CN113896065A

CN113896065A - Elevator vibration self-detection method, medium and computer equipment

Info

Publication number: CN113896065A
Application number: CN202111009711.1A
Authority: CN
Inventors: 祝小强; 王坤豪; 胡智丰
Original assignee: Hitachi Elevator China Co Ltd
Current assignee: Hitachi Elevator China Co Ltd
Priority date: 2021-08-31
Filing date: 2021-08-31
Publication date: 2022-01-07
Anticipated expiration: 2041-08-31
Also published as: CN113896065B

Abstract

The invention discloses an elevator vibration self-detection method which is characterized by comprising the following steps: obtaining vibration data and vibration state of elevator operation; processing a vibration adjusting parameter set value of the elevator control panel according to the vibration data to control the vibration state of the elevator; and sending the vibration data and the vibration state to a cloud terminal. Through the technical scheme, the vibration state of the elevator can be monitored, and parameter adjustment is performed based on the vibration state and data, so that the state of the elevator is adjusted, and the running safety of the elevator is guaranteed.

Description

Elevator vibration self-detection method, medium and computer equipment

Technical Field

The invention belongs to the technical field of elevator detection, and particularly relates to an elevator vibration self-detection method, a medium and computer equipment.

Background

The quality of the vibration of the elevator affects the comfort of the elevator and the service life of the elevator, and is a very important examination value of the elevator. Elevator vibration depends on the quality of mechanical installation and elevator operation control, and after elevator installation is completed, the elevator vibration can be influenced and only the elevator operation control is realized. In the control system of the elevator, the parameters of the optimized vibration are used for ensuring that the vibration of the elevator meets the use standard of the elevator, but the parameter values of the optimized vibration are set into set values in an elevator control panel when the elevator leaves a factory.

The parameter settings for optimizing the vibrations will not change during the whole life cycle of the elevator if not adjusted manually. When elevator relevant parts are ageing, elevator vibrations worsen thereupon for the elevator comfort is also worse and worse, causes the customer experience poor. The elevator is in a state that the vibration is not within a normal value for a long time, so that the service life of the elevator is accelerated to be ended in advance.

In addition, when some elevator components are abnormal to a certain degree in the running process of the elevator, the alarm of the elevator safety system cannot be caused. But the abnormity of the components can inevitably cause the change of the vibration state of the elevator, and if the change of the vibration state of the elevator does not cause the attention of elevator professionals, an elevator safety accident can happen in serious cases.

Based on the above, the vibration adjustment parameter value of the elevator is not corrected along with the aging of elevator components, so that the comfort of the elevator is influenced; the vibration state of the elevator is not effectively monitored, so that elevator professional managers cannot know elevator components outside the control of the elevator safety system and cannot make a careful elevator maintenance plan.

At present, the correction of the set value of the vibration adjusting parameter requires an elevator professional to measure the vibration data of the elevator according to different loads of the elevator, and the set value of the vibration adjusting parameter is adjusted through computer analysis, so that the vibration state of the elevator is changed, the efficiency is low, and the requirement on the elevator professional is high; elevator professionals cannot comprehensively control the state of the elevator, and the service life of the elevator is influenced.

Disclosure of Invention

In order to overcome the technical defects, the invention provides an elevator vibration self-detection method, which can realize the vibration self-detection of an elevator and provide a guarantee medium and computer equipment for the use safety of the elevator.

In order to solve the problems, the invention adopts the following scheme:

an elevator vibration self-detection method is characterized by comprising the following steps:

obtaining vibration data and vibration state of elevator operation;

processing a vibration adjusting parameter set value of the elevator control panel according to the vibration data to control the vibration state of the elevator;

and sending the vibration data and the vibration state to a cloud terminal.

Preferably, the processing of the vibration adjustment parameter setting values of the elevator control panel to control the vibration state of the elevator according to the vibration data comprises:

and continuously acquiring vibration data in real time, and correcting the set value of the vibration adjusting parameter of the elevator control panel to control the vibration state of the elevator when the difference between the vibration data of the current period and the vibration data of the previous period is smaller than the set value which can be effectively corrected and no prompt is given to the safety system of the elevator.

