CN110453360B - High-speed braiding machine - Google Patents

Abstract

The invention belongs to the technical field of textile, in particular to a high-speed braiding machine, which comprises a rotor supporting shaft and a machine steel plate, wherein the middle part of the machine steel plate penetrates through a rotor supporting shaft sleeve, the middle part of the rotor supporting shaft sleeve penetrates through a rotor supporting shaft, a combined rotor is arranged on the outer circumference ring of the rotor supporting shaft, a gear is arranged on the lower side of the machine steel plate and the outer ring of the rotor supporting shaft, an integral runway can be spliced through a first runway outer ring, a second runway outer ring and a runway inner ring, runways with different sizes can be spliced according to requirements, the use efficiency is high, runway slot assemblies are produced in batches by using a powder metallurgy process die, the precision is high, the consistency is good, the production efficiency is high, the production cost is saved, the runway slot assemblies are assembled on a middle plate, the original panel is cancelled, an annular groove and a runway slot crossed block need to be machined on the whole, so that the equipment can run more smoothly compared with the traditional machine, the reversing is sensitive, the power loss is reduced, and the energy is saved and the efficiency is high.

Description

High-speed braiding machine

Technical Field

The invention belongs to the technical field of spinning, and particularly relates to a high-speed braiding machine.

Background

Weaving is roughly divided into two working procedures of spinning and weaving, the origin of Chinese weaving is started from the culture of silk by a silkworms by a rayon ancestor, and archaeology discovers spicules on archaeological sites of mountain top caverners in the old stone age, is the earliest origin of known weaving, and reaches the new stone age, a spinning wheel is invented, so that the silk smelting is more convenient, and an original weaving machine appears in the west: spinning wheel, vehicle, the invention of jacquard in Han dynasty, and the Ming dynasty and Song dynasty created a celestial development in which the textile technology was incorporated.

The original textile meaning is a general name taken from spinning and weaving, but with the continuous development and perfection of a textile knowledge system and a subject system, particularly after non-woven textile materials and three-dimensional compound weaving and other technologies are produced, the existing textile is not only the traditional hand-made spinning and weaving, but also clothing, industrial and decorative textiles produced by non-woven fabric technology, modern three-dimensional weaving technology, modern electrostatic nano-web technology and the like. Modern spinning therefore refers to a technique for the multi-scale structural processing of fibers or fiber assemblies. Ancient Chinese textile and printing and dyeing technology has a very long history, and ancient people have understood local materials in the early original society period in order to adapt to climate change, use natural resources as raw materials for textile and printing and dyeing and manufacture simple hand textile tools. Clothing, airbags and curtain carpets in daily life are products of textile and printing technologies.

Spinning sinkers were the earliest tools historically used by china for spinning and their appearance dates back at least to the new age of the stoneware. Early spinning wheels which come out of the earth are generally formed by simply polishing stone chips or ceramic chips, are different in shape and are mostly drum-shaped, round, oblate, quadrilateral and the like, and some wheel surfaces are also painted with decorations.

The appearance of the spinning sinker not only changes the textile production of the original society and has a profound influence on the development of spinning tools of the future, but also is used as a simple spinning tool for thousands of years, and even in the 20 th century, some nomadic Tibetan people in the Tibet region still use the spinning tool for spinning.

Ancient universal spinning wheels can be divided into two types, namely hand spinning wheels and pedal spinning wheels according to the structure. The image data of the hand-operated spinning wheel is found in unearthed Chinese cultural relics for a plurality of times, which shows that the hand-operated spinning wheel is very popular in the Chinese generation as early as the time. The pedal spinning wheel is developed on the basis of a hand-operated spinning wheel, and the earliest image data is the eastern Han painted stone which is earthed in Jiangsu Sihong county. The force for driving the spinning frame by the hand-operated spinning frame comes from hands, and when the hand-operated spinning frame is operated, one hand is needed to shake the spinning frame, and the other hand is needed to do spinning work. And the force of pedal spinning frame drive spinning frame comes from the foot, and during the operation, the spinning woman can use both hands to carry out the spinning operation, has improved work efficiency greatly. Spinning wheels have been the most popular spinning tools since their appearance, and even in recent times, some remote areas still use spinning wheels as the main spinning tools.

