CN112960494B - Elevator taking control device additionally arranged on elevator and shared elevator cloud charging system - Google Patents

Elevator taking control device additionally arranged on elevator and shared elevator cloud charging system Download PDF

Info

Publication number
CN112960494B
CN112960494B CN202110184524.0A CN202110184524A CN112960494B CN 112960494 B CN112960494 B CN 112960494B CN 202110184524 A CN202110184524 A CN 202110184524A CN 112960494 B CN112960494 B CN 112960494B
Authority
CN
China
Prior art keywords
elevator
user
information
elevator taking
taking
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN202110184524.0A
Other languages
Chinese (zh)
Other versions
CN112960494A (en
Inventor
李标彬
刘小京
黄永康
廖超
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Shenzhen Wanglong Intelligent Technology Co ltd
Original Assignee
Shenzhen Wanglong Intelligent Technology Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Shenzhen Wanglong Intelligent Technology Co ltd filed Critical Shenzhen Wanglong Intelligent Technology Co ltd
Priority to CN202110184524.0A priority Critical patent/CN112960494B/en
Publication of CN112960494A publication Critical patent/CN112960494A/en
Application granted granted Critical
Publication of CN112960494B publication Critical patent/CN112960494B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B1/00Control systems of elevators in general
    • B66B1/02Control systems without regulation, i.e. without retroactive action
    • B66B1/06Control systems without regulation, i.e. without retroactive action electric
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B1/00Control systems of elevators in general
    • B66B1/34Details, e.g. call counting devices, data transmission from car to control system, devices giving information to the control system
    • B66B1/3415Control system configuration and the data transmission or communication within the control system
    • B66B1/3423Control system configuration, i.e. lay-out
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B1/00Control systems of elevators in general
    • B66B1/34Details, e.g. call counting devices, data transmission from car to control system, devices giving information to the control system
    • B66B1/46Adaptations of switches or switchgear
    • B66B1/468Call registering systems
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B5/00Applications of checking, fault-correcting, or safety devices in elevators
    • B66B5/0006Monitoring devices or performance analysers
    • B66B5/0018Devices monitoring the operating condition of the elevator system
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B2201/00Aspects of control systems of elevators
    • B66B2201/40Details of the change of control mode
    • B66B2201/46Switches or switchgear

Landscapes

  • Engineering & Computer Science (AREA)
  • Automation & Control Theory (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Indicating And Signalling Devices For Elevators (AREA)
  • Elevator Control (AREA)

Abstract

The invention discloses an elevator taking control device additionally arranged on an elevator and a shared elevator cloud charging system, wherein the device comprises: the information processor is used for acquiring elevator taking task information of elevator taking users and sending the information to the control circuit; the control circuit is used for executing the elevator taking task after the elevator taking user passes the elevator taking authority verification: generating a corresponding key control instruction according to the elevator taking floor information, sending the key control instruction to a key controller corresponding to the elevator taking floor information, and sending an elevator use record corresponding to the elevator taking task information to an information processor; the key controller is used for triggering the associated elevator keys according to the key control instruction so as to enable the associated elevator keys to be in an effective state; the information processor is also used for uploading elevator use records of elevator taking users to the cloud server so as to trigger the cloud server to deduct fees from payment accounts of the elevator taking users. The invention can ensure the safety of the elevator and realize the elevator taking charge.

