CN205576365U - Spinning component of large capacity binary channels composite spinning device - Google Patents
Spinning component of large capacity binary channels composite spinning device Download PDFInfo
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- CN205576365U CN205576365U CN201620335529.3U CN201620335529U CN205576365U CN 205576365 U CN205576365 U CN 205576365U CN 201620335529 U CN201620335529 U CN 201620335529U CN 205576365 U CN205576365 U CN 205576365U
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Abstract
The utility model provides a A feed chamber and B feed chamber that spinning component of large capacity binary channels composite spinning device, by last casing, filter chamber, break plate A, break plate B, break plate C, spinneret, briquetting and down the casing constitute, the spinning member is for installing the cylinder structure in box spinning position, there are A feeding connector and B feeding connector in the one side of going up the casing, there is a separation state the following of going up the casing. The filter chamber comprises A filter chamber and B filter chamber corresponding to A feed chamber and B feed chamber isolation structure, break plate A is below the filter chamber, break plate B is below break plate A, break plate C is below break plate B, the spinneret is below break plate C, the briquetting is the following cylinder that has the protruding portion, the protruding portion bearing is below the spinneret, the cylinder is connected at center hole, the casing has the hollow structure of bearing platform for the lower level down, the filter chamber, break plate A, break plate B, break plate C and spinneret are installed in the cavity of bearing bench face, the inferior valve body coupling is at last casing.
Description
Technical field
This utility model relates to a kind of compined spinning apparatus, particularly to the spinning elements of a kind of Large Copacity dual pathways compined spinning apparatus, belongs to fibre machinery technical field.
Background technology
At present, on market, fiberfill fibers production method mainly has two kinds, and one is superfine Denier fibre production method, and one is doughnut production method.Superfine Denier fibre production method generally uses the methods such as super drawing method, composite spinning stripping method, island method, high-speed spinning ultrafine wire method, jet spinning, the most that method, owing to fine-denier spinneret spinneret orifice is too thin, easily causes superpressure, cause unstable product quality;Doughnut production method mainly has two kinds, and one is chemical method, adds chemical reagent the most aborning, removes in the post processing after fiberizing, forms cavity fiber, and one is the physics method of forming, is i.e. produced by hollow fibre spinneret.Test proves that, using physics molding to occur the hollow fiberfill fibers spinnability produced preferable, density is little, and warmth retention property is good, and bulkiness is relatively good.But owing to hollow spinneret plate hole count is few, yielding poorly, production cost is higher.The synthetic fibers that polyester fondant spinning obtains have good mechanically and chemically performance, it is widely used in the industry-by-industries such as clothing, home textile and industry, in polyester fondant spinning equipment, spinning elements part is most important key equipment, especially double component polyester melt composite spun fiber, in addition to there are two kinds of respective different performances of component, also can produce some new premium properties.Polyester fondant double-component is combined short silk process units many employings φ 328mm following dual pathways composite spinning casing and spinning elements at present, and capacity is little, and production efficiency is low.
Summary of the invention
In order to solve above-mentioned dual pathways composite spinning casing and the inefficient technical problem of the little production of spinning elements capacity, this utility model discloses the spinning elements of a kind of Large Copacity dual pathways compined spinning apparatus.
This utility model be the technical scheme is that the spinning elements of a kind of Large Copacity dual pathways compined spinning apparatus, it is made up of upper shell, filter chamber, distribution plate A, distribution plate B, distribution plate C, spinneret, briquetting and lower house, spinning elements is the cylindrical structure being arranged on casing spinning station, the side of upper shell has A charging connector and B to feed connector, having A feed chamber and the B feed chamber of isolation below upper shell, A feed chamber and B feed chamber connect A charging connector by passage respectively and B feeds connector;Filter chamber is formed by corresponding to A feed chamber and the A filter chamber of B feed chamber isolation structure and B filter chamber, distribution plate A is below filter chamber and has the A distribution cavity corresponding to A filter chamber and B filter chamber and B distribution cavity, distribution plate B is below distribution plate A, distribution plate C is below distribution plate B, spinneret is below distribution plate C, distribution plate B, C and spinneret are for constituting center hole after circle cyclic structure connection, briquetting is the cylinder having protuberance below, protuberance support is below spinneret, cylinder is connected to center hole, lower house is the hollow structure having supporting table below, filter chamber, distribution plate A, distribution plate B, distribution plate C and spinneret are arranged in the hollow above supporting table, the above of lower house is connected to below upper shell.
Distribution plate A has tilting dispensing orifice and having the inclination pod apertures connecting A, B distribution cavity respectively of communication distribution cavity, and pod apertures links up with dispensing orifice and incline direction is contrary;Distribution plate B and distribution plate C has consistent with distribution plate A aperture and UNICOM each other inclination dispensing orifice, and the incline direction of the dispensing orifice of distribution plate A, B, C is the most contrary.
