CN112134946B - Elevator Internet of things testing method, device, storage medium, terminal and system - Google Patents

Abstract

The embodiment of the invention relates to the field of Internet of things and discloses a testing method, device, storage medium, terminal and system of an elevator Internet of things. In the embodiment of the invention, after the cloud platform completes the establishment of the network access test file, the Internet of things identification corresponding to the elevator terminal is obtained; determining a category to be tested corresponding to the identifier of the Internet of things so as to perform a test behavior corresponding to the category to be tested, and obtaining a test result; the network access test file is established according to elevator parameters obtained by the elevator terminal from the elevator main control board. Therefore, the embodiment of the invention provides a specific network access test method, the whole network access test process is operated based on the elevator Internet of things, the elevator terminal and the mobile terminal are used jointly to conduct the test action of the elevator, the test efficiency of the network access test for the special equipment of the elevator is ensured, and the technical problem of low network access test efficiency of the elevator is solved.

Description

Elevator Internet of things testing method, device, storage medium, terminal and system

Technical Field

The embodiment of the invention relates to the field of Internet of things, in particular to a testing method, device, storage medium, terminal and system of an elevator Internet of things.

Background

With the increasing popularity of elevators, people are also increasingly concerned about the stability and safety of elevator operation.

Specifically, after the elevator internet of things equipment is installed on site, a terminal manufacturing unit is generally required to be informed of performing network access test. The network access test generally refers to that after equipment installation is completed, key data such as equipment identification information, elevator floor distribution information, fault template information and the like are input through an elevator internet of things platform, then binding information of the elevator internet of things equipment and an elevator is inquired through mobile phone application corresponding to the elevator internet of things platform, and further testing behaviors in basic monitoring, fault alarming and the like are carried out through the elevator internet of things application.

However, the inventors found that at least the following problems exist in the network access test link of the elevator:

the method has no concrete and effective network access test method, and the overall network access test efficiency is lower.

Disclosure of Invention

The embodiment of the invention aims to provide a test method, a device, a storage medium, a terminal and a system for an elevator Internet of things, and aims to solve the technical problem of low test efficiency of elevator networking.

In order to solve the above technical problems, the embodiment of the invention provides a test method of an elevator internet of things, which is applied to a mobile terminal and comprises the following steps:

after the cloud platform completes the establishment of the network access test file, acquiring an Internet of things identifier corresponding to the elevator terminal;

determining a category to be tested corresponding to the identifier of the Internet of things so as to perform a test behavior corresponding to the category to be tested, and obtaining a test result;

the network access test file is established according to elevator parameters acquired by the elevator terminal from an elevator main control board.

The embodiment of the invention also provides a testing device of the elevator Internet of things, which comprises:

the identification acquisition module is used for acquiring an Internet of things identification corresponding to the elevator terminal after the cloud platform completes the establishment of the network access test file;

the testing module is used for determining a category to be tested corresponding to the Internet of things identifier so as to conduct testing behaviors corresponding to the category to be tested and obtain a testing result;

the network access test file is established according to elevator parameters acquired by the elevator terminal from an elevator main control board.

The embodiment of the invention also provides a mobile terminal, which comprises:

at least one processor; the method comprises the steps of,

a memory communicatively coupled to the at least one processor; wherein,,

the memory stores instructions executable by the at least one processor to enable the at least one processor to perform the method of testing the internet of things of an elevator as described above.

The embodiment of the invention also provides a computer readable storage medium storing a computer program which, when executed by a processor, implements the test method of the elevator internet of things as described above.

Compared with the prior art, the embodiment of the invention provides a test method of the elevator Internet of things, in particular a specific network access test method, the whole network access test process is operated based on the elevator Internet of things, the elevator terminal and the mobile terminal are jointly used for carrying out the test action of the elevator, the test efficiency of the network access test of the specific equipment of the elevator is ensured, and the technical problem of low network access test efficiency of the elevator is solved.

In addition, the determining the category to be tested corresponding to the identifier of the internet of things so as to perform a test behavior corresponding to the category to be tested, and after obtaining a test result, the test method of the elevator internet of things further comprises:

and if the test result is that the test is passed, sending test success information to the cloud platform so that the cloud platform records the test success information.