The number of the spindles of the ancient spinning vehicle is generally 2 to 3, and the number of the spindles is 5 at most. In Song Yuan, with the development of socio-economic, a large spinning frame with dozens of spindles is gradually produced on the basis of various kinds of conventional spinning frames. The big spinning wheel is different from the original spinning wheel and is characterized in that: the number of spindles is as many as dozens of spindles, and the spindles are driven by water power. The characteristics enable the large spinning wheel to have the prototype of modern spinning machinery and adapt to large-scale specialized production. For spinning ramie, the general spinning frame can spin 3 jin at most every day, and the big spinning frame can spin one hundred jin at most every day. During spinning, enough hemp is needed to meet the production capacity. The hydraulic big spinning wheel is an important invention for applying natural force to textile machinery in ancient China, for example, China is four centuries earlier than the West in terms of a spinning machine using hydraulic force as motive power.

Pedal looms are the generic term for looms with pedal shedding devices. The earliest pedal looms appeared, and reliable historical material descriptions are lacked. Researchers speculate that the appearance of the pedal loom can trace back to the war country era according to the phenomenon that the quantity of fabrics presented at all times in the war country is hundreds of times higher than that in spring and autumn and real-world historical materials such as han-paintings and stones engraved on the pedal loom in various regions. By the time of Qin and Han, the wide areas of the yellow river basin and the Yangtze river basin are commonly used. The invention relates to a loom which adopts a pedal to lift a heald opening, which is an important invention in the development history of the loom and releases two hands of a weaver from the heald lifting action so as to specially engage in picking and beating-up, thereby greatly improving the productivity. For the production of plain woven fabrics, the weaving speed is improved by 20 to 60 times compared with the original weaving machine, and each person can weave 0.3 to 1 meter per hour.

The braiding machine is suitable for the following raw materials: polyamide multifilament yarn (thread), polypropylene filament yarn (thread), polypropylene, polyester, nylon, PP, low-stretch, high-stretch, cotton yarn (thread), pearl yarn, leather, blends, and the like.

The high-speed walking horse knitting machine is provided with an N-color automatic switching device with complete sleeves, and the motor which is controlled by a computer to operate drives the yarn feeding nozzles to automatically switch, so that the knitting of multicolor patterns is simple and easy. The high-performance weaving action of the high-quality jacquard knitting machine can easily finish high-quality jacquard knitting which can be finished only on a large-scale computer weaving machine, and the high-quality jacquard knitting machine is small in size for weaving high-grade computers. The knitting machine can be divided into a sweater knitting machine, a glove knitting machine, a steel wire knitting machine, a silk screen knitting machine, a straw rope knitting machine, an elastic band knitting machine, a plastic mesh bag knitting machine and the like.

Problems existing in the prior art:

the conventional runner groove of the braiding machine is inconvenient to disassemble and is not provided with a shaft sleeve, the rotor step multi-part accumulates higher errors, the service life is short, and the production cost is high.

Disclosure of Invention

To solve the problems set forth in the background art described above. The invention provides a high-speed braiding machine which has the characteristics of high use efficiency, low production cost and convenience in disassembly and replacement.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a high-speed braider, includes rotor support shaft, machine steel sheet, the middle part of machine steel sheet penetrates rotor support shaft sleeve, the middle part of rotor support shaft sleeve penetrates the rotor support shaft, the combination rotor has been installed to the periphery circle of rotor support shaft, the gear has been installed with the outer lane of rotor support shaft to the downside of machine steel sheet, the nut that sticiss has been installed with the downside of gear to the outer lane of rotor support shaft, the upside of machine steel sheet is provided with the runway groove, the backup pad has been installed to the edges and corners department of machine steel sheet, the oil groove has been installed to the rear side of backup pad.

