CN112019606A - Non-contact elevator taking method, server and elevator taking system for parallel or group control elevators - Google Patents
Non-contact elevator taking method, server and elevator taking system for parallel or group control elevators Download PDFInfo
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- CN112019606A CN112019606A CN202010815752.9A CN202010815752A CN112019606A CN 112019606 A CN112019606 A CN 112019606A CN 202010815752 A CN202010815752 A CN 202010815752A CN 112019606 A CN112019606 A CN 112019606A
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- 238000012423 maintenance Methods 0.000 claims abstract description 85
- 238000006243 chemical reaction Methods 0.000 claims abstract description 37
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- 238000004891 communication Methods 0.000 claims description 25
- 238000012360 testing method Methods 0.000 claims description 8
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- 238000013507 mapping Methods 0.000 claims description 3
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
- H04L67/12—Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/70—Services for machine-to-machine communication [M2M] or machine type communication [MTC]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/80—Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/10—Connection setup
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Abstract
The invention discloses a non-contact elevator taking method, a server and an elevator taking system for parallel or group control elevators. The non-contact elevator taking method is applied to a server and comprises the following steps: receiving an access request generated by the mobile terminal in response to the code scanning operation, and returning an elevator taking page to the mobile terminal, wherein the elevator taking page comprises a target floor information input control and an elevator maintenance starting control; when receiving input destination floor information, sending the current floor information and the destination floor information to a data conversion plate, and sending information of an allocated elevator returned by the data conversion plate to a mobile terminal; when the operation of the elevator maintenance starting control is detected, whether a mobile terminal user is registered or not is judged according to the mobile terminal user information, if so, whether the geographic position of the mobile terminal is consistent with the geographic position of the elevator or not is judged, and if so, the mobile terminal is informed to enter a maintenance working mode. By adopting the invention, the user can take the elevator automatically without touching the elevator key.
Description
Technical Field
The invention relates to elevator technology.
Background
The internet of things of the elevator goes through the development period of years, the conventional efficiency of the internet of things of the elevator draws wide attention of the elevator industry, and when emergencies such as epidemic situations occur, how to take the elevator and maintain the elevator to be safer needs the technology of the internet of things of the elevator to play a greater role.
Disclosure of Invention
The invention aims to solve the technical problem of providing a non-contact elevator taking method which can realize automatic taking in parallel or group control without contacting elevator keys and realize maintenance test on the elevator.
Another object of the present invention is to provide a server and an elevator boarding system for implementing the above-mentioned contactless elevator boarding method.
According to an aspect of the embodiments of the present invention, there is provided a contactless elevator-taking method for parallel or group-controlled elevators, applied to a server, comprising the steps of:
receiving an access request generated by the mobile terminal in response to the code scanning operation, and returning an elevator taking page to the mobile terminal, wherein the access request comprises user information of the mobile terminal and current floor information, and the elevator taking page comprises a target floor information input control and an elevator maintenance starting control;
when receiving the destination floor information input in the destination floor information input control, sending the current floor information and the destination floor information to the data conversion plate, and sending the information of the allocated elevator returned by the data conversion plate to the mobile terminal; the data conversion board is respectively in communication connection with the elevator main control boards of the multiple elevators which are connected in parallel or in group control;
when the operation of the elevator maintenance starting control is detected, judging whether a mobile terminal user is registered or not according to the mobile terminal user information, if not, returning a maintenance personnel registration page to the mobile terminal, checking the maintenance personnel registration information input into the registration page, judging whether the geographic position of the mobile terminal is consistent with the pre-stored geographic position of the elevator or not after the checking is passed, and if so, informing the mobile terminal to enter a maintenance working mode; if the mobile terminal is registered, judging whether the geographic position of the mobile terminal is consistent with the geographic position of the elevator stored in advance, and if so, informing the mobile terminal to enter a maintenance working mode; and in the maintenance working mode, maintenance personnel can carry out call test operation through the mobile terminal.
According to another aspect of the embodiments of the present invention, there is provided a server, including: a memory for storing a program; and the processor is used for loading the program to execute the contactless elevator taking method.
