CN202956598U - Learning type intelligent power supply management system - Google Patents

Abstract

The utility model provides a learning type intelligent power supply management system. The learning type intelligent power supply management system comprises a switch power supply, a current detection module, a control module, a relay module, a power supply output module and a standby current learning button, wherein the switch power supply is used to supply voltage and current to the learning type intelligent power supply management system, and the current detection module is used to detect the current passing a conducting wire when a power device is in a standby state; the control module is connected with the current detection module, the relay module and the standby current learning button separately and is used to read the current data of the current detection module and control the on-off of the relay module according to the state of the power device, and the relay module is used to control the on-off of the power supply output module. According to the utility model, when the power device is in the standby state for a long time or is in standby state at non-work time, the power supply of the power device is cut off, and the electric energy is saved furthest.

Description

The learning type intellectual power-supply management system

Technical field

The utility model relates to a kind of intelligent energy-saving control field, more specifically, relates to a kind of learning type intellectual power-supply management system.

Background technology

At present, a lot of consumers are direct powered-down when shutdown, and such operation is prejudicial to consumer, for example, if computing machine during to disk read-write powered-down will make hard disk receive infringement, cause loss of data; Projector is after shutdown, and radiator fan needs work a period of time, and to reduce the temperature of projector, heat is loose does not go out if immediately outage will cause, and affects the life-span of device.If deenergization not after the shutdown, above-mentioned consumer will be in holding state.About 5 watts of the stand-by power consumption of a present computing machine, calculated in 16 hours according to standby every day of every computing machine, the electric energy of waste will reach 2.4 kilowatt hours every month, if the electric energy of national and even global computing machine waste is added up and will be an appreciable numerical value.Except above-mentioned computing machine and projector, also can consume sizable electric energy when also having the such long-time standby of consumer of some set-top boxes.

In the prior art, standby control system can only be for same consumer, still because the size of no its standby current of consumer is different, so each consumer needs that all supporting standby control system is arranged, complicated operation has reduced work efficiency and has increased simultaneously system cost.

The utility model content

In view of this, fundamental purpose of the present utility model is to provide a kind of learning type intellectual power-supply management system, and can solve the Opportunity awaiting control for linear that exists in the prior art can only be for the problem of same equipment.

For achieving the above object, the technical solution of the utility model is achieved in that

The utility model provides a kind of learning type intellectual power-supply management system, comprise: Switching Power Supply, current detection module, control module, relay module, power supply output module and standby current study button, wherein, Switching Power Supply is used for providing voltage and current to the learning type intellectual power-supply management system; Current detection module links to each other with relay module with control module, the size of current by wire when being in holding state for detection of consumer; Control module links to each other with current detection module, relay module and standby current study button respectively, for the current data of reading current detection module and come the break-make of pilot relay module according to the state of consumer; Relay module links to each other with current detection module, control module and power supply output module respectively, is used for the break-make of control power supply output module.

Preferably, control module also comprises: detecting unit and unit, wherein,

Detecting unit links to each other with standby current study button and unit respectively, is used for behind plugged output module power supply, before consumer opens, detects the state that standby current is learnt button;

Unit is used for when detecting unit detects standby current and learns button and be pressed, and the current data of reading current detection module also saves as standby current with current data.

Preferably, this system also comprises: communication module, link to each other with control module, and be used for to receive steering order that the upper end controller sends and steering order is transferred to control module.

Preferably, this system also comprises: clock module, link to each other with control module, and be used for providing the real-time clock data to control module.

Preferably, control module also comprises, judging unit is for the current data of the current detection module that reads according to control module and the state that standby current is judged consumer.

Preferably, judging unit also is used for when consumer is in holding state, and the clock data that transmission comes according to clock module is judged the current time.

Preferably, control module also comprises, timer is used for when the state of judgment unit judges consumer is holding state system being carried out timing.

Technique effect of the present utility model:

1. owing to be provided with current detection module and standby current study button in the utility model, having solved Opportunity awaiting control for linear of the prior art can only be for the drawback of same equipment, and control is more accurate, has avoided maloperation, has reduced system cost;

2. because the control module in the utility model can determine whether that according to the duty of consumer needs provide electric power for consumer, the real-time clock that provides based on clock module, when consumer is in standby or non-working time when being in standby for a long time, the power supply of consumer will be cut off, equipment for specific use can also be specified the Extraordinary power program, like this can be in the situation that does not affect normal operation, saves energy to greatest extent;

3. use learning type intellectual power-supply management system of the present utility model can also save consumer and enter holding state from working to, the time that operating personnel wait for, the mutual communication of communication module and control module, as long as behind consumer execution standby command, operating personnel just can leave, and power-supply management system can the automatic cut-off power output module after equipment enters holding state.

