CN108301079B - Fine-winding bobbin yarn conveying device and conveying method - Google Patents
Fine-winding bobbin yarn conveying device and conveying method Download PDFInfo
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- CN108301079B CN108301079B CN201810186788.8A CN201810186788A CN108301079B CN 108301079 B CN108301079 B CN 108301079B CN 201810186788 A CN201810186788 A CN 201810186788A CN 108301079 B CN108301079 B CN 108301079B
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- cop
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- D—TEXTILES; PAPER
- D01—NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
- D01H—SPINNING OR TWISTING
- D01H9/00—Arrangements for replacing or removing bobbins, cores, receptacles, or completed packages at paying-out or take-up stations ; Combination of spinning-winding machine
- D01H9/02—Arrangements for replacing or removing bobbins, cores, receptacles, or completed packages at paying-out or take-up stations ; Combination of spinning-winding machine for removing completed take-up packages and replacing by bobbins, cores, or receptacles at take-up stations; Transferring material between adjacent full and empty take-up elements
Abstract
The invention provides a fine-winding cop conveying device and a conveying method, comprising a single spindle and cop processing device of a winding machine, and the fine-winding cop conveying device is characterized in that: the bobbin winder single spindle comprises a single spindle assembly A, a single spindle assembly B and a single spindle control system, and the bobbin yarn processing device comprises a bobbin yarn processing assembly A and a control system thereof, which are connected with the spinning frame A, and a bobbin yarn processing assembly B and a control system thereof, which are connected with the spinning frame B. The cop treatment assembly A is connected with the single spindle assembly A through a cop treatment conveying channel of the cop treatment assembly A, the cop treatment conveying channel in the cop treatment assembly B is connected with the single spindle cop circulation channel B through a cop successful transition channel B, a front section single spindle return channel B is connected with one end of the single spindle return transition channel B, and the other end of the single spindle return transition channel B is connected with the cop treatment conveying channel in the cop treatment assembly B. The bobbin yarn processing device is reasonable in structural design, so that one bobbin winder can correspond to two spinning frames, and equipment cost and operation cost are reduced.
Description
Technical Field
The invention belongs to the technical field of textile equipment manufacturing, relates to improvement of fine winding equipment, and in particular relates to a fine winding cop conveying device and a fine winding cop conveying method.
Background
In the existing fine winding technology, one bobbin winder corresponds to one spinning frame, the corresponding bobbin winder only needs 1200-1680 spindles at present, and the corresponding bobbin winder can meet the normal production requirement only by 20-32 spindles, but for one bobbin winder, the number of single spindles is more economical by 60-72 spindles, and the one bobbin winder usually needs to be provided with a machine head assembly, a doffing trolley, a travelling fan, an electric cleaning control box, an upper computer and the like. These devices would be wasteful if they served fewer single ingots, increasing equipment manufacturing and operating costs.
How to design the thin-winding bobbin yarn conveying device and the conveying method, the structural design is reasonable, one bobbin winder can correspond to two spinning frames, and the equipment cost and the running cost are reduced. This is a technical problem to be solved at present.
Disclosure of Invention
The invention aims to solve the problems and the defects in the prior art, and provides a fine-winding bobbin yarn conveying device and a conveying method, wherein the bobbin yarn processing device is reasonable in structural design, so that one bobbin winder can correspond to two spinning frames, and the equipment cost and the running cost are reduced.
The invention aims at realizing the following technical scheme:
the utility model provides a thin-winding bobbin yarn conveying device, includes cone winder single spindle, bobbin yarn processing apparatus includes bobbin yarn head device and bobbin yarn processing conveying channel, its characterized in that, cone winder single spindle includes single spindle subassembly A, single spindle subassembly B and the single spindle control system who is connected with single spindle subassembly A, single spindle subassembly B respectively, single spindle subassembly A includes single spindle bobbin yarn circulation channel A and the anterior segment single spindle return channel A who is connected with it, single spindle subassembly B includes single spindle bobbin yarn circulation channel B and the anterior segment single spindle return channel B who is connected with it; the cop processing device comprises a cop processing component A connected with a spinning machine A, a cop processing component A control system, a cop processing component B connected with a spinning machine B and a cop processing component B control system, wherein the cop processing component A is respectively connected with a single spindle cop circulating channel A and a front section single spindle return channel A through a cop processing conveying channel, the cop processing conveying channel in the cop processing component B is connected with the single spindle cop circulating channel B through a head-generating successful transition channel B, the front section single spindle return channel B is connected with one end of the single spindle return transition channel B, and the other end of the single spindle return transition channel B is connected with the cop processing conveying channel in the cop processing component B.