The embodiment of the invention also provides a non-contact elevator taking system for the parallel or group control elevators, which comprises the server, an elevator gateway, a data conversion board and an elevator main control board of the parallel or group control elevators; the server is in communication connection with the elevator gateway through a communication network, the elevator gateway is in communication connection with the data conversion board, and the data conversion board is in communication connection with the elevator main control boards of the plurality of elevators which are connected in parallel or in group control respectively; the data conversion board is used for acquiring elevator running data of a plurality of elevators connected in parallel or controlled in group in real time, allocating a corresponding elevator for the call request according to the elevator running data and the call request sent by the mobile terminal, and sending information of the allocated elevator to the mobile terminal through the server; the call request includes current floor information and destination floor information.
The invention at least comprises the following advantages:
1. in the embodiment of the invention, the mobile terminal sends the call request to the server in a wireless communication mode, the server sends the call request to the data conversion board through the elevator gateway, the data conversion board allocates an elevator for a user, the elevator main control board of the allocated elevator controls the operation of the elevator and sends the information of the allocated elevator to the mobile terminal, the user of the mobile terminal does not need to press the elevator key by hand in the whole process, the risk of spreading viruses and bacteria caused by pressing the elevator key by hand is avoided, and the elevator taking safety of the user is improved;
2. the method comprises the following steps that a user can automatically take out of a boarding page after scanning codes through programs such as WeChat and the like, the boarding page is provided with an elevator maintenance starting control, after an authorized elevator maintenance worker operates the elevator maintenance starting control, a server informs a mobile terminal to enter a maintenance working mode, and the maintenance worker can perform calling landing test operation through the mobile terminal in the maintenance working mode;
3. according to the non-contact elevator taking method provided by the embodiment of the invention, the maintenance authority of the elevator maintenance personnel is limited, and the maintenance function of the mobile terminal can be used only by the registered maintenance personnel, so that the use safety of the elevator is improved.
Drawings
Fig. 1 shows a schematic diagram of a contactless elevator ride system for parallel or group controlled elevators according to an embodiment of the present invention.
Detailed Description
The invention is described in detail below with reference to the figures and specific embodiments.
Fig. 1 shows a schematic diagram of a contactless elevator ride system for parallel or group controlled elevators according to an embodiment of the present invention. Referring to fig. 1, a contactless elevator riding system for parallel or group controlled elevators according to an embodiment of the present invention includes a server 1, an elevator gateway 2, a data conversion board 3, and an elevator main control board 4 of a plurality of elevators connected in parallel or in group control. The server 1 is in communication connection with the elevator gateway 2 through a communication network, the elevator gateway 2 is in communication connection with the data conversion board 3, and the data conversion board 3 is in communication connection with the elevator main control boards 4 of a plurality of elevators which are connected in parallel or in group control. The data conversion board 3 is used for collecting elevator operation data of a plurality of elevators connected in parallel or controlled in group in real time, allocating a corresponding elevator for a call request according to the elevator operation data and the call request sent to the server 1 by the mobile terminal 5, and sending information of the allocated elevator to the mobile terminal 5 through the server 1. The call request includes current floor information and destination floor information.
Alternatively, the server 1 is a cloud server, and the communication network may be the internet, a 4G mobile communication network, or a 5G communication network. The mobile terminal 5 is a smart phone or a tablet computer. The elevator gateway 2 is connected with the data conversion board 3 through a serial communication interface (such as RS 232) in a communication way, the data conversion board 3 is respectively connected with the elevator main control boards 4 of a plurality of elevators which are connected in parallel or controlled in a group through a bus (such as CAN bus) in a communication way, and the data conversion board 3 is used for realizing the mutual conversion between the data of the bus protocol and the data of the serial communication protocol.
In a specific embodiment, the elevator gateway 2 and the elevator main control board 4 are installed in the machine room control cabinet. The elevator gateway 2 is connected with the data conversion board 3 through an RS232 interface. The data conversion board 3 is connected to the outbound CAN interfaces of the N elevator main control boards through N CAN interfaces (N is less than or equal to 8). The elevator gateway 2 is in two-way communication with N parallel or group control elevators through the data conversion board 3, on one hand, the elevator gateway 2 collects N elevator operation data to realize a conventional elevator monitoring function, on the other hand, the elevator gateway sends a call calling request from a user side smart phone to the data conversion board 3, and the data conversion board 3 reasonably distributes the elevator which arrives fastest for elevator waiting persons according to the floor positions of the elevators.
