CN211086964U - Remote equipment vibration management system based on Internet of things - Google Patents

Abstract

The utility model discloses a remote equipment vibration management system based on thing networking relates to on-line monitoring technical field, and the on-line monitoring technique for solving among the prior art is the detection management to the running state of equipment, but the operational failure and some proruption situation of unable specific discernment calculation equipment to carry out the problem of corresponding processing. The output end of the operation working equipment is connected with the input end of the sensor detection module, the output end of the sensor detection module is connected with the input end of the signal converter, the output end of the signal converter is connected with the input end of the data acquisition element, the output end of the data acquisition element is connected with the input end of the data calculation terminal, the output end of the data calculation terminal is connected with the input end of the internet of things local module, and the output end of the internet of things local module is connected with the input end of the equipment management module.

Description

Remote equipment vibration management system based on Internet of things

Technical Field

The utility model relates to an on-line monitoring technical field specifically is a remote equipment vibration management system based on thing networking.

Background

On-line monitoring techniques are used to continuously or periodically monitor the condition of the device under test, usually automatically, while the device is in operation. The device can be used by a detector for synchronously monitoring monitored equipment, and as early as 1951, Johnson of American West House company proposes and develops a device for monitoring the tank discharge under the operation condition aiming at the problem that a generator fails due to the aggravation of the tank discharge in the operation, which is probably the earliest proposed online monitoring idea. The method is limited by the technical conditions at that time, the interference from a line cannot be inhibited, and only the detection can be carried out under the offline condition, but the basic idea of online monitoring is still used up to now, and the electrical power failure test, the overhaul and the maintenance of the power equipment are carried out in China from the 20 th century and the 50 th century and according to the provision of the preventive test regulations of the power equipment for decades. The internal fault hidden danger of equipment can not be found in time in a periodic test, and a test voltage lower than an operating voltage is applied in a power failure test, so that the response to certain defects is not sensitive enough. Along with the development of an electric power system towards high voltage and large capacity, the safe operation of electric power equipment is more and more important, and the influence and loss brought to production and life by power failure accidents are more and more large, so that the real-time or timed online monitoring on the operation state of the electric power equipment is urgently needed, the insulation degradation degree is reflected in time, and the prevention measures are taken so as to avoid the occurrence of the power failure accidents.

However, the existing online monitoring technology is directed at the detection and management of the running state of the equipment, but cannot specifically identify and calculate the running fault and some emergency situations of the equipment and perform corresponding processing; therefore, the existing requirements are not met, and a remote equipment vibration management system based on the internet of things is provided for the requirements.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a remote equipment vibration management system based on thing networking to the on-line monitoring technique who proposes in solving above-mentioned background is to the running state's of equipment detection management, but the operational failure and some proruption situation of equipment are calculated to unable concrete discernment, and carry out the problem of corresponding processing.

In order to achieve the above object, the utility model provides a following technical scheme: a remote equipment vibration management system based on the Internet of things comprises operating working equipment, wherein the output end of the operating working equipment is connected with the input end of a sensor detection module, the output end of the sensor detection module is connected with the input end of the signal converter, the output end of the signal converter is connected with the input end of the data acquisition element, the output end of the data acquisition element is connected with the input end of a data calculation terminal, the output end of the data calculation terminal is connected with the input end of the local module of the Internet of things, the output end of the local module of the Internet of things is connected with the input end of the equipment management module, the output end of the equipment management module is connected with the input ends of the equipment maintenance terminal and the mobile receiving terminal, the output end of the equipment maintenance terminal is connected with the input end of the remote data controller, and the output end of the remote data controller is connected with the input end of the operation working equipment.

Preferably, the data computing terminal comprises a data receiving module, an output end of the data receiving module is connected with an input end of the transient data analysis module, an output end of the transient data analysis module is connected with an input end of the data storage module, an output end of the data storage module is connected with an input end of the historical data comparison module, an output end of the historical data comparison module is connected with an input end of the intelligent measurement and calculation processing module, and an output end of the intelligent measurement and calculation processing module is connected with an input end of the data integration module.

Preferably, the intelligent measuring and calculating processing module comprises a temperature sensor, a density sensor and an acceleration sensor.

Preferably, the signal converter is of a type KVS-4A-H, and the remote data controller is of a type TM3XREC 1.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses an inside transient state data analysis module of data computing terminal carries out preliminary analysis to data, it is normal whether to detect numerical value, it breaks down to explain when numerical value is unusual then the equipment, data storage module can store the information of equipment afterwards, be convenient for the later stage to look over, then the system can compare fault information and historical data record, can store all troubles and problem information data and corresponding processing mode of corresponding equipment in the record, calculate processing module through intelligence after comparing, carry out intelligent analysis and processing to fault information, arrange in order by data integration module to equipment fault information and processing mode again and send.

