CN117026456A - Texturing machine for multi-variety fancy ply yarn and spandex fiber coated yarn - Google Patents

Abstract

The invention discloses a texturing machine for multi-variety fancy ply yarn and spandex fiber coated yarn, which comprises a yarn frame, a first heating device, a yarn monitoring device, a second drafting device, a spandex conveying branch and a plurality of processing paths for processing yarn, wherein a cooling device and a false twisting device are arranged on the processing paths for ply yarn in series; the silk thread comes out from the original silk frame, enters the cooling device and the false twisting device through the first heating device, the silk threads on a plurality of processing paths pass through the silk thread monitoring device, two silk threads on adjacent spindle positions are stranded on the front silk guide device of the second drafting device after passing through the silk thread monitoring device, meanwhile, spandex fibers come out from the spandex drafting device and enter the front silk guide device of the second drafting device through the spandex conveying branch, and then the spandex fibers and the stranded silk are combined together, and the stranded spandex fiber coated silk is formed after subsequent treatment. The scheme can solve the problems that the existing equipment is single in production variety and cannot meet the requirements of multiple varieties of users.

Description

Texturing machine for multi-variety fancy ply yarn and spandex fiber coated yarn

Technical Field

The invention relates to the field of textile machinery, in particular to a texturing machine for multi-variety fancy ply yarn and spandex fiber coated yarn.

Background

The spandex coating yarn machine in the current market is mainly a texturing machine for polyester fiber (polyester) and spandex fiber coating yarn of monofilaments or a texturing machine for polyamide (nylon) and spandex fiber coating yarn of monofilaments, the finished product of the monofilament coating yarn is single and cannot meet the requirements of users on spandex color yarn, and the nylon yarn ply and spandex yarn blank integrated texturing machine disclosed in the same publication No. CN102719964A is a double-spindle friction disc type false twister, the double-spindle false twister is driven by one belt, the belt rotating speed and the false twisting parameter can only be set one, the variety of color yarn production has larger limitation, and simultaneously the double-spindle set belt driving noise is larger, so that the environmental noise pollution of the user production is large.

Disclosure of Invention

The invention aims to: the invention aims to provide a texturing machine for multi-variety fancy ply yarn and spandex fiber coated yarn, which can solve the problem that the existing equipment has single production variety and cannot meet the requirements of multiple varieties of users. .

The technical scheme is as follows: the invention relates to a texturing machine for multi-variety fancy ply yarn and spandex fiber coated yarn, which comprises a yarn frame, a first heating device, a yarn monitoring device, a second drafting device, a spandex conveying branch and a plurality of processing paths for processing yarn, wherein a cooling device and a false twisting device are arranged on each processing path for ply yarn in series;

the silk threads on the plurality of processing paths come out of the original silk rack, enter the cooling device and the false twisting device through the first heating device, the silk threads on the plurality of processing paths pass through the silk thread monitoring device, after passing through the silk thread monitoring device, two silk threads on adjacent spindle positions are stranded on the silk guide before the second drafting device, meanwhile, the spandex fibers come out of the spandex drafting device and enter the silk guide before the second drafting device through the spandex conveying branch, and then the spandex fibers and the stranded silk are combined together, and the stranded spandex fiber wrapping silk is formed after subsequent treatment.

Further, the yarn monitoring device is a tension detection device or a yarn detection device.

Further, a spandex yarn detecting device, a first yarn guide and a second yarn guide are arranged on the spandex conveying branch in series; the spandex fiber sequentially passes through a spandex yarn detecting device, a first yarn guide and a second yarn guide after coming out of the spandex drafting device, and enters the second drafting device after going into the yarn guide in front of the second drafting device; the first yarn guide and the second yarn guide are yarn guide structures of a twisting device, a porcelain piece or a yarn doubling wheel.

Further, adjacent spindle positions of the false twisting devices on a plurality of processing paths are distributed in an upper layer and a lower layer, and the false twisting devices can select a whole machine transmission structure or a single spindle transmission structure; . The rotating speeds of the false twisting devices of adjacent spindle positions are set to be the same or different according to the requirements of subsequent products, and the turning directions are set to be the same or different; each spindle position of single spindle transmission is independently controlled, the structure is simple, the transmission chain is short, the number of easily damaged parts is small, and the noise is small.

Further, a shredding device, a first drafting device and a yarn guiding device are arranged on a processing path between the yarn feeding frame and the first heating device.

Further, the first drawing device is provided with more than one yarn, and two or more yarns respectively enter the same or different first drawing devices after coming out of the yarn frame.

Further, an air network device, an auxiliary drafting device and a winding device are sequentially arranged on the processing path behind the second drafting device.

Further, a second heating device, a third drafting device, a lower yarn detecting device and an oiling device are sequentially arranged on a processing path between the auxiliary drafting device and the winding device.

