RU2009287C1 - Device for measuring length of thread in circular machine - Google Patents

Abstract

FIELD: textile industry. SUBSTANCE: device comprises magnetic disc 1, axle 2, ball bearings 3, band brake 5, magnetic reading head 6, unit for automatic phase frequency tuning 7, frequency divider 8, voltage level converter 9 and thread length calculator 10. EFFECT: improved design. 2 dwg

Description

 The invention relates to knitting engineering, in particular, is used on circular knitting machines.

 A device is known for measuring the flow rate of threads on circular knitting machines. The device includes a thread flow sensor and an electronic conversion device. The thread is fed along the measuring wheel, which is coated with highly friction material. The measuring wheel has three holes evenly spaced. When the moving thread comes in contact with the surface of the measuring wheel, the latter begins to rotate. In this case, the access from the lamp to the receiving photosensor is sequentially opened and closed. Further, in the amplifier, these pulses are formed with a standard duration and amplitude. The recounting device counts pulses for a fixed time and gives them to a light digital indicator.

 However, the disadvantage of this device is that it does not give an accurate measurement of the length of the thread over time. With a large uneven consumption of thread by the needles, this device does not have time to give the exact length of thread consumption, since the signal from the photosensor is fed to the amplifier-former periodically. Such devices are more advantageous for determining the length of the thread on warp knitting machines.

 A device for measuring yarn on circular knitting machines is known, comprising a roller, the surface of which is coated with a material with a high coefficient of friction, mounted on an axis installed in ball bearings, and a disk with grooves. When the roller rotates, the disk generates pulses in the photosensor, consisting of a light source and a photocell. The diameter of the roller and the pitch between the grooves of the disk are selected such that when passing a thread 1 cm long, one signal appears at the output of the photosensor. The device has a digital counter, on a scale of which the length of the knitted thread is determined.

 The disadvantage of this device is the same as the previous device, the low accuracy of measuring the length of the thread. This is especially clearly reflected when knitting knitwear with a large variable consumption of thread. The device does not have time to work when the thread length changes rapidly at different points in time.

 The closest in technical essence and the achieved effect to the claimed device is a device for measuring the kinematic parameters of a moving thread. The measurement method is as follows. Using a sound generator, signals of a certain frequency are fed through an amplifier to the universal head of the measuring device and recorded on magnetic tape. The magnetic tape is cut into narrow strips and attached to the thread. When moving a magnetic tape in the universal head of the device pulses are excited, the frequency of which depends on the speed of movement of the tape. Amplified signals are fed to the oscilloscope loop and recorded as waveforms on film or paper.

 A disadvantage of the known device is that the measurement accuracy during film processing is low, and the measurement of the length of the thread is limited, since the thread with the attached magnetic tape cannot be fed to the needles.

 The aim of the invention is to improve the accuracy of measuring the length of the thread during knitting on circular knitting machines.

 This goal is achieved in that a device for measuring the length of a thread on a circular knitting machine, containing a working body with calibration pulse frequencies, a measuring device with a head, a device for recording results, is additionally equipped with a phase-locked loop, frequency divider and a level converter, respectively, output the latter is connected to a device for recording results, which is used as a computer, and the working body is made in the form of a mag a thread disk, which is mounted to rotate on the axis, the latter is equipped with a belt brake, the head of the measuring device is connected to a magnetic disk, and the output of the measuring device is connected to the input phase-locked loop.

 New in comparison with the prototype is that the measurement of the length of the thread during knitting is carried out by means of a magnetic disk on which calibration pulse frequencies are recorded, which, rotating after the thread, transmits frequency pulses to elements additionally introduced into the device: phase-locked loop, frequency divider frequency and level converter. Each of the introduced elements fulfills its specific function, such as phase automatic frequency adjustment eliminates the frequency unevenness of the calibration pulses, the frequency divider allows you to obtain the necessary degree of accuracy, and the level converter generates a signal to the standard voltage level "RS-232" (input to the DSR computer, Fig. 1, 2). As a device for recording, a computer is used that provides accurate information of the object under investigation.

