CN105549547A - Field-bus-based twisting machine monitoring system - Google Patents

Abstract

Disclosed in the invention is a field-bus-based twisting machine monitoring system comprising a monitoring center upper computer, a CAN bus, a CAN bus/RS232 conversion module, an alarm unit, an HMI human-machine interface, and a plurality of terminal control systems. The alarm unit is connected with the monitoring center upper computer; the HMI human-machine interface is used for inputting parameters like a twist degree, a twist direction, and a winding angle of a yarn as well a motor speed; and the multiple terminal control systems arranged in workshops of twisting machines are used for controlling the twisting machines directly. The number of the terminal control systems is equal to that of the twisting machines and the multiple terminal control systems are connected with a CAN bus. According to the invention, the system has advantages of simple structure, convenient maintenance, high control precision, good data communication real-time performance, low power consumption, low fault rate, good human-computer interface, and simple and convenient using operation. Problems that the intelligent level of the existing twisting machine control system is low and secure and stable work of the twisting machine can not be guaranteed can be solved.

Description

Fieldbus Based twisting machine supervisory system

Technical field

The present invention relates to textile technology field, especially relate to a kind of Fieldbus Based twisting machine supervisory system.

Background technology

In recent years, along with the raising day by day of economic level, the requirement of people to glass fiber product is also more and more higher, and in order to meet this requirement, textile industry is invested sight one after another and produced high quality fiber line and high-grade glass cloth.Twisting machine is textile machine equipment multiply spun yarn being twisted one, effect be by yarn or and stock yarn goods after closing being processed into line style goods, for weaving and knitting line, can be used for carrying out twisting to glass fibre and pooling capital and process.

Due to one of key equipment that twisting machine is on glass fiber manufacturing line, therefore carrying out automatic monitoring to twisting machine is ensure twisting machine smooth operation and adapt to the diversified important leverage of production technology.Existing twisting machine control system is because opertaing device is aging or intelligence degree is low, and the needs that can not meet industry development must undergo technological transformation to it.

Summary of the invention

Technical matters to be solved by this invention is for above-mentioned deficiency of the prior art, a kind of Fieldbus Based twisting machine supervisory system is provided, its structure is simple, control is convenient, accurately can realize twisting and winding process, complete the on-line monitoring of Yarn twisting and winding.

For solving the problems of the technologies described above, the technical solution used in the present invention is: a kind of Fieldbus Based twisting machine supervisory system, it is characterized in that: comprise Surveillance center's host computer, CAN, CAN/RS232 modular converter, the alarm unit connected with Surveillance center host computer, for inputting the twist of yarn, twist with the fingers to, winding angle and motor speed isoparametric HMI man-machine interface and several be laid in twisting machine workshop directly actuated terminal control system carried out to twisting machine, the quantity of described terminal control system and twisting machine is equal, described in several, terminal control system all connects with CAN, the fuselage of described twisting machine is provided with bobbin creel, bobbin, yarn guide, guide roller, twizzle, wire loop and spindle, described terminal control system comprises slave computer, CAN transceiver, photoisolator, data collecting card, drive described yarn guide work so that the servomotor exported from described guide roller by the folded yarn that described bobbin creel is drawn, drive the servo-driver of described servomotor work, by described twizzle and wire loop, described folded yarn is wound in the winding motor on described bobbin, to the frequency converter one that the rotating speed of described winding motor controls, described spindle is driven to drive described bobbin to turn round so that the twisting motor of twisting yarn, to the frequency converter two that the rotating speed of described twisting motor controls, to the speed pickup one that the rotating speed of servomotor detects, the speed pickup two that the rotating speed of winding motor is detected and the speed pickup three that the rotating speed of twisting motor is detected, described photoisolator, data collecting card, servo-driver, frequency converter one and frequency converter two all connect with slave computer, described speed pickup one, speed pickup two and speed pickup three all connect with described data collecting card, described CAN transceiver connects with photoisolator and CAN respectively, described CAN/RS232 modular converter connects with CAN and Surveillance center's host computer respectively, and described HMI man-machine interface connects with Surveillance center host computer.

Above-mentioned Fieldbus Based twisting machine supervisory system, is characterized in that: described slave computer is industrial computer.

Above-mentioned Fieldbus Based twisting machine supervisory system, is characterized in that: described CAN transceiver is TJAl043 high-speed bus transceiver.

Above-mentioned Fieldbus Based twisting machine supervisory system, is characterized in that: described alarm unit is audible-visual annunciator.

Above-mentioned Fieldbus Based twisting machine supervisory system, is characterized in that: described photoisolator is the photoelectrical coupler of triode type.

The present invention compared with prior art has the following advantages: structure is simple, easy to maintenance, control accuracy is high, data communication real-time is good, power consumption is little, failure rate is low, man-machine interface is friendly, it is easy and simple to handle to use, and efficiently solves the problem that existing twisting machine control system intelligence degree is low, be difficult to ensure the work of twisting machine safety and steady.

Below by drawings and Examples, technical scheme of the present invention is described in further detail.

Accompanying drawing explanation

Fig. 1 is circuit theory schematic diagram of the present invention.

Description of reference numerals:

1-Surveillance center host computer; 2-CAN;

3-CAN/RS232 modular converter; 4-alarm unit;

5-HMI man-machine interface; 6-terminal control system; 6-1-slave computer;

6-2-CAN transceiver; 6-3-photoisolator; 6-4-data collecting card;

6-5-servomotor; 6-6-servo-driver; 6-7-winding motor;

6-8-frequency converter one; 6-9-twisting motor; 6-10-frequency converter two

6-11-speed pickup one 6-12-speed pickup two;

6-13-speed pickup three.

