SU985168A1 - Device for driving wave moving shed automatic loom weft guides - Google Patents

Abstract

The invention is applicable in shaft shed with at an angle to the direction of movement of the weft carrier moving drive elements, by the movement of a profile with continuous, running in the direction of weft carrier waves is formed in the valleys are provided with a tip weft yarn carrier and the rear wave curve with Drive surfaces cooperates on the weft thread carrier. The object of the invention to reduce the Kettfadenbruchhäufigkeit, serves the task of providing a drive for the weft carrier, which always ensures a free position of the tip of the weft carrier. According to the invention, this object is achieved in that the front wave curve running in front of the weft thread carrier has a marginal surface which is located outside the movement path of the tip of the weft thread carrier.

Description

the rear ends are connected to a rotating eccentric shaft, the front ends pass the main threads, and weft guides guide. Due to the rotation of the eccentric shaft, the platinum rolls, touches its front ends to the drive surfaces of the weft plotters, thus moving them forward.

A disadvantage of all of these known solutions for driving duck pliers is that the weft pliers are placed with a gap in the depressions in the direction of their movement. Due to this gap, the duck plotter can overtake its driving surface formed by the back surface of the wave-valley curve and beat its toe into the front curve of the cavities. waves formed by the rear side of the drive surface or the s-adney side of the surface of the nailing of the weft threads. This happens, for example, when the drive shaft is decelerated rapidly, when the weft plotter passes through areas without the main threads and when it hits the motion transmission. This results in excessive wear of the plates and the destruction of the toe of the weft plotter, which serves to deflect the main threads, as a result of which further work leads to the breakage of the main threads. Damage to the toe of a softer material, such as plastic, textolite, or the like, is especially common.

The purpose of the invention is to avoid the occurrence of wear of the weaver's toe caps and lowering the frequency of breaking the main threads to improve the performance of an automatic loom with a wave-like movable throat.

The object of the invention is to create a drive for weft plotters of an automatic weaving machine with a wave-like movable throat, which always ensures the open position of the weft duck plotters. According to the invention, this is solved by the fact that in front of the duck plotter the traveling forward curve of the wave troughs has a restrictive surface that is outside the path of the toe of the duck plotter.

The traveling waves are preferably formed by protrusions of the drive plates of the rotating weaving shaft. The posterior surface of the tooth, located in front of the drive tooth, forms the front curve of the wave troughs. In this case, the restrictive surface is located below the driving surface of the drive tooth.

Alternatively, traveling waves are formed by oscillating driving

platinum, the drive edge of which has a step, the upper part of which forms the back curve of the wave troughs adjacent to the drive surfaces of the weft plotter. The lower overhang forms the bounding surface of the front curve of the wave trough.

FIG. 1 schematically depicts the proposed device for driving weft plotters and weaving shaft; FIG. 2 - the same, top view; in fig. 3 - section of the weft plotter and drive plates of the weaving shaft, section; in fig. 4 - drive platinum Weaving shaft ;, in FIG. 5 shows a device for driving duck plotters with tilting drive plates, side view.

A device for driving duck plotters contains in the left and right walls 1 and 2 of the bed a weaving shaft 3. The weaving shaft 3 is made in the form of a shaft 4, which is left and right near the walls 1 and 2 along a safety coupling 5, b, and between them, along at least in the prescribed width of the main threads, a plurality of drive plates 7 are located. Each drive plate 7 (FIG.) has a drive tooth 8, two teeth 9 and 10 devices for weft threads and an intermediate tooth 11 for eliminating transversely in the yaw of the lying threads. The tooth 10 for the instrument on its back side ends in a step to form the tooth 12. In the inner diameter, the drive plates 7 have, with respect to the teeth 8-12, a displaced nose 13, which, in cooperation with the groove of the shaft 4, ensures that the tooth

- 12, mounted on the shaft 4 when 0 8 water platinum 7, formed a screw surface. Between the screw surface 14 formed by the leading edges of the drive teeth 8 and the screw surface 15 formed by the back sides of the eubes 12, one weft plotter 16 is located in the plane of the main threads. The tooth 12 is lower in height than the power tooth 8 and the weft 17 toe 17. Thus, the screw surface 15 lies below the toe 17 and the drive tooth 8. Under the tip of the duck plotter 16, as an adjoining part to the screw, the surface 15 is a bevel 16a. Safety clutches 5 and 6. Outside the main threads, the front surface 18 of its profile is connected to the screw surface 14 of the drive teeth 8. The profile 19 spreads across the width of the teeth 8-12. Thus, the rear side of the profile 19 is located in the plane of the teeth 10 and 12, due to which the Ivintov surface 15 spreads over the sleeves 5 and 6. A feed shaft 20 is placed above the weaving shaft 3, which feeds weft 16 from the rewinding stations.