 The combination of elements introduced into the claimed device and the connection between them significantly increase the accuracy and stability of measuring the length of the thread on the device and do not depend on the type of weave.

 A comparative analysis not only with the prototype, but with other technical solutions, did not reveal the signs of the proposed solution and therefore it meets the criteria of the invention "Significant differences".

 In FIG. 1 shows a general view of a device for determining the length of a thread on a circular knitting machine; in FIG. 2 is a block diagram of the program of this device.

 A device for measuring the length of the thread on a circular knitting machine (Fig. 1) has a magnetic disk 1, which is the working body on which the calibration pulse frequencies are recorded. It is fixed on axis 2, which is mounted on ball bearings 3. Thread 4 is wound around the axis in several turns. A belt brake 5 is installed on the axis 2 to switch off the moment of inertia of the magnetic disk. The head 6 of the measuring device (not shown in FIG.) Is in contact with the disk 1. The output of the measuring device is connected to the input of the standard phase-locked loop 7 (PLL), the output of which is connected to the input of the frequency divider 8 (DC), and the output of the latter connected to the input of the level 9 converter, the output of which is connected to the computer 10. The selected computer can be of any standard type, for example, IBM-AT. A level 9 converter is used to combine this circuit with a computer.

 The block diagram of the program for calculating the length of the consumed yarn is shown in FIG. 2. And the program is written in assembly language.

 The device operates as follows.

When the circular knitting machine is turned on, the thread 4, due to the friction forces, rotates the axis 2, on which the magnetic disk 1 is rigidly fixed, with the calibration pulse frequency recorded. When the magnetic disk 1 rotates, the signals from the head 6 of the measuring device in contact with the disk 1 are fed to the phase-locked loop 7. Here the pulses at the input carry information about the phase difference of the frequencies (T ₁ -T ₂ ), where T ₁ , and T _{2 the} current value from the timer, respectively, at the beginning and end of rotation of the disk 1 (Fig. 2). These pulses are integrated and at the output we get a constant voltage proportional to the phase difference. These signals fall on a frequency divider of 8 and correspond to 1 MHz, where they are divided by a certain number depending on the required degree of measurement accuracy (for example, divide by 500 and get 2 kHz at the output). Then, the signals from the frequency divider 8 are fed through a level 9 converter, where they are generated according to the RS-232 standard (Fig. 1) to the input of computer 10. Computer 10, using a pre-compiled program (Fig. 2), calculates the length of the consumed filament for a certain period of time. Results can be displayed as graphical or numerical values on a computer screen.

 When the circular knitting machine is stopped, thread consumption by machine needles stops. Axis 2 continues to rotate by inertia. However, when the machine stops, the belt brake 5 is activated, which overcomes the inertia of the magnetic disk 1, as a result of which the signal to the head of the measuring device stops.

 The use of the inventive device for measuring the length of the thread when knitting on a circular knitting machine allows, in comparison with the prototype, to increase the accuracy of measuring the length of the thread. (56) Oks B. S. "Optimization of the process of looping on knitting machines", M., "Light and food industry", 1983, p. 14-16.

Claims (1)

 DEVICE FOR MEASURING THE LENGTH OF THE THREAD ON A ROUND-KNITTING MACHINE, comprising a magnetic mark memory node located in the zone of operation of the looping mechanism of the thread, inductively coupled to the magnetic reading head, and a thread length calculator, characterized in that, in order to increase the measurement accuracy, it is equipped with a series-connected node phase automatic frequency adjustment, a frequency divider and a voltage level converter and a tape brake, and the magnetic label memory node is made in the form of a magnetic disk, installed with the possibility of rotation on the axis of the looping mechanism of the thread, while the output of the magnetic reading head is connected to the input of the phase-locked loop, the output of the voltage level converter is connected to the input of the calculator of the length of the thread, and the tape brake is kinematically connected to the axis of the looping mechanism of the thread.

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