CN211771690U - Device for producing composite filament - Google Patents

Device for producing composite filament Download PDF

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Publication number
CN211771690U
CN211771690U CN201922376861.0U CN201922376861U CN211771690U CN 211771690 U CN211771690 U CN 211771690U CN 201922376861 U CN201922376861 U CN 201922376861U CN 211771690 U CN211771690 U CN 211771690U
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China
Prior art keywords
guide roller
guide
roller
yarn
yarn guide
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CN201922376861.0U
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Chinese (zh)
Inventor
沈国炎
姚凌达
俞剑强
褚庆波
琚雷龙
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Zhejiang Juxing Chemical Fiber Co ltd
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Zhejiang Juxing Chemical Fiber Co ltd
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Abstract

The utility model discloses a device for producing composite yarns, which comprises a frame and a frame positioned below the frame, wherein a plurality of spinneret plates are arranged on the frame, a pre-networking device, a main network, a yarn guide roller, a yarn guide hook, a guide roller group, a yarn guide plate and a yarn guide plate are arranged on the same side surface of the frame, and the guide roller group respectively comprise a yarn separating roller and a heating roller connected with a heat source; the device has simple structure and convenient operation.

Description

Device for producing composite filament
Technical Field
The utility model relates to a device, more specifically say a little, relate to a device of production composite filament, belong to the chemical fiber manufacturing field.
Background
At present, the conventional products of the civil polyester yarns have high yield and fierce market competition, so in order to meet the market diversification requirement, a differential product needs to be researched and developed to improve the added value and the competitiveness of the products, and a tow device which has the technical characteristics of high color absorption rate and high shrinkage rate and is convenient for downstream users to weave new style cloth is a necessary trend of research and development.
SUMMERY OF THE UTILITY MODEL
In order to solve the prior art problem, the utility model provides a device for producing composite filaments, which has the technical characteristics of simple structure, convenient manufacture, capability of meeting the market demand for diversification of filament bundles and the like.
In order to achieve the above purpose, the utility model is realized by the following technical scheme:
a device for producing composite yarns comprises a rack and a machine base located below the rack, wherein a plurality of spinneret plates are mounted on the rack, and a pre-network device, a main network device, a yarn guide roller, a first yarn guide hook, a second yarn guide hook, a first guide roller group, a second guide roller group, a first yarn guide plate and a second yarn guide plate are mounted on the same side face of the machine base;
the first yarn guide plate, the second yarn guide plate, the pre-networking device, the first guide roller group and the yarn guide rollers are sequentially arranged from top to bottom, the second guide roller group is located on the right side of the pre-networking device and is arranged above the left side of the first guide roller group, the first yarn guide hook is located on the right side of the first guide roller group and is arranged below the right side of the pre-networking device, the second yarn guide hook and the main networking device are located on the left side of the first guide roller group and are arranged below the second guide roller group, the main networking device is located below the second yarn guide hook, and the first guide roller group, the second guide roller group and the yarn guide rollers are synchronously driven by a motor;
the first guide roller group and the second guide roller group respectively comprise a yarn separating roller and a heating roller connected with a heat source.
As an improvement, the heating roller in the first guide roller group is positioned at the lower left of the dividing roller, and the heating roller in the second guide roller group is positioned at the upper left of the dividing roller.
As an improvement, the diameter of the heating roller is larger than that of the yarn dividing roller.
As an improvement, the first yarn guide plate and the second yarn guide plate respectively comprise a plurality of yarn guide hooks which are linearly arranged.
As an improvement, a fan for blowing is arranged on the machine frame below the spinneret plate.
As an improvement, the pre-networking device is of Dow brand, has a model of 1808 or MI8, and has a specification of 1 mm aperture; the main network device is of a Celite brand, the model is c14, and the specification is 1.3 mm aperture.
As an improvement, the pre-networking device is of a superordinate brand and is of a SY554 type.
As an improvement, the model of the main network device is any one of HZ14Z, HZ13, HZ14, HZ18, HZ13-B, PZ112H, PZ132H, PZ302H, HP133S DDB, HP133B, HP133BT, PZ13V, HP133BD, LZ13D, HZ1324-4P, HZ1310 and HZ1312-5P, HZ 13-D6.
Has the advantages that: the fabric has high color absorption rate and high shrinkage rate, and is convenient for downstream users to weave new style fabrics; the device has simple structure, little change to the original device structure, low cost and convenient operation.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention.
Detailed Description
The present invention will be further described with reference to the drawings attached to the specification, but the present invention is not limited to the following embodiments.
