CN112158676B

CN112158676B - Device for increasing softness and strength of yarns

Info

Publication number: CN112158676B
Application number: CN202010923588.3A
Authority: CN
Inventors: 邵海洋
Original assignee: Pingyuan Hengfeng Textile Technology Co ltd
Current assignee: Pingyuan Hengfeng Textile Technology Co ltd
Priority date: 2020-09-04
Filing date: 2020-09-04
Publication date: 2022-10-14
Anticipated expiration: 2040-09-04
Also published as: CN112158676A

Abstract

The invention discloses a device for increasing the flexibility and the strength of yarn, which comprises a first bracket, wherein a first motor is arranged on the first bracket, a first rotating wheel is arranged at one end of the first motor, coil fixing blocks which are axially distributed are arranged on the first rotating wheel, a yarn wetting device is also arranged on the first bracket, the yarn wetting device comprises a heating column, an oil wetting column is arranged at one side of the heating column, a roller is arranged below the oil wetting column, a wire take-up device is arranged at one side of the first bracket, the wire take-up device comprises a second bracket, a second rotating wheel is arranged on the second bracket, and wire take-up rods which are axially distributed are arranged on the second rotating wheel. The device for improving the softness and strength of the yarns is reliable in structure, the discharging and receiving processes can be automatically completed, the working efficiency is improved, the fine yarns can be automatically twisted and strengthened, the strength of the yarns is improved, the thick yarns can be heated, the absorption effect of the thick yarns on the knitting oil is improved, the knitting oil is uniformly coated on the yarns by the lubricating oil columns, and the softness and the strength of the yarns are better.

Description

Device for increasing softness and strength of yarns

Technical Field

The invention relates to the technical field of textile processing, in particular to a device for improving the softness and strength of yarns.

Background

Currently, in the textile industry, the use of weaving blanks for staple yarns is far greater than for very long yarns. The two yarns are also different in their properties due to the different modes of production. The staple fiber yarn must be spun to twist and cohere the fiber to form a continuous yarn. In the spinning process, the twisting strength of the yarn is often insufficient, or a slub phenomenon occurs. Due to temperature, the yarn often breaks, resulting in reduced efficiency and increased cost. For this case. A device for increasing the softness and strength of a yarn is proposed.

Disclosure of Invention

The invention aims to provide a device for enhancing the softness and strength of yarns, which can effectively solve the problems that the twisting strength of the yarns is insufficient, the efficiency is reduced due to frequent fracture, and the cost is increased.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides an increase device of yarn pliability and intensity, the device that increases yarn pliability and intensity includes first support, be equipped with first motor on the first support, first motor one end is equipped with first runner, is equipped with the coil fixed block of axial distribution on the first runner, still is equipped with moist line device on the first support, moist line device is including heating the post, heating post one side is equipped with moist oil column, moist oil column has the roller, first support one side is equipped with take-up, take-up includes the second support, be equipped with the second runner on the second support, be equipped with the receipts line pole of axial distribution on the second runner.

Further, a first support plate is arranged on the first support, a second support plate is further arranged on the first support, a first motor is arranged on the first support plate, one end of the first motor is provided with a first motor rotating shaft, a first opening is formed in the first rotating shaft and fixedly connected with the first motor rotating shaft, the first motor drives the first rotating wheel to rotate, first rotating rods which are axially distributed are arranged on the first rotating wheel, first sliding grooves are formed in the first rotating rods, coil fixing blocks are arranged in the first sliding grooves, fixing holes which are distributed in an array mode are formed in the coil fixing blocks, fasteners penetrate through the fixing holes and are fixed on the first rotating rods, the coil fixing blocks are fixed, second sliding grooves which are distributed in a mirror mode are formed in the coil fixing blocks, a coil support plate is further arranged on the coil support plate, rotating bearings are arranged below the coil rotating shafts and enable the coil rotating shafts to rotate, a coil fixing cone is further arranged on the coil rotating shaft, and the coil fixing cone fixes a thin coil.

