CN108415803A - A kind of method and system of the energy saving electricity monitoring of smart lock - Google Patents

Abstract

The invention discloses a kind of methods of the energy saving electricity monitoring of smart lock, include the following steps：It is automatic to detect current electric quantity and active reporting server after S1, smart lock are unlocked, it reports successfully to disconnect afterwards and is connect with server；S2, historical data is detected whether, the electricity Q1 and current time T1 storages currently reported to specified database if not；If so, thening follow the steps S3；S3, according to current residual electricity Q2 and current time T2 and last time preserve report electricity Q1 and corresponding time T1, computed losses factor R 1；S4, R1 is put into specified fissipation factor database association queue position；S5, the smart lock electricity is inquired by client remote, record current queries time T3；All fissipation factors of S6, the corresponding fissipation factor database of inquiry.In the present invention, as long as unlocking, will report current electric quantity automatically and disconnect the connection with server reduces server stress to accelerate inquiry operation, reduces smart lock kwh loss.

Description

A kind of method and system of the energy saving electricity monitoring of smart lock

Technical field

The present invention relates to the technical fields of smart lock, more specifically to a kind of side of the energy saving electricity monitoring of smart lock Method and system.

Background technology

With the development of technology and the improvement of people ’ s living standards, door controlled safety is increasingly paid attention to, smart lock is just wide General is applied on various types of houses, current smart lock, and working method is：Client remote sends inquiry electricity and refers to It enables to server, after server receives the instruction of inquiry electricity, and electricity quantity inquiring instruction is transmitted to smart lock, smart lock lock is received To instructing and inquiring current electric quantity, after the completion of inquiry, query result is returned into server, server again returns to current electric quantity Terminal Server Client.It, which is can be seen that, from above-mentioned query process has following disadvantages：

1. inquiry is slow, by client-server-smart lock, after obtaining query result, then query result original road returned It returns, time-consuming for whole process；

2. occupying server resource, inquire every time, server will connect client and smart lock simultaneously；

3. power consumption is big, in the course of work, smart lock needs, which are always maintained at, connect with server and intercepts state, that is, should Partial circuit is constantly in working condition.

Invention content

The shortcomings that it is a primary object of the present invention to overcome the prior art and deficiency provide a kind of energy saving electricity prison of smart lock The method of control, it is possible to reduce the communication with smart lock reduces power consumption, while decreasing the connection of smart lock and server, drops Low server stress.

Another object of the present invention is to provide a kind of systems of the energy saving electricity monitoring of smart lock.

In order to reach above-mentioned first purpose, the present invention uses following technical scheme：

A kind of method of the energy saving electricity monitoring of smart lock of the present invention, includes the following steps：

It is automatic to detect current electric quantity and active reporting server after S1, smart lock are unlocked, report successfully disconnection afterwards and service Device connects, and the circuit suspend mode being connect with server, to reduce power consumption；

S2, server receive the electricity that smart lock reports, and detect whether historical data, working as if not Before the electricity Q1 that reports and current time T1 storages to private database；If having detected historical data, then follow the steps S3；

S3, according to current residual electricity Q2 and current time T2 and last time preserve report electricity Q1 and to it is corresponding when Between T1, computed losses factor R 1, calculation formula is as follows：

R1=(Q1-Q2)/(T2-T1)；

S4, the result of calculation R1 of step S3 is put into specified fissipation factor database association queue position；

S5, the smart lock electricity is inquired by client remote, record current queries time T3；

S6, all fissipation factors for inquiring the corresponding fissipation factor database of the smart lock, are analyzed by data value, are obtained It is immediate that current T3 substitution function F (t) are currently calculated with the relevant mathematical model/mathematical function F (t) of time t Electricity Q3, then Q3 is multiplied by corrected parameter r, and return to client.

