CN202795728U - Energy-saving multi-power supply wireless timing control device for learning code technology - Google Patents
Energy-saving multi-power supply wireless timing control device for learning code technology Download PDFInfo
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- CN202795728U CN202795728U CN 201220480523 CN201220480523U CN202795728U CN 202795728 U CN202795728 U CN 202795728U CN 201220480523 CN201220480523 CN 201220480523 CN 201220480523 U CN201220480523 U CN 201220480523U CN 202795728 U CN202795728 U CN 202795728U
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Abstract
The utility model discloses an energy-saving multi-power supply wireless timing control device for a learning code technology. The energy-saving multi-power supply wireless timing control device consists of a signal transmitting end and at least two signal receiving ends, wherein the signal transmitting end comprises a key circuit connected with a plurality of keys, a control circuit, a transmitting circuit which are sequentially connected; a power supply circuit is connected with the control circuit; the signal receiving ends are sequentially connected through a receiving circuit, a decoding circuit and a control circuit; the power supply circuit is connected with the decoding circuit and an output circuit; the control circuit is connected with an indicating circuit and the output circuit; and wireless signal codes between the signal transmitting end and the signal receiving ends can be learning codes. According to the system, a user can control different signal receiving ends (power sockets) through a signal transmitting end.
Description
[technical field]
The utility model relates to a kind of time power source control system, is specifically related to a kind of energy-conservation many power supply wireless time cycle controller that adopts the learning code technology.
[background technology]
Modern society need to generally adopt timing device because of energy-conservation and control, by timing device periodically action can be set, and existing control device of wireless generally all is provided with timing device.And for Electrical Safety needs or be convenient to house-owner to control power-supply system and electrical equipment in the room, so a kind of power supply is realized that wireless time-controlled device can satisfy above demand.
Chinese patent 200810026635.3 discloses a kind of bidirectional radio power source control device, its technical scheme that adopts is: include wireless receiver and wireless controller, wireless receiver includes wireless receiving circuit, receiving end micro-processor interface circuit, power switch circuit, uses electrical socket.Wireless receiving circuit is connected with the receiving end micro-processor interface circuit, the power switch circuit output terminal be connected with electrical socket, wireless controller includes radio transmitter, control end microcontroller circuit, operation panel circuit, display circuit; Radio transmitter is connected with the control end microcontroller circuit, and control end microcontroller circuit input end is connected with the guidance panel output circuit, control end microcontroller circuit input end also is connected with display circuit.Wireless receiver also includes a radio transmitter, and radio transmitter is connected with an output terminal of receiving end microcontroller circuit.Wireless controller also includes a wireless receiving circuit, and wireless receiving circuit is connected with an output terminal of control end microcontroller circuit.When the work of needs control electrical appliance, wireless controller sends control signal, control signal power ratio control circuit is processed and sent to wireless receiver by semaphore request after receiving this signal, by power circuit control electrical socket, simultaneously signal of feedback is sent to wireless controller, is confirmed by wireless controller, if correctly then send confirmation signal, if mistake then send error correction signal is processed again by bidirectional radio power source control device.
This device is realized the controlled in wireless to power supply, but the technical scheme of this utility model only realizes that a wireless controller is to the control of a namely supply socket of wireless receiver, connect a plurality of different electrical equipment and generally have a plurality of supply sockets in room in our real life, and according to the room owner different electrical equipment use habits are adopted the different timing setting.This device technique scheme is used to the user and is not brought much convenience, the control device of wireless that opposite electrical equipment own carries just can realize, the technical program is not possessed can the enforcement effect.
[utility model content]
In order to overcome the deficiency of existing technology, the utility model provides a kind of energy-conservation many power supply wireless time cycle controller of learning code technology, it is supply socket that this system adopts at least two signal receiving ends of a signal transmitting terminal control, adopt the learning code technology, the user can control the time set of different electrical power socket as required, to realize different electric appliance usage time controls.Be the timing controlled of supply socket by the user to the signal receiving end that each electrical appliance connects, realize energy-conservation purpose.
