UA58832A - Thread stretcher of base-knitting machine - Google Patents

Abstract

Thread stretcher of base-knitting machine is functionally connected to mechanism of base thread feeding, it has two tension bars, base threads go round those, sensor of the base thread feeding rate and rate transformer for base thread feeding rate to electrical or mechanical signal. The first high-frequency tension bar coincides with springy elements fixed of the frame nearer to the stitch-formation area. The second low-frequency tension bar is fixed with holders on the shaft with possibility of rotation in holders, and is placed nearer to the beams between two thread direction rods. Sensor of the base thread feeding rate is fixed at the end of one of the thread direction rods; this is installed in bearings with possibility of rotation. Rate transformer for the base thread feeding rate to electrical or mechanical signal is fixed on the frame coaxially to thread direction rod, it is kinematicelly connected to the sensor of the base thread feeding rate and functionally connected to the mechanism of the base thread feeding mechanism.

Description

Description of the invention

The invention relates to the knitting industry, namely to adjusting the tension of warp threads on 2 warp knitting machines.

A thread tensioning device (||) is known, in which the rock is fixed on a spring-loaded shaft through elastic plates, which is functionally connected through a tension sensor and an executive mechanism to the warp thread feeding mechanism.

The device provides, due to the use of a spring-loaded shaft, an increase in the degree of constancy of the average tension of the warp threads, and due to fixing the rock at the ends of the elastic plates - a reduction in the range of 70 high-frequency fluctuations of the tension of the warp threads.

The device has disadvantages: - it does not provide a high degree of maintenance of the average tension of the warp threads, due to the peculiarities of the springs of the spring-loaded shaft, namely the dependence of the amount of deformation of the springs on the force of the deformation of the threads; - the negative effect of the spring-loaded shaft, due to the presence of resonance phenomena, on reducing the amplitudes of 79 high-frequency oscillations of the tension of the warp threads.

The known device |2), which contains two thread-guiding scales, the first of which, located closer to the loop formation zone, is structurally connected to elastic elements, has at least an order of magnitude higher natural frequency of oscillations of the second low-frequency scale, which is fixed with levers on a spring-loaded shaft and functionally connected through the sensor of the position of the shaft and the executive mechanism with the mechanism for feeding the warp threads.

The device has disadvantages: - the device lacks structural elements that allow lowering the frequency of the low-frequency rock's own oscillations; - fixing the low-frequency scale on the elastic shaft does not allow maintaining a constant average tension of the warp threads, because in different positions of the scale, due to the presence of elastic elements, the degree of action of the low-frequency scale on the warp threads is different.

The closest thing to the claimed object is the IZ| device warp knitting machine, containing two scala, which are wrapped around the threads of the warp. The first of them is high-frequency, combined with elastic elements and fixed on the frame closer to the looping zone, and the second is low-frequency, which is fixed by brackets on the shaft, which is functionally connected to the mechanism for feeding the warp threads through the shaft position sensor and the actuator mechanism. The low-frequency rock is placed closer to the shafts and includes levers and discs, while the levers are fixed on the shaft of the low-frequency rock, part of the discs is fixed on the ends of the levers, and the second part is fixed on the ends of the shaft, and the low-frequency rock is fixed in brackets with the possibility of rotation.

The device has a drawback, which is that it does not allow adjusting the angular speed of rotation depending on the speed of the threads entering the looping zone, which reduces the uniformity of the loop structure of the knitted fabric.

The invention is based on the task of increasing the uniformity of the loop structure by increasing the consistency of the rate of arrival of the warp threads from the nave and the average tension of the warp threads. C 70 The task is implemented due to the fact that the thread tensioning device of the warp knitting machine is functionally connected to the mechanism for feeding the warp threads, contains two scales that are wrapped around the warp threads, the first of which is a high-frequency rock combined with elastic elements fixed on the bed is closer to the looping zone, and the second low-frequency rock, fixed by brackets on the shaft with the possibility of rotation in the brackets, is placed closer to the turns between two thread guide beams, includes a sensor

The speed of the warp threads and the converter of the speed of the warp threads into an electrical or mechanical signal, while the sensor of the speed of the warp threads is fixed at the end of one of the thread guides on a beam, which is installed in bearings with the ability to rotate, and the converter of the speed of the warp threads in an electrical or mechanical signal is fixed on the bed of a coaxial thread guide beam,

So is kinematically connected to the sensor of the feed speed of the warp threads and is functionally connected to the feed mechanism

Ge) 20 warp threads.

An increase in the constancy of the speed of the arrival of the warp threads from the nave and the average tension of the warp threads o is achieved by the whole set of features due to the fact that fixing the sensor of the speed of the warp threads at the end of one of the thread guide beams, which rotates in the process of interaction with the warp threads, allows you to directly fix the linear speed the descent of the warp threads with the nave, and the fixing of the speed converter 29 of the feed of the warp threads into an electrical or mechanical signal on the bed coaxial thread guide beam in. allows you to maintain a constant value of the interaxial distance between the sensor and the converter, which increases the accuracy of the kinematic connection between them, which in turn increases the accuracy of transmitting the actual value of the speed of the warp threads from the sensor through the converter to the mechanism of the warp threads, which in turn increases the degree constancy of the rate of arrival of the warp threads from the nave and the average tension of the warp threads. 60 Fig. 1 shows a general view of the thread tensioning device, in which the functional connection with the mechanism for feeding the warp threads is provided by an electrical signal. Fig. 2 shows a general view of the thread tensioning device, in which the functional connection with the mechanism for feeding the threads of the base is provided by a mechanical signal.