The improvement of the technical scheme is as follows: the cop processing component A comprises a cop input channel A, a cop head-producing device A, a head-producing success channel A, a head-producing unsuccessful channel A, a single spindle return channel A and an empty pipe return channel A, and the cop processing component B comprises a cop input channel B, a cop head-producing device B, a head-producing success channel B, a head-producing unsuccessful channel B, a single spindle return channel B and an empty pipe return channel B; the yarn threading success channel B is connected with one end of the yarn threading success transition channel B, the other end of the yarn threading success transition channel B is connected with the single spindle cop circulation channel B, the front section single spindle return channel B is connected with one end of the single spindle return transition channel B, the other end of the single spindle return transition channel B is connected with one end of the single spindle return channel B, and the other end of the single spindle return channel B is connected with the empty pipe return channel B in parallel and then connected with the spinning frame B; the yarn threading success channel A is connected with the single spindle cop circulation channel A, the front section single spindle return channel A is connected with one end of the single spindle return channel A, and the other end of the single spindle return channel A is connected with the empty pipe return channel A in parallel and then connected with the spinning frame A.
Further improvement of the technical scheme is as follows: the cop output end of the spinning frame A is connected with the spinning frame A
One end of a cop input channel A is connected, the cop input channel A is respectively connected with a cop successful channel A and a cop unsuccessful channel A after passing through the cop device A, and the cop unsuccessful channel A is connected with the single spindle return channel A; the cop output end of the spinning frame B is connected with one end of the cop input channel B, the cop input channel B is respectively connected with a cop successful channel B and a cop unsuccessful channel B after passing through the cop device B, and the cop unsuccessful channel B is connected with the single spindle return channel B.
Further improvement of the technical scheme is as follows: the cop processing assembly A and the cop processing assembly B comprise a tray, a round belt and a driving device.
Further improvement of the technical scheme is as follows: each of the single ingot assembly A and the single ingot assembly B comprises 18-32 single ingots.
The conveying method of the fine winding cop conveying device is characterized in that cops are conveyed to a single spindle assembly A and a single spindle assembly B of the same winder by a spinning frame A and a spinning frame B through a cop processing assembly A and a cop processing assembly B respectively, and the method specifically comprises the following steps of 1 and 2 which are synchronously carried out:
step 1: the cop produced by the spinning frame A enters the cop processing assembly A through the cop input channel A, and enters the cop successful channel A after the cop is successfully copped through the cop device A, and then enters the single spindle cop circulating channel A for the single spindle assembly A to need, the cop with unsuccessful cop is returned to the rebirth head through the cop unsuccessful channel A, and the empty pipe after single spindle cop is returned to the spinning frame A through the empty pipe return channel A.
Step 2: the cop produced by the spinning frame B enters the cop treatment assembly B through the cop input channel B, and after the cop is successfully generated by the cop generating device B, the cop enters the single spindle cop circulation channel B through the cop generating success channel B and the cop generating success transition channel B to be required by the single spindle assembly B, the cop with unsuccessful cop is returned to the newly generated cop through the cop generating unsuccessful channel B, and the empty pipe after single spindle winding is returned to the spinning frame B through the single spindle return transition channel B and the empty pipe return channel B.
The invention has the advantages and positive effects that:
according to the invention, after the successful transition passage B of the spinning-in and the single spindle return transition passage B are added, two spinning frames (spinning frame A and spinning frame B) can respectively convey cops to the single spindle assembly A and the single spindle assembly B on the same bobbin winder through cop treatment assemblies (cop treatment assemblies A and cop treatment assemblies B). The bobbin yarn processing device has reasonable structural design, so that one bobbin winder can correspond to two spinning frames, the configuration is reasonable, and the equipment cost and the running cost can be reduced.