As shown in fig. 1, a specific embodiment of an apparatus for producing composite filaments is provided, which includes a frame 1 and a machine base 2 located below the frame, wherein a plurality of spinneret plates are mounted on the frame 1, and is characterized in that: the same side of the machine base 2 is provided with a pre-network device 3, a main network device 4, a yarn guide roller 5, a first yarn guide hook 6, a second yarn guide hook 7, a first guide roller group 8, a second guide roller group 9, a first yarn guide plate 10 and a second yarn guide plate 11; the first godet plate 10, the second godet plate 11, the pre-networking device 3, the first guide roller group 8 and the godet roller 5 are sequentially arranged from top to bottom, the second guide roller group 9 is located on the right side of the pre-networking device 3 and is located above the left side of the first guide roller group 8, the first guide hook 6 is located on the right side of the first guide roller group 8 and is located below the right side of the pre-networking device 3, the second guide hook 7 and the main networking device 4 are located on the left side of the first guide roller group 8 and are located below the second guide roller group 9, the main networking device 4 is located below the second guide hook 7, and the first guide roller group 8, the second guide roller group 9 and the godet roller 5 are synchronously driven by a motor; the first guide roller group 8 and the second guide roller group 9 respectively comprise a yarn dividing roller 12 and a heating roller 13 connected with a heat source;
the process of producing the composite yarn comprises the following steps:
the method comprises the following steps: the 290 ℃ melt was passed through the metering pump frequency setting at FDY27.53HZ and POY35.6HZ, as shown in fig. 1, with the left spinneret metering pump frequency set at FDY27.53HZ and the right spinneret metering pump frequency set at POY35.6HZ;
step two: the filament bundle ejected from the spinneret plate on the left side firstly passes through a second godet plate 11, then is blown by a pre-interlacer 3 to evenly blow oil on the filament bundle, then is wound on a heating roller 13 and a filament dividing roller 12 on a first godet roller group 8 for 4 circles, the number of winding circles can be adjusted according to the lengths of the heating roller 13 and the filament dividing roller 12, is heated by the heating roller 13 (the heating temperature is 105 ℃), is wound on the filament dividing roller 12 and the heating roller 13 on a second godet roller group 9 for 6 circles, is heated by the heating roller 13 (the heating temperature is 95 ℃), enters a second godet 7, the filament bundle ejected from the spinneret plate on the right side firstly passes through the first godet plate 10, then is wound on the filament dividing roller 12 on the second godet roller group 9 from the lower part of the godet roller 5, then is wound on the filament dividing roller 12 to directly enter the second godet 7, and finally two kinds of spinning, the main network pressure is 0.55 MPa;
step three: the combined spun yarn was wound and molded at a spinning speed of 3500 m/min.
The utility model discloses creatively increase godet roller 5, a seal wire and collude 6, godet plate 10 for the silk bundle of right side spinneret POY is not through the heating, directly walks around and enters main network behind the godet roller 5 and merge the coiling, produces compound silk, has and can produce high color absorbing rate, high shrinkage factor, and the low reaches user of being convenient for weaves technical characterstic such as new style cloth.
As a modified embodiment mode, the heating roller 13 in the first guide roller group 8 is positioned at the lower left of the dividing roller 12, and the heating roller 13 in the second guide roller group 9 is positioned at the upper left of the dividing roller 12; winding mode: the filament bundle sprayed by the spinneret plate on the left side firstly passes through the second filament guide plate 11, then the oil on the filament bundle is uniformly blown by the pre-interlacer 3, then the filament bundle anticlockwise winds the upper filament dividing roller 12 upwards and clockwise from the bottom of the heating roller 13 on the first guide roller group 8, then the upper filament dividing roller 12 upwards and clockwise from the bottom of the heating roller 13, the total number of the filament bundles is 4, the filament bundle wound out from the first guide roller group 8 firstly anticlockwise winds the upper filament dividing roller 12 downwards and anticlockwise from the top of the heating roller 13 on the second guide roller group 9, and then the upper filament dividing roller 12 downwards and anticlockwise winds from the top of the heating roller 13 on the second guide roller group 9, and the total number of the filament bundles is 6.
As a modified embodiment mode, the diameter of the heating roller 13 is larger than that of the filament dividing roller 12, so that filament bundles can be wound and heated conveniently, and the filaments can be quickly compounded.
As an improved embodiment, the first godet plate 10 and the second godet plate 11 each include a plurality of linear godet hooks, so as to hook a plurality of filatures for guiding and conveying.
As an improved embodiment mode, a fan for blowing air is arranged on the machine frame 1 below the spinneret plate, and the cooling temperature is 20 ℃ and the air speed is 0.55m/s after cooling by cross air blowing, so that the filament bundle is convenient to form.
As a modified embodiment, the pre-network device 3 is of the alfa type, 1808 or MI8, and has a 1 mm aperture; the main network device 4 is of a Celite brand, has a model number of c14 and a specification of 1.3 mm aperture.
As an improved embodiment, the pre-network device 3 is a top-of-brand network device with a model number SY 554.
As an improved embodiment, the main network unit 4 is manufactured by korean selait chemical fiber porcelain limited, and is of any one of the types HZ14Z, HZ13, HZ14, HZ18, HZ13-B, PZ112H, PZ132H, PZ302H, HP133S DDB, HP133B, HP133BT, PZ13V, HP133BD, LZ13D, HZ1324-4P, HZ1310, HZ1312-5P, HZ 13-D6.
Finally, it should be noted that the present invention is not limited to the above embodiments, and many variations are possible. All modifications which can be derived or suggested by a person skilled in the art from the disclosure of the invention should be considered as within the scope of the invention.