After the system is installed, the server 1 registers the network access information. The data conversion board 3 establishes mapping relations between the N elevators and given elevator numbers and sends mapping relation information to the server 1 through the elevator gateway 2. An elevator manager (such as a property) authorizes the server 1 to generate the batch electronic two-dimensional codes (the two-dimensional codes for receiving code scanning operation can be applied to the server 1 by self according to the elevator gateway ID). After the electronic version two-dimensional code is generated, the electronic version two-dimensional code is printed by related personnel and then placed at a proper position outside a hall corresponding to the elevator. The two-dimensional code generation can be divided into the following two cases according to the field needs:
1. placing a two-dimensional code in an elevator waiting hall of each floor of a building, wherein the two-dimensional code comprises information (elevator names, elevator brands, maintenance units, elevator identity identification numbers, elevator numbers and the like of all elevators connected in parallel or in group control) of all elevators and current floor information;
2. a plurality of two-dimensional codes are arranged in a waiting hall of each floor of the building, the number of the two-dimensional codes is the same as that of a plurality of elevators connected in parallel or controlled in a group mode, the two-dimensional codes correspond to the elevators one by one respectively, and each two-dimensional code contains information (such as the name, the brand, the maintenance unit, the identity number and the serial number of the elevator) of the corresponding elevator and current floor information.
The non-contact elevator taking method for the parallel or group control elevator is applied to the server 1 and comprises the following steps:
receiving an access request generated by the mobile terminal 5 in response to the code scanning operation, and returning an elevator taking page to the mobile terminal 5, wherein the access request comprises mobile terminal user information and current floor information (the current floor is automatically taken out through a two-dimensional code), and the elevator taking page comprises a target floor information input control and an elevator maintenance starting control; the user information can be a WeChat account number of a user, an MAC address of a mobile phone and the like, the target floor information input control is an input box, and the elevator maintenance starting control is a virtual key;
when receiving the destination floor information input in the destination floor information input control, sending the current floor information and the destination floor information to the data conversion plate 3, and sending the information of the allocated elevator returned by the data conversion plate 3 to the mobile terminal 5; the data conversion board 3 is respectively in communication connection with the elevator main control boards 4 of a plurality of elevators which are connected in parallel or in group control;
when the operation of the elevator maintenance starting control is detected (for example, the virtual key is clicked), whether the mobile terminal user is registered or not is judged according to the mobile terminal user information, if the mobile terminal user is not registered, a maintenance personnel registration page is returned to the mobile terminal 5, the maintenance personnel registration information input into the registration page is checked, after the check is passed, whether the geographic position of the mobile terminal 5 is consistent with the pre-stored geographic position of the elevator or not is judged, and if the geographic position is consistent, the mobile terminal is informed to enter a maintenance working mode; if the mobile terminal user is registered, firstly judging whether the time difference between the current operation of the elevator maintenance starting control and the last operation of the elevator maintenance starting control by the mobile terminal is smaller than a preset time difference threshold value, if so, further judging whether the geographic position of the mobile terminal 5 is consistent with the pre-stored geographic position of the elevator, and if so, informing the mobile terminal 5 to enter a maintenance working mode; if the time difference is larger than or equal to the preset time difference threshold value, returning a maintenance staff login page to the mobile terminal 5, verifying the maintenance staff login information input into the login page, further judging whether the geographic position of the mobile terminal 5 is consistent with the pre-stored geographic position of the elevator when the verification is passed, and if so, informing the mobile terminal 5 to enter a maintenance working mode. And the maintenance personnel can carry out calling test operation through the mobile terminal in the maintenance working mode, and can carry out calling test operation through the mobile terminal in the maintenance working mode.
In the above method steps, if the server 1 detects that the geographic position of the mobile terminal 5 is inconsistent with the geographic position of the elevator stored in advance (for example, the position deviation distance between the two exceeds the preset deviation distance), or the service maintainer fails to register, check and log in, the server 1 does not notify the mobile terminal 5 to enter the service mode. The server 1 determines whether the time difference between the current operation of the elevator maintenance starting control by the mobile terminal and the last operation of the elevator maintenance starting control is smaller than a preset time difference threshold value, and performs forced login verification on maintenance personnel who do not use the maintenance function for a long time, so as to improve the safety of elevator maintenance work. In a specific embodiment, the server 1 compares the login information submitted by the maintenance personnel with the stored registration information of the maintenance personnel during login verification, and the maintenance personnel is allowed to log in only if the comparison is consistent. In other embodiments, if the mobile terminal user is already registered, the mobile terminal user can be directly allowed to log in after scanning the code next time, at this time, it is only necessary to judge whether the geographical position of the mobile terminal is consistent with the geographical position of the elevator stored in advance, and if so, the mobile terminal is notified to enter the maintenance working mode.