Further, the lubricating device comprises a side plate with mirror image distribution, a second opening with array distribution and a first groove with array distribution are formed in the side plate, a third opening is formed in the side plate, a first slide rail with mirror image array distribution is formed in one side of the side plate, a fourth opening with array distribution is formed in the first slide rail, sliding blocks with mirror image array distribution are arranged between the first slide rails, heating columns are arranged between a group of sliding blocks, thread grooves are formed in the heating columns, a heater is arranged at one end of each heating column, a thread column is arranged between the first slide rails with mirror image array distribution, a rotating handle is arranged at one end of each thread column, the other end of each thread column is installed on each sliding block, a fixing block is arranged on each first slide rail, a first thread hole is formed in each fixing block, each thread column penetrates through the first thread hole, a spring is arranged between each fixing block and each sliding block, and rotates to drive each sliding block to ascend and descend.

Further, a roller is further arranged between the side plates, a roller mandrel is arranged in the roller, first bearing seats are arranged at two ends of the roller and respectively fixed on the side plates, the roller mandrel is installed in the first bearing seats, a first gear is further arranged on the roller mandrel, a second motor is arranged at one end of the roller mandrel, a lubricating column is arranged between the other group of sliding blocks, a lubricating column mandrel is arranged in the lubricating column, oil outlet holes distributed in an axial array mode are formed in the lubricating column, a sponge barrel is further arranged on the lubricating column mandrel, a second gear is further arranged on the lubricating column mandrel, the second gear is meshed with the first gear, an oil inlet rotating ring is arranged at one end of the lubricating column mandrel, an oil inlet pipe is arranged on one side of the oil inlet rotating ring, the second motor drives the roller to rotate, the first gear drives the second gear to rotate, the second gear drives the lubricating column to rotate, and the sponge barrel coats twisted thick yarn with knitting oil.

Further, a third support plate and fourth support plates distributed in an array are arranged on the second support, second bearing seats are arranged on the fourth support plates, a rotating shaft is arranged in the second bearing seats, a driven wheel is arranged at one end of the rotating shaft, a third motor is arranged on the third support plate, a power wheel is arranged at one end of the third motor, a synchronous belt is arranged on the power wheel and the driven wheel, a second rotating wheel is arranged at the other end of the rotating shaft, a fifth opening is formed in the second rotating wheel, the rotating shaft is fixedly connected with the fifth opening, second rotating rods distributed in the axial direction are further arranged on the second rotating wheel, third sliding grooves are formed in the second rotating rods, wire collecting rods are arranged in the third sliding grooves, a sliding plate is arranged at one end of each wire collecting rod, threaded fixing columns distributed in an array are arranged on the sliding plate, the threaded fixing columns slide in the third sliding grooves, nuts are arranged on the threaded fixing columns, and the nuts are tightened to fix the positions of the wire collecting rods.

The invention has the beneficial effects that:

1. the automatic feeding device is reliable in structure and practical in function, the discharging and receiving processes can be automatically completed, the working efficiency is improved, the fine yarn can be automatically twisted and strengthened, and the strength of the yarn is increased;

2. the yarn processing device can heat the thick yarn, improves the absorption effect of the thick yarn on knitting oil, and the yarn is uniformly coated with the knitting oil by the lubricating oil columns, so that the yarn has better softness.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the construction of the device for increasing the softness and strength of the yarn of the present invention;

FIG. 2 is a schematic view of a portion of the structure of the apparatus for increasing the softness and strength of the yarn of the present invention;

FIG. 3 is a schematic view of the coil anchor block of the present invention;

FIG. 4 is a schematic view of a thread lubricating apparatus according to the present invention;

FIG. 5 is a schematic view of a partial structure of a thread moistening device according to the present invention;

FIG. 6 is a schematic view of a partial structure of a thread moistening device according to the present invention;

FIG. 7 is a schematic view of a take-up assembly of the present invention;

fig. 8 is a schematic view of the structure of the wire take-up rod of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship merely to facilitate description of the invention and to simplify the description, and are not intended to indicate or imply that the referenced components or elements must be in a particular orientation, constructed and operative in a particular orientation, and are not to be construed as limiting the invention.