Preferably, the cloud end shares the vibration state and the vibration data to the client cloud system and the elevator remote monitoring system.

and continuously acquiring vibration data in real time, and when the difference between the vibration data of the period and the vibration data of the last period is larger than a set value which can be effectively corrected and no prompt is given to a safety system of the elevator, keeping the vibration data of the last period and not adjusting the set value of the vibration adjusting parameter, so that the elevator keeps the vibration state of the last period, and enters a fault mode, so that the elevator stops on the near floor and stops elevator service after the door is opened.

Preferably, the method further comprises the following steps: when the fault of the data processing control panel is obtained, the set value of the vibration adjusting parameter is not adjusted, and an MPU (microprocessor unit) board of the elevator is driven, so that the elevator enters a certain fault mode, stops the elevator on the near floor and stops the elevator service after the door is opened; and sharing the fault information of the data processing control panel to the cloud end in real time.

Preferably, the method further comprises the following steps of keeping the vibration data of the last period and not adjusting the set value of the vibration adjusting parameter when the fault information of the vibration acquisition sensor is acquired, so that the elevator keeps the vibration state of the last period, enters a fault mode, stops the elevator service after the elevator stops at a near floor and opens the door, and shares the fault of the sensor to the cloud in real time.

Preferably, the cloud end makes an elevator maintenance plan of the next period according to the vibration state and the fault information data.

Preferably, the method further comprises the following steps: and acquiring an instruction of the client for correcting the set value of the elevator vibration adjusting parameter.

A computer readable storage medium having stored therein at least one instruction, at least one program, set of codes, or set of instructions, which is loaded and executed by a processor to implement the elevator shock self-detection method.

A computer device comprising a processor and a memory, said memory having stored therein at least one instruction, at least one program, set of codes, or set of instructions, said at least one instruction, at least one program, set of codes, or set of instructions being loaded and executed by said processor to implement said elevator vibration self-detection method

Compared with the prior art, the technical scheme has the following technical effects:

through the technical scheme, the vibration state of the elevator can be monitored, and parameter adjustment is performed based on the vibration state and data, so that the state of the elevator is adjusted, and the running safety of the elevator is guaranteed. Meanwhile, data of the vibration state self-detection system is shared in real time to the elevator remote monitoring system and the client management system, so that the elevator is more intelligent and convenient.

Drawings

Embodiments of the invention are described in further detail below with reference to the attached drawing figures, wherein:

fig. 1 is a schematic diagram of an elevator vibration self-detection method according to the present invention;

FIG. 2 is a schematic diagram of a computer device according to the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example 1

The embodiment provides an elevator vibration self-detection method, which comprises the following steps:

s1, obtaining vibration data and vibration state of elevator operation;

specifically, vibration data are collected through a vibration collection module, then vibration data of elevator operation are provided for an elevator vibration state self-detection system in real time, and the collected data are processed and then sent to a vibration state self-adjustment module in real time.

The vibration state acquisition module is provided with at least one vibration sensor. The sensor is an elevator high-precision vibration data acquisition instrument, can sense the change of fine vibration emitted from multidimensional space (or multiple directions) in real time and acquire data of the fine vibration, and forms a data packet of analog quantity or digital quantity for sending; the shape of the sensor can change the appearance according to the installation position, and can be mechanically fixed on the surface or the inner part of each component of the elevator (such as an elevator car bottom, an elevator car top, the inner part of an elevator guide rail, the inner part of a machine beam of an elevator main frame and the like); the power supply mode of the sensor is also diversified, and the elevator can meet various use environments; when the sensor is abnormal, the data acquisition work can be stopped, and fault data is automatically sent to the vibration state self-adjusting module to inform the sensor of faults.

S2, processing the vibration adjusting parameter set value of the elevator control panel according to the vibration data to control the vibration state of the elevator; and simultaneously monitors the parameter set values in real time. The method for processing the vibration adjusting parameter set value of the elevator control panel comprises the following steps of modifying the vibration adjusting parameter set value of the elevator control panel, wherein the data before and after modification are different, the data before and after modification are the same, and the vibration adjusting parameter set value of the elevator control panel is not modified. The step specifically comprises S21 and S22, and in order to ensure normal control of the operation conditions such as the vibration state of the elevator, the steps also comprise the conditions of S23 and S24:

s21, automatically correcting the vibration adjusting parameter set value of the elevator control panel in real time according to the real-time vibration data and the vibration state of the elevator in operation, wherein the difference between the vibration data in the current period and the vibration data in the previous period is smaller than the effective correction set value, so as to realize the closed-loop control of the vibration state of the elevator; and the vibration data information is shared to the cloud communication module in real time.