The geographical location information of the mobile terminal 5 may be sent to the server 1 as a part of the call request when responding to the code scanning operation, may be sent to the server 1 after the elevator maintenance starting control is operated, or may be obtained after the server 1 requests the mobile terminal 5, which is not limited in the present invention.
The elevator taking process by the user using the contactless elevator taking method is exemplified below.
When only one two-dimensional code is placed in an elevator waiting hall of each floor of the building, and a user slightly communicates the code to bring out an elevator taking small program, the user inputs a target floor in a target floor information input box of an elevator taking page, the elevator taking page pops up information of an allocated elevator (for example, 'No. 3 elevator is allocated for you') and displays the real-time running state of the allocated elevator, the user clicks on the elevator taking page to confirm elevator taking (or the step of confirming elevator taking can not be clicked, and the data conversion board 3 controls the running of the elevator directly through an elevator main control board of the allocated elevator after the elevator is allocated), waits for the elevator to reach the current floor and enter the allocated elevator until reaching the target floor.
For example, N two-dimensional codes are placed in a waiting hall of each floor of the building, and the number of the two-dimensional codes is the same as that of a plurality of elevators connected in parallel or controlled in a group mode. The user can scan any one of the N two-dimensional codes (such as the mth code) and input the destination floor, if the system allocates the mth elevator for the user, the running state of the mth elevator can be displayed in the elevator taking page, and the user is prompted to wait for the elevator to arrive and take the elevator to the destination floor without step adjustment. If the system allocates no m-th elevator for the user, the elevator taking page pops up the information of the allocated elevator to inform the user to move and adjust to the outside of the hall door of the allocated elevator to wait. For example, there are 4 (N = 4) group control elevators on site, and the elevator number information is 1-4 in sequence. If the user scans the two-dimensional code of the number 2 elevator, at the moment, if the system allocates the number 2 elevator for the user, the user does not need to adjust the step, and only needs to wait for the number 2 elevator to arrive. If the system allocates not the No. 2 elevator but the No. 3 elevator for the user, the user is prompted to move to adjust the step outside the landing door of the No. 3 elevator to wait for taking the elevator.
The ordinary user does not operate the elevator maintenance starting control. After the code is scanned for the first time, the maintenance personnel can click the elevator maintenance starting button to register the information of the maintenance personnel, and the maintenance personnel can use the maintenance function of the system after the platform passes the verification. Under the maintenance working mode, the maintenance personnel can carry out mobile phone call test operation under the overhaul mode and the conventional mode. After finishing one or more maintenance projects, no matter in the maintenance mode or in the normal mode, the maintenance personnel can perform operation test on the maintained projects through the mobile phone, the mobile phone interface can feed back the operation state and fault codes of the elevator, the maintenance personnel can conveniently perform maintenance effect verification, the elevator maintenance projects can be recorded item by item, a maintenance record report is formed, and the maintenance record report is uploaded to the server 1 to be filed. If the time difference between the current operation of the elevator maintenance starting control and the last operation of the elevator maintenance starting control by the same maintenance worker is more than or equal to 2 days (namely the maintenance worker does not use the maintenance function of the mobile terminal for 2 days, and the time difference threshold value is 2 days), the maintenance worker needs to log in again, and the maintenance function of the mobile terminal can be used again after verification.
According to another aspect of the embodiments of the present invention, there is also provided a server including a memory and a processor. The memory is used for storing programs; the processor is used for loading the program to execute the contactless elevator taking method.
By adopting the invention, the user can take the elevator automatically without touching the elevator key, and the invention is easy to implement and operate, thereby increasing the safety of the elevator taking process.