Description of drawings

Accompanying drawing described herein is used to provide further understanding of the present utility model, consists of the application's a part, and illustrative examples of the present utility model and explanation thereof are used for explaining the utility model, do not consist of improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 shows the learning type intellectual power-supply management system structural representation according to the utility model embodiment one;

Fig. 2 shows the learning type intellectual power-supply management system structural representation according to the utility model embodiment two;

Fig. 3 shows the learning type intellectual power-supply management system structural representation according to the utility model embodiment three;

Fig. 4 shows the learning type intellectual power-supply management system structural representation according to the utility model embodiment four;

Fig. 5 shows the process flow diagram according to the management method of the learning type intellectual power-supply management system of embodiment five of the present utility model;

Fig. 6 shows the process flow diagram according to the management method of the learning type intellectual power-supply management system of embodiment six of the present utility model;

Fig. 7 shows the concrete processing flow chart that obtains standby current in the management method according to the learning type intellectual power-supply management system of embodiment seven of the present utility model;

Fig. 8 shows the concrete processing flow chart according to the management method of the learning type intellectual power-supply management system of embodiment eight of the present utility model.

Embodiment

Below with reference to the accompanying drawings and in conjunction with the embodiments, describe the utility model in detail.

Embodiment one

Fig. 1 shows the learning type intellectual power-supply management system structural representation according to the utility model embodiment one; As shown in Figure 1, this system comprises: Switching Power Supply 10, current detection module 20, control module 30, relay module 40, power supply output module 50 and standby current study button K, wherein,

Switching Power Supply 10 is used for providing voltage and current to the learning type intellectual power-supply management system;

Current detection module 20 links to each other with relay module 40 with control module 30, the size of current by wire when being in holding state for detection of consumer;

Control module 30 links to each other with current detection module 20, relay module 40 and standby current study button K respectively, for the current data of reading current detection module 20 and come the break-make of pilot relay module 40 according to the state of consumer;

Relay module 40 links to each other with current detection module 20, control module 30 and 50 of moulds of power supply output respectively, is used for the break-make of control power supply output module 50.

Be provided with current detection module and standby current study button among the embodiment of the present utility model, having solved Opportunity awaiting control for linear of the prior art can only be for the drawback of same equipment, and control is more accurate, has avoided maloperation, has reduced system cost; Control module can determine whether that according to the duty of consumer needs provide electric power for consumer, the real-time clock that provides based on clock module, when consumer is in standby or non-working time when being in standby for a long time, the power supply of consumer will be cut off, equipment for specific use can also be specified the Extraordinary power program, like this can be in the situation that does not affect normal operation, saves energy to greatest extent.

Embodiment two

Fig. 2 shows the learning type intellectual power-supply management system structural representation according to the utility model embodiment two; As shown in Figure 2, control module 30 also comprises: detecting unit 302 and unit 304, wherein,

Detecting unit 302 links to each other with standby current study button K and unit 304 respectively, is used for behind plugged output module 50 power supplys, before consumer opens, detects the state that standby current is learnt button K;

Unit 304 is used for when detecting unit 302 detects standby current and learns button K and be pressed, and the current data of reading current detection module 20 also saves as standby current with current data.

For the system that only has single power supply output module, the method that can adopt a standby current to learn button is obtained the standby current of consumer.

For the system that a plurality of power supply output modules are arranged, when the method that can adopt a standby current to learn button is obtained the standby current of consumer, the consumer that allows first all power supply output modules connect is in holding state, press standby current study button, order is obtained the standby current of each consumer again; Also can adopt liquid crystal display to add the mode of function key, obtain respectively the standby current of each consumer.

In order to obtain more accurate standby current, multi collect can be set, then collection result is repeatedly averaged.For the judgement of standby current, can admit of 5% to 10% tolerant scope, as long as just think that in this scope consumer is in holding state.

Suppose that the standby current that collects is 20 milliamperes, then the current data of the current detection module that reads of control module can think that between the 18-22 milliampere consumer is in holding state.

Embodiment three

Fig. 3 shows the learning type intellectual power-supply management system structural representation according to the utility model embodiment three; As shown in Figure 3, this system also comprises: communication module 60 and clock module 70, wherein,

Communication module 60 links to each other with control mould 30, and the steering order that controller is sent on be used for receiving also is transferred to control module 30 with steering order.

