阅读说明：本技术 一种局部绒感凹凸毛圈网布及其制作方法 (Local velvet feeling concave-convex terry mesh cloth and manufacturing method thereof ) 是由 许金泰 刘恋 张英东 陈小梅 林丽冰 谢雪芳 于 2021-08-14 设计创作，主要内容包括：本发明公开了一种局部绒感凹凸毛圈网布及其制作方法,属于纺织技术领域,括一体编织的网布本体,其特征在于：网布本体包括底基层、辅助层及局部设置的毛绒层：毛绒层位于网布本体的上面的局部部位且毛绒层的毛绒为纱线成圈形成的毛圈,毛绒层向下穿过辅助层与底基部成圈连接；辅助层设置于毛绒层的下面且压住毛绒层向下连接到底基层；底基层为编织材料形成的层状结构且位于网布本体的底部,并与辅助层成圈连接。(The invention discloses a local velvet feeling concave-convex terry mesh and a manufacturing method thereof, belonging to the technical field of textile, and comprising an integrally woven mesh body, which is characterized in that: the screen cloth body includes the pile layer that underlayment, auxiliary layer and local set up: the plush layer is positioned on the local part of the upper surface of the screen cloth body, the plush of the plush layer is a looped pile formed by looping yarns, and the plush layer downwards passes through the auxiliary layer to be connected with the base part in a looping manner; the auxiliary layer is arranged below the plush layer and presses the plush layer to be connected to the base layer downwards; the subbase layer is a layered structure formed by weaving materials, is positioned at the bottom of the mesh fabric body and is connected with the auxiliary layer in a looping mode.)

1. The utility model provides a unsmooth looped pile screen cloth of local fine hair sense, includes the screen cloth body that an organic whole was woven, its characterized in that: the screen cloth body includes the pile layer that underlayment, auxiliary layer and local set up:

the plush layer is positioned on the local part of the upper surface of the screen cloth body, the plush of the plush layer is a looped pile formed by looping yarns, and the plush layer downwards passes through the auxiliary layer to be connected with the base part in a looping manner;

the auxiliary layer is arranged below the plush layer and presses the plush layer to be connected to the base layer downwards;

the subbase layer is a layered structure formed by weaving materials, is positioned at the bottom of the mesh fabric body and is connected with the auxiliary layer in a looping mode.

2. The partial pile sense concavo-convex loop screen cloth of claim 1, wherein the sub-base layer is provided with meshes.

3. The partial pile sense concavo-convex terry cloth of claim 2 wherein the base layer is two layers with a scrim layer sandwiched therebetween, the holes of the base layer not being penetrated by the scrim layer.

4. The partial pile sense concavo-convex loop mesh cloth according to any one of claims 1 to 3, wherein the pile layer is composed of at least two kinds of yarns of different materials.

5. The partial velvet feeling terry cloth according to any one of claims 1 to 3 wherein the auxiliary layer is further provided with a jacquard layer of at least one color yarn, the jacquard layer passing through the auxiliary layer and connecting with the base layer.

6. The partial pile sense terry cloth according to claim 4 wherein the auxiliary layer is further provided with a patterned layer of at least one color yarn thereon, the patterned layer being connected to the base layer through the auxiliary layer downwardly or upwardly.

7. The partial pile textured terry cloth of claim 5 wherein the pile layer is comprised of yarns of at least two different materials.

8. The method for manufacturing the local velvet-feeling concavo-convex loop mesh cloth according to any one of claims 1 to 7, wherein: the method comprises the following steps:

the guide bar is arranged: selecting a jacquard warp knitting machine with a plurality of guide bars for knitting;

and (3) bar threading: threading each guide bar according to the technological requirements;

weaving the screen cloth: by utilizing a double-needle bed process with at least one guide bar, alternately lapping yarns on a front needle bed and a rear needle bed in turn to form loops, and forming local pile sense pile loops by warp knitting and chaining organization at the local pile sense pile loop part so as to form a pile layer; at least one guide bar is utilized to run the warp knitting chain stitch on the back needle bed, the warp knitting chain stitch is run on the front needle bed to be matched with the base bottom layer, and the yarns of the auxiliary layer pull the local pile feeling pile loops, so that the pile layer is not displayed on the front needle bed; at least one guide bar is used to run the warp knit chain stitch at the front needle bed to form the sub-base layer.

9. The method for manufacturing a partial velvet-feel concavo-convex loop mesh cloth according to claim 8, wherein: the guide bar forming the subbase layer is utilized to walk the warp knitting chain tissue on the front needle bed and walk the floating thread tissue on the back needle bed, the guide bar forming the plush layer is utilized to walk the mesh knitting chain tissue on the front needle bed, the guide bar forming the auxiliary layer is utilized to walk the warp knitting chain tissue on the front needle bed and walk the floating thread tissue on the back needle bed, and all the guide bars are mutually matched to form meshes.

Technical Field

The invention relates to the technical field of spinning, in particular to a local velvet feeling concave-convex terry mesh and a manufacturing method thereof.

Background

The flannelette is a fabric with a smooth and fluffy surface after napping, has a soft flannelette body, is comfortable to wear, has good heat retention property, and is suitable for being used as winter underwear and pajamas. The raising of the flannelette usually depends on a napping machine to use intensive steel wire needle points to repeatedly act for many times to pick up fibers on the surface layer of the fabric to form a velvet feeling effect, the raised fabric is damaged through velvet feeling fibers in a physical form, the weft-wise strength loss is large, the fabric is easy to deform, form shrunk and hardened and lose elasticity, and the velvet is not supported and is easy to fall down, so that the softness and fluffiness are influenced. As consumer demands for the application of the lint vary, and particularly, consumer demands for the application of the lint to the shoe upper, the physical property deficiencies of the existing lint prevent the lint from being used in this respect.

