CN221480182U - Fine denier filament staple fiber core-spun wrapped composite yarn production device - Google Patents

Fine denier filament staple fiber core-spun wrapped composite yarn production device Download PDF

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Publication number
CN221480182U
CN221480182U CN202323004988.2U CN202323004988U CN221480182U CN 221480182 U CN221480182 U CN 221480182U CN 202323004988 U CN202323004988 U CN 202323004988U CN 221480182 U CN221480182 U CN 221480182U
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gear
wire
bearing frame
frame
disc
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CN202323004988.2U
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Chinese (zh)
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陆建冬
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Jiaxing Jiangong Jet Weaving Co ltd
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Jiaxing Jiangong Jet Weaving Co ltd
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Abstract

The utility model relates to the technical field of composite yarn production, in particular to a device for producing a fine denier filament spun-core wrapped composite yarn, which comprises a bearing frame and a tension mechanism, wherein a winding mechanism is arranged at the frame wall of the bearing frame, the winding mechanism is formed by combining a motor, a gear A, a vertical rod, a gear B, a disc, a wire groove and a wire rod, the top of the bearing frame is provided with the motor through a bolt, the output end of the motor is provided with the gear A, the top of the bearing frame is connected with the vertical rod through a bearing, the gear B is fixedly arranged at the rod wall of the vertical rod, the gear B is meshed with the gear A, the other end of the vertical rod is welded with a disc, a plurality of symmetrical wire grooves are formed at the disc wall, a wire rod is welded at the disc bottom of the disc, the disc rotates to drive coarse yarn and spun yarn to twist rotationally, and when twisting, the coarse yarn and the spun yarn winding wire are conveyed into a twisting winder main body at the wire rod to perform core wrapping winding, and the core wrapping quality is improved.