The utility model provides an increase device of yarn softness and intensity, increase device of yarn softness and intensity includes first support 1, as shown in fig. 1, be equipped with first motor 24 on first support 1, first motor 24 one end is equipped with first runner 2, be equipped with axially distributed's coil fixed block 23 on the first runner 2, still be equipped with moist line device 3 on the first support 1, moist line device 3 is including heating post 33, heating post 33 one side is equipped with moist oil column 36, moist oil column 36 has roller 35, first support 1 one side is equipped with take-up 4, take-up 4 includes second support 41, be equipped with second runner 43 on the second support 41, be equipped with axially distributed's take-up rod 44 on the second runner 43.

The first support 1 is provided with a first support plate 11, as shown in fig. 2 and fig. 3, the first support 1 is further provided with a second support plate 12, the first support plate 11 is provided with a first motor 24, one end of the first motor 24 is provided with a first motor rotating shaft 241, the first rotating wheel 2 is provided with a first opening 21, the first opening 21 is fixedly connected with the first motor rotating shaft 241, the first motor 24 drives the first rotating wheel 2 to rotate, the first rotating wheel 2 is provided with first rotating rods 22 which are axially distributed, the first rotating rods 22 are provided with first sliding grooves 221, the first sliding grooves 221 are respectively provided with a coil fixing block 23, the coil fixing block 23 is provided with fixing holes 231 which are distributed in an array, a fastener penetrates through the fixing holes 231 and is fixed on the first rotating rod 22, so that the coil fixing block 23 is fixed, the coil fixing block 23 is provided with second sliding grooves 232 which are distributed in a mirror image manner, the second sliding grooves 232 are in sliding fit with the first sliding grooves 221, the coil fixing block 23 is further provided with a coil support plate 233, the coil rotating shaft 234 is provided with a coil rotating bearing 234, the coil rotating shaft 234 is provided under the coil rotating shaft 234, and a fine cone 236 is provided on the coil fixing shaft 235.

The lubricating device 3 comprises side plates 31 distributed in a mirror image manner, as shown in fig. 4, 5 and 6, second open holes 311 distributed in an array manner and first open grooves 312 distributed in an array manner are all arranged on the side plates 31, third open holes 313 are also arranged on the side plates 31, first sliding rails 32 distributed in a mirror image manner are all arranged on one sides of the side plates 31, fourth open holes 321 distributed in an array manner are all arranged on the first sliding rails 32, sliding blocks 322 distributed in a mirror image manner are arranged between the first sliding rails 32, heating columns 33 are arranged between a group of sliding blocks 322, thread grooves 331 are arranged on the heating columns 33, heaters 332 are arranged at one ends of the heating columns 33, thread columns 34 are arranged between the first sliding rails 32 distributed in a mirror image manner, a rotating handle 341 is arranged at one end of each thread column 34, the other end of each thread column 34 is mounted on the corresponding sliding block 322, a fixing block 342 is arranged on each first sliding rail 32, a first thread hole 343 is arranged on each fixing block 342, each thread column 34 penetrates through the first thread hole 343, a spring 344 is arranged between each fixing block 342 and the corresponding sliding block 322, the rotating handle 341, and the thread columns 34 rotate to drive the sliding blocks 322 to move up and down;

the roller 35 is further arranged between the side plates 31, a roller mandrel 351 is arranged in the roller 35, first bearing seats 352 are arranged at two ends of the roller 35 respectively, the first bearing seats 352 are fixed on the side plates 31 respectively, the roller mandrel 351 is installed in the first bearing seats 352, a first gear 353 is further arranged on the roller mandrel 351, a second motor 354 is arranged at one end of the roller mandrel 351, an oil wetting column 36 is arranged between the other group of sliding blocks 322, an oil wetting column mandrel 361 is arranged in the oil wetting column 36, oil outlet holes 362 distributed in an axial array mode are formed in the oil wetting column 36, a sponge barrel 363 is further arranged on the oil wetting column 36, a second gear 364 is further arranged on the oil wetting column mandrel 361, the second gear 364 is meshed with the first gear 353, an oil inlet rotating ring 365 is arranged at one end of the oil wetting column mandrel 361, an oil inlet pipe 366 is arranged on one side of the oil inlet rotating ring 365, the second motor 354 drives the roller 35 to rotate, the first gear 353 drives the second gear 364 to rotate, the second gear drives the oil wetting column 36 to rotate, and the sponge barrel 363 coats knitting oil on twisted thick yarn.