Embodiment

As shown in Figure 1, the present invention includes Surveillance center's host computer 1, CAN 2, CAN/RS232 modular converter 3, the alarm unit 4 connected with Surveillance center host computer 1, for input yarn the twist, twist with the fingers and be laid in twisting machine workshop to, winding angle and motor speed isoparametric HMI man-machine interface 5 and several directly actuated terminal control system 6 is carried out to twisting machine, the quantity of described terminal control system and twisting machine is equal, and terminal control system described in several all connects with CAN 2, the fuselage of described twisting machine is provided with bobbin creel, bobbin, yarn guide, guide roller, twizzle, wire loop and spindle, described terminal control system 6 comprises slave computer 6-1, CAN transceiver 6-2, photoisolator 6-3, data collecting card 6-4, drive described yarn guide work so that the servomotor 6-5 exported from described guide roller by the folded yarn that described bobbin creel is drawn, drive the servo-driver 6-6 that described servomotor 6-5 works, by described twizzle and wire loop described folded yarn is wound in the winding motor 6-7 on described bobbin, to frequency converter one 6-8 that the rotating speed of described winding motor 6-7 controls, described spindle is driven to drive described bobbin to turn round so that the twisting motor 6-9 twisted yarn, to frequency converter two 6-10 that the rotating speed of described twisting motor 6-9 controls, to speed pickup one 6-11 that the rotating speed of servomotor 6-5 detects, speed pickup two 6-12 that the rotating speed of winding motor 6-7 is detected and speed pickup three 6-13 that the rotating speed of twisting motor 6-9 is detected, described photoisolator 6-3, data collecting card 6-4, servo-driver 6-6, frequency converter one 6-8 and frequency converter two 6-10 all connect with slave computer 6-1, described speed pickup one 6-11, speed pickup two 6-12 and speed pickup three 6-13 all connect with described data collecting card 6-4, described CAN transceiver 6-2 connects with photoisolator 6-3 and CAN 2 respectively, described CAN/RS232 modular converter 3 connects with CAN 2 and Surveillance center's host computer 1 respectively, and described HMI man-machine interface 5 connects with Surveillance center host computer 1.

In the present embodiment, described slave computer 6-1 is industrial computer.

In the present embodiment, described CAN transceiver 6-2 is TJAl043 high-speed bus transceiver.

In the present embodiment, described alarm unit 4 is audible-visual annunciator.

In the present embodiment, described photoisolator 6-3 is the photoelectrical coupler of triode type.

The above; it is only preferred embodiment of the present invention; not the present invention is imposed any restrictions, every above embodiment is done according to the technology of the present invention essence any simple modification, change and equivalent structure change, all still belong in the protection domain of technical solution of the present invention.

Claims (5)

1. a Fieldbus Based twisting machine supervisory system, it is characterized in that: comprise Surveillance center's host computer (1), CAN (2), CAN/RS232 modular converter (3), the alarm unit (4) connected with Surveillance center's host computer (1), for inputting the twist of yarn, twist with the fingers to, winding angle and motor speed isoparametric HMI man-machine interface (5) and several be laid in twisting machine workshop directly actuated terminal control system (6) carried out to twisting machine, the quantity of described terminal control system and twisting machine is equal, terminal control system described in several all connects with CAN (2), the fuselage of described twisting machine is provided with bobbin creel, bobbin, yarn guide, guide roller, twizzle, wire loop and spindle, described terminal control system (6) comprises slave computer (6-1), CAN transceiver (6-2), photoisolator (6-3), data collecting card (6-4), drive described yarn guide work so that the servomotor (6-5) exported from described guide roller by the folded yarn that described bobbin creel is drawn, drive the servo-driver (6-6) that described servomotor (6-5) works, by described twizzle and wire loop described folded yarn is wound in the winding motor (6-7) on described bobbin, to the frequency converter one (6-8) that the rotating speed of described winding motor (6-7) controls, described spindle is driven to drive described bobbin to turn round so that the twisting motor (6-9) of twisting yarn, to the frequency converter two (6-10) that the rotating speed of described twisting motor (6-9) controls, to the speed pickup one (6-11) that the rotating speed of servomotor (6-5) detects, the speed pickup two (6-12) that the rotating speed of winding motor (6-7) is detected and the speed pickup three (6-13) that the rotating speed of twisting motor (6-9) is detected, described photoisolator (6-3), data collecting card (6-4), servo-driver (6-6), frequency converter one (6-8) and frequency converter two (6-10) all connect with slave computer (6-1), described speed pickup one (6-11), speed pickup two (6-12) and speed pickup three (6-13) all connect with described data collecting card (6-4), described CAN transceiver (6-2) connects with photoisolator (6-3) and CAN (2) respectively, described CAN/RS232 modular converter (3) connects with CAN (2) and Surveillance center's host computer (1) respectively, described HMI man-machine interface (5) connects with Surveillance center's host computer (1).

2. according to Fieldbus Based twisting machine supervisory system according to claim 1, it is characterized in that: described slave computer (6-1) is industrial computer.

3. according to the Fieldbus Based twisting machine supervisory system described in claim 1 or 2, it is characterized in that: described CAN transceiver (6-2) is TJAl043 high-speed bus transceiver.

4. according to the Fieldbus Based twisting machine supervisory system described in claim 1 or 2, it is characterized in that: described alarm unit (4) is audible-visual annunciator.

5. according to the Fieldbus Based twisting machine supervisory system described in claim 1 or 2, it is characterized in that: the photoelectrical coupler that described photoisolator (6-3) is triode type.