CN201533074U - Intelligent power saving socket - Google Patents

Abstract

The utility model discloses an intelligent power saving socket, including a socket power supply inlet, a power supply connecting line, a socket power supply outlet, a socket body and a socket power saving device. The socket power saving device further comprises a voltage sampler, a current sampler, an integrated microprocessor, a data memory and a control switch; the socket power supply inlet is respectively connected with a voltage sampler and a current sampler through the power supply connecting line; the voltage sampler and the current sampler which convert the received signal to the sampling signal are respectively connected with the integrated microprocessor; the integrated microprocessor is respectively connected with the control switch and the data memory; and the integrated microprocessor which calculates the sampling signal and compares the calculated electricity consumption data and the preset value in the data memory controls on/off of the power supply of the electric appliance through the control switch. The utility model can protect the intelligent power saving socket of the electric appliance.

Description

A kind of intelligent energy-saving socket

Technical field

The utility model relates to electronic applications, relates in particular to a kind of intelligent energy-saving socket.

Background technology

Utility model ZL 200620016563.0 provides a kind of multi-functional Metering socket, and this multi-functional Metering socket can pass through the power consumption effective monitoring, thereby implements monitoring household electric appliance operation state.But this multi-functional Metering socket only can carry out simple alarm to some unusual power consumption parameter, to the timely defencive function of the electrical equipment under the unusual electricity consumption situation (for example: deenergization) does not relate to; Do not relate to power consumption parameter teletransmission in case the situation of monitoring circuit electricity consumption more timely and conveniently (for example: remote monitoring); The correct time that does not relate to record multiplexing electric abnormality situation (for example: real-time time).

Therefore,, how to realize economizing on electricity and protect the function of electrical equipment, make product have more the market competitiveness, become problem anxious to be solved along with the popularizing and reach its maturity and enrich constantly of jack technology.

The utility model content

The purpose of this utility model is to overcome the deficiencies in the prior art and a kind of protection power consumption equipment of can carrying out, the intelligent energy-saving socket of energy savings is provided.

For solving technical problem of the present utility model, the utility model discloses a kind of intelligent energy-saving socket, comprise: socket power inlet, electric power connection line, socket power outlet, jack body, wherein, also comprise the socket battery saving arrangement, wherein, the socket battery saving arrangement further comprises voltage sample device, current sampler, integrated microprocessor, data storage, control switch

Described socket power inlet connects described voltage sample device, current sampler respectively by described electric power connection line, becomes the described voltage sample device of sampled signal, current sampler to link to each other with described integrated microprocessor respectively the conversion of signals that receives;

Described integrated microprocessor all links to each other with described control switch, described data storage;

Described sampled signal is calculated, and the described integrated microprocessor that the electricity consumption data that calculate and the set point in the described data storage are compared is realized break-make control to the power consumption equipment power supply by described control switch.

More excellent, described socket battery saving arrangement also comprises data display equipment: integrated microprocessor is connected with described data display equipment.

More excellent, described socket battery saving arrangement comprises also that with data passes to power consumption equipment external data communication interface, described integrated microprocessor links to each other with described data communication interface.

More excellent, described socket battery saving arrangement also comprises the hardware real-time clock, described integrated microprocessor links to each other with described hardware real-time clock, and current time of described hardware real-time clock and the make-and-break time set point in the described data storage are compared the described integrated microprocessor that whether matches is realized power supply that described electricity consumption is provided with by described control switch break-make control.

More excellent, described socket battery saving arrangement comprises that also the push button signalling with user's input is sent to the operation push-button of described integrated microprocessor.

More excellent, described integrated microprocessor is by the push button signalling behaviour setting of user's input and the set point of the described power consumption equipment of reading and saving in described data storage.

Compared with prior art; in the utility model; integrated microprocessor obtains the source current on the electric power connection line, the sampled signal of voltage signal by voltage sample device, current sampler; and calculate; the electricity consumption data that calculate and the set point in the data storage are compared; when if the electricity consumption data surpass preset value, integrated microprocessor will be realized can realizing protecting power consumption equipment to the break-make control of the power supply of electricity consumption setting by control switch.

Description of drawings

Fig. 1 is a kind of intelligent energy-saving socket schematic diagram of the utility model embodiment;

Fig. 2 is the flow process control schematic diagram of the utility model embodiment.

Embodiment

Embodiment of the present utility model discloses a kind of intelligent energy-saving socket, can carry out the real-time guard power consumption equipment, energy savings.

As shown in Figure 1, be a kind of intelligent energy-saving socket of the utility model schematic diagram.The intelligent energy-saving socket comprises 1, two electricpower connection line 2 of socket power inlet, socketbattery saving arrangement 3, socket power outlet 4, jack body 5.Wherein socketbattery saving arrangement 3 further comprisesvoltage sample device 31,current sampler 32,integrated microprocessor 33,data display equipment 34,data communication interface 35, operation push-button 36,data storage 37, hardware real-time clock 38,control switch 39.

One end of described electricpower connection line 2 is connected withcivil power 220V single phase poaer supply circuit bypower import 1, wherein described socket power outlet 4 of connection of the described electric power connection line other end, and another links to each other withcontrol switch 39.

Describedcontrol switch 39 connects described socket power outlet 4 by describedcurrent sampler 32.

One end of describedvoltage sample device 31 connects the lead between describedpower import 1 and the described socket power outlet 4, and the other end connects the lead between describedcurrent sampler 32 and the described socket power outlet 4, to realize voltage sample.