Description

Fine denier filament staple fiber core-spun wrapped composite yarn production device
Technical Field
The utility model relates to the technical field of composite yarn production, in particular to a device for producing a fine denier filament and staple fiber core-spun wrapped composite yarn.
Background
The core-spun wrapped filament spun composite yarn comprises two filaments and a spun roving, wherein the spun roving and one of the filaments do cladding motion to form the core-spun yarn; and then the other filament carries out cladding motion on the formed core-spun yarn to form the core-spun wrapped yarn. The structural yarn can fully utilize the advantages of each component and meet the requirements of different fabrics on yarns. On one hand, the requirement that people pursue natural comfort is met, on the other hand, the strength and the wear resistance of the yarn are improved by adopting chemical fibers with relatively low cost in the center and the outermost layer of the yarn, and when the existing fine denier filament staple fiber core-spun package is wound, the twisting of the fine denier filament staple fiber core-spun package cannot be performed, so that the fine denier filament staple fiber core-spun package is not fastened enough when the fine denier filament staple fiber core-spun package is wound. For this purpose, we propose a device for producing a fine denier filament staple core-spun wrapped composite yarn.
Disclosure of utility model
Aiming at the problems in the prior art, the utility model provides a device for producing a fine denier filament and staple fiber core-spun wrapped composite yarn.
The technical scheme includes that the fine denier filament spun core wrapped composite yarn production device comprises a bearing frame and a tension mechanism, wherein a winding mechanism is arranged at the position of a frame wall of the bearing frame, the winding mechanism is composed of a motor, a gear A, a vertical rod, a gear B, a disc, a wire groove and a wire rod, the motor is arranged at the position of a frame top of the bearing frame through a bolt, the gear A is arranged at the output end of the motor, the vertical rod is connected to the position of the frame top of the bearing frame through a bearing, the gear B is fixedly arranged at the position of a rod wall of the vertical rod, the gear B is meshed with the gear A, a disc is welded at the other end of the vertical rod, a plurality of groups of symmetrical wire grooves are formed in the position of a disc wall, a wire rod is welded at the position of the disc bottom, the tension mechanism is arranged at the position of the frame wall of the bearing frame and composed of a spring rod, a transverse plate, a concave block, a wire roller and a tension spring are combined, a group of the spring is connected to the position of the frame wall of the bearing frame through a group of the spring rod, the concave block is welded at the position of the concave spring block, and the other end of the concave spring block is welded at the position of the concave spring block.
By adopting the technical scheme, when the fine denier filament short fiber is cored, because the frame wall of the bearing frame is provided with the winding mechanism, the winding mechanism is formed by combining a motor, a gear A, a vertical rod, a gear B, a disc, a wire groove and a wire rod, after coarse yarns and spun yarns respectively penetrate through the wire groove, the frame top of the bearing frame is provided with the motor through bolts, the motor is controlled through a controller, the motor drives the gear A to rotate, the tooth socket of the gear A is meshed with the gear B, the gear B is connected with the vertical rod through a bearing, and the gear A drives the gear B to rotate, and then the coarse yarns and the spun yarns respectively penetrate through the wire groove, so that the disc rotates to rotationally twist the coarse yarns and the spun yarns.
Specifically, the frame wall of the bearing frame is provided with a plurality of groups of symmetrical roving rollers for winding thick yarns, and the frame wall of the bearing frame is provided with a plurality of groups of symmetrical spinning rollers for winding thin yarns.
By adopting the technical scheme, the coarse yarn and the spun yarn are respectively wound by the roving roller and the spun yarn roller.
Specifically, the frame wall of the bearing frame is provided with a twisting winder main body for winding yarns, and the frame wall of the bearing frame is provided with a controller for controlling the twisting winder main body and a motor.
By adopting the technical scheme, the twisting winder main body and the motor are conveniently controlled by the controller.
The utility model has the beneficial effects that:
(1) According to the device for producing the fine denier filament staple fiber wrapping composite yarn, when the fine denier filament staple fiber is wrapped, the winding mechanism is arranged at the frame wall of the bearing frame and consists of the motor, the gear A, the vertical rod, the gear B, the disc, the wire groove and the wire rod, after the thick yarn and the spun yarn respectively penetrate through the wire groove, the motor is arranged at the frame top of the bearing frame through the bolts, the motor is controlled by the controller, so that the motor drives the gear A to rotate, the gear B is meshed and connected at the tooth groove of the gear A, the gear B is connected with the vertical rod through the bearing connection at the frame top of the bearing frame, so that after the gear A drives the gear B to rotate, the thick yarn and the spun yarn respectively penetrate through the wire groove, and the disc rotates to drive the thick yarn and the spun yarn to twist in a rotating manner, and when the thick yarn and the spun yarn are conveyed into the main body of the twisting winding machine at the wire rod to be wrapped, and the core wrapping quality is increased.
(2) When the fine denier filament spun yarn wrapped composite yarn production device carries out tension on a roving and a spun yarn, the tension mechanism is arranged at the frame wall of the bearing frame and consists of a spring rod, a transverse plate, a concave block, a wire roller and a tension spring, and a group of symmetrical wire rollers are arranged at the groove of the concave block, so that after the yarn penetrates through the wire rollers, the wire roller is pulled by the yarn, and the concave block is connected with the transverse plate through the tension spring, and after the concave block is stretched, the tension spring applies a group of opposite acting force to stretch the yarn, so that the tension of the yarn is realized, and the tension protection of the yarn is realized.
Drawings