FIG. 5 shows another embodiment of the device. On a fixed shaft relative to the frame 21, drive plates 22 are pivotally arranged. Their webs 23 are located and directed in curvilinear guides 24 rotating on chains along the weaving automat. The drive edges at the drive plate head 22 are interrupted by a step. In this way, the upper part 25 and the lower protruding part 26 are obtained. In the span of the drive plates 22, duck plotters 16 are located, guided by the platinum-shaped elements 27 and 28. The span of the bottom portion 26 of the drive plates 22 lies under the pin 17 of the plotter 16.

The device works as follows.

Subaccade shaft 20 continuously pushes duck lifters 16 from rewinding stations up to safety coupling 5 into free space which is formed by screw surfaces 14 and 15 on weaving shaft 3. Rotation of weaving shaft 3 with screw thread in the plane of main threads where weft plotters are located 16 , in the direction to the right wall of the 2 bed, traveling waves arise. Always in one large cavity formed and bounded by the front edges of the drive teeth 8, surface 14, the back sides of the teeth 10, as well as teeth 12, surface 15, there is one weft plotter 16 moving along the jaws.

Usually, the weft plotter 16 abuts against the driving surfaces located on its back side to several leading edges of the driving teeth 8 or to the surface 14. With impacts in the transmission of motion when overcoming resistances and abruptly. Nominal vykakivaniya displaced drive plates 7, with the passage of areas without the main thread or with an unexpectedly simple weaving shaft 3, weft plotter 16 is released from the leading surface 14 and moves along the bevel 16 and under the tip 17 on the surface 15. The head 17 is open and does not get damaged.

According to a variant, the device of FIG. 5, under the sheds along the weaving machine, the curved guides 24 are placed, which move with the help of chains and inform the driving plates 22 in the form of a swing around the shaft 21 of the continuously shifting wave. In each movable cavity there is one duck plotter 16, whose drive surfaces on the back side with its upper part abut 25 drive forward, platinum 22, which slide forward, move the duck plotter 16 further and slide the weft threads in their most forward position. When strikes in the transmission of motion, as in the first embodiment, the duck plotter 16, overtaking its drive platinum, with its jump

0 under the toe 17 moves along the front bounding surface of the wave formed by the lower parts 26 of the drive plates 22. This front limit surface by the stepped design of the drive plates 22 with prominent low parts 26 and continuous swing always engages with the bevel before the toe 17 begins to move by

0 drive plates 22. Thus, the toe is not damaged,

With both options, it is possible to arrange a bevel 16 and under MEJCKOM 17 a duck plotter 16 is

5 so that it is possible to move the weft-laying 16 against the direction needed during the weaving process. The drive plates 7 and 22 are driven in the reverse direction. The screw surface 15 or the front limiting surface formed by the lower parts 26 is guided along the bevel 16a. In addition, in areas without

. The main threads can be made front bounding surfaces of the hollows of an elastic material, such as plastic or rubber.

Claims (3)

1. A device for driving duck plotters of an automatic weaving machine with a wave-like movable throat, containing drive elements mounted for movement at an angle to the direction of movement of the weft plotters with the formation of a continuous wave profile in the direction of movement of the weft plotters of traveling waves, in the pits of which weft plotters are located, containing the toe, the back curve of the troughs which interacts with the drive surfaces of the duck plotter, characterized in that The front curve of wave troughs has a restrictive surface that is located outside the path of movement. toe plotter duck. 2. A device according to claim 1, characterized in that the traveling waves are formed by protrusions of the driving plates of the rotating weaving shaft, and the surface of the tooth lying in front of the drive tooth, forms the front curve of the waves, with this restrictive surface located below the drive surface of the drive tooth. 3. The device according to claim 1, characterized by the TMG that the traveling waves are formed by kachajugcimis driven platinum, the drive edges of which have a step, the upper part which forms the back curve of the depression of the wave, adjacent to the drive surfaces of the weft plotter, and the bottom section forms the bounding surface of the front curve of the depression of the waves. It is recognized as an invention according to the results of the examination carried out by the Office for the Invention of the German Democratic Republic. } Sh | C   14 UCH Ttv I vS. vv .n. :  one four “J V PM-XX Ni W 15 17 eleven 1Z fPu &. 3 13 Fi & 4 23 Z Wa 25