CN210134196U - Fine carding machine capable of reducing cotton dropping - Google Patents

Abstract

The utility model discloses a reducible meticulous carding machine that falls cotton, including licker-in, tin forest, doffer, ejection of compact subassembly, it is two sets of be provided with the feed table between the pay-off roller, the feed table other end is provided with the conveyer belt that has a compression roller No. one, evenly arranged is provided with the soft brush of multiunit on the working roll, peel off the board with be provided with the conveyer belt No. two between the gap that the doffer constitutes, the other end of ejection of compact dish is provided with the ejection of compact subassembly of compriseing live-rollers, live-rollers No. two, live-rollers No. three. The utility model has the advantages of comb and parallel cotton fibers prior to spinning effect is excellent, and cotton is fallen in the reducible ejection of compact, its mainly used weaving in-process comb and parallel cotton fibers prior to spinning.

Description

Fine carding machine capable of reducing cotton dropping

Technical Field

The utility model belongs to the technical field of weaving equipment, especially, relate to a reducible meticulous carding machine that falls cotton.

Background

The carding machine is used for processing cotton fiber and chemical fiber, belongs to textile machinery, and is characterized by that according to the spinning technological process, the carding process is an important process, the front process of the carding machine is a combined opening-cleaning-carding machine, and the rear process is a drawing machine (carding technological process) or sliver lap machine (combing technological process), and the working principle of the carding machine is that the cotton material fed from the front process is opened, carded and cleaned, and all the curled block-shaped cotton rings are made into the single-fibre form energy which is basically straightened, and in the course of said process, the broken seeds, impurities and short fibre left by the cleaning process can be removed, then the cotton slivers with a certain specification can be integrated, and stored in the cotton cylinder, and can be used in the drawing process.

In the feeding roller is carried to loose cotton in the existing carding machine, carding work is carried out through an internal structure, but the loose cotton is simply put into to enable the internal working strength to be increased, and the working roller and the transfer roller in the internal structure are easy to carry the loose cotton when rotating, so that the cotton is easy to fall due to insufficient hardness of cotton slivers after carding after discharging, and the working efficiency is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a comb and parallel cotton effect is excellent, and cotton meticulous carding machine is fallen in reducible ejection of compact aims at solving above-mentioned existence comb and parallel cotton effect poor, the ejection of compact falls cotton problem.

The utility model is realized in such a way, a fine carding machine capable of reducing cotton dropping comprises a licker-in, a cylinder, a doffer and a discharging component, two groups of feeding rollers are arranged near the licker-in, a feeding tray is arranged between the two groups of feeding rollers, the other end of the feeding tray is provided with a conveyor belt, a plurality of groups of clamping rods are fixedly connected with the two sides of the conveyor belt in uniform symmetry, each group of clamping rods are provided with clamping holes, a compression roller is connected between each two corresponding groups of clamping rods through the clamping holes in a clamping way, the licker-in is arranged at the other side of the feeding rollers, a plurality of groups of transfer rollers and working rollers are arranged around the cylinder, each group of working rollers are near one group of the transfer rollers, a plurality of groups of soft brushes are arranged on the working rollers in uniform arrangement, and the soft brushes and the working rollers are in angle arrangement, the direction of the soft brush is opposite to the rotating direction of the working roller, a doffer is arranged on the other side of the cylinder, which is opposite to the licker-in, a stripping plate is arranged near the doffer, a discharge disc is arranged between the stripping plate and a gap formed by the doffer, a second conveyor belt is arranged in the discharge disc, a discharge assembly is arranged at the other end of the discharge disc, the discharge assembly comprises a rotating roller, a chassis and a second compression roller, the rotating roller is provided with a first rotating roller, a second rotating roller and a third rotating roller, the first rotating roller is close to the discharge disc, the second rotating roller is arranged near the first rotating roller, the mounting position of the second rotating roller is lower than that of the first rotating roller, the third rotating roller is arranged near the second rotating roller, and the third rotating roller is symmetrical to the first rotating roller and the second rotating roller, the lower portion of the second rotating roller is provided with a chassis, the chassis is of a downward arc surface structure, the second rotating roller is located in an arc surface, one end of the chassis is close to the first rotating roller, the other end of the chassis is close to the third rotating roller, the first rotating roller is identical to the third rotating roller in the rotating direction, the first rotating roller is opposite to the second rotating roller in the rotating direction, the first rotating roller and the third rotating roller are both provided with a second compression roller, the third rotating roller is close to a cotton rolling barrel, and the rotating direction of the cotton rolling barrel is opposite to that of the third rotating roller.