As a preferred technical solution, in step S2, detect whether that having historical data uses following methods：

Unique identity ID is configured to each smart lock；

There are one exclusive data library managements for the electricity record meeting of each smart lock, and there are one special wherein in private database There are the voltameters that all smart locks report at a certain moment：

Lock ID	Time	Electricity

Under init state, which is empty, is reported on electricity Qa when the smart lock that ID is XXXXXXXXX is in Ta Come, system searching ID is the electricity record of the smart lock of XXXXXXXXX, since the smart lock does not report at this time, is certainly not looked for To any record, then it is assumed that it is to report for the first time, is inserted into the table, it is as a result as follows：

Lock ID	Time	Electricity
			XXXXXXXXX	Ta	Qa

When the smart lock that next ID is XXXXXXXXX reports electricity, system that can find its historical data again.

As a preferred technical solution, in step S2, in step S2, the private database is relevant database.

As a preferred technical solution, in step S2, in step S4, institute's art fissipation factor database, refers to non-relational Database has certain factor table in database：

Lock ID	Because of subqueue
		XXXXXXXXX	R1, R2, R3.........................................Rn

When the smart lock gives the correct time on for the first time, record ID number is XXXXXXXXX because subqueue is not present, so newly-built A data is put into table, if not reporting for the first time, then the corresponding records of XXXXXXXXX is first found, then update factor It is inserted into because of subqueue.

As a preferred technical solution, in step S5, the client is without being particularly developed, only invoking server being needed to carry The several interfaces supplied.

As a preferred technical solution, in step S6, corrected parameter is obtained by following manner：

When the electricity of smart lock is left 4%, drives the motor of smart lock just very painstaking, therefore the corrected parameter is set as 0.95, i.e. 1-%5 tell user's electricity empty when electricity is left 5%, while also opening No. 1~2 lock enough.

In order to reach above-mentioned second purpose, the present invention uses following technical scheme：

A kind of system of the energy saving electricity monitoring of smart lock of the present invention, including the inspection of electricity reporting module, server, historical data Survey module, fissipation factor computing module, fissipation factor database module, client and enquiry module；

The electricity reporting module, it is automatic to detect current electric quantity and active reporting server after unlocking for smart lock, on It disconnects after reporting successfully and being connect with server, and the circuit suspend mode being connect with server；

The historical data detection module receives the electricity that smart lock reports for server, detects whether Historical data；

The fissipation factor computing module, according to reporting of preserving of current residual electricity and current time and last time Electricity and corresponding time, the computed losses factor；

The fissipation factor database module, for storing fissipation factor,

The client records the current queries time for the remote inquiry smart lock electricity,

Addressed enquiry module, all fissipation factors for inquiring the corresponding fissipation factor database of the smart lock are led to Data value analysis is crossed, the immediate and relevant mathematical model/mathematical function F (t) of time t is obtained, current time is substituted into letter Number F (t), obtains currently calculating current electric quantity, then current electric quantity is multiplied by corrected parameter, and return to client.

The historical data detection module includes identity configuration module, electricity logging modle as a preferred technical solution, And enquiry module,

The identity configuration module, for configuring unique identity ID to each smart lock；

The electricity logging modle, the electricity for each smart lock records meeting, and there are one exclusive data library managements, wherein There are one specially have the voltameter that all smart locks report at a certain moment in private database；

The enquiry module, for when the smart lock of a certain ID reports electricity again, inquiring the history of the ID smart locks Data.

The fissipation factor database module as a preferred technical solution, refers to that non-relational database works as the intelligence Lock gives the correct time on for the first time, and record ID number is being not present because of subqueue for XXXXXXXXX, so newly-built a data is put into table In, if not reporting for the first time, then the corresponding records of XXXXXXXXX are first found, then update factor is inserted into because of subqueue.

Further include as a preferred technical solution, correcting module in the enquiry module, in the correcting module, works as intelligence It when the electricity of lock is left 4%, drives the motor of smart lock just very painstaking, therefore the corrected parameter is set as 0.95, i.e. 1-%5, It when electricity is left 5%, that is, tells user's electricity empty, while also opening No. 1~2 lock enough.

Compared with prior art, the present invention having the following advantages that and advantageous effect：

1, technical solution through the invention, as long as there is opening smart lock, which will report current electric quantity automatically, It has reported just to disconnect and connect with server, be greatly saved electricity.

2, the present invention records current smart lock by server electricity, next user is reported to inquire smart lock electricity, takes Remaining capacity historical data and time loss are reported before business device follow-up, automatic current smart lock electricity simultaneously returns to client End no longer needs to lock body inquiry, to accelerate inquiry operation；Reduce server stress and smart lock kwh loss.