Description

Elevator taking control device additionally arranged on elevator and shared elevator cloud charging system
Technical Field
The invention relates to the technical field of elevators, in particular to an elevator riding control device, a shared elevator cloud charging system and an elevator riding control method.
Background
With the aging population and the improvement of living requirements, it is a heart to solve the problem of installing elevators in old communities, and governments in various places also take corresponding policy measures to promote the process of installing elevators in old buildings. However, after the elevator is additionally installed, the normal use of the elevator can be ensured only by paying electricity fee, maintenance fee, repair fee and the like continuously in daily life. At present, the problem that the necessary daily operation cost of the elevator is difficult to collect after the elevator is additionally installed due to the fact that the matching technology of the additionally installed elevator is not in place is solved, so that the additionally installed elevator is not maintained with funds and is stopped, huge waste is caused, social contradictions are easily aroused, and the popularization process of the additionally installed elevator is seriously influenced. In addition, the existing additional elevator is not provided with any elevator taking authority, and anyone can take the elevator to reach a desired floor, so that convenience is brought to lawbreakers, and the safety is poor.
Therefore, an elevator taking control device and system which are safe and reliable and can realize elevator taking charging are lacked in the prior art.
Disclosure of Invention
The embodiment of the invention provides an elevator taking control device, a shared elevator cloud charging system and an elevator taking control method, which are additionally arranged on an elevator, can ensure the safety of the use of the elevator under the condition of not changing the original control system of the elevator, and realize elevator taking charging, thereby automatically and reasonably collecting the fund required by the daily operation of the elevator and ensuring that the elevator is not stopped due to lack of the fund.
An embodiment of the present invention provides an elevator riding control device to be attached to an elevator, including: the control circuit, the information processor and the key controller are associated with the elevator keys;
the information processor is used for acquiring the elevator taking task information of the elevator taking user and sending the information to the control circuit; the elevator taking task information comprises elevator taking floor information;
the control circuit is used for executing an elevator taking task after the elevator taking user passes the elevator taking authority verification: generating a corresponding key control instruction according to the elevator taking floor information, sending the key control instruction to a key controller corresponding to the elevator taking floor information, and sending an elevator use record of the elevator taking user corresponding to the elevator taking task information to the information processor;
the key controller is used for being connected between the associated elevator key and a main control device of the elevator, and is also used for triggering the associated elevator key according to the key control instruction so as to enable the associated elevator key to be in an effective state;
the information processor is also used for uploading the elevator use record of the elevator taking user to a cloud server; the elevator usage record of the elevator taking user is used for triggering the cloud server to carry out fee deduction processing on a payment account of the elevator taking user according to a preset elevator taking fee deduction strategy.
In some optional embodiments, the elevator taking task information of the elevator taking user is issued to the information processor by the cloud server after the user authority information of the elevator taking user is verified; or,
the elevator taking task information also comprises user authority information, and the elevator taking authority verification of the elevator taking user is executed by the control circuit according to the user authority information.
In some optional embodiments, the control circuit sends a key control command to a corresponding key controller according to the ID of the key controller corresponding to the elevator-taking floor information; the data size of the elevator taking task information is n bytes, the data length described by the field of the user authority information is a bytes, and the data length described by the field of the elevator taking floor information is m bytes, so that the three information satisfy the following relations:
a+m≤n<a 3 +2m;1<a≤100,
Figure BDA0002942487050000021
the algorithm time complexity of the control circuit for processing the elevator taking task information is constant order O (1), logarithmic order O (logN), linear order O (n), linear logarithmic order O (nlogN) or square order O (n 2);
the working frequency of the control circuit is sMHz, and s is more than 0.5 and less than 1500.
In some optional embodiments, the time when the information processor acquires the elevator taking task information for the current elevator taking task execution is T1, the time when the control circuit receives the elevator taking task information is T2, the time when the control circuit sends the key control instruction corresponding to the elevator taking task information is T3, the time when the key controller responds to the key control instruction is T4, and the time interval between T1 and T2 is Δ T 1 T2 and T3 are separated by Δ T 2 T3 and T4 are separated by Δ T 3 The moment that the elevator is opened at the current floor reaches the moment that the elevator is at the current floorThe time interval between the closing moments of the floors is Δ t 4 (ii) a Then the process of the first step is carried out,
Δt 2 ≤0.4787*Δt 1 2 -1.437*Δt 1 + a, a is constant, a is more than or equal to 1.930 and less than 1.935;
Δt 1 +Δt 2 +Δt 3 <Δt 4
delta t is less than or equal to 3 seconds 4
Δt 1 Less than 1 second;
Δ t of 0.01 second or less 3 Less than or equal to 1 second.
In some optional embodiments, the key controller comprises a car key relay for controlling on-off of a corresponding key loop in an elevator car and an outbound key relay for controlling on-off of an outbound key loop on a floor corresponding to the elevator; the control circuit comprises a floor control controller and an outbound controller associated with a floor; the car key relay is connected with the floor control controller, and the outbound key relay is connected with the outbound controller of the corresponding floor; the information processor comprises an outbound information processor associated with a floor; the outbound information processor is connected with the outbound controller of the corresponding floor;
the outbound information processor is used for acquiring the elevator taking task information of the elevator taking users and sending the information to the connected outbound controller;
the outbound controller is used for judging the elevator taking direction according to the departure floor information and the target floor information of the elevator taking task after the elevator taking user passes the elevator taking authority verification, and controlling the corresponding outbound key relay to be closed for a first preset time according to the judged elevator taking direction and the departure floor information; after the elevator taking user passes the elevator taking authority verification, the target floor information is sent to the floor control controller; the departure floor information is determined according to the floor related to the outbound controller, and the target floor information is contained in the elevator taking task information;
the floor control controller is used for generating a key control instruction according to the target floor information when the target floor information sent by the outbound controller is received, and sending the key control instruction to a corresponding car key relay to close the car key relay for a second preset time so that the key corresponding to the target floor information is in an effective state within the second preset time;
the outbound controller is also used for generating an elevator use record of the elevator taking user according to the elevator taking task information and sending the elevator use record of the elevator taking user to the outbound information processor;
the outbound information processor is also used for sending the elevator use record of the elevator taking user to the cloud server.
In some optional embodiments, the elevator riding control device further comprises an elevator state detector for detecting the elevator riding running state of the elevator and an outbound key lamp state detector for detecting the outbound key lamp state of the elevator;
the key controller comprises a car key relay for controlling the on-off of a corresponding elevator key loop in the elevator car and an outbound key relay for controlling the on-off of an outbound key loop of a floor corresponding to the elevator; the control circuit comprises a floor control controller and an outbound controller associated with a floor; the car key relay and the elevator state detector are respectively connected with the floor control controller, and the outbound key relay is connected with the outbound controller of the corresponding floor; the information processors include outbound information processors associated with elevator floors; the outbound information processor is connected with the outbound controller of the corresponding floor;
the outbound information processor is used for acquiring the elevator taking task information of the elevator taking user and sending the information to the outbound controller connected with the outbound information processor;
the outbound controller is used for judging the elevator taking direction according to the departure floor information and the target floor information of the elevator taking task after the elevator taking user passes the elevator taking authority verification, and controlling the corresponding outbound key relay to be closed for a first preset time according to the judged elevator taking direction and the departure floor information; after the elevator taking user passes the elevator taking permission verification, the departure floor information and the target floor information are sent to the floor control controller; the departure floor information is determined according to the floor related to the outbound controller, and the target floor information is contained in the elevator taking task information;
the floor control controller is used for judging whether an elevator car meets the conditions that the current stopping floor is consistent with the starting floor information and the running direction is consistent with the target floor information or not according to the obtained elevator riding running state and the obtained outbound key lamp state of the elevator in real time, and controlling a car key relay corresponding to the target floor information in the elevator car meeting the conditions to be closed for a third preset time when the conditions are judged to be yes;
the outbound controller is also used for generating an elevator use record of the elevator taking user according to the elevator taking task information and sending the elevator use record of the elevator taking user to the outbound information processor;
the outbound information processor is also used for sending the elevator use records of the elevator taking users to the cloud server.
In some optional embodiments, the outbound information processor includes an outbound network communication module, an outbound reading head module, and an outbound processing module connected to the outbound reading head module;
the outbound reading head module is used for reading the elevator taking identification code of the elevator taking user and sending the elevator taking identification code to the outbound processing module;
the outbound processing module is used for analyzing the elevator taking identification code of the elevator taking user into elevator taking task information of the elevator taking user and sending the information to the corresponding outbound controller;
the outbound network communication module is also used for sending the elevator use record of the elevator taking user to the cloud server.
In some optional embodiments, the outbound information processor comprises an outbound network communication module;
the outbound network communication module is used for receiving the elevator taking task information of the elevator taking user sent by the cloud server and sending the elevator taking task information to the corresponding outbound controller;
the outbound network communication module is also used for sending the elevator use record of the elevator taking user to the cloud server.
In some optional embodiments, the key controller comprises a car key relay for controlling the on-off of a corresponding elevator key loop in an elevator car; the control circuit comprises a layer control controller; the information processor comprises a layer control information processor; the car key relay and the floor control information processor are both connected with the floor control controller;
the floor control information processor is used for acquiring elevator taking task information of elevator taking users and sending the information to the floor control controller;
the floor control controller is used for receiving the elevator taking task information of the elevator taking users sent by the floor control information processor, and controlling the corresponding car key relay to be closed for a fourth preset time according to the destination floor information contained in the elevator taking task information after the elevator taking users pass the elevator taking authority verification;
the floor control controller is also used for generating an elevator use record of the elevator taking user according to the elevator taking task information and sending the elevator use record of the elevator taking user to the floor control information processor;
the floor control information processor is further used for sending the elevator use records of the elevator taking users to the cloud server.
In some optional embodiments, the hierarchical information processor comprises an in-car network communication module, an in-car reading head module and an in-car processing module connected with the in-car reading head module;
the reading head module in the elevator car is used for reading the elevator taking identification codes of the elevator taking users and sending the elevator taking identification codes to the processing module in the elevator car;
the elevator car in-process module is used for analyzing the elevator taking identification codes of the elevator taking users into elevator taking task information of the elevator taking users and sending the information to the floor control controller;
and the in-car network communication module is also used for sending the elevator use record of the elevator taking user to the cloud server.
In some alternative embodiments, the hierarchical information processor comprises an in-car network communication module;
the in-car network communication module is used for receiving elevator taking task information of the elevator taking user sent by the cloud server and sending the elevator taking task information to the layer control controller;
the in-car network communication module is further used for sending the elevator use records of the elevator taking users to the cloud server.
In some optional embodiments, the boarding control device further comprises a boarding prompt module; the elevator taking prompting module is connected with the control circuit;
the control circuit is also used for generating corresponding elevator taking prompt information according to the current elevator taking result and sending the elevator taking prompt information to the elevator taking prompt module;
the elevator taking prompt module is used for carrying out elevator taking prompt operation on elevator taking users according to the elevator taking prompt information.
In some optional embodiments, the elevator riding control device further comprises an elevator state detector for detecting the running state of the elevator and a camera device for shooting images in the elevator car; the camera device and the elevator state detector are connected with the control circuit;
the control circuit is also used for controlling the camera device to shoot images in the elevator car when each elevator taking task is executed; detecting the number of elevator taking users in the images in the elevator car; comparing the detected number of people with the number of the current uncompleted elevator taking task information; if the comparison result is consistent, executing the current elevator taking task; if the comparison result is inconsistent, controlling a key controller associated with the elevator door opening key of the current floor to execute the following operations: and triggering the elevator door opening key to enable the elevator door opening key to be in an effective state.
In some optional embodiments, the boarding control device further comprises a camera device for shooting images in the elevator car; the camera device is connected with the control circuit;
the control circuit is further configured to: controlling the camera device to shoot images in the elevator car when each elevator taking task is executed; judging whether an abnormal condition exists in the elevator car according to the image in the elevator car, wherein the abnormal condition comprises that a preset abnormal target exists in the elevator car; if yes, executing alarm operation.
In some optional embodiments, the information processor is further configured to detect whether a communication connection with the cloud server is normal before uploading the elevator usage record of the elevator-taking user to the cloud server; if the current elevator taking user is normal, uploading the elevator use record of the current elevator taking user to the cloud server; if the abnormal situation exists, temporarily storing the elevator use record of the elevator taking user in the local place, continuously detecting the communication connection condition between the elevator taking user and the cloud server, and uploading the temporarily stored elevator use record to the cloud server until the normal communication connection condition between the elevator taking user and the cloud server is detected.
In some optional embodiments, the control circuit is further configured to control all the key controllers to perform a trigger operation on the associated elevator keys when it is determined that the preset elevator taking control abnormal condition is currently met, so that the associated elevator keys are in an effective state.
Another embodiment of the invention provides a shared elevator cloud charging system, which comprises a cloud server and at least one elevator riding control device which is used for being additionally arranged on an elevator;
and the cloud server is used for carrying out fee deduction processing on a payment account corresponding to the elevator taking user according to a preset elevator taking fee deduction strategy and the received elevator use record of the elevator taking user sent by the elevator taking control device. Another embodiment of the present invention provides an elevator riding control method applied to the elevator riding control apparatus to be added to an elevator according to any of the above embodiments, including:
acquiring elevator taking task information of an elevator taking user; the elevator taking task information comprises elevator taking floor information and user permission information;
after the elevator taking user passes the elevator taking authority verification, executing an elevator taking task:
triggering operation is carried out on the associated elevator key according to the elevator taking floor information so as to enable the associated elevator key to be in an effective state;
generating an elevator use record of an elevator taking user according to the elevator taking task information;
uploading elevator use records of the elevator taking users to a cloud server; the elevator use record is used for triggering the cloud server to carry out fee deduction processing on a payment account of the elevator user according to a preset elevator taking fee deduction strategy.
Compared with the prior art, one of the technical solutions has the following advantages:
through the information processor, the control circuit and the key controller, the corresponding elevator keys can be controlled to be in an effective state after the elevator taking user passes the elevator taking authority verification. When the elevator key is in an effective state, the elevator key can be normally pressed by a user taking the elevator and an original control system of the elevator can respond to an instruction of the elevator key pressed by the user taking the elevator to take the elevator, or a loop of the elevator key can be automatically triggered and the original control system of the elevator responds to a key instruction automatically generated by the loop of the elevator key, so that the user taking the elevator can take the elevator after the verification of the elevator taking authority. And when executing each elevator taking task, the elevator taking control device sends the elevator use records of the elevator taking users to the cloud server, so that the cloud server can deduct the corresponding elevator taking cost from the payment accounts of the elevator taking users according to the preset elevator taking fee deduction strategy, and the elevator taking fee is charged. Therefore, by adopting the elevator taking control device and the shared elevator cloud charging system which are additionally arranged on the elevator, the safety and the reliability of the use of the elevator are ensured, the elevator taking charging is realized, the system architecture and the control protocol of the control system of the elevator are not required to be changed, and the elevator taking control device and the shared elevator cloud charging system are easy to popularize and apply. Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.
Drawings
Fig. 1 is a schematic structural view of an elevator riding control device provided in an elevator according to an embodiment of the present invention;
fig. 2 is a schematic structural diagram of a car key relay according to an embodiment of the present invention;
fig. 3 is a schematic structural diagram of a shared elevator cloud charging system according to an embodiment of the present invention;
fig. 4 is a schematic flow chart of an elevator riding control method according to an embodiment of the present invention;
fig. 5 is a schematic flow chart illustrating an elevator taking task executed in the elevator taking control method according to an embodiment of the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1, an embodiment of the present invention provides an elevator riding control apparatus 1 to be added to an elevator, including: a control circuit 12, an information processor 11 and a key controller 13 associated with the elevator keys; the information processor 11 is configured to obtain elevator taking task information of an elevator taking user and send the information to the control circuit 12; the elevator taking task information comprises elevator taking floor information; the control circuit 12 is configured to, after the elevator taking user passes the elevator taking authority verification, execute an elevator taking task: generating a corresponding key control instruction according to the elevator taking floor information, sending the key control instruction to a key controller 13 corresponding to the elevator taking floor information, and sending an elevator use record of the elevator taking user corresponding to the elevator taking task information to the information processor 11; the key controller 13 is used for being connected between the associated elevator key and a main control device of the elevator, and is also used for triggering the associated elevator key according to the key control instruction so as to enable the associated elevator key to be in an effective state; the information processor 11 is further configured to upload elevator usage records of the elevator taking users to a cloud server; the elevator usage record of the elevator taking user is used for triggering the cloud server to carry out fee deduction processing on a payment account of the elevator taking user according to a preset elevator taking fee deduction strategy.
As an example, the information processor 11 may include a wireless communication module (e.g., a WiFi communication module or a bluetooth module) for performing communication connection with a user terminal (e.g., a mobile phone), and the elevator user may enable the user terminal to establish wireless communication connection with the wireless communication module, and then, when the elevator user needs to take the elevator, the user terminal may send elevator taking task information to the wireless communication module, and since the elevator user only needs to send one elevator taking task information to the wireless communication module through the user terminal, the subsequent elevator taking may be implemented, so that before the elevator user arrives at the departure floor, the elevator user may send one elevator taking task information to the wireless communication module through the user terminal in advance, and then the control circuit 12 may trigger the call key of the corresponding floor according to the elevator taking task information, thereby saving the elevator waiting time compared with a manner that the elevator user presses the call key to call. Alternatively, the information processor 11 may include a communication module (e.g., a gateway, a 5G communication module, etc.) for performing communication connection with the cloud server, and when the elevator taking user needs to take the elevator, the elevator taking user may send an elevator taking request to the server through the user terminal, and then the server issues corresponding elevator taking task information to the communication module. For example, the elevator taking user scans an elevator taking two-dimensional code outside the elevator by using the user terminal and uploads the elevator taking two-dimensional code and user authority information of the elevator taking user logged in the user terminal to the cloud server, then the cloud server generates corresponding elevator taking task information according to the uploaded elevator taking two-dimensional code, and issues the elevator taking user to the information processor 11 after the elevator taking user passes elevator taking authority verification according to the user authority information of the elevator taking user; for example, the elevator taking user scans the elevator taking two-dimensional code in the elevator car by using the user terminal and uploads the scanned two-dimensional code to the server, and then the server generates corresponding elevator taking task information according to the uploaded elevator taking two-dimensional code and sends the information to the information processor 11. In addition, the information processor 11 may include an NFC module, and the user taking the elevator may use an NFC card or a mobile phone carrying the task information of taking the elevator to swipe the card with the NFC module to take the elevator. The information processor 11 may also include a two-dimensional code scanning module, and the elevator user may use a two-dimensional code generated on the mobile phone and carrying the elevator taking task information to scan the elevator taking task information by being close to the two-dimensional code scanning module, so that the two-dimensional code scanning module reads the two-dimensional code and then analyzes the two-dimensional code to obtain the elevator taking task information.
In addition, as an example, the manner of the triggering operation of the elevator key by the key controller 13 is such that the effective manner of the elevator key may be: the key controller 13 may be connected in series in a key loop of the elevator key, when the key controller 13 performs a triggering operation (for example, closing and turning on), the key loop of the elevator key is in a normal state, and at this time, when the elevator user presses the elevator key, the key loop of the elevator key generates a key signal. Alternatively, the key controller 13 may be connected in parallel to the key loop of the elevator key, and when the key controller 13 performs a triggering operation (e.g., close-on), an analog key signal of the elevator key is generated.
