CN103235544A - Monitoring system and method of controllable power supply - Google Patents

Abstract

The invention provides a monitoring method of a controllable power supply. According to the method, the power which is transmitted to a monitoring end from a power output end is controlled by arranging a power control device between the monitoring end and the power output end; when the monitoring end is in a power-down state, the alarm condition of a controlled end is detected by using the power control device; when the controlled end has the alarm condition, the power output end is controlled by using the power control device to output power for the monitoring end; and thus, the continuity and the safety for monitoring of the controlled end are guaranteed in the power-down state of the monitoring end, and the electric energy required by the monitoring end for monitoring is effectively saved. The invention also provides a monitoring system of the controllable power supply.

Description

The supervisory system of controllable electric power and method

Technical field

The present invention relates to a kind of monitoring technique, particularly a kind of supervisory system of controllable electric power and method.

Background technology

At present, intelligent monitoring technology is very general in the application of aspects such as industrial security protection, common way is: utilize monitoring client that controlled end is carried out remote monitoring, the controlled end of monitoring client detecting real-time sends alerting signal, when monitoring client detects the alerting signal that controlled end sends, the alerting signal that is arrived by warning message output module (for example, alert data signal display module and/or the alarm sound signal output module) output monitoring of monitoring client.Yet, the defective of this way is to need monitoring client can not be in off-position, that is to say, must keep power supply to monitoring client constantly, this just will inevitably expend a large amount of electric energy, and this defective has embodied contradiction energy-conservation and monitoring safety, and this defective is can be more obvious during as monitoring client with family's electronic equipment used in everyday, because family's electronic equipment used in everyday can not keep the opening of switching on always.

Summary of the invention

Fundamental purpose of the present invention provides a kind of supervisory system of controllable electric power, with continuity and the security that guarantees under the state of monitoring client outage shutdown controlled end to be monitored.

In addition, also provide a kind of method for supervising of controllable electric power, with continuity and the security that guarantees under the state of monitoring client outage shutdown, controlled end to be monitored.

A kind of supervisory system of controllable electric power, this system comprises: power output end; Controlled end for the data of gathering particular type, carries out analyzing and processing to judge whether to send alerting signal to the data of gathering, and sends alerting signal to monitoring client and power control when needs send alerting signal; Power control is used for setting up signal with controlled end and being connected when monitoring client is in off-position, detects the alerting signal that controlled end sends, and when detecting alerting signal, the control power output end is the monitoring client out-put supply; Monitoring client, be used for when the power supply input is arranged, setting up signal with the controlled end that sends alerting signal is connected, detect the alerting signal that controlled end sends, determine the alerting signal of correspondence to be exported, export corresponding alerting signal, and/or set up the signal connection so that corresponding alerting signal is exported to one or more information receiving ends with server.

Preferably, described power control also is used for cutting off the power supply of transporting to monitoring client after the corresponding alerting signal of monitoring client output.

Preferably, described power control comprises signal transmitting and receiving module, control signal sending module, switch control module, wherein: form the closed-loop path between signal transmitting and receiving module and the power output end; When the power switch of switch control module control was in off-state, the signal transmitting and receiving module was detected the alerting signal that controlled end sends; The control signal sending module is connected with the signal transmitting and receiving module by signal, when the signal transmitting and receiving module detects the alerting signal that controlled end sends, control signal sending module transmit button close command is given switch control module, and the switch closure that switch control module responsive control signal sending module sends instructs the power switch between closed power output end and the monitoring client to be the monitoring client out-put supply.

Preferably, described signal transmitting and receiving module also is used for being connected with the monitoring client signal, to receive the cut-offing instruction that monitoring client sends; Described control signal sending module also is used for when the signal transmitting and receiving module receives the cut-offing instruction that monitoring client sends, and the transmit button open command is given described switch control module; Described switch control module also is used for the switch open command deenergization output terminal of responsive control signal sending module transmission and the power switch between the monitoring client.