The utility model will be further described with reference to the drawings and examples.
FIG. 1 is a main view of the present utility model;
FIG. 2 is a schematic diagram of a tension mechanism of a welding device according to the present utility model;
FIG. 3 is a schematic diagram of a winding mechanism of a welding device according to the present utility model;
In the figure: 1. a carrier; 2. a tension mechanism; 201. a spring rod; 202. a cross plate; 203. a concave block; 204. a wire guide roller; 205. a tension spring; 3. roving thread roller; 4. spinning yarn roller; 5. a winding mechanism; 501. a motor; 502. a gear A; 503. a vertical rod; 504. a gear B; 505. a disc; 506. a wire groove; 507. a wire rod; 6. a twist winder body; 7. and a controller.
Detailed Description
The utility model is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.
In order to facilitate monitoring of the vehicle-mounted interior, as shown in fig. 1, 2 and 3, the device for producing the fine denier filament spun-wrapped composite yarn comprises a bearing frame 1 and a tension mechanism 2, wherein a winding mechanism 5 is arranged at the frame wall of the bearing frame 1, the winding mechanism 5 is formed by combining a motor 501, a gear A502, a vertical rod 503, a gear B504, a disc 505, a wire groove 506 and a wire rod 507, the motor 501 is arranged at the frame top of the bearing frame 1 through bolts, a gear A502 is arranged at the output end of the motor 501, a vertical rod 503 is connected at the frame top of the bearing frame 1 through bearings, a gear B504 is fixedly arranged at the rod wall of the vertical rod 503, the gear B504 is meshed with the gear A502, a plurality of groups of symmetrical grooves 506 are formed in the disc wall of the bearing frame 1, a wire rod 507 is welded at the disc bottom of the disc 505, a groove 205 is arranged at the frame wall 205 of the bearing frame 1, a plurality of groove blocks 203 are welded at the groove blocks 205, a plurality of groove blocks 203 are welded at the groove blocks 203, and a plurality of groove blocks 204 are welded at the groove blocks 203 are welded at the groove blocks, and a groove block 204 is welded at the groove blocks 203.
When the yarn winding device is used, the winding mechanism 5 is arranged at the frame wall of the bearing frame 1, the winding mechanism 5 is formed by combining a motor 501, a gear A502, a vertical rod 503, a gear B504, a disc 505, a wire groove 506 and a wire rod 507, after coarse yarns and spun yarns respectively penetrate through the wire groove 506, the motor 501 is arranged at the frame top of the bearing frame 1 through bolts, the motor 501 is controlled by the controller 7, the motor 501 drives the gear A502 to rotate, the gear B504 is meshed and connected at the tooth groove of the gear A502, the vertical rod 503 is connected with the frame top of the bearing frame 1 through a bearing, the gear B504 is connected with the vertical rod 503, so that after the gear A502 drives the gear B504 to rotate, the coarse yarns and the spun yarns respectively penetrate through the wire groove 506, the disc 505 rotates to carry out rotary twisting on the coarse yarns and the spun yarns, during twisting, the coarse yarns and the spun yarns are conveyed into the wire rod 507 to be wound in a twisting winder main body 6 through a core, the core-wrapping quality is increased, the tension mechanism 2 is arranged at the frame wall of the bearing frame 1, the tension mechanism 2 is connected with the groove block 205 through the groove block 203, the concave spring block 203 is connected with the concave spring block 203, and the yarn 204 is connected with the yarn 204, and the yarn 204 is stretched by the tension roller 204 is opposite to the tension roller 204.
As shown in fig. 1, a plurality of groups of symmetrical roving rollers 3 for winding thick yarns are installed at the frame wall of the bearing frame 1, and a plurality of groups of symmetrical spun yarn rollers 4 for winding thin yarns are installed at the frame wall of the bearing frame 1.
In use, the roving and spun yarn are wound up by the roving roller 3 and the spun yarn roller 4, respectively.
As shown in fig. 1, a twisting and winding machine main body 6 for winding yarn is installed at the frame wall of the bearing frame 1, and a controller 7 for controlling the twisting and winding machine main body 6 and a motor 501 is installed at the frame wall of the bearing frame 1.
In use, control of the twist winder body 6 and motor 501 is facilitated by the controller 7.
When the utility model is used, when the fine denier filament staple fiber is cored, as the winding mechanism 5 is arranged at the frame wall of the bearing frame 1, the winding mechanism 5 is formed by combining a motor 501, a gear A502, a vertical rod 503, a gear B504, a disc 505, a wire groove 506 and a wire rod 507, after coarse yarns and spun yarns respectively penetrate through the wire groove 506, as the motor 501 is arranged at the frame top of the bearing frame 1 through bolts, the motor 501 is controlled by the controller 7, so that the motor 501 drives the gear A502 to rotate, as the gear B504 is meshed and connected at the tooth slot of the gear A502, as the vertical rod 503 is connected with the frame top of the bearing frame 1 through a bearing, the gear B504 is connected with the vertical rod 503, so that after the gear A502 drives the gear B504 to rotate, as the coarse yarns and the spun yarns respectively penetrate through the wire groove 506, the disc 505 drives the coarse yarns and the spun yarns to rotate and twist, when twisting, coarse yarn and spun yarn are conveyed into a twisting winder main body 6 at a wire rod 507 for core wrapping and winding, the core wrapping quality is improved, when the coarse yarn and the spun yarn are conveyed to be tensioned, as the tension mechanism 2 is installed at the frame wall of the bearing frame 1, the tension mechanism 2 is formed by combining the spring rod 201, the transverse plate 202, the concave block 203, the wire roller 204 and the tension spring 205, and as a group of symmetrical wire rollers 204 are installed at the groove of the concave block 203, after the yarn penetrates through the wire rollers 204, the yarn pulls the wire rollers 204, and as the concave block 203 and the transverse plate 202 are connected through the tension spring 205, a group of opposite acting forces are applied by the tension spring 205 after the concave block 203 is stretched, so that the yarn is stretched by the concave block 203, and the yarn tension protection is realized.
The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the foregoing examples, and that the foregoing description and description are merely illustrative of the principles of this utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (3)