According to the elevator Internet of things testing method, specific technical details of the network access testing link are thinned.

In addition, if the test result is that the test is passed, sending test success information to the cloud platform, so that after the cloud platform records the test success information, the test method of the elevator internet of things further comprises:

acquiring user identity information;

and sending the user identity information to the cloud platform so that the cloud platform can generate an elevator test record according to the user identity information and the test success information.

According to the elevator Internet of things testing method provided by the embodiment, after the functional testing link is completed, the complete elevator file is automatically constructed to serve as the testing delivery result, and the testing flow and the testing result can be recorded more clearly.

The embodiment of the invention also provides an Internet of things interaction system, which comprises: cloud platform, elevator terminal and mobile terminal as described above;

the mobile terminal is used for acquiring an internet of things identifier corresponding to the elevator terminal after the cloud platform completes the establishment of the network access test file; determining a category to be tested corresponding to the identifier of the Internet of things so as to perform a test behavior corresponding to the category to be tested, and obtaining a test result; the network access test file is established according to elevator parameters acquired by the elevator terminal from an elevator main control board;

the mobile terminal is further used for sending test success information to the cloud platform if the test result is that the test is passed;

and the cloud platform is used for recording the test success information.

The internet of things interaction system provided by the embodiment provides a specific network access test method, the whole network access test process is operated based on the internet of things of the elevator, the elevator terminal and the mobile terminal are used jointly to conduct elevator test behaviors, the test efficiency of network access test on the specific equipment of the elevator is guaranteed, and the technical problem of low network access test efficiency of the elevator is solved.

Meanwhile, specific technical details of the network access test link are further refined.

In addition, the cloud platform is further used for generating a network access success instruction when receiving network access information of the elevator terminal, and sending the network access success instruction to the elevator terminal;

and the elevator terminal is used for carrying out test prompt behaviors in a first preset prompt mode when receiving the network access success instruction.

According to the Internet of things interaction system provided by the embodiment, after the network access operation is completed, the on-site personnel can be reminded to start elevator test operation, so that the network access behavior is changed to enter a functional test link.

In addition, the internet of things interaction system further comprises: an elevator main control board;

the elevator terminal is also used for detecting whether the communication between the elevator terminal and the elevator main control board is normal or not, wherein the elevator terminal and the elevator main control board are connected through an internet of things communication interface;

the elevator terminal is further used for acquiring elevator parameters transmitted by the elevator main control board and sending the elevator parameters to the cloud platform if the communication is normal;

the cloud platform is also used for recording the elevator parameters so as to perform network access operation.

According to the internet of things interaction system provided by the embodiment, elevator parameters are collected by the elevator main control board through carrying an elevator internet of things framework consisting of the elevator main control board, the elevator terminal and the cloud platform. If the communication between the elevator terminal and the elevator main control board is normal, the elevator terminal can acquire elevator parameters. Then, the cloud platform can acquire elevator parameters wirelessly transmitted by the elevator terminal, and obviously, key parameters of the elevator do not need to be manually input. Therefore, the automatic elevator parameter acquiring action replaces the action of manually inputting the elevator key parameters, the efficiency of the elevator key parameter acquiring action is greatly improved, and the technical problem of low efficiency of the elevator key parameter manually inputting action is solved.

In addition, the elevator terminal is further used for generating communication abnormality information if communication is abnormal, and sending the communication abnormality information to the cloud platform.

According to the Internet of things interaction system provided by the embodiment, when the communication between the elevator terminal and the elevator main control board is abnormal, the actual operation behaviors of on-site personnel can be scheduled through the abnormal prompt behaviors.

Drawings

One or more embodiments are illustrated by way of example and not limitation in the figures of the accompanying drawings, in which like references indicate similar elements, and in which the figures of the drawings are not to be taken in a limiting sense, unless otherwise indicated.

