CS262825B1 - Device for tensile forces central regulation during warping - Google Patents

Abstract

The device for performing central regulation of the course of tensile forces during winding consists of electrically centrally controlled brakes and is located behind the bobbins of the bobbin. At least one bobbin can be located a light source and opposite it are phototransistors for monitoring the diameter of the bobbin, connected to the thread brakes via a first sensor. Or at least one bobbin can be mounted on an angular lever, which is rotatably mounted on a pin and one arm of which is connected to a second sensor for monitoring the weight of the bobbin, connected to the thread brakes. Or another sensor for detecting the winding time, connected to the thread brakes, can also be located at the bobbin. The device for performing central regulation of the course of tensile forces during winding is usable in the textile industry.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for performing central control of the tensile forces during warping.

In both the warping and the Saxon warping and the rewinding of the warped rolls into the warp rolls and the rewinding of the warping drums into the warp rolls, the course of the tensile forces in the threads is one of the main factors affecting the quality of the warp rolls.

The course of the tensile forces should correspond to the known laws which give the best conditions for the threads wound on the reel or the reel drum to change their mechanical-physical properties as little as possible. As a result, even the warp rolls produced in the thickening of the warp rolls would have the highest quality when processed on a weaving machine.

The course of tensile forces during unwinding of the crosspiece on the creel shows big changes during the warping of one or more creeping rolls during the English creeping or even during the creasing of the zone or bands in Saxon creeping. the threads at some point in time approximately the same. This is because, as is generally known, the course of the tensile forces θ behind the cross-coil varies with the change in diameter d of the cross-coil according to FIG. 4, where a denotes the full cross-coil and b indicates a nearly half-cross cross-coil. This results in length differences of the warped threads or on the individual warped rolls or bands during the Saxon warping, whereby a certain drag is produced when the rolls or drums are rewound.

Due to the uneven tensile forces in the threads wound on the warping and warp rolls in the English and

Thus, 2,282,825 on warping drums and warp warps in Saxon warping, the ductility of warp yarns cannot be fully utilized in the weaving process, which is a significant drawback that leads to an increase in warp yarn breakage.

These drawbacks are eliminated by an apparatus for centrally controlling the course of tensile forces during warping, consisting of electrically centrally controlled brakes and located behind the coils of the creel according to the invention. It consists in that at least one coil is provided with a light source and opposed by phototransistors for monitoring the diameter of the coil connected to the yarn brakes via a first sensor or at least one coil is mounted on an angular lever which is rotatably mounted on the pin and one arm of which is connected to a second sensor for monitoring the weight of the bobbin connected to the yarn brakes, or or in the case of a reel with a bobbin destroying another sensor for detecting the warping time associated with the yarn brakes.

The device for performing a central control of the tensile forces during the warping according to the invention brings a new higher effect. The tensile forces corresponding to the technological requirements for the warping by means of warping rollers or warping drums can be adjusted centrally. These requirements are given by new knowledge both in the field of optimizing windings for the twisting warp with the least number of strokes, and in the field of achieving the smallest changes in the mechanical-physical properties of the yarns drawn on the warping rolls or drums. These requirements can only be met by centrally adjusting the braking effects of the brakes with minimal variations in the tensile forces between the brakes with the possibility of virtually any central control during the warping.

BRIEF DESCRIPTION OF THE DRAWINGS The invention and its effects are explained in more detail in the description of exemplary embodiments thereof with reference to the accompanying drawings, in which: FIG.

of phototransistors for monitoring the diameter of the coil. Giant. 2 schematically shows an apparatus for performing central control of the tensile forces during the warping according to the invention consisting of a sensor

- 3 282 825 for tracer scales. coils. Giant. 3 shows schematically an apparatus for performing a central regulation of the tensile forces during v

according to the invention comprising a sensor for detecting the duration of the dream. Fig. 4 shows the dependence of the tensile force F on the diameter of the coil d during warping. Fig. 5 shows the dependence of the tensile force F on the diameter of the coil d using a device for performing central control of the tensile forces during the warping according to the invention.