1. The utility model provides a fine denier filament staple fiber core-spun wrap composite yarn apparatus for producing which characterized in that: the wire winding mechanism comprises a bearing frame (1) and a tension mechanism (2), wherein a wire winding mechanism (5) is arranged at the frame wall of the bearing frame (1), the wire winding mechanism (5) is formed by combining a motor (501), a gear A (502), a vertical rod (503), a gear B (504), a disc (505), a wire groove (506) and a wire rod (507), the motor (501) is arranged at the frame top of the bearing frame (1) through bolts, the gear A (502) is arranged at the output end of the motor (501), the vertical rod (503) is connected at the frame top of the bearing frame (1) through bearings, a gear B (504) is fixedly arranged at the rod wall of the vertical rod (503), the gear B (504) is meshed with the gear A (502), a disc (505) is welded at the other end of the vertical rod (503), a plurality of groups of symmetrical wire grooves (506) are formed at the disc wall of the disc (505), the wire rod (507) is welded at the disc bottom of the disc (505), the tension mechanism (2) is arranged at the frame wall of the bearing frame (1), the tension mechanism (205), the tension mechanism (203) and the wire rod (203) are composed of a spring (203), the novel wire guide device is characterized in that a transverse plate (202) is welded and connected to the frame wall of the bearing frame (1) through a group of spring rods (201), a plurality of groups of symmetrical tension springs (205) are welded and connected to the plate wall of the transverse plate (202), a concave block (203) is welded and connected to the other end of each tension spring (205), and a group of symmetrical wire guide rollers (204) are movably connected to the groove of each concave block (203).
2. The apparatus for producing a fine denier filament staple core spun wrapped composite yarn as defined in claim 1 wherein: the device is characterized in that a plurality of groups of symmetrical roving rollers (3) for winding thick yarns are arranged at the frame wall of the bearing frame (1), and a plurality of groups of symmetrical spinning rollers (4) for winding thin yarns are arranged at the frame wall of the bearing frame (1).
3. The apparatus for producing a fine denier filament staple core spun wrapped composite yarn as defined in claim 1 wherein: the yarn winding and twisting device is characterized in that a twisting and winding machine main body (6) for winding yarn is arranged at the frame wall of the bearing frame (1), and a controller (7) for controlling the twisting and winding machine main body (6) and the motor (501) is arranged at the frame wall of the bearing frame (1).
CN202323004988.2U 2023-11-08 2023-11-08 Fine denier filament staple fiber core-spun wrapped composite yarn production device Active CN221480182U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202323004988.2U CN221480182U (en) 2023-11-08 2023-11-08 Fine denier filament staple fiber core-spun wrapped composite yarn production device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202323004988.2U CN221480182U (en) 2023-11-08 2023-11-08 Fine denier filament staple fiber core-spun wrapped composite yarn production device

Publications (1)

Publication Number Publication Date
CN221480182U true CN221480182U (en) 2024-08-06

Family

ID=92367503

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202323004988.2U Active CN221480182U (en) 2023-11-08 2023-11-08 Fine denier filament staple fiber core-spun wrapped composite yarn production device

Country Status (1)

Country Link
CN (1) CN221480182U (en)

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