Description of the drawings

Fig. 1 is the method flow diagram of the energy saving electricity monitoring of smart lock of the present invention；

Fig. 2 is the block diagram of the energy saving electricity monitoring system of smart lock of the present invention；

Fig. 3 is the block diagram of historical data detection module；

Fig. 4 is the block diagram of enquiry module of the present invention.

Specific implementation mode

Present invention will now be described in further detail with reference to the embodiments and the accompanying drawings, but embodiments of the present invention are unlimited In this.

Embodiment 1

As shown in Figure 1, a kind of method of the energy saving electricity monitoring of smart lock of the present embodiment, includes the following steps：

It is automatic to detect current electric quantity and active reporting server after S1, smart lock are unlocked, report successfully disconnection afterwards and service Device connects, and the circuit suspend mode being connect with server, to reduce power consumption；

S2, server receive the electricity that smart lock reports, and detect whether historical data, working as if not Before the electricity Q1 that reports and current time T1 storages to specified database；If having detected historical data, then follow the steps S3；

In above-mentioned steps S2, detect whether that having historical data uses following methods：

S21, unique identity ID is configured to each smart lock；

S22, each smart lock electricity record can there are one exclusive data library management, wherein in private database there are one Specially there is the voltameter that all smart locks report at a certain moment, as shown in subscript 1：

Table 1

Lock ID	Time	Electricity

Under S23, init state, which is empty, and electricity is reported when the smart lock that ID is 00000AAA1 is in Ta Come on Qa, system searching ID is the electricity record of the smart lock of 00000AAA1, since the smart lock does not report at this time, certainly Any record is not found, then it is assumed that be to report for the first time, be inserted into the table, the results are shown in Table 2：

Table 2

Lock ID	Time	Electricity
			00000AAA1	Ta	Qa

When the lock that next ID is 00000AAA1 reports electricity, system that can find his historical data again.

The private database includes but not limited to relevant database, as long as meet the present invention claims database, Within protection domain.

S3, according to current residual electricity Q2 and current time T2 and last time preserve report electricity Q1 and to it is corresponding when Between T1, computed losses factor R 1, calculation formula is as follows：

R1=(Q1-Q2)/(T2-T1)；

S4, the result of calculation R1 of step S3 is put into specified fissipation factor database association queue position；

Institute's art fissipation factor database, refers to non-relational database, has certain factor table in database, as shown in table 3：

Table 3

Lock ID	Because of subqueue
		00000AAA1	R1, R2, R3.........................................Rn

When the smart lock gives the correct time on for the first time, record 00000AAA1 because subqueue is not present, so creating a number According to being put into table, if not reporting for the first time, then first find the corresponding records of 00000AAA1, then update factor be inserted into because Subqueue.

S5, the smart lock electricity is inquired by client remote, record current queries time T3；The client include but It is not limited to app, need not be particularly developed, the several interfaces for only needing invoking server to provide.

S6, all fissipation factors for inquiring the corresponding fissipation factor database of the smart lock, are analyzed by data value, are obtained It is immediate that current T3 substitution function F (t) are currently counted with certain relevant mathematical model/mathematical function F (t) of time t Electricity Q3 is calculated, then Q3 is multiplied by corrected parameter r, and returns to client.

In view of even if battery is exactly not to be lost completely, i.e., in the case of electricity, driving lock may be not enough to Motor, thus cannot etc. battery capacity to just showing complete out of power when 0%, in addition battery loss is generally nonlinear, institute The electricity of driving lock motor unlocking enough is shown to need to be multiplied by a corrected parameter.Experiment test shows when electricity is remaining When 4%, driving lock motor is just very painstaking.So the corrected parameter is generally set to 0.95 (i.e. 1-%5), in this way when electricity is remaining It when 5%, that is, tells user's electricity empty, while also opening No. 1~2 lock enough.

