JPH06240529A - Blended carpet yarn - Google Patents

Abstract

PURPOSE: To provide synthetic resin filament blended yarn suitable for formation of a carpet having excellent glosiness, texture, hand touch, stain conceivability and coverability. CONSTITUTION: A blend of fibers contains 51 to 90 wt.% base fibers (a) selected from fibers 21 of a triangular trilobal shape in cross-section having a modification ratio ranging from 2.4 to 3.4; fibers 31 of a hollow pentagonal shape in cross-section; fibers 51 of a standard trilobal shape in cross-section having a modification ratio of at least 2.6; fibers 11 of a pointed trilobal shape in cross-section fibers having a modification ratio of at least 2.6 and mixtures thereof, and about 10 to 49% accent fibers (b) selected from fibers 51 of a standard trilobal shape in cross-section having a modification ratio ranging from 1.7 to 2.4; fibers of a pointed trilobal shape in cross-section having a modification ratio ranging from 2.0 to 2.9 and mixtures thereof is provided.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a fiber blend and a yarn formed from the fiber blend, and particularly to a carpet fiber blend having high bulkiness, high gloss and luster, firm hand and dyeing uniformity. Or it is about yarn.

As used herein, each of the following terms has the following associated meanings.

First, the "modification rate" (MR) is the ratio of the radius R ₂ of the circle surrounding it to the radius R ₁ of the circle as shown in FIG. 3, and the "protrusion angle" (A) is 3 means the angle formed by the intersections of the extension lines on both side edges of the protrusion as shown in FIG.

"Trefoil" is a term used to describe a fiber having three leaflets in cross section and exhibiting a denaturation rate greater than 1, such trefoil fiber being essentially a leaflet profile. Does not have a curved convex surface that forms a point along.

The term "pointed trilobal" means trilobal in cross-section, each leaf surface being regulated by a single projection angle, which projection angle is greater than 56 x MR ^-1.5 .

The term "standard trilobal" refers to a fiber having a trilobal cross section where each lobe surface is constrained by a single protrusion angle and each protrusion angle is less than or equal to 56 × MR ^−1.5. It is a thing.

The term "triangular" means that the cross section comprises three leaf surfaces and one base portion without leaf surfaces, which base portion is triangular. Each leaf surface exists at each vertex of this triangle. An example of a triangular leaf surface fiber is the fiber with the smaller cross-section shown in FIG. Fibers of such cross section are referred to as having a "wolf cross section" because the cross section resembles a wolf's head. The triangular leaf-like cross section is characterized by three leaf surfaces and two protrusion angles A ₀ , A ₁ . A ₀ is usually 0 ° to 25 ° and A ₁ is usually 60 ° to 110 °.

The term "fiber" refers to both filaments (fibers of indefinite length or continuous) and staples (fibers of short constant length).

In the manufacture of fibers used in carpets, it is preferred to provide fibers which result in carpets having a pleasing appearance with respect to outer surface, firmness and gloss. It is known to use a trefoil having a high modification rate and a trilobal cross section to improve the outer carpet surface per unit weight of the carpet by using a trefoil fiber having a high modification rate. However, in general, an increase in the modification rate leads to a decrease in luster or gloss. The present invention, when used for carpet,
Surrounds filament blend yarns that should provide excellent balance.

[0010]

2. Prior Art Reissue of US Patent Granted to Newton 2
The 9352 specification, which is primarily directed to mixed weave processes for forming heather fabrics, discloses broad recognition of fiber blends and blends.

US Pat. No. 3,220,320 issued to Pitsuru
No. 173 shows a modification ratio near the average modification ratio in the range of 1.4 to 2.5. A trilobal fiber in cross section is disclosed. However, these fibers or filaments are not true blend filaments, but are cross-section preconditions similar to average filament shape.

US Pat. No. 3,994, also issued to yarn.
No. 122 describes a blend of crimped staple fibers to be used in a carpet. This blend contains 2 of the same denier cross-section trefoil fibers.
Groups are included, one having a modification rate of 1.6 to 1.9 and the other having a displacement rate of 2.2 to 2.5. The fiber blends have an improved appearance compared to carpets consisting of only one type of fiber, but there is room for further improvement in these.

