CN205104018U - Air conditioner is wireless remote control ware for self -starting - Google Patents
Air conditioner is wireless remote control ware for self -starting Download PDFInfo
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- CN205104018U CN205104018U CN201520882776.0U CN201520882776U CN205104018U CN 205104018 U CN205104018 U CN 205104018U CN 201520882776 U CN201520882776 U CN 201520882776U CN 205104018 U CN205104018 U CN 205104018U
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Abstract
The utility model discloses an air conditioner is wireless remote control ware for self -starting, which comprises an outer shell, lay the electronic circuit board in the shell and install the input button on the shell, infrared transmitting tubes and pilot lamp, it is integrated useful in the voltage transformer who gathers air conditioner power supply loop voltage on the electronic circuit board, with the voltage transformer output meet and be used for the air conditioner from the power off condition resume the incoming telegram state once more automatic operation from start control circuit and with meet from start control circuit and for the power supply battery from the start control circuit power supply, from start control circuit including the signal amplification follower circuit who connects gradually, a single -chip microcomputer, relay drive output circuit, encoder and infrared emission circuit, voltage transformer's output meets with signal amplification follower circuit's input, the utility model relates to a novelty, simple structure, can real -time supervision air conditioner power supply state, and collect manual and open the air conditioner as an organic whole with the automatic air conditioner function of opening in incoming telegram back, convenient to use, easy operation, the practicality is strong.
Description
Technical field
The utility model belongs to Digiplex technical field, is specifically related to a kind of air-conditioning self-starting Digiplex.
Background technology
Air-conditioning can to the temperature in air, humidity, degree of purity and gas velocity etc. change, meet people to produce and living needs, therefore every field is widely used in, current indoor temperature especially machine room, laboratories etc. require very high to environment temperature, air-conditioning is the necessary equipment that indoor temperature regulates, but because of each side reason, often there is mains failure phenomenon, after having a power failure, air-conditioner control system is closed, manual intervention must be obtained and reopen air-conditioner control system, special during festivals or holidays, because air-conditioner control system of sending a telegram here again after power failure can not recover to start in time, cause environment temperature seriously out of control, environment temperature is once exceed standard, indoor service device, the network equipments such as switch then there will be overheated deadlock phenomenon, have a strong impact on the normal operation of equipment, equipment long-time running seriously can increase equipment failure rate in high temperature environments, reduce equipment life, increase the risk of device damage, in view of above reason, environment temperature problem needs to solve in time, therefore, nowadays a kind of structure is lacked simple, cost is low, air-conditioning self-starting Digiplex reasonable in design, whether can there is electricity by Real-Time Monitoring air-conditioning current supply circuit, and automatically open air conditioning function after integrating manually opened air-conditioning and incoming call, solve in power failure, standby electricity causes power-off when switching, after incoming call, make air-conditioning system automatically can run by former setup parameter, under ensureing indoor temperature or interior length time unmanned situation, air-conditioning system can be run automatically by former setup parameter, to guarantee that indoor temperature is normal, moderate.
Utility model content
Technical problem to be solved in the utility model is for above-mentioned deficiency of the prior art, a kind of air-conditioning self-starting Digiplex is provided, it is rationally novel in design, structure is simple, energy Real-Time Monitoring air-conditioning power supply state, and integrates manually opened air-conditioning and incoming call rear unlatching automatically air conditioning function, easy to use, simple to operate, practical, be convenient to promote the use of.
For solving the problems of the technologies described above, the technical solution adopted in the utility model is: a kind of air-conditioning self-starting Digiplex, it is characterized in that: comprise shell, the input key being laid in the electronic circuit board in described shell and installing on the housing, infrared transmitting tube and pilot lamp, described electronic circuit board is integrated with the voltage transformer (VT) for gathering air-conditioning current supply circuit voltage, connect with described voltage transformer (VT) output terminal and recover to come from off-position auto-start control circuit that electricity condition runs again automatically for air-conditioning and connect with described auto-start control circuit and the supplying cell of powering for described auto-start control circuit, described auto-start control circuit comprises the signal connected successively and amplifies follow circuit, single-chip microcomputer, relay driver output circuit, scrambler and infrared transmitting circuit, the input end that output terminal and the signal of described voltage transformer (VT) amplify follow circuit connects, the output terminal of described input key connects with the input end of scrambler, the input end of described infrared transmitting tube and the input end of pilot lamp all connect with the output terminal of infrared transmitting circuit, described relay driver output circuit comprises Darlington transistor Q1 and relay K 1, first pole of described Darlington transistor Q1 is connected with described single-chip microcomputer by resistance R10,3rd pole of Darlington transistor Q1 connects with 5V power output end, two-way is divided in second pole of Darlington transistor Q1, one tunnel connects with the negative electrode of diode D3, and another road connects with one end of the coil of relay K 1, the equal ground connection of the other end of the anode of diode D3 and the coil of relay K 1.