Preferably, the runway groove comprises a first runway outer ring, a second runway outer ring and a runway inner ring, fixing holes are formed in the upper sides of the first runway outer ring, the second runway outer ring and the runway inner ring, the runway inner ring is a circular runway ring, the first runway outer ring and the second runway outer ring are both arc runway rings and can be spliced into a circular runway ring, the runway groove assembly is assembled on the middle plate, and the original panel is omitted, and the whole annular groove and the runway groove cross block need to be machined; the track groove component is produced in batch by utilizing a powder metallurgy process die, has high precision, good consistency and high production efficiency, saves production cost, has concave-convex bayonets, has the functions of positioning and quick installation, adopts a powder metallurgy new material heat treatment process to improve the wear resistance by more than 10 times, is assembled on the intermediate plate, replaces a traditional equipment structure panel by the intermediate plate, saves more than 70 percent of panel material, is assembled on the intermediate plate, cancels the integral requirement of machining an annular groove and a track groove cross block of an original panel, ensures that the equipment runs more smoothly compared with the traditional machine, and has sensitive reversing, the power loss is reduced, the energy is saved, the efficiency is high, and the powder metallurgy material has self-lubricating property and high wear resistance.

Preferably, the combined rotor is assembled by a powder metallurgy pressing rotor and a rotor shaft in a combined mode, and a certain number of spindle base notch grooves are formed in the rotor surface; rotor shaft and rotor sub-assembly as an organic whole behind this structural grouping for rotor and the axle is whole rotatory as an organic whole, rotor plane bottom surface and rotor supporting axle sleeve direct contact, rotor breach groove is owing to adopt mould direct forming batch production, low in production cost, precision size uniformity is better, avoid former rotor breach groove to need the machining process, and the high accumulative error of cancellation traditional former structure main part gear box gear fixing axle gear rotor step multicomponent behind combination rotor and the cooperation assembly of rotor supporting axle sleeve, for the total length shortening of traditional rotor, the rigidity increases.

Preferably, the upper surface of the rotor supporting shaft sleeve is directly contacted with the bottom surface of the rotor for supporting, and the lower base surface of the rotor supporting shaft sleeve is positioned with the intermediate plate of the braiding machine; the rotor supporting shaft sleeve changes the main structure of the braiding machine, eliminates the main gear box body and the fixed gear shaft of the traditional braiding machine, changes the rotor structure of the braiding machine, greatly reduces the number of parts, because the lower plane of the rotor directly contacts the rotor supporting shaft sleeve, the original multi-part assembly structure is changed, the technical index changing structure with the strength increased by multiple times can reduce more than half of the weight of the structure, the equipment performance is obviously improved, the whole service life is improved by more than two times, the height accumulated error of multiple parts of the steps of the gear rotor of the rotor shaft of the main gear box body of the original structure is eliminated, the part structure is simplified, the cost is saved, the processing difficulty is reduced, the production period is saved, the product reference precision is improved, the accumulated error of multiple parts from the gear box to the rotor shaft, the gear fixing shaft to the rotor and the rotor to the panel is eliminated, the height of the contact supporting rotating friction surface is shortened to 0 size, and the machine rigidity is increased by multiple times.

Preferably, the oil receiving groove comprises a supporting plate and an oil groove; effectively receive the rubbish that produces in splash oil and the customer production process, reduce the pollution to the surrounding environment, cleaner for traditional machine, make things convenient for the universal performance of different models machines.