Preferably, described monitoring client comprises signal transmitting and receiving module, signal analyse block, execution module, wherein: the signal transmitting and receiving module is detected the alerting signal that controlled end sends, when signal analyse block detects the alerting signal that controlled end sends in the signal transmitting and receiving module, determine the alerting signal of correspondence to be exported, generation is at the execution command of the alerting signal of correspondence, and execution module is exported corresponding alerting signal according to the execution command that signal analyse block produces.

Preferably, described monitoring client also comprises: the warning message output module is used under the control of described execution module the alerting signal that output is corresponding.

Preferably, described monitoring client also comprises command process module, this command process module receives the steering order that user sends to the specific controlled end, and the steering order that the signal transmitting and receiving module receives command process module sends to corresponding controlled end, responds described steering order by the controlled end of correspondence.

A kind of method for supervising of controllable electric power, the method comprising the steps of: between monitoring client and power output end power control is set; When monitoring client is in off-position, set up signal between power control and the controlled end and be connected, detect the alerting signal that controlled end sends, when detecting alerting signal, the control power output end is the monitoring client out-put supply; Monitoring client is when having the power supply input, setting up signal with the controlled end that sends alerting signal is connected, detect the alerting signal that controlled end sends, determine the alerting signal of correspondence to be exported, export corresponding alerting signal, and/or set up the signal connection so that corresponding alerting signal is exported to one or more information receiving ends with server.

Preferably, this method also comprises: send cut-offing instruction to power control behind the monitoring client output alarm signal, so that power control cuts off the power supply of transporting to monitoring client after receiving cut-offing instruction.

Preferably, this method also comprises: monitoring client receives the steering order that the user sends to the specific controlled end, and the steering order that receives is sent to corresponding controlled end, responds described steering order by the controlled end of correspondence.

Compare prior art, the present invention is by arranging power control between monitoring client and power output end, transport to the power supply of monitoring client with the control power output end, when monitoring client is in off-position, utilize power control to detect the alarm condition of controlled end, when controlled end generation alarm condition, utilize power control control power output end to be the monitoring client out-put supply, guaranteed under the state of monitoring client outage shutdown the electric energy of monitoring client because of necessary for monitoring effectively saved in continuity and the security of controlled end monitoring.

Description of drawings

Fig. 1 is the system architecture diagram of supervisory system first preferred embodiment of controllable electric power of the present invention.

Fig. 2 is the system architecture diagram of supervisory system second preferred embodiment of controllable electric power of the present invention.

Fig. 3 is the functional structure chart of controlled end preferred embodiment among Fig. 1 and Fig. 2.

Fig. 4 is in the concrete implementing procedure figure of the method for supervising preferred embodiment of the controllable electric power under the off-mode because of outage for monitoring client.

Fig. 5 is in the concrete implementing procedure figure of the method for supervising preferred embodiment of the controllable electric power under start or the holding state because of energising for monitoring client.

Fig. 6 is in the concrete implementing procedure figure of the command control method preferred embodiment under the open state because of energising for monitoring client.

The realization of the object of the invention, functional characteristics and advantage will be in conjunction with the embodiments, are described further with reference to accompanying drawing.

Embodiment

Should be appreciated that specific embodiment described herein only in order to explaining the present invention, and be not used in restriction the present invention.

As shown in Figure 1, be the system architecture diagram of supervisory system first preferred embodiment of controllable electric power of the present invention.The supervisory system of this controllable electric power comprises power output end 15, the power control 1 that is electrically connected with power output end 15, the monitoring client 4 that is electrically connected with power control 1, and be example with a controlled end among the controlled end 3(figure that communicates to connect with power control 1 and monitoring client 4).Monitoring client 4 sees also following exemplary description to Fig. 2 at least one controlled end 3(about the functional structure of controlled end) monitor, power control 1 is in off-position following time at monitoring client 4, power output end 15 is transported to the power supply of monitoring client 4 and is controlled.Described monitoring client 4 can be TV, mobile phone, computing machine, panel computer, personal digital assistant (Personal Digital Assistant, PDA) or other any suitable terminals, in the present embodiment, the monitoring client 4 preferred TVs that adopt.

