CN106371323A - Cloud sensor for built-in energy conservation module - Google Patents

Abstract

The invention provides a cloud sensor for built-in energy conservation module. The cloud sensor comprises a sensor module including various sensors for transmitting the obtained parameters to a data processing module through an A/D converter and sensor interfaces; the data processing module for analyzing and processing the sensor acquired data and transmitting the data to a server; a power supply module for providing power to the modules in need of power; and an energy conservation module for monitoring and controlling the power storage of the power supply module as well as the power supply conditions to the various modules and transmitting the detected data to the server for data analysis. According to the invention, the cloud sensor can help some equipment be cut off power supply when some parameters are not required to be measured, therefore, greatly extending the duration capability of a battery. A user can also cut off the power supply to some parameter modules through a webpage; or the server cuts off the power supply to some parameter modules in a certain period based on the analysis on the user's behavior and habit.

Description

A kind of cloud sensor of built-in energy-saving module

Technical field

The invention belongs to Smart Home technical field, particularly to a kind of cloud sensor of built-in energy-saving module.

Background technology

With the raising of scientific and technical constantly progressive and social development levels, smart home continuous high temperature." the intelligence of household Energyization " also becomes the trend that one cannot stop.Incessantly only have household, " intelligent " that temporal also all slowly becomes.Even " things " that be connected to the Internet will be inestimable.

But an important problem, that is, how to improve the endurance of these networked devices batteries and life-span is mesh Previous great research direction, because the quantity of sensor is generally a lot, it also can be huge for changing the cost of battery cost and time Big, sometimes the environment residing for these sensors does not have the socket that can access power line.Therefore it is necessary for improving battery Life-span could save substantial amounts of cost and time.

Content of the invention

In order to overcome the shortcoming of above-mentioned prior art, it is an object of the invention to provide a kind of cloud of built-in energy-saving module passes Sensor, the built-in energy-saving module of this system can help equipment to cut off the electricity supply the confession to its electric energy when some parameters do not need measurement Should, so can greatly improve the endurance of battery；User can cut off the confession to some parameter module electric energy by webpage Should, or server passes through to analyze user behavior and custom is cut off to some parameter module electric energy in certain time period automatically Supply.

To achieve these goals, the technical solution used in the present invention is:

A kind of cloud sensor of built-in energy-saving module, comprising:

Sensor assembly 1, including multiple sensors, by a d converter and sensor interface 2 by the parameter obtaining transmission To data processing module 5；

Data processing module 5, carries out sensor acquisition data analysis and process, transmits data to server 3；

Power module 7, needs the module for power supply of power supply for each；

Energy-saving module 8, the electricity to power module 7 and each module for power supply situation are monitored and control, and will detect Data deliver to server 3 and carry out data analysiss.

Cloud sensor of the present invention may also include that

Memory module 9, be connected with data processing module 5 its output data is carried out locally stored.

And/or

Wireless communication unit 4, realizes between data processing module 5 and server 3 and energy-saving module 8 and server 3 Data transfer.Described wireless communication unit 4 is wifi module, gprs communication module, 3g communication module or cdma communication module.

Described sensor assembly 1 includes air parameter sensor and network shooting is first-class.

Described power module 7 is accumulator.

Described energy-saving module 8 comprises supply voltage monitoring modular and controls supply module, is stored with server 3 data base The power module 7 of various different models needs voltage preset value when changing, supply voltage monitoring module monitors power module 7 Voltage, controls supply module to judge whether to need to change power module 7.

Described energy-saving module 8 constantly carries out detection to the voltage of power module 7 and judges whether it reduces and reach steady state value, Then proceed to detect without reaching steady state value, if reaching steady state value, recording this steady state value, and continuing detection voltage Whether reducing again, without reducing it is determined that the voltage preset value that exhausts of electricity, if reduced again, continuing detection straight Reach steady state value to voltage, thus complete the determination needing to change cell voltage preset value.

Although some module power consumption ratios are larger when each module for power supply situation is monitored and is controlled, but at certain The time period parameter of its collection is meaningless, and now energy-saving module can stop the electric energy supply to it.According to local environment, can Set certain module to be not required to power in some time periods, and this is not required to the data base that power supply information record stores server 3 In, server 3 by being inquired about the control realized to the supply of certain module electricity by energy-saving module 8 to data base.