Compared with the prior art, the invention has the beneficial effects that: the track groove component is assembled on the middle plate, the original panel is cancelled, the whole circular groove and the track groove cross block need to be machined, the equipment operation is smoother compared with the traditional machine, the reversing is sensitive, the power loss is reduced, the energy is saved, the efficiency is high, the powder metallurgy material has self-lubricating performance and high wear resistance, the rotor shaft and the rotor are combined into a whole component, the rotor and the shaft integrally rotate, the bottom surface of the rotor plane is in direct contact with the rotor supporting shaft sleeve, and the notch grooves of the rotor are directly formed by adopting the die for batch production, the combined rotor and the rotor supporting shaft sleeve are matched and assembled, the height accumulated error of multiple parts of the gear fixed shaft gear rotor step of the gear box body and the gear fixed shaft of the traditional original structure main body is eliminated, the total length of the combined rotor is shortened, the rigidity is increased, the rotor supporting shaft sleeve changes the main body structure of the braiding machine, the main body gear box body and the fixed gear shaft of the traditional braiding machine are eliminated, the rotor structure of the braiding machine is changed, the number of the parts is greatly reduced, the lower plane of the rotor directly contacts the rotor supporting shaft sleeve, the original multi-part assembly structure is changed, the technical index changing structure with strength increased by multiple times can be reduced by more than half, the equipment performance is obviously improved, the integral service life is prolonged by more than two times, the height accumulated error of multiple parts of the gear rotor shaft gear rotor step of the rotor box body and the rotor shaft of the original structure is eliminated, the part structure is simplified, and the cost is saved, reduce the processing degree of difficulty, practice thrift production cycle, promote product benchmark precision, gearbox to rotor shaft has been cancelled, gear fixed axle to rotor, rotor to the many parts accumulative error of panel, the contact supports the rotary friction surface height and shortens to 0 size, the multiplicable increases machine rigidity backup pad and oil groove combination and forms, connect the rubbish that produces in oil groove effective receipt splash oil and the customer production process, reduce the pollution to surrounding environment, cleaner for traditional machine, make things convenient for the universal performance of different model machines.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic cross-sectional view of the present invention;

FIG. 2 is a schematic illustration of an explosive structure according to the present invention;

FIG. 3 is a schematic view of the combined rotor of the present invention;

FIG. 4 is a schematic view of the runway structure of the present invention;

FIG. 5 is a schematic view of the outer race of the runway according to the present invention;

FIG. 6 is a schematic view of the inner race of the runway according to the present invention;

FIG. 7 is a schematic structural view of an oil deflector bracket according to the present invention;

FIG. 8 is a schematic sectional view showing an installation state of an oil deflector according to the present invention;

FIG. 9 is a schematic structural view of a rotor support sleeve according to the present invention;

in the figure: 1. a rotor supporting shaft; 2. a composite rotor; 3. a rotor support sleeve; 4. a gear; 5. tightening the screw cap; 6. a machine steel plate; 7. a runway groove; 8. a first runway outer ring; 9. the outer ring of the second runway; 10. an inner race of the runway; 11. a support plate; 12. an oil groove.

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.

Example 1

Referring to fig. 1-9, the present invention provides the following technical solutions: the utility model provides a high-speed braider, including rotor support shaft 1, machine steel sheet 6's middle part penetrates rotor support shaft sleeve 3, rotor support shaft sleeve 3's middle part penetrates rotor support shaft 1, rotor support shaft 1's outer periphery circle has installed combination rotor 2, gear 4 has been installed with rotor support shaft 1's outer lane to machine steel sheet 6's downside, nut 5 has been installed with gear 4's downside to rotor support shaft 1's outer lane, machine steel sheet 6's upside is provided with runway groove 7, backup pad 11 has been installed to machine steel sheet 6's edges and corners department, oil groove 12 has been installed to backup pad 11's rear side.