Power control 1 comprises signal transmitting and receiving module 10, and switch control module 13 reaches the control signal sending module 12 that communicates to connect with signal transmitting and receiving module 10 and switch control module 13.In the present embodiment, further, in order to reduce the energy consumption of power control 1, what signal transmitting and receiving module 10 needed employing is low power consumption for signal transceiver module (for example, the bluetooth module of low-power consumption).Power control 1 also can comprise a transformer module 11 that is arranged between power output end 15 and the signal transmitting and receiving module 10, is used for the power supply of power output end 15 outputs is converted to the working power of signal transmitting and receiving module 10.

Monitoring client 4 comprises power module 26, and the monitoring unit 2 that is electrically connected with power module 26 reaches the warning message output module 23 that communicates to connect with monitoring unit 2.Monitoring unit 2 comprises signal transmitting and receiving module 20, and execution module 21 reaches the signal analyse block 22 that communicates to connect with signal transmitting and receiving module 20 and execution module 21.Establish a communications link between signal transmitting and receiving module 10 and the signal transmitting and receiving module 20.

Below be in off-mode, start or holding state with monitoring client 4 respectively, set forth power control 1 and monitoring client 4 each signals connection and function of forming.

One, monitoring client 4 is in off-mode:

Form the closed-loop path between signal transmitting and receiving module 10 and the power output end 15, the power supply that transformer module 11 is exported power output end 15 converts the working power of signal transmitting and receiving module 10 to, and signal transmitting and receiving module 10 is in the energising duty.In the present embodiment, power output end 15 provides 220 volts of voltage sources; In other embodiments of the invention, power output end 15 provides other any suitable voltage sources.

In the present embodiment, further, in order to reduce the energy consumption of power control 1 and monitoring client 4, signal transmitting and receiving module 10 and signal transmitting and receiving module 20 are adoptable to be low power consumption for signal transceiver module (for example, the bluetooth module of low-power consumption).

(that is: monitoring client 4 is in off-position to be in off-state at the power switch of switch control module 13 control, namely be in off-mode) time, the alerting signal that the controlled end 3 of monitored end 4 monitoring of signal transmitting and receiving module 10 detectings sends, when detecting the alerting signal that controlled end 3 sends, give switch control module 13 by control signal sending module 12 transmit button close command, after switch control module 13 was received the switch closure instruction that control signal sending module 12 sends, the power switch between closed power output end 15 and the monitoring client 4 was monitoring client 4 out-put supplies.

When the power switch of switch control module 13 controls was in closure state, the power module 26 of monitoring client 4 received the power supply of power output end 15 outputs, was monitoring unit 2 power supplies.

The alerting signal that the controlled end 3 of signal transmitting and receiving module 20 detectings sends, when detecting the alerting signal that controlled end 3 sends, by the execution command that signal analyse block 22 produces at the alerting signal of detecting, the corresponding alerting signal of execution command output that execution module 21 produces according to signal analyse block 22.

In the present embodiment, possess open state and two kinds of mode of operations of holding state after monitoring client 4 energisings, power module 26 is 23 power supplies of warning message output module under the open state; Power module 26 is not powered to warning message output module 23 under the holding state.In other embodiments of the invention, only possess a kind of mode of operation of open state after monitoring client 4 energisings, power module 26 is 23 power supplies of warning message output module under the open state.

In the present embodiment, described warning message output module 23 comprises alert data signal display sub-module (for example, display sub-module is used for display alarm information) and alarm sound signal output sub-module (for example, the power amplifier submodule is used for sending chimes of doom).In other embodiments of the invention, described warning message output module 23 comprises the warning message output sub-module that other are any suitable.

