RU195763U1 - DEVICE FOR MONITORING AND TECHNICAL DIAGNOSTICS OF IMPACT CRUSHER - Google Patents

Abstract

A monitoring and technical diagnostic device can be used to monitor the technical condition of technological machines, for example, hammer crushers for animal feed production. The device automatically evaluates the technical condition of the machine according to several diagnostic criteria (parameters of vibration, sound, temperature, rotor speed consumed by the current drive) provides an alarm and a protective shutdown. This allows to increase the accuracy of the diagnostic result, to use equipment more efficiently, to avoid industrial accidents. According to the invention, the device uses two microcontrollers connected by a communication interface, one of which is connected to sensors of vibration, sound, current, temperature, shaft speed, as well as with a switching device for turning on the light and / or sound alarm and protective shutdown of the crusher, and the second is connected to devices that provide an interface user and other electronic devices. 1 of FIG.

Description

The present invention relates to monitoring devices and functional technical diagnostics of technological machines and can be used to monitor the current technical condition of grinding equipment with electric drive, for example, hammer crushers for animal feed production during their operation. The use of the device will allow the maintenance personnel to have an objective picture of the current technical condition of technological machines, to switch from a preventive maintenance (PPR) strategy of equipment to maintenance based on its actual technical condition, which is determined by the results of technical diagnostics. In addition, continuous monitoring of diagnostic parameters (vibration parameters, noise level, temperature, shaft revolutions, instantaneous current values consumed by the electric motor) of a functioning machine will allow in case of exceeding the limit values of diagnostic signs to prevent accidents by timely disconnecting the electric drive of the machine through a switching device , turn on the alarm.

A device for diagnosing the technical condition of the impact crusher is known, which contains many sensors that continuously monitor the current values of the physical parameters that accompany the operation of the crusher, a stationary computer associated with the sensors, and a graphical user interface associated with the computer. The computer interprets the signals received from the sensors and visually displays the conditions of the crusher on a variety of virtual devices, each of which is associated with one or more signals received from the sensors (US patent 7489254 B2, CL G08B 21/00. 02/10/2009).

The disadvantages of the known diagnostic device is the use of a stationary computer, which involves the use of additional signal conditioning boards between the sensors and the computer. This complicates the architecture and as a result, reduces reliability and increases the cost of the device design.

The closest in technical essence and the achieved result to the proposed invention is a device for functional diagnostics of the technical condition of the impact crusher by vibration parameters. The diagnostic device is a portable device "Corsair" (manufactured by Vibrocentre LLC) based on a microcontroller, which is connected to vibration sensors. The device is equipped with an information input device (keyboard), devices for storing and displaying diagnostic information, a communication port for communication with computers (L.A. Glebov, A.B.Demsky, V.F. Vedenev, AE Yablokov. Technological equipment and production lines of grain processing enterprises, -M, DeLi print, 2010. S. 70-81).

The disadvantages of the known diagnostic device is the unsatisfactory accuracy of the results of the technical diagnostics of the hammer mill, because the technical condition is determined only by the vibration parameters of the control object, the reliability of the device is insufficient. for the functions of measuring, processing and displaying information, a device with one microcontroller is involved. Another disadvantage is the portable execution of the device, as a result of which the diagnosis is episodic in nature (1-2 times a month), which increases the complexity of the diagnostic procedure and can lead to the omission of emergency conditions. In the known device there is no possibility of emergency shutdown of the diagnostic object in case of emergency.

The aim of the invention is to optimize maintenance and repair of equipment by switching to maintenance on the actual condition, preventing sudden breakdowns and, as a result, reducing the likelihood of accidents, fire and explosive situations at work.

The basis of the invention is the task of creating a device for monitoring and technical diagnostics of the crusher providing the following technical result: a more accurate assessment of the technical condition of the crusher in real time according to several diagnostic parameters; improving the reliability of the monitoring and diagnostic device; reducing the likelihood of industrial accidents by automatically turning off the machine; informing staff by turning on the light and sound alarms.

To solve the problem in a known device for monitoring and technical diagnostics of impact impact crushers with an electric drive, containing vibration sensors connected to a device based on a microcontroller, having an input, storage and display of diagnostic information, a communication port for communication with a computer, characterized in that the device uses two microcontrollers connected by a communication interface, one of which is connected to sensors of vibration, sound, current, temperature, h simplicity of the rotation shaft and a switching unit switching the emergency light and / or audible alarm and tripping the protective crusher, and the second is connected with the devices providing an interface with the user and transmitting the information to the other electronic device. Thus, the set of essential features of the invention contributes to the achievement of the desired technical result.