For example, when the vibration adjusting parameter setting value of the elevator MPU board is a, and when the elevator vibration state is poor, the vibration adjusting parameter setting value of the elevator MPU board needs to be adjusted to B, the data processing control board will automatically modify the setting value of the parameter to B, and share the vibration data information in real time to the cloud communication module.

And S22, when the vibration data are continuously acquired in real time and the difference between the vibration data in the period and the vibration data in the last period is larger than the set value which can be effectively corrected and no prompt is given to the safety system of the elevator, keeping the vibration data in the last period and not adjusting the set value of the vibration adjusting parameter, keeping the elevator in the vibration state in the last period, and enabling the elevator to enter a fault mode, so that the service of the elevator is stopped after the elevator is stopped and opened on the near floor.

When the vibration data is continuously obtained in real time, and the difference between the result of the operation and analysis in the period and the result in the last period is larger than the set value which can be effectively corrected, and no prompt is given to the safety system of the elevator, the data processing control panel keeps the vibration data in the last period, and does not adjust the set value of the vibration adjusting parameter of the MPU board of the elevator, so that the elevator keeps the vibration state in the last period, and drives the MPU board of the elevator to enter a certain fault mode, so that the elevator stops on the near floor, and the elevator stops serving after the door is opened and people are released; sharing fault information to the cloud communication module in real time;

for example, the effective correction setting value is C, when the result of the cycle operation analysis needs to set the vibration adjustment parameter setting value as D, and the previous cycle setting value is E, when D-E > C, the default is to adjust the vibration adjustment parameter setting value of the elevator control panel to not meet the correction of the elevator vibration state.

S23, when the fault information of the data processing control panel is obtained, the set value of the vibration adjusting parameter is not adjusted, and the MPU board of the elevator is driven, so that the elevator enters a certain fault mode, the elevator stops on the near floor and stops and the elevator service is stopped after the door is opened; and sharing the fault information of the data processing control panel to the cloud end in real time.

Specifically, when the data processing control panel is abnormal, the data processing work can be stopped, the vibration adjusting parameter set value of the elevator MPU board is not adjusted, the elevator MPU board is driven to enable the elevator to enter a certain fault mode, the elevator stops on a near floor, after people are released after the elevator is opened, the elevator stops serving, and fault information is shared in real time to the cloud communication module.

S24, when the fault information of the vibration acquisition sensor is acquired, the vibration data of the last period is kept and the set value of the vibration adjusting parameter is not adjusted, so that the elevator keeps the vibration state of the last period, the elevator enters a fault mode, the service of the elevator is stopped after the elevator is stopped and opened on the near floor, and the fault of the sensor is shared to the cloud in real time.

Specifically, when the data processing control panel receives the vibration acquisition sensor fault information, the data processing control panel can automatically keep the data of the previous period, adjustment of the vibration adjusting parameter set value of the elevator MPU board is not carried out, the elevator keeps the vibration state of the previous period, the elevator MPU board can be driven to enable the elevator to enter a certain fault mode, the elevator can still normally serve at the moment, and the fault information is shared in real time to the cloud communication module.

And S3, sending the vibration data and the vibration state to a cloud. The data processing control panel can share the data of operation analysis and fault information data to the cloud communication module in real time.

And S4, the cloud end shares the vibration state and the vibration data to the client cloud system and the elevator remote monitoring system. And the cloud end formulates an elevator maintenance plan of the next period according to the vibration state, the vibration data and the fault information.

The elevator vibration self-detection method further comprises the following steps: and acquiring an instruction of the client for correcting the set value of the elevator vibration adjusting parameter. The elevator professional manager can remotely correct the set value of the elevator vibration adjusting parameter and process the elevator fault through the cloud communication module, so that the elevator is in a healthy state.