Above-mentioned a kind of air-conditioning self-starting Digiplex, is characterized in that: described voltage transformer (VT) comprises voltage transformer (VT) TV1013.
Above-mentioned a kind of air-conditioning self-starting Digiplex, it is characterized in that: described signal amplifies follow circuit and comprises dual operational amplifier TL082,5th pin of described dual operational amplifier TL082 connects with one end of the secondary of voltage transformer (VT) TV1013,6th pin of dual operational amplifier TL082 is through resistance R2 ground connection, 7th pin of dual operational amplifier TL082 divides two-way, one tunnel connects with the 3rd pin of dual operational amplifier TL082 through resistance R4, and another road connects with the sliding end of swept resistance R1 and the link of a stiff end; Another stiff end of swept resistance R1 connects with the 6th pin of dual operational amplifier TL082, and the 1st pin of dual operational amplifier TL082 divides two-way, and a road connects with described single-chip microcomputer through resistance R3, and another road connects with the 2nd pin of dual operational amplifier TL082.
Above-mentioned a kind of air-conditioning self-starting Digiplex, it is characterized in that: described scrambler comprises infrared encoder PT2248,5th pin of described infrared encoder PT2248 connects with the moving contact of relay K 1,10th pin of infrared encoder PT2248 connects with the stationary contact of relay K 1,10th pin of infrared encoder PT2248 connects with the 13rd pin of infrared encoder PT2248 through diode D2, and the 11st pin of infrared encoder PT2248 connects with the 13rd pin of infrared encoder PT2248 through diode D1.
Above-mentioned a kind of air-conditioning self-starting Digiplex, it is characterized in that: described infrared transmitting circuit comprises PNP triode Q2 and PNP triode Q3, the base stage of described PNP triode Q2 connects with the 15th pin of infrared encoder PT2248 through resistance R9, the emitter of PNP triode Q2 connects with 5V power output end, the collector of PNP triode Q2 connects with the collector of PNP triode Q3, and the emitter of PNP triode Q3 connects with 5V power output end through resistance R8, resistance R7 and electric capacity C1.
Above-mentioned a kind of air-conditioning self-starting Digiplex, it is characterized in that: described infrared transmitting tube comprises infrared transmitting tube DS1, the link of the collector of one end of described infrared transmitting tube DS1 and the collector of PNP triode Q2 and PNP triode Q3 connects, and the other end of infrared transmitting tube DS1 is through resistance R11 ground connection.
Above-mentioned a kind of air-conditioning self-starting Digiplex, it is characterized in that: described pilot lamp comprises pilot lamp LED1, the link of the collector of the anode of described pilot lamp LED1 and the collector of PNP triode Q2 and PNP triode Q3 connects, and the negative electrode of pilot lamp LED1 is through resistance R12 ground connection.
Above-mentioned a kind of air-conditioning self-starting Digiplex, is characterized in that: described single-chip microcomputer comprises 51 series monolithics.
The utility model compared with prior art has the following advantages:
1, the utility model is by arranging magnitude of voltage in voltage transformer (VT) Real-time Collection air-conditioning current supply circuit, monitoring air-conditioning whether normal power supply, and signalization is amplified follow circuit and is carried out amplification to the data of voltage transformer (VT) collection and follow process, guarantee that single-chip microcomputer receives accessible data, control accuracy is high, circuit is simple, is convenient to promote the use of.
2, the utility model is by arranging input key and relay K 1, and make input key and relay K 1 asynchronous working, when air-conditioning is powered normal, relay K 1 disconnects, and uses input key to input to scrambler, realizes manually openedly arranging running state of air conditioner; When air-conditioning power-off, relay K 1 adhesive, reset encoder data, automatically open air-conditioning after guaranteeing incoming call, reliable and stable, result of use is good.
3, the utility model is by arranging infrared transmitting circuit and infrared transmitting tube, transmission of wireless signals, and circuit is simple, and cost is low.