Embodiment 2

The present embodiment 2 is the corresponding floppy disk system of method of the energy saving electricity monitoring of 1 smart lock of above-described embodiment, as shown in Fig. 2, The system includes following the description：

Electricity reporting module 1, server 2, historical data detection module 3, fissipation factor computing module 4, fissipation factor number According to library module 5, client 6 and enquiry module 7,

The electricity reporting module 1, it is automatic to detect current electric quantity and active reporting server 2 after unlocking for smart lock, It reports successfully to disconnect afterwards and be connect with server, and the circuit suspend mode being connect with server；

The historical data detection module 3 receives the electricity that smart lock reports for server, detects whether Historical data；

The fissipation factor computing module 4, according to reporting of preserving of current residual electricity and current time and last time Electricity and corresponding time, the computed losses factor；

The fissipation factor database module 5, for storing fissipation factor,

The client 6 records the current queries time for the remote inquiry smart lock electricity,

Addressed enquiry module 7, all fissipation factors for inquiring the corresponding fissipation factor database of the smart lock are led to Data value analysis is crossed, the immediate and relevant mathematical model/mathematical function F (t) of time t is obtained, current time is substituted into letter Number F (t), obtains currently calculating current electric quantity, then current electric quantity is multiplied by corrected parameter, and return to client.

As shown in figure 3, the historical data detection module 3 include identity configuration module 31, electricity logging modle 32 and Enquiry module 33,

The identity configuration module 31, for configuring unique identity ID to each smart lock；

The electricity logging modle 32, the electricity for each smart lock record exclusive data library management there are one meetings, In special lane database there are one specially there is the voltameter that all smart locks report at a certain moment；

The enquiry module 33, for when the smart lock of a certain ID reports electricity again, inquiring going through for the ID smart locks History data.

The fissipation factor database module 4 refers to non-relational database when the smart lock gives the correct time on for the first time, Record ID Number for XXXXXXXXX because subqueue is not present, so newly-built a data is put into table, if not for the first time reporting, The corresponding records of XXXXXXXXX are then first found, then update factor is inserted into because of subqueue.

As shown in figure 4, further including correcting module 71 in the enquiry module 7, in the correcting module, when the electricity of smart lock It when amount is left 4%, drives the motor of smart lock just very painstaking, therefore the corrected parameter is set as 0.95, i.e. 1-%5, work as electricity It when remaining 5%, that is, tells user's electricity empty, while also opening No. 1~2 lock enough.

The above embodiment is a preferred embodiment of the present invention, but embodiments of the present invention are not by above-described embodiment Limitation, it is other it is any without departing from the spirit and principles of the present invention made by changes, modifications, substitutions, combinations, simplifications, Equivalent substitute mode is should be, is included within the scope of the present invention.

Claims (10)

1. a kind of method of the energy saving electricity monitoring of smart lock, which is characterized in that include the following steps：

It is automatic to detect current electric quantity and active reporting server after S1, smart lock are unlocked, report successfully disconnection afterwards to connect with server It connects, and the circuit suspend mode being connect with server, to reduce power consumption；

S2, server receive the electricity that smart lock reports, and detect whether historical data, on current if not The electricity Q1 and current time T1 of report are stored to private database；If having detected historical data, S3 is thened follow the steps；

S3, according to current residual electricity Q2 and current time T2 and last time preserve report electricity Q1 and corresponding time T1, Computed losses factor R 1, calculation formula is as follows：

R1=(Q1-Q2)/(T2-T1)；

S4, the result of calculation R1 of step S3 is put into specified fissipation factor database association queue position；

S5, the smart lock electricity is inquired by client remote, record current queries time T3；

S6, all fissipation factors for inquiring the corresponding fissipation factor database of the smart lock, are analyzed by data value, are most connect Close obtains current T3 substitution function F (t) currently to calculate electricity with the relevant mathematical model/mathematical function F (t) of time t Q3, then Q3 is multiplied by corrected parameter r, and return to client.

