 6,3 of integrated circuit RX3310,11 leg shunt capacitance C10,4 of integrated circuit RX3310,5,9 legs are respectively by capacitor C 4, capacitor C 5, resistance R 1 connects 24 legs of CPU (central processing unit) 8051,8 legs of integrated circuit RX3310 meet power supply VCC by resistance R 3, the 7 leg ground connection of integrated circuit RX3310,10 of integrated circuit RX3310,12,13 legs are respectively by capacitor C 8, C6, C7 ground connection, the 15 leg ground connection of integrated circuit RX3310 and meet power supply VCC by capacitor C 14, antenna is by capacitor C 13 and inductance L 2 in parallel, capacitor C 12 ground connection, capacitor C 13 and inductance L 2 in parallel, the mid point of capacitor C 12 connects 14 legs of integrated circuit RX3310 by capacitor C 9,16 of integrated circuit RX3310,17 legs connect the inductance L 3 of series connection, capacitor C 9, power supply VCC is by capacitor C 11 ground connection, power supply VCC connects 18 legs of integrated circuit RX3310, and power supply VCC connects 16 legs of integrated circuit RX3310 by resistance R 2.

5. fluorescent tube telechiric device as claimed in claim 1 is characterized in that: but wherein this first storing memory and second storing memory are to be an electronic type clear program ROM (read-only memory).