CN114538233A

CN114538233A - Instrument manufacturing detection system based on big data

Info

Publication number: CN114538233A
Application number: CN202210234394.1A
Authority: CN
Inventors: 肖华
Original assignee: Atlas Intelligent Engineering Nantong Co ltd
Current assignee: Atlas Intelligent Engineering Nantong Co ltd
Priority date: 2022-03-10
Filing date: 2022-03-10
Publication date: 2022-05-27
Anticipated expiration: 2042-03-10
Also published as: CN114538233B

Abstract

The invention discloses a big data-based detection system for instrument manufacturing, which comprises an elevator detection system and a fine adjustment unit, and is characterized in that: the elevator detection system comprises an elevator upper end calibrator and a first micro oscillator connected with the elevator upper end calibrator, wherein the first micro oscillator is connected with a maintenance instrument inside the elevator, a detachable storage unit is embedded into the maintenance instrument and can transmit information and instructions by Bluetooth, and the detachable storage unit records the calibration condition of the elevator in real time; the lower end of the elevator is provided with an elevator lower end calibrator and a second micro oscillator connected with the elevator lower end calibrator; the elevator upper end calibrator and the elevator lower end calibrator are arranged in an aligned mode, and the first miniature oscillator and the second miniature oscillator are connected with the same detachable storage unit.

Description

Instrument manufacturing detection system based on big data

Technical Field

The invention relates to the technical field of elevator maintenance, in particular to a big data-based instrument manufacturing detection system.

Background

The instruments and meters are instruments or equipment for detecting, measuring, observing and calculating various physical quantities, material compositions, physical property parameters and the like, and the instruments and meters in the instrument and meter manufacturing industry mainly comprise optical instruments, electrical instruments and meters, industrial automatic control system devices, transportation equipment, counting instruments for production and the like;

the domestic capital construction building is greatly increased in 2010-2020, the installation quantity of the elevators is greatly increased, the elevators are required to be periodically maintained after the elevators are installed, and the conventional maintenance is that the elevators are stopped when the elevator use efficiency is low by personnel, so that the elevators are subjected to detailed inspection, the inspection process is the same each time, and the reason is that the maintenance personnel cannot know whether the elevators have problems or not, so that the consumed time is long;

the intelligent data system is installed in the existing new generation of elevators, namely, the elevator system is installed on each elevator, maintenance personnel only need to remotely observe data and judge whether the elevator needs to be maintained according to the data, the elevator only needs to send maintenance personnel every 2 months to check field data, the problems of aging and the like of a system circuit are checked, and the checking time is short.

Disclosure of Invention

The present invention is directed to a large data-based meter manufacturing detection system to solve the problems of the background art.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a detecting system for instrument manufacturing based on big data, includes elevator detecting system and fine setting unit, its characterized in that: the elevator detection system comprises an elevator upper end calibrator and a first micro oscillator connected with the elevator upper end calibrator, wherein the first micro oscillator is connected with a maintenance instrument inside the elevator, a detachable storage unit is embedded in the maintenance instrument and can transmit information and instructions by Bluetooth, and the detachable storage unit records the calibration condition of the elevator in real time;

the lower end of the elevator is provided with an elevator lower end calibrator and a second micro oscillator connected with the elevator lower end calibrator;

the elevator upper end calibrator and the elevator lower end calibrator are arranged in an aligned mode, and the first miniature oscillator and the second miniature oscillator are connected with the same detachable storage unit;

the first micro oscillator and the second micro oscillator are internally provided with processors, the processors can be compiled and used for receiving instructions and operating instructions, and the processors record the operating instructions each time;

the first and second micro-wobblers are slaved to a fine tuning unit in the system.

According to the technical scheme, the elevator detection system further comprises a door calibrator which is divided into a first door calibrator and a second door calibrator, a timer and a first position sensor are installed inside the first door calibrator, the timer is detachable, a second position sensor is installed inside the second door calibrator, and the first position sensor and the second position sensor are successfully prepared in advance;

the timer is connected with the detachable storage unit, each time of the stopping time point of the elevator is recorded, fixed point sensors are fixed inside the timer, fixed point relay devices are installed at floor elevator doors, the fixed point sensors and the fixed point relay devices are triggered once at a distance of r units, the triggering is not recorded, the fixed point sensors and the fixed point relay devices stop for more than 5 seconds within the distance of r units, and the triggering record is the stopping time point of the elevator.

