CN109279459B - Elevator Internet of things control method and system - Google Patents

Abstract

The invention discloses an elevator Internet of things control method, which comprises the following steps: when the elevator control module is communicated with the operator, the elevator control module reads the product serial number of the operator; the elevator control module sends the read product serial number to a cloud server; the cloud server judges whether the operator corresponding to the product serial number has an operation authority, and if the operator corresponding to the product serial number does not have the operation authority, the operator is forbidden to operate the elevator control module; and if the operator corresponding to the product serial number has the operation authority, the operator operates the elevator control module according to the preset mode. The invention also discloses an elevator Internet of things control system. By adopting the elevator monitoring system and the elevator monitoring method, the state of the elevator can be monitored, and an elevator manufacturer can control the running elevator.

Description

Elevator Internet of things control method and system

Technical Field

The invention relates to the technical field of elevators, in particular to an elevator Internet of things control method and an elevator Internet of things control system.

Background

In recent years, with the development of the internet of things technology, the internet of things technology is gradually introduced into the elevator, the running state of the elevator can be monitored in real time through the elevator internet of things technology, and the running state of the elevator is conveniently controlled.

As the real estate of China enters a new stage, the number of newly installed elevators is gradually reduced, and the maintenance of the elevators by each elevator manufacturer is gradually emphasized.

Disclosure of Invention

The invention aims to solve the technical problem of providing an elevator Internet of things control method and system, which can monitor the state of an elevator and ensure that an elevator manufacturer can control the running elevator.

In order to solve the technical problem, the invention provides an elevator internet of things control method, which comprises the following steps: when the elevator control module is communicated with the operator, the elevator control module reads the product serial number of the operator; the elevator control module sends the read product serial number to a cloud server; the cloud server judges whether the operator corresponding to the product serial number has an operation authority, and if the operator corresponding to the product serial number does not have the operation authority, the operator is forbidden to operate the elevator control module; and if the operator corresponding to the product serial number has the operation authority, the operator operates the elevator control module according to the preset mode.

As an improvement of the above scheme, the preset mode includes a first operation mode, a second operation mode, a third operation mode and a fourth operation mode; in a first operation mode, the operator can operate the elevator control module without limiting times and time periods; in a second operation mode, the operator can operate the elevator control module according to preset times and unlimited time periods; in a third mode of operation, the operator can operate the elevator control module unlimited times within a preset time period; in the fourth operation mode, the operator needs to operate the elevator control module within a preset time period according to preset times.

As an improvement of the above scheme, the elevator internet of things control method further includes: re-authorizing the operator through a manual authorization mode or an automatic authorization module; in a manual authorization mode, the cloud server sends authorization information to the elevator control module, the elevator control module is communicated with the operator again, and the elevator control module initializes the operator according to the authorization information. In an automatic authorization mode, the cloud server stores an authorized product serial number, communicates with all elevator control modules, and sends authorization information to the elevator control modules when the cloud server detects that the elevator control modules contain the authorized product serial number, and the elevator control modules initialize operators according to the authorization information; the authorization information includes operation times information and operation time period information.

As an improvement of the above scheme, the elevator internet of things control method further includes: when the operator needs to be terminated in advance, the cloud server stores a termination product serial number corresponding to the operator; the cloud server is communicated with all the elevator control modules; when the cloud server detects that the elevator control module contains a preset product serial number, the cloud server sends termination information to the elevator control module, and the elevator control module sends a specific protocol to the operator to initialize the operator.

As an improvement of the above scheme, before the elevator control module communicates with the operator, the elevator control module is connected with the internet of things module; the elevator control module detects the communication state of the Internet of things module and the cloud server within a preset interval time, when the Internet of things module and the cloud server cannot normally communicate, the elevator control module stops working, and when the Internet of things module and the cloud server normally communicate, the elevator control module normally works.

Correspondingly, the invention also provides an elevator Internet of things control system, which comprises a cloud server, an Internet of things module, an elevator control module and an operator, wherein the cloud server, the Internet of things module, the elevator control module and the operator can be respectively communicated with one another; the elevator control module is used for reading the product serial number of the operator and sending the read product serial number to the cloud server; the cloud server is used for judging whether the operator corresponding to the product serial number has the operation authority, if the operator corresponding to the product serial number does not have the operation authority, the operator is forbidden to operate the elevator control module, and if the operator corresponding to the product serial number has the operation authority, the operator is allowed to operate the elevator control module; the operator is used for operating the elevator control module according to a preset mode.

