CN110759201A - Intelligent elevator monitoring system - Google Patents

Abstract

The invention discloses an intelligent elevator monitoring system, which comprises a data processor, an acquisition module, a cloud server, a response module and a remote terminal, wherein the acquisition module is provided with a weight sensor for detecting the load of an elevator, a height sensor for detecting the height of the position of the elevator, an air speed sensor of the ambient air speed of the elevator and an acceleration sensor for detecting the movement of the elevator; the data processor is connected with a cloud server and a remote terminal, and the cloud server is provided with a database for storing parameters; the invention realizes intelligent monitoring of the elevator, thereby monitoring the working process of the whole elevator, finding abnormal conditions in the running process of the elevator in time and ensuring the normal running of the elevator.

Description

Intelligent elevator monitoring system

Technical Field

The invention relates to the technical field of elevator monitoring, in particular to an intelligent elevator monitoring system.

Background

With the continuous high-speed growth of economy in China and the continuous expansion of urban construction, the output and sales of the elevator are increased at a high speed. The elevator is a multifunctional mechanical lifting device, which can be divided into a traction type and a forced type according to a driving mode, the development of the elevator technology is in a peak state, and because most units or individuals select multi-storey buildings for improving the utilization rate of a field, a device is also needed for conveniently transporting goods up and down or carrying out construction, and the elevator is widely applied to multi-storey buildings of factories due to the advantages of convenience in use, low cost, large load capacity, convenience in maintenance and the like.

Along with the increase of construction sites, the construction difficulty and complexity are improved, and the safety problem is more and more serious. Although China consumes a large amount of manpower and material resources to supervise every year, the effectiveness of manual supervision is reduced due to the problems of wide places, complex conditions, incomplete detection and the like. Therefore, how to comprehensively and efficiently carry out safety management on the construction elevator equipment and ensure the safe operation of the construction elevator equipment is a difficult problem which needs to be solved urgently.

Disclosure of Invention

The present invention is directed to an intelligent elevator monitoring system to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent elevator monitoring system comprises a data processor, an acquisition module, a cloud server, a response module and a remote terminal, wherein a plurality of sensors are arranged in the acquisition module, acquisition parameters of the sensors in the acquisition module are converted into data to be transmitted to the data processor, the data processor processes the data, sends corresponding instructions to the response module according to processing results, and controls corresponding equipment in the response module to work; the data processor is connected with a cloud server and a remote terminal, and the cloud server is provided with a database for storing parameters.

Preferably, the types of sensors in the collection module include, but are not limited to, a weight sensor for detecting the load of the elevator, a height sensor for detecting the height of the elevator, an air velocity sensor for detecting the ambient air velocity of the elevator, and an acceleration sensor for detecting the movement of the elevator.

Preferably, the weight sensors, the height sensors, the wind speed sensors and the acceleration sensors are all provided with at least three groups and are uniformly arranged on the lifter.

Preferably, a plurality of groups of data of the same sensor are transmitted to the data processor, the data processor checks a plurality of types of data, and the average value of the data passing the checking is taken as the final value; if the mutual error of the same sensors exceeds 10 percent, the group data is not adopted, and an error is reported to the sensor providing the group data, and the error message is transmitted to the remote terminal.

Preferably, the devices in the response module include, but are not limited to, an audible and visual alarm and an elevator motor.

Preferably, the colors of the light source lamps of the audible and visual alarm correspond to the types of the sensors in the acquisition module one by one, and the data processor enables the light source lamps with different colors to flash according to different types of the sensors for detecting parameters by the acquisition module.

Preferably, after the data processor detects that the parameters acquired by the acquisition module have errors, the elevator motor refuses to execute the ascending instruction when the elevator is on the ground, and the elevator motor forcibly executes the descending instruction when the elevator is in the air.

Preferably, the remote terminal is one of a smart phone, a computer and a tablet computer, and the connection mode of the remote terminal and the data processor includes but is not limited to wired connection, wireless connection, ZigBee connection and bluetooth connection.

