CN106400237A - Three low count yarn governable feeding figure yarn production installation - Google Patents

Abstract

The present invention provides a three roving controllable feeding fancy yarn production device, including a rear roller drafting pair composed of a rear roller and a rear rubber roller, a middle roller drafting pair composed of a middle roller and a middle rubber roller, a front roller and a The front roller drafting pair composed of the front rubber roller is fixedly connected with one roller sleeve and two roller sleeves connected with the bearing respectively on the rear roller shaft, and the two roller sleeves connected with the bearing are separately driven by their own transmission shafts through the belt. Then realize the separate control feeding of rovings of three different colors, and then realize the production of single-color, double-color or three-color fancy yarns, enrich the variety of yarns, and increase the added value of yarns.

Description

A three roving controllable feeding fancy yarn production device

technical field

The invention relates to the technical field of spinning, and in particular relates to a fancy yarn production device with three rovings controllable feeding.

Background technique

With the continuous advancement of the times, people's requirements for clothing materials continue to increase. At present, the textile and clothing industry is in an era of pursuing fashion, diversification and high quality. Therefore, new requirements have been put forward for the development of textile raw materials, among which fancy yarns have gradually entered people's field of vision and occupy an irreplaceable position. Fancy yarn refers to the yarn with special structure and appearance effect obtained by processing fiber or yarn with special raw materials, special equipment or special technology in the process of spinning and thread making. It is a decorative yarn in yarn products. A kind of yarn that works. Fancy yarn has unique structure, flexible shape, rich color expression, diversified use of raw materials, and creativity. These make fancy yarn products easy to introduce new ones and produce more differentiated textile products. In today's pursuit of personalized consumption In this era, the market has endowed fancy yarn with a broad space. Among them, segment colored yarn is a kind of fancy yarn that is widely researched and applied at present. It has a new style of multi-color combination. It not only has thickness changes in the axial direction of the yarn, but also has fancy colors that appear alternately in discontinuous distribution. Presents irregular and unique flower and color effects. At present, the production of segment colored yarn is mainly carried out on the traditional spinning frame with three rollers. The white roving is continuously fed by the middle roller, and one colored auxiliary yarn is intermittently fed by the rear roller. Segment color effect. This method has lower modification cost and higher efficiency, but the yarn dryness uniformity is poor. In view of this, in the Chinese patent "Segment Color Spinning Transmission Device (Patent No.: ZL200420081737.2)", a segment color yarn production device with four loops is provided, but this device still uses double roving feeding, and at the same time , the first roller and the second roller are still controlled by the same motor, so the main draft cannot be adjusted freely.

In view of the above problems, the present invention provides a three-roving controllable feeding fancy yarn production device, one roller sleeve is fixedly connected to the rear roller shaft, two roller sleeves are connected to the bearing, and the two roller sleeves pass through the gear Driven separately by their own drive shafts, and then individually controlled feeding of rovings of three different colors is realized, and then the production of single-color, double-color or three-color fancy yarns is realized, which enriches the variety of yarns and increases the added value of yarns.

Contents of the invention

The purpose of the present invention is to provide a three-roving controllable feeding fancy yarn production device to realize the production of single-color, double-color or three-color fancy yarns, enrich the variety of yarns, and increase the added value of yarns.