Below divide start state and holding state that the function of signal analyse block 22, execution module 21 and warning message output module 23 is carried out exemplary elaboration respectively:

When signal analyse block 22 detects the alerting signal that controlled end 3 sends in signal transmitting and receiving module 20, determine the alerting signal of correspondence to be exported, the analysis monitoring end 4 current open states that whether are in, in that monitoring client 4 is current when being in open state, produce the execution command at the alerting signal of correspondence; The corresponding alerting signal of execution command output that execution module 21 produces according to signal analyse block 22; Described execution command comprises the instruction of the alerting signal that 23 outputs of control warning message output module are corresponding, and/or it is (not shown by the router (not shown) alerting signal of correspondence to be exported to one or more predetermined information receiving ends by the server (not shown), for example, mobile phone, computing machine, panel computer, PDA or other any suitable information receiving terminals) instruction;

Signal analyse block 22 is when detecting the alerting signal that controlled end 3 sends, determine the alerting signal of correspondence to be exported, the analysis monitoring end 4 current holding states that whether are in that monitoring client 4 is current when being in holding state, produce the execution command at the alerting signal of correspondence; The corresponding alerting signal of execution command output that execution module 21 produces according to signal analyse block 22; Described execution command comprises that by the router (not shown) alerting signal of correspondence to be exported to one or more predetermined information receiving ends by the server (not shown) (not shown, for example, mobile phone, computing machine, panel computer, PDA or other any suitable information receiving terminals) instruction.

In the present embodiment, in order to realize better energy-saving effect, when monitoring client 4 is in off-mode, the alert event that utilizes the controlled end 3 of power control 1 detecting to take place, when taking place, alert event utilize power control 1 to be monitoring client 4 power supplies, and finish the processing of alerting signal at monitoring client 4 after, also need to utilize power control 1 to disconnect the power supply of monitoring client 4.

In order to reach this purpose, whether signal analyse block 22 analysis monitoring ends 4 switch under power control 1 control, if monitoring client 4 energising under power control 1 control, then after execution module 21 finishes the output of the alerting signal of correspondence, signal analyse block 22 produces cut-offing instruction, signal transmitting and receiving module 20 sends to power control 1 with the cut-offing instruction that signal analyse block 22 produces, power control 1 this cut-offing instruction of response, the power supply of disconnection monitoring client 4.

Further, signal transmitting and receiving module 10 receives the cut-offing instruction that signal transmitting and receiving module 20 sends; When control signal sending module 12 received the cut-offing instruction that monitoring client 4 sends in signal transmitting and receiving module 10, the transmit button open command was given described switch control module 13; The switch open command that switch control module 13 responsive control signal sending modules 12 send, the power switch between deenergization output terminal 15 and the monitoring client 4.

It is multiple to it is emphasized that whether signal analyse block 22 analysis monitoring ends 4 are that the mode of energising under power control 1 control has, for example:

Whether example one, signal analyse block 22 were in off-mode by analysis monitoring end 4 before the Preset Time section, judge whether monitoring client 4 switches under power control 1 control;

After example two, control signal sending module 12 transmit button close command are given switch control module 13, send a notification signal by signal transmitting and receiving module 10 to signal transmitting and receiving module 20, whether signal analyse block 22 receives this notification signal by analytic signal transceiver module 20, judges whether monitoring client 4 switches under power control 1 control.

Further, in order to realize the ACTIVE CONTROL of 4 pairs of controlled ends 3 of monitoring client, it is shown in Figure 2 that monitoring client 4 can comprise that also command process module 25(sees also), this command process module 25 (for example receives steering order that users send to specific controlled end 3, operation steering order, status poll steering order etc.), the steering order that receives is sent to corresponding controlled end 3 by signal transmitting and receiving module 20, controlled end 3 steering order that response receives after receiving the steering order that monitoring client 4 sends.For example, if described instruction is the operation steering order, then controlled end 3 is carried out corresponding operation according to the operation steering order that receives; If status poll instruction, then controlled end 3 is according to the status information of the status poll instruction acquisition correspondence that receives, and the status information of collecting is sent to signal transmitting and receiving module 20, feeds back to command process module 25 with the status information that will collect.