Technical problem to be solved in the utility model is: the radio power source control device of prior art adopts a signal transmitting terminal and a signal receiving end (being supply socket), and generally comprises the signal receiving end (being supply socket) of the different electrical equipment of a plurality of connections in the real room.How we need to realize how different signal receiving ends identifies a signal instruction that transmitting terminal sends like this.
The technical scheme that the utility model adopts is: a kind of energy-conservation many power supply wireless time cycle controller of learning code technology, it is comprised of a signal transmitting terminal and two signal receiving ends (supply socket) at least, the signal transmitting terminal comprises the key circuit that is connected with some buttons, control circuit, radiating circuit connects successively, feed circuit are connected with control circuit, signal receiving end (supply socket) is by receiving circuit, decoding circuit, control circuit connects successively, feed circuit are connected with output circuit with decoding circuit, and control circuit is connected with output circuit with indicating circuit.
As preferably, energy-conservation many power supply wireless time cycle controller of described a kind of learning code technology, it is characterized in that described signal transmitting terminal button comprises that switch key, time setting button, acknowledgement key, slide key are connected with key circuit, key circuit is connected with the integrated circuit of control circuit.
As preferably, energy-conservation many power supply wireless time cycle controller of described a kind of learning code technology is characterized in that described slide key is arranged on signal transmitting terminal one side, and slide key can be slide switch or rolling switch, and correspondence arranges sliding tray or opening.
As preferably, energy-conservation many power supply wireless time cycle controller of described a kind of learning code technology is characterized in that, the described time is set button and is set as required 5-500 minute.
As preferably, energy-conservation many power supply wireless time cycle controller of described a kind of learning code technology, it is characterized in that, the receiving circuit of described signal receiving end (supply socket) comprises that antenna and frequency selection network form, and decoding circuit comprises decoding selection equipment and is connected the amplifying circuit connection.
As preferably, energy-conservation many power supply wireless time cycle controller of described a kind of learning code technology, it is characterized in that, the amplifying circuit of described decoding circuit is connected with the tripod of the integrated circuit (IC) of control circuit, integrated circuit (IC) the 9th pin connects memory circuit, the 14 pin connecting valve circuit of integrated circuit (IC), the 16 pin of integrated circuit (IC) is connected with output circuit, integrated circuit (IC) the 4th, six, seven, octal is connected with condition indication circuit respectively.
As preferably, energy-conservation many power supply wireless time cycle controller of described a kind of learning code technology is characterized in that described output circuit comprises relay J K, and relay J K one end is connected with feed circuit, and an other end is connected with power output end.
As preferably, energy-conservation many power supply wireless time cycle controller of described a kind of learning code technology is characterized in that, the wireless signal coding can adopt learning code between signal transmitting terminal and the signal receiving end (supply socket).
Key circuit is the key assignments of distinguishing different key, each button only has a unique value corresponding with it, after some buttons are pressed, this value just sends in the integrated circuit (IC) control circuit, after integrated circuit (IC) receives this key assignments, this key assignments is processed, form a string by opening the code that begins, address code, numeric data code, the set of number of check code, then launching by radiating circuit, after signal input part S1 presses down in the key circuit, the 2nd of integrated circuit modules U1 in control circuit will produce different high-low levels with 14 pin, U1 is by the judgement to varying level, value to button is processed, and then U1 is again the code that begins that opens of standard, the address code of check code and unique self adds the key assignments of signal input part S1, encodes through integrated circuit modules U1 inside, octal by integrated circuit modules U1, pass through again resistance R 4, capacitor C 5, inductance L 2 is launched.Each button can arrange key assignments as required, such as the switch key gauge tap; Acknowledgement key represents to determine key assignments; A plurality of different time buttons arrange as required 5-500 minute different time sections and set, and slide key is selected the different key key assignments by slide switch or rolling switch, corresponding unlike signal receiving end (supply socket), make signal transmitting terminal and unlike signal receiving end (supply socket) build the wireless signal bridge circuit, control a plurality of unlike signal receiving ends (supply socket) to realize a signal transmitting terminal.