Further, a lower yarn detecting device and an oiling device are arranged on a processing path between the auxiliary drafting device and the winding device.

Further, the forming machine comprises a plurality of spindle positions for forming the ply yarn and processing the spandex fiber, and the spindle positions for forming the ply yarn and processing the spandex fiber are symmetrically arranged side by side to form a deforming machine.

The beneficial effects are that: compared with the prior art, the technical scheme of the invention has the beneficial effects that:

(1) The method can realize the coating of multiple kinds of ply yarn spandex, including the coating of double-ply yarn spandex of terylene and chinlon varieties, the coating of triple-ply yarn spandex, the coating of double-ply yarn spandex and triple-ply yarn spandex with different stretching ratios, the coating of double-ply yarn spandex and triple-ply yarn spandex with different DY ratios, and the yield per unit time is doubled or tripled;

(2) The user can independently select several feeding structures according to the production requirements and flexibly set parameters such as false twisting speed, DY ratio and the like to meet the requirements of different colors, and in addition, the false twisting device independently controlled by a single motor is adopted, so that huge noise caused by long-distance friction transmission of the tangential belt in the original production process is effectively avoided; the noise of the whole machine can be greatly reduced by adopting single spindle false twist transmission.

Drawings

FIG. 1 is a texturing machine for dacron ply yarn and spandex fiber covered yarn according to an embodiment of the present invention;

FIG. 2 is a texturing machine for dacron ply yarn and spandex fiber covered yarn disclosed in the second and third embodiments of the present invention;

FIG. 3 is a texturing machine for nylon ply yarn and spandex fiber covered yarn according to a fourth embodiment of the present invention;

fig. 4 shows a texturing machine for nylon ply yarn and spandex fiber covered yarn according to fifth and sixth embodiments of the present invention.

Detailed Description

The technical scheme of the invention is described in detail below with reference to the detailed description and the attached drawings.

Example 1

As shown in fig. 1, the texturing machine for the ply yarn and the spandex fiber coated yarn comprises a plurality of spindle positions, wherein each spindle position is used for forming the ply yarn and processing the spandex fiber, and the spindle positions are symmetrically arranged side by side to form the texturing machine. Each spindle processes at least one yarn. Each spindle position comprises a yarn frame 1, a yarn cutting device 2, a first drafting device 3, a yarn guiding device 4, a first heating device 5, a first cooling device 61, a second cooling device 62, a first false twisting device 7, a second false twisting device 8, a yarn monitoring device 9, a second drafting device 10, an air network device 11, an auxiliary drafting device 12, a second heating device 13, a third drafting device 14, a lower yarn detecting device 15, an oiling device 16, a winding device 17, a spandex drafting device 18, a spandex yarn detecting device 19, a first yarn guide 201 and a second yarn guide 202. The thread monitoring device 9 may be a tension detection device or a thread detection device. Each spindle position of the texturing machine is provided with a plurality of processing paths for processing silk threads, and the processing paths for stranding silk threads are serially provided with a cooling device and a false twisting device.

A shredding device 2, a first drafting device 3 and a yarn guiding device 4 are arranged on the processing path between the yarn frame 1 and the first heating device 5. The yarn is introduced from the yarn holder 1, enters the yarn cutting device 2 arranged in front of the first drawing device 3, and then enters the first drawing device 3. Each yarn guiding device 4 may guide two yarns or one yarn.

In this embodiment, there are two processing paths for yarn stranding, one processing path for yarn stranding is provided with the first cooling device 61 and the first false twisting device 7 in series, and the other processing path for yarn stranding is provided with the second cooling device 62 and the second false twisting device 8 in series. The spandex conveying branch is provided with a spandex yarn detecting device 19, a first yarn guide 201 and a second yarn guide 202 in series. The first wire guide 201 and the second wire guide 202 are a twister, porcelain, or a doubling wheel wire structure.

The first cooling device 61 and the second cooling device 62 perform a cooling process on the two strands of the twisted filaments, respectively. After the silk thread is discharged from the cooling device, the silk thread enters an upper false twisting device and a lower false twisting device respectively. The rotational speeds of the false twisting devices on the processing paths are set to be the same or different, and the turning directions are set to be the same or different, so that two groups of different (or the same) false twist rate parameters (D/Y ratio) and ply strands with different (or the same) twisting directions can be formed.

In this solution, the auxiliary drafting device 12 is arranged to allow the tension of the yarn entering the air network device 11 to be more controlled.