The elevator usage record may be generated by the control circuit 12 according to the elevator riding task information, or may be generated by the control circuit 12 according to floor information associated in advance with the elevator riding user after receiving the elevator riding task information (for example, if the departure floor associated in advance with the elevator riding user is floor 1, and the destination floor associated in advance is floor 5, the elevator usage record is from floor 1 to floor 5, or from floor 5 to floor 1), which is not particularly limited herein.
In particular, the boarding fee deduction policy may be set according to actual needs of the operator, for example, per-floor charging or per-time charging, and is not limited herein.
In the embodiment of the invention, the information processor, the control circuit and the key controller can control the corresponding elevator key to be in an effective state after the elevator taking user passes the verification of the elevator taking authority. When the elevator key is in an effective state, the elevator key can be normally pressed by an elevator taking user and an original control system of the elevator can respond to an instruction of the elevator key pressed by the elevator taking user to take the elevator, or a loop of the elevator key can be automatically triggered and the original control system of the elevator responds to a key instruction automatically generated by the loop of the elevator key, so that the elevator taking user can take the elevator after the elevator taking authority is verified. And when each elevator taking task is executed, the elevator taking control device sends the elevator use records of the elevator taking users to the cloud server, so that the cloud server can deduct corresponding elevator taking cost from payment accounts of the elevator taking users according to a preset elevator taking fee deduction strategy, thereby realizing elevator taking charge, and thus, the use condition of each elevator and the elevator taking data of each user can be gathered in the cloud server, the efficiency and the convenience of inquiring and managing elevator taking information by a manager can be improved, and the problem that the manager can only inquire and manage the elevator taking data and the use condition of the elevator on a fixed computer due to the fact that the elevator taking fee deduction management is not in cloud management can be solved. Therefore, by adopting the elevator taking control device and the shared elevator cloud charging system which are additionally arranged on the elevator, the safety and the reliability of the use of the elevator are ensured, the elevator taking charging is realized, the system architecture and the control protocol of the control system of the elevator are not required to be changed, and the elevator taking control device and the shared elevator cloud charging system are easy to popularize and apply. Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.
As a first optional implementation manner of this embodiment, the elevator taking task information of the elevator taking user is issued to the information processor 11 by the cloud server after the user authority information of the elevator taking user is verified; or,
the elevator taking task information includes user authority information, and the elevator taking authority verification of the elevator taking user is executed by the control circuit 12 according to the user authority information.
For example, in this embodiment, when the elevator taking task information of the elevator taking user is issued by the cloud server, the elevator taking authority verification of the elevator taking user is performed by the cloud server, and when the elevator taking task information of the elevator taking user is issued by the cloud server, the control circuit may determine that the elevator taking user has passed the elevator taking authority verification. Of course, the elevator taking task information may also include user authority information, so that the control circuit 12 may also verify the elevator taking authority of the elevator taking user according to the user authority information, thereby locally verifying the elevator taking authority of the elevator taking user, and controlling the corresponding elevator key to be in an effective state after the verification is passed.
It is understood that the user right information may include a user ID, such as a mobile phone number or an identification number of the elevator user. The floor information may include a departure floor corresponding to the user ID, a destination floor corresponding to the user ID, even floors of all the open elevator boarding authorities corresponding to the user ID, and the like.
As a second optional implementation manner of this embodiment, the control circuit 12 sends a key control command to the corresponding key controller 13 according to the ID of the key controller 13 corresponding to the elevator-taking floor information; the data size of the elevator taking task information is n bytes, the data length described by the field of the user authority information is a bytes, and the data length described by the field of the floor information is m bytes, so that the three information satisfy the following relation:
a+m≤n<a 3 +2m;1<a≤100,
Figure BDA0002942487050000131
the algorithm time complexity of the control circuit for processing the elevator taking task information is constant order O (1), logarithmic order O (logN), linear order O (n), linear logarithmic order O (nlogN) or square order O (n 2); generally, the time consumption of the algorithm for processing the same data task with the time complexity is increased in sequence;
the working frequency of the control circuit is sMHz, and s is more than 0.5 and less than 1500.
It can be understood that the data size of the elevator boarding task information affects the data computation amount of the control circuit 12, and the larger the data of the elevator boarding task information is, the longer the data computation process of the control circuit 12 is, which may result in that the control circuit 12 may not process the data of the elevator boarding task information in time under the condition of a relatively large computation amount. The longer the data length described by the field of the user authority information is, the more time is consumed in the verification process of the user authority; moreover, the longer the data length described in the field of the elevator boarding floor information is, the more time is consumed in the query process for finding the ID of the corresponding key controller 13 based on the elevator boarding floor information. When the data size n of the elevator taking task information, the data length a described by the field of the user authority information, and the data length m described by the field of the floor information satisfy the above relationship, the response speed of the control circuit 12 to the elevator taking task information can be relatively fast, and may be less than 800ms.
For ease of understanding, the following exemplary time-consuming test embodiments of the control circuit processing ride information are provided herein:
Figure BDA0002942487050000141
as a third optional implementation manner of this embodiment, a time when the information processor acquires elevator taking task information for performing the elevator taking task this time is T1, a time when the control circuit receives the elevator taking task information is T2, a time when the control circuit issues a key control instruction corresponding to the elevator taking task information is T3, a time when the key controller responds to the key control instruction is T4, and a time interval between T1 and T2 is Δ T 1 T2 and T3 are separated by Δ T 2 T3 and T4 are separated by Δ T 3 The time interval between the door opening time of the elevator at the current floor and the door closing time of the elevator at the current floor is delta t 4 (ii) a Then the process of the first step is carried out,
Δt 2 ≤0.4787*Δt 1 2 -1.437*Δt 1 + a, a is constant, a is more than or equal to 1.930 and less than 1.935;
Δt 1 +Δt 2 +Δt 3 <Δt 4
delta t is less than or equal to 3 seconds 4
Δt 1 Less than 1 second;
Δ t of 0.01 second or less 3 Less than or equal to 1 second.
In this embodiment, the elevator riding control device 1 is installed on an elevator, and controls an elevator key for triggering the elevator to be in an effective state after the verification of the elevator riding authority of the user passes, so that the elevator riding user can normally ride the elevator and ensure the use safety of the elevator, and the cloud server is matched to realize fee deduction of the elevator riding behavior of the elevator riding user. On this basis, after the control circuit receives the elevator taking task information, the timing condition that the control circuit sends out a key control instruction corresponding to the elevator taking task information meets: Δ t2 ≤ 0.4787 × Δ t1 2 -1.437 Δ t1+ a, enabling in addition the following significant differences in the benefits of the prior art:
(1) When the elevator calling is successful and the elevator car runs to the departure floor of the elevator taking user, the elevator taking user can send the elevator taking task information in the elevator car, the elevator taking task information can comprise destination floor information, the control circuit can process the elevator taking task information sent by the elevator taking user after receiving the elevator taking task information, and the control circuit can process various other data information (for example, determining when the elevator using record of the elevator taking user needs to be uploaded, determining under which condition the elevator taking prompt needs to be sent by the elevator taking prompt module, determining the running state of the elevator by the elevator state detector and the like) except for processing the elevator taking request corresponding to the elevator taking task information. Therefore, when the control circuit integrates various data processing conditions of the control circuit (particularly when a plurality of elevator taking task information needs to be processed), the control circuit can finally enable the main control device owned by the elevator to normally execute the current elevator taking task of the elevator taking user according to the corresponding elevator key signal when the sending opportunity of the instruction meets the condition by allocating the computing resource for processing the elevator taking task information and sending the corresponding key control instruction (for example, the elevator taking user is normally sent to a second floor from the first floor), so that the problem that the elevator taking user cannot normally take the elevator and cannot timely execute the current elevator taking task of the elevator taking user is avoided, the elevator taking user can take the elevator for a plurality of times under the condition that the elevator taking user cannot normally take the elevator, the elevator taking experience of the user is seriously influenced, the elevator running efficiency is lowered due to unreasonable running of the elevator, and the overhead of the running power of the elevator is increased.
For example, in order to ensure the safety of the elevator, the elevator taking authority of the elevator taking user is a public floor and a target floor where the elevator taking user lives, the target floor where the elevator taking user lives is a second floor, the elevator taking user takes an elevator in the first floor of the public floor and sends elevator taking task information to take the elevator to the second floor, and various other data information processing conditions are integrated (especially when a plurality of elevator taking task information need to be processed almost simultaneously), if the timing of sending a key control command corresponding to the elevator taking task information by the control circuit does not meet the conditions, the elevator cannot be stopped in the second floor according to the elevator taking requirements of the elevator taking user, but the elevator is taken to a higher floor according to the elevator taking requests of other elevator taking users, so that the elevator taking user needs to return to the first floor of the public floor again to send the elevator taking task information, three times of fee deduction fee can be caused by the fact that the elevator taking user needs to return to the first floor of the public floor again according to the elevator taking records of the elevator taking user for three times, and the operation efficiency of the elevator is further reduced, thereby causing the electricity consumption of the elevator operation of the elevator.
(2) Secondly, when the opportunity of the control circuit for sending the key control instruction corresponding to the elevator taking task information meets the conditions, the control circuit can carry out more flexible scheduling on the calculation resources of the more urgent data task and can ensure that the key control instruction of the elevator taking task information can be sent out in time. For example, when the control circuit processes the boarding task information, the control circuit may process other prioritized data tasks according to the known Δ T1 and the time T2 when the boarding task information is received, and the priority level of the current data processing task, and determine the timing for processing the boarding task information and the timing for issuing the key control command corresponding to the boarding task information by Δ T2 satisfying the above conditions, which may make the processing mechanism of the data task of the control circuit more flexible. That is, the control circuit is further configured to: and determining the timing for processing the elevator taking task information and the timing for sending a key control command corresponding to the elevator taking task information according to the known delta T1, the time T2 when the control circuit receives the elevator taking task information and the delta T2 meeting the conditions.
As a fourth optional implementation manner of this embodiment, referring to fig. 1, the key controller 13 includes a car key relay 131 for controlling on/off of a corresponding key circuit in an elevator car, and an outbound key relay 132 for controlling on/off of an outbound key circuit of a floor corresponding to the elevator; the control circuit 12 comprises a floor control controller 121 and an outbound controller 122 associated with a floor; the car key relay 131 is connected with the floor control controller 121, and the outbound key relay 132 is connected with the outbound controller 122 on the corresponding floor; the information processor 11 comprises an outbound information processor 111 associated with a floor; the outbound message processor 111 is connected with the outbound controller 122 of the corresponding floor;
the outbound information processor 111 is configured to obtain elevator taking task information of an elevator taking user and send the information to the connected outbound controller 122;
the outbound controller 122 is configured to determine an elevator taking direction according to the departure floor information and the target floor information of the current elevator taking task after the elevator taking user passes the elevator taking permission verification, and control the corresponding outbound key relay 132 to be closed for a first preset time according to the determined elevator taking direction and the departure floor information; after the elevator taking user passes the elevator taking authority verification, the destination floor information is sent to the floor control controller 121; wherein the departure floor information is determined according to a floor associated with the outbound controller 122, and the destination floor information is included in the boarding mission information;
the floor control controller 121 is configured to, when destination floor information sent by the outbound controller 122 is received, control the corresponding car key relay 131 to close for a second preset time according to the destination floor information, so as to open the trigger permission of the key corresponding to the destination floor information within the second preset time;
the outbound controller 122 is further configured to generate an elevator usage record of the elevator taking user according to the elevator taking task information, and send the elevator usage record of the elevator taking user to the outbound information processor 111;
the outbound information processor 111 is further configured to send the elevator usage record of the elevator user to the cloud server.
Illustratively, the number of the outbound controllers 122 and the outbound information processors 111 is the same as the number of floors that can be reached by the elevator, one outbound controller 122 and one outbound information processor 111 correspond to one floor, and the outbound controller 122 and the outbound information processor 111 are generally installed near the elevator door of each floor; one outbound key relay 132 corresponds to one outbound key in the outbound keyboard of one floor, and when the outbound keyboard includes an upstream outbound key and a downstream outbound key, one outbound controller 122 can control two outbound key relays 132 of the corresponding floor, and the two outbound key relays 132 are respectively used for controlling the on-off of an uplink outbound key loop and a downlink outbound key loop of the corresponding floor. In specific implementation, the outbound message processor 111 on the same floor is connected to the outbound controller 122 on the same floor, so that the outbound message processor 111 can send the outbound message processor 122 corresponding to the same floor to the connected outbound controller 122 when acquiring the elevator taking task information of the elevator taking user, so that the outbound message processor 122 on the same floor can execute the elevator taking task. It should be noted that each outbound controller 122 stores information about a floor (i.e., a floor) associated therewith, so that each outbound controller 122 can obtain information about a departure floor determined according to the floor associated therewith when executing an elevator boarding task.
In one particular embodiment, the floor controller 121 is typically mounted in the ceiling or car panel; the car key relays 131 are connected into a car keyboard of the elevator system, the number of the groups of the car key relays 131 is at least consistent with the number of the floor keys on the car keyboard, and each group of the car key relays 131 corresponds to each floor key.
It should be noted that, as shown in fig. 3, each group of car key relays 131 includes two switches or optical couplers S _ B and S _ a, the connection between the elevator key and the elevator keyboard is disconnected and controlled by the switches S _ B and S _ a, the floor controller 121 controls the switch of the key S _ B to be closed for a period of time, and a user presses the key in the period of time to generate a key closing signal, so as to achieve the purpose of allowing the user to select a floor when the user has permission, and the floor controller 121 may also directly close the switch S _ a to generate the same effect as that of the user key, so as to achieve the purpose of directly assisting the user to register the floor. In this embodiment, the floor controller 121 specifically controls the switch S _ B of the car key relay 131 to be closed for a second preset time period according to the destination floor information. Similarly, the specific structure and principle of the hall call key relay 132 are consistent with those of the car key relay 131, and reference may be made to the structure and principle of the car key relay 131, which is not described herein again.
For example, in this embodiment, the specific procedure of the boarding control may be as follows: the outbound controller 122 of a certain floor receives the elevator taking task information of the elevator taking user uploaded by the outbound information processor 111 of the floor, retrieves a user authority sample set (a user list with defaulting) stored in the local storage unit according to the user authority information, if the user authority information is in the user authority sample set, determines that the elevator taking user does not pass elevator taking authority verification, the outbound controller 122 prompts an elevator taking result through the elevator taking prompt module 17, and ends an elevator taking process, if the user authority information is not in the user authority sample set, determines that the elevator taking user passes elevator taking authority verification, the outbound controller 122 judges an elevator taking direction according to a departure floor and a target floor, automatically registers an uplink key or a downlink key, transmits the target floor information to the floor control controller 121, generates an elevator passing record, and transmits the elevator passing record to the outbound information processor 111; if the communication between the outbound information processor 111 and the cloud server is normal, the outbound information processor 111 uploads the elevator passing record to the cloud server in real time for fee deduction processing, and meanwhile, the record is marked as an uploaded record; if the outbound message processor 111 receives the successful uploading result of the cloud server fee deduction record, the corresponding elevator passing record in the local memory is cleared according to the recorded serial number; if the communication between the outbound information processor 111 and the cloud server is abnormal, the outbound information processor 111 stores the elevator passing record into a local storage unit of the controller, marks the elevator passing record as a non-uploading record, and deducts the fee on the uploading cloud server when the communication is normal; after the fee is successfully deducted, the outbound information processor 111 generates an elevator taking result which is successfully registered, the elevator taking result is prompted by the elevator taking prompting module 17, and if the user authority information is in a balance early warning user authority sample set (the balance reaches an early warning value), the issued elevator taking result contains early warning information to prompt the user to recharge as soon as possible; when the floor control controller 121 receives the destination floor transmitted by the outbound controller 122, the floor control controller 121 controls the S _ B of the car key relay 131 to close for a second preset time according to the destination floor information, and waits for the user to enter the elevator and then to perform key selection.
It should be noted that the existing elevator charging system has the following technical flaws: 1. only the keys in the car are controlled, and calls can be carried through keys outside the car, cheating holes exist, for example, when a user goes home from a public floor, the calls can enter the car through the calls of the calling keys outside the public floor, then the user can contact the people in the house through the telephone and the like, the people come out to press the calling keys outside the floor where the user is located, and the elevator is called to the floor where the user is located to achieve the purpose of free elevator riding; 2. although the keys in the car and the keys outside the car can be controlled, because the control outside the car and the control inside the car are not linked, the identification (card reading) is needed twice, the use is inconvenient, and fee deduction twice can cause disorder of fee deduction logic. In this embodiment, exhale the button outward and use and exhale controller 122 control outward, the button uses layer accuse control in the sedan-chair, exhale button outward and sedan-chair in the button all controlled, go upstairs and downstairs all need verify the party and can take advantage of the ladder, and exhale controller 122 outward and layer accuse controller 121 realization linkage, it takes advantage of the ladder task to initiate outside the sedan-chair, can be with the elevator call to the floor of starting, open the interior destination floor authority of car simultaneously, only need carry out once verify can, avoid crowded inconvenient problem of verifying in the sedan-chair, can also effectively solve the problem of cheating through exhaling outward.
As a fifth optional implementation manner of this embodiment, referring to fig. 1, the elevator riding control device 1 further includes an elevator state detector 14 for detecting an elevator riding operation state of the elevator and an outbound key lamp state detector 20 for detecting an outbound key lamp state of the elevator;
the key controller 13 comprises a car key relay 131 for controlling the on-off of a corresponding elevator key loop in the elevator car and an outbound key relay 132 for controlling the on-off of an outbound key loop of a floor corresponding to the elevator; the control circuit 12 comprises a floor control controller 121 and an outbound controller 122 associated with a floor; the car key relay 131 and the elevator state detector 14 are connected to the floor controller 121, and the outbound key relay 132 is connected to the outbound controller 122 on the corresponding floor; the information processor 11 comprises an outbound information processor 111 associated with an elevator floor; the outbound message processor 111 is connected with the outbound controller 122 of the corresponding floor;
the outbound message processor 111 is configured to obtain elevator taking task information of an elevator taking user and send the information to the connected outbound controller 122;
the outbound controller 122 is configured to determine an elevator taking direction according to the departure floor information and the target floor information of the current elevator taking task after the elevator taking user passes the elevator taking permission verification, and control the corresponding outbound key relay 132 to be closed for a first preset time according to the determined elevator taking direction and the departure floor information; after the elevator taking user passes the elevator taking authority verification, the departure floor information and the target floor information are sent to the floor control controller 121; the departure floor information is determined according to the floor related to the outbound controller, and the target floor information is contained in the elevator taking task information;
the floor control controller 121 is configured to judge whether an elevator car meets the condition that a current stopping floor is consistent with the departure floor information and a running direction is consistent with the target floor information according to the obtained elevator riding running state and the obtained outbound key lamp state of the elevator in real time, and when the judgment is yes, control a car key relay 131 corresponding to the target floor information in the elevator car meeting the condition to be closed for a third preset time;
the outbound controller 122 is further configured to generate an elevator usage record of the elevator taking user according to the elevator taking task information, and send the elevator usage record of the elevator taking user to the outbound information processor 111;
the outbound information processor 111 is further configured to send the elevator usage record of the elevator user to the cloud server.
It should be noted that the elevator-taking operation state includes, but is not limited to, the current stop floor of each car of the elevator, and the opening and closing state of the elevator door. The state of the outbound key lamp refers to the change of the outbound lamp on the outbound keyboard of each layer. In a specific embodiment, if the elevator has a plurality of cars, after the outbound controller 122 controls the corresponding outbound key relay 132 to close for a first preset time period according to the determined elevator boarding direction and the departure floor information, the main control device of the elevator receives an outbound command corresponding to the departure floor information, and the floor control controller 121 can determine which floor the outbound command corresponding to has been responded to and respond to the operating direction of the elevator car of the outbound command according to the currently obtained outbound key lamp state of the elevator in real time, and can determine which elevator car currently responds to the outbound command by combining the currently obtained elevator boarding operating state of the elevator, so as to determine whether there is an elevator car satisfying the condition that the current stopping floor is consistent with the departure floor information and the operating direction is consistent with the target floor information. For example, if the outbound key lamp is at floor 2 and the uplink outbound lamp is off, it is determined that the elevator has responded to the call-up requests of all users at floor 2, and thus the car is also at floor 2 and the car door is open (i.e., parked at floor 2), the floor control controller may close the S _ a third preset time of the relays 131 corresponding to the destination floors of all users at floor 2.