4, the utility model is rationally novel in design, adopts supplying cell independently for auto-start control circuit is powered, guarantees that telepilot has electricity in real time, practical, is convenient to promote the use of.
In sum, the utility model is novel in design reasonable, and structure is simple, energy Real-Time Monitoring air-conditioning power supply state, and integrates manually opened air-conditioning and incoming call rear unlatching automatically air conditioning function, easy to use, simple to operate, practical, is convenient to promote the use of.
Below by drawings and Examples, the technical solution of the utility model is described in further detail.
Accompanying drawing explanation
Fig. 1 is schematic block circuit diagram of the present utility model.
Fig. 2 is the circuit connecting relation schematic diagram that the utility model voltage transformer (VT) and signal amplify follow circuit.
Fig. 3 is the circuit connecting relation schematic diagram of the utility model relay driver output circuit, scrambler, infrared transmitting circuit, infrared transmitting tube and pilot lamp.
Description of reference numerals:
1-voltage transformer (VT); 2-signal amplifies follow circuit; 3-single-chip microcomputer;
4-relay driver output circuit; 5-input key;
6-scrambler; 7-infrared transmitting circuit; 8-supplying cell;
9-infrared transmitting tube; 10-pilot lamp.
Embodiment
As shown in figures 1 and 3, the utility model comprises shell, the input key 5 being laid in the electronic circuit board in described shell and installing on the housing, infrared transmitting tube 9 and pilot lamp 10, described electronic circuit board is integrated with the voltage transformer (VT) 1 for gathering air-conditioning current supply circuit voltage, connect with described voltage transformer (VT) 1 output terminal and recover to come from off-position auto-start control circuit that electricity condition runs again automatically for air-conditioning and connect with described auto-start control circuit and the supplying cell 8 of powering for described auto-start control circuit, described auto-start control circuit comprises the signal connected successively and amplifies follow circuit 2, single-chip microcomputer 3, relay driver output circuit 4, scrambler 6 and infrared transmitting circuit 7, the input end that output terminal and the signal of described voltage transformer (VT) 1 amplify follow circuit 2 connects, the output terminal of described input key 5 connects with the input end of scrambler 6, the input end of described infrared transmitting tube 9 and the input end of pilot lamp 10 all connect with the output terminal of infrared transmitting circuit 7, described relay driver output circuit 4 comprises Darlington transistor Q1 and relay K 1, first pole of described Darlington transistor Q1 is connected with described single-chip microcomputer 3 by resistance R10,3rd pole of Darlington transistor Q1 connects with 5V power output end, two-way is divided in second pole of Darlington transistor Q1, one tunnel connects with the negative electrode of diode D3, and another road connects with one end of the coil of relay K 1, the equal ground connection of the other end of the anode of diode D3 and the coil of relay K 1.
As shown in Figure 2, in the present embodiment, described voltage transformer (VT) 1 comprises voltage transformer (VT) TV1013.
In physical cabling, as shown in Figure 2, one end, former limit of voltage transformer (VT) TV1013 connects the live wire of civil power through resistance R5, and the zero line of another termination civil power of former limit of voltage transformer (VT) TV1013, the secondary two ends of voltage transformer (VT) TV1013 are parallel with resistance R6.
As shown in Figure 2, in the present embodiment, described signal amplifies follow circuit 2 and comprises dual operational amplifier TL082,5th pin of described dual operational amplifier TL082 connects with one end of the secondary of voltage transformer (VT) TV1013,6th pin of dual operational amplifier TL082 is through resistance R2 ground connection, 7th pin of dual operational amplifier TL082 divides two-way, and a road connects with the 3rd pin of dual operational amplifier TL082 through resistance R4, and another road connects with the sliding end of swept resistance R1 and the link of a stiff end; Another stiff end of swept resistance R1 connects with the 6th pin of dual operational amplifier TL082,1st pin of dual operational amplifier TL082 divides two-way, one tunnel connects with described single-chip microcomputer 3 through resistance R3, and another road connects with the 2nd pin of dual operational amplifier TL082.
As shown in Figure 3, in the present embodiment, described scrambler 6 comprises infrared encoder PT2248,5th pin of described infrared encoder PT2248 connects with the moving contact of relay K 1,10th pin of infrared encoder PT2248 connects with the stationary contact of relay K 1,10th pin of infrared encoder PT2248 connects with the 13rd pin of infrared encoder PT2248 through diode D2, and the 11st pin of infrared encoder PT2248 connects with the 13rd pin of infrared encoder PT2248 through diode D1.
