SU887401A1 - Device for monitoring mean tension of moving filament - Google Patents

Description

one

The invention relates to the field of load-measuring equipment, namely, devices for monitoring the average tension value of a moving yarn when receiving it for packaging.

A device is known for monitoring the average tension value of a moving yarn, comprising a measuring thread conductor fixed at the end of a lever connected to the measuring spring and connected to a tension converter, a pointer and a scale 1.

The known control device excludes tension fluctuations of only a certain amplitude, because the gap formed by the stops does not change depending on the amplitude variation of the tension of the thread, which reduces the accuracy of controlling the average tension value of the moving thread heels of thread.

The purpose of the present invention is to increase the measurement accuracy as well as to simplify the adjustment of the device to the measurement range.

The goal is achieved by the fact that the device for controlling the average tension value of a moving thread, containing a measuring thread conductor mounted on the end of a lever connected to the measuring spring and connected to the tension converter, pointer and tchkalu, has a means for compensating the tension fluctuations in the thread, in the form of a fixed groove cam, the groove profile of which corresponds to the law of variation of the thread tension amplitude when it is inserted, entering the cam groove

10 rolling finger and covering the leash rigidly fixed on the axis of the transducer and mounted coaxially with the axis of the lever, while the latter has a V-shaped plug mounted on its axis, and

15 is connected to the transducer via a movable pin, the end of which is located in the groove of the plug.

The device has a helical suspension including a prism with a through hole,

20 a screw housed therein, a nut connected to it, and a cross-shaped hub freely placed on the nut, the measuring spring being fixed at one end to the hub, and the prism with an edge

25 is in contact with the supporting surface.

FIG. 1 shows a diagram of the device; in fig. 2 — means for compensating for variations in yarn tension; in fig. 3 is a graph of the variation of the amplitude of the tension of the yarn tension Af (I) from the mean tension value (/ //) and the angle of deviation of the 1 (.1 th conductor with the lever a (hail); Fig. 4 shows the screw point and section A -BUT.

Device contains a measuring thread conductor 1, fixed at the end connected to the measuring spring 2, attached to the screw node 3, lever 4, which has a V-shaped plug 5 fixed on its axis, and the axis of the lever is coaxial with the axis of the converter 6, on the axis of which a leash is fixed 7, and the axis of the transducer 6 is braked by the pad 8 through the spring 9. The means for compensating for variations in the tension of the thread is made in the form of a myoconditioning groove to the lacha 10, which is fixed in the working area with a screw I. A link, alternately, 1, rotation from the lever 4 to the transducer 6, the movable pin 12 serves. The device includes a scale 13, a secondary device 14. The thread 15 passes through the spinning disk 16, the measuring thread conductor 1 and is applied to the package 17, which is driven by the friction mechanism 18 n to be pressed to it by the pressing mechanism 19 The layout on the forging 17 is made by the laying stacker 20.

A diagram explaining the operation of the device is shown in FIG. 2,

where a is the deflection angle of the measuring conductor with a lever over the entire tension measurement range;

g - cam groove profile;

p is the angle of the V-shaped plug; S - the gap between the movable finger and the side of the V-shaped plug.

Screw hanger 3 includes a prism 21 with a through hole, a screw 22 placed in it, a nut 23 connected to it and a cross-shaped sleeve 24 freely placed in nut 23. Measuring spring 2 is fixed at one end to the hub, and the prism 21 is in contact with the support surface 25. On the screw 22 there are lock nuts 26 and 27.

The device works as follows.

Measuring thread conductor 1, fixed at the end of lever 4 connected to measuring spring 2, under the action of tension of thread passing through it 15, overcoming the spring 2, deflects rigidly connected lever 4, which occupies the position corresponding to this tension . At the same time, the tension transducer 6 associated with it generates a signal proportional to the tension of the thread and fixed by the secondary device 14.

When the thread 15 moves under the action of the needle folder 20 from the middle of the package 17 to one of the extreme positions, its tension increases. In order to exclude the variable component caused by the operation of the thread spreader, when changing the thread tension in the output signal, a further transmission link is inserted, consisting of screwing the lever axis 4 with the V-arm of the fork 5, the moving pin 12 fixed on the tension transducer axis, 7 and a fixed cam shaft 10. A V-shaped plug, via a movable pin and a leash, turns the lever 4 and converts the tension converter 6 into an equal rotation of the axis, since the axis of the latter is aligned coaxially with the lever.

In order to prevent the axis of the transducer from rotating under the action of the weight of the driver 7 and the movable pin 12, the axis is spring loaded by the pad 8 through the spring 9.