Based on the method, the vibration self-detection system of the elevator is correspondingly configured, and a core module of the system comprises a vibration acquisition module, a vibration state self-adjustment module, a cloud communication module and the like. The system adopts big data analysis and operation, and module data are exchanged in real time, so that the effectiveness of the vibration self-detection system is ensured. Meanwhile, data of the vibration state self-detection system is shared in real time to the elevator remote monitoring system and the client management system, so that the elevator is more intelligent and convenient.

The vibration acquisition module is mainly used for providing vibration data of elevator operation for the elevator vibration state self-detection system in real time, processing the acquired data and then sending the processed data to the vibration state self-adjustment module in real time.

The vibration state self-adjusting module is the core of the whole elevator vibration state self-detecting system, undertakes the task of analyzing and calculating the data acquired by the vibration acquisition module, automatically corrects the vibration adjusting parameter set value of the elevator MPU board in real time according to the result of the data analysis and calculation, and monitors the set value in real time on line; the vibration state self-adjusting module can automatically share the vibration state and fault data of the elevator to the cloud communication module.

The vibration state self-adjusting module is provided with at least one data processing control panel.

The data processing control panel can analyze and calculate real-time data, automatically correct the set value of the vibration adjusting parameter of the elevator control panel in real time according to the result of the data analysis and calculation, thereby realizing closed-loop control of the vibration state of the elevator (for example, when the set value of the vibration adjusting parameter of the elevator MPU panel is A, and when the vibration state of the elevator is poor, the set value of the vibration adjusting parameter of the elevator MPU panel needs to be adjusted to be B according to the operation and analysis of the data processing control panel, the data processing control panel can automatically correct the set value of the vibration adjusting parameter to be B), and can share the vibration data information to the cloud communication module in real time;

when the difference between the result of the operation and analysis in the period and the result in the last period is larger than the set value which can be effectively corrected and the safety system of the elevator does not give any prompt, the data processing control panel keeps the vibration data in the last period, the set value of the vibration adjusting parameter of the MPU board of the elevator is not adjusted, so that the elevator keeps the vibration state of the previous period, and drives the elevator MPU board to make the elevator enter a certain failure mode, so that the elevator stops at the near floor, after opening the door and releasing people, the elevator stops service (for example, the effective correction set value is C, when the result of the operation analysis in the period needs to set the vibration adjustment parameter set value as D, the previous period set value is E, and when D-E is more than C, the default is to adjust the vibration adjustment parameter set value of the elevator control panel to meet the correction of the vibration state of the elevator), and the fault information is shared to the cloud communication module in real time;

when the data processing control board receives the fault data of the vibration acquisition sensor, the data processing control board can automatically keep the data of the previous period without adjusting the set value of the vibration adjusting parameter of the MPU board of the elevator, so that the elevator keeps the vibration state of the previous period, and the MPU board of the elevator is driven to enable the elevator to enter a certain fault mode, and at the moment, the elevator can still normally serve and share the fault information in real time to the cloud communication module;

when the data processing control board is abnormal, the data processing work can be stopped, the vibration adjusting parameter set value of the elevator MPU board is not adjusted, the elevator MPU board is driven to enable the elevator to enter a certain fault mode, the elevator is stopped on a near floor, after people are released by opening the door, the elevator stops service, and fault information is shared in real time to the cloud communication module;

the data processing control panel can share the data of operation analysis and fault information data to the cloud communication module in real time.

The cloud communication module is mainly used for sharing elevator vibration state data and fault information data to the client cloud system and the elevator remote monitoring system by the elevator vibration state self-detection system, so that man-machine interaction of the elevator vibration state is realized, and normal operation of the elevator is ensured; elevator professional managers can also remotely modify elevator vibration adjusting parameters and clear fault information through the cloud communication module. The cloud communication module is provided with at least one communication device.

The cloud communication module sends vibration state data and fault information data to the client cloud system and the elevator remote monitoring system in real time, and automatically selects push messages to prompt clients and managers according to the vibration state data and the fault information data so as to inform the relevant states of the elevator;

the cloud communication module can also automatically make a maintenance plan of the elevator in the next period according to the vibration state data and the fault information data, so that the elevator professional manager can manage the elevator conveniently and the service life of the elevator can be prolonged;

the elevator professional manager can remotely correct the set value of the elevator vibration adjusting parameter and process the elevator fault through the cloud communication module, so that the elevator is in a healthy state.