Having inclination spinneret orifice that is consistent with dispensing orifice aperture and that link up each other on spinneret, the incline direction of spinneret orifice is contrary with the dispensing orifice of distribution plate C.
A charging connector connects the output channel in the A distribution district of casing, and B charging connector connects the output channel in the B distribution district of casing.
The external diameter of spinning elements is 425~455mm, a diameter of 358mm of spinneret;The hole count of spinneret orifice is 780~1625, a diameter of the 0.5 of spinneret orifice~1.2mm, and the angle of inclination of spinneret orifice is 45~65 °, and the length diameter ratio of spinneret orifice is 1:0.2~1:0.6.
The beneficial effects of the utility model are: this utility model passes through dispensing orifice and the inclined design of pod apertures, can effectively ensure that spinning elements internal pressure is uniform, the flow velocity of two kinds of raw materials is consistent, melt flowing in spinning elements is without dead angle, in the case of the time of staying is the most highly consistent, realize Large Copacity hole count as far as possible, respond well when making production bi-component composite filament, production efficiency is high, and energy consumption is low.
Accompanying drawing explanation
Below in conjunction with the accompanying drawings this utility model is further illustrated:
Fig. 1 is this utility model spinning elements lateral section structural representation.
In figure 1, upper shell, 2, filter chamber, 3, distribution plate A, 4, distribution plate B, 5, distribution plate C, 6, spinneret, 7, briquetting, 8, output channel, 9, A feed connector, 10, B feed connector, 11, A feed chamber, 12, B feed chamber, 13, dispensing orifice, 14, pod apertures, 15, spinneret orifice.
Detailed description of the invention
In the embodiment in figure 1, a kind of spinning elements of Large Copacity dual pathways compined spinning apparatus, it is made up of upper shell 1, filter chamber 2, distribution plate A3, distribution plate B4, distribution plate C5, spinneret 6, briquetting 7 and lower house 8, spinning elements is the cylindrical structure being arranged on casing spinning station, the side of upper shell 1 has A charging connector 9 and B to feed connector 10, having A the feed chamber 11 and B feed chamber 12 of isolation below upper shell 1, A feed chamber 11 and B feed chamber 12 connects A charging connector 9 and B by passage respectively and feeds connector 10;Filter chamber 2 is made up of A filter chamber and the B filter chamber corresponding to A feed chamber 11 and B feed chamber 12 isolation structure, distribution plate A3 is below filter chamber and has the A distribution cavity corresponding to A filter chamber and B filter chamber and B distribution cavity, distribution plate B4 is below distribution plate A3, distribution plate C5 is below distribution plate B4, spinneret 6 is below distribution plate C5, distribution plate B4, C5 and spinneret 6 are for constituting center hole after circle cyclic structure connection, briquetting 7 is the following cylinder having protuberance, protuberance support is below spinneret 6, cylinder is connected to center hole, lower house 8 is the hollow structure having supporting table below, filter chamber 2, distribution plate A3, distribution plate B4, distribution plate C5 and spinneret 6 are arranged in the hollow above supporting table, the above of lower house 8 is connected to below upper shell 1.
Distribution plate A3 has tilting dispensing orifice 13 and having the inclination pod apertures 14 connecting A, B distribution cavity respectively of communication distribution cavity, and pod apertures 14 links up with dispensing orifice 13 and incline direction is contrary;Distribution plate B4 and distribution plate C5 has consistent with distribution plate A3 aperture and UNICOM each other an inclination dispensing orifice 13, distribution plate A, B, C3,4,5 the incline direction of dispensing orifice 13 the most contrary.
Having inclination spinneret orifice 15 that is consistent with dispensing orifice 13 aperture and that link up each other on spinneret 6, the incline direction of spinneret orifice 15 is contrary with the dispensing orifice 13 of distribution plate C5.
A charging connector 9 connects the output channel in casing A distribution district, and B charging connector 10 connects the output channel in casing B distribution district.
The external diameter of spinning elements is 425~455mm, a diameter of 358mm of spinneret 6;The hole count of spinneret orifice 15 is 780~1625, a diameter of the 0.5 of spinneret orifice 15~1.2mm, and the angle of inclination of spinneret orifice 15 is 45~65 °, and the length diameter ratio of spinneret orifice 15 is 1:0.2~1:0.6.
Embodiment: A group solution material and B group solution material are fed connector 10 by A charging connector 9 and B, A feed chamber 11 and B feed chamber 12 is respectively enterd through respective passage, then after A filter chamber and B filter chamber filter, after the dispensing orifice 13 of the most the allocated plate A3 and pod apertures 14 are assigned to the dispensing orifice 13 of distribution plate B4, distribution plate C5, are finally ejected into by the spinneret orifice 15 of spinneret 6 and there is the tow that cross section is shape arranged side by side.