The second bracket 41 is provided with a third support plate 411 and fourth support plates 412 distributed in an array, as shown in fig. 7 and 8, the fourth support plates 412 are provided with second bearing seats 42, the second bearing seats 42 are provided with rotating shafts 421 together, one end of the rotating shaft 421 is provided with a driven wheel 422, the third support plate 411 is provided with a third motor 423, one end of the third motor 423 is provided with a power wheel 424, the power wheel 424 and the driven wheel 422 are provided with a synchronous belt 425 together, the other end of the rotating shaft 421 is provided with a second rotating wheel 43, the second rotating wheel 43 is provided with a fifth opening 431, the rotating shaft 421 is fixedly connected with the fifth opening 431, the second rotating wheel 43 is further provided with second rotating rods 432 distributed in an axial direction, the second rotating rods 432 are provided with third sliding grooves 433, the third sliding grooves 433 are provided with wire take-up rods 44, one end of the wire take-up rods 44 is provided with a sliding plate 441, the sliding plate 441 is provided with threaded fixing columns 442 distributed in an array, the threaded fixing columns 442 sliding in the third sliding grooves 433, the threaded fixing columns 442 are provided with nuts 443, and the nuts are screwed up nuts 443 to fix the positions of the wire take-up rods 44.

When the device is used, the thin wire coil is installed on the coil fixing cone 236, the position of the coil fixing block 23 is adjusted according to the density of the thick wires, the first motor 24 is started to drive the first rotating wheel 2 to rotate and twist the wires, the thick wires surround the wire grooves 331, the heating column 33 heats the thick wires, the heated thick wires enter the space between the roller 35 and the lubricating column 36, the lubricating column 36 performs lubricating treatment on the thick wires, finally the thick wires are fixed on the wire receiving rod 44, and the third motor 423 is started to drive the wire receiving rod 43 to rotate and receive the wires.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, principal features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, and such changes and modifications are within the scope of the invention as claimed.

Claims

1. The device for increasing the softness and the strength of the yarns comprises a first support (1) and is characterized in that a first motor (24) is arranged on the first support (1), a first rotating wheel (2) is arranged at one end of the first motor (24), coil fixing blocks (23) which are axially distributed are arranged on the first rotating wheel (2), a lubricating device (3) is further arranged on the first support (1), the lubricating device (3) comprises a heating column (33), a lubricating column (36) is arranged on one side of the heating column (33), a roller (35) is arranged below the lubricating column (36), a take-up device (4) is arranged on one side of the first support (1), the take-up device (4) comprises a second support (41), a second rotating wheel (43) is arranged on the second support (41), and take-up rods (44) which are axially distributed are arranged on the second rotating wheel (43);

the lubricating device (3) comprises side plates (31) distributed in a mirror image manner, second open holes (311) distributed in an array manner and first open grooves (312) distributed in an array manner are formed in the side plates (31), third open holes (313) are formed in the side plates (31), first sliding rails (32) distributed in a mirror image manner are formed in one sides of the side plates (31), fourth open holes (321) distributed in an array manner are formed in the first sliding rails (32), sliding blocks (322) distributed in a mirror image manner are arranged between the first sliding rails (32), heating columns (33) are arranged between a group of sliding blocks (322), thread-shaped wire grooves (331) are formed in the heating columns (33), a heater (332) is arranged at one end of each heating column (33), thread columns (34) are arranged between the first sliding rails (32) distributed in a mirror image manner, a rotating handle (341) is arranged at one end of each thread column (34), the other end of each thread column (34) is installed on the corresponding sliding block (322), a fixing block (342) is provided with a fixing block (342), a first threaded hole (343) is arranged on the first sliding rail (342), a lifting spring (344) is arranged between the rotating handle (322) and the sliding block (322), and a lifting spring (344) is arranged between the fixing block (342);