Further, possess open state and two kinds of mode of operations of holding state after monitoring client 4 energisings, power module 26 is command process module 25 power supplies under the open state; Power module 26 is not powered to command process module 25 under the holding state.In other embodiments of the invention, only possess a kind of mode of operation of open state after monitoring client 4 energisings, power module 26 is command process module 25 power supplies under the open state.

Two, monitoring client 4 is in open state:

When monitoring client 4 was in open state, monitoring client 4 was in "on" position all the time, need not the closure of power switch between power control 1 control power output end 15 and the monitoring client 4.

The alerting signal that the controlled end 3 of signal transmitting and receiving module 20 detectings sends, when detecting the alerting signal that controlled end 3 sends, determined the alerting signal of correspondence to be exported by signal analyse block 22, generation is at the execution command of the alerting signal of correspondence, and execution module 21 is exported corresponding alerting signal according to the execution command that signal analyse block 22 produces.

In the present embodiment, power module 26 is 23 power supplies of warning message output module under the open state.Below be in open state with monitoring client 4, the function of signal analyse block 22, execution module 21 and warning message output module 23 is carried out exemplary elaboration:

Signal analyse block 22 is when detecting the alerting signal that controlled end 3 sends, determine the alerting signal of correspondence to be exported, the analysis monitoring end 4 current open states that whether are in that monitoring client 4 is current when being in open state, produce the execution command at the alerting signal of correspondence; The corresponding alerting signal of execution command output that execution module 21 produces according to signal analyse block 22; The execution command of described generation comprises the instruction of the alerting signal that 23 outputs of control warning message output module are corresponding, and/or it is (not shown by the router (not shown) alerting signal of correspondence to be exported to one or more predetermined information receiving ends by the server (not shown), for example, mobile phone, computing machine, panel computer, PDA or other any suitable information receiving terminals) instruction;

Further, in order to realize the ACTIVE CONTROL of 4 pairs of controlled ends 3 of monitoring client, it is shown in Figure 2 that monitoring client 4 comprises that also command process module 25(sees also), this command process module 25 (for example receives steering order that users send to specific controlled end 3, operation steering order, status poll steering order etc.), the steering order that receives is sent to corresponding controlled end 3 by signal transmitting and receiving module 20, controlled end 3 steering order that response receives after receiving the steering order that monitoring client 4 sends.For example, if described instruction is the operation steering order, then controlled end 3 is carried out corresponding operation according to the operation steering order that receives; If the status poll steering order, then controlled end 3 is according to the status information of the status poll instruction acquisition correspondence that receives, and the status information of collecting is sent to signal transmitting and receiving module 20, feeds back to command process module 25 with the status information that will collect.

Further, monitoring client 4 is in open state following time, and power module 26 is command process module 25 power supplies.

Three, monitoring client 4 is in holding state:

When monitoring client 4 was in holding state, monitoring client 4 was in "on" position all the time, need not the closure of power switch between power control 1 control power output end 15 and the monitoring client 4.

The alerting signal that the controlled end 3 of signal transmitting and receiving module 20 detectings sends, when detecting the alerting signal that controlled end 3 sends, determined the alerting signal of correspondence to be exported by signal analyse block 22, generation is at the execution command of the alerting signal of correspondence, and execution module 21 is exported corresponding alerting signal according to the execution command that signal analyse block 22 produces.

In the present embodiment, power module 26 is not powered to warning message output module 23 under the holding state.