Drawings
FIG. 1 is a schematic plan view of a fine-winding cop conveying device according to the present invention;
fig. 2 is a schematic plan layout view of two bobbins configured by two spinning frames in the prior art.
In the figure, a 1-single spindle component A, a 1.1-single spindle cop circulation channel A, a 1.2 front section single spindle return channel A, a 2-single spindle component B, a 2.1-single spindle cop circulation channel B, a 2.2-front section single spindle return channel B, a 3-cop success transition channel B, a 4-single spindle return transition channel B, a 5-cop processing component B, a 5.1-cop success channel B, a 5.2-cop device B, a 5.3-cop input channel B, a 5.4 cop unsuccessful channel B, a 5.5-single spindle return channel B, a 5.6-empty pipe return channel B, a 5.7-cop processing component B control system, a 6-cop processing component A, a 6.1-cop success channel A, a 6.2-cop device A, a 6.3-cop input channel A, a 6.4-cop unsuccessful channel A, a 6.5-single spindle return channel A, a 6.6.6-empty pipe return channel A, a 6.7-cop processing component A control system B, a spinning machine control system B and a spinning machine control system B.
Detailed Description
The invention is described in further detail below with reference to the attached drawings and examples:
referring to fig. 1, an embodiment of a fine-winding bobbin yarn conveying device of the invention comprises a single spindle of a winder and a bobbin yarn processing device, wherein the bobbin yarn processing device comprises a bobbin yarn thread-producing device and a bobbin yarn processing conveying channel. The single spindle of the winder comprises a single spindle component A1, a single spindle component B2 and a single spindle control system 9 respectively connected with the single spindle component A1 and the single spindle component B2, wherein the single spindle component A1 comprises a single spindle cop circulating channel A1.1 and a front section single spindle return channel A1.2 connected with the single spindle cop circulating channel A1.1. The single spindle assembly B2 includes a single spindle cop circulation channel B2.1 and a front section single spindle return channel B2.2 connected thereto. The cop processing device comprises a cop processing component A6 and a cop processing component A control system 6.7 which are connected with a spinning frame A7, and a cop processing component B5 and a cop processing component B control system 5.7 which are connected with a spinning frame B8, wherein the cop processing component A6 is respectively connected with a single spindle cop circulating channel A1.1 and a front section single spindle return channel A1.2 through cop processing conveying channels thereof. The cop treatment conveying channel in the cop treatment assembly B5 is connected with the single-spindle cop circulation channel B2.1 through the cop successful transition channel B3, the front-section single-spindle return channel B2.2 is connected with one end of the single-spindle return transition channel B4, and the other end of the single-spindle return transition channel B4 is connected with the cop treatment conveying channel in the cop treatment assembly B5.
In the prior art shown in fig. 2, one winder corresponds to one spinning frame, that is, two spinning frames are required to be configured, and the configuration is unreasonable. Compared with the prior art, the invention has the advantages that after the successful transition passage B3 for the end production and the single spindle return transition passage B are added, one bobbin winder can correspond to two spinning frames.
Specifically: the cop processing assembly A comprises a cop input channel A6.3, a cop head generating device A6.2, a head generating success channel A6.1, a head generating unsuccessful channel A6.4, a single spindle return channel A6.5 and an empty pipe return channel A6.6. The cop processing component B5 comprises a cop input channel B5.3, a cop head generating device B5.2, a head generating success channel B5.1, a head generating unsuccessful channel B5.4, a single spindle return channel B5.5 and an empty pipe return channel B5.6. The head generation success channel B5.1 is connected with one end of the head generation success transition channel B3, the other end of the head generation success transition channel B3 is connected with the single spindle cop circulation channel B2.1, the front section single spindle return channel B2.2 is connected with one end of the single spindle return transition channel B4, the other end of the single spindle return transition channel B4 is connected with one end of the single spindle return channel B5.5, and the other end of the single spindle return channel B5.5 is connected with the empty pipe return channel B5.6 in parallel and then connected with the spinning frame B8. The head-producing success channel A6.1 is connected with the single spindle cop circulation channel A1.1, the front section single spindle return channel A1.2 is connected with one end of the single spindle return channel A6.5, and the other end of the single spindle return channel A6.5 is connected with the empty pipe return channel A6.6 in parallel and then connected with the spinning frame A7.