Fig. 1 is a specific flowchart of a test method of an elevator internet of things according to a first embodiment of the invention;

fig. 2 is a specific flowchart of a test method of the internet of things of an elevator according to a second embodiment of the invention;

fig. 3 is a schematic structural view of a test device of an elevator internet of things according to a third embodiment of the present invention;

fig. 4 is a schematic structural view of a mobile terminal according to a fourth embodiment of the present invention;

fig. 5 is a schematic structural diagram of an internet of things interaction system according to a fifth embodiment of the present invention;

fig. 6 is a schematic view of an architecture of an elevator internet of things according to a fifth embodiment of the invention;

fig. 7 is a schematic flow chart of a network access and test case according to a fifth embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings. However, those of ordinary skill in the art will understand that in various embodiments of the present invention, numerous technical details have been set forth in order to provide a better understanding of the present application. However, the technical solutions claimed in the present application can be implemented without these technical details and with various changes and modifications based on the following embodiments.

The following embodiments are divided for convenience of description, and should not be construed as limiting the specific implementation of the present invention, and the embodiments can be mutually combined and referred to without contradiction.

The first embodiment of the invention relates to a testing method of an elevator Internet of things, which is applied to a mobile terminal. The specific flow is shown in fig. 1, and comprises the following steps:

and step 101, after the cloud platform completes the establishment of the network access test file, acquiring the Internet of things identification corresponding to the elevator terminal.

It can be understood that the execution body of the first embodiment of the present invention is a mobile terminal.

In a specific implementation, the mobile terminal may be a smart phone that is held by a field tester, but is not limited thereto. Wherein, the mobile terminal can carry customized Application program (App).

The elevator terminal is Internet of things equipment applied to the specific equipment field of the elevator. Meanwhile, the elevator terminal can be provided with a two-dimensional code, and the two-dimensional code contains a terminal identifier of the elevator terminal. The terminal identifier may also be recorded as an identifier of the internet of things.

Wherein each elevator terminal corresponds to each elevator object, e.g. each elevator terminal can be connected to an elevator.

The on-site personnel can log in the elevator Internet of things App through the test account number and the password, in view of the fact that the elevator terminal is provided with the two-dimensional code, after the mobile phone App scans the two-dimensional code, the Internet of things identification can be obtained, and the type to be tested and the test result corresponding to the elevator terminal are automatically carried out.

Of course, the mode of acquiring the internet of things identifier by the mobile terminal is not limited to the mode of acquiring the identifier of the type of the two-dimension code of the elevator terminal scanned by the smart phone.

Step 102, determining a category to be tested corresponding to the internet of things identifier, so as to perform a test behavior corresponding to the category to be tested, and obtaining a test result.

The network access test file is established according to elevator parameters acquired by the elevator terminal from an elevator main control board.

It can be seen that the network access test profile is generated based on elevator parameters.

The elevator label is tested by the category to be tested, and the test result can be expressed as a test result label.

In operation, after the tester clicks the test elevator tag, the test behaviors such as elevator state monitoring, floor position judgment, fault alarm test and the like can be performed.

It should be understood that the foregoing is merely illustrative, and the technical solution of the present embodiment is not limited in any way, and in practical application, a person skilled in the art may set the solution according to the service requirement, and the present embodiment is not limited in this way.

Through the above description, it is not difficult to find that the test method of the elevator internet of things provided by the embodiment provides a specific network access test method, the whole network access test process is operated based on the elevator internet of things, the test behaviors of the elevator are carried out by using the elevator terminal and the mobile terminal in a combined way, the test efficiency of the network access test for the specific equipment of the elevator is ensured, and the technical problem of low network access test efficiency of the elevator is solved.

The second embodiment of the invention relates to a testing method of the internet of things of an elevator. The second embodiment is substantially the same as the first embodiment, and the specific flow is as shown in fig. 2, and the main difference is that, after the step 102, the testing method of the internet of things of the elevator further includes:

and step 103, if the test result is that the test is passed, sending test success information to the cloud platform so that the cloud platform records the test success information.

Specifically, after testing the basic internet of things function of the elevator through the mobile phone App, the field personnel can click a test result label corresponding to the elevator in the mobile phone App, and then, the test passing and test failing two buttons are selected.