Below be in holding state with monitoring client 4, the function of signal analyse block 22 is carried out exemplary elaboration:

Signal analyse block 22 is when detecting the alerting signal that controlled end 3 sends, determine the alerting signal of correspondence to be exported, the analysis monitoring end 4 current holding states that whether are in that monitoring client 4 is current when being in holding state, produce the execution command at the alerting signal of correspondence; The corresponding alerting signal of execution command output that execution module 21 produces according to signal analyse block 22; The execution command of described generation comprises that by the router (not shown) alerting signal of correspondence to be exported to one or more predetermined information receiving ends by the server (not shown) (not shown, for example, mobile phone, computing machine, panel computer, PDA or other any suitable information receiving terminals) instruction.

Further, in order to realize the ACTIVE CONTROL of 4 pairs of controlled ends 3 of monitoring client, it is shown in Figure 2 that monitoring client 4 comprises that also command process module 25(sees also), this command process module 25 (for example receives steering order that users send to specific controlled end 3, operation steering order, status poll steering order etc.), the steering order that receives is sent to corresponding controlled end 3 by signal transmitting and receiving module 20, controlled end 3 steering order that response receives after receiving the steering order that monitoring client 4 sends.For example, if described instruction is the operation steering order, then controlled end 3 is carried out corresponding operation according to the operation steering order that receives; If the status poll steering order, then controlled end 3 is according to the status information of the status poll instruction acquisition correspondence that receives, and the status information of collecting is sent to signal transmitting and receiving module 20, feeds back to command process module 25 with the status information that will collect.

Further, possess open state and two kinds of mode of operations of holding state after monitoring client 4 energisings, power module 26 is not powered to command process module 25 under the holding state.

As shown in Figure 3, be the functional structure chart of controlled end 3 preferred embodiments among Fig. 1 and Fig. 2.Controlled end 3 comprises sensor assembly 31, and signal transmitting and receiving module 33 is carried out processing module 34, reaches the analysis and processing module 32 that communicates to connect with sensor assembly 31, signal transmitting and receiving module 33 and execution processing module 34.In the present embodiment, described controlled end 3 can be refrigerator, washing machine, smoke exhaust ventilator or other any suitable terminals.

In the present embodiment, in order to reduce the energy consumption of controlled end 3, signal transmitting and receiving module 33 is adoptable to be low power consumption for signal transceiver module (for example, the bluetooth module of low-power consumption).Establish a communications link between signal transmitting and receiving module 33 and signal transmitting and receiving module 10 and the signal transmitting and receiving module 20.

Sensor assembly 31 in real time or the data of timing acquiring particular type (for example, data such as the temperature of controlled end 3 privileged sites or periphery, smell, humidity) and is passed to analysis and processing module 32 with the data of gathering.Analysis and processing module 32 is carried out analyzing and processing with the data that sensor assembly 31 transmits, to judge whether (for example sending alerting signal, analysis and processing module 32 is analyzed the specific type of data of gathering and whether is surpassed pre-set threshold value, if surpass, then generate alerting signal and send to signal transmitting and receiving module 10 and/or the signal transmitting and receiving module 20 that establishes a communications link with signal transmitting and receiving module 33 by signal transmitting and receiving module 33.

Further, in order to reach the purpose that precarious position is controlled voluntarily, the analysis processing result that analysis and processing module 32 is gone back according to the data that sensor assembly 31 is transmitted, generate regulating command and give execution processing module 34, (be example with smoke exhaust ventilator as controlled end 3 so that carry out that regulating command that processing module 34 responses generate regulates towards the direction of safety the data of particular type, the oil smoke coal gas index that sensor assembly 31 in the smoke exhaust ventilator is gathered is during greater than pre-set threshold value, then analysis and processing module 32 is sent regulating command, and control is carried out processing module 34 and opened smoke exhaust ventilator).