The first rotating roller and the doffer rotate in opposite directions, the doffer and the licker-in rotate in the same direction, and the doffer and the cylinder rotate in opposite directions.

The feeding disc is obliquely arranged relative to the feeding roller, a plurality of groups of clamping holes are uniformly and longitudinally arranged on the clamping rod, and a feeding hopper is arranged on the first conveying belt.

The width of the first conveyor belt is the same as that of the feeding disc and is larger than the length of the feeding roller, and the width of the second conveyor belt is larger than that of the doffer.

The surface of the first rotating roller, the surface of the second rotating roller and the surface of the third rotating roller are rough surfaces, the base plate is located at one end of the first rotating roller, a drainage plate is arranged at the inner side of the base plate, and a certain angle is formed between the drainage plate and the base plate.

The length of the soft brush is set to be that when the working roller rotates, the soft brush can brush the surfaces of the transfer roller and the cylinder.

The surface of the working roll is embedded with a plurality of groups of placing grooves, the bottom of the soft brush is provided with an installation block, and the installation block is embedded in the placing grooves.

When the mounting block is embedded in the placing groove, the surface of the mounting block is flush with the surface of the placing groove, and the mounting block is provided with an external structure according to the profile of the placing groove.

The licker-in, doffer, cylinder all install on the base, the base lower part is provided with the collecting tray, collecting tray length sets up to can cross whole device.

The distance between the first rotating roller, the second rotating roller and the third rotating roller is 0.1-0.2 mm. Compared with the prior art, the beneficial effects of the utility model are that:

1. the device adopts the effective combination of the first conveyor belt, the first compression roller and the feeding plate on the feeding process, so that the loose cotton which is not subjected to cotton carding is subjected to first-step integration by a plurality of groups of the first compression rollers on the upper part of the loose cotton when the loose cotton is conveyed by the first conveyor belt, the loose cotton can be parallelized, and then the loose cotton which is preliminarily integrated is fed into the feeding roller through the feeding plate, so that the later-stage work of the device can be smooth;

2. the soft brush is arranged on the working roller in the cotton carding structure, so that the working roller rotates, the soft brush can align the transfer roller and the surface of the cylinder to be brushed smoothly, the soft brush cannot influence the working effect of the cylinder because the pointing direction of the soft brush is opposite to the rotating direction of the working roller, and on the contrary, cotton wool carried by the rotation of the transfer roller can be brushed back to the cylinder by the soft brush, and meanwhile, the cotton wool on the cylinder is brushed smoothly, so that the treatment effect of the cylinder on the cotton wool is enhanced, and the intensity of cleaning in the later period can be reduced because the cotton wool carried by the transfer roller is reduced;

3. this device has adopted on the ejection of compact by the ejection of compact subassembly of a live-rollers, No. two live-rollers, No. three live-rollers constitution for after the doffer ejection of compact, not directly rotate to the book cotton bucket on, but carry out integration once more through a live-rollers, No. two live-rollers, No. three live-rollers, make the hardness that increases ejection of compact silver, reduced the distance between doffer and the book cotton bucket simultaneously, consequently can significantly reduce the noil shortcoming after the ejection of compact.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a work roll of the present invention;

FIG. 3 is a schematic view of a first conveyor belt according to the present invention;

FIG. 4 is a schematic diagram of the detail A0 in FIG. 1;

fig. 5 is a schematic diagram of a detail structure a1 in fig. 1.