Claims (8)

1. The utility model provides a device of production composite filament, includes frame (1) and frame (2) that are located the frame below, install a plurality of spinneret, its characterized in that on frame (1): the pre-network device (3), the main network device (4), the yarn guide roller (5), the first yarn guide hook (6), the second yarn guide hook (7), the first yarn guide roller group (8), the second yarn guide roller group (9), the first yarn guide plate (10) and the second yarn guide plate (11) are arranged on the same side face of the machine base (2);
from top to bottom, first godet board (10), second godet board (11), pre-networking device (3), first guide roller set (8) and godet roller (5) are arranged in sequence, second guide roller set (9) is located on the right side of pre-networking device (3) and is located above the left side of first guide roller set (8), first guide wire hook (6) is located on the right side of first guide roller set (8) and is located below the right side of pre-networking device (3), second guide wire hook (7) and main networking device (4) are located on the left side of first guide roller set (8) and are located below second guide roller set (9), main networking device (4) is located below second guide wire hook (7), and first guide roller set (8), second guide roller set (9) and godet roller (5) are driven synchronously by a motor;
the first guide roller group (8) and the second guide roller group (9) respectively comprise a yarn dividing roller (12) and a heating roller (13) connected with a heat source.
2. An apparatus for producing a composite wire according to claim 1, wherein: the heating roller (13) in the first guide roller group (8) is positioned at the lower left of the dividing roller (12), and the heating roller (13) in the second guide roller group (9) is positioned at the upper left of the dividing roller (12).
3. An apparatus for producing a composite wire according to claim 2, wherein: the diameter of the heating roller (13) is larger than that of the dividing roller (12).
4. An apparatus for producing a composite wire according to claim 1, 2 or 3, wherein: the first yarn guide plate (10) and the second yarn guide plate (11) both comprise a plurality of yarn guide hooks which are linearly arranged.
5. An apparatus for producing a composite wire according to claim 1, wherein: and a fan for blowing is arranged on the frame (1) below the spinneret plate.
6. An apparatus for producing a composite wire according to claim 1, wherein: the model of the pre-network device (3) is 1808 or MI8, and the specification is 1 mm aperture; the model of the main network device (4) is c14, and the specification is 1.3 mm aperture.
7. An apparatus for producing a composite wire according to claim 1, wherein: the model of the pre-network device (3) is SY 554.
8. An apparatus for producing a composite wire according to claim 1, wherein: the model of the main network device (4) is any one of HZ14Z, HZ13, HZ14, HZ18, HZ13-B, PZ112H, PZ132H, PZ302H, HP133SDDB, HP133B, HP133BT, PZ13V, HP133BD, LZ13D, HZ1324-4P, HZ1310 and HZ1312-5P, HZ 13-D6.
CN201922376861.0U 2019-12-26 2019-12-26 Device for producing composite filament Active CN211771690U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201922376861.0U CN211771690U (en) 2019-12-26 2019-12-26 Device for producing composite filament

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201922376861.0U CN211771690U (en) 2019-12-26 2019-12-26 Device for producing composite filament

Publications (1)

Publication Number Publication Date
CN211771690U true CN211771690U (en) 2020-10-27

Family

ID=72979066

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201922376861.0U Active CN211771690U (en) 2019-12-26 2019-12-26 Device for producing composite filament

Country Status (1)

Country Link
CN (1) CN211771690U (en)

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