CN110817635A

CN110817635A - Elevator test system based on self-defined setting

Info

Publication number: CN110817635A
Application number: CN201911137518.9A
Authority: CN
Inventors: 王要辉; 王银辉; 王杰豪; 王晨
Original assignee: Asian Fuji Elevator Ltd By Share Ltd
Current assignee: Asian Fuji Elevator Ltd By Share Ltd
Priority date: 2019-11-19
Filing date: 2019-11-19
Publication date: 2020-02-21

Abstract

The invention relates to the technical field of elevator test systems, in particular to an elevator test system based on self-defined setting. The elevator emergency maintenance system is novel in design and simple in principle, the sequence and the number of the items to be maintained are automatically set through the function detection system, midway switching is not needed, the detection efficiency is effectively increased, the detection is quicker and more reasonable, when the elevator breaks down, nearby maintenance personnel can be positioned through the maintenance system, the emergency maintenance task can be conveniently arranged nearby, the emergency maintenance can be carried out at the highest speed, the rush wave on the road is saved, and the working efficiency is improved.

Description

Elevator test system based on self-defined setting

Technical Field

The invention relates to the technical field of elevator test systems, in particular to an elevator test system based on custom setting.

Background

An elevator is a vertical elevator powered by an electric motor and equipped with a box-like car for carrying persons or goods in a multi-story building, also of the stepped type, with tread plates mounted on a track for continuous operation, commonly known as an escalator, serving fixed lifting equipment of a given floor, whose performance is usually checked at intervals by means of a monitoring system in order to ensure the safety of the elevator.

However, the existing detection systems adopt single detection, manual switching detection is needed, and the elevator is inconvenient to repair rapidly because the existing detection systems are not provided with maintenance systems. Therefore, those skilled in the art provide a custom setting based elevator test system to solve the problems set forth in the background art.

Disclosure of Invention

The invention aims to provide an elevator testing system based on self-defined setting to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the elevator testing system based on the self-defined setting comprises a processor and a communication module, wherein the processor is in bidirectional wireless transmission with a server terminal through the communication module and is in bidirectional electric connection with elevator equipment, the processor is respectively in electric connection with a function detection system and a data management system, the function detection system and the data management system are both in electric connection with the elevator equipment, and the server terminal is in wireless transmission with a maintenance system through the communication module.

As a still further scheme of the invention: the data management system is used for collecting and backing up the running state of the elevator equipment and comprises a data collection submodule, a data storage library and a data management submodule, wherein the data collection submodule adopts a plurality of sensors, the sensors are respectively arranged at each detection position of the elevator equipment and are used for monitoring and feeding back the whole running parameters of the elevator equipment, the data storage library is used for storing the running parameters fed back by the data collection submodule, the data management submodule is used for carrying out same management on the data in the data storage library, and the same management comprises the steps of sorting and summarizing according to time and deleting useless data at regular time.

As a still further scheme of the invention: the function detection system is used for testing different operation performance parameters of the elevator equipment and comprises a data test module and a custom detection control module, the data test module is used for comparing monitoring data fed back by the data management system and judging whether the monitoring data are perfect, and the custom detection control module is used for automatically setting the sequence and the number of detection items.

As a still further scheme of the invention: the data testing module further comprises a numerical value setting unit, a data receiving unit, a data comparison unit and a data judgment unit, wherein the numerical value setting unit is used for automatically setting correct parameters of various operation performances of the elevator equipment, the data receiving unit is used for receiving monitoring data transmitted by the data management system, the data comparison unit is used for comparing the monitoring data with the set correct parameters, and the data judgment unit is used for judging according to a comparison result and transmitting the judgment result to the processor.

As a still further scheme of the invention: the custom detection control module comprises an instruction editing unit, an instruction generating unit and an instruction sending unit, wherein the instruction editing unit is used for editing the sequence and the quantity of the items to be detected by self, the instruction generating unit is used for generating an instruction according to the edited content, and the instruction sending unit is used for transmitting the generated instruction to the elevator equipment for driving and detecting the elevator equipment.

As a still further scheme of the invention: the maintenance system is used for maintaining and repairing elevator equipment and comprises a maintenance personnel management module, a task distribution module and a maintenance information recording module, wherein the maintenance personnel management module is used for carrying out same management on information of maintenance personnel, the task distribution module is used for distributing the tasks of maintenance and repair to the maintenance personnel, and the maintenance information recording module is used for recording information and time of maintenance or repair of the maintenance personnel.

As a still further scheme of the invention: maintenance personal management module still includes personnel information entry unit, cell-phone positioning unit and personnel and deletes the unit, and personnel information entry unit is used for typeeing maintenance personal's information, types information and contains name, job number and cell-phone, and cell-phone positioning unit is used for fixing a position maintenance personal's position, and the task of being convenient for is dispatched the module and is carried out the task of being dispatched nearby, and personnel delete the unit and be used for carrying out the information cancellation to the personnel of leaving a job.