Signal receiving end (supply socket) receiving circuit is that the radiowave in the space is carried out frequency-selecting, the frequency that emits in the transmitter is selected, amplify simultaneously, amplifying signal is transported in the decoding circuit decodes, decoding circuit amplifies decoding signal out again, then is transported in the control circuit, control circuit is according to receiving different signal codes, make different responses, then output to output circuit, specific as follows:
When pressing signal input part S1, signal transmitting terminal button (supposes that S1 represented countdown 15 minutes), transmitter is just launched the unique code of signal output part S1, in receiver, signal is through antenna, passing through capacitor C 1, enter into by inductance L 1, capacitor C 2, capacitor C 4, transistor Q1, capacitor C 5, inductance L 2, capacitor C 3, resistance R 1, crystal diode D7, resistance R 2, in the frequency selection network that resistance R 3 grades form, signal is selected, through decoding circuit resistance R 7, resistance R 17, the decoding of capacitor C 9, useful signal is separated, enter into resistance R 8, resistance R 9, capacitor C 8, resistance R 10, resistance R 11, crystal diode D6, capacitor C 10, operational amplifier U1A, in the amplifying circuit of operational amplifier U1B, amplify through the amplifying circuit signal, signal after further amplifying enters into the tripod of integrated circuit modules IC1, after integrated circuit modules IC1 receives signal, signal is analyzed, relatively, be confirmed to be the code which button sends, according to different codes, make different processing, it for example is the code of S1 (supposing that S1 represented countdown 15 minutes), the 16 pin of integrated circuit modules IC1 is exported a high level so, the timer of integrated circuit modules IC inside begins countdown simultaneously, after 15 minutes, low level of the 16 pin output of integrated circuit modules IC1. resistance R 18, transistor Q3, crystal diode D5, relay J K forms output circuit, relay J K is closed when the 16 pin of integrated circuit modules IC1 is exported a high level, circuit has output, relay J K disconnects the circuit no-output when the 16 pin of integrated circuit modules IC1 is exported a low level.Crystal diode D11, crystal diode D12, crystal diode D13, crystal diode D14, resistance R 31, resistance R 32, resistance R 33, resistance R 34 consist of the output state indicating circuit, being used to indicate current output is to be in which kind of state, resistance R 13, interrupteur SW 1 consist of on-off circuit, whenever click, relay J K opens or closes once, resistance R 14, interrupteur SW 2 consists of memory circuit, when pinning interrupteur SW after 2 five seconds, enter remember condition, be used for remembering the code of each transmitter.
This device adopts the learning code technology, signal receiving end (supply socket) has individual learning procedure in the time of first the use, stir signal transmitting terminal slide switch or rolling switch to respective signal receiving end (supply socket), to carry out the address code storing memory to the signal transmitting terminal, after being the work of signal transmitting terminal and signal receiving end (supply socket) plugged, pin signal transmitting terminal button SW1 five seconds, LED1 glimmers slowly after five seconds, be the memory loitering phase this moment, (instruction comprises and opens the code that begins in the instruction that launches Deng the signal transmitting terminal, address code, numeric data code and string number that check code forms), after the instruction that receives the signal transmitting terminal, LED1 glimmers soon, show that signal receiving end (supply socket) has received instruction this moment, remember by memory storage simultaneously, confirm memory by button SW2 after holding instruction, the tinkle of bells after confirming like this is corresponding with corresponding instruction.After having confirmed, stir signal transmitting terminal slide switch or rolling switch to next respective signal receiving end (supply socket), next signal receiving end (supply socket) enters remember condition, after waiting for next group signal transmitting terminal instruction, new instruction compares with the instruction of preserving before, if comparing result with hold instruction before all different, repeat so above-mentioned hold instruction and confirm so repeat step; If comparing result is the same with a certain instruction of preserving before, will not preserve this instruction, simultaneously exit function and state.Preserve the instruction of all signal transmitting terminals through after the above step at signal receiving end (supply socket), and be that exclusive command is so that signal transmitting terminal and signal receiving end (supply socket) make up wireless bridge.
The utility model beneficial effect: can realize a plurality of unlike signal receiving ends (supply socket) are controlled by a signal transmitting terminal by the native system user, make as required simultaneously the electrical appliance saves energy in order to realize to being connected in the electrical equipment time setup control of different signal receiving end (supply socket).