In order to achieve the above purpose, a three-rove controllable feeding fancy yarn production device includes a rear roller drafting pair composed of a rear roller and a rear rubber roller, a middle roller draft pair composed of a middle roller and a middle rubber roller, and a front roller. The front roller drafting pair composed of the front rubber roller, the rear roller includes a rear roller shaft, the middle and rear roller sleeves are fixedly connected to the rear roller shaft, and the rear roller shafts are connected respectively through the first bearing The left rear roller sleeve is connected with the right rear roller sleeve through the second bearing, and the left rear roller sleeve and the right rear roller sleeve are respectively located on the left and right sides of the middle rear roller sleeve, and the left rear roller sleeve, the middle rear roller sleeve and the The size of the right rear roller sleeve is the same, the left rear roller sleeve is connected with the left rear transmission shaft through the first belt, the right rear roller sleeve is connected with the right rear transmission shaft through the second belt, and the middle roller includes the middle roller shaft , a middle roller sleeve is fixedly connected to the middle roller shaft, and the length of the middle roller sleeve is equal to the sum of the lengths of the left rear roller sleeve, the middle rear roller sleeve and the right rear roller sleeve, and is fixed on the front roller shaft A front roller sleeve is connected, and the length of the front roller sleeve is equal to the sum of the lengths of the left rear roller sleeve, the middle rear roller sleeve and the right rear roller sleeve. The rear roller shaft is driven to rotate by the first servo motor. The transmission shaft is driven to rotate by the second servo motor, the right rear transmission shaft is driven to rotate by the third servo motor, the middle roller shaft is driven to rotate by the fourth servo motor, the front roller shaft is driven to rotate by the main motor, and the The main motor is a variable frequency motor, and the first servo motor, the second servo motor, the third servo motor, the fourth servo motor and the main motor are connected through a programmable logic controller.

When spinning, the pressing component is pressed down, so that the rear rubber roller and the left rear roller cover of the rear roller, the middle rear roller cover and the right rear roller cover are tightly pressed, the middle rubber roller and the middle roller are tightly pressed, and the front glue The roller and the front roller are tightly pressed, the first roving is fed by pressing between the rear rubber roller and the left rear roller sleeve, the second roving is fed by pressing between the rear rubber roller and the middle rear roller sleeve, and the third roving is fed by the rear Press feeding between the rubber roller and the right rear roller sleeve, the fourth servo motor drives the middle roller shaft to rotate, and then drives the middle roller sleeve to rotate, the main motor drives the front roller shaft to rotate, and then drives the front roller sleeve to rotate, including monochromatic yarn production , two-color yarn production and three-color yarn production, single-color yarn production, the second servo motor and the third servo motor stop working, at this time the first roving and the third roving stop feeding, the first servo motor drives the rear roller shaft to rotate , and then drive the middle and rear roller sleeves to rotate, so that the second roving is pressed and fed between the rear rubber roller and the middle and rear roller sleeves, or the first servo motor and the third servo motor stop working, at this time the second roving and the third roving Stop feeding, the second servo motor drives the left rear transmission shaft to rotate, and then drives the left rear roller sleeve to rotate, so that the first roving is fed by pressing between the rear rubber roller and the left rear roller sleeve, or the first servo motor and the second The servo motor stops working. At this time, the first roving and the second roving stop feeding. The third servo motor drives the right rear transmission shaft to rotate, and then drives the right rear roller sleeve to rotate, so that the third roving is passed by the rear rubber roller and the right rear roller sleeve. The fed roving is then pressed and passed between the middle roller and the middle rubber roller, and is drafted by the rear drafting zone composed of the rear roller draft pair and the middle roller draft pair, and finally by the front roller After being pressed between the roller and the front rubber roller, it is output, and is drawn by the front drafting area composed of the middle roller draft pair and the front roller draft pair to obtain single-color whiskers; during the production of double-color yarn, the first servo motor stops At this time, the second roving stops feeding, the second servo motor drives the left rear transmission shaft to rotate, the third servo motor drives the right rear transmission shaft to rotate, and then respectively drives the left rear roller sleeve and the right rear roller sleeve to rotate, so that the first The roving is fed by pressing between the rear rubber roller and the left rear roller sleeve, and the third roving is fed by pressing between the rear rubber roller and the right rear roller sleeve, or the second servo motor stops working, and the first roving stops feeding at this time , the first servo motor drives the rear roller shaft to rotate, the third servo motor drives the right rear transmission shaft to rotate, and then drives the middle rear roller sleeve and the right rear roller sleeve to rotate respectively, so that the second roving is passed between the rear rubber roller and the middle rear roller sleeve. The third roving is fed by pressing between the rear rubber roller and the right rear roller sleeve, or the third servo motor stops working. At this time, the third roving stops feeding, and the first servo motor drives the rear roller shaft to rotate. The second servo motor drives the left rear transmission shaft to rotate, and then respectively drives the middle rear roller sleeve and the left rear roller sleeve to rotate, so that the first roving is fed by pressing between the rear rubber roller and the left rear roller sleeve, and the second roving is fed by the rear glue. Press and feed between the roller and the middle and rear roller sleeves, and the fed roving is then pressed and passed between the middle roller and the middle rubber roller, and is drafted by the rear drafting zone composed of the rear roller drafting pair and the middle roller drafting pair Stretching, and finally pressed between the front roller and the front rubber roller The output is subjected to the drafting effect of the front drafting area composed of the middle roller drafting pair and the front roller drafting pair to obtain two-color whiskers; in the production of three-color yarn, the first servo motor, the second servo motor, and the third servo motor Work at the same time, and then drive the rear roller shaft, the left rear transmission shaft, and the right rear transmission shaft to rotate respectively, and then drive the first roving to pass between the rear rubber roller and the left rear roller sleeve, and the second roving to pass through the rear rubber roller and the middle rear roller sleeve. The middle and third rovings are simultaneously pressed and fed between the rear rubber roller and the right rear roller sleeve, and then the fed roving is pressed and passed between the middle roller and the middle rubber roller, and is drawn by the rear roller draft pair and the middle roller. The drafting effect of the rear drafting zone composed of the stretching pair is finally output after being pressed between the front roller and the front rubber roller, and the drafting effect of the front drafting zone composed of the middle roller drafting pair and the front roller drafting pair, Get three-color whiskers.