Preferably, the data processor transmits the parameter data of the acquisition module to the cloud server according to a time sequence, and the database stores the data.

Compared with the prior art, the invention has the beneficial effects that: the intelligent monitoring system can realize intelligent monitoring of the elevator, thereby monitoring the working process of the whole elevator, finding abnormal conditions in the running process of the elevator in time, ensuring the normal running of the elevator and facilitating the management of the elevator.

Drawings

FIG. 1 is a schematic structural view of the present invention;

reference numbers in the figures: 1. a data processor; 2. an acquisition module; 3. a cloud server; 31. a database; 4. a response module; 5. and a remote terminal.

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: an intelligent elevator monitoring system comprises a data processor 1, an acquisition module 2, a cloud server 3, a response module 4 and a remote terminal 5, wherein a plurality of sensors are arranged in the acquisition module 2, acquisition parameters of the sensors in the acquisition module 2 are converted into data to be transmitted to the data processor 1, the data processor 1 processes the data and sends corresponding instructions to the response module 4 according to processing results, and corresponding equipment in the response module 4 is controlled to work; the data processor 1 is connected with a cloud server 3 and a remote terminal 5, and the cloud server 3 is provided with a database 31 for storing parameters.

Further, the types of sensors in the collection module 2 include, but are not limited to, a weight sensor for detecting the weight of the elevator, a height sensor for detecting the height of the elevator, an air velocity sensor for detecting the ambient air velocity of the elevator, and an acceleration sensor for detecting the movement of the elevator.

Furthermore, weight sensor, altitude sensor, air velocity transducer, acceleration sensor all are provided with and are no less than 3 groups, evenly set up on the lift.

Further, a plurality of groups of data of the same sensor are transmitted to the data processor 1, the data processor 1 verifies various data, and the average value of the data passing the verification is taken as the final value; if the mutual error of the same sensors exceeds 10%, the group data is not adopted, and an error is generated for the sensor providing the group data, and the error information is transmitted to the remote terminal 5.

Further, the devices in the response module 4 include, but are not limited to, an audible and visual alarm and an elevator motor.

Furthermore, the colors of the light source lamps of the audible and visual alarm correspond to the types of the sensors in the acquisition module 2 one by one, and the data processor 1 enables the light source lamps with different colors to flicker according to the different types of the sensors for detecting parameters of the acquisition module 2.

Further, after the data processor 1 detects that the parameters acquired by the acquisition module 2 have errors, the elevator motor refuses to execute the ascending instruction when the elevator is on the ground, and the elevator motor forcibly executes the descending instruction when the elevator is in the air.

Further, the remote terminal 5 is one of a smart phone, a computer and a tablet computer, and the connection mode of the remote terminal 5 and the data processor 1 includes but is not limited to wired connection, wireless connection, ZigBee connection and bluetooth connection.

Further, the data processor 1 transmits the parameter data of the acquisition module 2 to the cloud server 3 in time sequence, and the database 31 stores the data.

The working principle is as follows: in the actual use process, a user sends an instruction to the corresponding module 4 through the data processor 1, so that the elevator motor in the response module 4 is controlled to work, and the elevator is driven to operate; in the running process of the elevator, the acquisition module 2 detects parameters in the running process of the elevator through each sensor and transmits corresponding data to the data processor 1, the data processor 1 detects parameters which do not meet requirements, and when the parameters have errors, information is sent to the corresponding module 4 to control corresponding equipment to work; meanwhile, the information is also transmitted to the cloud server 3 and the remote terminal 5, so that a user of the remote terminal 5 can timely master the state of the elevator and store the information in the database 31 of the cloud server 3.