In a specific implementation, if the elevator test passes, the field personnel can click a test pass button, that is, the test result is test pass, and the cloud platform acquires the test success information to characterize the test pass. The test passing results can then be recorded in the test elevator profile of the cloud platform.

Further, after the step 102, the testing method of the elevator internet of things further includes:

and 104, if the test result is that the test fails, sending test abnormality information to the cloud platform.

In a specific implementation, if the test elevator fails, the field personnel can click a test fail button, that is, the test result is that the test fails, the cloud platform will acquire the test anomaly information to characterize that the test fails.

Then, after receiving the abnormal test information, the developer on the cloud platform side can conduct problem inspection and communicate with the field personnel, and then the field personnel conduct testing again until the test passes. After the test is passed again, the field tester can click a test passing button in the mobile phone App, and then the cloud platform can record a test passing result in the test elevator file.

Through the above description, it is easy to find that the test method of the elevator internet of things provided by the embodiment refines specific technical details of the network access test link.

Further, if the test result is that the test is passed, sending test success information to the cloud platform, so that after the cloud platform records the test success information, the test method of the elevator internet of things further comprises:

acquiring user identity information;

and sending the user identity information to the cloud platform so that the cloud platform can generate an elevator test record according to the user identity information and the test success information.

It can be understood that after completing the above-mentioned various test behaviors, the tester can also enter user identity information through the mobile phone App.

The user identity information comprises elevator use units, manufacturing units and maintenance unit information.

Wherein the sum of the test success information can be recorded as the test elevator profile.

Then, after receiving the user identity information, the cloud platform can automatically supplement the test elevator file through the user identity information so as to generate an elevator test record. So far, the test process is completed, and the complete file establishment of the elevator is completed.

Through the above description, it is easy to find that, after the functional test link is completed, the test method of the elevator internet of things provided by the embodiment automatically constructs an elevator complete file as a test delivery result, so that a test flow and a test result can be recorded more clearly.

The above steps of the methods are divided, for clarity of description, and may be combined into one step or split into multiple steps when implemented, so long as they include the same logic relationship, and they are all within the protection scope of this patent; it is within the scope of this patent to add insignificant modifications to the algorithm or flow or introduce insignificant designs, but not to alter the core design of its algorithm and flow.

A third embodiment of the present invention relates to a test device for the internet of things of an elevator, as shown in fig. 3, including: an identification acquisition module 401 and a test module 402;

the identifier obtaining module 401 is configured to obtain an identifier of the internet of things corresponding to the elevator terminal after the cloud platform completes the establishment of the network access test file;

the testing module 402 is configured to determine a category to be tested corresponding to the identifier of the internet of things, so as to perform a testing behavior corresponding to the category to be tested, and obtain a testing result;

the network access test file is established according to elevator parameters acquired by the elevator terminal from an elevator main control board.

In addition, in another example, the testing device of the elevator internet of things further includes: a test passing module;

and the test passing module is used for sending the test success information to the cloud platform if the test result is that the test passes, so that the cloud platform records the test success information.

In addition, in another example, the testing device of the elevator internet of things further includes: a record generation module;

the record generation module is used for acquiring user identity information; and sending the user identity information to the cloud platform so that the cloud platform can generate an elevator test record according to the user identity information and the test success information.

It is to be noted that this embodiment is an embodiment of the apparatus corresponding to the first embodiment or the second embodiment, and can be implemented in cooperation with the first embodiment or the second embodiment. The related technical details mentioned in the first embodiment or the second embodiment are still valid in this embodiment, and in order to reduce repetition, a detailed description is omitted here. Accordingly, the related technical details mentioned in the present embodiment can also be applied to the first embodiment and the second embodiment.

It should be noted that each module in this embodiment is a logic module, and in practical application, one logic unit may be one physical unit, or may be a part of one physical unit, or may be implemented by a combination of multiple physical units. In addition, in order to highlight the innovative part of the present invention, units that are not so close to solving the technical problem presented by the present invention are not introduced in the present embodiment, but this does not indicate that other units are not present in the present embodiment.