The device for centrally controlling the course of tensile forces according to the invention consists of electrically centrally controlled yarn brakes 11 located at the bobbins 1 or the fresher. In the embodiment according to FIG. 1, at least one coil 1 is provided with a light source 2 and opposite to it are phototransistors 4 for monitoring the diameter of the coil 1 fertilized over the first sensor 7 with yarn brakes 11. The coils 1 are unwound in a known manner by a loop 2 · ° 1θ Fig. 1 is installed on one coil 1 a light source 2 consisting of several luminescent diodes 3, which cooperate with the phototransistors 4 and follow stepwise decreasing diameter of the cross coil 1. 4, the thrust of the brake shoes in the brakes 11 on the yarn 12 unwound from the bobbin 1 can be stepped over the first sensor 7.

In the embodiment of Fig. 2, at least one spool 1 is mounted on an angular lever 6, which is rotatably mounted on a pin b. One arm of the angular lever 6 is connected to a second sensor 9 to monitor the weight of the spool 1 connected to the yarn brakes 11. the arm of the angle lever 6 acts on the second sensor 9 detecting the weight of the cross spool 1 and providing information for controlling the pressure of the brake shoes of the brake shoes 11 of the thread 12.

In the embodiment of FIG. 3, a further sensor 10 for detecting the warping time associated with the yarn brakes 11 is provided in the reel 14 with the creel 13. does not count. The length of the set time depends on the net weight of the spool 1, the fineness of the thread to be threaded and the speed of the work,

4 so that Jp is easy to calculate.

2S2 825

The function of all the sensors, i.e. the first sensor 7, the second sensor 9 and the longer sensor 10, is such that, depending on the diameter of the cross bobbin 1 or its weight or the time it is unwound, it is controlled in a known manner by the sensors. , by a second sensor 9 or another sensor 10, the down pressure between the brake shoes of all the brakes 11 of the creel of the reel, depending on the known patterns of the yarn tensile forces during their unwinding during the varying diameter of the cross spool i.

For example, the regulation can be performed to approximately constant tensile forces during retraction of the entire cross-bobbin, but can be performed? to the general course of tensile forces of threads wound on a warp roller or warp drum, a warping roller or other thread body according to MS. author's certificate No. 251629, where is theoretically analyzed such a course of tensile forces during unwinding in

threads to minimize the mathematical and physical properties of the threads.

Giant. 5 shows lines A'and B'showing the course of the tensile forces behind the brake during the winding of the yarn from the cross spool when the yarn enters the brake with the tensile forces of FIG. These control forces of the brake with the actual course of tensile forces from the cross bobbin according to Fig. 4 then obtain the course of tensile forces according to curves A 'and B', ie approximately constant or constant during unwinding of the whole cross bobbin. This course of tensile forces is thus achieved before winding the yarns on the yarn body, for example a weaving cam, a warping drum or even other yarn bodies. The course of the tensile forces before the frying roller can also be influenced in time, as mentioned earlier.

The apparatus for performing central control of the tensile forces during the warping according to the invention is applicable in the textile industry.

Claims (1)

SUBJECT OF THE INVENTION 282 82! Apparatus for centrally controlling the tensile forces during warping, consisting of electrically centrally controlled brakes and located behind the coils of the creel, characterized in that at least one coil (1) has a light source (2) and phototransistors opposed thereto. (4) for monitoring the diameter of the bobbin (1) connected to the brake (11) threads (12) via the first sensor (7) or at least one bobbin (1) is mounted on an angular lever (6) which is mounted on a pin 8) and one arm of which is connected to the other sensor (9) for monitoring the weight of the bobbin (1) connected to the yarn brakes (11) or or another sensor (10) for the warmer (14) with the creel (13) and securing the warping time associated with the brakes (11) of the thread (12).