CN213140928U - A coiling mechanism for cotton yarn processing - Google Patents

Abstract

The utility model discloses a coiling mechanism for cotton yarn processing, it is including installation desktop, control operation module, cotton gauze feeding structure, first roller structure, second roller structure, rolling structure, the rectangle board that the installation desktop was made for the stainless steel, and the bottom surface is installed from a left side to the right side in proper order and is fixed with cotton gauze feeding structure, first roller structure, second roller structure, rolling structure on it, and its leading flank installs control operation module. The beneficial effects of the utility model are that: the cloth winding device for textile production is convenient to use, simple to operate, smooth in cloth winding, smooth in shearing, high in shearing speed and capable of improving working speed.

Description

A coiling mechanism for cotton yarn processing

Technical Field

The utility model relates to a coiling mechanism for cotton yarn processing belongs to weaving equipment technical field.

Background

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. Therefore, modern textile refers to a multi-scale structure processing technology of fiber or fiber aggregate, the ancient textile and printing and dyeing technology of China has a very long history, and as early as the original society, ancient people are aware of local materials in order to adapt to climate change, natural resources are used as raw materials for textile and printing and the manufacture of simple hand textile tools. Clothes, airbags and curtain carpets in daily life are products of textile and printing technologies to date.

Need carry out the rolling to the cloth after the weaving finishes, current cloth coiling mechanism exists and uses inconveniently, the operation is complicated, cloth winding unevenness, and the cloth coiling finishes the back and need cut the cloth, and generally cut through the manual work, thereby lead to cutting the unevenness, the shearing speed is slow, influence the shortcoming of operating speed, consequently need urgently to research and develop a convenient to use, easy operation, the cloth winding is level and smooth, and cut levelly and smoothly, the shearing speed is fast, improve operating speed's cloth coiling mechanism for textile production.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in providing a coiling mechanism for cotton yarn processing, its convenient to use, easy operation, cloth winding level and smooth, and cut level and smooth, shear rate is fast, improve the cloth coiling mechanism for textile production of operating speed.

The utility model discloses a following scheme realizes: a winding device for cotton yarn processing comprises an installation desktop, a control operation module, a cotton gauze feeding structure, a first roller structure, a second roller structure and a winding structure, wherein the installation desktop is a rectangular plate made of stainless steel, the upper bottom surface of the installation desktop is sequentially fixed with the cotton gauze feeding structure, the first roller structure, the second roller structure and the winding structure from left to right, the front side surface of the installation desktop is provided with the control operation module, the cotton gauze feeding structure comprises a vapor generation sprayer, a lower feeding roller mounting bracket, an upper feeding roller, a feeding roller driving motor structure, an upper feeding roller driving connecting shaft and a feeding bracket, the feeding bracket is cuboid-shaped and is arranged on the upper bottom surface of the installation desktop, the upper part of the feeding bracket is provided with a feeding roller mounting cavity, the feeding roller mounting cavity is a cuboid-shaped cavity, and the left side surface of the feeding bracket is provided with a rectangular feeding hole, the right side surface of the feeding roller is provided with a rectangular discharging port, a lower feeding roller mounting bracket, an upper feeding roller, a feeding roller driving motor structure and an upper feeding roller driving connecting shaft are mounted in the rectangular discharging port, the lower feeding roller mounting bracket is mounted and fixed in the feeding roller mounting cavity and is provided with two lower feeding rollers, two feeding roller driving motor structures and two upper feeding roller driving connecting shafts, the feeding rollers are connected with the feeding roller driving motor structures on the same side and can be driven to rotate by the feeding roller driving motor structures on the same side, the upper feeding roller mounting bracket is mounted and fixed in the feeding roller mounting cavity and is provided with two upper feeding rollers, the upper feeding rollers are connected with the upper feeding roller driving connecting shafts on the same side, and the upper feeding roller driving connecting shafts can provide power under the condition that the feeding roller driving motor structures on the same side provide power, the drive is located the last feed roller rotation of looks homonymy, vapor generation atomizer is installed in feed support upper portion position, feed inlet below, and can evenly upwards spout vapor, the rolling structure includes rolling bearing, rolling support, rolling motor structure, receipts spool, the rolling bearing is the rectangular bodily form, installs bottom surface on the installation desktop, and the rolling support is installed to its top, install rolling motor structure, a rolling section of thick bamboo on the rolling support, the rolling motor structure is connected with a rolling section of thick bamboo, and can drive a rolling section of thick bamboo rotatory.