Claims (10)
1. A non-contact elevator taking method for elevators connected in parallel or controlled in groups is applied to a server and is characterized by comprising the following steps:
receiving an access request generated by a mobile terminal in response to a code scanning operation, and returning an elevator taking page to the mobile terminal, wherein the access request comprises mobile terminal user information and current floor information, and the elevator taking page comprises a target floor information input control and an elevator maintenance starting control;
when destination floor information input in the destination floor information input control is received, the current floor information and the destination floor information are sent to a data conversion board, and information of an allocated elevator returned by the data conversion board is sent to the mobile terminal; the data conversion board is respectively in communication connection with the elevator main control boards of the multiple elevators which are connected in parallel or in group control;
when the operation of the elevator maintenance starting control is detected, judging whether a mobile terminal user is registered or not according to the mobile terminal user information, if not, returning a maintenance personnel registration page to the mobile terminal, checking the maintenance personnel registration information input into the registration page, judging whether the geographic position of the mobile terminal is consistent with the pre-stored geographic position of the elevator or not after the checking is passed, and if so, informing the mobile terminal to enter a maintenance working mode; if the mobile terminal is registered, judging whether the geographic position of the mobile terminal is consistent with the geographic position of the elevator stored in advance, and if so, informing the mobile terminal to enter a maintenance working mode; and in the maintenance working mode, maintenance personnel can carry out call test operation through the mobile terminal.
2. The contactless elevator taking method for the elevators connected in parallel or controlled in group as claimed in claim 1, wherein if the user of the mobile terminal has registered, it is first determined whether the time difference between the current operation of the mobile terminal and the last operation of the elevator maintenance starting control is smaller than a predetermined time difference threshold, if so, it is further determined whether the geographic position of the mobile terminal is consistent with the geographic position of the elevator stored in advance, and if so, the mobile terminal is notified to enter the maintenance work mode; if the time difference is larger than or equal to the preset time difference threshold value, returning a maintenance staff login page to the mobile terminal, verifying the maintenance staff login information input into the login page, further judging whether the geographic position of the mobile terminal is consistent with the pre-stored geographic position of the elevator when the verification is passed, and if so, informing the mobile terminal to enter a maintenance working mode.
3. The contactless elevator taking method for elevators connected in parallel or in group control as claimed in claim 1 or 2, wherein the two-dimensional code subjected to the code scanning operation is provided in the lobby of each floor of the building.
4. The contactless elevator taking method for the elevators connected in parallel or controlled in group as claimed in claim 3, wherein the number of the two-dimensional codes provided at each floor of the building is one, and the one two-dimensional code contains information of all the elevators connected in parallel or controlled in group and the current floor information.
5. The non-contact elevator taking method for the elevators connected in parallel or controlled in group as claimed in claim 3, wherein the number of the two-dimensional codes arranged on each floor of the building is the same as the number of the elevators connected in parallel or controlled in group, and a plurality of the two-dimensional codes are respectively in one-to-one correspondence with the elevators, each two-dimensional code containing information of the corresponding elevator and information of the current floor.
6. The method as claimed in claim 1, characterized in that the information of the allocated elevators comprises the numbers of the allocated elevators and the running state information of the allocated elevators.
7. A server, comprising:
a memory for storing a program;
a processor for loading the program to perform the contactless elevator taking method according to any one of claims 1 to 6.
8. A contactless elevator taking system for parallel or group control elevators, comprising the server of claim 7, an elevator gateway, a data conversion board, and an elevator main control board of a plurality of elevators in parallel or group control;
the server is in communication connection with the elevator gateway through a communication network, the elevator gateway is in communication connection with the data conversion board, and the data conversion board is in communication connection with elevator main control boards of a plurality of elevators which are connected in parallel or in group control respectively; the data conversion board is used for acquiring elevator running data of a plurality of elevators connected in parallel or controlled in a group mode in real time, allocating a corresponding elevator for a call request according to the elevator running data and the call request sent by the mobile terminal, and sending information of the allocated elevator to the mobile terminal through the server; the call request includes current floor information and destination floor information.
9. The contactless ride system of claim 8, wherein the data converter panel is configured to establish a mapping between elevators and given elevator numbers;
the information of the allocated elevator comprises the number of the allocated elevator and the running state information of the allocated elevator.
10. The contactless elevator taking system according to claim 9, wherein the elevator gateway is communicatively connected to the data converter board through a serial communication interface, the data converter board is communicatively connected to the elevator main control boards of the plurality of elevators connected in parallel or in group control respectively through buses, and the data converter board is configured to realize mutual conversion between data of bus protocol and data of serial communication protocol.
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CN113148785A (en) * | 2021-04-20 | 2021-07-23 | 珠海大横琴科技发展有限公司 | Elevator management method and system |
CN113450553A (en) * | 2021-05-12 | 2021-09-28 | 李盛源 | Method for operating keys without contact |
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