Illustratively, the outbound key lamp state detector 20 is specifically connected to the outbound controller 122, and the outbound key lamp state detected by the outbound key lamp state detector 20 is sent to the layer controller 121 by the outbound controller 122. Of course, in other embodiments, the outbound key lamp status detector 20 may be connected to the layer controller 121, so as to directly send the detected outbound key lamp status to the layer controller 121.
For example, the descriptions of the outbound controller 122, the outbound information processor 111, the outbound key relay 132, the floor control controller 121, and the car key relay 131 may refer to the description in the fifth optional embodiment, and are not repeated herein.
In a specific embodiment, the elevator is provided with a plurality of cages, and each cage is provided with a cage key relay for controlling the on-off of a corresponding elevator key loop in the elevator cage.
It should be noted that, in this embodiment, when the structures of the outbound key relay 132 and the car key relay 131 are structures including two switches or optical couplers S _ B and S _ a as shown in fig. 3, the outbound controller 122 specifically controls the switch S _ a of the corresponding outbound key relay 132 to be closed for a first preset time period according to the determined elevator boarding direction and the departure floor information, and the floor controller 121 specifically controls the switch S _ a of the car key relay 131 to be closed for a third preset time period according to the destination floor information.
For example, in this embodiment, the specific procedure of the boarding control may be as follows: the outbound controller 122 of a certain floor receives the elevator taking task information of the elevator taking user uploaded by the outbound information processor 111 of the floor, retrieves a user authority sample set (a user list with defaulting) stored in the local storage unit according to the user authority information, if the user authority information is in the user authority sample set, determines that the elevator taking user does not pass elevator taking authority verification, the outbound controller 122 prompts an elevator taking result through the elevator taking prompt module 17, and ends an elevator taking process, if the user authority information is not in the user authority sample set, determines that the elevator taking user passes elevator taking authority verification, the outbound controller 122 judges an elevator taking direction according to a departure floor and a target floor, automatically registers an uplink key or a downlink key, transmits the target floor information to the floor control controller 121, generates an elevator passing record, and transmits the elevator passing record to the outbound information processor 111; if the communication between the outbound information processor 111 and the cloud server is normal, the outbound information processor 111 uploads an elevator passing record to the cloud server in real time for fee deduction processing, and the record is marked as an uploaded record; if the outbound message processor 111 receives the successful uploading result of the cloud server fee deduction record, the corresponding elevator passing record in the local memory is cleared according to the recorded serial number; if the communication between the outbound information processor 111 and the cloud server is abnormal, the outbound information processor 111 stores the elevator passing record into a local storage unit of the controller, marks the elevator passing record as a non-uploading record, and deducts the fee on the uploading cloud server when the communication is normal; after the fee deduction is successful, the outbound call information processor 111 generates a boarding result which is successfully registered, the boarding result is prompted by the boarding prompting module 17, and if the user authority information is in the balance early warning user authority sample set (the balance reaches an early warning value), the issued boarding result contains early warning information to prompt the user to recharge as soon as possible; the floor control controller 121 receives the destination floor information transmitted by the outbound controller 122, and puts the destination floor information into a list to be processed; when detecting that one external call key lamp is turned on or off, the floor control controller 121 judges the current running direction of the elevator car according to the obtained elevator riding running state and the turned-off external call key lamp of the elevator, detects a list to be processed, automatically registers all destination floor information with consistent running direction when the floor where the current elevator state is located is consistent with the starting floor, and moves the processed destination floor information into a processing list; the floor control controller 121 controls the corresponding car key relay 131 to close for a third preset time according to the destination floor information, so as to automatically trigger the destination floor information to control the corresponding car key.
In this embodiment, exhale the button outward and use and exhale controller 122 control outward, the button uses layer accuse control in the sedan-chair, exhale button outward and sedan-chair in the button all controlled, go upstairs and downstairs all need verify the party and can take advantage of the ladder, and exhale controller 122 outward and layer accuse controller 121 realization linkage, it takes advantage of the ladder task to initiate outside the sedan-chair, can be with the elevator call to the floor of starting, open the interior destination floor authority of car simultaneously, only need carry out once verify can, avoid crowded inconvenient problem of verifying in the sedan-chair, can also effectively solve the problem of cheating through exhaling outward. In addition, the elevator taking control device 1 in this embodiment further includes an elevator state detector 14 for detecting an elevator taking operation state of the elevator and an outbound key lamp state detector 20 for detecting an outbound key lamp state of the elevator, and the floor control controller 121 specifically determines whether there is an elevator car that satisfies a condition that a current stop floor is consistent with the start floor information and an operation direction is consistent with the target floor information according to the obtained elevator taking operation state and the outbound key lamp state of the elevator, and when it is determined that the condition is satisfied, controls a switch S _ a of a car key relay 131 corresponding to the target floor information in the elevator car that satisfies the condition to be closed for a third preset time period, so that floor registration can be realized without a user manually pressing a key, and user operation is facilitated.
As a sixth optional implementation manner of this embodiment, on the basis of the fourth or fifth optional implementation manner, referring to fig. 1, the outbound information processor 111 includes an outbound network communication module 1111, an outbound reading head module 1112, and an outbound processing module 1113 connected to the outbound reading head module 1112;
the outbound reading head module 1112 is configured to read an elevator taking identification code of the elevator taking user and send the elevator taking identification code to the outbound processing module 1113;
the outbound processing module 1113 is configured to analyze the elevator taking identification code of the elevator taking user into elevator taking task information of the elevator taking user, and send the information to the corresponding outbound controller 122;
the outbound network communication module 1111 is further configured to send the elevator usage record of the elevator user to the cloud server.
It should be noted that, in this embodiment, the types of the boarding identification code include, but are not limited to, a two-dimensional code, a bluetooth instruction, an NFC instruction, and the like. Illustratively, the elevator-taking identification code may be provided by a mobile terminal, an IC card, an NFC card, an RFID card, or the like.
Illustratively, when the elevator-taking identification code of the elevator-taking user is the bluetooth identification code, the identification process of the elevator-taking identification code is as follows:
after generating a user identification code, a user terminal scans the broadcast information of the surrounding Bluetooth equipment;
if the corresponding Bluetooth equipment is not detected within a certain time, the user terminal fails to prompt, and the elevator taking process is finished; if the Bluetooth equipment is detected, actively initiating connection and sending Bluetooth identification code information;
the bluetooth module of the outbound reading head module 1112 receives the data information transmitted by the mobile phone bluetooth and sends the data information to the outbound processing module 1113;
the outbound processing module 1113 judges whether a project Bluetooth key is imported or not, if not, the read head prompting module prompts that the project is not imported, a result is returned to the user terminal through Bluetooth, and meanwhile, the elevator taking process is ended;
if the information is imported, the outbound processing module 1113 judges the legality of the information through key operation, if the information is not verified, the reading head prompt module prompts a result, and meanwhile, the result is returned to the user terminal through Bluetooth, and meanwhile, the elevator taking process is finished.
If the verification is passed, the outbound processing module 1113 analyzes corresponding elevator taking task information through key operation;
the outbound processing module 1113 judges the validity permission of the elevator taking task information, and if the authority does not exist, prompts are given directly through a prompting unit, and the elevator taking process is ended; if the authority is present, the upload control circuit 12 performs processing.
Illustratively, when the elevator-taking identification code of the elevator-taking user is the two-dimensional code identification code, the identification process of the elevator-taking identification code is as follows:
a user reads the two-dimensional code on the reading head;
the external calling reading head module 1112 scans in real time, scans two-dimensional code information and transmits the two-dimensional code information to the external calling processing module 1113;
the outbound processing module 1113 judges whether the project key is imported or not, if not, the read head prompting module prompts that the project key is not imported, and the elevator taking process is ended;
if the two-dimensional code is imported, the outbound processing module 1113 judges whether the two-dimensional code is the item through key operation, and if the two-dimensional code is not verified, the read head prompting module prompts that the two-dimensional code is illegal, and the elevator taking process is finished; if the verification is passed, the outbound processing module 1113 analyzes the corresponding elevator taking task information through key operation;
the outbound processing module 1113 judges the validity authority of the elevator taking task information; if the elevator does not have the authority, directly giving a prompt through the reading head prompt module, and ending the elevator taking process; if the authority is available, the reading head prompts success through the reading head prompting module and uploads the success to the control circuit 12 for processing.
Exemplarily, when the elevator-taking identification code of the elevator-taking user is the NFC identification code, the identification process of the elevator-taking identification code is as follows:
the user terminal is close to the reading head;
the external call reading head module 1112 carries out real-time scanning by an identification module, detects NFC information and transmits the NFC information to the external call processing module 1113;
the outbound processing module 1113 judges whether the project key is imported or not, if not, the read head prompting module prompts that the project key is not imported, and the elevator taking process is ended;
if the identification code is imported, the outbound processing module 1113 judges whether the identification code is the item or not through key operation, and if the identification code is not verified, the read head prompting module prompts an error result and ends the elevator taking process; if the verification is passed, the outbound processing module 1113 analyzes the corresponding elevator taking task information through key operation;
the outbound processing module 1113 judges the validity authority of the elevator taking task information; if the elevator does not have the authority, directly giving a prompt through the reading head prompt module, and ending the elevator taking process; if the authority is available, the reading head prompts success through the reading head prompting module and uploads the success to the control circuit 12 for processing.
Illustratively, when the elevator-taking identification code of the elevator-taking user is stored in the IC card, the identification process of the elevator-taking identification code is as follows:
the user performs card reading identification on the outbound reader module 1112;
the outbound reading head module 1112 detects in real time, detects the card and feeds information back to the outbound processing module 1113;
the outbound processing module 1113 judges whether the key of the item card is imported or not, if not, the read head prompting module prompts that the key is not imported into the item, and at the moment, an operator needs to import the key in time;
if the card is imported, the outbound processing module 1113 performs key operation to judge whether the card is issued by the project operation platform, and if the card is a project card, the card authority information is continuously read, wherein the authority information comprises a user ID (identity), a validity period and floor authorities (a standing floor and a public floor) corresponding to the equipment;
the outbound processing module 1113 controls to judge the authority of the card validity period, if the authority is present, the card validity period is uploaded to the control circuit 12 for processing, and if the authority is not present, the prompt unit directly gives a prompt, for example, the card is expired.
In this embodiment, when the user is on a certain floor, the landing identification code may be read by the outbound reader module 1112 on the floor and then analyzed by the outbound processing module 1113, so as to obtain the landing task information of the landing user and send the landing task information to the outbound controller 122 on the floor, which can ensure that the landing control device 1 can effectively obtain the landing task information of the landing user even when the user is off-line, thereby ensuring that the user can normally land when the network condition is not good.
As a seventh optional implementation manner of this embodiment, on the basis of the fourth or fifth optional implementation manner, referring to fig. 1, the outbound information processor 111 includes an outbound network communication module 1111;
the outbound network communication module 1111 is configured to receive the elevator taking task information of the elevator taking user sent by the cloud server and send the information to the corresponding outbound controller 122;
the outbound network communication module 1111 is further configured to send the elevator usage record of the elevator user to the cloud server.
In this embodiment, the cloud server may directly issue the elevator taking task information of the elevator taking user to the outbound network communication module 1111 of a certain floor, and the outbound network communication module 1111 of the certain floor forwards the information to the outbound controller 122 of the certain floor, so that the cloud server triggers the elevator taking.
As an eighth optional implementation manner of this embodiment, referring to fig. 1, the key controller 13 includes a car key relay 131 for controlling on/off of a corresponding elevator key loop in an elevator car; the control circuit 12 includes a layer control controller 121; the information processor 11 includes a layer control information processor 112; the car key relay 131 and the floor control information processor 112 are both connected with the floor control controller 121;
the floor control information processor 112 is configured to obtain elevator taking task information of an elevator taking user and send the information to the floor control controller 121;
the floor control controller 121 is configured to receive elevator taking task information of the elevator taking user sent by the floor control information processor 112, and control the car key relay 131 to close for a fourth preset time according to destination floor information included in the elevator taking task information after the elevator taking user passes elevator taking authority verification;
the floor control controller 121 is further configured to generate an elevator usage record of the elevator taking user according to the elevator taking task information, and send the elevator usage record of the elevator taking user to the floor control information processor 112;
the floor control information processor 112 is further configured to send the elevator usage record of the elevator taking user to the cloud server.
For example, the description of the floor control controller 121 and the car key relay 131 may also refer to the description of the fourth optional embodiment, and will not be repeated herein.
In this embodiment, the floor control information processor 112 obtains elevator taking task information of the elevator taking user and sends the information to the floor control controller 121, so that the floor control controller 121 can execute the elevator taking task initiated by the user in the elevator car, thereby implementing elevator taking control and charging in the elevator car.
Further, the hierarchical control information processor 112 includes an in-car network communication module 1121, an in-car reading head module 1122, and an in-car processing module 1123 connected to the in-car reading head module 1122;
the reading head module 1122 in the elevator car is used for reading the elevator taking identification codes of the elevator taking users and sending the elevator taking identification codes to the in-car processing module 1123;
the in-car processing module 1123 is configured to analyze the elevator taking identification code of the elevator taking user into elevator taking task information of the elevator taking user, and send the elevator taking task information to the floor controller 121;
the in-car network communication module 1121 is further configured to send the elevator use record of the elevator taking user to the cloud server.
It should be noted that, in this embodiment, the types of the elevator boarding identification code include, but are not limited to, a two-dimensional code, a bluetooth command, an NFC command, and the like. Illustratively, the elevator-taking identification code may be provided by a mobile terminal, an IC card, an NFC card, an RFID card, or the like. The identification process of the hierarchical control information processor 112 for each type of elevator-taking identification code may specifically refer to the identification process of the outbound information processor 111, and is not described herein again.
Preferably, the layer control information processor 112 includes an in-car network communication module 1121;
the in-car network communication module 1121 is configured to receive elevator taking task information of an elevator taking user sent by the cloud server and send the elevator taking task information to the floor control controller 121;
the in-car network communication module 1121 is further configured to send the elevator usage record of the elevator-taking user to the cloud server.
In this embodiment, the in-car network communication module 1121 may receive elevator taking task information of the elevator taking user sent by the cloud server, and send the information to the floor control controller 121, so as to realize that the cloud server triggers elevator taking.
As a ninth optional implementation manner of the present embodiment, the boarding control device 1 further includes a boarding prompt module 17; the elevator taking prompt module 17 is connected with the control circuit 12;
the control circuit 12 is further configured to generate corresponding elevator taking prompt information according to the current elevator taking result, and send the elevator taking prompt information to the elevator taking prompt module 17;
the elevator taking prompt module 17 is configured to perform elevator taking prompt operation for a user according to the elevator taking prompt information.
Illustratively, the current boarding result includes a verification success and a verification failure, the control circuit 12 sends a boarding prompt message of successful registration to the boarding prompt module 17 when the current boarding result is a verification success, and the control circuit 12 sends a boarding prompt message of failed registration to the boarding prompt module 17 when the current boarding result is a verification failure.
In this embodiment, the elevator taking control device 1 further includes an elevator taking prompt module 17, and the control circuit 12 generates corresponding elevator taking prompt information according to a current elevator taking result and sends the elevator taking prompt information to the elevator taking prompt module 17, so as to perform elevator taking prompt operation for a user, enable the user to know an elevator taking result in time, and improve user experience.
As a tenth optional embodiment of this embodiment, the boarding control device 1 further includes an elevator state detector 14 for detecting an elevator operation state and an imaging device 18 for imaging an image in the car of the elevator; the camera 18 and the elevator state detector 14 are connected to the control circuit 12;
the control circuit 12 is further configured to control the imaging device 18 to capture images in the car when each elevator riding task is executed; detecting the number of elevator taking users in the images in the elevator car; comparing the detected number of people with the number of the current uncompleted elevator taking task information; if the comparison result is consistent, executing the current elevator taking task; if the comparison result is inconsistent, the key controller 13 associated with the elevator door opening key of the current floor is controlled to execute the following operations: and triggering the elevator door opening key to enable the elevator door opening key to be in an effective state.
Specifically, when the control circuit 12 determines that the elevator reaches the departure floor of each elevator taking task, it will inquire the number of elevator taking tasks whose departure floor is the current floor and whose travel directions are consistent in the elevator taking task information list to be processed, move the elevator taking task information into the processing list, and at the same time, subtract the number of elevator taking tasks whose destination floor is the same as the current floor from the processing list, thereby obtaining the number of users who should be in the elevator at the current floor, that is, the number of currently unfinished elevator taking tasks, and then compare the number of users with the number of detected users.
As can be understood, in the existing elevator, the situation that outside persons take the elevator in the following often occurs, in this embodiment, the elevator taking control device 1 further includes a camera 18 for taking images in the elevator car, the control circuit 12 performs people number detection according to elevator users in the images in the car when each elevator taking task is performed, and performs the current elevator taking task when the comparison result between the number of people taking the elevator and the number of information of the current unfinished elevator taking task is consistent, and if the comparison result is not consistent, performs corresponding control on the key controller 13, so that the door opening key of the elevator is in an effective state, and prevents the elevator from running, thereby effectively preventing the persons who take the elevator in the following from taking the elevator.
Further, if the comparison result is inconsistent, the control circuit 12 is further configured to generate corresponding alarm prompt information and send the alarm prompt information to the elevator taking prompt module 17, so that the elevator taking prompt module 17 sends an alarm according to the alarm prompt information.
In this embodiment, if the comparison result is inconsistent, the control circuit 12 further controls the elevator taking prompt module 17 to send an alarm, so that the following elevator entering personnel can be effectively warned to leave the elevator.
As an eleventh optional embodiment of the present embodiment, the boarding control device 1 further includes an imaging device 18 that captures an image of the inside of the elevator car; the camera 18 is connected with the control circuit 12;
the control circuit 12 is further configured to: when each elevator taking task is executed, the camera 18 is controlled to shoot images in the elevator car; judging whether an abnormal condition exists in the elevator car according to the image in the elevator car, wherein the abnormal condition comprises that a preset abnormal target exists in the elevator car; if yes, executing alarm operation.
Illustratively, the abnormal object includes, but is not limited to, a motorcycle, an electric vehicle, a human body standing still for a long time, and the like.
In this embodiment, the elevator riding control device 1 further includes an image pickup device 18 for picking up an image of the inside of the elevator car, and the control circuit 12 determines whether there is an abnormal situation in the elevator car based on the image of the inside of the elevator car when each elevator riding task is executed, and performs an alarm operation when an abnormal situation is found, so that occurrence of an accident can be effectively prevented, and the elevator riding safety can be improved.
As a twelfth optional implementation manner of this embodiment, before uploading the elevator use record of the elevator-taking user to a cloud server, the information processor 11 is further configured to detect whether the communication connection with the cloud server is normal; if the current elevator taking user is normal, uploading the elevator use record of the current elevator taking user to the cloud server; if the elevator usage records are abnormal, temporarily storing the elevator usage records of the elevator taking users in the local, continuously detecting the communication connection condition between the elevator taking users and the cloud server, and uploading the temporarily stored elevator usage records to the cloud server until the communication connection condition between the elevator taking users and the cloud server is detected to be normal.
Specifically, the information processor 11 is further configured to detect a communication state with the cloud server at regular time, and set a value of a communication state flag bit according to the communication state;
the information processor 11 detects whether the communication connection with the cloud server is normal by specifically:
acquiring the numerical value of the communication state zone bit;
when the numerical value of the communication state zone bit corresponds to the online state, judging that the communication connection with the cloud server is normal;
and when the numerical value of the communication state zone bit corresponds to an offline state, judging that the communication connection with the cloud server is abnormal.