US Pat. No. 400 issued to Shah
In the specification of 1369, the above-mentioned US Pat.
There is disclosed a method of forming the cross-section trefoil filament yarn described in the specification by co-spinning.

The specification of US Pat. No. 4,472,481 assigned to Starks, Jr. et al. Shows a modification ratio of 3 to 3.
Polyamide crimped fiber having a cross section of trilobal polyamide having a denier of 4, 16 to 24 denier and having a denier of 70 to 90% by weight and a modification ratio of 1.7 to 2.4 and 6 to 12 A cross-section trefoil fiber blend containing 30 to 10 wt% is disclosed.

US Pat. No. 5208, both issued to Tongue
Nos. 106 and 5108838 disclose fibers having a plurality of lobes with a curved convex cross section joined at the tips along each lobe contour.

Further US Pat. No. 4 issued to Pitasun
770938 has axially extending pores on each leaf surface, the total cross-sectional pore area accounting for 15 to 20%,
Disclosed is a trilobal fiber in cross section with a projection angle of 15 ° to 45 °.

US Patent 44 to Bunker et al.
The specification of No. 92731 describes trilobal fibers in cross section having a projection angle associated with a specific range of modification rates.

US Pat. No. 5,2081, issued to Ye et al.
The '07 specification discloses a trilobal fiber in cross section having a single axially extending central void.

While fiber blends have been proposed which provide various benefits as described above, there is still much room for improvement in the appearance and texture quality of carpet yarns.

[0020]

DISCLOSURE OF THE INVENTION The present invention is directed to fibers having a modification rate of 2.4 to 3.4, fibers having a triangular trilobal cross-section, fibers having a hollow pentagonal cross-section, and a modification rate of at least 2.6. Standard trilobal fibers with a modification rate of at least 2.6
A basic fiber (a) having a cross-section of 51 to 90% by weight, and a modification rate of 1.7 to 2.4 About 10 to 49% by weight of accent fibers (b) selected from standard trilobal fibers, fibers with a modified cross section of 2.0 to 2.9 and a pointed trilobal cross section and combinations thereof. The present invention seeks to fill the void in the art by providing a fiber blend containing a. All fibers have edges A, B, C, D and E in FIG.
1 denier per filament in the zone surrounded by. If both fibers (a) and (b) have the same modification rate and denier and the cross-section is a pointed trilobal fiber, the fiber (a) is frosted and the fiber (b) is not frosted.

In a particularly preferred embodiment of the invention, 51 base fibers (a) of triangular trilobal cross section having less than about 22 denier per filament are used.
To 90% by weight and from 18 to 36 denier per filament, 10 to 49% by weight of accented fibers (b) with a pointed trefoil cross section are provided.

It is an object of the present invention to provide a carpet yarn which exhibits optimum gloss, texture, feel and forms a carpet which is less noticeable to stains.

The present invention which can achieve this object will be described more specifically with reference to the accompanying drawings. It goes without saying that the invention should not be limited to these specific examples. Those skilled in the art should be able to easily configure many other specific embodiments that are within the scope of the present invention and are not illustrated and described. The blended fibers according to the present invention maintain a high degree of coverage when carpet is formed without sacrificing gloss. According to one embodiment of the present invention, when the constituent fibers or filaments are matt-treated, not only the gloss is unexpectedly maintained, but also
Further enhanced.

The fiber blend according to the invention comprises 51 to 9
It is composed of 0% by weight of base fiber (a) and 10 to 49% by weight of accent fiber (b). These component fibers (a) and (b) have a denier per filament (dpf) within the zone surrounded by sides A, B, C, D and E of FIG. More preferably, the denier range lies within the zone bounded by sides A ', B', C ', D'and E'in FIG. When both composition fibers (a) and (b) are fibers having the same denier, modification ratio and projection angle, and the cross section is a pointed trefoil, the basic fiber composition component (a) is frosted, The accent fiber composition component (b) is not frosted and remains glossy.