Further, in order to realize the ACTIVE CONTROL of 4 pairs of controlled ends 3 of monitoring client, after signal transmitting and receiving module 33 receives the steering order of sending from monitoring client 4, analyzed the type of the steering order that receives by analysis and processing module 32, gather the data of particular types and data that feedback is gathered are given monitoring client 4 according to the type of steering order control sensor assembly 31, perhaps the operation that processing module 34 is carried out the steering order correspondences is carried out in control.For example, if described instruction is the operation steering order, then the operation of processing module 34 executable operations steering order correspondences is carried out in analysis and processing module 32 controls; If the status poll instruction, then analysis and processing module 32 control sensor assemblies 31 are gathered the data of particular type and are fed back the data of gathering and give monitoring client 4.

As shown in Figure 4, be in the concrete implementing procedure figure of the method for supervising preferred embodiment under the off-mode because of outage for monitoring client.

It is emphasized that: process flow diagram shown in Figure 4 only is a preferred embodiment, and those skilled in the art is when knowing, any embodiment that makes up around inventive concept should not break away from the scope that contains in following technical scheme:

Between monitoring client 4 and power output end 15, power control 1 is set; Be under the off-mode alerting signal that the controlled end 3 of power control 1 detecting sends because of outage at monitoring client 4; Power control 1 is when detecting alerting signal, and control power output end 15 is monitoring client 4 out-put supplies.

Below be that example describes with monitoring client 4 because outage is under the off-mode monitoring that realizes controlled end 3.

Step S10 is in because of outage under the off-mode at monitoring client 4, the alerting signal that the controlled end 3 of power control 1 detecting sends.

Step S11, power control 1 are monitoring client 4 out-put supplies when detecting alerting signal.

Step S12, monitoring client 4 set up signal with the controlled end 3 that sends alerting signal and are connected, and detect the alerting signal that controlled end 3 sends.

Step S13, monitoring client 4 is determined the alerting signal of correspondence to be exported, and exports corresponding alerting signal and/or set up signal with server to connect so that corresponding alerting signal is exported to one or more information receiving ends.

Further, in order to realize better energy-saving effect, this method also comprises the steps S15.

Step S15 sends cut-offing instruction to power control 1 after the alerting signal of monitoring client 4 output correspondences, so that power control 1 cuts off the power supply of transporting to monitoring client 4 after receiving cut-offing instruction.

Show as Fig. 5, be in the concrete implementing procedure figure of the method for supervising preferred embodiment under start or the holding state for monitoring client because of energising.

Step S20 is in because of energising under start or the holding state at monitoring client 4, the alerting signal that the controlled end 3 of monitoring client 4 detectings sends.

Step S21, monitoring client 4 determine the alerting signal of correspondence to be exported when detecting alerting signal.

Step S22, monitoring client 4 export corresponding alerting signal and/or set up signal with server and connect so that corresponding alerting signal is exported to one or more information receiving ends.

As shown in Figure 6, be in the concrete implementing procedure figure of the command control method preferred embodiment under start or the holding state because of energising for monitoring client.

Step S30 is in because of energising under the open state at monitoring client 4, and monitoring client 4 receives the steering order of sending to specific controlled end 3 (for example, operation steering order, status poll steering order etc.).

Step S31, monitoring client 4 sends to corresponding controlled end 3 with the steering order that receives.

Step S32, controlled end 3 is after receiving the steering order that monitoring client 4 sends, the steering order that response receives (if the status poll steering order, then controlled end 3 is collected corresponding status information according to the status poll steering order that receives, and the status information of collecting is fed back to monitoring client 4).

Below only be the preferred embodiments of the present invention; be not so limit claim of the present invention; every equivalent structure or equivalent flow process conversion that utilizes instructions of the present invention and accompanying drawing content to do; or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the present invention.