For example, the information processor 11 may specifically detect a communication state with the cloud server by sending a detection packet at regular time, and set the communication state flag to a first value corresponding to an online state if the communication is normal, and set the communication state flag to a second value corresponding to an offline state if the communication is not normal. Before uploading the elevator usage record of the elevator user to the cloud server, the information processor 11 may first obtain the value of the communication state flag, when the value of the communication state flag corresponds to an online state, the step of uploading the elevator usage record of the elevator user to the cloud server is performed, and when the value of the communication state flag corresponds to an offline state, the elevator usage record of the elevator user to be uploaded may be stored in a local storage, and meanwhile, the value of the communication state flag is continuously detected, and until the value of the communication state flag is detected to correspond to the online state, the step of uploading the elevator usage record of the elevator user to the cloud server is performed, so that it is possible to effectively avoid a situation that the cloud server cannot charge the elevator fee of the elevator user successfully due to the loss or error of the elevator usage record of the elevator user in the transmission process caused by abnormal communication connection with the cloud server, and it is possible to cope with various abnormal offline or network charging situations, and improve the accuracy of the elevator taking scene.
As a thirteenth optional implementation manner of this embodiment, the control circuit 12 is further configured to control all the key controllers 13 to perform a trigger operation on the associated elevator key when it is determined that the preset elevator taking control abnormal condition is currently met, so that the associated elevator key is in an active state.
Illustratively, the abnormal elevator taking control conditions include, but are not limited to, the information processor 11 failing to successfully acquire elevator taking task information of any elevator taking user, or receiving fire protection, earthquake and other disaster avoidance signals.
In this embodiment, when it is determined that the preset abnormal elevator taking control condition is met, the control circuit 12 can control all the key controllers 13 to perform trigger operation on the associated elevator keys, so that the associated elevator keys are in an effective state, and thus, even if the elevator taking control device 1 fails to receive elevator taking task information due to a network disconnection off-line state or a fault of the information processor 11, the elevator keys of the elevator can be in an open effective state, so that the elevator is recovered to an uncontrolled state, and thus, a user can ensure that the user can press the keys by himself to take the elevator normally.
It should be noted that the optional embodiments in this embodiment may be arbitrarily combined to obtain a more preferred embodiment.
Referring to fig. 3, a schematic structural diagram of a shared elevator cloud charging system 10 according to an embodiment of the present invention is provided.
The shared elevator cloud charging system 10 provided by the embodiment comprises a cloud server 2 and at least one elevator riding control device 1 which is used for being additionally installed on an elevator and is provided with any one of the above embodiments;
the cloud server 2 is used for carrying out fee deduction processing on a payment account corresponding to the elevator taking user according to a preset elevator taking fee deduction strategy and the received elevator use record of the elevator taking user sent by the elevator taking control device.
The shared elevator cloud charging system 10 provided in this embodiment also has the beneficial effects of the above-mentioned elevator riding control device 1 embodiment, and details are not repeated herein.
As a first optional implementation manner of this embodiment, the shared elevator cloud charging system 10 further includes at least one user terminal 3;
the user terminal 3 is configured to generate elevator taking task information of the elevator taking user according to the obtained elevator taking floor information of the elevator taking user, and send the elevator taking task information of the elevator taking user and the obtained user permission information of the elevator taking user to the cloud server 2;
the cloud server 2 is further configured to verify the elevator taking authority of the elevator taking user according to the user authority information of the elevator taking user, and send elevator taking task information of the elevator taking user to the corresponding elevator taking control device 1 after the elevator taking authority passes the verification.
For example, the elevator taking floor information of the elevator taking user can be input on a displayed interface after the elevator taking user scans an elevator taking two-dimensional code outside the elevator or in the elevator car by using the user terminal 3. The user authority information of the elevator taking user can be input on a displayed interface after the elevator taking user scans an elevator taking two-dimensional code outside the elevator or in the elevator car by using the user terminal 3, or can be generated by acquiring an account of a user logging in the user terminal 3.
In this embodiment, the shared elevator cloud charging system 10 further includes a plurality of user terminals 3, and the user terminals 3 may generate elevator taking task information of the elevator taking users according to the obtained elevator taking floor information and user permission information of the elevator taking users, send the elevator taking task information to the cloud server 2, and send the elevator taking task information to the information processor 11 after the elevator taking permission is verified by the cloud server 2, so that elevator taking is achieved, and user experience is improved.
As a second optional implementation manner of this embodiment, the shared elevator cloud charging system 10 further includes at least one user terminal 3;
the user terminal 3 is used for providing the elevator taking identification code of the elevator taking user; the elevator taking identification code comprises elevator taking floor information and user authority information;
the information processor 11 is specifically configured to:
reading the elevator taking identification code of the elevator taking user;
the elevator taking identification code of the elevator taking user is analyzed into elevator taking task information of the elevator taking user and sent to the control circuit 12;
if the elevator taking task information further includes user right information, the verification of the elevator taking right of the elevator taking user is performed by the control circuit 12 according to the user right information.
It should be noted that, in this embodiment, the types of the boarding identification code include, but are not limited to, a two-dimensional code, a bluetooth instruction, an NFC instruction, and the like. Illustratively, the elevator-taking identification code may be a mobile terminal, an IC card, an NFC card, an RFID card, or the like.
In this embodiment, the user terminal 3 provides the elevator riding identification code of the elevator riding user, and the elevator riding control device 1 may specifically obtain the elevator riding task information of the elevator riding user by reading the elevator riding identification code of the elevator riding user through the information processor 11 and analyzing the elevator riding identification code of the elevator riding user, and perform elevator riding authority verification by the control circuit 12 according to the user authority information, so as to ensure that the shared elevator cloud charging system 10 can effectively obtain the elevator riding task information of the elevator riding user even when the shared elevator cloud charging system is offline, thereby realizing accurate elevator riding control in an offline state.
As a third optional implementation manner of this embodiment, on the basis of the second optional implementation manner, the control circuit 12 is specifically configured to verify the user authority information of the elevator user according to a preset user authority sample set; when detecting that the user authority sample set does not contain the user authority sample corresponding to the user authority information of the elevator taking user, the control circuit 12 determines that the elevator taking user passes elevator taking authority verification;
the cloud server 2, after performing fee deduction processing on the payment account of the elevator user, is further configured to:
judging whether the balance in the payment account of the elevator taking user is less than a preset minimum elevator taking fee deduction threshold or not and whether the user permission sample set does not contain a user permission sample corresponding to the user permission information of the elevator taking user or not;
if yes, generating a user authority sample adding instruction corresponding to the user authority information of the elevator taking user and issuing the user authority sample adding instruction to the control circuit 12 corresponding to the user authority information of the elevator taking user;
if not, generating a user authority sample removing instruction corresponding to the user authority information of the elevator taking user and issuing the user authority sample removing instruction to the control circuit 12 corresponding to the user authority information of the elevator taking user;
the control circuit 12 is further configured to add, according to the user permission sample adding instruction corresponding to the user permission information of the elevator taking user, the user permission sample corresponding to the user permission information of the elevator taking user to the user permission sample set;
the control circuit 12 is further configured to remove the user permission sample corresponding to the user permission information of the elevator taking user from the user permission sample set according to the user permission sample removal instruction corresponding to the user permission information of the elevator taking user.
In this embodiment, the minimum boarding fee threshold refers to the lowest fee for the boarding user to ride the elevator once. After the payment account of the elevator taking user is subjected to fee deduction processing, the cloud server 2 judges whether the balance in the payment account of the elevator taking user is less than a preset minimum elevator taking fee deduction threshold value or not and whether the user authority sample set does not contain the user authority sample corresponding to the user authority information of the elevator taking user or not, if yes, a user authority sample adding instruction corresponding to the user authority information of the elevator taking user is generated and issued to the control circuit 12 corresponding to the user authority information of the elevator taking user, so that the control circuit 12 adds the user authority sample corresponding to the elevator taking user to the user authority sample set, and therefore when the elevator taking user takes the elevator next time, the user can be effectively prevented from defaulting to take the elevator, and the accuracy of elevator taking fee deduction management is improved; if not, a user permission sample removing instruction corresponding to the user permission information of the elevator taking user is generated and issued to the control circuit 12 corresponding to the user permission information of the elevator taking user, so that when the user permission samples of the control circuit 12 collectively exist in the user permission samples corresponding to the elevator taking user, the user permission samples corresponding to the elevator taking user can be removed from the user permission samples collectively in time, and therefore the elevator taking user can be prevented from obtaining wrong verification results when taking the elevator next time, the accuracy of elevator taking permission verification is improved, and the user experience is improved.
It should be noted that, since there may be a plurality of elevators that can be taken by each elevator taking user, in order to ensure the accuracy of elevator taking fee deduction management, a user authority sample adding instruction corresponding to the user authority information of the elevator taking user needs to be issued to the elevator taking control device 1 corresponding to each elevator that can be taken by the elevator taking user, so as to ensure that the user authority sample corresponding to the elevator taking user can be added to the user authority sample set of all corresponding elevator taking control devices 1. In this embodiment, the elevator riding control device 1 corresponding to each elevator that can be ridden by the elevator riding user is specifically determined by the user authority information of the elevator riding user.
Further, the elevator taking control device 1 further comprises an elevator taking prompt module;
the control circuit 12 is further configured to determine whether the elevator taking user is a balance early warning user according to the user authority information of the elevator taking user and a preset balance early warning user authority sample set, and when the elevator taking user is determined to be a balance early warning user, generate corresponding balance early warning information, and send the balance early warning information to the elevator taking prompt module;
and the elevator taking prompt module is used for sending out a balance early warning prompt according to the balance early warning information.
In this embodiment, when the user takes the elevator and the balance of the user is urgent, the control circuit 12 can timely determine whether the user is a balance early warning user, and send a balance early warning prompt to the balance early warning user through the elevator taking prompt module, so as to prompt the user to recharge as soon as possible.
Further, the cloud server 2, after performing fee deduction processing on the payment account of the elevator user, is further configured to:
judging whether the balance in the payment account of the elevator taking user is less than a preset balance early warning threshold value or not and whether the balance early warning user permission sample set does not contain a balance early warning user permission sample corresponding to the user permission information of the elevator taking user or not;
if yes, generating a balance early warning user authority sample adding instruction corresponding to the user authority information of the elevator taking user and issuing the balance early warning user authority sample adding instruction to the control circuit 12 corresponding to the user authority information of the elevator taking user;
if not, generating a balance early warning user permission sample removing instruction corresponding to the user permission information of the elevator taking user and issuing the balance early warning user permission sample removing instruction to the control circuit 12 corresponding to the user permission information of the elevator taking user;
the control circuit 12 is further configured to add a balance early warning user permission sample corresponding to the user permission information of the elevator taking user to a preset balance early warning user permission sample set according to the balance early warning user permission sample addition instruction corresponding to the user permission information of the elevator taking user;
the control circuit 12 is further configured to remove the balance early warning user permission samples corresponding to the user permission information of the elevator taking user from the balance early warning user permission sample set according to a balance early warning user permission sample removal instruction corresponding to the user permission information of the elevator taking user.
In this embodiment, after the fee deduction processing is performed on the payment account of the elevator user, if it is determined that the balance in the payment account of the elevator user is less than a preset balance early warning threshold and the balance early warning user permission sample set does not include a balance early warning user permission sample corresponding to the user permission information of the elevator user, a balance early warning user permission sample adding instruction corresponding to the user permission information of the elevator user is generated and issued to the control circuit 12 corresponding to the user permission information of the elevator user, so that the control circuit 12 adds the balance early warning user permission sample corresponding to the elevator user to the balance early warning user permission sample set, so that when the elevator user takes the elevator next time, the control circuit 12 can timely determine that the elevator user is a balance early warning user and send out a balance early warning prompt through the information prompter, thereby prompting the user to charge as soon as possible; if the balance in the payment account of the elevator user is judged to be not less than the preset balance early warning threshold value and the balance early warning user authority samples collectively contain the balance early warning user authority samples corresponding to the user authority information of the elevator user, a balance early warning user authority sample removing instruction corresponding to the user authority information of the elevator user is generated and sent to the control circuit 12 corresponding to the user authority information of the elevator user, so that when the balance early warning user authority samples collectively exist in the balance early warning user authority samples of the control circuit 12, the balance early warning user authority samples corresponding to the elevator user can be removed from the balance early warning user authority samples collectively in time, and therefore the situation that the balance early warning prompt is mistakenly sent when the elevator user takes the elevator next time can be prevented, the accuracy of the balance early warning prompt is improved, and the user experience is improved.
As a fourth optional implementation manner of this embodiment, on the basis of the second optional implementation manner, further, the user terminal 3 is further configured to send the user authority information of the elevator taking user and the elevator taking floor information input by the elevator taking user to the cloud server 2 when detecting that the communication state between the user terminal and the cloud server 2 is an online state;
the cloud server 2 is further configured to generate elevator taking task information of the elevator taking users according to the user permission information and the elevator taking floor information of the elevator taking users and return the elevator taking task information to the user terminal 3;
the user terminal 3 is further configured to generate an elevator taking identification code of the elevator taking user according to the elevator taking task information of the elevator taking user;
the user terminal 3 is further configured to, when it is detected that the communication state with the cloud server 2 is an offline state, determine whether local elevator boarding task information corresponding to the user permission information and the elevator boarding floor information of the elevator boarding user is stored, if yes, generate an elevator boarding identification code of the elevator boarding user according to the elevator boarding task information, and if not, end the process.
In this embodiment, when the user takes the elevator, if the user terminal 3 and the cloud server 2 are in normal communication, the elevator taking task information of the elevator taking user is stored in the user terminal 3, so that when the user takes the elevator next time, if the user terminal 3 and the cloud server are in abnormal communication, the user terminal 3 can also read the elevator taking task information stored in the local to generate an elevator taking identification code, thereby ensuring that the user can still take the elevator normally when the network condition is not good, and improving the user experience and the practicability of sharing the elevator cloud charging system.
In a specific embodiment, the boarding mission information includes a validity period; the verification of the user authority information of the elevator taking user by the control circuit 12 further includes verification whether the current elevator taking time exceeds the valid period.
As a fifth optional implementation manner of this embodiment, on the basis of the second optional implementation manner, the user terminal 3 is further configured to send the acquired visitor elevator-taking identification code request information to the cloud server 2; the visitor elevator taking information comprises user permission information of an addressee and an ID (identity) of a target room to be visited by the visitor;
the cloud server 2 is further configured to:
receiving visitor elevator-taking identification code request information sent by any user terminal 3;
according to the corresponding relation between the preset room ID and the ID of the target visiting floor and the elevator, determining the elevator taking floor information of the visitor and the ID of the elevator according to the elevator taking identification code request information of the visitor;
generating an elevator taking identification code of the visitor according to the information required by the visitor for taking the elevator, and sending the elevator taking identification code to the user terminal 3 which sends out the elevator taking identification code request information of the visitor; the elevator taking required information of the visitor comprises user permission information of the interviewee, elevator taking floor information of the visitor and an ID of an elevator to take, the elevator taking identification code information of the visitor contains elevator taking task information of the visitor, the elevator taking task information of the visitor comprises the elevator taking floor information used for indicating the visitor and the user permission information of the visitor, and the user permission information of the visitor comprises the user permission information of the interviewee and the ID of the elevator to take of the visitor.
Illustratively, the user authority information of the addressee can be obtained by obtaining the user authority information of the user logging in the user terminal 3, or the user authority information of the addressee can be obtained by inputting the user; the room ID corresponding to the user permission information of the visitor may be determined according to the correspondence between the user permission information of each resident and the room ID, so as to obtain the target room ID to be visited by the visitor, or the target room ID to be visited by the visitor may be obtained by inputting the room ID by the user.
In a specific embodiment, the visitor contacts the resident in advance through a communication tool (such as a telephone and WeChat), the resident logs in an elevator-taking control APP or an applet on the user terminal 3 of the resident, a page for adding the visitor is popped up by selecting a visitor invitation button on an APP or applet interface of the user terminal 3, and the resident fills information such as a target room ID to be visited by the visitor on the page for adding the visitor; the user terminal 3 generates visitor elevator taking identification code request information according to the acquired user permission information containing the visited person and information such as a target room ID to be visited by the visitor, and sends the visitor elevator taking identification code request information to the cloud server 2, so that the cloud server 2 generates and returns an elevator taking identification code of the visitor according to the visitor elevator taking identification code request information, after that, the visited person can share the elevator taking identification code of the visitor in the forms of WeChat, QQ sharing, short message and the like to the visitor, and the visitor can take the elevator by holding the elevator taking identification code.
It should be noted that, because the visitor function can't be realized to current sharing elevator cloud charging system, when the visitor need take advantage of the ladder, generally go out by the user and connect the visitor, nevertheless very inconvenient like this, user experience feels relatively poor, can also be in addition install the intercom system including intercom host computer and indoor set additional, thereby realize taking advantage of the ladder permission by the indoor set is open, but to installing the system additional, the overall cost can promote greatly, and the intercommunication system needs to realize the butt joint with the elevator system, it is great to implement the degree of difficulty. In this embodiment, the shared elevator cloud charging system 10 can generate the elevator-taking identification code of the visitor through the user terminal 3 and the cloud server 2, so that the elevator-taking function of the visitor is realized, the user who does not have the elevator use authority in the prior art can also take the elevator under the condition that the resident authorization allows, the convenience and the practicability of taking the elevator are improved, and the implementation is easy.
In a specific embodiment, before the cloud server 2 generates the elevator-taking identification code of the visitor according to the information required by the visitor to take the elevator and sends the elevator-taking identification code to the user terminal 3 that sends the elevator-taking identification code request information of the visitor, the cloud server is further configured to:
and when the balance in the payment account of the visited person is judged to be less than the preset minimum elevator taking fee deduction threshold value, returning prompt recharging information to the user terminal 3 sending the visitor elevator taking identification code request information, so that the user terminal 3 sending the visitor elevator taking identification code request information displays the prompt recharging information, and finishing the current process.
In this embodiment, if it is determined that the balance in the payment account of the visited person is smaller than the preset minimum fare threshold for taking the elevator, a prompt recharge message is returned to the user terminal 3 that sends the visitor's request message for taking the elevator right, so that the user can be prompted to recharge in time, the current process is ended, and the visitor's identification code is prevented from being issued, thereby preventing the user from taking the elevator due.
Optionally, the visitor elevator taking identification code request information and the visitor elevator taking required information further include identity information of the visitor; then, the user authority information of the visitor also comprises the identity information of the visitor;
the information processor 11 is further configured to send user permission information of the elevator taking user to the cloud server 2 and the control circuit 12 when it is determined that the elevator taking user belongs to a visitor;
the cloud server 2 is further configured to, when it is determined that the elevator taking user belongs to a visitor, determine whether the elevator taking user meets a preset visitor elevator taking condition according to the user permission information of the elevator taking user, if yes, issue a verification passing instruction to the control circuit 12, and reduce the number of permitted passages corresponding to the identity information of the elevator taking user by one;
the control circuit 12 is further configured to generate a corresponding key control instruction according to the elevator taking floor information of the elevator taking user when receiving the verification passing instruction, and send the key control instruction to the key controller corresponding to the elevator taking floor information of the elevator taking user;
wherein the visitor elevator taking condition at least comprises: the balance in the payment account of the visited person is not less than a preset minimum elevator taking fee deduction threshold value, and the allowed passing times corresponding to the identity information of the elevator taking user are greater than 0.
For example, the number of permitted passes corresponding to the identity information of each visitor may be preset in the cloud server 2, for example, set to 1 or 5, and the like. In this embodiment, because the visitor elevator taking condition at least includes that the balance in the payment account corresponding to the user permission information of the visited person contained in the user permission information of the elevator taking user is not less than the preset minimum elevator taking fee threshold value, and the permitted passing number corresponding to the identity information of the elevator taking user is greater than 0, when the elevator taking user belongs to the visitor, the cloud server 2 judges whether the elevator taking user meets the preset visitor elevator taking condition, so that the user permission information of the elevator taking user is verified, the visitor defaulting elevator taking can be effectively prevented, and the visitor not permitted to pass elevator taking can be effectively prevented.