The base fibers consist of single or multiple fiber types having a common carpet fiber cross section. Examples of base fiber cross sections are shown as A, B, C and E in FIG. The cross-sections in the drawings are exemplary only,
The intended MR range limits are shown. It should be understood by those skilled in the art that the cross-section continuum having the modification ratio between the various cross-sections shown in FIG. 6 belongs to the scope of the present invention. These carpet fibers have a cross-section of triangular trilobal fibers with a modification rate of 2.4 to 3.4 (A in FIG. 6), hollow pentagonal fibers (same as B), and standard trilobal fibers with a modification rate of at least 2.6 (similarly). C),
Apex trefoil fibers with a modification rate of at least 2.6 (also E, ME = 2.9) and mixtures thereof. The component base fiber (a) is preferably a fiber 21 of triangular trilobal cross-section as shown in FIG. 3, these are known crimping methods, such as the air jet method, the stuffer box method, the false twist. It may be crimped by a method or the like, or may not be crimped. The base fibers may be symmetric or asymmetric, depending on the unequal protrusion lengths, protrusion angles or the curvatures of the protrusions. Basic fiber (a)
Preferably has a denier in the range 12 to 24. One or more voids in the axial direction may be present or absent. The axial void extends coaxially with the longitudinal axis of the fiber. If provided with voids, it is preferably a single central extension void. In the case of hollow pentagonal fibers, the number of voids may be one or plural. A preferred pentagonal cross section 31 is shown in FIG.

Fiber (b) is an accent fiber that also helps to provide the carpet formed from the blended fiber of the present invention with excellent gloss. They also help balance the carpet's cover, feel and stain-hiding properties, and improve the evenness of carpet dyeing. The accent fibers (b) may or may not be crimped by standard treatment of carpet fibers as described above. The cross section of the accent fiber is as shown in FIG.
It is illustrated as D and E. These cross-sections are merely exemplary and intended MR in some examples.
It only suggests the limit of (modification rate). It should be understood by those skilled in the art that the cross-section continuum having the difference in modification ratio shown in FIG. 6 should belong to the scope of the present invention. Accent fiber (Evidence A No. 1) is a standard trefoil fiber with a modification rate of 2.0 to 2.9 and a pointed trilobal fiber (E in FIG. 6) or a modification rate of 1.7 to 2.4. Preferably. The pointed trefoil fibers are also shown in FIG. 3 as thick fibers 11. The accent fibers (b) may or may not have at least one central axial void. Further, the cross section may be symmetric, or may be asymmetric with respect to equal protrusion length, protrusion angle, and curvature in the protrusion.

Also, as conductive fibers, small amounts of other fibers may be present in the blended naka, as disclosed in US Pat. No. 4,255,487 to Sanders.

In a preferred embodiment of the invention, the base fiber (a) is delustered by adding up to about 0.30% TiO ₂ , surprisingly, the addition of this delustering agent It has been found that when fibers are blended to form a carpet, the reflected flash of the carpet is increased. Even more surprisingly, this flash enhancement effect is that both the base fiber (a) and the accent fiber (b) are pointed trilobal fibers, and the presence or absence of a matting agent is the only component of both compositions (a). ) And (b).

A preferred embodiment of the present invention is shown in FIG.
Is shown in. In this case, one component of the accent fiber (b) is 10 to 49% by weight, preferably 1
Consists of 0 to 20% by weight of pointed trilobal fibers 11. These fibers have a modification rate of 2.3 to 2.8 and 18 to 3
6, preferably having a denier per filament of at least 22. The void 12 may or may not be present. Most preferably, the pointed trilobal fiber is a fiber having excellent glitter.

The remaining 51 to 90 of the fibers shown in FIG.
%, In particular 80 to 90% by weight, is the base fiber (a) of the first composition, which has a modification ratio of 2.7 to 3.0 and a filament of 16 to 22, preferably 20 or less. It consists of fibers 21 having a triangular trefoil cross section with denier. These base fibers (a) may or may not have voids. The triangular trefoil cross-section fibers 21 are preferably 0.10 to 0.15.
Matted with wt% TiO ₂ .

An embodiment of the invention is shown in FIG.
In this case, the accent fibers (b) are comprised of 10 to 49% by weight of the pointed trefoil cross-section fibers 11 having a denier per filament of about 18 to about 36, and the base fibers (a) are hollow pentagonal cross-section fibers. 31 of 51 to 90
Composed of weight percent.