In the figure: 1 licker-in, 2 tin forest, 3 doffers, 4 ejection of compact subassemblies, 5 pay-off rollers, 6 feed table, No. 7 conveyer belt, 8 joint poles, No. 9 compression rollers, 10 shift roller, 11 work rolls, 12 soft brushes, 13 stripper plates, 14 ejection of compact dish, 15 chassis, No. 16 compression roller, No. 17 live-rollers, No. 18 live-rollers, No. 19 live-rollers, 20 rolls of cotton bucket, 21 feeding hoppers, 22 drainage plates, 23 collection tray.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Example one

Referring to fig. 1-5, the present invention provides a technical solution: a fine carding machine capable of reducing cotton dropping comprises a licker-in 1, a cylinder 2, a doffer 3 and a discharging component 4, wherein two groups of feeding rollers 5 are arranged close to the licker-in 1, a feeding tray 6 is arranged between the two groups of feeding rollers 5, the other end of the feeding tray 6 is provided with a first conveyor belt 7, a plurality of groups of clamping rods 8 are fixedly connected with the two sides of the first conveyor belt 7 in a uniform and symmetrical mode, each group of clamping rods 8 is provided with a clamping hole, a compression roller 9 is connected between each two corresponding groups of clamping rods 8 in a clamping mode through the clamping hole, the cylinder 2 is arranged on the other side, opposite to the feeding rollers 5, of the licker-in 1, a plurality of groups of transfer rollers 10 and working rollers 11 are arranged around the cylinder 2, each group of working rollers 11 are close to one group of transfer, the soft brush 12 and the working roller 11 are arranged in an angle, the pointing direction of the soft brush 12 is opposite to the rotating direction of the working roller 11, the other side of the cylinder 2 opposite to the licker-in 1 is provided with a doffer 3, a stripping plate 13 is arranged close to the doffer 3, a discharge disc 14 is arranged between the stripping plate 13 and a gap formed by the doffer, a second conveyor belt is arranged inside the discharge disc 14, the other end of the discharge disc 14 is provided with a discharge assembly 4, the discharge assembly 4 comprises a rotating roller, a chassis 15 and a second press roller 16, the rotating roller is provided with a first rotating roller 17, a second rotating roller 18 and a third rotating roller 19, the first rotating roller 17 is close to the discharge disc 14, the second rotating roller 18 is arranged close to the first rotating roller 17, and the installation position of the second rotating roller 18 is lower than that of the first rotating roller 17, a third rotating roller 19 is arranged close to a second rotating roller 18, the third rotating roller 19 is symmetrical to a first rotating roller 17 relative to the second rotating roller 18, a chassis 15 is arranged at the lower portion of the second rotating roller 18, the chassis 15 is of a downward cambered surface structure, the second rotating roller 18 is located in a cambered surface, one end of the chassis 15 is close to the first rotating roller 17, the other end of the chassis 15 is close to the third rotating roller 19, the first rotating roller 17 and the third rotating roller 19 rotate in the same direction, the first rotating roller 17 and the second rotating roller 18 rotate in opposite directions, a second pressing roller 16 is arranged close to the first rotating roller 17 and the third rotating roller 19, a cotton rolling barrel 20 is arranged close to the third rotating roller 19, and the rotating direction of the cotton rolling barrel 20 is opposite to that of the third rotating roller 19.