The main motor drives the spindle to rotate through the spindle belt, and then drives the twist generated by the rotation of the bobbin to pass from bottom to top, so that the obtained strands after drafting rotate around their own axis, and then obtain fancy yarn with a certain twist, and the obtained flower The fancy yarn is wound on the bobbin after passing through the yarn guide hook and the traveler, and the rotation of the bobbin drives the traveler to rotate around the steel collar. Since the speed of the traveler is smaller than that of the bobbin, the fancy yarn is continuously wound on the bobbin.

In the present invention, one roller sleeve is fixedly connected to the rear roller shaft, two roller sleeves are connected to the bearing, and the two roller sleeves are independently driven by their respective transmission shafts through gears, thereby realizing the independent control of three different colored rovings. Feed, and then realize the production of single-color, double-color or three-color fancy yarn, enrich the variety of yarn, and increase the added value of yarn.

Description of drawings

Fig. 1 is a structural schematic diagram of a device for producing fancy yarns with three rovings in controllable feeding according to the present invention.

detailed description

As shown in Figure 1, a three-roving controllable feeding fancy yarn production device includes a rear roller drafting pair composed of a rear roller 4 and a rear rubber roller 5, and a middle roller drafting pair composed of a middle roller 6 and a middle rubber roller 7. The front roller drafting pair consisting of the front roller 8 and the front rubber roller 9, the rear roller includes the rear roller shaft, and the middle and rear roller sleeves 11 are fixedly connected to the rear roller shaft, and pass through the first bearing respectively on the rear roller shaft The left rear roller cover 10 is connected, and the right rear roller cover 12 is connected with the second bearing. The left rear roller cover and the right rear roller cover are respectively located on the left and right sides of the middle rear roller cover. The size of the right rear roller sleeve is the same, the left rear roller sleeve is connected with the left rear transmission shaft 13 through the first belt, the right rear roller sleeve is connected with the right rear transmission shaft 14 through the second belt, and the middle roller includes the middle roller shaft. A middle roller sleeve is fixedly connected to the shaft, and the length of the middle roller sleeve is equal to the sum of the lengths of the left rear roller sleeve, the middle rear roller sleeve and the right rear roller sleeve. The front roller shaft is fixedly connected with a front roller sleeve. The length is equal to the sum of the lengths of the left rear roller sleeve, the middle rear roller sleeve and the right rear roller sleeve. The rear roller shaft is driven to rotate by the first servo motor 15, the left rear transmission shaft is driven to rotate by the second servo motor 16, and the right rear transmission shaft Driven by the third servo motor 17 to rotate, the middle roller shaft is driven to rotate by the fourth servo motor 18, and the front roller shaft is driven to rotate by the main motor 19, the main motor is a variable frequency motor, the first servo motor, the second servo motor, the third servo motor The motor, the fourth servo motor, and the main motor are connected through a programmable logic controller 20 .