A fourth embodiment of the invention relates to a mobile terminal, as shown in fig. 4, comprising at least one processor 501; and a memory 502 communicatively coupled to the at least one processor 501; wherein the memory 502 stores instructions executable by the at least one processor 501 to enable the at least one processor 501 to perform the method of testing the internet of things of an elevator as described in the first or second embodiment above.

Where the memory 502 and the processor 501 are connected by a bus, the bus may comprise any number of interconnected buses and bridges, the buses linking together various circuits of the one or more processors 501 and the memory 502. The bus may also link together various other circuits such as peripheral terminals, voltage regulators, power management circuits, etc., as are well known in the art and, therefore, will not be further described herein. The bus interface provides an interface between the bus and the transceiver. The transceiver may be one element or may be a plurality of elements, such as a plurality of receivers and transmitters, providing a means for communicating with various other apparatus over a transmission medium. The data processed by the processor is transmitted over the wireless medium via the antenna, which further receives the data and transmits the data to the processor.

The processor 501 is responsible for managing the bus and general processing and may also provide various functions including timing, peripheral interfaces, voltage regulation, power management, and other control functions. And memory 502 may be used to store data used by processor 501 in performing operations.

Those skilled in the art will appreciate that all or part of the steps in implementing the methods of the embodiments described above may be implemented by a program stored in a storage medium, where the program includes several instructions for causing a terminal (which may be a single-chip microcomputer, a chip or the like) or a processor (processor) to execute all or part of the steps in the methods of the embodiments described herein. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

It will be understood by those of ordinary skill in the art that the foregoing embodiments are specific embodiments in which the invention is practiced and that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

A fifth embodiment of the present invention relates to an internet of things interaction system, as shown in fig. 5, including: cloud deck 601, elevator terminal 602, and mobile terminal 603 as described in the fourth embodiment;

the mobile terminal 603 is configured to obtain an internet of things identifier corresponding to the elevator terminal 602 after the cloud platform 601 completes establishment of an access test file; determining a category to be tested corresponding to the identifier of the Internet of things so as to perform a test behavior corresponding to the category to be tested, and obtaining a test result; wherein, the network access test file is established according to elevator parameters acquired by the elevator terminal 602 from an elevator main control board;

the mobile terminal 603 is further configured to send test success information to the cloud platform 601 if the test result is that the test passes;

the cloud platform 601 is configured to record the test success information.

Through the above description, it is not difficult to find that the internet of things interaction system provided by the embodiment provides a specific network access test method, the whole network access test process is operated based on the internet of things of the elevator, the elevator terminal 602 and the mobile terminal 603 are jointly used for carrying out the test action of the elevator, the test efficiency of the network access test for the specific equipment of the elevator is ensured, and the technical problem of low network access test efficiency of the elevator is solved.

Meanwhile, specific technical details of the network access test link are further refined.

Further, the mobile terminal 603 is further configured to obtain user identity information, and send the user identity information to the cloud platform 601;

the cloud platform 601 is further configured to generate an elevator test record according to the user identity information and the test success information.

Further, the cloud platform 601 is further configured to generate a network access success instruction when receiving network access information of the elevator terminal 602, and send the network access success instruction to the elevator terminal 602;

the elevator terminal 602 is configured to perform a test prompt action in a first preset prompt manner when receiving the network access success command.

It will be appreciated that the functionality test link of the elevator may be entered after the network access activity is completed by the elevator main control board and the elevator terminal 602.

In terms of the functional test link of the elevator, after the network access information is generated at the cloud platform 601, a network access success instruction can be correspondingly generated, and the elevator terminal 602 is informed to remind a field person that the elevator test operation can be started.

The network access information is information generated corresponding to network access operation, and comprises elevator parameters.

The elevator terminal 602 may be provided with a prompt indicator, and the first preset prompt mode may be a flashing prompt indicator.

Specifically, the on-site personnel can be informed of logging in the App through the flashing of the prompt indicator lamp to perform the test operation of the Internet of things function of the elevator.