The first rotating roller 17 is characterized in that the rotating direction of the doffer 3 is opposite, the rotating direction of the doffer 3 is the same as that of the licker-in 1, the rotating direction of the doffer 3 is opposite to that of the cylinder 2, the device can finish correct conveying of work in the direction setting, and cotton carding operation of scattered cotton by the cylinder 2 is guaranteed;

the feeding disc 6 is obliquely arranged relative to the feeding roller 5, loose cotton is fed into the feeding roller 5 under the action of gravity, a plurality of groups of clamping holes are longitudinally and uniformly formed in the clamping rod 8, the distance between the first pressing roller 9 and the first conveying belt 7 can be adjusted through different clamping holes, different working requirements are met, and the feeding hopper 21 is arranged on the first conveying belt 7, so that feeding operation of the loose cotton is facilitated;

the width of the first conveyor belt 7 is the same as that of the feeding tray 6 and is greater than that of the feeding roller 5, and the width of the second conveyor belt is greater than that of the doffer 3, so that loose cotton is completely conveyed into the feeding roller 5 to operate in the working process of the device, and the loose cotton is completely conveyed out by the second conveyor belt after being subjected to cotton carding, and the smoothness of cotton feeding and discharging is ensured;

the surfaces of the first rotating roller 17, the second rotating roller 18 and the third rotating roller 19 are all provided with rough surfaces, the rough surfaces are convenient for hooking a sliver which is just sent out so as to be convenient for conveying, a drainage plate 22 is arranged at one end, located at the first rotating roller 17, of the chassis 15, the drainage plate 22 is located on the inner side of the chassis 15 and forms a certain angle with the chassis 15, and the drainage plate 22 can drain the sent sliver so as to drain the sliver onto the second rotating roller 18, so that the situation that the sliver cannot be sent out due to the fact that the first rotating roller 17 is independently wound on the sliver is avoided, and the smooth operation is affected;

the length of the soft brush 12 is set to be that when the working roller 11 rotates, the soft brush can brush the surfaces of the transfer roller 10 and the cylinder 2, and the soft brush 12 can remove loose cotton carried on the transfer roller 10 and ensure the leveling of cotton sliver on the surface of the cylinder 2;

the surface of the working roll 11 is embedded with a plurality of groups of placing grooves, the bottom of the soft brush 12 is provided with an installation block, the installation block is embedded in the placing grooves, and a non-fixed installation method enables the soft brush 12 to be taken out, so that the soft brush is convenient to replace and clean;

the licker-in 1, the doffer 3 and the cylinder 2 are all arranged on a base, a collecting tray 23 is arranged on the lower portion of the base, the length of the collecting tray 23 is set to be capable of traversing the whole device, and a small amount of dropped cotton wool can be collected by the collecting tray 23 group, so that the cotton wool is prevented from falling to the ground and is inconvenient to clean and recycle;

the distance between the first rotating roller 17, the second rotating roller 18 and the third rotating roller 19 is 0.1-0.2mm, so that the downward pressing degree of the sent cotton sliver is ensured, and the hardness of the sent cotton sliver is increased.

Example two

Referring to fig. 1-5, the beneficial effects of the present invention are: the device adopts the effective combination of the first doffer 3 conveyor belt 7, the first compression roller 9 and the feeding plate 6 on the feeding, so that the loose cotton which is not carded is subjected to first-step integration by a plurality of groups of the first compression rollers 9 on the upper part of the loose cotton when the loose cotton is conveyed by the first conveyor belt 7, the loose cotton can be parallelized, and then the loose cotton which is preliminarily integrated is fed into the feeding roller 5 of the doffer 3 through the feeding plate 6, so that the later-stage work of the device can be smooth; the soft brush 12 is arranged on the working roller 11 in the cotton carding structure, so that the soft brush 12 can level the surfaces of the transfer roller 10 and the cylinder 2 when the doffer 3 working roller 11 rotates, and the soft brush 12 can not influence the working effect of the cylinder 2 because the pointing direction of the doffer 3 soft brush 12 is opposite to the rotating direction of the doffer 3 working roller 11, otherwise, the doffer 3 soft brush 12 can brush cotton wool rotationally carried by the transfer roller 10 back to the cylinder 2 and level the cotton wool on the cylinder 2, so that the treatment effect of the cylinder 2 on the cotton wool is enhanced, and the carrying of the cotton wool on the transfer roller 10 is reduced, so that the later cleaning strength can be reduced; the discharging assembly 4 consisting of the first rotating roller 17, the second rotating roller 18 and the third rotating roller 19 of the doffer 3 is adopted for discharging, so that after the doffer 3 discharges materials, the materials are not directly rotated to the cotton rolling barrel 20, but are integrated again through the first rotating roller 17, the second rotating roller 18 and the third rotating roller 19, the hardness of discharged cotton slivers is increased, and meanwhile, the distance between the doffer 3 and the cotton rolling barrel 20 is reduced, so that the defect of cotton dropping after discharging can be greatly reduced.