According to the technical scheme, a horizontal detector is installed on the inner side of the bottom of the floor elevator door, and a laser scanner is arranged in the horizontal detector and connected to the detachable storage unit;

the level detector detects once when the elevator triggers the elevator stop time point, and the detection flow is as follows:

the horizontal detector aligns to the bottom of the elevator riding space, judges whether the elevator is higher than the floor height, marks the stopping time point of the elevator in the detachable storage unit to be red if the elevator is higher than the floor height, is convenient for maintenance personnel to check, marks the stopping time point of the elevator in the detachable storage unit to be normal if the elevator is equal to the floor height, and marks the stopping time point of the elevator in the detachable storage unit to be blue if the elevator is lower than the floor height;

the elevator bottom is provided with the quality detection module, the weight of the personnel in the elevator is recorded once by the quality detection module when the elevator triggers the elevator stop time point, and the data is transmitted to the detachable storage unit.

According to the technical scheme, the level detector obtains a conclusion that the elevator is higher than the floor height, and the elevator is lower than the floor height, so that the elevator is level with the floor and is not in the operating range;

if the elevator is higher than the floor height, calculating the height H of the elevator higher than the floor, and dividing the height H into 10 levels H1-H10, wherein H1 indicates that the value of the raised height is minimum, and H10 indicates that the raised height is maximum;

the bottom of the elevator is provided with a telescopic pedal, the extending length of the pedal is set to be L, the pedal is divided into 10 levels in total, L1-L10, L1 indicates that the extending length of the pedal is shortest, L10 indicates that the extending length of the pedal is longest, H1-H10 and L1-L10 correspond to each other one by one, when the elevator is higher than the height of a floor, the bottom of the elevator extends out of the pedal, the pedal extends out and is pressed down to form a gradient with the floor, and the gradient can effectively avoid the situation that people fall down when entering the elevator;

if the elevator is lower than the floor height, calculating the height M of the elevator lower than the floor, and dividing the height M into 10 levels in total from M1 to M10, wherein M1 indicates that the value of the height lower than the floor is minimum, and M10 indicates that the value of the height lower than the floor is maximum;

the bottom of the elevator is provided with a turning plate, the height of the turning plate is set to be N, the N is divided into N1-N10, 10 levels are counted, N1 indicates that the turning plate is the shortest, N10 indicates that the turning plate is the highest, M1-M10 and N1-N10 correspond to each other one by one, and when the elevator is lower than the height of a floor, the bottom of the inner space of the elevator extends out of the turning plate and forms a slope with the height of the floor which is higher.

According to the technical scheme, after the level detector detects that the elevator is abnormal, the processor reads information from the detachable storage unit and sends a driving command to the first micro oscillator and the second micro oscillator, and the first micro oscillator and the second micro oscillator start to operate;

the first and second micro-wobblers operating steps of:

after the running of the pedal is finished, whether the pressure sensor at the bottom of the pedal detects the standard, the standard of the standard is that the bottom of the pedal is completely attached to the ground, if the pedal reaches the standard, the numerical value of the pressure sensor is set to be F_FixingIf the pedal does not reach the standard, the pressure sensor transmits information to the processor, the processor drives the first micro oscillator and the second micro oscillator, the first micro oscillator and the second micro oscillator drive the pedal to descend by 0.3 cm, the pressure sensor continues to detect a pressure value, and a pressure error range F is set_{Error of the measurement}If the pressure value range is in F at the moment_{Error of the measurement}If the detected pressure value range is not F, the pedal is in a reasonable position_{Error of the measurement}And then the height of the steel wire is continuously reduced by 0.3 cm, and the distance of each reduction is 0.3 cm.

According to the technical scheme, the operation process of the turning plate is as follows:

the turning plate runs until the turning plate is tightly attached to the high part of a floor, if a distance detector at the top of the turning plate detects that the distance between the turning plate and the top of the floor is B, if the value B is within the range of 0-0.2 cm, the distance detector sends information to a processor, the processor drives a first micro oscillator and a second micro oscillator to push the turning plate to be upwards adjusted by 0.2 cm, the turning plate is enabled to be flush with the height of the floor, if the value B is not within the range of 0-0.2 cm, the stair sinking height is too high, the turning plate at the N10 level cannot fill the sinking height, and the height error B value is recorded.