As an improvement of the above scheme, the preset mode includes a first operation mode, a second operation mode, a third operation mode and a fourth operation mode; in a first operation mode, the operator can operate the elevator control module without limiting times and time periods; in a second operation mode, the operator can operate the elevator control module according to preset times and unlimited time periods; in a third mode of operation, the operator can operate the elevator control module unlimited times within a preset time period; in the fourth operation mode, the operator needs to operate the elevator control module within a preset time period according to preset times.

As an improvement of the above scheme, the cloud server is further configured to send authorization information to the elevator control module in a manual authorization mode, and store an authorized product serial number in an automatic authorization mode, and when the cloud server detects that the elevator control module contains the authorized product serial number, the cloud server sends the authorization information to the elevator control module; the elevator control module is also used for initializing the operator according to the authorization information; the authorization information includes operation times information and operation time period information.

As an improvement of the above scheme, the cloud server is further configured to store a termination product serial number corresponding to the operator when the operator needs to be terminated in advance; meanwhile, when the cloud server detects that the elevator control module contains a preset product serial number, the cloud server sends termination information to the elevator control module; the elevator control module is also configured to send a specific protocol to the operator to initialize the operator.

As an improvement of the above scheme, the elevator control module is further configured to detect a communication state of the internet of things module and the cloud server within a preset interval, stop working when detecting that the internet of things module and the cloud server cannot normally communicate, and normally work when detecting that the internet of things module and the cloud server normally communicate.

The implementation of the invention has the following beneficial effects:

according to the elevator control system, the elevator and the Internet of things are combined, and the elevator Internet of things control system is divided into the cloud server, the Internet of things module, the elevator control module and the operator, so that the state of the elevator can be monitored, an elevator manufacturer can be ensured to master the running elevator, and specifically:

(1) the invention realizes accurate identification of the operator authority by setting the product serial number, and has high safety.

(2) The invention introduces a unique authorization mode, realizes manual/automatic authorization of the operator authority and has strong flexibility.

(3) The invention introduces a mode of terminating the authority of the operator in advance, facilitates the user to control the operator according to the actual condition and has strong controllability.

Drawings

Fig. 1 is a flow chart of a first embodiment of an elevator internet of things control method of the invention;

fig. 2 is a flow chart of a second embodiment of the elevator internet of things control method;

fig. 3 is a schematic structural diagram of an elevator internet of things control system.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings. It is only noted that the invention is intended to be limited to the specific forms set forth herein, including any reference to the drawings, as well as any other specific forms of embodiments of the invention.

Referring to fig. 1, fig. 1 shows a flowchart of a first embodiment of the elevator internet of things control method of the present invention, which includes:

s101, when an elevator control module is communicated with an operator, the elevator control module reads a product serial number of the operator;

s102, the elevator control module sends the read product serial number to a cloud server;

s103, the cloud server judges whether the operator corresponding to the product serial number has an operation authority, and if the operator corresponding to the product serial number does not have the operation authority, the operator is prohibited from operating the elevator control module; and if the operator corresponding to the product serial number has the operation authority, the operator operates the elevator control module according to the preset mode.

It should be noted that, when the elevator control module communicates with the operators, the product serial numbers of the operators are read first, wherein the product serial numbers of each operator are different; the elevator control module sends the product serial number to a cloud server; the cloud server judges whether the product serial number has the operation authority or judges whether the operation authority is overdue; when the operator corresponding to the product serial number has no operation authority or the operation authority is overdue, the cloud server sends specific communication content to the elevator control module, the elevator control module prohibits the operator from reading parameters, and meanwhile relevant prompt is carried out on the operator; when the operator corresponding to the product serial number has the operation authority or the operation authority is not expired, the elevator control module can operate the operator according to the content determined on the cloud server.

Specifically, the preset mode comprises a first operation mode, a second operation mode, a third operation mode and a fourth operation mode;

in the first mode of operation, the operator can operate the elevator control module unlimited times and for unlimited periods of time. Thus, in the first mode of operation, the operator can be operated unimpeded with the elevator control module.