During spinning, the pressing assembly is pressed down so that the back rubber roller 5 and the left rear roller cover 10 of the rear roller 4, the middle rear roller cover 11 and the right rear roller cover 12 are tightly pressed, and the middle rubber roller 7 and the middle roller 6 are tightly pressed. Press tightly between the front rubber roller 9 and the front roller 8, the first roving 1 is fed by pressing between the rear rubber roller 5 and the left rear roller sleeve 10, the second roving 2 is fed by the rear rubber roller 5 and the middle The third roving 3 is pressed and fed between the rear rubber roller 5 and the right rear roller sleeve 12, and the fourth servo motor 18 drives the rotation of the middle roller shaft, which in turn drives the rotation of the middle roller sleeve. The motor 19 drives the front roller shaft to rotate, and then drives the front roller cover to rotate, including monochrome yarn production, two-color yarn production and three-color yarn production. During monochrome yarn production, the second servo motor 16 and the third servo motor 17 stop working, At this time, the feeding of the first roving 1 and the third roving 3 stops, and the first servo motor 15 drives the rear roller shaft to rotate, and then drives the middle and rear roller sleeve 11 to rotate, so that the second roving 2 is driven by the rear rubber roller 5 and the middle and rear roller sleeve. Press and feed between 11, or the first servo motor 15 and the third servo motor 17 stop working, at this time the second roving 2 and the third roving 3 stop feeding, the second servo motor 16 drives the left rear transmission shaft to rotate, and then Drive the left rear roller sleeve 10 to rotate, so that the first roving 1 is pressed and fed between the rear rubber roller 5 and the left rear roller sleeve 10, or the first servo motor 15 and the second servo motor 16 stop working, at this time the first roving 1 and the second roving 2 stop feeding, the third servo motor 17 drives the right rear transmission shaft to rotate, and then drives the right rear roller sleeve 12 to rotate, so that the third roving 3 is pressed between the rear rubber roller 5 and the right rear roller sleeve 12 Feeding, the fed roving is then pressed through between the middle roller 6 and the middle rubber roller 7, and is drafted by the rear drafting zone composed of the rear roller draft pair and the middle roller draft pair, and finally the front roller 8 and the front rubber roller 9 are pressed and then output, and are drawn by the front draft zone composed of the middle roller draft pair and the front roller draft pair to obtain single-color whiskers; in the production of double-color yarn, the first servo motor 15 stops working, now the second roving 2 stops feeding, the second servo motor 16 drives the left rear transmission shaft to rotate, the third servo motor 17 drives the right rear transmission shaft to rotate, and then drives the left rear roller sleeve 10 and the right rear roller respectively The sleeve 12 rotates so that the first roving 1 is fed by pressing between the rear rubber roller 5 and the left rear roller sleeve, the third roving 3 is fed by pressing between the rear rubber roller 5 and the right rear roller sleeve, or the second servo motor 16 stops working, at this time the first roving 1 stops feeding, the first servo motor 15 drives the rear roller shaft to rotate, the third servo motor 17 drives the right rear transmission shaft to rotate, and then respectively drives the middle rear roller sleeve and the right rear roller sleeve to rotate , so that the second roving 2 is fed by pressing between the rear rubber roller 5 and the middle rear roller sleeve, the third roving 3 is fed by pressing between the rear rubber roller 5 and the right rear roller sleeve, or the third servo motor 17 stops working , now the third roving 3 stops feeding, the first servo motor 15 drives the rear roller shaft to rotate, the second servo motor 16 drives the left rear transmission shaft to rotate, and then drives the middle rear roller sleeve and the left rear roller sleeve to rotate respectively, so that The first roving 1 is fed by pressing between the rear rubber roller and the left rear roller sleeve, the second roving 2 is fed by pressing between the rear rubber roller and the middle rear roller sleeve, and the fed roving is then fed by the middle roller 6 and the middle rubber Press and pass between the rollers 7, and receive the drafting effect of the rear drafting area composed of the rear roller draft pair and the middle roller draft pair, and finally output after being pressed between the front roller 8 and the front rubber roller 9, and be drawn by the middle roller The drafting action of the front drafting zone formed by the drafting pair and the front roller drafting pair produces two-color strands; in the production of three-color yarn, the first servo motor 15, the second servo motor 16, and the third servo motor 17 work simultaneously , and then respectively drive the rear roller shaft, the left rear transmission shaft, and the right rear transmission shaft to rotate, and then drive the first roving 1 between the rear rubber roller and the left rear roller sleeve, and the second roving 2 by the rear rubber roller and the middle rear roller sleeve The middle and third rovings 3 are simultaneously pressed and fed between the rear rubber roller and the right rear roller sleeve, and then the fed roving is pressed and passed between the middle roller 6 and the middle rubber roller 7, and is stretched by the rear roller and The drafting action of the rear drafting zone composed of the middle roller drafting pair is finally output after being pressed between the front roller 8 and the front rubber roller 9, and is subjected to the front drafting area composed of the middle roller drafting pair and the front roller drafting pair The drafting effect of the three-color whiskers is obtained.