The cop output end of the spinning frame A7 is connected with one end of a cop input channel A6.3, the cop input channel A6.3 is respectively connected with a cop successful channel A5.1 and a cop unsuccessful channel A5.4 after passing through a cop device A6.2, and the cop unsuccessful channel A5.4 is connected with a single spindle return channel A5.5. The cop output end of the spinning frame B8 is connected with one end of a cop input channel B5.3, the cop input channel B5.3 is respectively connected with a cop successful channel B5.1 and a cop unsuccessful channel B5.4 after passing through a cop device B5.2, and the cop unsuccessful channel B5.4 is connected with a single spindle return channel B5.5.
The cop processing assembly A6 and the cop processing assembly B5 comprise a tray, a round belt and a driving device.
Preferably, the single spindle assembly on the same winder is divided into a single spindle assembly A and a single spindle assembly B, wherein each of the single spindle assembly A and the single spindle assembly B comprises 18-32 single spindles.
Referring to fig. 1, in an embodiment of a conveying method of the fine winding cop conveying device according to the present invention, a spinning machine A7 and a spinning machine B8 convey cops to a single spindle assembly A1 and a single spindle assembly B1 of the same winder through a cop processing assembly A6 and a cop processing assembly B5, respectively, and specifically include a step 1 and a step 2 that are performed synchronously:
step 1: the cop produced by the spinning frame A7 enters the cop processing assembly A6 from the cop input channel A6.3, and enters the cop successful channel A6.3 after the cop is successfully copped by the cop device A6.2, and then enters the single spindle cop circulating channel A1.1 to be required by the single spindle assembly A1, the cop with unsuccessful cop is returned to the new cop from the cop unsuccessful channel A5.4, and the empty pipe after the single spindle is winded is returned to the spinning frame A7 from the empty pipe return channel A5.6.
Step 2: the cop produced by the spinning frame B8 enters the cop processing component B5 from the cop input channel B5.3, after the cop is successfully copped by the cop device B5.2, the cop successively enters the single spindle cop circulating channel B2.1 through the cop successful channel B5.3 and is required by the single spindle component B2, the cop with unsuccessful cop is returned to the cop again through the cop unsuccessful channel B5.3, and the empty tube after the single spindle cop is wound is returned to the spinning frame B8 through the single spindle return transition channel B4 and the empty tube return channel B5.6.
It should be understood that the above description is not intended to limit the invention to the particular embodiments disclosed, but to limit the invention to the particular embodiments disclosed, and that various changes, modifications, additions and substitutions can be made without departing from the spirit and scope of the invention.
Claims (6)
1. The utility model provides a thin-winding bobbin yarn conveying device, includes cone winder single spindle, bobbin yarn processing apparatus includes bobbin yarn head device and bobbin yarn processing conveying channel, its characterized in that, cone winder single spindle includes single spindle subassembly A, single spindle subassembly B and the single spindle control system who is connected with single spindle subassembly A, single spindle subassembly B respectively, single spindle subassembly A includes single spindle bobbin yarn circulation channel A and the anterior segment single spindle return channel A who is connected with it, single spindle subassembly B includes single spindle bobbin yarn circulation channel B and the anterior segment single spindle return channel B who is connected with it; the cop processing device comprises a cop processing component A and a cop processing component A control system which are connected with a spinning frame A, and a cop processing component B control system which are connected with a spinning frame B, wherein the cop processing component A is respectively connected with a single spindle cop circulation channel A and a front section single spindle return channel A through a cop processing conveying channel thereof, the cop processing conveying channel in the cop processing component B is connected with the single spindle cop circulation channel B through a head-generating successful transition channel B, the front section single spindle return channel B is connected with one end of the single spindle return transition channel B, and the other end of the single spindle return transition channel B is connected with the cop processing conveying channel in the cop processing component B; the cop processing component A comprises a cop input channel A, a cop head-producing device A, a head-producing success channel A, a head-producing unsuccessful channel A, a single spindle return channel A and an empty pipe return channel A, and the cop processing component B comprises a cop input channel B, a cop head-producing device B, a head-producing success channel B, a head-producing unsuccessful channel B, a single spindle return channel B and an empty pipe return channel B; the yarn threading success channel B is connected with one end of the yarn threading success transition channel B, the other end of the yarn threading success transition channel B is connected with the single spindle cop circulation channel B, the front section single spindle return channel B is connected with one end of the single spindle return transition channel B, the other end of the single spindle return transition channel B is connected with one end of the single spindle return channel B, and the other end of the single spindle return channel B is connected with the empty pipe return channel B in parallel and then connected with the spinning frame B; the yarn threading success channel A is connected with the single spindle cop circulation channel A, the front section single spindle return channel A is connected with one end of the single spindle return channel A, and the other end of the single spindle return channel A is connected with the empty pipe return channel A in parallel and then connected with the spinning frame A.