According to the technical scheme, the first door calibrator and the second door calibrator detect the flatness of the elevator after the elevator door is opened, record each calibration value, and observe data by a maintenance worker, wherein if the times that the elevator is not opened or closed within a reasonable flatness range exceeds a set time value V, the maintenance worker carries out detailed inspection on the elevator.

Compared with the prior art, the invention has the following beneficial effects: according to the elevator, the pedal is arranged, when the elevator is higher than the floor height, the bottom of the elevator extends out of the pedal, the pedal extends out and presses down to form a gradient with the floor, and the gradient can effectively avoid the situation that people fall down when entering the elevator.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic diagram of the system of the present invention;

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a detecting system for instrument manufacturing based on big data, includes elevator detecting system and fine setting unit, its characterized in that: the elevator detection system comprises an elevator upper end calibrator and a first micro oscillator connected with the elevator upper end calibrator, wherein the first micro oscillator is connected with a maintenance instrument inside the elevator, a detachable storage unit is embedded in the maintenance instrument and can transmit information and instructions by Bluetooth, and the detachable storage unit can record the calibration condition of the elevator in real time;

processors are arranged in the first micro oscillator and the second micro oscillator, the processors can be compiled and used for receiving instructions and operating instructions, and meanwhile, the processors record each operating instruction;

The elevator detection system also comprises a door calibrator which is divided into a first door calibrator and a second door calibrator, wherein a timer and a first position sensor are installed inside the first door calibrator, the timer is detachable, a second position sensor is installed inside the second door calibrator, and the first position sensor and the second position sensor are successfully prepared in advance;

the timer is connected with the detachable storage unit, each time of the stop time point of the elevator is recorded, the fixed-point sensors are fixed inside the timer, the fixed-point relay devices are installed at the elevator doors of floors, the fixed-point sensors and the fixed-point relay devices are triggered once at a distance of r units, the triggering is not recorded, the fixed-point sensors and the fixed-point relay devices stop for more than 5 seconds within the distance of r units, and the triggering record is the stop time point of the elevator.

A horizontal detector is arranged on the inner side of the bottom of the floor elevator door, and a laser scanner is arranged in the horizontal detector and is connected to the detachable storage unit;

the level detector detects once when the elevator triggers the elevator stop time point, and the detection flow is:

the elevator bottom is provided with quality detection module, and quality detection module records the weight of the inside personnel of elevator once when the elevator triggers the elevator stop time point to with this data transmission to can dismantle the storage element.

The level detector obtains the conclusion that the elevator is higher than the floor height, and the elevator is lower than the floor height, so that the elevator is level with the floor and is not in the operating range;

if the elevator is higher than the floor height, calculating the height H of the elevator higher than the floor, dividing the height H into 10 levels H1-H10, wherein H1 shows that the value of the raised height is minimum, and H10 shows that the raised height is maximum;

the retractable pedal is arranged at the bottom of the elevator, the extending length of the pedal is set to be L and is divided into 10 levels in total, L1-L10, L1 indicates that the extending length of the pedal is shortest, L10 indicates that the extending length of the pedal is longest, H1-H10 correspond to L1-L10 one by one, when the elevator is higher than the floor height, the pedal extends out of the bottom of the elevator, the pedal extends out and presses down to form a gradient with the floor ground, and the gradient can effectively avoid the situation that people fall down when entering the elevator;

the bottom of the elevator is provided with a turning plate, the height of the turning plate is set to be N, the N is divided into N1-N10 which are 10 levels in total, N1 indicates that the turning plate is the shortest, N10 indicates that the turning plate is the highest, M1-M10 and N1-N10 correspond one by one, and when the elevator is lower than the height of a floor, the bottom of the inner space of the elevator extends out of the turning plate to form a slope with the height of the higher floor.

After the level detector detects that the elevator is abnormal, the processor reads information from the detachable storage unit and sends a driving instruction to the first micro oscillator and the second micro oscillator, and the first micro oscillator and the second micro oscillator start to operate;

the first and second micro-wobblers operating steps of:

after the running of the pedal is finished, whether the pressure sensor at the bottom of the pedal detects the standard is reached, the standard is that the bottom of the pedal is completely attached to the ground, and if the pedal reaches the standard, the numerical value of the pressure sensor is set to be F_{Fixing the device}The pressure sensor does not transmit information, if the pedal does not reach the standard, the pressure sensor transmits the information to the processor, and the processor drives the first micro oscillator, the second micro oscillator, the first micro oscillator and the second micro oscillatorThe two micro-oscillators drive the pedal to descend by 0.3 cm, the pressure sensor continues to detect the pressure value, and the pressure error range F is set_{Error of the measurement}If the pressure value range is in F at the moment_{Error of the measurement}If the detected pressure value range is not F, the pedal is in a reasonable position_{Error of the measurement}And then the height of the steel wire is continuously reduced by 0.3 cm, and the distance of each reduction is 0.3 cm.

