CN114687014A

CN114687014A - Waste textile regenerated fiber carding machine and production method

Info

Publication number: CN114687014A
Application number: CN202210415237.0A
Authority: CN
Inventors: 王丽霞; 倪敬达; 詹华春; 李忠涛
Original assignee: Qingdao Hongda Textile Machinery Co Ltd
Current assignee: Qingdao Hongda Textile Machinery Co Ltd
Priority date: 2022-04-20
Filing date: 2022-04-20
Publication date: 2022-07-01

Abstract

The invention provides a waste textile regenerated fiber carding machine and a production method thereof, comprising a frame, a feeding roller, a licker-in, a working roller, a stripping roller, a transfer roller, a main cylinder and a doffer, and the waste textile regenerated fiber carding machine is characterized in that: the feeding rollers are two pairs of feeding rollers arranged on one side of the licker-in, the transfer roller, the main cylinder and the doffer are sequentially arranged on the other side of the licker-in, the diameter of the doffer is 200-400mm, and the rotating speed is 200-800 r/m. The upper part of the main cylinder is provided with a working roller and a stripping roller. The transfer roller, the main cylinder and the doffer are driven to rotate by adopting a variable frequency motor, and the variable frequency control is carried out through a control system. The production method is to strip the fiber from the main cylinder by the doffer rotating at high speed and output the bulk fiber. And the opened waste textiles are subjected to flexible carding, so that the damage to fibers is reduced, the length of regenerated fibers is increased, and the requirement of normal spinning is met. The structure is reasonable in design, and the yield and the efficiency of the regenerated fiber carding machine can be improved.

Description

Waste textile regenerated fiber carding machine and production method

Technical Field

The invention belongs to the technical field of textile machinery manufacturing, relates to a carding machine and improvement of a production process thereof, and particularly relates to a waste textile regenerated fiber carding machine and a production method thereof.

Background

In the current domestic market regenerated fiber processing system, the opening of waste textiles is usually completed by the combination of openers, so as to obtain regenerated fibers. In the system process, in order to completely open the cloth or yarn into a fiber state, the number of openers is increased and the opening speed is increased, so that the fibers are subjected to excessive beating, and the length of the processed regenerated fibers is below 13 mm. The regenerated fiber with the length can not meet the normal spinning requirement, and can only produce products with low added value, such as felt, soundproof cotton, low count rotor spinning and the like, thereby influencing the economic benefit of processing and producing enterprises.

How to design a waste textile regenerated fiber carding machine and production method, can carry out the flexibility carding to the waste textile after opening, reduce the damage to the fibre, can improve regenerated fiber's length, satisfy normal spinning demand to promote regenerated fiber carding machine output and efficiency, this is the technological problem that this field is waited to solve urgently.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a waste textile regenerated fiber carding machine and a regenerated fiber production method, which can flexibly comb the opened waste textiles, reduce the damage to fibers, improve the length of regenerated fibers, meet the normal spinning requirement and improve the yield and the efficiency of the regenerated fiber carding machine.

The purpose of the invention is realized by the following technical scheme:

a carding machine for regenerated fibers of waste textiles comprises a rack, feeding rollers, licker-in rollers, working rollers, stripping rollers, a main cylinder, a doffer and a control system, and is characterized in that the feeding rollers are two pairs of feeding rollers and are arranged on one side of the licker-in rollers side by side, the main cylinder and the doffer are sequentially arranged on the other side of the licker-in rollers, the diameter of the doffer is 200-400mm, the rotating speed is 200-800r/m, and the working rollers and the stripping rollers are arranged on the upper portion of the main cylinder; the main cylinder and the doffer are respectively driven to rotate by a rotation driving mechanism, and each rotation driving mechanism is driven by a variable frequency motor and is subjected to variable frequency control through the control system.

The improvement of the technical scheme is as follows: the improved chest cylinder and the improved chest cylinder are characterized in that a chest cylinder and a transfer roller are additionally arranged between the licker-in and the main cylinder, the chest cylinder and the main cylinder are respectively arranged on two sides of the transfer roller, a working roller and a stripping roller are arranged on the upper portion close to the chest cylinder, the chest cylinder and the transfer roller are driven by variable frequency motors, and variable frequency control is carried out through the control system.

