CN210826498U - Fine-winding union cop conveying system - Google Patents
Fine-winding union cop conveying system Download PDFInfo
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- CN210826498U CN210826498U CN201921141186.7U CN201921141186U CN210826498U CN 210826498 U CN210826498 U CN 210826498U CN 201921141186 U CN201921141186 U CN 201921141186U CN 210826498 U CN210826498 U CN 210826498U
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Abstract
The utility model provides a thin many twines ally oneself with cop conveying system, including cone winder single spindle subassembly, cop processing subassembly, cone winder single spindle subassembly includes single spindle cop circulating channel, and its characteristics are: the cop processing assembly comprises a cop input channel, two spinning mechanisms, two spinning channels, two spinning successful channels, two spinning unsuccessful channels, a spinning successful converging channel and an empty tube return channel, wherein the two spinning machines are respectively connected with the cop input channel and the empty tube return channel through the respective cop channels. The bobbin yarn processing assembly is reasonable and simple in structural design and convenient to operate and use, so that one bobbin winder can correspond to two spinning frames, and equipment cost and operation cost are reduced. The conveying method is simple and reliable in operation.
Description
Technical Field
The utility model belongs to the technical field of weaving equipment manufacturing, a improvement that fine winding allies oneself with equipment is related to, a fine winding allies oneself with cop conveying system specifically says so.
Background
In the existing fine winding technology, one bobbin winder corresponds to one spinning frame, one spinning frame only has 1200-1680 spindles, and the corresponding bobbin winder can meet the requirement of normal production only by 20-32 spindles, but for one bobbin winder, the number of the single spindles is more economical within 60-72 spindles, and one bobbin winder usually needs to be provided with a head assembly, a doffing trolley, a traveling fan, an electric cleaning control box, an upper computer and the like. These devices are wasteful if they serve fewer individual ingots, adding to the cost of manufacturing and operating the equipment.
How to design a thin-twine copula yarn system, its cop processing subassembly structural design is reasonable, simple, and operation convenient to use for a cone winder can correspond two spinning frames, reduces equipment cost and running cost. This is a technical problem which is urgently to be solved at present.
Disclosure of Invention
The utility model provides a fine-connecting cop conveying system for solving the problems and deficiencies of the prior art, the cop processing assembly has reasonable and simple structural design and convenient operation and use, so that one bobbin winder can correspond to two spinning frames, and the equipment cost and the running cost are reduced; the conveying method is simple and reliable in operation.
The utility model aims at realizing through the following technical scheme:
a fine spinning and winding bobbin yarn conveying system comprises a winder single spindle assembly and a bobbin yarn processing assembly, wherein the winder single spindle assembly comprises a single spindle bobbin yarn circulating channel, and is characterized in that the bobbin yarn processing assembly comprises a bobbin yarn input channel, a first spinning mechanism, a first spinning channel, a first spinning success channel, a first spinning unsuccessful channel, a second spinning mechanism, a second spinning channel, a second spinning success channel, a second spinning unsuccessful channel, a spinning success converging channel and an empty bobbin return channel, a bobbin yarn output end of a spinning frame A is connected with the bobbin yarn input channel through the bobbin yarn input channel A, a bobbin yarn input end of the spinning frame A is connected with the empty bobbin return channel A, the empty bobbin return channel A is connected with the empty bobbin return channel, a bobbin yarn output end of the spinning frame B is connected with the bobbin yarn input channel through the bobbin yarn input channel B, the cop input end of the spinning machine B is connected with a rear section hollow pipe return channel B, the rear section hollow pipe return channel B is connected with the cop input channel A, one end of a front section hollow pipe return channel B is connected with the cop input channel A, and the other end of the front section hollow pipe return channel B is connected with the hollow pipe return channel.
The improvement of the technical scheme is as follows: in the cop processing assembly, the cop input channel is connected with one end of a first spinning channel, the first spinning channel is provided with a first spinning mechanism, the other end of the first birth head channel is respectively connected with a first birth head successful channel and a first birth head unsuccessful channel, the first successful spinning channel is connected with the successful spinning channel, the successful spinning channel is connected with the input end of the single-spindle cop circulating channel, the first spinning unsuccessful channel is connected with one end of a second spinning channel, a second spinning mechanism is arranged on the second spinning channel, the other end of the second repiece channel is respectively connected with a second repiece successful channel and a second repiece unsuccessful channel, the second spinning-in successful channel is connected with the spinning-in successful converging channel, and the other end of the second spinning-in unsuccessful channel is respectively connected with the cop input channel and the first spinning channel.
The technical scheme is further improved as follows: the cop processing assembly comprises a tray, a round belt and a driving device.
The technical scheme is further improved as follows: the single spindle assembly of the bobbin winder at least comprises 60 single spindles.