The operation flow of the turning plate is as follows:

the turning plate runs until the turning plate is tightly attached to the high part of a floor, if a distance detector at the top of the turning plate detects that the distance between the turning plate and the top of the floor is B, if the value B is within the range of 0-0.2 cm, the distance detector sends information to a processor, the processor drives a first micro oscillator and a second micro oscillator to push the turning plate to be upwards adjusted by 0.2 cm, the turning plate is enabled to be flush with the height of the floor, if the value B is not within the range of 0-0.2 cm, the stair sinking height is too high, the sinking height cannot be filled by the turning plate at the N10 level, and the height error B value is recorded.

First ladder door calibrator and second ladder door calibrator will detect the roughness of elevator after the lift-cabin door is opened, note the calibration numerical value of every turn, and maintenance personal observes data, if the number of times that the elevator opened and shut not in reasonable roughness scope exceeds and sets for number of times numerical value V, then maintenance personal carries out detailed inspection to this elevator.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a detecting system for instrument manufacturing based on big data, includes elevator detecting system and fine setting unit, its characterized in that: the elevator detection system comprises an elevator upper end calibrator and a first micro oscillator connected with the elevator upper end calibrator, wherein the first micro oscillator is connected with a maintenance instrument inside the elevator, a detachable storage unit is embedded in the maintenance instrument and can transmit information and instructions by Bluetooth, and the detachable storage unit records the calibration condition of the elevator in real time;

2. The big-data based detection system for manufacturing instruments according to claim 1, wherein: the elevator detection system further comprises a door calibrator which is divided into a first door calibrator and a second door calibrator, wherein a timer and a first position sensor are installed inside the first door calibrator, the timer is detachable, a second position sensor is installed inside the second door calibrator, and the first position sensor and the second position sensor are successfully prepared in advance;

3. The big-data based detection system for manufacturing instruments according to claim 2, wherein: a horizontal detector is installed on the inner side of the bottom of the floor elevator door, and a laser scanner is arranged in the horizontal detector and connected to the detachable storage unit;

4. The big-data based detection system for manufacturing instruments according to claim 3, wherein: the level detector obtains a conclusion that the elevator is higher than the floor height, and the elevator is lower than the floor height, so that the elevator is level with the floor and is not in the operating range;

5. The big-data based detection system for manufacturing instruments according to claim 4, wherein: after the level detector detects that the elevator is abnormal, the processor reads information from the detachable storage unit and sends a driving instruction to the first micro oscillator and the second micro oscillator, and the first micro oscillator and the second micro oscillator start to operate;

the first and second micro-wobblers operating steps of:

after the running of the pedal is finished, whether the pressure sensor at the bottom of the pedal detects a standard or not, and the standard is reachedThe bottom of the pedal is exactly attached to the ground, if the pedal reaches the standard, the numerical value of the pressure sensor is set to be F_FixingIf the pedal does not reach the standard, the pressure sensor transmits information to the processor, the processor drives the first micro oscillator and the second micro oscillator, the first micro oscillator and the second micro oscillator drive the pedal to descend by 0.3 cm, the pressure sensor continues to detect a pressure value, and a pressure error range F is set_{Error of the measurement}If the pressure value range is in F at the moment_{Error of the measurement}If the detected pressure value range is not F, the pedal is in a reasonable position_{Error of the measurement}And then the height of the steel wire is continuously reduced by 0.3 cm, and the distance of each reduction is 0.3 cm.

6. The big-data based detection system for manufacturing instruments according to claim 5, wherein: the operation flow of the turning plate is as follows:

7. The big-data based detection system for manufacturing instruments according to claim 6, wherein: the first elevator door calibrator and the second elevator door calibrator detect the flatness of the elevator after the elevator door is opened, record the calibration value every time, and observe data by maintenance personnel, if the times that the elevator is not opened or closed within a reasonable flatness range exceeds a set time value V, the maintenance personnel perform detailed inspection on the elevator.