Further, before the cloud server 2 generates the elevator-taking identification code of the visitor according to the information required by the visitor to take the elevator and issues the elevator-taking identification code to the user terminal 3 which sends out the elevator-taking identification code request information of the visitor, the cloud server is further configured to:
when the balance in the payment account of the visited person is judged to be not less than the preset minimum elevator taking fee deduction threshold value, returning the balance in the payment account of the visited person to the user terminal 3 sending the visitor elevator taking identification code request information, enabling the user terminal 3 sending the visitor elevator taking identification code request information to display the balance, and providing a control for inputting the passing number allowing information;
in response to receiving the information of the number of permitted passes sent by the user terminal 3 which sends the information of the elevator taking authority identification code of the visitor, recording the corresponding relation between the information of the number of permitted passes and the identity information of the visitor.
In specific implementation, before the visitor's elevator taking identification code is generated, the cloud server 2 firstly judges whether the balance in the payment account corresponding to the visitor's user permission information is not less than a preset minimum elevator taking fee deduction threshold value, if not, the balance in the payment account of the visitor is returned to the user terminal 3 which sends the visitor's elevator taking identification code request information, so that the user terminal 3 which sends the visitor's elevator taking identification code request information can remind the user of the current balance, and a control for inputting the permitted number information is also displayed, so that the user can input the permitted number information for the visitor on the control, and when the cloud server 2 receives the permitted number information sent by the user terminal 3, the corresponding relation between the permitted number information and the visitor's identity information is recorded, so that the function of setting the permitted number of the visitor according to actual needs can be realized, and the practicability of elevator taking management and the experience of the user are improved.
As a sixth optional implementation manner of this embodiment, on the basis of the second optional implementation manner, further, the shared elevator cloud charging system 10 further includes at least one operator terminal 4;
the operator terminal 4 is configured to generate elevator boarding identification code request information of an emergency passer according to elevator boarding floor information of the emergency passer and an ID of an elevator to be boarded, which are input by an operator user, and send the elevator boarding identification code request information of the emergency passer to the cloud server 2;
the cloud server 2 is further configured to:
receiving elevator taking identification code request information of the emergency passer;
generating the elevator taking identification code of the emergency passer according to the elevator taking identification code request information of the emergency passer and sending the elevator taking identification code to the operator terminal 4; the elevator taking identification code of the emergency passer contains elevator taking task information of the emergency passer.
In this embodiment, the shared elevator cloud charging system 10 further includes an operator terminal 4, and when an emergency situation occurs and an elevator needs to be taken, an operator can input elevator taking floor information and an ID of the elevator taken by an emergency passer, which are required by the current elevator taking task, on the operator terminal 4; the operator terminal 4 generates elevator taking identification code request information of an emergency passer according to elevator taking floor information required by the emergency passer for the elevator taking task and an ID (identity) of an elevator taken by the emergency passer, which are input by an operator, and sends the elevator taking identification code request information to the cloud server 2, so that the cloud server 2 generates an elevator taking identification code of the emergency passer according to the elevator taking identification code request information of the emergency passer and sends the elevator taking identification code to the operator terminal 4, and the operator terminal 4 forwards the elevator taking identification code of the emergency passer to the emergency passer, so that the emergency passer can take the elevator according to the elevator taking identification code of the emergency passer. Therefore, the shared elevator cloud charging system 10 provided by the embodiment can remotely open the elevator for the emergency user to use, thereby realizing the emergency passing function.
As a seventh optional implementation manner of this embodiment, the shared elevator cloud charging system 10 further includes at least one operator terminal 4;
the operator terminal 4 is configured to generate emergency elevator taking request information according to elevator taking floor information of an emergency passer and an ID of an elevator to be taken, which are input by an operator, and send the emergency elevator taking request information to the cloud server 2;
the cloud server 2 is further configured to receive emergency boarding request information of the emergency passer; the boarding task information of the emergency traveler is generated based on the boarding floor information of the emergency traveler and transmitted to the boarding control device 1 corresponding to the ID of the elevator to be ridden by the emergency traveler.
In this embodiment, the shared elevator cloud charging system 10 further includes an operator terminal 4, when an elevator needs to be taken in an emergency, an operator can input elevator taking floor information and an ID of an elevator taken by an emergency passer on the operator terminal 4, the operator terminal 4 generates emergency elevator taking request information of the emergency passer according to the information and sends the emergency elevator taking request information to the cloud server 2, so that the cloud server 2 generates elevator taking task information of the emergency passer according to the elevator taking floor information of the emergency passer and sends the elevator taking task information to the elevator taking control device 1 corresponding to the ID of the elevator taken by the emergency passer, and the elevator taking control device 1 controls the elevator to execute the elevator taking task of the emergency passer. Therefore, the shared elevator cloud charging system 10 provided by the embodiment can remotely open the elevator for the emergency user to use, thereby realizing the emergency passing function.
As an eighth optional implementation manner of this embodiment, the cloud server 2 is further configured to store the received elevator usage record of each user;
the shared elevator cloud charging system 10 further comprises a plurality of user terminals 3;
the user terminal 3 is configured to generate travel monitoring request information according to identity information of a plurality of concerned users input by a user and send the travel monitoring request information to the cloud server 2;
the cloud server 2 is further configured to:
receiving travel monitoring request information sent by any one of the user terminals 3;
marking a plurality of concerned users according to the travel monitoring request information;
regularly judging whether the time from each marked user to the last elevator taking exceeds a preset time threshold according to the elevator use record of each marked user to obtain an early warning judgment result of each marked user;
acquiring the emergency contact information of all marked users with the early warning judgment result being yes;
and sending early warning information to all the emergency contacts of the marked users according to the emergency contact information, wherein the early warning judgment result is yes.
It should be noted that the preset time threshold may be set according to the actual requirement of the user, for example, 24 hours, and the like, and is not limited herein.
In this embodiment, each user terminal 3 may request the user trip monitoring module of the cloud server 2 to monitor a plurality of trips of the interested user according to a plurality of elevator usage records of the interested user, and when finding that the time of the tagged user from taking the elevator last time exceeds a preset time threshold, automatically send early warning information to a corresponding emergency contact to perform early warning and reminding, thereby realizing a big data early warning function, and having great significance for guaranteeing user safety.
As a ninth optional implementation manner of this embodiment, on the basis of the first optional implementation manner, the user terminal 3 is further configured to generate user registration request information of the current registered user according to user permission information and a login password of the current registered user, which are input by the user, and send the user registration request information to the cloud server 2;
the cloud server 2 is further configured to:
receiving user registration request information of a current registered user, which is sent by any one of the user terminals 3;
judging whether the user authority information of the current registered user belongs to a preset registrable user authority information set or not; if so, registering the elevator taking account of the current registered user according to the login password and the user permission information of the current registered user, and associating the user permission information of the current registered user with a preset payment account corresponding to the user permission information of the current registered user; if not, pushing the information which does not allow the registration warning to the user terminal 3 which sends the information of the user registration request;
the user terminal 3 is further configured to generate user login request information of the current login user according to the user permission information and the login password of the current login user input by the user, and send the user login request information to the cloud server 2.
Further, the cloud server 2 is further configured to:
responding to user login request information of a current login user sent by any user terminal 3, and when judging that the current login user is a registered user according to the user login request information of the current login user, returning successful login information of the current login user to the user terminal 3 which sends out the user login request information of the current login user;
the user terminal 3 is further configured to log in the elevator-taking account of the current login user when receiving the successful login information of the current login user.
Illustratively, the set of registrable user authority information may be preset according to the identity information of the resident.
In an optional implementation manner, the registration of the elevator account of the currently registered user may be specifically completed by means of verification of a verification code.
In this embodiment, when a user registers for the first time, the user terminal 3 allows the user to register when determining that the user permission information of the currently registered user belongs to a preset registrable user permission information set, and when the user logs in, the cloud server 2 allows the user to log in when determining that the currently registered user is a registered user, so that users who do not have the right to take the elevator can be effectively prevented from taking the elevator, and the safety of taking the elevator is improved.
Further, the user terminal 3 is further configured to generate family member invitation information according to the user permission information of the user who has logged in the user terminal 3 and initiated the invitation and the user permission information of the user to be invited, and send the family member invitation information to the cloud server 2;
the cloud server 2 is further configured to:
receiving family member invitation information sent by any user terminal 3;
and adding the user permission information of the user to be invited to the registrable user permission information set according to the family member invitation information, and setting the payment account of the user to be invited to be consistent with the payment account of the user initiating the invitation.
In this embodiment, the user who initiates the invitation and has logged in the user terminal 3 may invite other users to become registerable users, and set their payment account to be consistent with the payment account of the user who initiates the invitation, so as to associate the accounts and implement a unified deduction.
As a tenth optional implementation manner of this embodiment, on the basis of the third optional implementation manner, the cloud server 2 is further configured to:
receiving recharging bill information of a current recharging user;
updating the balance in the payment account of the current recharging user according to the recharging amount information of the current recharging user;
judging whether the balance in the payment account of the current recharging user is larger than the minimum taking elevator fee deduction threshold value or not and whether the user authority sample set contains a user authority sample corresponding to the user authority information of the current recharging user or not;
when the updated balance in the payment account of the current recharging user is judged to be larger than the minimum step fee deduction threshold value and the user permission sample set contains the user permission sample corresponding to the user permission information of the current recharging user, generating a user permission sample removing instruction corresponding to the user permission information of the current recharging user and issuing the user permission sample removing instruction to the control circuit 12 corresponding to the user permission information of the current recharging user;
the control circuit 12 is further configured to remove the user right sample corresponding to the current recharging user from the user right sample set according to the user right sample removal instruction corresponding to the user right information of the current recharging user.
For example, in this embodiment, the recharge bill information of the current recharge user may be generated and uploaded to the cloud server 2 after the user performs online recharge on the user terminal 3, or may be generated and uploaded to the cloud server 2 after the operator collects a fee online, which is not limited herein. After the charging is completed, if the cloud server 2 judges that the updated balance in the payment account of the current charging user is larger than the minimum elevator taking fee deduction threshold and the user permission sample set contains the user permission sample corresponding to the user permission information of the current charging user, a user permission sample removing instruction is downloaded to the control circuit 12, the forbidden use of the associated mobile phone number and the user ID (card) under the family account number is cancelled, and the control circuit 12 deletes the corresponding user permission sample in the user permission sample set immediately after receiving the user permission sample removing instruction, so that the elevator taking rights of the users are recovered; after recharging is completed, recharging records, account number updating and other information are stored in the database.
In this embodiment, after the cloud server 2 performs charging processing on the payment account of the current charging user, if it is determined that the updated balance in the payment account of the current charging user is greater than the minimum elevator charge deduction threshold and the user permission sample set includes the user permission sample corresponding to the user permission information of the current charging user, a user permission sample removal instruction corresponding to the user permission information of the current charging user is generated and issued to the control circuit 12 corresponding to the user permission information of the current charging user, so that when the user permission sample set of the control circuit 12 includes the user permission sample corresponding to the current charging user, the user permission sample corresponding to the current charging user can be removed from the user permission sample set in time, which can prevent the current charging user from obtaining an incorrect verification result when taking an elevator next time, improve accuracy of elevator taking verification, and improve user feeling.
As an eleventh optional implementation manner of this embodiment, the shared elevator cloud charging system 10 further includes an operator terminal 4;
the operator terminal 4 is configured to:
generating a strategy according to preset user authority information, and generating user authority information of a user to be issued a card;
writing the user authority information of the card user to be issued into an information storage device;
generating a payment account association request according to the user permission information of the card-to-be-issued user and the payment account needing to be associated, and sending the payment account association request to the cloud server 2;
the cloud server 2 is further configured to:
receiving a payment account association request sent by the operator terminal 4;
and associating the user permission information of the card-issuing user with the payment account needing to be associated according to the payment account association request.
Note that the information storage device may be an IC card, an NFC card, or the like.
The user right information generation policy may be set according to actual needs, for example, the user right information is generated randomly, or the user right information is generated according to a mobile phone number of a user, and the like, which is not limited herein.
In this embodiment, when issuing a card, the operator terminal 4 generates a policy according to preset user permission information, allocates user permission information to a user, encrypts and writes the user permission information into an information storage device, inputs a payment account corresponding to the information storage device, generates a payment account association request according to the user permission information of the user to be issued the card and a payment account to be associated, and sends the payment account association request to the cloud server 2, so that the cloud server 2 associates and stores the user permission information of the user to be issued the card and the payment account.
In a specific embodiment, an operation manager accesses an operation website deployed on the cloud server 2 through a network on an operator terminal 4 such as a computer, the operator terminal 4 runs a login program and requests to input an account and a login password, after the operation manager inputs the account and the login password, the communication program sends the account and the password to the cloud server 2 to request for verification, and the cloud server 2 queries in a database and informs the query result to the operator terminal 4. Only if the account number and the password are completely matched, the operator terminal 4 prompts that login succeeds to enter the management interface. After entering the management interface, the manager can complete various operations:
firstly, setting a collection account number and configuring a charge rate
The manager, through the payment charge correlation module of the operator terminal 4: the operator collection account can be configured so that the received money can be directly paid to the operator account; meanwhile, various fee packages (rates) are also configured, such as the amount of money to be charged, the number of times to be used and the like. The corresponding settings will be saved in the database.
Second, adding owner information
The administrator can use the user management module to add account information to each user, wherein the information includes important information such as user properties (owner/family), family account numbers (room numbers), mobile phone numbers and the like, and information such as floors corresponding to the rooms. After the information is added. The corresponding settings will be saved in the database.
Third, parameter download
The administrator may use the device module: downloading various parameters such as encryption and decryption keys and the like to the equipment, wherein the encryption and decryption keys are transmitted in an encrypted manner and can be decrypted in the equipment, and the encryption and decryption keys comprise a read-write card key, a two-dimensional code key, a Bluetooth key, a NfC key and the like and are used for ensuring the safety of information in each step. Meanwhile, the device module may also read out the user data registered and saved previously from the previous database, and download the user data to the device through the device communication service program of the cloud server 2.
As a twelfth optional implementation manner of this embodiment, the shared elevator cloud charging system further includes at least one user terminal 3;
the user terminal 3 is used for performing recharging and fee deduction processing according to the user permission information and the recharging amount information of the current recharging user input by the user, generating recharging bill information of the current recharging user, and sending the recharging bill information of the current recharging user to the cloud server 2;
the cloud server 2 is further configured to:
receiving recharging bill information of the current recharging user;
and updating the balance in the payment account of the current recharging user according to the recharging amount information of the current recharging user.
For example, in this embodiment, the specific process of user recharging may be: a user logs in an APP on a user terminal 3; the user clicks and operates the recharging program, a plurality of previously set packages with recharging amount corresponding to the number of times of use are displayed on the user terminal 3 for selection, and the user selects the packages to be purchased and clicks for payment; the APP carries out payment according to a previously configured payment mode, for example, weChat payment, corresponding amount is deducted from a WeChat account bound by a user, and corresponding recharging bill information is generated after deduction is successful, wherein the recharging bill information can be the user mobile phone number containing payment, the amount of payment, the payment mode, the payment time, a selected package and the like, and the operator terminal 4 can configure the payment mode of the user through WeChat, paibao, a bank account and the like, and the payment cost is directly transferred to the account of the operator; after receiving the recharging bill information, the cloud server calls a WeChat unified ordering interface, and the amount related to payment is directly transferred to a payment account of the user; after the payment is completed, the cloud server updates the balance in the payment account of the user according to the number of charged times, and as the payment account is a bound house, namely a family account, all people under the house can share the number of passes under the account.
In this embodiment, the user can finish recharging the family account through the user terminal 3 without going to a specified recharging place, and thus the elevator taking convenience and the user experience can be effectively improved.
It should be noted that the optional embodiments in this embodiment may be arbitrarily combined to obtain a more preferred embodiment.
In summary, the shared elevator cloud charging system 10 provided by the embodiment of the present invention has the following advantages: the payment account can be shared by families, the application terminals such as the mobile phone APP, the small program, the CPU card and the intelligent wearable terminal are associated with the same payment account, one person pays the fee, the fee is deducted synchronously, and the payment account is used by the whole family conveniently; the payment account can be recharged through the user terminal, namely the payment is ready for use, and the information is public and transparent; the visitor is supported to use, the owner sends the invitation two-dimensional code to the visitor in a mode of WeChat, QQ or short message and the like, and the visitor takes the elevator by using the two-dimensional code, so that the problem of mutual visit can be solved while the visitor can control the foreign personnel; the control of outbound call is carried out to prevent outbound call holes; the equipment can be used in a networking and offline mode, when the equipment is offline, the system is firstly used in a pre-deducting mode locally, and after networking, the records are uploaded and then the cost is deducted actually, so that the reliable operation of the system is guaranteed; when the number of the actual elevator taking people is inconsistent with the number of the fee deduction people, voice broadcasting reminding is carried out; when the articles such as the electric vehicle and the like which are harmful to safety enter the elevator, an alarm is given or the elevator is stopped; the system can analyze big data for abnormal behaviors of high-risk groups such as the old at home and the like, automatically sends out early warning and alarm, and meets the special requirements of old care and elevator sleepiness alarm. Certainly, the shared elevator cloud charging system 10 provided in the embodiment of the present invention has other advantages, and reference may be made to the description in the foregoing embodiment, which is not described herein again.
Fig. 4 is a schematic flow chart of an elevator riding control method according to an embodiment of the present invention.
The elevator riding control method according to the present embodiment may be applied to the elevator riding control device for being mounted on an elevator according to any of the above embodiments, and includes:
s1, obtaining elevator taking task information of an elevator taking user; the elevator taking task information comprises elevator taking floor information and user permission information;
and S2, after the elevator taking user passes the elevator taking authority verification, executing an elevator taking task.
Specifically, referring to fig. 5, the process of performing the boarding task includes:
s21, triggering operation is carried out on the related elevator key according to the elevator taking floor information so that the related elevator key is in an effective state;
s22, generating an elevator use record of the elevator taking user according to the elevator taking task information;
s23, uploading the elevator use record of the elevator taking user to a cloud server; the elevator use record is used for triggering the cloud server to carry out fee deduction processing on a payment account of the elevator user according to a preset elevator taking fee deduction strategy.
The specific steps and advantageous effects of the elevator taking control method in this embodiment may refer to the corresponding processes and advantageous effects in the aforementioned elevator taking control device embodiment for being additionally installed on an elevator and the shared elevator cloud charging system device embodiment, and are not described herein again.
It should be noted that the above-described device embodiments are merely illustrative, where the units described as separate parts may or may not be physically separate, and the parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on multiple network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. In addition, in the drawings of the embodiment of the apparatus provided by the present invention, the connection relationship between the modules indicates that there is a communication connection between them, and may be specifically implemented as one or more communication buses or signal lines. One of ordinary skill in the art can understand and implement it without inventive effort.
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 (35)