Yet another embodiment of the present invention is shown in FIG. 5, wherein the accent fiber (b) is 10 to 49% by weight, modification ratio 24, about 18 to 36 per filament.
It is composed of standard trilobal fibers 51 having denier, and the basic fiber (a) is composed of 51 to 90% by weight of standard trilobal fibers 53 having a modification rate of 2.6 or more and a projection angle of 13.4 or less.

Polyamides for making fiber blends according to the present invention include nylon 6,6 (polyhexamethylene adipimide) and nylon 6 (poly-ε-caprolactam). As another polyamide, nylon 11, nylon 6, 10, nylon 6,
6 and nylon 6 copolymer, eg nylon 6,6 /
6, conventional nylons such as nylon 6, 6 / 6TA (6TA means hexamethylene terephthalamide unit). Polyester and other fiber forming polymers are likewise useful.

The blended fibers may contain conventional additives such as matting agents (such as TiO ₂ ), heat and light stabilizers, dyes and the like. Such additives are generally added to the monomer during polymerization or to the molten polymer prior to fiber formation. The fibers can be colored with pigments or customary dyes.

The fibers or filaments according to the invention are
It may be melt spun by methods already known or later developed for polymer spinning. Conventional winding or spinning draw texturing can be performed.

Fiber blends in the form of continuous filament yarns are advantageously blended during melt spinning. This can be done using a single spinneret adapted to spin the base fibers (a) and accent fibers (b) in the proper proportions and then the yarn.
When using a single spinneret, different denier per filament and different cross-sections of shape are controlled by the spinneret morphology and precise manufacturing. Alternatively, separate spinnerets can be used to form the fibers as each component. In this case, the respective filaments are combined at an appropriate ratio to form a yarn.
This yarn may be stretch textured into crimped yarns, or staple yarns that can be combined with a plurality of such yarns to form a tow, although continuous filament yarns are preferred.

The subject of the invention is also a carpet formed by the blended filament yarn according to the invention.
The yarn is tacted or woven by known methods. This yarn particularly forms an excellent loop carpet that exhibits a noticeable reflected flash.

A summary of the preferred embodiments of the present invention is as follows.

The fiber blend according to claim (1) fulfills one or more of the following features.

(A) The basic fiber (a) is a trilobal fiber in cross section.

(B) The fibers (a) and (b) are formed of nylon 6.

(C) The fibers (a) and (b) are crimped.

(D) Fiber blend 40-26 in front
Contain zero fibers or filaments.

(E) The blend of filaments is in the form of a single yarn.

(F) The blend of fibers (a) and (b) is not frosted.

(G) The fiber (a) in the blend is a trilobal fiber having a triangular cross section with a modification ratio of 25 to 32 and a void in the central axis direction.

(H) The fiber (b) in the blend is a pointed trilobal fiber with a modification ratio of 2.0 to 2.9 and preferably has a central axial void.

Further preferred embodiments based on the blend according to claim (2) are as follows.

(I) The fibers (a) and (b) in the blend are continuous filaments, in particular the total number of filaments is 68 to 136.

(K) The blend contains nylon 6 fibers of triangular trilobal cross section containing up to 0.30% by weight of titanium dioxide (TiO ₂ ).

(L) The fiber (b) in the blend is 2.3
To 2.8 to 2.8, and a cross-section apical trilobal fiber.

(M) The triangular trefoil fibers in the blend have a modification ratio of 2.5 to 3.0.

[0053]

The present invention will be more specifically described by the following examples.
The details will be described. However, these are merely examples, and the present invention is not limited to these. The parts used in the following examples relate to weight unless otherwise specified.

Evaluation Method The gloss, feel, chips, and cover of the carpet in the following examples were evaluated by a panel consisting of four persons.

Example 1 A high-bulk continuous filament (BCF) combining different cross-sections was formed from two kinds of cross-section composition fibers. Both compositions are non-matt formed from a nylon 6 polymer having a relative viscosity (RV) of 2.7, measured at 25 ° C. in a 96% strength by weight sulfuric acid solution (1 g / 100 ml). It is a glossy fiber.
Both component fibers were formed separately by the spin winding method.