Through the above description, it is easy to find that, in the internet of things interaction system provided in this embodiment, after the network access operation is completed, a field person can be reminded to start the elevator test operation, so that the network access behavior is changed to enter a functional test link.

Further, the internet of things interaction system further comprises: an elevator main control board;

the elevator terminal 602 is further configured to detect whether communication between the elevator terminal 602 and the elevator main control board is normal, where the elevator terminal 602 and the elevator main control board are connected through an internet of things communication interface;

the elevator terminal 602 is further configured to obtain elevator parameters transmitted by the elevator main control board if communication is normal, and send the elevator parameters to the cloud platform 601;

the cloud platform 601 is further configured to record the elevator parameters for performing a network access operation.

It will be appreciated that in the initial stage of performing the functionality test, it is generally necessary to manually enter different types of elevator key parameters, for example, key parameters such as elevator type, floor distribution, etc. in advance. Clearly, the inventors have found that this link has at least the following problems: the key parameters of the elevator are manually input, so that the efficiency is low, and the processing efficiency of the subsequent test behaviors is seriously influenced.

Aiming at such a situation, the behavior of manually inputting the elevator key parameters is replaced by the behavior of automatically acquiring the elevator parameters, so that the efficiency of the behavior of acquiring the elevator key parameters is greatly improved, and the technical problem of low efficiency of the behavior of manually inputting the elevator key parameters is solved.

Specifically, the fifth embodiment of the present invention will be carried on an elevator internet of things architecture, which can be seen in fig. 6.

At the machine room end, an elevator main control board and an elevator terminal 602 exist, and the elevator terminal 602 is connected with the elevator main control board through an Internet of things communication interface. The internet of things (IoT, internet of Things) communication interface is a type of hardware interface, and it can be seen that both the elevator main control board and the elevator terminal 602 will be deployed with the type of hardware interface.

Wherein the elevator main control board can be inserted into the elevator equipment.

At the server side, there is a cloud platform 601, where the cloud platform 601 may be a certain server, or a server cluster.

Specifically, in order to improve the efficiency of the behavior of acquiring the key parameters of the elevator, the elevator parameters can be acquired by the elevator main control board through carrying the elevator internet of things framework, wherein the elevator parameters comprise parameters such as elevator type, floor distribution information, fault template type and the like. If the communication between the elevator terminal 602 and the elevator main control board is normal, the elevator terminal 602 can acquire the elevator parameters. Then, the cloud platform 601 can acquire the elevator parameters wirelessly transmitted by the elevator terminal 602, and then the key parameters of the elevator do not need to be manually input.

Therefore, the automatic elevator parameter acquiring action replaces the action of manually inputting the elevator key parameters, the efficiency of the elevator key parameter acquiring action is greatly improved, and the technical problem of low efficiency of the elevator key parameter manually inputting action is solved.

Further, more specifically, as for conventional technical means of manually entering elevator key parameters, the manually entered elevator key parameters include, but are not limited to, elevator type, floor distribution information, and fault templates.

Through the above description, it is easy to find that, in the internet of things interaction system provided in this embodiment, through carrying an elevator internet of things architecture formed by an elevator main control board, an elevator terminal 602 and a cloud platform 601, elevator parameters are collected by the elevator main control board. If the communication between the elevator terminal 602 and the elevator main control board is normal, the elevator terminal 602 can acquire the elevator parameters. Then, the cloud platform 601 can acquire the elevator parameters wirelessly transmitted by the elevator terminal 602, and obviously, the key parameters of the elevator do not need to be manually input any more. Therefore, the automatic elevator parameter acquiring action replaces the action of manually inputting the elevator key parameters, the efficiency of the elevator key parameter acquiring action is greatly improved, and the technical problem of low efficiency of the elevator key parameter manually inputting action is solved.

Further, the elevator terminal 602 is further configured to generate communication abnormality information if the communication is abnormal, and send the communication abnormality information to the cloud platform 601.

It can be understood that, if the elevator terminal 602 communicates with the elevator main control board abnormally, the elevator terminal 602 sends information of communication abnormality of the main board, that is, communication abnormality information, to the cloud platform 601.