The proposed device contains a rock 2 covered with threads of the base 1, which is fixed at the ends of the cantilever plates 62 3, forming a high-frequency part of the device. The low-frequency rock 4, fixed with the possibility of rotation at the ends of the brackets 5, fixed evenly on the shaft 6, at the ends of which discs 7 are fixed, and closer to the ends of the shaft 6 are fixed levers 8 and 9 with discs 10 and 11 at the ends. Shaft 6, together with the low-frequency rock 4, brackets 5, levers 8 and 9, discs 7, 10 and 11 form the low-frequency part of the device, which, together with the thread guide beams 12 and 13, fixed on the bed, is placed between the shaft 14 and the rock 2. On the fixed in the bearings of the thread guide beam 12, a sensor 15 of the feed speed of the warp threads 1 is fixed, which is kinematically connected through a belt transmission 16 to the converter 17 (Fig. 1) of the feed speed of the warp threads 1 into an electrical signal, or to the converter 18 (Fig. 2) of the feed speed warp thread 1 into a mechanical signal, while the transducers 17 or 18 are fixed on shafts coaxial with the beam 12 and functionally connected to the warp thread feeding mechanism.

During the operation of the warp knitting machine, the drive 14 is activated, which leads to a change in the supply of the warp threads, which is compensated by the movement of the low-frequency scale 4, while the change in the average tension of the warp threads 1 does not occur, since the action of the weight of the discs 10 and 11 through the levers 8 and 9, shaft 6, brackets 5 and low-frequency rock 4 on the threads of the base 1 changes inversely proportional to the change in sensitivity 7/5 (the ratio of the tension of the threads to the force of action) of the threads of the base 1, caused by the change in the angle of their coverage of the low-frequency rock 4, to the action of the low-frequency on them scale 4. The design of the proposed device allows maintaining a constant average thread tension of the base 1 when moving the low-frequency scale 4 together with the shaft 6 between extreme working positions. Simultaneously with the movement of the low-frequency scale 4 from one extreme position to another, the low-frequency scale 4 rotates around its axis due to its contact with the threads of the base 1, which move from the nave 14 to the looping zone. The speed of rotation of the thread guide beams 12 is perceived by the sensor 15 and through the belt transmission 16 is transmitted to the converter 17 (Fig. 1) of the speed of the supply of the threads of the base 1 into an electrical signal, or to the converter 18 (Fig. 2) of the speed of the supply of the threads of the base 1 into a mechanical signal, which (signals) are sent to the warp thread feed mechanism. In the case of a change in the speed of the warp threads 1 from the nave 14 to the looping zone, this change is transmitted through the sensor 15 and the converter 17 (Fig. 1) or the converter 18 (Fig. 2) to the warp thread feed mechanism, to adjust the thread feed speed basis 1 with a row 14. In this way, changes in the average tension of the threads of basis 1 do not occur. The amplitudes of high-frequency fluctuations of the tension of the threads of the base 1 relative to the average value are reduced by the high-frequency scale 2.

Increasing the degree of constancy of the values of the average tension of the warp threads and reducing the range of high-frequency fluctuations of the tension of the warp threads increases the quality of the knitted fabric by increasing the uniformity of the loop structure and reducing the breakage of the warp threads. at

SOURCES OF INFORMATION 1. Katsenelenbogen A.M., Verhovinina L.D. Device, operation and maintenance of basic knitting machines. - M:

Light and food industry, 1982. P.141,190. so 2. A.S. USSR Mo1723221, MKY DOA on October 27, 1992. yu

Z. Patent of Ukraine Mo27377, MKV DO4 dated 10/27, 2000.

Claims (1)

The formula of the invention "Y and Y | And | | The thread tensioning device of the warp knitting machine, functionally connected to the warp thread feeding mechanism, containing two scales, which are wrapped around the warp threads, the first of which is a high-frequency rock combined with "z" elastic elements fixed on the frame closer to the zone of loop formation, and the second low-frequency rock is fixed by brackets on the shaft with the possibility of rotation in the brackets and is placed closer to the bobbins between two thread guide beams, which is characterized by the fact that it includes a sensor of the speed of the feed of the warp threads and a converter of the speed of the feed of the warp threads into an electrical or mechanical signal, while the sensor the speed of the warp threads is fixed at the end of one of the thread guide beams, which is installed in bearings with the ability to rotate, and the converter of the speed of the warp threads into an electrical or mechanical signal is fixed on the bed coaxially with the thread guide beam, kinematically connected to the sensor of the speed of the warp threads and functionally connected with a warp thread feeding mechanism. (95) Ko) R 60 b5