2. the method for the energy saving electricity monitoring of smart lock according to claim 1, which is characterized in that in step S2, detect whether Have historical data and uses following methods：

Unique identity ID is configured to each smart lock；

There are one exclusive data library managements for the electricity record meeting of each smart lock, and there are one specially exist wherein in private database The voltameter that all smart locks report at a certain moment：

Lock ID Time Electricity

Under init state, the voltameter be it is empty, when ID for XXXXXXXXX smart lock in Ta when report on electricity Qa, System searching ID is that the electricity record of the smart lock of XXXXXXXXX certainly not finds and appoints since the smart lock does not report at this time What is recorded, then it is assumed that and it is to report for the first time, is inserted into the table, it is as a result as follows：

Lock ID Time Electricity XXXXXXXXX Ta Qa

When the smart lock that next ID is XXXXXXXXX reports electricity, system that can find its historical data again.

3. the method for the energy saving electricity monitoring of smart lock according to claim 1, which is characterized in that in step S2, in step S2, The private database is relevant database.

4. the method for the energy saving electricity monitoring of smart lock according to claim 1, which is characterized in that in step S2, in step S4, Institute's art fissipation factor database, refers to non-relational database, there is certain factor table in database：

Lock ID Because of subqueue XXXXXXXXX R1, R2, R3 ... ... ... ... ... ... ... ..Rn

When the smart lock gives the correct time on for the first time, record ID number is XXXXXXXXX because subqueue is not present, so one newly-built Data are put into table, if not reporting for the first time, then first find the corresponding records of XXXXXXXXX, then update factor is inserted into Because of subqueue.

5. the method for the energy saving electricity monitoring of smart lock according to claim 1, which is characterized in that in step S5, the client End is only to need several interfaces of invoking server offer without being particularly developed.

6. the method for the energy saving electricity monitoring of smart lock according to claim 1, which is characterized in that in step S6, corrected parameter It is obtained by following manner：

When the electricity of smart lock is left 4%, drives the motor of smart lock just very painstaking, therefore the corrected parameter is set as 0.95, i.e. 1-%5 tell user's electricity empty when electricity is left 5%, while also opening No. 1~2 lock enough.

7. a kind of system of the energy saving electricity monitoring of smart lock, which is characterized in that including electricity reporting module, server, history number According to detection module, fissipation factor computing module, fissipation factor database module, client and enquiry module；

The electricity reporting module, it is automatic to detect current electric quantity and active reporting server after unlocking for smart lock, it reports into It disconnects after work(and being connect with server, and the circuit suspend mode being connect with server；

The historical data detection module receives the electricity that smart lock reports for server, detects whether history Data；

The fissipation factor computing module, according to current residual electricity and current time and last time preserve report electricity With corresponding time, the computed losses factor；

The fissipation factor database module, for storing fissipation factor,

The client records the current queries time for the remote inquiry smart lock electricity,

Addressed enquiry module, all fissipation factors for inquiring the corresponding fissipation factor database of the smart lock, passes through number It is analyzed according to value, obtains the immediate and relevant mathematical model/mathematical function F (t) of time t, current time is substituted into function F (t), it obtains currently calculating current electric quantity, then current electric quantity is multiplied by corrected parameter, and return to client.

8. a kind of system of the energy saving electricity monitoring of smart lock according to claim 7, which is characterized in that the historical data Detection module includes identity configuration module, electricity logging modle and enquiry module,

The identity configuration module, for configuring unique identity ID to each smart lock；

The electricity logging modle, the electricity for each smart lock records meeting, and there are one exclusive data library managements, wherein special There are one specially have the voltameter that all smart locks report at a certain moment to lane database；

The enquiry module, for when the smart lock of a certain ID reports electricity again, inquiring the historical data of the ID smart locks.

9. a kind of system of the energy saving electricity monitoring of smart lock according to claim 7, which is characterized in that the fissipation factor Database module refers to non-relational database when the factor team that the smart lock gives the correct time on for the first time, and record ID number is XXXXXXXXX Row are not present, so newly-built a data is put into table, if not reporting for the first time, then first find XXXXXXXXX correspondences Record, then update factor be inserted into because of subqueue.

10. a kind of system of the energy saving electricity monitoring of smart lock according to claim 7, which is characterized in that the inquiry mould Further include correcting module in block, in the correcting module, when the electricity of smart lock it is remaining 4% when, drive the motor of smart lock just It is very painstaking, therefore the corrected parameter is set as 0.95, i.e. 1-%5, when electricity is left 5%, that is, tell user's electricity empty, together When also open enough No. 1~2 time lock.