Described server 3 includes storage server and Cloud Server, and storage server is used to store historical data, and cloud takes Business device is used to carry out data interaction with user.

Compared with prior art, the invention has the beneficial effects as follows:

First, the life-span of battery can be improved by built-in energy-saving module.

Secondly, artificially energy-saving module can be controlled to realize the control that certain module electric energy is supplied by webpage, or Directly needed to need that what parameter is placed directly in data base, realizes intelligentized control method in some time periods.

Brief description

Fig. 1 is a kind of cloud sensor structure figure of built-in energy-saving module.

Fig. 2 is supply voltage detection data flow chart.

Fig. 3 is to control each contactor data flowchart.

Specific embodiment

Describe embodiments of the present invention with reference to the accompanying drawings and examples in detail.

Referring to Fig. 1, the cloud sensor of the built-in energy-saving module of the present invention include sensor assembly 1, memory module 9, at data Reason module 5, power module 7, energy-saving module 8, wireless communication unit 4 etc..

Wherein, sensor assembly 1 obtains respective sensor gathered data, and by a d converter and sensor interface 2 will The data obtaining sends data processing module 5 to；The data that sensor receives is carried out necessary data by data processing module 5 Analysis and process, for example, delete invalid data etc., carry out data interaction by wireless communication unit 4 and server 3, to server 3 transmission data simultaneously carry out the function such as locally stored in memory module 9；Power module 7 needs the module for power supply of electric energy for each. Wireless communication unit 4 is connected and carries out data interaction with the webserver, sends the contents such as the data of sensor collection, channel radio Letter unit 4 can be wifi module, gprs communication module, 3g communication module or cdma communication module etc..

The core of the present invention is energy-saving module 8, and energy-saving module 8 comprises supply voltage monitoring modular and controls supply module, Electricity to power module 7 and each module for power supply situation are monitored and control, and the data detecting is delivered to server 3 enter Row data analysiss.

Referring to Fig. 2, power module 7 is accumulator, and the present invention judges whether to need to change electricity by monitoring cell voltage Pond, the battery of various different models is needed magnitude of voltage when changing to detect, and by this magnitude of voltage record, is stored in server In data base, conveniently it is compared with the cell voltage detecting later, to remind user the need of replacing battery.

When user uses first, need to wait the voltage measured during dead battery capability, if use same type later The voltage it is not necessary to measure again, during the dead battery capability that only need to measure by the voltage detecting with when using first for the battery Value is compared just may be used.

Specifically, when using first, energy-saving module 8 constantly detects to cell voltage, judges cell voltage whether Directly reduce and reach steady state value, without reaching steady state value, then proceeding to detect, if reaching steady state value, recording this perseverance Determine magnitude of voltage, whether the electricity for guaranteeing battery exhausts, and should continue whether detection voltage reduces again, then true without reducing Being set to the voltage preset value that electricity exhausts, if reduced, continuing detection until voltage reaches steady state value, complete to need to change electricity The determination of voltage preset value during pond.This data is saved in the corresponding processing module of server 3, so as to it after server 3 Call.

Applicable object of the present invention is primarily directed to the wireless sensor node with accumulator, now with single cloud sensor As a example illustrate energy-saving module performance effect.Specifying information interaction is as follows:

1) the control supply module of energy-saving module 8 is connected with each branch switch, supply voltage monitoring modular and power module 7 It is connected.

2) data processing module 5 converted by type obtain the mac address of cloud sensor, the running status of each module, The equipment essential information such as way switch state, battery electric quantity；

3) user is further arranged to cloud sensor, including cloud sensor position, cloud sensor id, Yun Chuan The equipment details such as sensor title；

4) after completing above-mentioned configuration process, these information are synchronized server 3 by cloud sensor.Specifically synchronous mistake Journey is as follows:

After energy-saving module 8 electricity on cloud sensor, actively by the on off state of each for cloud sensor branch road and electric quantity of power supply shape State information etc. is synchronized to server 3.

Referring to Fig. 3, it is the autosynchronous flow chart of information, energy-saving module is actively initiated synchronizing information request and entered after starting Ap pattern, server passes through wireless search, finds that cloud sensor will be dynamically connected certainly, after connection, cloud sensor is distributed in server Net ip.