In the above way, according to the vibration self-detection system principle described in the patent, the vibration of the elevator is improved through technical means such as logic operation, big data analysis and processing, communication and the like.

Example 2

The present embodiment provides a computer-readable storage medium having at least one instruction, at least one program, a set of codes, or a set of instructions stored therein, which is loaded and executed by a processor to implement the elevator vibration self-detection method as in embodiment 1.

It will be understood by those of ordinary skill in the art that all or some of the steps of the methods, systems, functional modules/units in the devices disclosed above may be implemented as software, firmware, hardware, and suitable combinations thereof. In a hardware implementation, the division between functional modules/units mentioned in the above description does not necessarily correspond to the division of physical components; for example, one physical component may have multiple functions, or one function or step may be performed by several physical components in cooperation. Some or all of the physical components may be implemented as software executed by a processor, such as a central processing unit, digital signal processor, or microprocessor, or as hardware, or as an integrated circuit, such as an application specific integrated circuit. Such software may be distributed on computer readable storage media, which may include computer readable storage media (or non-transitory media) and communication media (or transitory media).

The term computer-readable storage medium includes volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer-readable instructions, data structures, program modules or other data, as is well known to those of ordinary skill in the art. Computer-readable storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, Digital Versatile Disks (DVD) or other optical disk storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and which can be accessed by a computer. In addition, communication media typically embodies computer readable instructions, data structures, program modules or other data in a modulated data signal such as a carrier wave or other transport mechanism and includes any information delivery media as known to those skilled in the art.

Example 3

The present embodiment provides a computer apparatus, as shown in fig. 2, a distributed storage system includes a processor and a memory, where at least one instruction, at least one program, a code set, or an instruction set is stored in the memory, and the at least one instruction, the at least one program, the code set, or the instruction set is loaded and executed by the processor to implement the elevator vibration self-detection method in embodiment 1.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, so that any modification, equivalent change and modification made to the above embodiment according to the technical spirit of the present invention are within the scope of the technical solution of the present invention.

Claims

1. An elevator vibration self-detection method is characterized by comprising the following steps:

obtaining vibration data and vibration state of elevator operation;

and sending the vibration data and the vibration state to a cloud terminal.

2. The elevator vibration self-detection method according to claim 1,

according to the vibration data, the vibration adjusting parameter set value of the elevator control panel is processed to control the vibration state of the elevator, comprising:

3. The elevator vibration self-detection method according to claim 1, wherein the cloud end shares the vibration state and vibration data with a client cloud system and an elevator remote monitoring system.

4. The elevator vibration self-detection method according to claim 1, wherein processing vibration adjustment parameter settings of an elevator control panel to control the vibration state of the elevator based on the vibration data comprises:

5. The elevator vibration self-detection method according to claim 1, further comprising the steps of: when the fault of the data processing control panel is obtained, the set value of the vibration adjusting parameter is not adjusted, and an MPU (microprocessor unit) board of the elevator is driven, so that the elevator enters a certain fault mode, stops the elevator on the near floor and stops the elevator service after the door is opened; and sharing the fault information of the data processing control panel to the cloud end in real time.

6. The elevator vibration self-detection method according to claim 1, further comprising the steps of keeping the vibration data of the previous period and not adjusting the vibration adjustment parameter set value when the vibration acquisition sensor fault information is acquired, enabling the elevator to keep the vibration state of the previous period, enabling the elevator to enter a fault mode, stopping elevator service after the elevator is stopped and the door is opened on the near floor, and sharing the sensor fault to the cloud in real time.

7. The elevator vibration self-detection method according to claim 1, wherein the cloud makes an elevator maintenance plan of the next period according to the vibration state and the fault information data.

8. The elevator vibration self-detection method according to claim 1, further comprising the steps of: and acquiring an instruction of the client for correcting the set value of the elevator vibration adjusting parameter.

9. A computer readable storage medium having stored therein at least one instruction, at least one program, a set of codes, or a set of instructions, which is loaded and executed by a processor to implement the elevator shock self-detection method according to any one of claims 1 to 8.

10. Computer arrangement, characterized in that it comprises a processor and a memory, in which at least one instruction, at least one program, set of codes or set of instructions is stored, which is loaded and executed by the processor to implement the elevator shock self-detection method according to any of claims 1 to 8.