The communication abnormality information includes a terminal Identification (ID), a communication abnormality state, and the like. The terminal identification is identification information of the elevator terminal 602 to characterize the uniqueness of the elevator terminal 602.

Further, the cloud platform 601 is further configured to, when receiving the communication anomaly information, feed back anomaly alert information to the elevator terminal 602;

the elevator terminal 602 is further configured to perform an abnormal prompting action in a second preset prompting manner when the abnormal prompting information is received.

Then, the cloud platform 601 may send an abnormality alert message to the elevator terminal 602 to alert the field personnel motherboard operating the elevator terminal 602 that the communication is abnormal, and the communication condition between the elevator terminal 602 and the elevator main control board needs to be checked.

The elevator terminal 602 may be provided with a prompt indicator, and the second preset prompt mode may be a flashing prompt indicator.

Further, the elevator parameters include elevator type, floor distribution information, and fault template type.

Among them, the elevator types include different types of vertical passenger elevator, vertical goods elevator and escalator, etc., and this information can be obtained from the elevator main control board by the elevator terminal 602. The floor distribution information refers to floor distribution information of a vertical passenger elevator or a cargo elevator, such as 1-N floors, -1-M floors, where N and M represent positive integers, and whether or not the floors are stopped, and the floor distribution information is also acquired from the elevator main control board by the elevator terminal 602. The fault template types refer to different fault template types set for different elevator types, and when an elevator fails, the different fault template types give different fault information.

Further, the elevator terminal 602 may obtain the operation data, fault data, etc. of the elevator in addition to the elevator parameters from the elevator main control board, and may transmit the operation data, fault data, etc. to the cloud platform 601.

Further, the cloud platform 601 can also provide services such as elevator management, elevator running state monitoring, elevator fault warning and the like.

Further, more specifically, with respect to conventional technical means of manually entering elevator key parameters, the manually entered elevator key parameters include, but are not limited to, the internet of things identification of the elevator terminal 602, the terminal model.

It can be understood that when the elevator terminal 602 sends the elevator parameters to the cloud platform 601, information such as the internet of things identifier, the terminal model, and the communication normal state of the elevator terminal 602 can also be sent together. After receiving the information such as the elevator parameter, the internet of things identifier, the terminal model, the communication normal state and the like, the cloud platform 601 can perform networking test file profiling through the information such as the elevator parameter, the internet of things identifier, the terminal model, the communication normal state and the like so as to obtain the networking test file corresponding to the current elevator and the current elevator terminal 602.

As can be easily found from the above description, in the internet of things interaction system provided in this embodiment, when the communication between the elevator terminal 602 and the elevator main control board is abnormal, the actual operation behavior of the field personnel can be scheduled through the abnormal prompt behavior.

Further, a more complete class of networking instances and test cases may be provided herein, see FIG. 7.

More specifically, when network access is started, the elevator terminal 602 and the elevator main control board can be connected first to realize power-up of the system.

The elevator terminal 602 may then connect to the cloud platform 601 of the elevator internet of things via 4G or ethernet.

Then, after the elevator terminal 602 establishes a connection with the cloud platform 601, a formal network access behavior is performed until network access information is obtained, and the network access behavior is ended and the elevator test operation is entered.

Further, the complete file of the elevator will automatically appear in the lower customer account number of the cloud platform 601 of the elevator internet of things, and the monitoring of the elevator and the tracking of fault alarm are performed.

In addition, the complete file of the elevator in the subordinate customer account number is also subjected to information confirmation actions of identity information such as an elevator using unit, a manufacturing unit, a maintenance unit and the like.