The first roller structure comprises a first roller bearing seat and a first roller, wherein the first roller bearing seat is cuboid and is arranged on the upper bottom surface of the installation desktop, the top end of the first roller is provided with the first roller, and the first roller can rotate freely.

The second roller structure comprises a second roller bearing seat, a second roller support, a second roller and an infrared counter, the second roller bearing seat is cuboid and is arranged on the upper bottom surface of the installation desktop, the second roller support is arranged at the top end of the second roller bearing seat, the second roller capable of freely rotating is arranged on the second roller support, the infrared counter is arranged at the upper part of the second roller bearing seat, and a sliding cutting knife capable of sliding back and forth on the infrared counter is arranged on the right side of the second roller.

The control operation module is connected with the steam generation sprayer, the winding motor structure, the feeding roller driving motor structure, the infrared counter, the sliding cutting knife and an external power supply through leads.

The utility model has the advantages that:

1. the utility model relates to a coiling mechanism for cotton yarn processing, its convenient to use, easy operation, cloth winding level and smooth, and cut level and smooth, shear fast, improve the cloth coiling mechanism for textile production of operating speed.

Drawings

Fig. 1 is the utility model relates to a profile structure schematic diagram looks sideways at of coiling mechanism for cotton yarn processing.

Fig. 2 is an enlarged schematic view of a portion a of fig. 1.

Fig. 3 is an enlarged schematic view of fig. 1 at B.

In the figure: 1 is the installation desktop, 2 is control operation module, 3 is cotton gauze feeding structure, 4 is first roller structure, 5 is the second roller structure, 6 is the rolling structure, 7 is first roller bearing, 8 is first roller, 9 is vapor generation atomizer, 10 is the rolling bearing, 11 is the rolling support, 12 is the rolling motor structure, 13 is the winding section of thick bamboo, 14 is the wire, 15 is the feeding roller installation cavity, 16 is lower feeding roller, 17 is lower feeding roller installing support, 18 is last feeding roller installing support, 19 is last feeding roller, 20 is feeding roller driving motor structure, 21 is last feeding roller drive connecting axle, 22 is the feed inlet, 23 is the discharge gate, 24 is the feeding support, 25 is the second roller bearing, 26 is the second roller support, 27 is the second roller, 28 is infrared counter, 29 is the slip cutting knife.

Detailed Description

The present invention is further described with reference to fig. 1, fig. 2 and fig. 3, but the scope of the present invention is not limited to the description.

In which like parts are designated by like reference numerals. It is noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component, and the drawings are in greatly simplified form and employ non-precise ratios, merely for the purpose of facilitating and distinctly aiding in the description of the embodiments of the present invention.

In the following description, for purposes of clarity, not all features of an actual implementation are described, well-known functions or constructions are not described in detail since they would obscure the invention with unnecessary detail, it being understood that in the development of any actual embodiment, numerous implementation details must be set forth in order to achieve the developer's specific goals, such as compliance with system-related and business-related constraints, changing from one implementation to another, and it being recognized that such development efforts may be complex and time consuming, but would nevertheless be a routine undertaking for those of ordinary skill in the art.