The main motor 19 drives the spindle to rotate through the spindle belt, and then drives the twist generated by the rotation of the bobbin 24 to pass from bottom to top, so that the obtained strands after drafting rotate around their own axis, and then obtain fancy yarn with a certain twist, and obtain The fancy yarn is wound on the bobbin after passing through the guide hook 21 and the traveler 22. The rotation of the bobbin drives the traveler to rotate around the steel collar 23. Since the speed of the traveler is smaller than the speed of the bobbin, the fancy yarn is continuously wound. on the bobbin.

Claims (1)

1. A three-roving controllable feeding fancy yarn production device, including the rear roller drafting pair composed of the rear roller and the rear rubber roller, the middle roller drafting pair composed of the middle roller and the middle rubber roller, the front roller and the front rubber The drafting pair of front rollers composed of rollers is characterized in that: the rear rollers include rear roller shafts, middle and rear roller sleeves are fixedly connected to the rear roller shafts, and are respectively connected by first bearings to the rear roller shafts. There is a left rear roller sleeve, and a right rear roller sleeve is connected through the second bearing. The left rear roller sleeve and the right rear roller sleeve are respectively located on the left and right sides of the middle rear roller sleeve. The left rear roller sleeve and the middle rear roller sleeve The same size as the right rear roller sleeve, the left rear roller sleeve is connected with the left rear transmission shaft through the first belt, the right rear roller sleeve is connected with the right rear transmission shaft through the second belt, and the middle roller includes the middle roller shaft, a middle roller sleeve is fixedly connected to the middle roller shaft, and the length of the middle roller sleeve is equal to the sum of the lengths of the left rear roller sleeve, the middle rear roller sleeve and the right rear roller sleeve. The front roller sleeve is fixedly connected, and the length of the front roller sleeve is equal to the sum of the lengths of the left rear roller sleeve, the middle rear roller sleeve and the right rear roller sleeve. The rear roller shaft is driven to rotate by the first servo motor, and the left The rear transmission shaft is driven to rotate by the second servo motor, the right rear transmission shaft is driven to rotate by the third servo motor, the middle roller shaft is driven to rotate by the fourth servo motor, and the front roller shaft is driven to rotate by the main motor. The main motor is a variable frequency motor, and the first servo motor, the second servo motor, the third servo motor, the fourth servo motor, and the main motor are connected through a programmable logic controller; during spinning, the pressurizing assembly is pressed down so that Press tightly between the rear rubber roller and the left rear roller sleeve of the rear roller, between the middle rear roller sleeve and the right rear roller sleeve, between the middle rubber roller and the middle roller, and between the front rubber roller and the front roller, the first The roving is fed by pressing between the rear rubber roller and the left rear roller sleeve, the second roving is fed by pressing between the rear rubber roller and the middle rear roller sleeve, and the third roving is fed by pressing between the rear rubber roller and the right rear roller sleeve In, the fourth servo motor drives the middle roller shaft to rotate, and then drives the middle roller sleeve to rotate, the main motor drives the front roller shaft to rotate, and then drives the front roller sleeve to rotate, including single-color yarn production, double-color yarn production and three-color yarn production, single-color yarn production During the production of colored yarn, the second servo motor and the third servo motor stop working. At this time, the feeding of the first roving and the third roving stops. The first servo motor drives the rear roller shaft to rotate, and then drives the middle and rear roller sleeves to rotate, so that the first roving and the third roving stop feeding. The second roving is fed by pressing between the rear rubber roller and the middle rear roller sleeve, or the first servo motor and the third servo motor stop working, at this time the second