In the second operation mode, the operator can operate the elevator control module according to the preset times and unlimited time periods. Therefore, in the second operation mode, the elevator control module can send the protocol content, when the operation panel is used once, the use frequency of the operation panel is reduced by 1, and when the remaining use frequency of the operation panel is 0, the operator cannot operate the elevator control module until the cloud server authorizes the elevator control module again.

In a third mode of operation, the operator can be operated by the elevator control module an unlimited number of times within a preset time period. Therefore, in the third operation mode, the elevator cloud server can judge according to the application time period of the operation panel, and if the current time exceeds the application time period of the operation panel, the operator cannot operate the elevator control system until the cloud server authorizes again. For example, the operator panel authorizes the time period of 2016.1.1-2018.12.31, then the operator will not be able to operate the elevator control module after the current time reaches 2019.1.1.

In the fourth operation mode, the operator needs to operate the elevator control module within a preset time period according to preset times. Thus, in the fourth mode of operation, the number of uses and the time period will be defined simultaneously, and when either of the two does not meet the requirements, the operator will not be able to operate the elevator control module.

Therefore, the restriction of the operation authority of the operator can be achieved by the above processing.

Furthermore, when the authority of the operator is limited, the operator can be re-authorized through a manual authorization mode or an automatic authorization module;

in a manual authorization mode, the cloud server sends authorization information to the elevator control module, the elevator control module is communicated with the operator again, and the elevator control module initializes the operator according to the authorization information. Specifically, when re-authorization is required, the operator needs to be connected with the elevator control module; the use times and the use time period information stored in the operation panel are initialized again through the characteristic protocol.

In the automatic authorization mode, the cloud server stores an authorized product serial number, communicates with all elevator control modules, and sends authorization information to the elevator control modules when the cloud server detects that the elevator control modules contain the authorized product serial number, and the elevator control modules initialize operators according to the authorization information. Specifically, the cloud server can communicate with all elevator control modules, when the elevator control modules are detected to contain the specified product serial number, the elevator control modules can be actively communicated with the cloud server, the use times and the time period and other information are sent to the elevator control modules through the cloud server according to an authorization mode, and the elevator control modules are communicated with the operator again.

It should be noted that the authorization information includes operation frequency information and operation time period information.

As can be seen from the above, the manual authorization mode requires the cloud server to cooperate with the operator using terminal to perform re-authorization. The automatic authorization mode can set the product serial number needing authorization in advance, and when the elevator control module detects the operator of the product serial number, the authorization can be automatically realized.

In addition, the elevator Internet of things control method further comprises the following steps:

k1, when the operator needs to be terminated in advance, the cloud server stores the termination product serial number corresponding to the operator;

k2, the cloud server communicates with all elevator control modules; when the cloud server detects that the elevator control module contains a preset product serial number, the cloud server sends termination information to the elevator control module, and the elevator control module sends a specific protocol to the operator to initialize the operator.

It should be noted that the present invention has a function of terminating the operator early. The cloud server can store a preset product serial number needing to be terminated and authorized, the cloud server can communicate with all the elevator control modules, when the product serial number is detected to contain the specified product serial number, the product serial number can be actively communicated with the elevator control module, the information terminated in advance is sent to the elevator control module through the cloud server, the elevator control module can send a specific protocol, relevant content of an operator is reinitialized, and the function that the operator cannot operate is achieved.

Referring to fig. 2, fig. 2 shows a flowchart of a second embodiment of the elevator internet of things control method of the present invention, which includes:

s201, the elevator control module is connected with an Internet of things module;

s202, the elevator control module detects the communication state of the Internet of things module and the cloud server within a preset interval time, stops working when detecting that the Internet of things module and the cloud server cannot normally communicate, and normally works when detecting that the Internet of things module and the cloud server normally communicate.

It should be noted that, after the elevator control module is connected to the internet of things module, the elevator control module can check the communication state of the internet of things module and the cloud server within a certain interval time. When the situation that the elevator control module cannot normally communicate with the cloud server is detected, the elevator control module stops running until the situation that the elevator control module can normally communicate with the cloud server is detected, and the elevator control module is put into operation again. Therefore, the mounted elevator is ensured, and after the Internet of things module is externally detached, the elevator cannot normally run, so that the control right of an elevator manufacturer to the elevator is ensured.