Claims (10)

1. the supervisory system of a controllable electric power is characterized in that, this system comprises:

Power output end;

Controlled end for the data of gathering particular type, carries out analyzing and processing to judge whether to send alerting signal to the data of gathering, and sends alerting signal to monitoring client and power control when needs send alerting signal;

Power control is used for setting up signal with controlled end and being connected when monitoring client is in off-position, detects the alerting signal that controlled end sends, and when detecting alerting signal, the control power output end is the monitoring client out-put supply;

Monitoring client, be used for when the power supply input is arranged, setting up signal with the controlled end that sends alerting signal is connected, detect the alerting signal that controlled end sends, determine the alerting signal of correspondence to be exported, export corresponding alerting signal, and/or set up the signal connection so that corresponding alerting signal is exported to one or more information receiving ends with server.

2. supervisory system as claimed in claim 1 is characterized in that, described power control also is used for cutting off the power supply of transporting to monitoring client after the corresponding alerting signal of monitoring client output.

3. supervisory system as claimed in claim 1 is characterized in that, described power control comprises signal transmitting and receiving module, control signal sending module, switch control module, wherein:

Form the closed-loop path between signal transmitting and receiving module and the power output end;

When the power switch of switch control module control was in off-state, the signal transmitting and receiving module was detected the alerting signal that controlled end sends;

The control signal sending module is connected with the signal transmitting and receiving module by signal, when the signal transmitting and receiving module detects the alerting signal that controlled end sends, control signal sending module transmit button close command is given switch control module, and the switch closure that switch control module responsive control signal sending module sends instructs the power switch between closed power output end and the monitoring client to be the monitoring client out-put supply.

4. supervisory system as claimed in claim 3 is characterized in that:

Described signal transmitting and receiving module also is used for being connected with the monitoring client signal, to receive the cut-offing instruction that monitoring client sends;

Described control signal sending module also is used for when the signal transmitting and receiving module receives the cut-offing instruction that monitoring client sends, and the transmit button open command is given described switch control module;

Described switch control module also is used for the switch open command deenergization output terminal of responsive control signal sending module transmission and the power switch between the monitoring client.

5. supervisory system as claimed in claim 1 is characterized in that, described monitoring client comprises signal transmitting and receiving module, signal analyse block, execution module, wherein:

The signal transmitting and receiving module is detected the alerting signal that controlled end sends, when signal analyse block detects the alerting signal that controlled end sends in the signal transmitting and receiving module, determine the alerting signal of correspondence to be exported, generation is at the execution command of the alerting signal of correspondence, and execution module is exported corresponding alerting signal according to the execution command that signal analyse block produces.

6. supervisory system as claimed in claim 5 is characterized in that, described monitoring client also comprises:

The warning message output module is used under the control of described execution module the alerting signal that output is corresponding.

7. supervisory system as claimed in claim 5, it is characterized in that, described monitoring client also comprises command process module, this command process module receives the steering order that the user sends to the specific controlled end, the steering order that the signal transmitting and receiving module receives command process module sends to corresponding controlled end, responds described steering order by the controlled end of correspondence.

8. the method for supervising of a controllable electric power is characterized in that, the method comprising the steps of:

Between monitoring client and power output end, power control is set;

When monitoring client is in off-position, set up signal between power control and the controlled end and be connected, detect the alerting signal that controlled end sends, when detecting alerting signal, the control power output end is the monitoring client out-put supply;

Monitoring client is when having the power supply input, setting up signal with the controlled end that sends alerting signal is connected, detect the alerting signal that controlled end sends, determine the alerting signal of correspondence to be exported, export corresponding alerting signal, and/or set up the signal connection so that corresponding alerting signal is exported to one or more information receiving ends with server.

9. method as claimed in claim 8 is characterized in that, this method also comprises:

Send cut-offing instruction to power control behind the monitoring client output alarm signal, so that power control cuts off the power supply of transporting to monitoring client after receiving cut-offing instruction.

10. method as claimed in claim 8 is characterized in that, this method also comprises:

Monitoring client receives the steering order that the user sends to the specific controlled end, and the steering order that receives is sent to corresponding controlled end, responds described steering order by the controlled end of correspondence.

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