Compared with the prior art, the invention has the beneficial effects that: the elevator emergency maintenance system is novel in design and simple in principle, the sequence and the number of the items to be maintained are automatically set through the function detection system, midway switching is not needed, the detection efficiency is effectively increased, the detection is quicker and more reasonable, when the elevator breaks down, nearby maintenance personnel can be positioned through the maintenance system, the emergency maintenance task can be conveniently arranged nearby, the emergency maintenance can be carried out at the highest speed, the rush wave on the road is saved, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic block diagram of a custom setting based elevator test system;

FIG. 2 is a schematic framework diagram of a data detection module in an elevator test system based on custom settings;

FIG. 3 is a schematic block diagram of a custom detection control module in a custom setting based elevator test system;

fig. 4 is a schematic block diagram of a serviceman management module in a custom setting based elevator test system.

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 to 4, in an embodiment of the present invention, an elevator testing system based on a user-defined setting includes a processor and a communication module, the processor is in bidirectional wireless transmission with a server terminal through the communication module, and the processor is in bidirectional electrical connection with an elevator device, the processor is respectively in electrical connection with a function detection system and a data management system, the function detection system and the data management system are both in electrical connection with the elevator device, and the server terminal is in wireless transmission with a maintenance system through the communication module.

The data management system is used for collecting and backing up the running state of the elevator equipment and comprises a data collection submodule, a data storage library and a data management submodule, the data collection submodule adopts a plurality of sensors, the sensors are respectively installed at each detection position of the elevator equipment and used for monitoring and feeding back the whole running parameters of the elevator equipment, the data storage library is used for storing the running parameters fed back by the data collection submodule, the data management submodule is used for carrying out same management on the data in the data storage library, and the same management comprises the steps of arranging and summarizing according to time and deleting useless data at regular time.

The function detection system is used for testing different operation performance parameters of the elevator equipment and comprises a data test module and a user-defined detection control module, the data test module is used for comparing monitoring data fed back by the data management system to judge whether the monitoring data are perfect, and the user-defined detection control module is used for automatically setting the sequence and the number of detection items.

The data testing module also comprises a numerical value setting unit, a data receiving unit, a data comparison unit and a data judgment unit, wherein the numerical value setting unit is used for automatically setting correct parameters of various operation performances of the elevator equipment, the data receiving unit is used for receiving monitoring data transmitted by the data management system, the data comparison unit is used for comparing the monitoring data with the set correct parameters, and the data judgment unit is used for judging according to the comparison result and transmitting the judgment result to the processor.

The self-defined detection control module comprises an instruction editing unit, an instruction generating unit and an instruction sending unit, wherein the instruction editing unit is used for automatically editing the sequence and the quantity of the items to be detected, the instruction generating unit is used for generating an instruction according to the edited content, the instruction sending unit is used for transmitting the generated instruction to the elevator equipment for driving detection of the elevator equipment, the server terminal is connected with the processor through the communication module, and then the processor operates the function detection system, during operation, correct parameters of various running performances of the elevator equipment are automatically set through the numerical value setting unit, the sequence and the quantity of the items to be detected are automatically edited through the instruction editing unit, the instruction is generated through the instruction generating unit after the editing is finished, the generated instruction is transmitted to the elevator equipment for driving detection of the elevator equipment through the instruction sending unit, and the data acquisition submodule monitors and feeds back the running parameters of each part of the elevator equipment during detection, the feedback result is stored in a data storage library, data in the data storage library is sorted and summarized according to time and deleted at regular time by a data management submodule, the processor transmits real-time monitored data to a data receiving unit during testing, a data comparison unit compares the received monitored data with set correct parameters, a data judgment unit judges according to the comparison result and transmits the judgment result to the processor, and the processor transmits the judgment result to the server terminal through a communication module.

The maintenance system is used for maintaining and repairing elevator equipment and comprises a maintenance personnel management module, a task distribution module and a maintenance information recording module, wherein the maintenance personnel management module is used for carrying out same management on information of maintenance personnel, the task distribution module is used for distributing tasks of maintenance and repair to the maintenance personnel, and the maintenance information recording module is used for recording information and time of maintenance or repair by the maintenance personnel.

The maintenance personnel management module also comprises a personnel information input unit, a mobile phone positioning unit and a personnel deleting unit, wherein the personnel information input unit is used for inputting information of maintenance personnel, the input information comprises a name, a work number and a mobile phone, the mobile phone positioning unit is used for positioning the position of the maintenance personnel, the task dispatching module is convenient to carry out nearby dispatching task, the personnel deleting unit is used for carrying out information logout on the personnel away from work, when a user triggers the fault of the elevator equipment, the processor transmits the information to the server terminal through the communication module, the server terminal transmits the information to the maintenance system after receiving the information, the maintenance system can position the maintenance personnel on schedule according to the position of the elevator after receiving the information, meanwhile, the emergency maintenance personnel are arranged nearby through the task dispatching module, and the emergency maintenance personnel can carry out emergency maintenance at the fastest speed after receiving the task, saves running waves on the road and improves the working efficiency.