2. The fine winding bobbin yarn conveying device according to claim 1, wherein a bobbin yarn output end of the spinning frame A is connected with one end of a bobbin yarn input channel A, the bobbin yarn input channel A is respectively connected with a bobbin yarn successful channel A and a bobbin yarn unsuccessful channel A after passing through the bobbin yarn head producing device A, and the bobbin yarn unsuccessful channel A is connected with the single spindle return channel A; the cop output end of the spinning frame B is connected with one end of the cop input channel B, the cop input channel B is respectively connected with a cop successful channel B and a cop unsuccessful channel B after passing through the cop device B, and the cop unsuccessful channel B is connected with the single spindle return channel B.
3. A fine-winding cop transporting device according to claim 1 or 2, wherein the single spindle assemblies a and B each comprise 18-32 single spindles.
4. The fine-winding cop transporting device according to claim 1 or 2, wherein the cop processing assembly a and the cop processing assembly B each comprise a tray, a round belt, and a driving device.
5. A fine-winding cop transporting device according to claim 3, wherein the cop treating assembly a and the cop treating assembly B each comprise a tray, a round belt and a driving device.
6. A method for transporting a fine-textured yarn-linking transporting device according to any one of claims 1 to 5, characterized in that the yarn-linking device is transported by a spinning frame a and a spinning frame B to a single spindle assembly a and a single spindle assembly B of the same winder through a yarn processing assembly a and a yarn processing assembly B, respectively, and specifically comprises a step 1 and a step 2 which are synchronously performed:
step 1: the cop produced by the spinning frame A enters a cop processing assembly A from a cop input channel A, after the cop is successfully copped by a cop device A, the cop enters a cop success channel A, then enters a single spindle cop circulation channel A for the single spindle assembly A to need, the cop with unsuccessful cop is returned to the rebirth cop from the cop unsuccessful channel A, and the empty pipe after single spindle cop is returned to the spinning frame A from an empty pipe return channel A;
step 2: the cop produced by the spinning frame B enters the cop treatment assembly B through the cop input channel B, and after the cop is successfully generated by the cop generating device B, the cop enters the single spindle cop circulation channel B through the cop generating success channel B and the cop generating success transition channel B to be required by the single spindle assembly B, the cop with unsuccessful cop returns to the newly generated cop through the cop generating unsuccessful channel B, and the empty pipe after single spindle winding is returned to the spinning frame B through the tray return transition device, the single spindle return transition channel B and the empty pipe return channel B.
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Families Citing this family (6)
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CN111646294B (en) * | 2019-03-04 | 2022-05-27 | 铜陵松宝智能装备股份有限公司 | Multi-variety cop control method for bobbin winder |
CN110396738B (en) * | 2019-07-19 | 2023-09-22 | 青岛宏大纺织机械有限责任公司 | Fine-winding cop conveying system and conveying method |
CN110386508B (en) * | 2019-07-19 | 2023-07-21 | 青岛宏大纺织机械有限责任公司 | Bobbin yarn processing and conveying device and conveying method for automatic bobbin winder |
CN110386506B (en) * | 2019-07-19 | 2023-12-19 | 青岛宏大纺织机械有限责任公司 | Fine-winding cop conveying system and conveying method |
CN113148768B (en) * | 2021-02-08 | 2022-09-27 | 青岛宏大纺织机械有限责任公司 | Multi-connection type fine connection tray conveying device and method |
CN112938647B (en) * | 2021-02-08 | 2023-01-24 | 青岛宏大纺织机械有限责任公司 | Tray conveying device and method of double-variety automatic winder |
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