Mentioned steering order can for:

The pilot relay module is switched on or switched off the power supply of power supply output module;

The switching on and shutting down pattern of modification or setup control module is revised such as the stand-by time of working day or nonworkdays;

Increase, subtract interim working day or nonworkdays (situation festivals or holidays) or working time (adjustment in commuter time).Control module 30 is carried out mutual communication in real time with communication module 60.

Clock module 70 links to each other with control module 30, and being used for provides the real-time clock data to control module 30.

Embodiment of the present utility model can also save consumer and enter holding state from working to, the time that operating personnel wait for, the mutual communication of communication module and control module, as long as behind consumer execution standby command, operating personnel just can leave, power-supply management system meeting automatic cut-off power output module has improved work efficiency and has saved simultaneously a large amount of electric energy after equipment enters holding state.

Embodiment four

Fig. 4 shows the learning type intellectual power-supply management system structural representation according to the utility model embodiment four, and as shown in Figure 4, control module 30 also comprises, judging unit 306 and timer 308, wherein,

Judging unit 306 is for the current data of the current detection module 20 that reads according to control mould 30 and the state that standby current is judged consumer.The state of consumer can be normal operating conditions and holding state.

Judging unit 306 also is used for when consumer is in holding state, and the clock data that 70 transmission come according to clock module is judged the current time.Such as, according to the time data that clock module shows, judge whether the current time is the working time.

Timer 308 is used for when judging unit 306 judges that the state of consumer is holding state system being carried out timing.When arriving timer after the schedule time, control module 30 is cut off relay module 40, then relay module 40 output module 50 of cutting off the electricity supply.

Embodiment five

Fig. 5 shows the process flow diagram according to the management method of the learning type intellectual power-supply management system of embodiment five of the present utility model; As shown in Figure 5, the method comprises:

Step S501, plugged output module power supply;

Size of current by wire when step S502, current detection module detect consumer and be in holding state;

Step S503, the current data of control module reading current detection module;

Step S504 comes the break-make of pilot relay module according to the state of consumer;

Step S505, the break-make of relay module control power supply output module.

Particularly, the state according to consumer comes the break-make concrete steps of pilot relay module to comprise:

The current data of the current detection module that step S504-1, the judging unit in the control module read according to control module and the state that standby current is judged consumer;

Step S504-2, when consumer was in holding state, the clock data that transmission comes according to clock module was judged the current time;

Step S504-3, when consumer was in holding state, the timer in the control module carried out timing to system, and when timer overflowed, control module pilot relay module disconnected, the then relay module power supply output of output module of cutting off the electricity supply.

Be provided with current detection module and standby current study button among the embodiment of the present utility model, having solved Opportunity awaiting control for linear of the prior art can only be for the drawback of same equipment, and control is more accurate, has avoided maloperation, has reduced system cost; Control module can determine whether that according to the duty of consumer needs provide electric power for consumer, the real-time clock that provides based on clock module, when consumer is in standby or non-working time when being in standby for a long time, the power supply of consumer will be cut off, equipment for specific use can also be specified the Extraordinary power program, like this can be in the situation that does not affect normal operation, saves energy to greatest extent.

Embodiment six

Fig. 6 shows the process flow diagram according to the management method of the learning type intellectual power-supply management system of embodiment five of the present utility model; As shown in Figure 6, behind plugged output module power supply, before consumer was opened, the method also comprised:

Step S601, the detecting unit in the control module detect the state of standby current study button;

Step S602, when detecting unit detected standby current study button and is pressed, the current data of reading current detection module also saved as standby current with current data;

Step S603, the steering order that communication module is sent the upper end controller is transferred to control module;

Step S604, control module receives pilot relay module adhesive after the steering order, this moment plugged output module power supply.

Embodiment seven

Fig. 7 shows the concrete processing flow chart that obtains standby current in the management method according to the learning type intellectual power-supply management system of embodiment seven of the present utility model, as shown in Figure 7, may further comprise the steps:

After step S701, system start, press standby current study button K before consumer is opened and kept 2 seconds, system enters learning state, discharges standby current study button K;

Step S702, the adhesive of processing module pilot relay module;

Step S703 allows consumer be in holding state;

Step S704, does consumer enter holding state? if execution in step S705 if not, returns step S703;

Step S705 presses standby current study button K;

Do step S706, the detecting unit in the processing module detect standby current study button K and are pressed? if execution in step S707 if not, returns step S705;

Step S707, the current data of reading current detection module, and save as standby current;

Step S708 withdraws from learning state.

