SU510540A1 - Apparatus for the aerodynamic formation of fibrous ribbons using fiber-air flow - Google Patents

Description

3

needles no height; in fig. 14 - mixing the twin needles relative to each other; in fig. 15 - nonapF-oe location: hl and mine; in fig. 16 - Shahg with two ele; ; trodami. cross section; in fig. 17 and 18 - options located; 1 electrodes in the mine.

The construction has a shaft 1 for a fiber-jet stream 2 with a BiiyTpH iiee installed in front of the machine for forming ribbons 3, brightened up in the form of a needle 4, the working surface of which is located along the fiber of the 10th stream 2, and an exhaust device made. ; for example, in the form of rolls o and 6.

The needle 4 can be made right. (As shown in Fig. D), it is installed at an angle C5-75 to the direction of the air-flow 2, or curved (see section 2).

The needles 4 in the device can be mounted in pairs in B packages and provided with a means for measuring; every time a pair of needles, one from each other, and with respect to the walls of the shaft (see Fig. 3). to ensure neoohodimo my quantity of fibers taken from the flow of thread flow 2 1gami 4

The means for mixing each pair of needles is carried out with a guide bolt 7 connected to the needles, fixed to the bracket 8 by means of nuts 9 and 10, which make it possible to set the needle 4 to the desired position.

In addition, the device contains a means for adjusting the angular position of the ngl, made in the form of a bracket 1 (see f. 5g. 3), the upper end 12 of which is connected to the needles 4, and the lower end is set on the axis 13. In the middle part 14 the clip 11 has a slot 15 which, using a screw 16 screwed into the bracket 17, allows the bracket to be adjusted around the axis 13.

To obtain a predetermined thickness of the fiber tape, the needles have a means for adjusting the 1X height position, which is made in the form of height-adjustable rods 18 associated with the needles 4, which are fastened with the help of nuts 19 and 20 on the bracket 21 (see Fig. 4 and 13).

To influence the rate of fiber mixing along the needles of pr1: the method for forming the tapes may have a vibratory mechanism (see figs. 5 and 6) containing a yellowish disk 22, mounted on the axis 23, which interacts with the lever 24, mounted on the axis 25 and having a middle part of the slot 26, into which the entrance}) t BiuiT 27. The weakening of the gate 27 allows you to change the position of the lever 24.

The recesses 28 of the grooved disk 22 include a roller 28 mounted on the guide lever 29. The lever 29 is loosely mounted on the finger 30 and has a spring 31, with a roller 28 to the disk 22. At the other end of the lever 29 the holder 32 is fixed, carrying the needles 4.

The airbag has a favorable effect on the sliding of the fibers along the needles. For this, hollow and perforated rozane are made and compressed air is supplied through it. The perforation # 1 on the needles is located in the direction of feeding the fibers.

Shown in FIG. The 9-12 cross sections of needles 4 are possible forms of their design (in the form of a circle, oval, mushroom, etc.).

In order to accommodate as many fiber extraction sections as possible in the mine 1, the needles are placed in the cartridges in pairs, for example, around the circumference (see Fig. 15).

In addition, the device is equipped with means for mixing each pair of needles one relative to the other (see Fig. 14), the pairs are combined, for example, into groups 33, located at intervals-free sections.

Due to the fact that the needles installed along the length of the shaft, select fibers from the air flow, the concentration of fiber – fiber mixture varies, therefore, to maintain it constant from the shaft, part of the compressed air is sucked out by means known.

To provide pre-orientation of the fibers, an electrostatic field created by the electrodes is used, built-in and into the walls of the shaft. Needles can be used as electrodes.

FIG. 18 is given a variant of the installation of electrodes in the form of plates 34 and 35 on the walls of the shaft 1, and iia FIG. 16 and 17 show the use of needles 4 as electrodes and an example of their location; within the framework of onncaiiiibix above var ;; Antam mounting needles 4 in the mine 1.

In the proposed M device, a fiber-air flow 2 is mixed along mine I in the direction of arrows A. The flow fibers, meeting the needles 4 in their path, draw on them in the form of loops. Since the needles 4 are located slope 1U. then the fibers have the possibility of not being mixed in the direction of the exhaust attachment — rolls 5 and 6.

These fibers are well sortable and form fibers} of one hundred; -o belt 3, which is transferred for further processing according to a given technology.

To obtain the necessary thickness of the ribbons, the position of the needles in the shaft in height and angular position, as well as the location) between them, leads to a change: -; ol; honest for the fibers. on the needles.

To improve the intermixed fibers, the last needles can communicate with the help of a vibratory mechanism a minimum angular motion with an increased frequency. To do this, as the disk 22 rotates, the lever 29 gets a constant star-unattachment speed: a decrease, which causes the needles to oscillate 4.

Claims (11)

1. Device for aerodynamic formation of fibrous ribbons with the help of fiber of an unobstructed flow, containing a shaft from mills, an insert inside it with a device for forming ribbons, working surface which is located transversely to the direction of the airborne flux, and extending the device, characterized in that, in order to improve the quality of the tape, the device for forming the tapes is made in the form of a needle and provided with means for adjusting their position. 2. A device according to claim 1, characterized in that each needle is made straight and set to the direction of the air-flow at an angle of 65-75 °. 3. A device according to claim 1, characterized in that each needle is curved. 4. Device on PP. 1-3, characterized in that the needles are mounted in pairs in bags and provided with means for displacing each pair of needles one relative to another. 5. Device on PP. 1-4, characterized in that each needle is hollow and perforated and provided with means for supplying compressed air. 6. The device according to paragraphs. 1-5, characterized in that, in order to provide a predetermined height position of the needles, the means for adjusting the position of the needles are made in the form adjustable length rods associated with needles. 7. The device according to paragraphs. 1-5, characterized in that in order to provide for the angular deflection of the needles, the means for adjusting the position of the needles are made in the form of a bracket, one end of which is seated on the axis and the other is connected to the needles, and in the middle part the bracket has a slot for adjusting its rotation 0 around the axis. 8. Device on PP. 1-7, characterized in that the device for forming the belts is provided with a vibration mechanism. 9. The device according to claim 8, different 5 by the fact that the vibration mechanism consists of a grooved disk, a roller and a lever. 10. Device on PP. 1-9, characterized in that, in order to provide a preliminary orientation of the fibers, it is provided with electrodes installed in the walls of the tongue. 11. The device according to claim 10, characterized in that needles are used as electrodes. 7 2 // t ig.2. 2b Fig. $ (fve. 5 j vFig. eight ig. L e / 2 Pll2. 12 Jj Pvz. A / (pvz.W xl 34 35 (piiz.17 FIG. 18