Described integratedmicroprocessor 33 connects describedvoltage sample device 31,current sampler 32,data display equipment 34,data communication interface 35, operation push-button 36,data storage 37, hardware real-time clock 38,control switch 39 respectively.

Source current on the electricpower connection line 2, voltage signal convert sampled signal to and are sent to integratedmicroprocessor 33 inputs by two samplervoltage sample devices 31,current samplers 32 respectively, the output of integratedmicroprocessor 33 is connected withdata display equipment 34 and shows signal is transferred todata display equipment 34, and the output of integratedmicroprocessor 33 is connected withcontrol switch 39 and control signal is delivered tocontrol switch 39.

When the electricity consumption setting connects when using power supply by socket power of the present utility model outlet 4, integratedmicroprocessor 33 is by the signal on sampledvoltage sampler 31, thecurrent sampler 32 and carry out corresponding calculated, obtain a series of data of power consumption equipment real work, comprise that voltage is effectively controlled, current effective value, performance number, power factor (PF) value, power consumption, and can show bydata display equipment 34.

Integrated microprocessor 33 further is coupled to each other withdata storage 37, integratedmicroprocessor 33 compares the electricity consumption data that calculate and the set point in thedata storage 37, whether surpass preset value by comparing the electricity consumption data, by the break-make control ofcontrol switch 39 realizations to the power supply of electricity consumption setting.

Integrated microprocessor 33 can also withdata communication interface 35, operation push-button 36, hardware real-time clock 38 at least one is coupled to each other.

Then integratedmicroprocessor 33 can be with the electricity consumption storage of power consumption equipment indata storage 37 storages, and bydata communication interface 35 these data passes are gone out.

Time data that integratedmicroprocessor 33 will obtain from hardware real-time clock 38 and the set point thedata storage 37 compare, relatively whether the make-and-break time set point in current time and thedata storage 37 matches, by the break-make control ofcontrol switch 39 realizations to the power supply of electricity consumption setting.

Operation push-button 36 connects with integratedmicroprocessor 33, and the push button signalling of user's input is sent to integratedmicroprocessor 33, and then the user can be by the set point of operation push-button 36 settings and the power consumption equipment of reading and saving indata storage 37.

As shown in Figure 2, be the utility model flow process control procedure schematic diagram, comprise:

Step 601. reads the electric current and voltage sampled data;

Data are adopted in step 602.A/D conversion;

Step 603. calculates power consumption parameter;

Step 604. shows power consumption parameter;

Step 605. magnitude of voltage＜setpoint 1, perhaps magnitude of voltage＞setpoint 2, be then to enter step 606,step 607, otherwise enterstep 608;

Step 606. operation-control switch;

Step 607. shows;

Step 608. performance number＜setpoint 3, perhaps magnitude of voltage＞set point 4, be then to enter step 609,step 610, otherwise enter step 611;

Step 609. operation-control switch;

Step 610. shows;

Step 611. reads the current time from hardware clock;

Whetherstep 612. current time equals set point 5, be then to enter step 613, andstep 614, otherwise enterstep 615;

Step 613. operation-control switch;

Step 614. shows;

Whetherstep 615. has communication data to return, and is then to enter step 616, otherwise enters step 617;

Step 616. communication interface return data;

Step 617. designated firing duration is liked you and power consumption and storage;

Step 618. is calculated the CO2 discharge capacity according to power consumption.

In sum, by the technical solution of the utility model, can obtain following technique effect:

1, can prevent the overload of consumer;

2, subscriber equipment is carried out time control, energy savings;

3, data communication interface is delivered to the outside with these data;

4, the user can be by the push button signalling behaviour setting of input and the setting value of the consumer of reading and saving in data storage.

Claims (6)

1. intelligent energy-saving socket, comprise: socket power inlet, electric power connection line, socket power outlet, jack body, it is characterized in that, also comprise the socket battery saving arrangement, wherein, described socket battery saving arrangement further comprises voltage sample device, current sampler, integrated microprocessor, data storage, control switch;

Described socket power inlet connects described voltage sample device, current sampler respectively by described electric power connection line, becomes the described voltage sample device of sampled signal, current sampler to link to each other with described integrated microprocessor respectively the conversion of signals that receives;

Described integrated microprocessor all links to each other with described control switch, described data storage;

Described sampled signal is calculated, and the described integrated microprocessor that the electricity consumption data that calculate and the set point in the described data storage are compared is realized break-make control to the power consumption equipment power supply by described control switch.

2. socket as claimed in claim 1 is characterized in that, described socket battery saving arrangement also comprises data display equipment: integrated microprocessor is connected with described data display equipment.

3. socket as claimed in claim 1 is characterized in that, described socket battery saving arrangement comprises also that with data passes to power consumption equipment external data communication interface, described integrated microprocessor links to each other with described data communication interface.

4. socket as claimed in claim 1, it is characterized in that, described socket battery saving arrangement also comprises the hardware real-time clock, described integrated microprocessor links to each other with described hardware real-time clock, and current time of described hardware real-time clock and the make-and-break time set point in the described data storage are compared the described integrated microprocessor that whether matches is realized power supply that described electricity consumption is provided with by described control switch break-make control.

5. socket as claimed in claim 1 is characterized in that, described socket battery saving arrangement comprises that also the push button signalling with user's input is sent to the operation push-button of described integrated microprocessor.

6. socket as claimed in claim 5 is characterized in that, described integrated microprocessor is by the push button signalling behaviour setting of user's input and the set point of the described power consumption equipment of reading and saving in described data storage.

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