Embodiment eight

Fig. 8 shows the concrete processing flow chart according to the management method of the learning type intellectual power-supply management system of embodiment eight of the present utility model, as shown in Figure 8, may further comprise the steps:

Step S801, is control module received the start-up command that transmits from communication module, manual start-up command or arrive the predefined on time? if execution in step S802 if not, returns beginning;

Step S802, the adhesive of control module pilot relay module, power supply will be exported by the power supply output module;

Step S803, the current data of control module reading current detection module;

Are step S804, the electric current of reading standby current? if not, execution in step S805; If, execution in step S806;

Step S805 with all timer zero clearings and stop timing, returns step S803;

Step S806, when the electric current of reading equals standby current, the judgment unit judges in the control module whether be the working time (such as, within whether be on duty eight hours); If not, execution in step S807, if, execution in step S808;

Step S807, was timer just in timing in 2 minutes? if not, execution in step S807-1 arranges 2 minutes timers and begins timing, returns step S803; If execution in step S807-2 checks whether 2 minutes timers overflow, and if not, return step S803, control module continues the current data of reading current detection module, if, execution in step S809;

Step S808, was timer just in timing in 10 minutes? if not, execution in step S808-1,10 minutes timers are set begin timing, return step S803, if, execution in step S808-2, check whether 10 minutes timers overflow, if not, return step S803, control module continues the current data of reading current detection module, if, execution in step S809;

The time of timer can Set arbitrarily, is not limited to 2 minutes or 10 minutes;

Step S809, control module pilot relay module disconnects, the then relay module output of output module of cutting off the electricity supply, and turn back to initial state.

As can be seen from the above description, the utility model the above embodiments have realized following technique effect:

1. owing to be provided with current detection module and standby current study button in the utility model, having solved Opportunity awaiting control for linear of the prior art can only be for the drawback of same equipment, and control is more accurate, has avoided maloperation, has reduced system cost;

2. because the control module in the utility model can determine whether that according to the duty of consumer needs provide electric power for consumer, the real-time clock that provides based on clock module, when consumer is in standby or non-working time when being in standby for a long time, the power supply of consumer will be cut off, equipment for specific use can also be specified the Extraordinary power program, like this can be in the situation that does not affect normal operation, saves energy to greatest extent;

3. use learning type intellectual power-supply management system of the present utility model, can also save consumer and enter holding state from working to, the time that operating personnel wait for, the mutual communication of communication module and control module, as long as behind consumer execution standby command, operating personnel just can leave, and power-supply management system can the automatic cut-off power output module after equipment enters holding state.

The above is preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (7)

1. a learning type intellectual power-supply management system is characterized in that, comprising: Switching Power Supply, current detection module, control module, relay module, power supply output module and standby current study button, wherein,

Described Switching Power Supply is used for providing voltage and current to described learning type intellectual power-supply management system;

Described current detection module links to each other with described relay module with described control module, the size of current by wire when being in holding state for detection of consumer;

Described control module, link to each other with described current detection module, described relay module and described standby current study button respectively, be used for the break-make that reads the current data of described current detection module and control described relay module according to the state of consumer;

Described relay module links to each other with described current detection module, described control module and described power supply output module respectively, is used for controlling the break-make of described power supply output module.

2. learning type intellectual power-supply management system according to claim 1 is characterized in that, described control module also comprises: detecting unit and unit, wherein,

Described detecting unit links to each other with described standby current study button and described unit respectively, before opening for, consumer rear in described power supply output module energising, detects the state of described standby current study button;

Described unit is used for reading the current data of described current detection module and described current data being saved as standby current when described detecting unit detects described standby current and learns button and be pressed.

3. learning type intellectual power-supply management system according to claim 1 is characterized in that, also comprises: communication module, link to each other with described control module, and be used for to receive steering order that the upper end controller sends and described steering order is transferred to described control module.

4. learning type intellectual power-supply management system according to claim 1 is characterized in that, also comprises, clock module links to each other with described control module, and being used for provides the real-time clock data to described control module.

5. each described learning type intellectual power-supply management system in 4 according to claim 1, it is characterized in that, described control module also comprises, judging unit is for the current data of the described current detection module that reads according to described control module and the state that described standby current is judged consumer.

6. learning type intellectual power-supply management system according to claim 5 is characterized in that, described judging unit also is used for when consumer is in holding state, judges the current time according to the clock data that described clock module transmission comes.

7. learning type intellectual power-supply management system according to claim 5 is characterized in that, described control module also comprises, timer is used for when the state of described judgment unit judges consumer is holding state system being carried out timing.

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