The technical scheme is further improved as follows: set up the safety guard in the frame, the safety guard will be fed roller, licker-in, chest cylinder, working roll, the roller of denudating, shift roller, main cylinder and doffer cover wherein, the safety guard inboard is located the top of chest cylinder and main cylinder all sets up the electronic lock, the safety guard inboard is located feeding roller top sets up prevents pricking the sensor, the electronic lock with prevent pricking the sensor all with control system connects.

The technical scheme is further improved as follows: the feeding roller, the licker-in, the chest cylinder, the working roller, the stripping roller, the transfer roller, the main cylinder and the doffer are all arranged on the rack, and the bottom of the rack is provided with a base.

The technical scheme is further improved as follows: the lower parts of the chest cylinder and the main cylinder are respectively provided with a row of impurity-removing funnels, and the lower end outlets of the impurity-removing funnels are connected with an impurity-removing pipeline. For removing impurities by dust filtration and balancing the gas flow.

The technical scheme is further improved as follows: and walking platforms and guardrails are arranged on two sides of the rack.

The invention relates to a production method of a waste textile regenerated fiber carding machine, which comprises a regenerated fiber carding machine and is characterized in that the regenerated fiber carding machine is the regenerated fiber carding machine, and the production method comprises the following steps:

step 1: transferring the waste textile raw materials to a main cylinder through a feeding roller and a licker-in;

and 2, step: a carding unit is formed between the main cylinder and the working roller and between the main cylinder and the stripping roller, and after carding action between the working roller and the main cylinder, the opened fiber and untwisted yarn are gradually carded into single fiber;

and step 3: stripping the fibers from the main cylinder by a doffer, and outputting the bulk fibers;

and 4, step 4: and finally, conveying the bulk fibers to a packaging machine for packaging.

The improvement of the technical scheme is as follows: in the step 1, the waste textile raw materials are transferred to a chest cylinder through a feeding roller and a licker-in roller, a carding unit is formed between the chest cylinder and a working roller and between the chest cylinder and a stripping roller, and the waste textile raw materials are transferred to a main cylinder through a transfer roller for carding after carding between the working roller and the chest cylinder.

The technical scheme is further improved: the chest cylinder, the main cylinder, the transfer roller and the doffer are respectively driven to rotate by a rotation driving mechanism of the chest cylinder, the main cylinder, the transfer roller and the doffer, all the rotation driving mechanisms are driven by a variable frequency motor, and the rotating speeds of the chest cylinder, the main cylinder, the transfer roller and the doffer are subjected to variable frequency control through the control system; the chest cylinder and the main cylinder are both coated with the special card clothing for processing the regenerated fibers, and the specifications of the special card clothing for processing the regenerated fibers are as follows: the needle height is 2.8-3.5mm, the angle is 5-25 degrees, the tooth pitch is 1.5-2.5mm, and the thickness of the base part of the card clothing is 0.6-1 mm.

The invention has the advantages and positive effects that:

1. the waste textile regenerated fiber carding machine can adopt a single-cylinder roller type carding machine or a double-cylinder roller type double-cylinder carding machine according to the variety requirement. The waste textile carding machine is reasonable in structural design, the waste textile after opening and mixing is subjected to flexible carding through the carding action of the working roller and the double-cylinder or single-cylinder, the damage to fibers is reduced, the waste textile is carded into a relatively ideal single fiber state, the length of regenerated fibers can reach more than 17mm, and the normal requirement of ring spinning is met;

2. different from the low-speed large-diameter doffer output cotton net of a wool spinning and non-woven carding machine, the doffer diameter in the invention is 400mm, the rotating speed is 800r/m, the loose fibers can be directly output, the doffer rotating speed is high, the fiber transfer rate can reach more than 80 percent, and the yield and the efficiency of the regenerated fiber carding machine are improved.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment 1 of a waste textile regenerated fiber carding machine according to the invention;

FIG. 2 is a perspective view of an embodiment 1 of a waste textile regenerated fiber carding machine according to the invention;

FIG. 3 is a schematic diagram showing the internal structure of embodiment 1 of the waste textile regenerated fiber carding machine of the invention;

FIG. 4 is a schematic view showing the matching state of a main cylinder and a doffer in embodiment 1 of the waste textile regenerated fiber carding machine of the invention;

FIG. 5 is a schematic view of a waste textile regenerated fiber carding machine in which a main cylinder is provided with 4 groups of working rollers and stripping rollers in embodiment 1 of the invention;

FIG. 6 is a schematic structural diagram of embodiment 2 of the waste textile regenerated fiber carding machine.