Drawings

FIG. 1 is a flow chart of the overall control of the present invention;

fig. 2 is a control flow chart of the data computing terminal of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-2, the present invention provides an embodiment: a remote equipment vibration management system based on the Internet of things comprises operation working equipment, wherein the output end of the operation working equipment is connected with the input end of a sensor detection module, a sensor is installed on the specific working equipment and used for detecting corresponding data, the output end of the sensor detection module is connected with the input end of a signal converter, an electric signal sent by the sensor is converted into processing data through the signal converter, the output end of the signal converter is connected with the input end of a data acquisition element, all sensor data are uniformly collected and managed through the acquisition element, the output end of the data acquisition element is connected with the input end of a data calculation terminal, the collected data are sorted and analyzed through a professional data terminal computer, the output end of the data calculation terminal is connected with the input end of an Internet of things local area module, and the output end of the Internet of things local module is connected with the input end of an equipment, the output end of the equipment management module is connected with the input ends of the equipment maintenance terminal and the mobile receiving terminal, the output end of the equipment maintenance terminal is connected with the input end of the remote data controller, the output end of the remote data controller is connected with the input end of the operation working equipment, and a maintainer can remotely overhaul the equipment according to the fault problem.

The data computing terminal comprises a data receiving module, a transient data analysis module, a historical data comparison module and an intelligent measurement and calculation processing module, wherein the data receiving module is used for receiving all data information, the output end of the data receiving module is connected with the input end of the transient data analysis module, the output end of the transient data analysis module is connected with the input end of the data storage module, the information of the equipment is stored and is convenient to check, the output end of the data storage module is connected with the input end of the historical data comparison module, all fault and problem information data of the corresponding equipment and corresponding processing modes of the historical data record are recorded, the output end of the historical data comparison module is connected with the input end of the intelligent measurement and calculation processing module, the fault information is intelligently analyzed and processed, the output end of the intelligent measurement and calculation processing module is connected with the input end.

Furthermore, the intelligent measuring and calculating processing module comprises a temperature sensor, a density sensor and an acceleration sensor and is used for detecting different values of equipment.

Furthermore, the signal converter is of a KVS-4A-H type and is used for converting the electric signals into data which can be received by a computer, and the remote data controller is of a TM3XREC1 type and can realize remote control.

The working principle is as follows: when in use, the sensor is firstly installed on specific working equipment, the corresponding data on the equipment is detected through the corresponding sensor, then the sensor sends a signal to the signal converter and converts an electric signal sent by the sensor into processing data, then all sensor data are uniformly collected and managed through the data acquisition element and are uploaded to the data calculation terminal, the data are preliminarily analyzed through the transient data analysis module in the terminal, whether the detected value is normal or not is detected, when the value is abnormal, the equipment fails, then the data storage module can store the information of the equipment for later checking, then the system can compare the failure information with the historical data record, all failure and problem information data of the corresponding equipment and corresponding processing modes can be stored in the record, and the compared result is processed through the intelligent measuring and calculating processing module, the intelligent analysis and processing are carried out on the fault information, the data integration module is used for arranging the equipment fault information and the processing mode and sending the equipment fault information and the processing mode to the input end of the equipment management module in the local module of the Internet of things to be connected, finally, the equipment management module can send the integration information to the equipment maintenance terminal and the mobile receiving terminal, and a maintainer in the equipment maintenance terminal can carry out remote maintenance on the equipment according to the problem of the fault.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. 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.

Claims (4)

1. The utility model provides a remote equipment vibration management system based on thing networking, includes operation equipment, its characterized in that: the output of operation equipment is connected with sensor detection module's input, sensor detection module's output is connected with signal converter's input, signal converter's output is connected with data acquisition component's input, data acquisition component's output is connected with data calculation terminal's input, data calculation terminal's output is connected with thing networking local module's input, thing networking local module's output is connected with equipment management module's input, equipment management module's output is connected with equipment maintenance terminal and mobile receiving terminal's input, equipment maintenance terminal's output is connected with remote data controller's input, remote data controller's output is connected with operation equipment's input.

2. The internet of things-based remote equipment vibration management system of claim 1, wherein: the data computing terminal comprises a data receiving module, the output end of the data receiving module is connected with the input end of a transient data analysis module, the output end of the transient data analysis module is connected with the input end of a data storage module, the output end of the data storage module is connected with the input end of a historical data comparison module, the output end of the historical data comparison module is connected with the input end of an intelligent measuring and calculating processing module, and the output end of the intelligent measuring and calculating processing module is connected with the input end of a data integration module.

3. The internet of things-based remote equipment vibration management system of claim 2, wherein: the intelligent measuring and calculating processing module comprises a temperature sensor, a density sensor and an acceleration sensor.

4. The internet of things-based remote equipment vibration management system of claim 1, wherein: the model of the signal converter is KVS-4A-H, and the model of the remote data controller is TM3XREC 1.

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