The acquisition module 2 is provided with a plurality of sensors, such as a weight sensor, a height sensor, a wind speed sensor and an acceleration sensor, and each sensor is provided with a plurality of sensors, so that the reliability of detection data is ensured; meanwhile, after a plurality of data of the same type of sensor are jointly transmitted to the data processor 1, the data are checked firstly, the data with larger errors are eliminated, and then the average value is taken as a final value, so that the reliability of the final detection data is ensured. And reporting the error of the sensor corresponding to the error data, and feeding the error information back to the remote terminal 5 for the user to know and replace in time.

The devices in the response module 4 include but are not limited to an audible and visual alarm and a lifter motor, wherein the color of the alarm light source of the audible and visual alarm corresponds to the type of the sensors in the acquisition module 2 one by one, so that lamps with different colors can flash due to unqualified detection parameters of different sensors, and a user can conveniently and visually know the lamps. When the data of the sensor has errors, the motor of the elevator adjusts the elevator to the ground as soon as possible, and the elevator descends in the air and does not move on the ground.

The problems occurring in the using process of the elevator are processed by the data processor 1 and then fed back to the remote terminal 5, so that a user can know the problems conveniently; the information of the acquisition sensor of the acquisition module 2 is stored in the database 31 according to the time sequence, so that the subsequent users can conveniently check the information.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. An intelligent elevator monitoring system, characterized in that: the system comprises a data processor (1), an acquisition module (2), a cloud server (3), a response module (4) and a remote terminal (5), wherein a plurality of sensors are arranged in the acquisition module (2), acquisition parameters of the sensors in the acquisition module (2) are converted into data to be transmitted to the data processor (1), the data processor (1) processes the data, sends corresponding instructions to the response module (4) according to processing results, and controls corresponding equipment in the response module (4) to work; the data processor (1) is connected with a cloud server (3) and a remote terminal (5), and the cloud server (3) is provided with a database (31) for storing parameters.

2. An intelligent elevator monitoring system as defined in claim 1, wherein: the types of the sensors in the acquisition module (2) include but are not limited to a weight sensor for detecting the load of the elevator, a height sensor for detecting the height of the position where the elevator is located, a wind speed sensor for detecting the ambient wind speed of the elevator, and an acceleration sensor for detecting the movement of the elevator.

3. An intelligent elevator monitoring system as defined in claim 2, wherein: the weight sensors, the height sensors, the wind speed sensors and the acceleration sensors are all provided with at least three groups and are evenly arranged on the lifter.

4. An intelligent elevator monitoring system as defined in claim 3, wherein: a plurality of groups of data of the same sensor are transmitted to a data processor (1), the data processor (1) verifies a plurality of data, and the average value of the data passing the verification is taken as the final value; if the mutual error of the same sensors exceeds 10 percent, the group data is not adopted, and the error report is generated for the sensors providing the group data, and the error report information is transmitted to the remote terminal (5).

5. An intelligent elevator monitoring system as defined in claim 1, wherein: the devices in the response module (4) include but are not limited to audible and visual alarms and elevator motors.

6. An intelligent elevator monitoring system as defined in claim 5, wherein: the color of the light source lamp of the audible and visual alarm is in one-to-one correspondence with the type of the sensors in the acquisition module (2), and the data processor (1) enables the light source lamps with different colors to flicker according to the different types of the sensors for detecting parameters in the acquisition module (2).

7. An intelligent elevator monitoring system as defined in claim 5, wherein: after the data processor (1) detects that the parameters acquired by the acquisition module (2) have errors, the elevator motor refuses to execute an ascending instruction when the elevator is on the ground, and the elevator motor forcibly executes a descending instruction when the elevator is in the air.

8. An intelligent elevator monitoring system as defined in claim 1, wherein: the remote terminal (5) is one of a smart phone, a computer and a tablet personal computer, and the connection mode of the remote terminal (5) and the data processor (1) comprises but is not limited to wired connection, wireless connection, ZigBee connection and Bluetooth connection.

9. An intelligent elevator monitoring system as defined in claim 1, wherein: the data processor (1) transmits the parameter data of the acquisition module (2) to the cloud server (3) according to the time sequence, and the database (31) stores the data.