A winding device for cotton yarn processing comprises an installation table top 1, a control operation module 2, a cotton gauze feeding structure 3, a first roller structure 4, a second roller structure 5 and a winding structure 6, wherein the installation table top 1 is a rectangular plate made of stainless steel, the upper bottom surface of the installation table top is sequentially and fixedly provided with the cotton gauze feeding structure 3, the first roller structure 4, the second roller structure 5 and the winding structure 6 from left to right, the front side surface of the installation table top is provided with the control operation module 2, the cotton gauze feeding structure 3 comprises a steam generation sprayer 9, a lower feeding roller 16, a lower feeding roller installation bracket 17, an upper feeding roller installation bracket 18, an upper feeding roller 19, a feeding roller driving motor structure 20, an upper feeding roller driving connection shaft 21 and a feeding bracket 24, the feeding bracket 24 is cuboid and is installed on the upper bottom surface of the installation table top 1, the upper part of the installation cavity 15 is provided, the feeding roller installation cavity 15 is a cuboid cavity, the left side surface of the feeding device is provided with a rectangular feeding hole 22, the right side surface of the feeding device is provided with a rectangular discharging hole 23, the feeding device is internally provided with a lower feeding roller 16, a lower feeding roller mounting bracket 17, an upper feeding roller mounting bracket 18, an upper feeding roller 19, a feeding roller driving motor structure 20 and an upper feeding roller driving connecting shaft 21, the lower feeding roller mounting bracket 17 is fixedly mounted in a feeding roller mounting cavity 15, the feeding device is provided with two lower feeding rollers 16, two feeding roller driving motor structures 20 and two upper feeding roller driving connecting shafts 21, the feeding rollers 16 are connected with the feeding roller driving motor structures 20 on the same side and can be driven to rotate by the feeding roller driving motor structures 20 on the same side, the upper feeding roller mounting bracket 18 is fixedly mounted in the feeding roller mounting cavity 15 and is provided with two upper feeding rollers 19, the upper feeding rollers 19 are connected with the upper feeding roller driving connecting shafts 21 on the same side, the upper feeding roller driving connecting shaft 21 can drive the upper feeding roller 19 located on the same side to rotate under the condition that the feeding roller driving motor structure 20 located on the same side provides power, the vapor generation sprayer 9 is installed on the upper portion of the feeding support 24, the feeding port 22 is located below the feeding port and can uniformly spray vapor upwards, the winding structure 6 comprises a winding bearing 10, a winding support 11, a winding motor structure 12 and a winding drum 13, the winding bearing 10 is in a cuboid shape and is installed on the upper bottom surface of the installation table top 1, the winding support 11 is installed above the winding support, the winding motor structure 12 is installed on the winding support 11, the winding drum 13 is connected with the winding drum 13, and the winding drum 13 can be driven to rotate.

The first roller structure 4 comprises a first roller bearing 7 and a first roller 8, wherein the first roller bearing 7 is cuboid and is arranged on the upper bottom surface of the installation table top 1, the top end of the first roller structure is provided with the first roller 8, and the first roller 8 can rotate freely.

The second roller structure 5 comprises a second roller bearing 25, a second roller support 26, a second roller 27 and an infrared counter 28, wherein the second roller bearing 25 is cuboid and is arranged on the upper bottom surface of the installation desktop 1, the second roller support 26 is arranged at the top end of the second roller support 26, the second roller 27 capable of freely rotating is arranged on the second roller support 26, the infrared counter 28 is arranged at the upper part of the second roller bearing 25, and a sliding cutting knife 29 capable of sliding on the infrared counter 28 in a front-back manner is arranged on the right side of the second roller 27.

The control operation module 2 is connected with the steam generation sprayer 9, the winding motor structure 12, the feeding roller driving motor structure 20, the infrared counter 28, the sliding cutting knife 29 and an external power supply through a lead 14.

When the cotton gauze coiling device is used, cotton gauze enters from the feeding hole 22, passes through a gap between the lower feeding roller 16 and the upper feeding roller 19, penetrates out of the discharging hole 23, and is coiled by the coiling cylinder 13 after passing through the first roller 8 and the second roller 27, and the coiling process is finished.

During the process of rolling the cotton gauze, the steam generating sprayer 9 sprays steam upwards, such as the cotton gauze is heated and moistened, and then the cotton gauze is flattened during passing through the gap between the lower feeding roller 16 and the upper feeding roller 19, so that creases and the like on the cloth are removed.

In the process of winding cotton gauze, the infrared counter 28 monitors and counts the length of the cloth passing through the upper part of the infrared counter 28, when the length reaches the set length, the control operation module 2 controls the whole device to suspend the winding process, and the sliding cutting knife 29 is started to cut the cotton gauze.

The control operation module 2 controls each electric device of the whole device.

The internal structures, working principles and working processes of the control operation module 2, the steam generation sprayer 9, the winding motor structure 12, the feeding roller driving motor structure 20 and the infrared counter 28 are the prior known technologies, and are not described herein again.