Further understand feature of the present utility model and technology contents for making, see drawings and embodiments for details, yet appended embodiment is only for reference and explanation usefulness, and the utility model is limited.
[description of drawings]
Fig. 1 is the utility model signal transmitting terminal module map;
Fig. 2 is the utility model signal receiving end (supply socket) module map;
Fig. 3 is an embodiment signal of the utility model transmitting terminal circuit diagram;
Fig. 4 is an embodiment signal receiving end of the utility model (supply socket) circuit diagram:
Among the figure, 101-signal receiving end (supply socket) receiving circuit; 102-signal receiving end (supply socket) decoding circuit; 103-signal receiving end (supply socket) feed circuit; 104-signal receiving end (supply socket) condition indication circuit; 105-signal receiving end (supply socket) control circuit; 106-signal receiving end (supply socket) output circuit; 201-signal transmitting terminal key circuit; 202-signal transmitting terminal feed circuit; 203-signal transmitting terminal control circuit; 204-signal transmitting terminal radiating circuit.
[embodiment]
The below elaborates to the utility model with specific embodiment:
Key circuit is the key assignments of distinguishing different key, each button only has a unique value corresponding with it, after some buttons are pressed, this value just sends in the integrated circuit (IC) control circuit, after integrated circuit (IC) receives this key assignments, this key assignments is processed, form a string by opening the code that begins, address code, numeric data code, the set of number of check code, then launching by radiating circuit, after signal input part S1 presses down in the key circuit, the 2nd of integrated circuit modules U1 in control circuit will produce different high-low levels with 14 pin, U1 is by the judgement to varying level, value to button is processed, and then U1 is again the code that begins that opens of standard, the address code of check code and unique self adds the key assignments of signal input part S1, encodes through integrated circuit modules U1 inside, octal by integrated circuit modules U1, pass through again resistance R 4, capacitor C 5, inductance L 2 is launched.Each button can arrange key assignments as required, such as the switch key gauge tap; Acknowledgement key represents to determine key assignments; A plurality of different time buttons arrange as required 5-500 minute different time sections and set, and slide key is selected 1-4 different key key assignments by slide switch or rolling switch, corresponding 1-4 unlike signal receiving end (supply socket), make signal transmitting terminal and unlike signal receiving end (supply socket) build the wireless signal bridge circuit, to realize signal transmitting terminal control four unlike signal receiving ends (supply socket).
Signal receiving end (supply socket) receiving circuit is that the radiowave in the space is carried out frequency-selecting, the frequency that emits in the transmitter is selected, amplify simultaneously, amplifying signal is transported in the decoding circuit decodes, decoding circuit amplifies decoding signal out again, then be transported in the control circuit, control circuit is according to receiving different signal codes, make different responses, then output to output circuit, specific as follows: as when signal transmitting terminal button is pressed signal input part S1, (to suppose that S1 represented countdown 15 minutes), transmitter is just launched the unique code of signal output part S1, in receiver, signal is through antenna, passing through capacitor C 1, enter into by inductance L 1, capacitor C 2, capacitor C 4, transistor Q1, capacitor C 5, inductance L 2, capacitor C 3, resistance R 1, crystal diode D7, resistance R 2, in the frequency selection network that resistance R 3 grades form, signal is selected, through decoding circuit resistance R 7, resistance R 17, the decoding of capacitor C 9, useful signal is separated, enter into resistance R 8, resistance R 9, capacitor C 8, resistance R 10, resistance R 11, crystal diode D6, capacitor C 10, operational amplifier U1A, in the amplifying circuit of operational amplifier U1B, amplify through the amplifying circuit signal, signal after further amplifying enters into the tripod of integrated circuit modules IC1, after integrated circuit modules IC1 receives signal, signal is analyzed, relatively, be confirmed to be the code which button sends, according to different codes, make different processing, it for example is the code of S1 (supposing that S1 represented countdown 15 minutes), the 16 pin of integrated circuit modules IC1 is exported a high level so, the timer of integrated circuit modules IC inside begins countdown simultaneously, after 15 minutes, low level of the 16 pin output of integrated circuit modules IC1. resistance R 18, transistor Q3, crystal diode D5, relay J K forms output circuit, relay J K is closed when the 16 pin of integrated circuit modules IC1 is exported a high level, circuit has output, relay J K disconnects the circuit no-output when the 16 pin of integrated circuit modules IC1 is exported a low level.Crystal diode D11, crystal diode D12, crystal diode D13, crystal diode D14, resistance R 31, resistance R 32, resistance R 33, resistance R 34 consist of the output state indicating circuit, being used to indicate current output is to be in which kind of state, resistance R 13, interrupteur SW 1 consist of on-off circuit, whenever click, relay J K opens or closes once, resistance R 14, interrupteur SW 2 consists of memory circuit, when pinning interrupteur SW after 2 five seconds, enter remember condition, be used for remembering the code of each transmitter.