Claims (9)

1. The test method of the elevator Internet of things is characterized by being applied to a mobile terminal and comprising the following steps of:

after the cloud platform completes the establishment of the network access test file, acquiring an Internet of things identifier corresponding to the elevator terminal;

determining a category to be tested corresponding to the identifier of the Internet of things so as to perform a test behavior corresponding to the category to be tested, and obtaining a test result;

if the test result is that the test is passed, sending test success information to the cloud platform so that the cloud platform records the test success information in the network access test file;

if the test result is that the test fails, sending test abnormal information to the cloud platform; after receiving the abnormal test information, the developer on the cloud platform side performs problem inspection and communicates with the field personnel, and then the field personnel performs the test behaviors corresponding to the type to be tested again until the test result is that the test is passed;

the network access test file is established according to elevator parameters acquired by the elevator terminal from an elevator main control board.

2. The method for testing the internet of things of the elevator according to claim 1, wherein if the test result is that the test is passed, sending test success information to the cloud platform, so that after the cloud platform records the test success information, the method for testing the internet of things of the elevator further comprises:

acquiring user identity information;

and sending the user identity information to the cloud platform so that the cloud platform can generate an elevator test record according to the user identity information and the test success information.

3. The utility model provides a testing arrangement of elevator thing networking, its characterized in that, testing arrangement is the handheld device of scene personnel, includes:

the identification acquisition module is used for acquiring an Internet of things identification corresponding to the elevator terminal after the cloud platform completes the establishment of the network access test file;

the testing module is used for determining a category to be tested corresponding to the Internet of things identifier so as to conduct testing behaviors corresponding to the category to be tested and obtain a testing result; if the test result is that the test is passed, sending test success information to the cloud platform so that the cloud platform records the test success information in the network access test file; if the test result is that the test fails, sending test abnormal information to the cloud platform; after receiving the abnormal test information, the developer on the cloud platform side performs problem inspection and communicates with the field personnel, and then the field personnel performs the test behaviors corresponding to the type to be tested again until the test result is that the test is passed;

the network access test file is established according to elevator parameters acquired by the elevator terminal from an elevator main control board.

4. A computer-readable storage medium storing a computer program, characterized in that the computer program, when executed by a processor, implements the test method of the internet of things of an elevator according to claim 1 or 2.

5. A mobile terminal, comprising:

at least one processor; the method comprises the steps of,

a memory communicatively coupled to the at least one processor; wherein,,

the memory stores instructions executable by the at least one processor to enable the at least one processor to perform the test method of the elevator internet of things of claim 1 or 2.

6. An internet of things interaction system, comprising: cloud platform, elevator terminal and mobile terminal according to claim 5;

the mobile terminal is used for acquiring an internet of things identifier corresponding to the elevator terminal after the cloud platform completes the establishment of the network access test file; determining a category to be tested corresponding to the identifier of the Internet of things so as to perform a test behavior corresponding to the category to be tested, and obtaining a test result; the network access test file is established according to elevator parameters acquired by the elevator terminal from an elevator main control board;

the mobile terminal is further configured to send test success information to the cloud platform if the test result is that the test is passed, so that the cloud platform records the test success information in the network access test file; if the test result is that the test fails, sending test abnormal information to the cloud platform; after receiving the abnormal test information, the developer on the cloud platform side performs problem inspection and communicates with the field personnel, and then the field personnel performs the test behaviors corresponding to the type to be tested again until the test result is that the test is passed;

and the cloud platform is used for recording the test success information.

7. The internet of things interaction system according to claim 6, wherein the cloud platform is further configured to generate a network access success instruction when receiving network access information of the elevator terminal, and send the network access success instruction to the elevator terminal;

and the elevator terminal is used for carrying out test prompt behaviors in a first preset prompt mode when receiving the network access success instruction.

8. The internet of things interaction system of claim 7, further comprising: an elevator main control board;

the elevator terminal is also used for detecting whether the communication between the elevator terminal and the elevator main control board is normal or not, wherein the elevator terminal and the elevator main control board are connected through an internet of things communication interface;

the elevator terminal is further used for acquiring elevator parameters transmitted by the elevator main control board and sending the elevator parameters to the cloud platform if the communication is normal;

the cloud platform is also used for recording the elevator parameters so as to perform network access operation.

9. The internet of things interaction system according to claim 8, wherein the elevator terminal is further configured to generate communication abnormality information if communication is abnormal, and send the communication abnormality information to the cloud platform.

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