SU1044692A1 - Apparatus for feeding thread into looping system of knitting machine - Google Patents

Abstract

1. A DEVICE FOR FEEDING THREADS IN A LOOP-FORMING SYSTEM THREE-. CLEAR MACHINE containing input and output filaments. 15. The following eyes are: a thread-feed drum, kinematically connected with a drive for its rotation, and a distributor that, in order to expand the technological capabilities in the transient speed mode of the machine, it is additionally equipped with a drive thread-supply ba-. In this case, the drums are mounted coaxially with the possibility of rotation at different speeds, and the spreader is located along both the drums. q taeA. yes to

Description

2. The device of claim 1, which is one of the threads that are kinematically connected to the drive by means of a belt,

3. The device according to claim 1, wherein the spreader has a thread guide for separating the turns at the level of the upper end of the second drum.

4, the device according to claim 1, characterized in that it comprises means for periodically moving the thread-conducting eyes, made in the form of an electromagnet.

5, The device is pop.1.0 tl and is susceptible. The thread guide drums are kinematically connected to one another by means of a gear train.

6. Device POP.1, characterized in that each thread-supplying drum has an individual drive.

The invention relates to knitwear production, S in particular to devices for the active feeding of yarn into a loop-forming system, mainly to circular knitting machines, depending on the type of threading, can be used as on machines for holding piece goods (coupons, hosiery) , and on the machines for the length of the canvases. In the case of piece items, for: cycle time in various parts of a product in a string with different loop lengths and because of the instability of the speed and tension of the thread, as well as the depth of the loop in the loop-forming ones. systems there is a variety of products produced, which leads to additional labor costs when assembling parts of the product of the same size, with a set of products in pairs, and also increases the number of low-grade products. A device is known comprising input and output thread-guiding eyes, a thread-giving drum, which is kinematically associated with a drive for its rotation, and a marker, located on the side of the drum. The device is also provided with a means for moving the entrance or conductive eye, which directs the thread either under the drive belt or outside of it C13. However, the functionality of the application of the known device is limited, since it cannot be used as an active tension regulator when switching from the forced feed mode to the controller operation mode when switching to an area of the product with an increased loop length. This is due to the fact that when the device is operated as an active regulator, the linear speed of the thread-feeding drum must be 2-3 times higher than the linear speed of the thread. The purpose of the invention is to expand the technological capabilities and ensure uniform thread tension in the transient speed mode of the machine. This goal is achieved by the fact that the device is additionally equipped with a driven thread-supply drum, with the drums mounted coaxially with the possibility of rotation at different speeds, and the marker is located along both drums. One of the thread guide drums is kinematically connected to the drive by means of a belt. The tagger has a thread guide for separating the turns at the level of the upper end of the SECOND: drum. The device comprises means for periodically moving the thread-conducting eyes, made in the form of an electromagnet. The yarn feed drums are kinematically connected to one another by means of a gear train. Each thread feed drum has an individual drive. Fig. 1 shows a device in which the thread-bearing drums are kinematically connected by means of a gear, side view; Fig. 2 is the same, is a top view; Fig. 3 is the same in which the second thread guide drum is driven by an individual electric motor independently of the belt drive of the first thread guide drum; in Fig. 4, the position of the threads during the operation of the device in the mode of the active tension regulator; in FIG. 3 the same - in the mode of forced feed (constant) thread; in FIG. 6, a device threading scheme (arrangement of thread windings) for those cases when, in use, only the forced feed mode is used; Fig. 7 shows the arrangement of segments of refueling in the device, ti, view from above. The device contains input 1 and output 2 thread guide eyes, thread guide drum 3 connected to drive belt 4, second drive thread guide drum 5 mounted coaxially with the first drum 3, and spreader b, are made in the