The mechanism that excludes the transfer of tension fluctuations caused by the work of the stacker to the converter works as follows.

The movable pin 12, when rotating the measuring thread 1 with the lever 4, on one of the sides of the V-shaped plug 5, slides in the grooves of the cam 10 and the leash 7 (Fig. 2). In accordance with the cam groove profile, the position of the movable tongue in the V-shaped fork, and hence the gap between the gauge and one side of the V-shaped fork, changes.

Since the amplitude of the yarn tension variation, caused by the operation of the yarn packer, changes depending on the change in the average tension value of the yarn due to the measurement of the physicomechanical properties of the newly formed yarn when it is received for packing according to the law shown in FIG. 3, i.e. (/) / (“), then, specifying the groove of the cam (a) and the angle of the V-shaped fork - p, with irofil, we obtain such a change in the gap between the movable finger and the supporting side of the V-shaped fork - ( r, p) that the amplitude of the tension of the thread tension at any time interval will be equal to this gap value.

With such equality, the lever oscillations caused by the thread stacker are not transmitted to the tension transducer and, consequently, this device measures the average value of the thread tension, taking into account the change in the fluctuation of the thread tension from the average value.

Scale 13 for adjusting the measuring spring to the measuring range, and screw 11 for fixing the cam with the required profile in the working area.

The change in the rigidity of the measuring spring 2 is achieved by changing the number of turns by means of a cross-shaped sleeve 24, in the holes of which are located along a helical line, the end of the spring is clamped. The hub 24 fits loosely on the nut 23 and, with the locknut 27 released, can be screwed into the spring, thereby changing the number of working turns, i.e. the spring stiffness. The nut 23 is connected to the screw 22 passing through the prism 21, the edge of which is in contact with the supporting surface 25 at point B. With the help of the screw 22, the device is set to zero. Thus, alternately releasing the lock nuts 26 and 27, the screw suspension provides two degrees of adjustment for adjusting the spring stiffness and device zero, and the prism allows the spring to maintain a position perpendicular to the axis of the lever as it rotates. The accuracy characteristics of the device 15 correspond generally to the accuracy class of the converter, and the output signal on the secondary device corresponds only to a change in the average value of the thread tension without interference from the operation of the folder handler. 20 The design of the screw hanger allows the device to be quickly and accurately adjusted to the required measuring range. The formula of the invention I. A device for controlling the average value of the tension of a moving thread, containing a measuring thread 30 fixed on the end of a lever connected to the measuring spring, connected 25 with a tension converter, an indicator and a scale, characterized in that in order to increase the accuracy measurement, it has a means to compensate for the tension of the tension of the thread, vypolpeppoe in the form of a non-movable groove cam, whose profile corresponds to the law of variation of the amplitude of the tension of the thread when it is laid out, into the cam groove of the movable finger and the driver-spanning finger fixed on the axis of the converter and the lever axis mounted on the axis of the lever, the latter having a V-shaped plug attached to its axis and connected to the converter via a base of the fork 2. The device according to claim 1, characterized in that, in order to simplify the adjustment, it has a screw hanger, including a prism with a through hole, a screw placed in it, a nut connected to it and a cross-shaped bushing, freely placed on the nut, with the measuring spring fixed at one end to the sleeve, and the prism is in contact with the supporting surface. Sources of information taken into account in the examination 1. Wax E. E. Measuring the tension of the threads, M., 1966, p. 12-13.

Claims (2)

Claim 1. A device for controlling the average value of the tension of a moving thread, containing a measuring thread conductor, mounted on the end of a lever connected to the measuring spring connected to the tension transducer, a pointer and a scale, characterized in that, in order to improve the accuracy of measurement, it has a means for compensating for vibrations the tension of the thread, made in the form of a fixed groove cam, the profile of which corresponds to the law of variation of the amplitude of the tension of the thread when it is laid out, included in the groove of the cam of the rolling Alzen and covering a lead finger is rigidly mounted on the transducer axis and mounted coaxially with the axis of the lever, the latter has a V-shaped fork secured to its axis, and is connected to the transducer by rolling a finger, the end of which is placed in the groove plug. 2. The device according to π. 1, characterized in that, in order to simplify the adjustment, it has a screw suspension, including a prism with a through hole, a screw placed in it, a nut connected to it and a cross-shaped sleeve freely placed on the nut, while the measuring spring is fixed at one end to the sleeve, and the prism is in contact with the abutment surface with the edge.