In this embodiment: the track groove component is produced in batch by utilizing a powder metallurgy process die, has high precision, good consistency and high production efficiency, saves production cost, has concave-convex bayonets, has the functions of positioning and quick installation, improves the wear resistance by more than 10 times by utilizing a powder metallurgy new material heat treatment process for a track groove 7, is assembled on an intermediate plate, replaces a traditional equipment structure panel by the intermediate plate, saves more than 70 percent of panel materials, is assembled on the intermediate plate, cancels the integral requirement of machining an annular groove and a crossed block of the groove 7 of the original panel, and ensures that the equipment runs more smoothly compared with the traditional machine, the reversing is sensitive, the power loss is reduced, the energy is more saved, the efficiency is higher, the powder metallurgy material has self-lubricating property and high wear resistance, the rotor shaft and the rotor are combined into an integral assembly after the structure is combined, the rotor and the shaft integrally rotate, the bottom surface of the rotor plane is directly contacted with the rotor supporting shaft sleeve 3, the notch groove of the rotor is directly formed by a mould for batch production, the production cost is low, the precision size consistency is better, the mechanical processing process required by the notch groove of the original rotor is avoided, the height accumulated error of the multi-part of the gear fixing shaft gear rotor step of the gear box body of the traditional original structure main body gear box body is cancelled after the combined rotor 2 and the rotor supporting shaft sleeve 3 are matched and assembled, the total length of the rotor is shortened and the rigidity is increased compared with the traditional rotor, the rotor supporting shaft sleeve 3 changes the, the number of parts is greatly reduced, the lower plane of the rotor directly contacts the rotor supporting shaft sleeve 3, so that the original multi-part assembly structure is changed, the technical index changing structure with strength increased by multiple times can reduce the weight by more than half, the equipment performance is obviously improved, the integral service life is improved by more than two times, the height accumulated error of multi-part of the gear rotor step of the rotor shaft of the gear box body main body of the original structure is cancelled, the part structure is simplified, the cost is saved, the processing difficulty is reduced, the production period is saved, the product reference precision is improved, the accumulated error of the multi-part of the gear box to the rotor shaft, the gear fixing shaft to the rotor and the rotor to the panel is cancelled, the height of the contact supporting rotary friction surface is shortened to 0 size, the machine rigidity is increased by multiple times, and the oil receiving groove is formed by combining the supporting plate 11 and the oil groove 12; effectively receive the rubbish that produces in splash oil and the customer production process, reduce the pollution to the surrounding environment, cleaner for traditional machine, make things convenient for the universal performance of different models machines.

Specifically, the runway groove 7 comprises a first runway outer ring 8, a second runway outer ring 9 and a runway inner ring 10, fixing holes are formed in the upper sides of the first runway outer ring 8, the second runway outer ring 9 and the runway inner ring 10, the runway inner ring 10 is a circular runway ring, the first runway outer ring 8 and the second runway outer ring 9 are arc runway rings and can be spliced into a circular runway ring, the runway groove assembly is assembled on the middle plate, and the original panel is omitted, wherein a mechanical processing annular groove and a runway groove 7 crossed block are integrally required; the track groove component is produced in batch by utilizing a powder metallurgy process die, has high precision, good consistency and high production efficiency, saves production cost, has concave-convex bayonets, has the functions of positioning and quick installation, improves the wear resistance by more than 10 times by utilizing a powder metallurgy new material heat treatment process for a track groove 7, is assembled on an intermediate plate, replaces a traditional equipment structure panel by the intermediate plate, saves more than 70 percent of panel materials, is assembled on the intermediate plate, cancels the integral requirement of machining an annular groove and a crossed block of the groove 7 of the original panel, and ensures that the equipment runs more smoothly compared with the traditional machine, the reversing is sensitive, the power loss is reduced, the energy is saved, the efficiency is high, and the powder metallurgy material has self-lubricating property and high wear resistance.

Specifically, the combined rotor 2 is assembled by a powder metallurgy pressed rotor and a rotor shaft in a combined manner, and a certain number of spindle base notch grooves are arranged on the rotor surface; rotor shaft and rotor sub-assembly as an organic whole behind this structural grouping for rotor and the axle is whole rotatory as an organic whole, rotor plane bottom surface and 3 direct contact of rotor supporting axle sleeve, rotor breach groove is owing to adopt mould direct forming batch production, low in production cost, precision size uniformity is better, avoid former rotor breach groove to need the machining process, and the high accumulative error of cancellation traditional former structure main part gear box gear fixing axle gear rotor step multicomponent behind combination rotor 2 and the 3 cooperation assembly of rotor supporting axle sleeve, for the total length shortening of traditional rotor, the rigidity increases.