EXAMPLE III

Referring to fig. 1-5, the working principle of the present invention is: when the cotton picking machine is used, a worker feeds loose cotton from the feeding hopper 21, then the loose cotton is conveyed by the first conveying belt 7, the first pressing roller 9 can press the loose cotton downwards in the conveying process to enable the surface of the loose cotton to be a flat surface, the first conveying belt 7 conveys the loose cotton onto the feeding tray 6, and the feeding tray 6 can feed the loose cotton into the opening of the feeding roller 5 and roll the loose cotton into the feeding roller 5;

after the loose cotton is rolled by the feeding roller 5, the loose cotton is conveyed by the licker-in 1, the loose cotton rolled on the licker-in 1 is conveyed to the cylinder 2, the surface of the cylinder 2 is used for carding cotton, the working roller 11 and the transfer roller 10 can also rotate when the cylinder 2 rotates, a part of cotton wool can be carried when the transfer roller 10 rotates, at the moment, the soft brush 12 arranged at the upper part of the working roller 11 can carry the cotton wool carried by the transfer roller 10 to be brushed on the cylinder 2 again, when the cylinder 2 rotates, the working roller 11 can drive the soft brush 12 to rotate to carry out smooth and neat brushing on the surface of the cylinder 2, and after the carding operation of the cylinder 2, the formed cotton sliver can be rolled on the surface of the doffer 3;

when the doffer 3 rotates, the stripping plate 13 strips the cotton sliver on the surface of the doffer 3, the stripped cotton sliver falls into the discharge disc 14 and is conveyed to the first rotating roller 17 by the second conveyor belt, the first rotating roller 17 rotates to convey the cotton sliver to the second rotating roller 18 by the chassis 15, the second rotating roller 18 brings the cotton sliver into the third rotating roller 19, the first rotating roller 17 and the third rotating roller 19 drive the cotton sliver, meanwhile, the second pressing roller 16 on the upper portion of the first rotating roller 17 further presses the cotton sliver downwards to increase the hardness of the output cotton sliver, and the third rotating roller 19 conveys the cotton sliver to the cotton rolling barrel 20 and collects the cotton sliver by the cotton rolling barrel 20 for subsequent use.