The working process of the deforming machine comprises the following steps:

aiming at terylene: the first silk thread 31 and the second silk thread 32 come out from the silk frame 1, pass through the shredding device 2, the first drafting device 3 and the silk guiding device 4, enter the first heating device 5 to heat, then enter the first cooling device 61 and the second cooling device 62 respectively, the first cooling device 61 and the second cooling device 62 cool the silk thread, the first silk thread 31 and the second silk thread 32 come out of the cooling devices and then enter the upper and lower two groups of the first false twisting device 7 and the second false twisting device 8 respectively, two groups of silk threads with different (or same) false twist rate parameters (D/Y ratio) and different (or same) twist directions can be formed, then the first silk thread 31 and the second silk thread 32 enter the silk thread monitoring device 9, and after passing through the silk thread monitoring device 9, the two silk threads with adjacent spindle positions are twisted on the silk thread guide 101 in front of the second drafting device; simultaneously, after passing through the spandex drafting device 18, the spandex yarn detecting device 19, the first yarn guide 201 and the second yarn guide 202, the spandex fibers enter the second drafting device front yarn guide 101, are combined with the ply yarn, enter the second drafting device 10, enter the air network device 11, the auxiliary drafting device 12, the second heating device 13, the third drafting device 14, the lower yarn detecting device 15 and the oiling device 16 in sequence, and finally pass through the winding device 17 to generate the terylene ply yarn and spandex coated yarn product.

Example two

The first drawing device 3 may be a single set of first drawing devices, or may be two sets of first drawing devices. In the first embodiment, a group of first drafting devices are adopted, the upper and lower groups of first drafting devices are adopted, and the first drafting devices with the upper and lower groups can set different (or same) rotating speeds, so that the device can adapt to the stranding of two filaments of different types.

As shown in fig. 2, in this embodiment, in two processing paths, a first drawing device 3 and a first filament cutting device 21 are disposed on one processing path, and a first drawing device 3 and a second filament cutting device 22 are disposed on the other processing path, and two polyester filaments respectively enter the first filament cutting device 21 and the second filament cutting device 22 after exiting from the filament frame 1, so as to enter different first drawing devices 3.

Example III

The first drawing device 3 is an upper and a lower groups of first drawing devices, and the first drawing devices provided with the upper and the lower groups can set different (or same) rotation speeds and can adapt to the stranding of three filaments of different types.

As shown in fig. 2, in this embodiment, in two processing paths, a first drawing device 3 and a first shredding device 21 are disposed on one processing path, and a first drawing device 3 and a second shredding device 22 are disposed on the other processing path, after three polyester filaments come out from the filament frame 1, two polyester filaments enter the first shredding device 21, and the other polyester filaments enter the second shredding device 22, so as to enter different first drawing devices 3.

Example IV

The texturing machine for the ply yarn and the spandex fiber coated yarn can also be used for processing the nylon ply yarn and the spandex coated yarn.

In this embodiment, the second heating device 13, the third drawing device 14, the lower yarn detecting device 15, and the oiling device 16 are replaced with the lower yarn detecting device 15 and the oiling device 16. That is, a lower yarn detecting device 15 and an oiling device 16 are provided on the processing path between the auxiliary drawing device 12 and the winding device 17.

The working process of the deforming machine comprises the following steps:

aiming at chinlon: the first silk yarn 41 and the second silk yarn 42 come out of the silk frame 1, pass through the shredding device 2, the first drafting device 3 and the silk guiding device 4, enter the first heating device 5 and are heated, then enter the first cooling device 61 and the second cooling device 62 respectively, the first cooling device 61 and the second cooling device 62 cool the silk yarn, the first silk yarn 41 and the second silk yarn 42 respectively enter the upper and lower two groups of the first false twisting device 7 and the second false twisting device 8 after coming out of the cooling device, two groups of silk yarns with different (or the same) false twist rate parameters (D/Y ratio) and different (or the same) twist directions can be formed, then the first silk yarn 41 and the second silk yarn 42 enter the silk yarn monitoring device 9, and after passing through the silk yarn monitoring device 9, the two silk yarns with adjacent spindle positions are twisted on the silk yarn guider 101 in front of the second drafting device; simultaneously, after passing through the spandex drafting device 18, the spandex yarn detecting device 19, the first yarn guide 201 and the second yarn guide 202, the spandex fibers enter the second drafting device front yarn guide 101, are combined with nylon ply yarn, enter the second drafting device 10, enter the air network device 11, the auxiliary drafting device 12, the lower yarn detecting device 15 and the oiling device 16 in sequence, and finally pass through the winding device 17 to generate a nylon ply yarn and spandex coated yarn product.

Example five

The present embodiment changes on the basis of the fourth embodiment, the first drawing device 3 is an upper and a lower sets of first drawing devices, and the first drawing devices provided with the upper and the lower sets of first drawing devices can set different (or same) rotation speeds, and can adapt to ply of two tows of different types, thereby realizing the spandex coated yarn of double-yarn ply.

As shown in fig. 4, in this embodiment, in two processing paths, a first drawing device 3 and a first filament cutting device 21 are disposed on one processing path, and a first drawing device 3 and a second filament cutting device 22 are disposed on the other processing path, and two nylon filaments respectively enter the first filament cutting device 21 and the second filament cutting device 22 after exiting from the filament frame 1, thereby entering different first drawing devices 3.