As shown in Figure 3, in the present embodiment, described infrared transmitting circuit 7 comprises PNP triode Q2 and PNP triode Q3, the base stage of described PNP triode Q2 connects with the 15th pin of infrared encoder PT2248 through resistance R9, the emitter of PNP triode Q2 connects with 5V power output end, the collector of PNP triode Q2 connects with the collector of PNP triode Q3, and the emitter of PNP triode Q3 connects with 5V power output end through resistance R8, resistance R7 and electric capacity C1.
As shown in Figure 3, in the present embodiment, described infrared transmitting tube 9 comprises infrared transmitting tube DS1, and the link of the collector of one end of described infrared transmitting tube DS1 and the collector of PNP triode Q2 and PNP triode Q3 connects, and the other end of infrared transmitting tube DS1 is through resistance R11 ground connection.
As shown in Figure 3, in the present embodiment, described pilot lamp 10 comprises pilot lamp LED1, and the link of the collector of the anode of described pilot lamp LED1 and the collector of PNP triode Q2 and PNP triode Q3 connects, and the negative electrode of pilot lamp LED1 is through resistance R12 ground connection.
In the present embodiment, described single-chip microcomputer 3 comprises 51 series monolithics.
When the utility model uses, supplying cell 8 is in real time for each circuit in auto-start control circuit is powered, ensure telepilot constantly a little, when mains-supplied is normal, voltage transformer (VT) 1 gathers line voltage, faint electric signal is amplified also voltage follow through signal amplification follow circuit 2 and is sent in single-chip microcomputer 3 by the voltage data gathered, single-chip microcomputer 3 output low level makes Darlington transistor Q1 not work, relay K 1 disconnects, user is by the manually opened air-conditioning of input key 5, the encoded device of signal 6 exports and drives pilot lamp 10 bright by infrared transmitting circuit 7, drive infrared transmitting tube 9 wireless transmission infrared signal to air-conditioning,
When mains-supplied is abnormal or power-off time; voltage transformer (VT) 1 does not collect line voltage; single-chip microcomputer does not receive data output high level makes Darlington transistor Q1 work; relay K 1 adhesive, reset scrambler 6 data, the encoded device of signal 6 exports and drives pilot lamp 10 bright by infrared transmitting circuit 7; drive infrared transmitting tube 9 wireless transmission infrared signal to air-conditioning; automatically air-conditioning is opened after guaranteeing incoming call, simple to operate, effective.
The above; it is only preferred embodiment of the present utility model; not the utility model is imposed any restrictions; every above embodiment is done according to the utility model technical spirit any simple modification, change and equivalent structure change, all still belong in the protection domain of technical solutions of the utility model.
Claims (8)
1. an air-conditioning self-starting Digiplex, it is characterized in that: comprise shell, the input key (5) being laid in the electronic circuit board in described shell and installing on the housing, infrared transmitting tube (9) and pilot lamp (10), described electronic circuit board is integrated with the voltage transformer (VT) (1) for gathering air-conditioning current supply circuit voltage, connect with described voltage transformer (VT) (1) output terminal and recover to come from off-position auto-start control circuit that electricity condition runs again automatically for air-conditioning and connect with described auto-start control circuit and the supplying cell (8) of powering for described auto-start control circuit, described auto-start control circuit comprises the signal connected successively and amplifies follow circuit (2), single-chip microcomputer (3), relay driver output circuit (4), scrambler (6) and infrared transmitting circuit (7), the input end that output terminal and the signal of described voltage transformer (VT) (1) amplify follow circuit (2) connects, the output terminal of described input key (5) connects with the input end of scrambler (6), the input end of described infrared transmitting tube (9) and the input end of pilot lamp (10) all connect with the output terminal of infrared transmitting circuit (7), described relay driver output circuit (4) comprises Darlington transistor Q1 and relay K 1, first pole of described Darlington transistor Q1 is connected with described single-chip microcomputer (3) by resistance R10,3rd pole of Darlington transistor Q1 connects with 5V power output end, two-way is divided in second pole of Darlington transistor Q1, one tunnel connects with the negative electrode of diode D3, and another road connects with one end of the coil of relay K 1, the equal ground connection of the other end of the anode of diode D3 and the coil of relay K 1.
2., according to a kind of air-conditioning self-starting Digiplex according to claim 1, it is characterized in that: described voltage transformer (VT) (1) comprises voltage transformer (VT) TV1013.