1. An elevator riding control device to be added to an elevator, comprising: the elevator control system comprises a control circuit, an information processor and a key controller associated with an elevator key;
the information processor is used for acquiring elevator taking task information of elevator taking users and sending the information to the control circuit; the elevator taking task information comprises elevator taking floor information;
the control circuit is used for executing the elevator taking task after the elevator taking user passes the elevator taking authority verification: generating a corresponding key control instruction according to the elevator taking floor information, sending the key control instruction to a key controller corresponding to the elevator taking floor information, and sending an elevator use record of the elevator taking user corresponding to the elevator taking task information to the information processor;
the key controller is used for being connected between the associated elevator key and a main control device of the elevator, and is also used for triggering the associated elevator key according to the key control instruction so as to enable the associated elevator key to be in an effective state;
the information processor is also used for uploading the elevator use record of the elevator taking user to a cloud server; the elevator usage record of the elevator taking user is used for triggering the cloud server to carry out fee deduction processing on a payment account of the elevator taking user according to a preset elevator taking fee deduction strategy;
the time when the information processor acquires elevator taking task information for executing the elevator taking task at this time is T1, the time when the control circuit receives the elevator taking task information is T2, the time when the control circuit sends a key control instruction corresponding to the elevator taking task information is T3, the time when the key controller responds to the key control instruction is T4, and the time interval between T1 and T2 is delta T 1 T2 and T3 are separated by Δ T 2 T3 and T4 are separated by Δ T 3 The time interval between the door opening time of the elevator at the current floor and the door closing time of the elevator at the current floor is delta t 4 (ii) a Then, Δ t 1 、Δt 2 、Δt 3 And Δ t 4 The following conditions are met, so that the key control instruction corresponding to the elevator taking task information can be sent out in time:
Δt 2 ≤0.4787*Δt 1 2 -1.437*Δt 1 + a, a is constant, a is more than or equal to 1.930 and less than 1.935;
Δt 1 +Δt 2 +Δt 3 <Δt 4
delta t is less than or equal to 3 seconds 4
Δt 1 Less than 1 second;
Δ t of 0.01 second or less 3 Less than or equal to 1 second.
2. The elevator riding control device added to the elevator as claimed in claim 1, wherein the elevator riding task information of the elevator riding user is issued to the information processor by a cloud server after the user authority information of the elevator riding user is verified; or,
the elevator taking task information also comprises user authority information, and the elevator taking authority verification of the elevator taking user is executed by the control circuit according to the user authority information.
3. The elevator taking control device according to claim 2, wherein the control circuit transmits a key control command to the corresponding key controller according to the ID of the key controller corresponding to the elevator taking floor information; the data size of the elevator taking task information is n bytes, the data length described by the field of the user authority information is a bytes, and the data length described by the field of the elevator taking floor information is m bytes, so that the three information satisfy the following relations:
a+m≤n<a 3 +2m;1<a≤100,
Figure FDA0003859707770000021
the algorithm time complexity of the control circuit for processing the elevator taking task information is constant order O (1), logarithmic order O (logN), linear order O (n), linear logarithmic order O (nlogN) or square order O (n 2);
the working frequency of the control circuit is sMHz, and s is more than 0.5 and less than 1500.
4. The elevator taking control device added on the elevator as claimed in claim 1, wherein the key controller comprises a car key relay for controlling the on-off of the corresponding key loop in the elevator car and an outbound key relay for controlling the on-off of the outbound key loop of the corresponding floor of the elevator; the control circuit comprises a floor control controller and an outbound controller associated with a floor; the car key relay is connected with the floor control controller, and the outbound key relay is connected with the outbound controller of the corresponding floor; the information processor comprises an outbound information processor associated with a floor; the outbound information processor is connected with the outbound controller of the corresponding floor;
the outbound information processor is used for acquiring the elevator taking task information of the elevator taking user and sending the information to the outbound controller connected with the outbound information processor;
the outbound controller is used for judging an elevator taking direction according to the starting floor information and the target floor information of the elevator taking task after the elevator taking user passes the elevator taking permission verification, and controlling a corresponding outbound key relay to be closed for a first preset time according to the judged elevator taking direction and the starting floor information; after the elevator taking user passes the elevator taking authority verification, the target floor information is sent to the floor control controller; the departure floor information is determined according to the floor related to the outbound controller, and the target floor information is contained in the elevator taking task information;
the floor control controller is used for generating a key control instruction according to the target floor information when the target floor information sent by the outbound controller is received, and sending the key control instruction to a corresponding car key relay to close the car key relay for a second preset time so that the key corresponding to the target floor information is in an effective state within the second preset time;
the outbound controller is also used for generating an elevator use record of the elevator taking user according to the elevator taking task information and sending the elevator use record of the elevator taking user to the outbound information processor;
the outbound information processor is also used for sending the elevator use record of the elevator taking user to the cloud server.
5. The elevator riding control device for an added elevator according to claim 1, further comprising an elevator state detector for detecting an elevator riding operation state of the elevator and an outbound key lamp state detector for detecting an outbound key lamp state of the elevator;
the key controller comprises a car key relay for controlling the on-off of a corresponding elevator key loop in the elevator car and an outbound key relay for controlling the on-off of an outbound key loop of a floor corresponding to the elevator; the control circuit comprises a floor control controller and an outbound controller associated with a floor; the car key relay and the elevator state detector are respectively connected with the floor control controller, and the outbound key relay is connected with the outbound controller of the corresponding floor; the information processors include outbound information processors associated with elevator floors; the outbound information processor is connected with the outbound controller of the corresponding floor;
the outbound information processor is used for acquiring the elevator taking task information of the elevator taking users and sending the information to the connected outbound controller;
the outbound controller is used for judging the elevator taking direction according to the departure floor information and the target floor information of the elevator taking task after the elevator taking user passes the elevator taking authority verification, and controlling the corresponding outbound key relay to be closed for a first preset time according to the judged elevator taking direction and the departure floor information; after the elevator taking user passes the elevator taking authority verification, the departure floor information and the target floor information are sent to the floor control controller; the departure floor information is determined according to the floor related to the outbound controller, and the target floor information is contained in the elevator taking task information;
the floor control controller is used for judging whether an elevator car meets the conditions that the current stopping floor is consistent with the starting floor information and the running direction is consistent with the target floor information or not according to the obtained elevator riding running state and the obtained outbound key lamp state of the elevator in real time, and controlling a car key relay corresponding to the target floor information in the elevator car meeting the conditions to be closed for a third preset time when the conditions are judged to be yes;
the outbound controller is also used for generating an elevator use record of the elevator taking user according to the elevator taking task information and sending the elevator use record of the elevator taking user to the outbound information processor;
the outbound information processor is also used for sending the elevator use record of the elevator taking user to the cloud server.
6. The elevator riding control device added on an elevator according to claim 4 or 5, wherein the outbound information processor comprises an outbound network communication module, an outbound reading head module and an outbound processing module connected with the outbound reading head module;
the outbound reading head module is used for reading the elevator taking identification code of the elevator taking user and sending the elevator taking identification code to the outbound processing module;
the outbound processing module is used for analyzing the elevator taking identification code of the elevator taking user into elevator taking task information of the elevator taking user and sending the information to the corresponding outbound controller;
the outbound network communication module is also used for sending the elevator use record of the elevator taking user to the cloud server.
7. The elevator riding control device added to the elevator according to claim 4 or 5, wherein the outbound information processor comprises an outbound network communication module;
the outbound network communication module is used for receiving the elevator taking task information of the elevator taking user sent by the cloud server and sending the elevator taking task information to the corresponding outbound controller;
the outbound network communication module is also used for sending the elevator use record of the elevator taking user to the cloud server.
8. The elevator riding control device added on the elevator as claimed in claim 1, wherein the button controller comprises a car button relay for controlling on and off of a corresponding elevator button loop in the elevator car; the control circuit comprises a layer control controller; the information processor comprises a layer control information processor; the car key relay and the floor control information processor are both connected with the floor control controller;
the floor control information processor is used for acquiring the elevator taking task information of the elevator taking user and sending the information to the floor control controller;
the floor control controller is used for receiving the elevator taking task information of the elevator taking users sent by the floor control information processor, and controlling the corresponding car key relay to be closed for a fourth preset time according to the destination floor information contained in the elevator taking task information after the elevator taking users pass the elevator taking authority verification;
the floor control controller is also used for generating an elevator use record of the elevator taking user according to the elevator taking task information and sending the elevator use record of the elevator taking user to the floor control information processor;
the floor control information processor is further used for sending the elevator use records of the elevator taking users to the cloud server.
9. The elevator riding control device for adding to the elevator as set forth in claim 8, wherein the floor control information processor includes an in-car network communication module, an in-car read head module, and an in-car processing module connected to the in-car read head module;
the reading head module in the elevator car is used for reading the elevator taking identification codes of the elevator taking users and sending the elevator taking identification codes to the processing module in the elevator car;
the elevator car in-process module is used for analyzing the elevator taking identification codes of the elevator taking users into elevator taking task information of the elevator taking users and sending the information to the floor control controller;
and the in-car network communication module is also used for sending the elevator use record of the elevator taking user to the cloud server.
10. The elevator riding control device for installing on an elevator as claimed in claim 8, wherein the floor control information processor comprises an in-car network communication module;
the in-car network communication module is used for receiving elevator taking task information of the elevator taking user sent by the cloud server and sending the elevator taking task information to the layer control controller;
the in-car network communication module is further used for sending the elevator use records of the elevator taking users to the cloud server.
11. The elevator riding control device for an elevator as claimed in claim 1, further comprising an elevator riding prompt module; the elevator taking prompt module is connected with the control circuit;
the control circuit is also used for generating corresponding elevator taking prompt information according to the current elevator taking result and sending the elevator taking prompt information to the elevator taking prompt module;
the elevator taking prompt module is used for carrying out elevator taking prompt operation on elevator taking users according to the elevator taking prompt information.
12. The elevator riding control device for an elevator as claimed in claim 1, further comprising an elevator state detector for detecting an elevator running state and a camera for taking an image of an inside of a car of the elevator; the camera device and the elevator state detector are both connected with the control circuit;
the control circuit is also used for controlling the camera device to shoot images in the elevator car when each elevator taking task is executed; detecting the number of elevator users in the images in the elevator car; comparing the detected number of people with the number of the current uncompleted elevator taking task information; if the comparison result is consistent, executing the current elevator taking task; if the comparison result is inconsistent, controlling a key controller associated with the elevator door opening key of the current floor to execute the following operations: and triggering the elevator door opening key to enable the elevator door opening key to be in an effective state.
13. The elevator riding control device for an elevator added according to claim 1, further comprising a camera for taking an image of the inside of the elevator car; the camera device is connected with the control circuit;
the control circuit is further configured to: controlling the camera device to shoot images in the elevator car when each elevator taking task is executed; judging whether an abnormal condition exists in the elevator car according to the image in the elevator car, wherein the abnormal condition comprises that a preset abnormal target exists in the elevator car; if yes, executing alarm operation.
14. The elevator riding control device added to the elevator as claimed in claim 1, wherein the information processor is further configured to detect whether the communication connection with the cloud server is normal before uploading the elevator usage record of the elevator riding user to the cloud server; if the current elevator taking user is normal, uploading the elevator use record of the current elevator taking user to the cloud server; if the abnormal situation exists, temporarily storing the elevator use record of the elevator taking user in the local place, continuously detecting the communication connection condition between the elevator taking user and the cloud server, and uploading the temporarily stored elevator use record to the cloud server until the normal communication connection condition between the elevator taking user and the cloud server is detected.
15. The elevator taking control device added to the elevator as claimed in claim 1, wherein the control circuit is further configured to control all the key controllers to perform the triggering operation on the associated elevator key to enable the associated elevator key to be in the valid state when it is determined that the preset elevator taking control abnormal condition is currently met.
16. A shared elevator cloud charging system, characterized by comprising a cloud server and at least one elevator riding control device for adding on an elevator according to any one of claims 1-15;
and the cloud server is used for carrying out fee deduction processing on a payment account corresponding to the elevator taking user according to a preset elevator taking fee deduction strategy and the received elevator use record of the elevator taking user sent by the elevator taking control device.
17. The shared elevator cloud charging system of claim 16, wherein the shared elevator cloud charging system further comprises at least one user terminal;
the user terminal is used for generating elevator taking task information of the elevator taking user according to the obtained elevator taking floor information of the elevator taking user, and sending the elevator taking task information of the elevator taking user and the obtained user permission information of the elevator taking user to the cloud server;
the cloud server is further used for carrying out elevator taking authority verification on the elevator taking users according to the user authority information of the elevator taking users, and sending elevator taking task information of the elevator taking users to the corresponding elevator taking control devices after the elevator taking authority verification is passed.
18. The shared elevator cloud charging system of claim 16, wherein the shared elevator cloud charging system further comprises at least one user terminal;
the user terminal is used for providing the elevator taking identification code of the elevator taking user; the elevator taking identification code comprises elevator taking floor information and user permission information;
the information processor is specifically configured to:
reading an elevator taking identification code of an elevator taking user;
analyzing the elevator taking identification code of the elevator taking user into elevator taking task information of the elevator taking user and sending the information to the control circuit;
the elevator taking task information also comprises user authority information, and the elevator taking authority verification of the elevator taking user is executed by the control circuit according to the user authority information.
19. The shared elevator cloud charging system of claim 18, wherein the control circuitry is specifically configured to verify the user permission information of the elevator user according to a preset sample set of user permissions; when the control circuit detects that the user authority sample set does not contain a user authority sample corresponding to the user authority information of the elevator taking user, judging that the elevator taking user passes elevator taking authority verification;
the cloud server is further configured to, after performing fee deduction processing on the payment account of the elevator user:
judging whether the balance in the payment account of the elevator taking user is less than a preset minimum elevator taking fee deduction threshold value or not, and judging whether the user authority sample set does not contain a user authority sample corresponding to the user authority information of the elevator taking user or not;
if yes, generating a user authority sample adding instruction corresponding to the user authority information of the elevator taking user, and issuing the user authority sample adding instruction corresponding to the user authority information of the elevator taking user to a control circuit corresponding to the user authority information of the elevator taking user;
if not, generating a user permission sample removing instruction corresponding to the user permission information of the elevator taking user, and issuing the user permission sample removing instruction corresponding to the user permission information of the elevator taking user to a control circuit corresponding to the user permission information of the elevator taking user;
the control circuit is further configured to add a user permission sample corresponding to the user permission information of the elevator taking user to the user permission sample set according to the user permission sample adding instruction corresponding to the user permission information of the elevator taking user;
the control circuit is further configured to remove the user permission samples corresponding to the user permission information of the elevator taking users from the user permission sample set according to the user permission sample removal instruction corresponding to the user permission information of the elevator taking users.
20. The shared elevator cloud charging system of claim 19, wherein the boarding control device further comprises a boarding prompt module;
the control circuit is also used for judging whether the elevator taking user is a balance early warning user or not according to the user authority information of the elevator taking user and a preset balance early warning user authority sample set; if yes, generating corresponding balance early warning information, and sending the balance early warning information to the elevator taking prompt module;
and the elevator taking prompt module is used for sending out a balance early warning prompt according to the balance early warning information.
21. The shared elevator cloud charging system of claim 20, wherein the cloud server, after processing a debit against the payment account of the boarding user, is further configured to:
judging whether the balance in the payment account of the elevator taking user is less than a preset balance early warning threshold value or not, and judging whether the balance early warning user authority sample set does not contain a balance early warning user authority sample corresponding to the user authority information of the elevator taking user or not;
if yes, generating a balance early warning user authority sample adding instruction corresponding to the user authority information of the elevator taking user, and issuing the balance early warning user authority sample adding instruction to a control circuit corresponding to the user authority information of the elevator taking user;
if not, generating a balance early warning user authority sample removing instruction corresponding to the user authority information of the elevator taking user, and issuing the balance early warning user authority sample removing instruction to a control circuit corresponding to the user authority information of the elevator taking user;
the control circuit is also used for adding a balance early warning user permission sample corresponding to the user permission information of the elevator taking user into a preset balance early warning user permission sample set according to the balance early warning user permission sample adding instruction corresponding to the user permission information of the elevator taking user;
the control circuit is further configured to remove the balance early warning user permission samples corresponding to the user permission information of the elevator taking user from the balance early warning user permission sample set according to the balance early warning user permission sample removal instruction corresponding to the user permission information of the elevator taking user.
22. The shared elevator cloud charging system of claim 18, wherein the user terminal is further configured to send user authority information of the elevator taking user and elevator taking floor information input by the elevator taking user to the cloud server when detecting that the communication state with the cloud server is an online state;
the cloud server is also used for generating elevator taking task information of the elevator taking users according to the user authority information and the elevator taking floor information of the elevator taking users and returning the elevator taking task information to the user terminal;
the user terminal is also used for generating an elevator taking identification code of the elevator taking user according to the elevator taking task information of the elevator taking user;
the user terminal is further used for judging whether the local elevator taking task information corresponding to the user permission information and the elevator taking floor information of the elevator taking user is stored or not when the communication state between the user terminal and the cloud server is detected to be an offline state, if yes, the elevator taking identification code of the elevator taking user is generated according to the elevator taking task information, and if not, the process is ended.
23. The shared elevator cloud charging system of claim 18, wherein the user terminal is further configured to send the obtained visitor elevator-taking identification code request message to the cloud server; the visitor elevator taking information comprises user permission information of an addressee and an ID of a target room to be visited by the visitor;
the cloud server is further configured to:
receiving visitor elevator taking identification code request information;
determining elevator taking floor information of the visitor and an ID of an elevator to be taken according to the corresponding relation between a preset room ID and the ID of a target visiting floor and the ID of the elevator to be taken and the visitor elevator taking identification code request information;
generating a calling identification code of the visitor according to the information required by the visitor for calling the elevator, and sending the calling identification code of the visitor to the user terminal; the visitor elevator taking required information comprises the visitor's user permission information, the visitor's elevator taking floor information and the ID of the elevator taken, the visitor's elevator taking identification code information contains the visitor's elevator taking task information, the visitor's elevator taking task information comprises the user permission information used for indicating the visitor's elevator taking floor information and the visitor's user permission information, and the visitor's user permission information comprises the visitor's user permission information and the visitor's ID of the elevator taken.
24. The shared elevator cloud charging system of claim 23, wherein the cloud server, prior to generating the elevator boarding identification code of the visitor based on the information required for the visitor to board, is further configured to:
and when the balance in the payment account of the interviewee is judged to be less than the preset minimum fare deduction threshold value, returning the prompting recharging information to the user terminal, so that the user terminal displays the prompting recharging information and finishes the current process.
25. The shared elevator cloud charging system of claim 23, wherein the visitor elevator-taking identification code request message and the visitor elevator-taking required message further comprise identity information of the visitor; then, the user authority information of the visitor also comprises the identity information of the visitor;
the information processor is further used for sending the user permission information of the elevator taking user to the cloud server and the control circuit when the elevator taking user is judged to belong to the visitor;
the cloud server is further used for judging whether the elevator taking user meets a preset elevator taking condition of the visitor according to the user permission information of the elevator taking user when the elevator taking user is judged to belong to the visitor, if yes, generating a verification passing instruction corresponding to the elevator taking user, sending the verification passing instruction to the information processor, and reducing the allowed passing times corresponding to the identity information of the elevator taking user by one;
the information processor is further used for sending the received verification passing instruction to the control circuit;
the control circuit is also used for generating a corresponding key control instruction according to the elevator taking floor information of the elevator taking user when the verification passing instruction is received, and sending the key control instruction to the key controller corresponding to the elevator taking floor information of the elevator taking user;
wherein the visitor elevator taking condition at least comprises: the balance in the payment account of the visited person is not less than a preset minimum elevator taking fee deduction threshold value, and the allowed passing times corresponding to the identity information of the elevator taking user are greater than 0.
26. The shared elevator cloud charging system of claim 25, wherein the cloud server, prior to generating the elevator boarding identification code of the visitor based on the information required for the visitor to board, is further configured to:
when the balance in the payment account of the interviewee is judged to be not less than the preset minimum fare deduction threshold value, returning the balance in the payment account of the interviewee to the user terminal, enabling the user terminal to display the balance and providing a control for inputting the information of the allowed passing times;
in response to receiving the information of the allowed pass times sent by the user terminal, recording the corresponding relation between the information of the allowed pass times and the identity information of the visitor.
27. The shared elevator cloud charging system of claim 16, wherein the shared elevator cloud charging system further comprises at least one operator terminal;
the operator terminal is used for generating emergency elevator taking request information according to the elevator taking floor information of the emergency passer and the ID of the elevator taken by the operator terminal, and sending the emergency elevator taking request information to the cloud server;
the cloud server is further configured to generate elevator taking task information of the emergency passer according to the elevator taking floor information of the emergency passer in response to the emergency elevator taking request information, and send the elevator taking task information of the emergency passer to the elevator taking control device corresponding to the ID of the elevator taken by the emergency passer.
28. The shared elevator cloud charging system of claim 18, wherein the shared elevator cloud charging system further comprises at least one operator terminal;
the operator terminal is used for generating elevator taking identification code request information of an emergency passer according to elevator taking floor information of the emergency passer and an ID (identity) of an elevator to be taken, which are input by an operation user, and sending the elevator taking identification code request information of the emergency passer to the cloud server;
the cloud server is further configured to:
receiving elevator taking identification code request information of the emergency passer;
generating an elevator taking identification code of the emergency passer according to the elevator taking identification code request information of the emergency passer, and sending the elevator taking identification code of the emergency passer to the operator terminal; the elevator taking identification code of the emergency passer contains elevator taking task information of the emergency passer.
29. The shared elevator cloud charging system of claim 16, wherein the cloud server is further for storing the received elevator usage record for each user;
the shared elevator cloud charging system further comprises at least one user terminal;
the user terminal is used for generating travel monitoring request information according to identity information of a plurality of concerned users input by the users and sending the travel monitoring request information to the cloud server;
the cloud server is further configured to:
receiving the trip monitoring request information;
marking a plurality of concerned users according to the travel monitoring request information;
regularly judging whether the time from each marked user to the last elevator taking exceeds a preset time threshold according to the elevator use record of each marked user to obtain an early warning judgment result of each marked user;
acquiring the emergency contact information of all marked users with the early warning judgment result being yes;
and sending early warning information to all the emergency contacts of the marked users according to the emergency contact information, wherein the early warning judgment result is yes.
30. The shared elevator cloud charging system of claim 17, wherein the user terminal is further configured to generate user registration request information of the current registered user according to user permission information and a login password of the current registered user input by a user, and send the user registration request information of the current registered user to the cloud server;
the cloud server is further configured to:
receiving user registration request information of the current registered user;
judging whether the user authority information of the current registered user belongs to a preset registrable user authority information set or not; if so, registering the elevator taking account of the current registered user according to the login password and the user permission information of the current registered user, and associating the user permission information of the current registered user with a preset payment account corresponding to the user permission information of the current registered user; if not, pushing the warning information which is not allowed to be registered to the user terminal.
31. The shared elevator cloud charging system of claim 30, wherein the user terminal is further configured to generate family member invitation information according to the user permission information of the user who has logged in the user terminal and initiated the invitation and the user permission information of the user to be invited, and send the family member invitation information to the cloud server;
the cloud server is further configured to:
receiving the family member invitation information;
and adding the user permission information of the user to be invited to the registrable user permission information set according to the family member invitation information, and setting the payment account of the user to be invited to be consistent with the payment account of the user initiating the invitation.
32. The shared elevator cloud charging system of claim 16, wherein the shared elevator cloud charging system further comprises at least one user terminal;
the user terminal is used for performing recharging fee deduction processing according to user permission information and recharging amount information of a current recharging user input by the user, generating recharging bill information of the current recharging user, and sending the recharging bill information of the current recharging user to the cloud server;
the cloud server is further configured to:
receiving recharging bill information of the current recharging user;
and updating the balance in the payment account of the current recharging user according to the recharging amount information of the current recharging user.
33. The shared elevator cloud charging system of claim 19, wherein the cloud server is further configured to:
receiving recharging bill information of a current recharging user;
updating the balance in the payment account of the current recharging user according to the recharging amount information of the current recharging user;
judging whether the balance in the payment account of the current recharging user is larger than the minimum taking elevator fee deduction threshold value or not, and judging whether the user authority sample set contains a user authority sample corresponding to the user authority information of the current recharging user or not;
if yes, generating a user permission sample removing instruction corresponding to the user permission information of the current recharging user, and issuing the user permission sample removing instruction corresponding to the user permission information of the current recharging user to a control circuit corresponding to the user permission information of the current recharging user;
the control circuit is also used for removing the user authority samples corresponding to the user authority information of the current recharging user from the user authority sample set according to the user authority sample removing instruction corresponding to the user authority information of the current recharging user.
34. The shared elevator cloud charging system of claim 16, wherein the shared elevator cloud charging system comprises at least one operator terminal;
the operator terminal is configured to:
generating a strategy according to a preset user ID, and generating the user ID of a user to be issued a card;
writing the user ID of the card user to be issued into an information storage device;
generating a payment account association request according to the user ID of the card-issuing user and the payment account needing to be associated, and sending the payment account association request to the cloud server;
the cloud server is further configured to:
receiving the payment account association request;
and associating the user ID of the card-to-be-issued user with the payment account needing to be associated according to the payment account association request.
35. An elevator riding control method applied to the elevator riding control apparatus according to any one of claims 1 to 15, comprising:
acquiring elevator taking task information of an elevator taking user; the elevator taking task information comprises elevator taking floor information;
after the elevator taking user passes the elevator taking authority verification, executing an elevator taking task:
triggering operation is carried out on the associated elevator keys according to the elevator taking floor information so as to enable the associated elevator keys to be in an effective state;
uploading elevator use records of the elevator taking users corresponding to the elevator taking task information to a cloud server; the elevator use record is used for triggering the cloud server to carry out fee deduction processing on a payment account of the elevator user according to a preset elevator taking fee deduction strategy.
CN202110184524.0A 2021-02-08 2021-02-08 Elevator taking control device additionally arranged on elevator and shared elevator cloud charging system Active CN112960494B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202110184524.0A CN112960494B (en) 2021-02-08 2021-02-08 Elevator taking control device additionally arranged on elevator and shared elevator cloud charging system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202110184524.0A CN112960494B (en) 2021-02-08 2021-02-08 Elevator taking control device additionally arranged on elevator and shared elevator cloud charging system

