CN101457408A - Composite spinning component - Google Patents

Abstract

The invention discloses a compound spinning component used for a melt-spinning device, and the compound spinning component can spin N plus N segments (6 plus 6 segments-64 plus 64 segments, and the like) of orange segment-shaped staple fiber. The compound spinning component is composed of a feed plate, a sealing plate, a filter mesh, three distributing plates and a spinneret plate from top to bottom. A and B groups of melts enter melt flow channels which are 2-10 in total and distributed evenly of the two groups from the upper part of the feed plate and are jetted by the spinneret plate after passing through the sealing plate, the filter mesh and the three distributing plates. The compound spinning component is shaped like a rectangle for facilitating the pumping of monomers in the spinning process; the compound spinning component is applicable to the spinning of PET and PA6, PET and PP, PET and PE, PE and PA6; as the special flow channels fully mix the melts, jetted tows have uniform size and stable quality; the technical proposal has universality and can be popularized and applied in sheath-core type, sea-island type and other peel-off type composite spinning components.

Description

Composite spining module

Technical field

The present invention relates to a kind of composite spining module that is used on the apparatus for melt spinning, particularly two kinds of different high polymer moltens are processed into the filament spinning component of composite fibre, belong to the synthetic fiber production technical field.

Background technology

Composite fibre is meant by two or more high polymer, or has the chemical fibre that the same high polymer of different molecular weight is made through composite spinning method.Two kinds of melts by two extruders system enter in the composite component of composite spinning case via different melt canals respectively, at the suitable position of spinnerets with certain complex method with together, from a spinneret orifice extrusion molding, again through cooling, oil and processing technology such as coiling and make 0.1dtex～0.3dtex even thinner superfine fibre.Superfine fibre is widely used in fabrics such as dermatine, artificial suede, clean-cloth, fast dry towel at present, but only develops tangerine lobe type long filament composite spining module at present, and the still untapped success of tangerine lobe type short silk composite spining module.

Summary of the invention

The purpose of this invention is to provide a kind of composite spining module that can spin the short silk of tangerine lobe type of N+N lobe (6+6 lobe～64+64 lobe etc.).

The objective of the invention is to be achieved through the following technical solutions: it is from top to bottom by feedboard, sealing plate, last distribution plate, middle distribution plate, lower distribution plate, spinnerets is formed, during being installed in, screen pack within 2～10 grooves of distribution plate, evenly was covered with filter sand on the screen pack.Two groups of melts of A, B enter equally distributed 2 groups of totally 2～10 melt flow channel from the top of feedboard, through sealing plate, go up distribution plate, middle distribution plate, lower distribution plate after by the spinnerets ejection, whole element shapes is a rectangle.Feedboard has 2 circular holes to link to each other with semi-circular cross-section shape chamber, and each semi-circular cross-section shape chamber is run through with 1～5 semi-circular cross-section shape chamber again, forms two groups of independently semi-circular cross-section shape cavitys; 2～10 semi-circular cross-section shape chambeies are arranged on the last distribution plate, and bottom, every semi-circular cross-section shape chamber has 2～8 circular holes to be through to the bottom; On the middle distribution plate 2～10 flat bottomed recess are arranged, every flat bottomed recess bottom has 50～400 apertures to be through to lower bottom part; 10～50 round bottom grooves are arranged at lower distribution plate top, 2～26 counterbores of every round bottom bottom portion of groove distribution, there is 6～64 φ 0.3mm～φ 0.6mm aperture to be through to lower bottom part at the bottom of each hole, 10～900 round boss are arranged on the lower bottom part, 6～64 groove width 0.2mm～0.5mm are arranged, the groove of groove depth 0.2mm～0.6mm on the round boss; Round bottom groove adjacent distributions has 11～51 wide round bottom sulculuses of 2mm, and bottom land has 4～28 apertures to be through to bottom surface; Be distributed with 10～900 spinneret orifices on the spinnerets, orifice diameter is φ 0.2mm～φ 1mm, and draw ratio is 2:1～8:1.

The invention has the advantages that:

1, this element shapes is a rectangle, is convenient to the suction of monomer on the spinning technique;

2, this assembly can spin the compound short silk of N+N lobe (6+6 lobe～64+64 lobe etc.) tangerine lobe type by changing different middle distribution plate, lower distribution plate, spinnerets;

3, this assembly is applicable to the spinning of PET and PA6, PET and PP, PET and PE, PE and PA6;

4, the present invention is because the special runner of feedboard, distribution plate makes melt can be mixed fully in the very short time before ejection is shaped, and the tow fineness of ejection is even, steady quality.

5, technical solution of the present invention has versatility, can be applied to core-skin type, fabric of island-in-sea type and other exfoliated composite spining module.