S203, when the elevator control module is communicated with the operator, the elevator control module reads the product serial number of the operator;

s204, the elevator control module sends the read product serial number to a cloud server;

s205, the cloud server judges whether the operator corresponding to the product serial number has an operation authority, and if the operator corresponding to the product serial number does not have the operation authority, the operator is prohibited from operating the elevator control module; and if the operator corresponding to the product serial number has the operation authority, the operator operates the elevator control module according to the preset mode.

Therefore, the elevator state can be monitored through the elevator monitoring system and the elevator monitoring method, and an elevator manufacturer can control the running elevator.

Referring to fig. 3, fig. 3 shows a specific structure of the elevator internet of things control system of the present invention, which includes a cloud server 1, an internet of things module 2, an elevator control module 3, and an operator 4, where the cloud server 1, the internet of things module 2, the elevator control module 3, and the operator 4 can respectively communicate with each other, specifically, the elevator control module 3 can directly communicate with the internet of things module 2 and the operator 4, and the elevator control module 3 can also communicate with the cloud server 1 through the internet of things module 2.

The elevator control module 3 is used for reading the product serial number of the operator 4 and sending the read product serial number to the cloud server 1;

the cloud server 1 is used for judging whether the operator 4 corresponding to the product serial number has an operation authority, if the operator 4 corresponding to the product serial number does not have the operation authority, the operator 4 is forbidden to operate the elevator control module 3, and if the operator 4 corresponding to the product serial number has the operation authority, the operator 4 is allowed to operate the elevator control module 3;

the operator 4 is used to operate the elevator control module 3 according to a preset pattern.

Therefore, when the elevator control module 3 communicates with the operators 4, the product serial numbers of the operators 4 are read first, wherein the product serial numbers of each of the operators 4 are different; the elevator control module 3 sends the product serial number to the cloud server 1; the cloud server 1 judges whether the product serial number has the operation authority or judges whether the operation authority is overdue; when the operator 4 corresponding to the product serial number has no operation authority or the operation authority is overdue, the cloud server 1 sends specific communication content to the elevator control module 3, the elevator control module 3 prohibits the operator 4 from reading parameters, and meanwhile, relevant prompt is carried out on the operator 4; when the operator 4 corresponding to the product serial number has an operation right or the operation right is not expired, the elevator control module 3 may operate the operator according to the content determined on the cloud server 1.

Specifically, the preset mode comprises a first operation mode, a second operation mode, a third operation mode and a fourth operation mode;

in a first operating mode, the operator 4 can operate the elevator control module 3 unlimited times and for unlimited periods of time;

in a second operation mode, the operator 4 can operate the elevator control module 3 according to preset times and unlimited time periods;

in a third operating mode, the operator 4 can operate the elevator control module 3 an unlimited number of times within a preset time period;

in the fourth operation mode, the operator 4 operates the elevator control module 3 for a preset time period according to a preset number of times.

Further, the cloud server 1 is further configured to send authorization information to the elevator control module 3 in a manual authorization mode, store an authorized product serial number in an automatic authorization mode, and when the cloud server 1 detects that the elevator control module 3 contains the authorized product serial number, the cloud server 1 sends the authorization information to the elevator control module 3; the elevator control module 3 is also used for initializing the operator 4 according to the authorization information; the authorization information includes operation times information and operation time period information.

Therefore, when the authority of the operator 4 is limited, the operator can be re-authorized through the manual authorization mode or the automatic authorization module;

in the manual authorization mode, the cloud server 1 sends authorization information to the elevator control module 3, the elevator control module 3 communicates with the operator 4 again, and the elevator control module 3 initializes the operator 4 according to the authorization information. In particular, when re-authorization is required, the operator 4 needs to be connected to the elevator control module 3; the use times and the use time period information are sent to the elevator control module 3 through the cloud server 1 according to an authorization mode, the elevator control module 3 communicates with the operator 4 again, and the use times and the use time period information stored in the operation panel are initialized again through the characteristic protocol.