Example four

Referring to fig. 1-5, the difference from the first embodiment is that no feeding tray 6 is disposed at one end of the first conveyor belt 7, the other end of the first conveyor belt 7 opposite to the feeding hopper 21 is close to the feeding compass, and the soft brush 12 on the upper portion of the working roll 11 is disposed on the upper portion of the transfer roll 10 and has the same structure as the arrangement on the working roll 11.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a cotton fine carding machine of reducible cotton that falls which characterized in that: the automatic feeding device comprises a licker-in, a cylinder, a doffer and a discharging assembly, wherein two groups of feeding rollers are arranged close to the licker-in, a feeding disc is arranged between the two groups of feeding rollers, a conveying belt is arranged at the other end of the feeding disc, a plurality of groups of clamping rods are fixedly connected with the two sides of the conveying belt in uniform symmetry, each group of clamping rods are provided with clamping holes, a compression roller is connected between each two corresponding groups of clamping rods through the clamping holes in a clamping manner, the licker-in is provided with the cylinder relative to the other side of the feeding rollers, a plurality of groups of transfer rollers and working rollers are arranged around the cylinder, each group of working rollers are close to one group of the transfer rollers, a plurality of groups of soft brushes are uniformly arranged on the working rollers, the soft brushes and the working rollers are arranged in an angle, the direction of the soft brushes is opposite to the rotating direction of the working rollers, and the cylinder is, a stripping plate is arranged near the doffer, a discharge disc is arranged between the stripping plate and a gap formed by the doffer, a second conveying belt is arranged in the discharge disc, a discharge assembly is arranged at the other end of the discharge disc, the discharge assembly comprises a rotating roller, a chassis and a second pressing roller, the rotating roller is provided with a first rotating roller, a second rotating roller and a third rotating roller, the first rotating roller is close to the discharge disc, the second rotating roller is arranged near the first rotating roller, the mounting position of the second rotating roller is lower than that of the first rotating roller, the third rotating roller is arranged near the second rotating roller, the third rotating roller is symmetrical to the first rotating roller relative to the second rotating roller, the lower part of the second rotating roller is provided with the chassis which is arranged in a downward cambered surface structure, and the second rotating roller is arranged in a cambered surface, the chassis one end is close to a live-rollers, and the other end is close to No. three live-rollers, a live-rollers with No. three live-rollers's rotation direction is the same, a live-rollers with No. two live-rollers rotation opposite direction is close to a live-rollers, No. three live-rollers all are provided with No. two compression rollers, are close to No. three live-rollers are provided with a roll cotton bucket, roll cotton bucket direction of rotation with No. three live-rollers are opposite.

2. The fine card of claim 1, wherein the fine card is capable of reducing cotton dropping: the first rotating roller and the doffer rotate in opposite directions, the doffer and the licker-in rotate in the same direction, and the doffer and the cylinder rotate in opposite directions.

3. The fine card of claim 1, wherein the fine card is capable of reducing cotton dropping: the feeding disc is obliquely arranged relative to the feeding roller, a plurality of groups of clamping holes are uniformly and longitudinally arranged on the clamping rod, and a feeding hopper is arranged on the first conveying belt.

4. The fine card of claim 1, wherein the fine card is capable of reducing cotton dropping: the width of the first conveyor belt is the same as that of the feeding disc and is larger than the length of the feeding roller, and the width of the second conveyor belt is larger than that of the doffer.

5. The fine card of claim 1, wherein the fine card is capable of reducing cotton dropping: the surface of the first rotating roller, the surface of the second rotating roller and the surface of the third rotating roller are rough surfaces, the base plate is located at one end of the first rotating roller, a drainage plate is arranged at the inner side of the base plate, and a certain angle is formed between the drainage plate and the base plate.

6. The fine card of claim 1, wherein the fine card is capable of reducing cotton dropping: the length of the soft brush is set to be that when the working roller rotates, the soft brush can brush the surfaces of the transfer roller and the cylinder.

7. The fine card of claim 1, wherein the fine card is capable of reducing cotton dropping: the surface of the working roll is embedded with a plurality of groups of placing grooves, the bottom of the soft brush is provided with an installation block, and the installation block is embedded in the placing grooves.

8. The fine card capable of reducing cotton dropping according to claim 7, wherein: when the mounting block is embedded in the placing groove, the surface of the mounting block is flush with the surface of the placing groove, and the mounting block is provided with an external structure according to the profile of the placing groove.

9. The fine card of claim 1, wherein the fine card is capable of reducing cotton dropping: the licker-in, doffer, cylinder all install on the base, the base lower part is provided with the collecting tray, collecting tray length sets up to can cross whole device.

10. The fine card of claim 1, wherein the fine card is capable of reducing cotton dropping: the distance between the first rotating roller, the second rotating roller and the third rotating roller is 0.1-0.2 mm.

Images