Publications (2)

Publication Number Publication Date
CN112960494A CN112960494A (en) 2021-06-15
CN112960494B true CN112960494B (en) 2023-02-10

Family

ID=76284857

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202110184524.0A Active CN112960494B (en) 2021-02-08 2021-02-08 Elevator taking control device additionally arranged on elevator and shared elevator cloud charging system

Country Status (1)

Country Link
CN (1) CN112960494B (en)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112365699B (en) * 2020-09-24 2022-10-14 青岛鼎信通讯股份有限公司 Meter reading method for solving uplink communication timeout of water-gas-heat meter converter
CN115159283B (en) * 2022-07-14 2024-02-06 大连奥远电子股份有限公司 Building vertical elevator and other ladder information management system

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1569595A (en) * 2004-04-21 2005-01-26 深圳市旺龙智能科技有限公司 Intelligent connection control device and method for elevator floor key set
WO2017090187A1 (en) * 2015-11-27 2017-06-01 三菱電機株式会社 Elevator system, communication terminal, and control device
EP3392191A1 (en) * 2017-04-21 2018-10-24 Inventio AG Elevator control system
CN111178716A (en) * 2019-12-19 2020-05-19 广东工业大学 Auction type automatic driving taxi empty dispatching method
CN111422709A (en) * 2020-02-13 2020-07-17 深圳市旺龙智能科技有限公司 Method, system, control device and storage medium for taking public elevator without contact

Family Cites Families (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2002356279A (en) * 2001-05-30 2002-12-10 Toshiba Elevator Co Ltd Charge sharing method, its system, program and record medium thereof
CN102831177B (en) * 2012-07-31 2015-09-02 聚熵信息技术(上海)有限公司 Statement error correction and system thereof
CN108364174A (en) * 2018-02-26 2018-08-03 深圳市旺龙智能科技有限公司 A kind of elevator charging method and system
CN108975102B (en) * 2018-07-26 2020-09-08 湖南人文科技学院 Elevator control method and system
CN109255603A (en) * 2018-11-21 2019-01-22 日立楼宇技术(广州)有限公司 A kind of elevator charging method, device, equipment and storage medium
CN110589639A (en) * 2019-09-30 2019-12-20 深圳市旺龙智能科技有限公司 Elevator system and method for reserving outside car, automatically registering inside car and dispatching and allocating personnel to take elevator

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1569595A (en) * 2004-04-21 2005-01-26 深圳市旺龙智能科技有限公司 Intelligent connection control device and method for elevator floor key set
WO2017090187A1 (en) * 2015-11-27 2017-06-01 三菱電機株式会社 Elevator system, communication terminal, and control device
EP3392191A1 (en) * 2017-04-21 2018-10-24 Inventio AG Elevator control system
CN111178716A (en) * 2019-12-19 2020-05-19 广东工业大学 Auction type automatic driving taxi empty dispatching method
CN111422709A (en) * 2020-02-13 2020-07-17 深圳市旺龙智能科技有限公司 Method, system, control device and storage medium for taking public elevator without contact

Also Published As

Publication number Publication date
CN112960494A (en) 2021-06-15

Similar Documents

Publication Publication Date Title
CN104809764B (en) A kind of managing system of car parking that identification is carried out based on mobile phone Mobile solution
CN112960494B (en) Elevator taking control device additionally arranged on elevator and shared elevator cloud charging system
CN107886582B (en) Unmanned cloud parking license-free vehicle management device and control method
CN103856500B (en) A kind of vehicle based on NFC technique uses system and method
CN110473323A (en) A kind of wisdom cell management method and system
CN112712600B (en) Parking lot mobile duty system and method based on mobile Internet of things
CN108492551A (en) Taxi queuing management method, system and computer readable storage medium
CN108357991A (en) A kind of elevator control method and system
CN104992364A (en) Unattended electric car rental system and rental method
CN109035847A (en) Go out admission abnormality eliminating method, medium and system based on cloud landing
US8374910B1 (en) Parking management method and automated parking system for vehicles
CN107103310A (en) The passenger behavior monitor system and method for a kind of unmanned taxi
CN110517412B (en) Cloud charging system for taking elevator
CN107393295A (en) A kind of countermeasure of unmanned cab-getter midway modification information
CN108876522A (en) Vehicle monitoring method, device and computer readable storage medium
KR20120047071A (en) Service providing system for visitors using cars
CN112330955B (en) Method and device for realizing automatic vehicle scheduling control based on Internet of things
CN108408513A (en) Elevator Quick Response Code boarding control method, device and computer readable storage medium
CN107424613A (en) The Phonetically door-opening Verification System and its method of a kind of unmanned taxi
CN109923592A (en) For access control and the method and system for perceiving management
CN107038610A (en) A kind of passenger degree of belief evaluation method of unmanned taxi
CN105354909B (en) A kind of intelligence safety check supervisory information system
CN109311622A (en) Elevator device and car call estimation method
CN107784861A (en) A kind of internet intelligent managing system of car parking based on Internet of Things
CN111784900A (en) Intelligent management system for intelligent community

Legal Events

Date Code Title Description
PB01 Publication
PB01 Publication
SE01 Entry into force of request for substantive examination
SE01 Entry into force of request for substantive examination
GR01 Patent grant
GR01 Patent grant