still be equipped with roller (35) between curb plate (31), be equipped with roller dabber (351) in roller (35), roller (35) both ends all are equipped with first bearing frame (352), first bearing frame (352) are fixed respectively on curb plate (31), install in first bearing frame (352) roller dabber (351), still be equipped with first gear (353) on roller dabber (351), roller dabber (351) one end is equipped with second motor (354), be equipped with lubricating column (36) between another group slider (322), be equipped with lubricating column dabber (361) in lubricating column (36), be equipped with oil outlet (362) that axial array distributes on lubricating column (36), still be equipped with sponge bucket (363) on lubricating column (36), still be equipped with second gear (364) on lubricating column dabber (361), second gear (364) and first gear (353) meshing, lubricating column dabber (361) one end is equipped with into oil change ring (365), go into oil change ring (365) one side and be equipped with oil pipe (366), second motor (354) and first gear (353) meshing, lubricating column (364) rotate the drive second gear (363) and carry out the knitting thick line (363) and rotate.

2. The device for improving the yarn softness and strength according to claim 1, wherein a first support plate (11) is arranged on the first support (1), a second support plate (12) is further arranged on the first support (1), a first motor (24) is arranged on the first support plate (11), a first motor rotating shaft (241) is arranged at one end of the first motor (24), a first opening (21) is arranged on the first rotating wheel (2), the first opening (21) is fixedly connected with the first motor rotating shaft (241), the first motor (24) drives the first rotating wheel (2) to rotate, a first rotating rod (22) which is axially distributed is arranged on the first rotating wheel (2), a first sliding groove (221) is arranged on the first rotating rod (22), a coil fixing block (23) is arranged in the first sliding groove (221), fixing holes (231) which are distributed in an array are arranged on the coil (23) are arranged on the first rotating rod (22) after penetrating through the fixing holes (231), the coil fixing block (23) is fixed, a second sliding groove (232) which is arranged on the coil fixing block (23), a second sliding groove (234) which is arranged on the coil fixing block (233) in a mirror image distribution, a bearing is arranged on the second rotating shaft (235), and a second rotating shaft (233) which is arranged below the coil fixing block (235), the rotating bearing (235) enables the coil rotating shaft (234) to rotate, a coil fixing cone (236) is further arranged on the coil rotating shaft (234), and the coil fixing cone (236) fixes the thin coil.

3. The device for improving the softness and strength of yarns according to claim 1, wherein the second bracket (41) is provided with a third support plate (411) and fourth support plates (412) distributed in an array, the fourth support plates (412) are provided with second bearing seats (42), the second bearing seats (42) are internally provided with a rotating shaft (421) together, one end of the rotating shaft (421) is provided with a driven wheel (422), the third support plate (411) is provided with a third motor (423), one end of the third motor (423) is provided with a power wheel (424), the power wheel (424) and the driven wheel (422) are provided with a synchronous belt (425) together, the other end of the rotating shaft (421) is provided with a second rotating wheel (43), the second rotating wheel (43) is provided with a fifth opening (431), the rotating shaft (421) and the fifth opening (431) are fixedly connected, the second rotating wheel (43) is further provided with second rotating rods (432) distributed in an axial direction, the second rotating rods (432) are provided with third sliding chutes (433), the third sliding chutes (433) are provided with take-up rods (44) inside the third sliding chutes (433), one end of the take-up rods (44) is provided with threaded sliding nuts (441), the sliding plates (442), the sliding chutes (443) are provided with sliding plates (442), and the sliding grooves (443), the sliding grooves (442) distributed on the sliding plates (441), the nut (443) is tightened to fix the position of the wire take-up rod (44).