Example six

The fifth embodiment is a conversion on the basis of the fifth embodiment, the first drawing device 3 is an upper and a lower groups of first drawing devices, and the first drawing devices provided with the upper and the lower groups can set different (or same) rotation speeds and can adapt to ply of three tows of different types, so that the device realizes the spandex coated yarn of three yarns.

As shown in fig. 4, in this embodiment, in two processing paths, a first drawing device 3 and a first shredding device 21 are disposed on one processing path, and a first drawing device 3 and a second shredding device 22 are disposed on the other processing path, and after three strands of nylon filaments exit from the filament frame 1, two of the nylon filaments enter the first shredding device 21 and the other second shredding device 22, so as to enter different first drawing devices 3.

Claims (10)

1. The utility model provides a deformation machine of many varieties fancy stranding silk and spandex fibre cladding silk, includes former silk frame (1), first heating device (5), its characterized in that: the device also comprises a silk thread monitoring device (9), a second drafting device (10), a spandex drafting device (18), a spandex conveying branch and a plurality of processing paths for processing silk threads, wherein a cooling device and a false twisting device are arranged on the processing paths for silk thread stranding in series;

after the silk threads on a plurality of processing paths come out of a silk thread frame (1) and enter a cooling device and a false twisting device through a first heating device (5), the silk threads on the plurality of processing paths pass through a silk thread monitoring device (9), two silk threads on adjacent spindle positions are stranded on a silk guide (101) in front of a second drafting device (10) after passing through the silk thread monitoring device (9), meanwhile, spandex fibers come out of a spandex drafting device (18) and enter the silk guide (101) in front of the second drafting device (10) through a spandex conveying branch, so that the spandex fibers and the stranded silk threads are combined together, and a stranded spandex fiber wrapping silk is formed after subsequent treatment.

2. The texturing machine for multi-variety fancy ply yarn and spandex fiber covered yarn of claim 1, wherein: the thread monitoring device (9) is a tension detection device or a thread detection device.

3. The texturing machine for multi-variety fancy ply yarn and spandex fiber covered yarn of claim 1, wherein: the spandex yarn detecting device (19), the first yarn guide (201) and the second yarn guide (202) are arranged on the spandex conveying branch in series;

the spandex fiber passes through a spandex yarn detecting device (19), a first yarn guide (201) and a second yarn guide (202) in sequence after coming out of the spandex drafting device (18), and then enters the second drafting device (10);

wherein the first wire guide (201) and the second wire guide (202) are of a twisting device, a porcelain piece or a doubling wheel wire guide structure.

4. The texturing machine for multi-variety fancy ply yarn and spandex fiber covered yarn of claim 1, wherein: adjacent spindle positions of the false twisting devices on a plurality of processing paths are distributed in an upper layer and a lower layer, and the false twisting devices select a whole machine transmission structure or a single spindle transmission structure; the rotation speeds of the false twisting devices of adjacent spindle positions are set to be the same or different according to the requirements of subsequent products, and the turning directions are set to be the same or different.

5. The texturing machine for multi-variety fancy ply yarn and spandex fiber covered yarn of claim 1, wherein: a shredding device (2), a first drafting device (3) and a yarn guiding device (4) are arranged on a processing path between the yarn feeding frame (1) and the first heating device (5).

6. The texturing machine for multi-variety fancy ply yarn and spandex fiber covered yarn of claim 5, wherein: the first drafting device (3) is provided with more than one yarn, so that two or more yarns respectively enter the same or different first drafting devices (3) after coming out of the yarn frame.

7. The texturing machine for multi-variety fancy ply yarn and spandex fiber covered yarn of claim 1, wherein: an air network device (11), an auxiliary drafting device (12) and a winding device (17) are sequentially arranged on the processing path behind the second drafting device (10).

8. The texturing machine for multi-variety fancy ply yarn and spandex fiber covered yarn of claim 7, wherein: the second heating device (13), the third drawing device (14), the lower yarn detecting device (15) and the oiling device (16) are sequentially arranged on a processing path between the auxiliary drawing device (12) and the winding device (17).

9. The texturing machine for multi-variety fancy ply yarn and spandex fiber covered yarn of claim 7, wherein: a lower yarn detecting device (15) and an oiling device (16) are arranged on a processing path between the auxiliary drafting device (12) and the winding device (17).

10. The texturing machine for multi-variety fancy ply yarn and spandex fiber covered yarn of claim 1, wherein: the shaping machine comprises a plurality of spindle positions for forming ply yarn and processing spandex fiber, wherein the spindle positions for forming ply yarn and processing spandex fiber are symmetrically arranged side by side to form a shaping machine.