In an automatic authorization mode, the cloud server 1 stores an authorized product serial number, the cloud server 1 communicates with all the elevator control modules 3, when the cloud server 1 detects that the elevator control modules 3 contain the authorized product serial number, the cloud server 1 sends authorization information to the elevator control modules 3, and the elevator control modules 3 initialize the operators 4 according to the authorization information. Specifically, cloud server 1 can communicate all elevator control modules 3, and when detecting that the product serial number contains the appointed product serial number, can initiatively communicate with this elevator control module 3, sends the number of times of use and information such as time period to elevator control module 3 according to the authorized mode through cloud server 1, and elevator control module 3 communicates with operation ware 4 again.

As can be seen from the above, the manual authorization mode requires the cloud server 1 and the operator 4 to cooperate with each other using the terminal to perform re-authorization. The automatic authorization mode can set a product serial number needing authorization in advance, and when the elevator control module 3 detects an operator of the product serial number, authorization can be automatically realized.

In addition, the cloud server 1 is further configured to store a termination product serial number corresponding to the operator 4 when the operator needs to be terminated in advance; meanwhile, when the cloud server 1 detects that the elevator control module 3 contains a preset product serial number, the cloud server 1 sends termination information to the elevator control module 3; the elevator control module 3 is also arranged to send a specific protocol to the operator 4 to initialize the operator.

Therefore, the present invention has a function of terminating the operator 4 in advance. The cloud server 1 can store a preset product serial number needing to be terminated and authorized, the cloud server 1 can communicate with all the elevator control modules 3, when the product serial number is detected to contain a specified product serial number, the product serial number can be actively communicated with the elevator control modules 3, the information terminated in advance is sent to the elevator control modules 3 through the cloud server 1, the elevator control modules 3 can send a specific protocol, the relevant content of the operator 4 is reinitialized, and the function that the operator 4 cannot operate is achieved.

Correspondingly, elevator control module 3 still is used for in presetting the interval time, detects the communication state of thing networking module 2 and high in the clouds server 1, when detecting thing networking module 2 and the unable normal communication of high in the clouds server 1, then elevator control module 3 stop working, when detecting thing networking module 2 and the normal communication of high in the clouds server 1, then elevator control module 3 normally works.

Therefore, after the elevator control module 3 is connected to the internet of things module 2, the elevator control module 3 can check the communication state of the internet of things module 2 and the cloud server 1 at certain intervals. When detecting that elevator control module 3 can not normally communicate with cloud server 1, elevator control module 3 can stop running, and until detecting that elevator control module 3 can normally communicate with cloud server 1, elevator control module 3 comes into operation again. Therefore, the mounted elevator is ensured, and after the internet of things module 2 is externally detached, the elevator cannot normally run, so that the control right of an elevator manufacturer on the elevator is ensured.

In summary, the elevator internet of things control system is divided into four components.

A first part: elevator control module, the main effect does:

1) controlling the elevator to perform floor scheduling operation according to the call instruction;

2) communicating with an operator;

3) carrying out data communication with the Internet of things acquisition module;

a second part: the manipulator mainly functions as:

1) the elevator control module is communicated with the elevator control module to check faults;

2) the elevator control module is communicated with the elevator control module to check the operation permission of the human-computer interface;

3) the elevator control module is communicated with the elevator control module to set parameters;

and a third part: the thing networking module, the main effect does:

1) communicating with an elevator control module and collecting an elevator running state signal;

2) communicating with the elevator control module to authorize operator data information;

3) carrying out data communication with a cloud server;

the fourth part: cloud server, the main effect does:

1) communicating with an Internet of things module;

2) carrying out upper computer information display on the acquired information;

3) and transmitting related authority data with the Internet of things module.

Therefore, the elevator state can be monitored through the elevator monitoring system and the elevator monitoring method, and an elevator manufacturer can control the running elevator.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Claims (8)

1. An elevator Internet of things control method is characterized by comprising the following steps:

when the elevator control module is communicated with the operator, the elevator control module reads the product serial number of the operator;

the elevator control module sends the read product serial number to a cloud server;

the cloud server judges whether the operator corresponding to the product serial number has an operation authority, if the operator corresponding to the product serial number does not have the operation authority, the operator is forbidden to operate the elevator control module, and if the operator corresponding to the product serial number has the operation authority, the operator operates the elevator control module according to a preset mode;

when the operator needs to be terminated in advance, the cloud server stores a termination product serial number corresponding to the operator;

the cloud server is communicated with all the elevator control modules;

when the cloud server detects that the elevator control module contains a preset product serial number, the cloud server sends termination information to the elevator control module, and the elevator control module sends a specific protocol to the operator to initialize the operator.