Specifically, the upper surface of the rotor supporting shaft sleeve 3 is directly contacted with the bottom surface of the rotor for supporting, and the lower base surface of the rotor supporting shaft sleeve 3 is positioned with the intermediate plate of the braiding machine; the rotor supporting shaft sleeve 3 changes the main structure of the braiding machine, the main gear box body and the fixed gear shaft of the traditional braiding machine are eliminated, the rotor structure of the braiding machine is changed, the number of parts is greatly reduced, the lower plane of the rotor directly contacts the rotor supporting shaft sleeve 3, the original multi-part assembly structure is changed, the technical index changing structure body with strength increased by multiple times can reduce the weight by more than half, the equipment performance is obviously improved, the whole service life is prolonged by more than two times, the height accumulated error of multi-parts of the rotor shaft gear rotor step of the main gear box body and the rotor shaft of the original structure is eliminated, the part structure is simplified, the cost is saved, the processing difficulty is reduced, the production cycle is saved, the product reference precision is improved, the gear box to the rotor shaft, the gear fixed shaft to the rotor, the multi-part accumulated error of the rotor to the panel is eliminated, and the height of the rotary friction surface of the contact support is shortened to 0 size, the rigidity of the machine is increased by multiple times.

Specifically, the oil receiving groove comprises a supporting plate 11 and an oil groove 12; effectively receive the rubbish that produces in splash oil and the customer production process, reduce the pollution to the surrounding environment, cleaner for traditional machine, make things convenient for the universal performance of different models machines.

The working principle and the using process of the invention are as follows: when in use, the supporting shaft sleeve 3 is firstly clamped into the middle part of a machine steel plate 6, the combined rotor 2 is arranged on the rotor supporting shaft 1, the rotor shaft and the rotor are combined into an integral assembly after the structure is combined, so that the rotor and the shaft integrally rotate, the bottom surface of the rotor plane is directly contacted with the rotor supporting shaft sleeve 3, the rotor notch groove is produced in batch by adopting a mold for direct molding, the production cost is low, the precision and size consistency are better, the mechanical processing process required by the original rotor notch groove is avoided, the height accumulated error of the multi-part of the gear rotor step of the gear fixing shaft of the gear box body of the traditional original structure is cancelled after the combined rotor 2 and the rotor supporting shaft sleeve 3 are matched and assembled, compared with the traditional rotor, the total length is shortened, the rigidity is increased, the gear 4 and the screw cap 5 are arranged at the bottom end of the rotor supporting shaft 1, the runway groove 7 is arranged at the upper side of the machine steel plate 6, the track groove component is assembled on the middle plate, the middle plate replaces a traditional equipment structure panel, more than 70% of panel materials are saved, the track groove component is assembled on the middle plate, the original panel is eliminated, the annular groove and the track groove 7 crossed block need to be machined integrally, the equipment operation is smoother compared with the traditional machine, the reversing is sensitive, the power loss is reduced, the energy is saved, the efficiency is high, the powder metallurgy material has self-lubricating performance and high wear resistance, the supporting plate 11 and the oil groove 12 are installed at the edge angle of the machine steel plate 6, the oil splashing and the garbage generated in the customer production process are received, the pollution to the surrounding environment is reduced, and the track groove 7 is cleaner compared with the traditional machine, the universal performance of machines of different models is facilitated.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (1)

1. A high-speed knitting machine characterized in that: the machine steel plate comprises a rotor supporting shaft (1) and a machine steel plate (6), wherein a rotor supporting shaft sleeve (3) penetrates through the middle of the machine steel plate (6), the rotor supporting shaft (1) penetrates through the middle of the rotor supporting shaft sleeve (3), a combined rotor (2) is installed on the outer circumference of the rotor supporting shaft (1), a gear (4) is installed on the lower side of the machine steel plate (6) and the outer ring of the rotor supporting shaft (1), a clamping nut (5) is installed on the outer ring of the rotor supporting shaft (1) and the lower side of the gear (4), a runway groove (7) is arranged on the upper side of the machine steel plate (6), a supporting plate (11) is installed at the edge of the machine steel plate (6), an oil groove (12) is installed on the rear side of the supporting plate (11), and the runway groove (7) comprises a first runway outer ring (8), a second runway outer ring (9), the combined rotor (2) is formed by pressing a rotor and a rotor shaft through powder metallurgy, a certain number of spindle base notch grooves are arranged on the rotor surface, the upper surface of the rotor supporting shaft sleeve (3) is directly contacted with the bottom surface of the rotor to support, the lower base surface of the rotor supporting shaft sleeve (3) is positioned with the middle plate of a braiding machine, and the oil receiving groove comprises a supporting plate (11) and an oil groove (12).

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