Description of drawings

Be example with the short silk of 16+16 lobe tangerine lobe type composite spining module below, the invention will be further described in conjunction with the accompanying drawings.Wherein:

Fig. 1: the whole vertically cross-sectional schematic of composite spining module

The C-C cross-sectional schematic of Fig. 2: Fig. 1

Fig. 3: lower distribution plate is vertically analysed and observe local enlarged diagram

Fig. 4: the A among Fig. 3 is to zoomed-in view

Number order in the accompanying drawing is:

1, feedboard 2, sealing plate

3, go up distribution plate 4, middle distribution plate

5, lower distribution plate 6, spinnerets

7, screen pack 8, circular hole A

9, semi-circular cross-section shape chamber A 10, semi-circular cross-section shape chamber B

11, circular hole B 12, semi-circular cross-section shape chamber C

13, flat bottomed recess 14, round bottom groove 15, counterbore

16, small sircle hole 17, groove 18, round bottom sulculus

19, spinneret orifice

The specific embodiment

Embodiment 1: as shown in Figure 1 and Figure 2, the whole element shapes of the present invention is a rectangle,

From top to bottom by feedboard 1, sealing plate 2, last distribution plate 3, middle distribution plate 4, lower distribution plate 5, spinnerets 6 is formed, during screen pack 7 is arranged within 6 grooves of distribution plate 4.A, after 2 circular hole A8 of two groups of melts of B from feedboard 1 enter assembly respectively, flow into the semi-circular cross-section shape chamber A9 of Y-axis trend, then one is divided into three inflow semi-circular cross-section shape chamber B10, circular hole B11 in sealing plate 2 enters middle distribution plate 4 by 4 circular holes after totally 6 mobile mixing of semi-circular cross-section shape chamber C12 for two groups along X-direction after entering distribution plate 3, X-direction is distributed with 6 flat bottomed recess 13 on the middle distribution plate 4, three kinds of specifications screen pack conjunction of totally 4 layers of composition is equipped with in flat bottomed recess 13 bottoms, evenly be covered with filter sand on the screen pack, melt enters lower distribution plate 5 after filtering, A component melt enters in the counterbore 15 after round bottom groove 14 distributes mixing along the Y direction of lower distribution plate 5, flows in the spinnerets pinning hole from 16 small sircle holes 16 again; B component melt along the Y direction of lower distribution plate 5 from the wide round bottom sulculus 18 of 2mm in the bottom land aperture flows into 16 grooves 17 on the round boss that enters the lower distribution plate reverse side after distributing mixing, enter then in spinnerets 6 pinning holes, forming one by spinneret orifice 19 spray silks after two kinds of melts of A, B make up in the spinnerets pinning hole has 16+16 lobe orange petal shape silk.

As shown in Figure 1 and Figure 2, the sealing of this assembly is to compress sealing by abradant surface with bolt, and hermetically-sealed construction is simple, and is reliable; The part of a plurality of assemblies has interchangeability, and diagonal is distributed with 2 dowel holes on every block of plate in the assembly, and connecting bolt is a high-strength bolt.After whole assembly assembles with bolt, be pushed into manifold by the assembly erecting tools of special use and dock with casing.

Claims (6)

1, a kind of composite spining module is characterized in that: assembly is equipped with feedboard (1), sealing plate (2) successively, goes up distribution plate (3), screen pack (7), middle distribution plate (4), lower distribution plate (5) and spinnerets (6) along the melt flows direction; Described feedboard (1) has two groups of melt flow channel of semi-circular cross-section shape chamber B (10) of totally 2～10, the melt flow channel connection of going up corresponding semi-circular cross-section shape chamber C (12) by 2～10 the circular hole B (11) and the last distribution plate (3) of sealing plate (2); 2～8 circular hole of the described melt flow channel that goes up 2～10 the semi-circular cross-section shape chamber C (12) on the distribution plate (3) bottom every melt flow channel links to each other with flat bottomed recess (13) on the middle distribution plate (4); Described screen pack (7) is installed within the flat bottomed recess (13) of middle distribution plate (4), evenly is covered with filter sand on the screen pack.There are 50～400 apertures to be through to lower bottom part on every flat bottomed recess (13) in described on the distribution plate (4); 10～50 round bottom grooves (14) are arranged at described lower distribution plate (5) top, every round bottom groove (14) bottom distribution 2～26 counterbores (15), there is 6～64 φ 0.3mm～φ 0.6mm small sircle hole (16) to be through to lower bottom part at the bottom of each hole, 10～900 round boss are arranged on the lower bottom part, 6～64 grooves (17) are arranged on the boss.

2, composite spining module according to claim 1, it is characterized in that: feedboard (1) has 2 circular hole A (8) to link to each other with semi-circular cross-section shape chamber A (9), each semi-circular cross-section shape chamber A (9) runs through with 1～5 semi-circular cross-section shape chamber B (10) again, forms two groups of independently semi-circular cross-section shape cavitys.

3, composite spining module according to claim 1 is characterized in that: going up on the distribution plate (3) has 2～10 semi-circular cross-section shape chamber C (12), and every semi-circular cross-section shape chamber C (12) bottom has 2～8 circular holes to be through to the bottom.

4, composite spining module according to claim 1 is characterized in that: 2～10 flat bottomed recess (13) are arranged on the middle distribution plate (4), have 50～400 apertures to be through to lower bottom part on every flat bottomed recess (13).

5, composite spining module according to claim 1, it is characterized in that: 10～50 round bottom grooves (14) are arranged at lower distribution plate (5) top, every round bottom groove (14) bottom distribution 2～26 counterbores (15), there is 6～64 φ 0.3mm～φ 0.6mm small sircle hole (16) to be through to lower bottom part at the bottom of each hole, 10～900 round boss are arranged on the lower bottom part, 6～64 groove width 0.2mm～0.5mm are arranged, the groove of groove depth 0.2mm～0.6mm (17) on the round boss; Round bottom groove (14) adjacent distributions has 11～51 wide round bottom sulculuses of 2mm (18), and bottom land has 4～28 apertures to be through to bottom surface.

6, composite spining module according to claim 1 is characterized in that: be distributed with 10～90Q spinneret orifice (19) on the spinnerets (6), orifice diameter is φ 0.2mm～φ 1mm, and draw ratio is 2:1～8:1.

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