roving and the third roving stop feeding, and the second servo motor drives the left rear The transmission shaft rotates, and then drives the left rear roller sleeve to rotate, so that the first roving is pressed and fed between the rear rubber roller and the left rear roller sleeve, or the first servo motor and the second servo motor stop working. At this time, the first roving and the second servo motor stop working. The feeding of the second roving stops, the third servo motor drives the right rear transmission shaft to rotate, and then drives the right rear roller sleeve to rotate, so that the third roving is fed by pressing between the rear rubber roller and the right rear roller sleeve, and the fed roving then Pressed between the middle roller and the middle rubber roller After passing through, it is drafted by the rear drafting area composed of the rear roller draft pair and the middle roller draft pair, and finally it is output after being pressed between the front roller and the front rubber roller, and is drawn by the middle roller draft pair and the front roller draft. The drafting effect of the front drafting area formed by stretching pairs can obtain single-color sliver; in the production of double-color yarn, the first servo motor stops working, and at this time the second roving stops feeding, and the second servo motor drives the left rear drive shaft to rotate , The third servo motor drives the right rear transmission shaft to rotate, and then respectively drives the left rear roller sleeve and the right rear roller sleeve to rotate, so that the first roving is fed by pressing between the rear rubber roller and the left rear roller sleeve, and the third roving is fed by the rear Press and feed between the rubber roller and the right rear roller sleeve, or the second servo motor stops working, at this time the first roving stops feeding, the first servo motor drives the rear roller shaft to rotate, and the third servo motor drives the right rear transmission shaft to rotate , and then respectively drive the middle rear roller sleeve and the right rear roller sleeve to rotate, so that the second roving is fed by pressing between the rear rubber roller and the middle rear roller sleeve, and the third roving is fed by pressing between the rear rubber roller and the right rear roller sleeve. input, or the third servo motor stops working, at this time the third roving stops feeding, the first servo motor drives the rear roller shaft to rotate, the second servo motor drives the left rear transmission shaft to rotate, and then respectively drives the middle and rear roller sleeve, left rear The roller sleeve rotates so that the first roving is fed by pressing between the rear rubber roller and the left rear roller sleeve, the second roving is fed by pressing between the rear rubber roller and the middle rear roller sleeve, and the fed roving is then fed by the middle roller and Press and pass between the middle rubber rollers, and receive the drafting action of the rear draft zone composed of the rear roller draft pair and the middle roller draft pair, and finally output after pressing between the front roller and the front rubber roller, and be drawn by the middle roller The drafting action of the front drafting area composed of the stretching pair and the front roller drafting pair can obtain two-color whiskers; in the production of three-color yarn, the first servo motor, the second servo motor, and the third servo motor work at the same time, and then drive them separately. The rear roller shaft, the left rear transmission shaft, and the right rear transmission shaft rotate, and then drive the first roving to pass between the rear rubber roller and the left rear roller sleeve, the second roving to pass between the rear rubber roller and the middle rear roller sleeve, and the third roving Press and feed between the rear rubber roller and the right rear roller sleeve at the same time, and then the fed roving is pressed and passed between the middle roller and the middle rubber roller, and is subjected to the back draft composed of the rear roller draft pair and the middle roller draft pair. The drafting effect in the stretching zone is finally output by pressing between the front roller and the front rubber roller, and the drafting effect of the front drafting zone composed of the middle roller drafting pair and the front roller drafting pair to obtain three-color beard.