The working principle of the invention is as follows: when the elevator function detection system is used, the server terminal is connected with the processor through the communication module, the processor operates the function detection system, during operation, correct parameters of various operation performances of the elevator equipment are automatically set through the numerical value setting unit, then the sequence and the quantity of items to be detected are automatically edited through the instruction editing unit, after the editing is finished, an instruction is generated through the instruction generating unit, the generated instruction is transmitted to the elevator equipment for driving detection through the instruction transmitting unit, the data acquisition submodule monitors and feeds back the operation parameters of each part of the elevator equipment during detection, the feedback result is stored in the data storage library, data in the data storage library is sorted and summarized according to time and useless data before being deleted at fixed time through the data management submodule, and during testing, the processor transmits the data monitored in real time to the data receiving unit, the data comparison unit can compare the received monitoring data with the set correct parameters, the data judgment unit judges according to the comparison result and transmits the judgment result to the processor, and the processor transmits the judgment result to the server terminal through the communication module;

when the user triggered elevator equipment's trouble, the treater passes through communication module and transmits information (this elevator equipment's position, elevator equipment is from taking the GPRS location) for the server terminal, the server terminal transmits to the maintenance system after receiving the information, the maintenance system can carry out the cell-phone location to the maintenance personal according to the position of this elevator after receiving the information, arrange the personnel of salvageing nearby through task distribution module simultaneously, the personnel of salvageing receive the task after, can salvage with the fastest speed, the rush wave of route has been practiced thrift, work efficiency has been improved, salvage personnel will salvage content and time and carry out the record through maintenance information record module after the completion of salvageing, it looks up the maintenance record conveniently after.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The elevator testing system based on the self-defined setting comprises a processor and a communication module and is characterized in that the processor is in bidirectional wireless transmission with a server terminal through the communication module and is electrically connected with elevator equipment in a bidirectional mode, the processor is electrically connected with a function detecting system and a data management system respectively, the function detecting system and the data management system are electrically connected with the elevator equipment, and the server terminal is in wireless transmission with a maintenance system through the communication module.

2. The elevator testing system based on the self-defined setting as claimed in claim 1, wherein the data management system is used for collecting and backing up the operation condition of the elevator device, and the data management system includes a data collection submodule, a data storage library and a data management submodule, the data collection submodule employs a plurality of sensors, the plurality of sensors are respectively installed at each detection position of the elevator device and used for monitoring and feeding back the operation parameters of the whole elevator device, the data storage library is used for storing the operation parameters fed back by the data collection submodule, the data management submodule is used for carrying out the same management on the data in the data storage library, and the same management includes sorting according to time and deleting data which are not used before at regular time.

3. The elevator testing system based on the self-defined setting as claimed in claim 1, wherein the function detecting system is used for testing different operation performance parameters of the elevator equipment, and the function detecting system comprises a data testing module and a self-defined detection control module, the data testing module is used for comparing monitoring data fed back by the data management system to determine whether the monitoring data is perfect, and the self-defined detection control module is used for automatically setting the sequence and the number of detection items.

4. The elevator testing system based on the self-defined setting of claim 3, wherein the data testing module further comprises a numerical value setting unit, a data receiving unit, a data comparing unit and a data judging unit, the numerical value setting unit is used for automatically setting correct parameters of each operation performance of the elevator equipment, the data receiving unit is used for receiving monitoring data transmitted by the data management system, the data comparing unit is used for comparing the monitoring data with the set correct parameters, and the data judging unit is used for judging according to the comparison result and transmitting the judgment result to the processor.

5. The elevator testing system based on the customized setting according to claim 3, wherein the customized detection control module comprises an instruction editing unit, an instruction generating unit and an instruction sending unit, the instruction editing unit is used for editing the sequence and the number of the items to be detected by self, the instruction generating unit is used for generating an instruction according to the edited content, and the instruction sending unit is used for transmitting the generated instruction to the elevator equipment for driving and detecting the elevator equipment.

6. The elevator testing system based on the self-defined setting of claim 1, characterized in that, the maintenance system is used for maintaining and repairing elevator equipment, and the maintenance system comprises a maintenance personnel management module, a task distribution module and a maintenance information recording module, wherein the maintenance personnel management module is used for carrying out the same management on the information of maintenance personnel, the task distribution module is used for distributing the tasks of maintenance and repair to the maintenance personnel, and the maintenance information recording module is used for recording the information and time of maintenance or repair of the maintenance personnel.

7. The elevator testing system based on the self-defined setting of claim 6, wherein the maintenance personnel management module further comprises a personnel information entry unit, a mobile phone positioning unit and a personnel deletion unit, the personnel information entry unit is used for entering information of maintenance personnel, the entered information comprises a name, a work number and a mobile phone, the mobile phone positioning unit is used for positioning the position of the maintenance personnel, the task dispatching module can conveniently carry out nearby dispatching tasks, and the personnel deletion unit is used for carrying out information logout on personnel who leave the office.