One component fiber (a) was produced by feeding nylon 6 to a spinneret having a throughput of 176 g / min at 270 ° C. and supplying a cooling air flow (25 m / min).
The other component fiber (b) was prepared by feeding nylon 6 to a spinneret having a throughput of 71.5 g / min at 275 ° C. and supplying a cooling air flow (24.4 m / min). The winding speed of both fibers was 650 m / min.

Fiber (a) was spun using a triangular trilobal 68-pore spinneret, and fiber (b) was spun using a spinneret with 14 Y-shaped pores. The spin winding conditions for both composition feed yarns were adjusted so that both yarns had the same tensile properties. Both of these different yarns were merged and fed to the draft texture processor.

A mechanical draw ratio of 3.0 was applied and the other operating conditions were adjusted to obtain a target yarn with a hot water hullness of 12.5% and 40 tangles per meter. The obtained BCF (bulk high continuous filament)
The yarn has (a) a modification rate of 2.9 and a dp of 15.0.
68 triangular trilobal filaments or fibers having f (denier per filament); (b) 1.8
With standard trefoil filaments or fibers 14 having a denaturation rate of 3 and a dpf of 28.6. The blended yarn thus formed was 1420 denier per 82 filaments.

Combined BCF yarns of different cross sections are
Cable twisted to give 4.0 twists per inch, Superba heat set, tufted to 1183 g / m ² and 15.9.
The pile height was 3 mm and the carpet was a gauge cut pile of 3.97 mm. The mixed-filament sample carpet exhibited significantly brighter gloss and very little loss in covering power as compared to a carpet consisting only of triangular trilobal fibers of the same carpet construction.

Example 2 Combined BCF yarns with different cross-sections were formed with two different composition fibers. 2.7 RV (relative viscosity) for both fibers
Spun from nylon 6 polymer (measured at 1 g / 100 ml of a 96% strength by weight sulfuric acid solution at 25 ° C.), both had the same hollow pointed trefoil cross section with a modification ratio of 2.7. The difference between the two fibers is
Only (1) one was glossy and the other was matte treated, and (2) the denier number was different. Both fibers were spun separately in the spin winding process.

Fiber (a) was spun at 270 ° C. with nylon 6 fed into a spinneret with a throughput of 176 g / min and a cooling air stream (25 m / min). The fiber (b) is
Nylon 6 was fed to a spinneret having a throughput of 71.5 g / min at 275 ° C. and spun under the application of a cooling air stream (24.4 m / min). The winding speed of both fibers was 650 m / min.

The fiber (a) was prepared by using a spinneret having a pointed trilobal 68 orifice and a star batch nylon 6 chip containing 30% TiO ₂ was fed to an extruder at a master batch feeding speed. The fiber (b) was spun in a controlled manner to give a yarn containing 0.3% TiO ₂ , a fiber having a shape similar to that of the fiber (a) and a spinneret with 14 orifices. Spun using.
The spinning conditions for both of these were adjusted so that both fibers exhibited the same tensile properties.

Both yarns were then merged and fed to a drafting texturizer, resulting in a mechanical draw ratio of 3.0, draft drafting temperature and cross air flow pressure of 12.5.
It was adjusted to obtain a BCF yarn with a% hot water bulkiness and 40 tangles per meter. The resulting BDF yarn has (a) 68 matte filaments with 20.3 dpf and (b) 14 filaments with a gloss of 30 dpf, thus 82
The filament of the book showed 1800 denier.

This combined BCF yarn of different cross-section filaments was air tangle treated, dyed and 3.17.
mm gauge, 4.76 mm pile height, 3. per cm.
Level loop carpets with 15, 3.54 and 3.94 stitches. Carpet samples formed from this blended filament yarn according to the invention exhibited high covering power, firm hand, and high reflected flash.

Example 3 BCF yarns of different cross-section filaments or fibers were formed by spin drafting texture treatment. 1 g of all the filaments in 96% strength by weight sulfuric acid at 25 ° C.
/ 100ml solution 2.7R
Spun from non-matt nylon 6 having V (relative viscosity). A single spinneret with two different pores was used, so the yarn contained two types of fibers. , Both filaments are made of nylon 6 at 265 ° C.
It was fed to the spinneret at 52 g / min and the cooling air flow was 27.4.
Donated at m / min. The spinning speed was 800 m / min, the drafting speed was 2400 m / min, and the spinning and drafting godets were set to 50 ° C. and 150 ° C., respectively.