In the figure: 1-feeding roller, 2-frame, 3-licker-in, 4-chest cylinder, 5-working roller, 6-stripping roller, 7-transfer roller, 8-main cylinder pressing plate, 9-doffer, 10-base, 11-safety cover, 12-walking board, 13-guard bar, 14-electronic lock, 15-anti-prick sensor and 16-impurity-absorbing pipeline.

Detailed Description

Referring to fig. 1-5, an embodiment 1 of the waste textile regenerated fiber carding machine of the invention comprises a frame 2, a feeding roller 1, a licker-in 3, a breast cylinder 4, a working roller 5, a stripping roller 6, a transfer roller 7, a main cylinder 8 doffer 9 and a control system, wherein the feeding roller 1 adopts two pairs of feeding rollers and is arranged on one side of the licker-in 3 side by side, the breast cylinder 4, the transfer roller 7, the main cylinder 8 and the doffer 9 are arranged on the other side of the licker-in 3 in sequence, the diameter of the doffer 9 is 200-400mm, and the rotating speed is 200-800r/m (revolutions/minute). The work rolls 5 and the stripping rolls 6 are disposed above the breast cylinder 4 and the main cylinder 8. The chest cylinder 4, the transfer roller 7, the main cylinder 8 and the doffer 9 are respectively driven to rotate by a rotation driving mechanism thereof, and each rotation driving mechanism is driven by a variable frequency motor and is subjected to variable frequency control through the control system.

Furthermore, a safety cover 11 is arranged on the frame 2, and the feeding roller 1, the licker-in roller 3, the chest cylinder 4, the working roller 5, the stripping roller 6, the transfer roller 7, the main cylinder 8 and the doffer 9 are covered in the safety cover 11 for isolating the transmission device and playing a role of protection.

Furthermore, in order to ensure the safety of the production process of the regenerated fiber carding machine, as shown in fig. 3, electronic locks 14 are arranged on the inner side of the safety cover 11 above the chest cylinder 4 and the main cylinder 8, and an anti-prick sensor 15 is arranged on the inner side of the safety cover 11 above the feeding roller 1.

Still further, the feeding roller 1, the licker-in 3, the chest cylinder 4, the working roller 5, the stripping roller 6, the transfer roller 7, the main cylinder 8 and the doffer 9 are all arranged on the frame 1, and a base 10 is arranged at the bottom of the frame 1 for supporting to form an installation space, so that an impurity suction pipeline 16 can be conveniently installed, and flock, impurities and balanced air flow can be collected.

Furthermore, a row of impurity discharging funnels are respectively arranged below the chest cylinder 4 and the main cylinder 8, and the lower end outlets of the two impurity discharging funnels are connected with an impurity absorbing pipeline 16. For removing impurities and balancing the gas flow by dust filtration.

Further, the walking board 12 and the guard rail 13 are provided on both sides of the frame 2 for easy operation and maintenance.

In specific implementation, the working rollers 5 and the stripping rollers 6 arranged on the chest cylinder 4 and the main cylinder 8 are respectively 4-10 groups; in the embodiment shown in fig. 5, the work rolls 5 and the stripping rolls 6 of the main cylinder 8 are arranged in 4 sets.

Referring to fig. 6, an embodiment 2 of the waste textile recycled fiber carding machine of the present invention is different from the embodiment 1 in the following points: the transfer roll 7, the breast cylinder 4, and the work roll 5 and the stripping roll 6 disposed on the upper portion of the breast cylinder 4 are eliminated, and the rotary drive mechanism is not disposed for the transfer roll 7 and the breast cylinder 4. Other structures of embodiment 2 of the present invention are substantially the same as those of embodiment 1, and thus are not described again.