Claims (6)
1. the spinning elements of a Large Copacity dual pathways compined spinning apparatus, it is made up of upper shell, filter chamber, distribution plate A, distribution plate B, distribution plate C, spinneret, briquetting and lower house, it is characterized in that: spinning elements is the cylindrical structure being arranged on casing spinning station, the side of upper shell has A charging connector and B to feed connector, having A feed chamber and the B feed chamber of isolation below upper shell, A feed chamber and B feed chamber connect A charging connector by passage respectively and B feeds connector;Filter chamber is formed by corresponding to A feed chamber and the A filter chamber of B feed chamber isolation structure and B filter chamber, distribution plate A is below filter chamber and has the A distribution cavity corresponding to A filter chamber and B filter chamber and B distribution cavity, distribution plate B is below distribution plate A, distribution plate C is below distribution plate B, spinneret is below distribution plate C, distribution plate B, C and spinneret are for constituting center hole after circle cyclic structure connection, briquetting is the cylinder having protuberance below, protuberance support is below spinneret, cylinder is connected to center hole, lower house is the hollow structure having supporting table below, filter chamber, distribution plate A, distribution plate B, distribution plate C and spinneret are arranged in the hollow above supporting table, the above of lower house is connected to below upper shell.
The spinning elements of a kind of Large Copacity dual pathways compined spinning apparatus the most according to claim 1, it is characterized in that: described distribution plate A has tilting dispensing orifice and having the inclination pod apertures connecting A, B distribution cavity respectively of communication distribution cavity, pod apertures links up with dispensing orifice and incline direction is contrary;Distribution plate B and distribution plate C has consistent with distribution plate A aperture and UNICOM each other inclination dispensing orifice, and the incline direction of the dispensing orifice of distribution plate A, B, C is the most contrary.
The spinning elements of a kind of Large Copacity dual pathways compined spinning apparatus the most according to claim 1, it is characterized in that: have inclination spinneret orifice that is consistent with dispensing orifice aperture and that link up each other on described spinneret, the incline direction of spinneret orifice is contrary with the dispensing orifice of distribution plate C.
The spinning elements of a kind of Large Copacity dual pathways compined spinning apparatus the most according to claim 1, is characterized in that: described A charging connector connects the output channel in the A distribution district of casing, and B charging connector connects the output channel in the B distribution district of casing.
The spinning elements of a kind of Large Copacity dual pathways compined spinning apparatus the most according to claim 1, is characterized in that: the external diameter of described spinning elements is 425~455mm, a diameter of 358mm of described spinneret.
The spinning elements of a kind of Large Copacity dual pathways compined spinning apparatus the most according to claim 3, it is characterized in that: the hole count of described spinneret orifice is 780~1625, a diameter of the 0.15 of spinneret orifice~0.8mm, the angle of inclination of spinneret orifice is 45~65 °, and the length diameter ratio of spinneret orifice is 1:0.3~1:0.6.
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CN201620335529.3U CN205576365U (en) | 2016-04-20 | 2016-04-20 | Spinning component of large capacity binary channels composite spinning device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110029408A (en) * | 2019-05-21 | 2019-07-19 | 上海海凯生物材料有限公司 | A kind of elastic composite fiber and its manufacturing method |
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2016
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110029408A (en) * | 2019-05-21 | 2019-07-19 | 上海海凯生物材料有限公司 | A kind of elastic composite fiber and its manufacturing method |
CN110029408B (en) * | 2019-05-21 | 2020-05-05 | 上海海凯生物材料有限公司 | Elastic composite fiber and manufacturing method thereof |
WO2020232876A1 (en) | 2019-05-21 | 2020-11-26 | 上海海凯生物材料有限公司 | Elastic composite fiber and fabrication method therefor |
US20210388536A1 (en) * | 2019-05-21 | 2021-12-16 | Shanghai Haikai Biomaterials Co., Ltd. | Elastic composite fiber and fabrication method therefor |
JP2022509330A (en) * | 2019-05-21 | 2022-01-20 | 上海海凱生物材料有限公司 | Elastic composite fiber and its manufacturing method |
JP7200390B2 (en) | 2019-05-21 | 2023-01-06 | 上海海凱生物材料有限公司 | Elastic composite fiber and method for producing the same |
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Effective date of registration: 20170825 Address after: 362700 Fujian city of Quanzhou province Shishi Jinshang Town Industrial Zone Patentee after: Fujian Haixing Kai Sheng Technology Co. Ltd. Address before: Shishi Jinshang town Quanzhou city Fujian province 362700 General Road No. 1 Patentee before: HAIXING MATERIAL TECHNOLOGY CO., LTD. |
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TR01 | Transfer of patent right |