Compared with the prior art, the utility model have following advantage and positive effect:
the utility model discloses an increase cop input channel B, anterior segment air traffic control return passage B and back end air traffic control return passage B, make an automatic cone winder can correspond two spinning frames for a common doffing dolly of two spinning frames, a CBF, a negative pressure supply system. The configuration is reasonable, the operation and the use are convenient, the structural design is reasonable and simple, and the equipment cost and the running cost can be reduced. The conveying method is simple and reliable in operation.
Drawings
Fig. 1 is a schematic plan view of the fine-winding cop conveying system of the present invention.
In the figure, 1-single spindle component of a bobbin winder, 2-cop processing component, 2.1-first spinning success channel, 2.2-first spinning unsuccessful channel, 2.3-first spinning mechanism, 2.4-first spinning channel, 2.5-cop input channel, 2.6-spinning success merging channel, 2.7-second spinning success channel, 2.8-second spinning unsuccessful channel, 2.9-second spinning mechanism, 2.10-second spinning channel, 2.11-empty tube return channel, 3-cop input channel B, 4-front-section empty tube return channel B, 5-cop input channel A, 6-rear-section empty tube return channel B, 7-empty tube return channel A, 8-spinning frame B and 9-spinning frame A.
Detailed Description
The invention is described in further detail below with reference to the following figures and examples:
referring to fig. 1, the utility model relates to an embodiment of fine twine union cop conveying system, including cone winder single spindle subassembly 1, cop processing assembly 2, cone winder single spindle subassembly 1 includes single spindle cop circulating channel, and cop processing assembly 2 includes cop input channel 2.5, first birth mechanism 2.3, first birth channel 2.4, first birth success channel 2.1, first birth unsuccessful channel 2.2, second birth mechanism 2.9, second birth channel 2.10, second birth success channel 2.7, second birth unsuccessful channel 2.8, birth success confluence channel 2.6 and empty pipe return channel 2.11. The cop output end of a spinning machine A9 is connected with a cop input channel 2.5 through a cop input channel A5, the cop input end of the spinning machine A9 is connected with an empty bobbin return channel A7, and the empty bobbin return channel A7 is connected with an empty bobbin return channel 2.11. The cop output end of a spinning machine B8 is connected with a cop input channel 2.5 through a cop input channel B3, the cop input end of the spinning machine B8 is connected with a rear section hollow tube return channel B6, the rear section hollow tube return channel B6 is connected with a cop input channel A5, one end of a front section hollow tube return channel B4 is connected with the cop input channel A5, and the other end of the front section hollow tube return channel B4 is connected with a hollow tube return channel 2.11.
Specifically, the method comprises the following steps: in the cop processing assembly 2, a cop input channel 3 is connected with one end of a first spinning channel 2.4, the first spinning mechanism 2.3 is arranged on the first spinning channel 2.4, the other end of the first spinning channel 2.4 is respectively connected with a first spinning successful channel 2.1 and a first spinning unsuccessful channel 2.2, the first spinning successful channel 2.1 is connected with a spinning successful converging channel 2.6, and the spinning successful converging channel 2.6 is connected with the input end of a single spindle cop circulating channel in the single spindle assembly 1 of the winding machine. First repiece unsuccessful channel 2.2 is connected with the one end of second repiece channel 2.10, sets up second repiece mechanism 2.9 on second repiece channel 2.10, and second repiece channel 2.10 other end is connected second repiece successful channel 2.7 and second repiece unsuccessful channel 2.8 respectively, second repiece successful channel 2.7 with the repiece successfully converges the passageway 2.6 and connects, and second repiece unsuccessful channel 2.8 other end is connected with cop input channel 3 and first repiece passageway 2.4 respectively.
The cop processing assembly 2 comprises a tray, a round belt and a driving device.
Preferably, the winder single spindle assembly 2 comprises at least 60 winder single spindles.
Referring to fig. 1, a method for conveying the fine-entanglement cop conveying system, a spinning frame A9 and a spinning frame B8 respectively convey cops to a single spindle assembly of the same winder through a cop processing assembly, and specifically comprises steps 1 and 2 which are performed synchronously:
step 1: cop produced by a spinning frame A9 enters a first spinning channel 2.4 through a cop input channel A5 and a cop input channel 2.5, the cop successfully spinned by a first cop spinning device 2.3 enters the first spinning successful channel 2.1, the cop successfully spinned by a spinning successful converging channel 2.6 enters a single spindle cop circulating channel for a single spindle assembly of a winder, the cop unsuccessfully spinned to spinned successfully spinned enters a second spinning channel 2.10 through the first spinning unsuccessful channel 2.2, the cop successfully spinned by the second cop spinning device 2.9 spinned enters the second spinning successful channel 2.7, the cop successfully spinned by the spinning successful converging channel 2.6 enters the single spindle cop circulating channel in the single spindle assembly 1 of the winder for the single spindle assembly 1 of the winder, and an empty bobbin wound by the single spindle assembly 1 of the winder is sequentially sent back to the spinning frame A9 through an empty bobbin returning channel 2.11 and an empty bobbin returning channel A7.