Embodiment 1 of a production method of a recycled fiber carding machine of the present invention includes a recycled fiber carding machine, which is the recycled fiber carding machine of embodiment 1 above, and the production method includes the steps of:

step 1: the raw materials are transferred to a chest cylinder 4 through a feeding roller 1 and a licker-in 3;

and 2, step: a carding unit is formed among the breast cylinder 4, the working roller 5 and the stripping roller 6, and after carding action between the working roller 5 and the breast cylinder 4, the breast cylinder is transferred to the main cylinder 8 through the transfer roller 7 for carding;

and step 3: a carding unit is formed between the main cylinder 8 and the working roller 5 and between the main cylinder 8 and the stripping roller 6, and after carding action between the working roller 5 and the main cylinder 8, the opened fibers and untwisted yarns are gradually carded into single fibers with the length of more than 17 mm;

and 4, step 4: stripping the fibers from the main cylinder 8 by the doffer 9, and outputting the bulk fibers;

and 5: and finally, conveying the bulk fibers to a packing machine for packing.

The improvement of the technical scheme is as follows: in the step 1, the waste textile raw materials are firstly transferred to a chest cylinder 4 through a feeding roller 1 and a licker-in 3, a carding unit is formed among the chest cylinder 4, a working roller 5 and a stripping roller 6, and after carding action between the working roller 5 and the chest cylinder 4, the waste textile raw materials are transferred to a main cylinder 8 through a transfer roller 7 for carding.

In embodiment 1 of the production method of the waste textile regenerated fiber carding machine, the breast cylinder 4, the main cylinder 8, the transfer roller 7 and the doffer 9 are respectively driven to rotate by the rotation driving mechanisms thereof, each rotation driving mechanism is driven by a variable frequency motor, and the rotation speeds of the breast cylinder 4, the main cylinder 8, the transfer roller 7 and the doffer 9 are subjected to variable frequency control through the control system. The chest cylinder 4 and the main cylinder 8 are both coated with regenerated fiber processing special card clothing, and preferably, the specifications of the regenerated fiber processing special card clothing are as follows: the needle height is 2.8-3.5mm, the angle is 5-25 degrees, the tooth pitch is 1.5-2.5mm, and the thickness of the base part of the card clothing is 0.6-1 mm. Compared with the common card clothing, the card clothing special for processing the regenerated fibers adopted by the chest cylinder 4 and the main cylinder 8 is more suitable for carding and processing the opened waste textiles, and can process high-quality regenerated fibers with the length of more than 17 mm.

Embodiment 2 of the production method of the waste textile regenerated fiber carding machine of the invention comprises a regenerated fiber carding machine, wherein the regenerated fiber carding machine is the regenerated fiber carding machine of embodiment 2, and the production method comprises the following steps:

step 1: transferring the waste textile raw materials to a main cylinder 8 through a feeding roller 1 and a licker-in 3;

step 2: a carding unit is formed between the main cylinder 8 and the working roller 5 and between the main cylinder 8 and the stripping roller 6, and after carding action between the working roller 5 and the main cylinder 8, the opened fibers and untwisted yarns are gradually carded into single fibers with the length of more than 17 mm;

and step 3: stripping the fiber from the main cylinder 8 by the doffer 9, and outputting the bulk fiber raw material;

The length of the regenerated fiber processed by the production method of the regenerated fiber carding machine in the embodiment 1 and the embodiment 2 reaches more than 17mm, the normal requirement of ring spinning can be met, and finally the packed bulk fiber can be sent to a spinning mill to be used as a raw material for ring spinning.

The waste textile raw materials mainly comprise leftovers such as cloth ends, cloth edges, broken filaments and the like in the processing and production processes of waste clothes, home textiles, spinning, weaving and clothes.

It is understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art should also make various changes, modifications, additions or substitutions within the spirit and scope of the present invention.