Although the invention has been shown and described in detail with respect to the preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (4)

1. The utility model provides a coiling mechanism for cotton yarn processing which characterized in that: the cotton gauze packaging machine comprises an installation table top (1), a control operation module (2), a cotton gauze feeding structure (3), a first roller structure (4), a second roller structure (5) and a rolling structure (6), wherein the installation table top (1) is a rectangular plate made of stainless steel, the cotton gauze feeding structure (3), the first roller structure (4), the second roller structure (5) and the rolling structure (6) are sequentially installed and fixed on the upper bottom surface of the installation table top from left to right, the control operation module (2) is installed on the front side surface of the installation table top, the cotton gauze feeding structure (3) comprises a steam generation sprayer (9), a lower feeding roller (16), a lower feeding roller installing support (17), an upper feeding roller installing support (18), an upper feeding roller (19), a feeding roller driving motor structure (20), an upper feeding roller driving connecting shaft (21) and a feeding support (24), and the feeding support (24) is in a rectangular shape, the feeding roller mounting structure is characterized in that the feeding roller mounting structure is mounted on the upper bottom surface of a mounting table top (1), a feeding roller mounting cavity (15) is arranged on the upper portion of the feeding roller mounting cavity, the feeding roller mounting cavity (15) is a rectangular cavity, a rectangular feeding hole (22) is formed in the left side surface of the feeding roller mounting cavity, a rectangular discharging hole (23) is formed in the right side surface of the feeding roller mounting cavity, a lower feeding roller mounting support (17), an upper feeding roller mounting support (18), an upper feeding roller (19), a feeding roller driving motor structure (20) and an upper feeding roller driving connecting shaft (21) are mounted in the feeding roller mounting cavity, the lower feeding roller mounting support (17) is fixedly mounted in the feeding roller mounting cavity (15), two lower feeding rollers (16), two feeding roller driving motor structures (20) and two upper feeding roller driving connecting shafts (21) are mounted on the lower feeding roller mounting support, the feeding roller, the upper feeding roller mounting bracket (18) is fixedly mounted in the feeding roller mounting cavity (15), two upper feeding rollers (19) are mounted on the upper feeding roller mounting bracket (18), the upper feeding rollers (19) are connected with the upper feeding roller driving connecting shaft (21) on the same side, the upper feeding roller driving connecting shaft (21) can drive the upper feeding rollers (19) on the same side to rotate under the condition that the feeding roller driving motor structures (20) on the same side provide power, the steam generating sprayer (9) is mounted at the upper position of the feeding bracket (24), below the feeding port (22) and can uniformly spray steam upwards, the winding structure (6) comprises a winding bearing (10), a winding bracket (11), a winding motor structure (12) and a winding barrel (13), and the winding bearing (10) is in a rectangular shape, install in installation desktop (1) upper base surface, rolling support (11) are installed to its top, install winding motor structure (12), a winding drum (13) on rolling support (11), winding motor structure (12) are connected with a winding drum (13), and can drive winding drum (13) and rotate.

2. A winding device for cotton yarn processing according to claim 1, characterized in that: first roller structure (4) include first roller bearing (7), first roller (8), first roller bearing (7) are the cuboid form, install bottom surface on installation desktop (1), and first roller (8) are installed to its top, first roller (8) ability free rotation.

3. A winding device for cotton yarn processing according to claim 1, characterized in that: second roller structure (5) include second roller bearing (25), second roller support (26), second roller (27), infrared counter (28), second roller bearing (25) are the cuboid form, install bottom surface on installation desktop (1), and second roller support (26) are installed on its top, install ability free rotation's second roller (27) on second roller support (26), infrared counter (28) are installed in second roller bearing (25) upper portion position, and gliding cutting knife (29) around second roller (27) right side is installed on it can be on infrared counter (28).

4. A winding device for cotton yarn processing according to claim 1, characterized in that: the control operation module (2) is connected with the steam generation sprayer (9), the winding motor structure (12), the feeding roller driving motor structure (20), the infrared counter (28), the sliding cutting knife (29) and an external power supply through a lead (14).

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