2. The elevator internet of things control method according to claim 1, wherein the preset modes include a first operation mode, a second operation mode, a third operation mode and a fourth operation mode;

in a first operation mode, the operator can operate the elevator control module without limiting times and time periods;

in a second operation mode, the operator can operate the elevator control module according to preset times and unlimited time periods;

in a third mode of operation, the operator can operate the elevator control module unlimited times within a preset time period;

in the fourth operation mode, the operator needs to operate the elevator control module within a preset time period according to preset times.

3. The elevator internet of things control method of claim 1, further comprising:

re-authorizing the operator through a manual authorization mode or an automatic authorization module;

in a manual authorization mode, the cloud server sends authorization information to an elevator control module, the elevator control module is communicated with an operator again, and the elevator control module initializes the operator according to the authorization information;

in an automatic authorization mode, the cloud server stores an authorized product serial number, communicates with all elevator control modules, and sends authorization information to the elevator control modules when the cloud server detects that the elevator control modules contain the authorized product serial number, and the elevator control modules initialize operators according to the authorization information;

the authorization information includes operation times information and operation time period information.

4. The method for controlling the internet of things of the elevator as claimed in claim 1, wherein before the elevator control module communicates with the operator, the method further comprises:

the elevator control module is connected with the Internet of things module;

the elevator control module detects the communication state of the Internet of things module and the cloud server within a preset interval time,

when the Internet of things module and the cloud server are detected to be incapable of communicating normally, the elevator control module stops working,

when the normal communication between the Internet of things module and the cloud server is detected, the elevator control module works normally.

5. The elevator Internet of things control system is characterized by comprising a cloud server, an Internet of things module, an elevator control module and an operator, wherein the cloud server, the Internet of things module, the elevator control module and the operator can be communicated with one another respectively;

the elevator control module is used for reading a product serial number of the operator and sending the read product serial number to the cloud server, and the elevator control module is also used for sending a specific protocol to the operator to initialize the operator;

the cloud server is used for judging whether the operator corresponding to the product serial number has an operation authority, if the operator corresponding to the product serial number does not have the operation authority, the operator is forbidden to operate the elevator control module, if the operator corresponding to the product serial number has the operation authority, the operator is allowed to operate the elevator control module, and the cloud server is also used for storing a product serial number corresponding to the operator when the operator needs to be stopped in advance; meanwhile, when the cloud server detects that the elevator control module contains a preset product serial number, the cloud server sends termination information to the elevator control module;

the operator is used for operating the elevator control module according to a preset mode.

6. The elevator internet of things control system of claim 5, wherein the preset modes comprise a first mode of operation, a second mode of operation, a third mode of operation, and a fourth mode of operation;

in a first operation mode, the operator can operate the elevator control module without limiting times and time periods;

in a second operation mode, the operator can operate the elevator control module according to preset times and unlimited time periods;

in a third mode of operation, the operator can operate the elevator control module unlimited times within a preset time period;

in the fourth operation mode, the operator needs to operate the elevator control module within a preset time period according to preset times.

7. The Internet of things control system of elevators according to claim 5,

the cloud server is also used for sending authorization information to the elevator control module in a manual authorization mode, storing an authorized product serial number in an automatic authorization mode, and sending the authorization information to the elevator control module when the cloud server detects that the elevator control module contains the authorized product serial number;

the elevator control module is also used for initializing the operator according to the authorization information;

the authorization information includes operation times information and operation time period information.

8. The elevator Internet of things control system of claim 5, wherein the elevator control module is further configured to detect a communication state between the Internet of things module and the cloud server within a preset interval time, stop working when detecting that the Internet of things module and the cloud server cannot normally communicate, and normally work when detecting that the Internet of things module and the cloud server normally communicate.

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