Native system adopts the learning code technology, signal receiving end (supply socket) has individual learning procedure in the time of first the use, stir signal transmitting terminal slide switch or rolling switch to respective signal receiving end (supply socket), to carry out the address code storing memory to the signal transmitting terminal, after being the work of signal transmitting terminal and signal receiving end (supply socket) plugged, pin signal transmitting terminal button SW1 five seconds, LED1 glimmers slowly after five seconds, be the memory loitering phase this moment, (instruction comprises and opens the code that begins in the instruction that launches Deng the signal transmitting terminal, address code, numeric data code and string number that check code forms), after the instruction that receives the signal transmitting terminal, LED1 glimmers soon, show that signal receiving end (supply socket) has received instruction this moment, remember by memory storage simultaneously, confirm memory by button SW2 after holding instruction, the tinkle of bells after confirming like this is corresponding with corresponding instruction.After having confirmed, stir signal transmitting terminal slide switch or rolling switch to next respective signal receiving end (supply socket), next signal receiving end (supply socket) enters remember condition, after waiting for next group signal transmitting terminal instruction, new instruction compares with the instruction of preserving before, if comparing result with hold instruction before all different, repeat so above-mentioned hold instruction and confirm so repeat step; If comparing result is the same with a certain instruction of preserving before, will not preserve this instruction, simultaneously exit function and state.Preserve the instruction of all signal transmitting terminals through after the above step at signal receiving end (supply socket), and be that exclusive command is so that signal transmitting terminal and signal receiving end (supply socket) make up wireless bridge.
Can realize a plurality of unlike signal receiving ends (supply socket) are controlled by a signal transmitting terminal by the native system user, make as required simultaneously the electrical appliance saves energy in order to realize to being connected in the electrical equipment time setup control of different signal receiving end (supply socket).
Yet the better feasible embodiment of above-mentioned only the utility model, non-so limitation the utility model protection domain is done various distortion or is applied mechanically all within this technical scheme protection domain according to above-described embodiment.
Claims (2)
1. energy-conservation many power supply wireless time cycle controller of a learning code technology, it is characterized in that, formed by a signal transmitting terminal and at least two signal receiving ends, the signal transmitting terminal comprises that the key circuit, control circuit, the radiating circuit that are connected with some buttons connect successively, feed circuit are connected with control circuit, signal receiving end is connected successively by receiving circuit, decoding circuit, control circuit, feed circuit are connected with output circuit with decoding circuit, and control circuit is connected with output circuit with indicating circuit.
2. energy-conservation many power supply wireless time cycle controller of a kind of learning code technology according to claim 1 is characterized in that, the wireless signal coding can adopt learning code between signal transmitting terminal and the signal receiving end.
Priority Applications (1)
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CN 201220480523 CN202795728U (en) | 2012-09-14 | 2012-09-14 | Energy-saving multi-power supply wireless timing control device for learning code technology |
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CN 201220480523 CN202795728U (en) | 2012-09-14 | 2012-09-14 | Energy-saving multi-power supply wireless timing control device for learning code technology |
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CN 201220480523 Expired - Fee Related CN202795728U (en) | 2012-09-14 | 2012-09-14 | Energy-saving multi-power supply wireless timing control device for learning code technology |
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2012
- 2012-09-14 CN CN 201220480523 patent/CN202795728U/en not_active Expired - Fee Related
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C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20130313 Termination date: 20130914 |