Step 2: cop produced by a spinning frame B8 enters a first spinning channel 2.1 through a cop input channel B3 and a cop input channel 2.5, enters a first spinning successful channel 2.1 after being successfully spun by a first cop spinning device 2.3, enters a single spindle cop circulating channel in a single spindle assembly 1 of a bobbin winder through a spinning successful converging channel 2.6 for the single spindle bobbin assembly 1 of the bobbin winder to need, the cop which is not successfully spun enters a second spinning channel 2.10 through the first spinning unsuccessful channel 2.2, the cop which is unsuccessfully spun by a second cop spinning device 2.9 enters the first spinning channel 2.4 through the second spinning unsuccessful channel 2.8 for being spun again, the cop which is successfully spun by the second cop spinning device 2.9 enters a second spinning successful channel 2.7, passes through the spinning successful converging channel 2.6 and enters the single spindle cop circulating channel in the single spindle assembly 1 of the bobbin winder and the single spindle assembly 1 needs, the empty tubes wound by the single spindle assembly 1 of the bobbin winder are sequentially sent back to the spinning frame B8 through an empty tube return channel 2.11, a front section empty tube return channel B4 and a rear section empty tube return channel B6.
Of course, 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 understand that the changes, modifications, additions or substitutions made in the scope of the present invention should also belong to the protection scope of the present invention.
Claims (5)
1. A fine spinning and winding bobbin yarn conveying system comprises a winder single spindle assembly and a bobbin yarn processing assembly, wherein the winder single spindle assembly comprises a single spindle bobbin yarn circulating channel, and is characterized in that the bobbin yarn processing assembly comprises a bobbin yarn input channel, a first spinning mechanism, a first spinning channel, a first spinning success channel, a first spinning unsuccessful channel, a second spinning mechanism, a second spinning channel, a second spinning success channel, a second spinning unsuccessful channel, a spinning success converging channel and an empty bobbin return channel, a bobbin yarn output end of a spinning frame A is connected with the bobbin yarn input channel through the bobbin yarn input channel A, a bobbin yarn input end of the spinning frame A is connected with the empty bobbin return channel A, the empty bobbin return channel A is connected with the empty bobbin return channel, a bobbin yarn output end of the spinning frame B is connected with the bobbin yarn input channel through the bobbin yarn input channel B, the cop input end of the spinning machine B is connected with a rear section hollow pipe return channel B, the rear section hollow pipe return channel B is connected with the cop input channel A, one end of a front section hollow pipe return channel B is connected with the cop input channel A, and the other end of the front section hollow pipe return channel B is connected with the hollow pipe return channel.
2. The fine cop carrying system according to claim 1, wherein in the cop processing section, the cop input path is connected to one end of a first birth path provided with a first birth mechanism, the other end of the first birth path is connected to a first birth success path and a first birth unsuccessful path, respectively, the first birth success path is connected to the birth success merging path, the birth success merging path is connected to the input end of the single-spindle cop circulating path, the first birth unsuccessful path is connected to one end of a second birth path provided with a second birth mechanism, the other end of the second birth path is connected to a second birth success path and a second birth path, respectively, the second birth success path is connected to the birth success merging path, the other end of the second spinning-in unsuccessful channel is respectively connected with the cop input channel and the first spinning-in channel.
3. The fine cop conveyor system according to claim 1 or 2, wherein the cop handling assembly comprises a tray, a circular belt and a drive.
4. The fine cop transfer system according to claim 1 or 2, wherein the winder single spindle assembly comprises at least 60 single spindles.
5. The fine conesponding cop transport system as in claim 3, wherein said winder single spindle assembly contains at least 60 single spindles.
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CN201921141186.7U CN210826498U (en) | 2019-07-19 | 2019-07-19 | Fine-winding union cop conveying system |
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CN201921141186.7U CN210826498U (en) | 2019-07-19 | 2019-07-19 | Fine-winding union cop conveying system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110396738A (en) * | 2019-07-19 | 2019-11-01 | 青岛宏大纺织机械有限责任公司 | Thin network union yarn transportation system and delivery method |
CN112938647A (en) * | 2021-02-08 | 2021-06-11 | 青岛宏大纺织机械有限责任公司 | Tray conveying device and method of double-variety automatic winder |
-
2019
- 2019-07-19 CN CN201921141186.7U patent/CN210826498U/en not_active Withdrawn - After Issue
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110396738A (en) * | 2019-07-19 | 2019-11-01 | 青岛宏大纺织机械有限责任公司 | Thin network union yarn transportation system and delivery method |
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 |
CN112938647A (en) * | 2021-02-08 | 2021-06-11 | 青岛宏大纺织机械有限责任公司 | Tray conveying device and method of double-variety automatic winder |
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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