3. according to a kind of air-conditioning self-starting Digiplex according to claim 2, it is characterized in that: described signal amplifies follow circuit (2) and comprises dual operational amplifier TL082,5th pin of described dual operational amplifier TL082 connects with one end of the secondary of voltage transformer (VT) TV1013,6th pin of dual operational amplifier TL082 is through resistance R2 ground connection, 7th pin of dual operational amplifier TL082 divides two-way, one tunnel connects with the 3rd pin of dual operational amplifier TL082 through resistance R4, and another road connects with the sliding end of swept resistance R1 and the link of a stiff end; Another stiff end of swept resistance R1 connects with the 6th pin of dual operational amplifier TL082,1st pin of dual operational amplifier TL082 divides two-way, one tunnel connects with described single-chip microcomputer (3) through resistance R3, and another road connects with the 2nd pin of dual operational amplifier TL082.
4. according to a kind of air-conditioning self-starting Digiplex according to claim 1, it is characterized in that: described scrambler (6) comprises infrared encoder PT2248,5th pin of described infrared encoder PT2248 connects with the moving contact of relay K 1,10th pin of infrared encoder PT2248 connects with the stationary contact of relay K 1,10th pin of infrared encoder PT2248 connects with the 13rd pin of infrared encoder PT2248 through diode D2, and the 11st pin of infrared encoder PT2248 connects with the 13rd pin of infrared encoder PT2248 through diode D1.
5. according to a kind of air-conditioning self-starting Digiplex according to claim 4, it is characterized in that: described infrared transmitting circuit (7) comprises PNP triode Q2 and PNP triode Q3, the base stage of described PNP triode Q2 connects with the 15th pin of infrared encoder PT2248 through resistance R9, the emitter of PNP triode Q2 connects with 5V power output end, the collector of PNP triode Q2 connects with the collector of PNP triode Q3, and the emitter of PNP triode Q3 connects with 5V power output end through resistance R8, resistance R7 and electric capacity C1.
6. according to a kind of air-conditioning self-starting Digiplex according to claim 5, it is characterized in that: described infrared transmitting tube (9) comprises infrared transmitting tube DS1, the link of the collector of one end of described infrared transmitting tube DS1 and the collector of PNP triode Q2 and PNP triode Q3 connects, and the other end of infrared transmitting tube DS1 is through resistance R11 ground connection.
7. according to a kind of air-conditioning self-starting Digiplex according to claim 5, it is characterized in that: described pilot lamp (10) comprises pilot lamp LED1, the link of the collector of the anode of described pilot lamp LED1 and the collector of PNP triode Q2 and PNP triode Q3 connects, and the negative electrode of pilot lamp LED1 is through resistance R12 ground connection.
8., according to a kind of air-conditioning self-starting Digiplex according to claim 1, it is characterized in that: described single-chip microcomputer (3) comprises 51 series monolithics.
Priority Applications (1)
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CN201520882776.0U CN205104018U (en) | 2015-11-07 | 2015-11-07 | Air conditioner is wireless remote control ware for self -starting |
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CN201520882776.0U CN205104018U (en) | 2015-11-07 | 2015-11-07 | Air conditioner is wireless remote control ware for self -starting |
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CN201520882776.0U Expired - Fee Related CN205104018U (en) | 2015-11-07 | 2015-11-07 | Air conditioner is wireless remote control ware for self -starting |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106382713A (en) * | 2016-08-29 | 2017-02-08 | 珠海格力电器股份有限公司 | Air conditioner and control method thereof, air conditioner remote control equipment and remote control method thereof, and air conditioning system |
CN111207494A (en) * | 2020-03-17 | 2020-05-29 | 东南大学 | Data center remote control system and implementation method thereof |
CN112944498A (en) * | 2021-02-04 | 2021-06-11 | 泰豪科技股份有限公司 | Control circuit of mobile dehumidifier |
-
2015
- 2015-11-07 CN CN201520882776.0U patent/CN205104018U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106382713A (en) * | 2016-08-29 | 2017-02-08 | 珠海格力电器股份有限公司 | Air conditioner and control method thereof, air conditioner remote control equipment and remote control method thereof, and air conditioning system |
CN111207494A (en) * | 2020-03-17 | 2020-05-29 | 东南大学 | Data center remote control system and implementation method thereof |
CN112944498A (en) * | 2021-02-04 | 2021-06-11 | 泰豪科技股份有限公司 | Control circuit of mobile dehumidifier |
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CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160323 Termination date: 20171107 |