form of a conical smooth rod fixedly mounted into the housing 7. Attach tension tension 8 to body 7, self-stopping 9 and 10, stopping in the opening machine when the thread breaks. The device (Figures 1 and 2) has means for periodically moving the thread-conducting eyes, made in the form of an electromagnet 11 to the stem 12 of which the head 2 is attached, and the first thread-giving drum is kinematically connected with the second thread-giving drum 5 with a planetary open gear. This transmission consists of a fixed gear 13, a satite 14 and a gear 15, which are made in one piece with the shaft 16, on which the thread feed drum 5 is fixed. The screw 17 serves to attach the electromagnet 11 to the housing 7. The device is attached to the ring 18 in The machine is equipped with a bracket 19 and a screw 20. The electromagnet 11 and the self-stops 9 and 10 are powered through the cable 21. The presence of the thread is carried out at the input by the stop sensor 22 9, at your turn by the stop probe 23 10. The device (figure 3 ) designed to achieve particularly equal Forced feed with very small deviations of the tension of the output branch of the thread contains a stationary output thread guide hole 24 located at the level of the belt 4, and the spreading machine 6 has a thread spreader 25 for separating the turns of thread nit located at the level of the upper end of the drum 5. Thread yarn 5 has a drive independent of the drive of the first thread-giving drum 3 and made in the form of an I electric motor 26, which is fastened with 27 screws 28 to the case. The device operates as follows. To fill the device (Fig. 4), the thread 29 passes through nitenate the resident 8, the eye of the sensor 22, the input thread guide eye 1, the lower output eye 2, wraps the drum 5 and the spreader 6 with two or four turns and passes the thread 29 into the upper output eye, at the same time, the probe 23 is located on top of the output branch of the thread 29. I When the knitting machine drive is turned on, both thread-feeding rollers rotate in one direction, and the thread-feeding drum 5 rotates faster than drum 3. Linear speed of the drum. 5 at least 2.5 times the longitudinal speed of the thread, while the slippage of the threads. 29 with the surface of the drum 5 is provided by the frictional properties of the thread and the surface of the drum 5 and depends on the tension of the thread 29. With an increase in the yield of the thread, the friction force increases, reducing slippage, as a result of which the drum 5 delivers a large amount of thread, actively adjusting the thread tension. In this mode, it is possible to carry out the product earnings, to enter the board, pt, footprint, toe, and stocking. When pagolenka is in stocking, a solenoid 11 is turned on from the software device in the hall machine, which draws in the rod 12 and transfers the threads to the drum 3 under the driving belt 4. Pressing with a belt. 4 at the same time 3-4 turns eliminates slippage and provides forced feed. Spreader 6 serves for unfolding (dividing) the threads of the thread on the surface of the drums, thus preventing their tangling and breakage in the event that one turns on the thread over the other. The gas station (Fig. 6) is expedient to use in the case when the device is used only in the forced feed mode. Such a dressing ensures a very low fluctuation in the tension of the thread at the exit, which ensures a stable level of tension in the thread when it enters the belt 4. The thread guide 25 provides a constant ratio of the number of turns on the drums 3 and 5.

2V

23

6

6 10

7

Claims (6)

1. DEVICE FOR FEEDING 'THREADS INTO THREE-LOOP-FORMING SYSTEM. CASTING MACHINE, containing input and output thread-piercing eyes, thread feeding drum kinematically connected to the drive for its rotation, and trolley, characterized in that, in order to expand technological capabilities in the transition speed mode of operation of the machine, it is additionally equipped with a drive thread feeding drum, while the drums are mounted coaxially with the possibility of rotation at different speeds, and the layout is located along both drums. f 2. ’The device according to claim 1, characterized in that one of the yarn feed barbs is kinematically connected to the drive via a belt. '' 3. The device according to p. 4. The device according to claim 1, characterized in that it comprises means for periodically moving the thread-conducting eyes made; in the form of an electromagnet. 5. The device according to claim 1, wherein the thread-feeding drums are kinematically connected to each other by means of a gear transmission. 6. The device according to claim 1, characterized in that each thread feeding drum has an individual drive.