Claims

1. A waste textile regenerated fiber carding machine comprises a rack, feeding rollers, licker-in rollers, working rollers, stripping rollers, a main cylinder, doffers and a control system, and is characterized in that the feeding rollers are two pairs of feeding rollers and are arranged on one side of the licker-in rollers side by side, the main cylinder and the doffers are sequentially arranged on the other side of the licker-in rollers, the diameter of each doffer is 200-400mm, the rotating speed is 200-800r/m, and the working rollers and the stripping rollers are arranged close to the upper part of the main cylinder; the main cylinder and the doffer are respectively driven to rotate by a rotation driving mechanism, and each rotation driving mechanism is driven by a variable frequency motor and is subjected to variable frequency control through the control system.

2. The waste textile regenerated fiber carding machine according to claim 1, wherein a chest cylinder and a transfer roller are additionally arranged between the licker-in and the main cylinder, the chest cylinder and the main cylinder are respectively arranged at two sides of the transfer roller, a working roller and a stripping roller are arranged at the upper part of the chest cylinder, the rotation of the chest cylinder and the rotation of the transfer roller are driven by variable frequency motors, and the variable frequency control is carried out through the control system.

3. The waste textile regenerated fiber carding machine according to claim 2, wherein a safety cover is arranged on the machine frame, the safety cover covers a feeding roller, a licker-in roller, a chest cylinder, a working roller, a stripping roller, a transfer roller, a main cylinder and a doffer, electronic locks are arranged on the inner side of the safety cover above the chest cylinder and the main cylinder, an anti-prick sensor is arranged on the inner side of the safety cover above the feeding roller, and the electronic locks and the anti-prick sensor are connected with the control system.

4. The waste textile regenerated fiber carding machine according to claim 2 or 3, wherein the feeding roller, the licker-in roller, the chest cylinder, the working roller, the stripping roller, the transfer roller, the main cylinder and the doffer are all arranged on the frame, and the bottom of the frame is provided with a base.

5. The waste textile regenerated fiber carding machine as claimed in claim 4, wherein a row of impurity funnels is arranged below the chest cylinder and the main cylinder respectively, and the lower end outlets of the two impurity funnels are connected with an impurity suction pipeline.

6. Carding machine for waste textile regenerated fibres, according to claim 1 or 2, characterised in that on both sides of the frame there are arranged walkways and guardrails.

7. The waste textile recycled fiber carding machine of claim 5, wherein a walking board and a guardrail are arranged on two sides of the frame.

8. A production method of a waste textile regenerated fiber carding machine, which comprises a regenerated fiber carding machine, and is characterized in that the regenerated fiber carding machine is the regenerated fiber carding machine of any one of claims 1 to 7, and the production method comprises the following steps:

step 2: a carding unit is formed between the main cylinder and the working roller and between the main cylinder and the stripping roller, and after carding action between the working roller and the main cylinder, opened fibers and untwisted yarns are gradually carded into single fibers;

and step 3: stripping the fibers from a main cylinder by a doffer, and outputting the bulk fibers, wherein the rotating speed of the doffer is 200-800 r/m;

and 4, step 4: and finally, conveying the bulk fibers to a packing machine for packing.

9. The production method of the waste textile regenerated fiber carding machine according to claim 8, characterized in that in the step 1, the waste textile raw materials are firstly transferred to the chest cylinder through a feeding roller and a licker-in roller, a carding unit is formed between the chest cylinder and a working roller and a stripping roller, and after carding action between the working roller and the chest cylinder, the waste textile raw materials are transferred to the main cylinder through a transfer roller for carding.

10. The production method of the waste textile regenerated fiber carding machine according to claim 8 or 9, characterized in that the chest cylinder, the main cylinder, the transfer roller and the doffer are respectively driven to rotate by a rotation driving mechanism thereof, each rotation driving mechanism is driven by a variable frequency motor, and the control system is used for carrying out variable frequency control on the rotation speed of the chest cylinder, the main cylinder, the transfer roller and the doffer; the chest cylinder and the main cylinder are both coated with the special card clothing for processing the regenerated fibers, and the specifications of the special card clothing for processing the regenerated fibers are as follows: the needle height is 2.8-3.5mm, the angle is 5-25 degrees, the tooth pitch is 1.5-2.5mm, and the thickness of the base part of the card clothing is 0.6-1 mm.