Cloud probe power and each branch switch letter that energy-saving module is collected is sent after cloud sensor connection server Cease to server, this information is made up of an xml document, and property value is as shown in the table:

Cloud sensor power saving module information

Server to complete information and to send for cloud sensor allocation space, completes server after information sends and sends messages to Cloud sensor, the corresponding display lamp of cloud sensor can be lighted.Represent message synchronous success.

5) cloud sensor enters normal operating conditions, transmits information, accepts the instruction of server to server.

6) user can remotely check cloud sensor each module switch state, power supply status and to equipment by server end It is controlled.

Energy-saving module of the present invention has the function of automatically adjusting each module operation, and the time period according to the manual setting of user is certainly The corresponding module of dynamic operation, cloud sensor has working condition, holding state, three kinds of different states of resting state.

Working condition refers to that user needs the sensing data of various parameters at home, and modules all work normal Run, and wireless communication unit is continuous and server carries out synchronizing information, so power consumption is than larger under this state.

Holding state refers to a night in middle rest of user, and the sensing data demand for some parameters is not very big, Just such as do not have light in the evening substantially, and illuminance transducer need not be operated, and now illuminance transducer branch switch disconnects, from Dynamic entrance holding state, waits user to need automatic running when bright soon in sky.

Resting state refers to that user may go out to go to work daytime or festivals or holidays go out during tourism stays out, now each mould If block continues to run with, the data so obtaining will be less than in all senses, and now cloud sensor enters resting state, only energy-conservation In job demand electric energy, other modules all quit work module, and other modules wait energy-saving module to wake up at any time, enter work Make state or holding state.

Claims (10)

1. a kind of cloud sensor of built-in energy-saving module is it is characterised in that include:

Sensor assembly (1), including multiple sensors, by a d converter and sensor interface (2) by the parameter obtaining transmission To data processing module (5)；

Data processing module (5), carries out sensor acquisition data analysis and process, transmits data to server (3)；

Power module (7), needs the module for power supply of power supply for each；

Energy-saving module (8), the electricity to power module (7) and each module for power supply situation are monitored and control, and will detect Data deliver to server (3) and carry out data analysiss.

2. according to claim 1 the cloud sensor of built-in energy-saving module it is characterised in that also including:

Memory module (9), be connected with data processing module (5) its output data is carried out locally stored.

3. the cloud sensor of built-in energy-saving module according to claim 1 or claim 2 is it is characterised in that also include:

Wireless communication unit (4), realizes data processing module (5) and server (3) and energy-saving module (8) and server (3) Between data transfer.

4. according to claim 3 the cloud sensor of built-in energy-saving module it is characterised in that described wireless communication unit (4) For wifi module, gprs communication module, 3g communication module or cdma communication module.

5. according to claim 1 built-in energy-saving module cloud sensor it is characterised in that described sensor assembly (1) bag Include air parameter sensor and IP Camera.

6. according to claim 1 built-in energy-saving module cloud sensor it is characterised in that described power module (7) be store Battery.

7. according to claim 1 the cloud sensor of built-in energy-saving module it is characterised in that described energy-saving module (8) comprises Supply voltage monitoring modular and control supply module, the power module of the various different models that are stored with server (3) data base (7) need voltage preset value when changing, the voltage of supply voltage monitoring module monitors power module (7), control supply module Judge whether to need to change power module (7).

8. according to claim 7 built-in energy-saving module cloud sensor it is characterised in that described energy-saving module (8) constantly The voltage of power module (7) is detected, judges whether it reduces and reach steady state value, then continue without reaching steady state value Continuous detected, if reaching steady state value, record this steady state value, and continue whether detection voltage reduces again, without subtracting Little continue detection until voltage reaches steady state value it is determined that the voltage preset value that exhausts of electricity if reduced again, thus complete Become the determination needing to change cell voltage preset value.

9. according to claim 7 the cloud sensor of built-in energy-saving module it is characterised in that according to local environment, setting certain A little modules were not required to power in some time periods, and this information record that is not required to power were stored in the data base of server (3), clothes Business device (3) by carrying out inquiring about the control to realize to the supply of certain module electricity by energy-saving module (8) to data base.

10. according to claim 1 built-in energy-saving module cloud sensor it is characterised in that described server (3) include deposit Storage server and Cloud Server, storage server is used to store historical data, and Cloud Server is used to carry out data with user Interaction.