One of the blended fibers (a) had 56 filaments with a triangular cross-section having a mean cross-section of 2.80 and a dpf of about 13.7, and the other blended fiber (b) had an average modulus of 2.87. , A dpf of about 26.8, each consisting of 13 filaments of asymmetrical tipped trilobal cross section, so that the blended yarn consists of 69 filaments and 110 filaments.
It has 0 denier.

This mixed yarn of heterogeneous cross-section filaments was treated to give a twist of 4.5 per inch and heat set in an autoclave to 14.28 mm.
Pile height, 3.17 mm gauge, 3. cm per cm.
15 stitches were tufted to form a level loop carpet. Compared to a carpet formed of a similar structure from 100% triangular trilobal cross-section filaments formed under the same spin draft texture conditions, a carpet formed from this heterogeneous cross-section combination filament yarn has a significantly brighter luster. And had the same covering ability.

[Brief description of drawings]

1 is a graph showing the zone bounded by sides A, B, C, D and E, which defines the denier limit of a mixed fiber according to the present invention.

FIG. 2 is a graph showing the more preferable denier limit band.

FIG. 3 is an enlarged cross-sectional view showing a cross-section of a blended yarn according to the present invention having base fibers of triangular trilobal fibers and accent fibers of pointed trilobal fibers.

FIG. 4 is an enlarged cross-sectional view showing a cross section of another blended yarn according to the present invention having hollow pentagonal base fibers and accent fibers of pointed trilobal fibers.

FIG. 5 is an enlarged cross-sectional view showing a cross section of still another blended yarn of the present invention having standard trilobal base fibers and standard trilobal accent fibers.

FIG. 6 is an enlarged cross-sectional view showing the cross-sectional shapes of various basic fibers and accent fibers used in the present invention,
Is two types of triangular trilobal base fibers, B is a hollow pentagonal base fiber, C is a standard trilobal base fiber, D is two types of standard trilobal accent fibers, E is two types of standard pointed trilobal fibers, and both are Both are used as accent fibers, while one (MR ≧ 2.6) is used as the base fiber.

[Explanation of symbols]

MR (R ₂ / R ₁ ) .. Modification rate A ..... Projection angle 11 ..... Tip trilobal fiber 12 ..... Void 21 ..... Triangle trilobal fiber 31 .. Hollow pentagonal fiber 51 .. .. Standard trilobal fiber ( Denaturation rate 2.4) 53 ... standard trilobal fibers (modification rate 2.6 or more)

 ─────────────────────────────────────────────────── ————————————————————————————————————————————————— Inventors Wye, Lee 28704, Arden, Glencrest Drive, North Carolina, USA

Claims (3)

[Claims] 1. A fiber having a modification ratio of 2.4 to 3.4, a cross section having a triangular trilobal shape, a cross section having a hollow pentagonal shape, a modification ratio of at least 2.6, and a cross section having a standard trilobal shape. Fibers, a base fiber (a) of 51 to 90% by weight, selected from among fibers having a modified cross-section of at least 2.6 and having a pointed trilobal cross section and combinations thereof; and a modification ratio of 1.7. From about 2.4 to about 2.4, the cross section of which has a standard trefoil shape, and the modification rate of which is from 2.0 to 2.9, which has a pointed trefoil shape and a combination thereof. % Of accent fibers (b) and the fibers (a) and (b) are the sides A, B, C of FIG.
1 denier per filament in the zone surrounded by D and E, said fibers (a) and (b)
Are both tipped trilobal fibers in cross section and contain the same modification rate and denier per filament, the fiber (a) is matte and the fiber (b) is not matte. 2. A pointed trilobal cross section having from about 51 to 90% by weight of a triangular trilobal base fiber (a) having a denier of less than about 22 per filament and a denier of from about 18 to 36 per filament. About 1 accent fiber (b)
A fiber blend comprising 0 to 49% by weight. 3. A carpet formed from the fiber blend according to claim (1) or (2).