In FIG. depicts impact crushers with an electric drive (dashed line) and a general view of the device for its monitoring and functional diagnostics.

The device has a stationary design, it contains vibration sensors (ДВ1, ДВ2, ДВ3, ДВ4), a sensor of emitted sound level (ДЗ), temperature sensors (ДТ1, ДТ2, ДТ3, ДТ4), a rotor speed sensor (ДО), a sensor of instantaneous current values consumed by an electric drive (DMT) connected to the first microcontroller (MK1), which real-time measures, processes and analyzes the current values of the diagnostic parameters of the crusher (temperature and vibration of the casing, the level of radiated noise, shaft speed, are instantaneous a current value of consumed electric). As a microcontroller, a digital signal processing controller of the dsPIC family from Microchip can be used. Sensors can have a digital or analog interface. In the latter case, the microcontroller must have an analog-to-digital conversion module. The outputs of the MK1 microcontroller are connected to a switching device (KA), which provides the inclusion of an emergency sound alarm (ZS), a light alarm (SS) and an emergency shutdown of the machine through a residual current device (U3O).

The first microcontroller is connected by a communication interface to the second microcontroller (MK2), which provides the interface of the device with the user, as well as with other electronic devices of the technical monitoring system. To do this, information display devices (Display), an information input device (HC), a long-term information storage device (ROM) and random access memory (RAM), a communication port (CP) for connecting the device to other electronic devices (EC) are connected to it, for example, with a computer, through a wired or wireless communication channel, a power supply unit (PSU), a real-time clock (RTC clock). The information input device may be in the form of a keyboard or a touch screen.

The device operates as follows. Using the input device (HC), the operator enters the initial installation data (current date, time, calibration factors, maximum permissible values of diagnostic signs, etc.) into the device. In this case, the installation data is stored in the non-volatile memory of the device (ROM), the clock values are adjusted. After the device is turned on, the set values from non-volatile memory (ROM) are loaded into the first microcontroller (MK1), the sensors of the DV, DZ, DT, DO, DMT sensors are tested. Further, using the mathematical algorithm embedded in MK1, the machine operating mode is determined by measuring and analyzing current values from rotor speed sensors (DO) and the sensor of instantaneous values of electric drive current (DMT). In the case of detecting probable levels of values from one or both sensors, the device is switched to the monitoring and functional diagnostics mode of the machine.

The first microcontroller (MK1) continuously, in real time, measures controlled physical quantities using sensors, performs mathematical processing of values in order to increase their reliability (filtering, averaging, Fourier transform, detecting the envelope of instantaneous current values in the electric motor circuit), calculates diagnostic values signs and carries out the operation of mathematical comparison of current values with predetermined limit values. In case of exceeding the values of diagnostic signs over the limit values, by means of a switching apparatus (KA), an emergency sound alarm (ZS), a light alarm (SS) are turned on, the electric drive of the machine is turned off via a residual current device (RCD).

The values of diagnostic signs obtained as a result of processing on the first microcontroller (MK1) are recorded with a specified frequency in a database on the non-volatile memory of the device for long-term storage and further analysis. Data is synchronized in time by real time clock (RTC clock). The operator can at any time using an input device (HC) make a request to display diagnostic information and view it on a graphic display. It is also possible to adjust the limit values of diagnostic signs during operation of the device. Data through a communication port (CP) can be transferred to other electronic devices (EU) for further storage, mathematical processing and analysis.

The combined use of sensors for instantaneous values of current consumption, vibration and sound allows you to programmatically provide complex algorithms for adjusting the limit values of vibration and sound levels, depending on the load on the hammer mill, to avoid false alarms of the device when an increased level of vibration is associated with an increased load, and not with manifestation of the defect.

Claims (1)

A device for monitoring and technical diagnosis of an electric drive impact crusher, including vibration sensors connected to a device based on a microcontroller, having a device for inputting, storing and displaying diagnostic information, a communication port for communication with a computer, characterized in that the device uses two microcontroller, interconnected by a communication interface, one of which is connected to sensors of vibration, sound, current, temperature, shaft speed, switching pparatom inclusion of light and / or audible alarm and tripping the protective crusher, and the second is connected with the devices providing an interface with the user and other electronic devices.

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