Particularly when local raising is needed, the prior technical scheme is that a film-forming sealing agent (such as an adhesive, a cross-linking agent and the like) capable of forming film-forming sealing on the surface of fibers is printed on a non-raising part of a fabric, so that steel wire needles of a napping machine are not easy to pierce into the surface of cotton yarns, and the fibers cannot be picked to achieve the non-raising effect. Although the prior art can also meet the effect of local raising, the whole process has the problems of complicated process, environmental protection and the like after the film-forming sealing agent is used.

In addition, most of terry fabrics on the market are knitted by a circular knitting machine, the terry fabric knitted by the circular knitting machine is knitted in a transverse knitting manner, and the circular knitting machine cannot directly knit a perforated structure and does not have a good ventilation effect.

The traditional warp knitting weaving process can only realize the different grain changes of the surface flat part, the surface mesh part, the bottom base part or the surface mesh part and the surface flat part and the comparison of the bottom base part on the traditional process, and the traditional process can only realize the different plain cloth changes of the surface and the different mesh changes of the surface, and cannot realize the thick and thin concavo-convex velvet feeling; the jacquard basic process can only realize thin flat cloth of the surface under the condition of no deflection of the needle, and can realize thin flat cloth and thick flat cloth of the surface in different directions under the condition of 1 needle deflection, but the effect of local fluffy feeling can not be realized no matter whether the thick and thin grains are independent or combined by design.

Disclosure of Invention

In order to solve the technical problem in the prior flannelette weaving process, the invention provides a local velvet feeling concave-convex terry mesh cloth and a manufacturing method thereof.

The invention discloses a local velvet feeling concave-convex terry mesh cloth

The utility model provides a unsmooth looped pile screen cloth of local fine hair sense, includes the screen cloth body that an organic whole was woven, and the screen cloth body includes the pile layer that underlayment, auxiliary layer and part set up:

the plush layer is positioned on the local part of the upper surface of the screen cloth body, the plush of the plush layer is a looped pile formed by looping yarns, and the plush layer downwards passes through the auxiliary layer to be connected with the base part in a looping manner;

the auxiliary layer is arranged below the plush layer and presses the plush layer to be connected to the base layer downwards;

the subbase layer is a layered structure formed by weaving materials, is positioned at the bottom of the mesh fabric body and is connected with the auxiliary layer in a looping mode.

Preferably, the sub-base layer is provided with meshes.

Preferably, the subbase is two layers, a plain cloth layer is clamped between the two subbase layers, and the cavity of the subbase layer does not penetrate through the turbine cloth layer.

Preferably, the pile layer is composed of yarns of at least two different materials.

Preferably, a jacquard layer consisting of at least one color yarn is arranged on the auxiliary layer, and the jacquard layer penetrates through the auxiliary layer downwards or upwards to be connected with the base layer.

The invention also discloses a method for manufacturing the local velvet feeling concave-convex terry mesh cloth

A manufacturing method of local velvet-feel concave-convex terry mesh cloth comprises the following steps:

the guide bar is arranged: selecting a jacquard warp knitting machine with a plurality of guide bars for knitting;

and (3) bar threading: threading each guide bar according to the technological requirements;

weaving the screen cloth: by utilizing a double-needle bed process with at least one guide bar, alternately lapping yarns on a front needle bed and a rear needle bed in turn to form loops, and forming local pile sense pile loops by warp knitting and chaining organization at the local pile sense pile loop part so as to form a pile layer; at least one guide bar is utilized to run the warp knitting chain stitch on the back needle bed, the warp knitting chain stitch is run on the front needle bed to be matched with the base bottom layer, and the yarns of the auxiliary layer pull the local pile sense pile loops forward, so that the pile layer is not displayed on the front needle bed; at least one guide bar is used to run the warp knit chain stitch at the front needle bed to form the sub-base layer.

Preferably, the guide bar forming the sub-layer is used for weaving the warp knitting chain on the front needle bed and the floating thread tissue is woven on the back needle bed, the guide bar forming the plush layer is used for weaving the mesh knitting chain tissue on the front needle bed, the guide bar forming the auxiliary layer is used for weaving the warp knitting chain tissue on the front needle bed and the floating thread tissue is woven on the back needle bed, and all the guide bars are matched with each other to form the meshes.

By adopting the technical scheme, the invention has the beneficial effects that:

1. compared with the existing circular knitting machine terry fabric and the napping technology, the local velvet feeling concave-convex terry mesh cloth formed by the scheme breaks through the defect that the traditional velvet fabric cannot be holed, the local velvet feeling concave-convex terry mesh cloth is combined with the guide bar threading change, the needle method is reasonably applied, holes can be formed, the hole forming effect can be designed and changed at will, the hole forming width, the hole forming number and the hole forming length of the local velvet feeling concave-convex terry mesh cloth can be realized according to the design effect, and the velvet feeling and the line combination of meshes can be enriched; through the concave-convex looped pile screen cloth of local fine hair sense of subbase portion texture change not only can open a hole and also can realize the line effect that has connecting yarn in the middle of the trompil, connecting yarn root also can change from thin to thick in the middle of the trompil for can present more line effects.

2. Compared with the prior physical napping technology, the local velvet feeling concave-convex terry cloth is integrally knitted and formed by the jacquard warp knitting machine, the napping effect can be completed only by the assistance of the napping machine and other equipment, the local velvet feeling terry of the local velvet feeling concave-convex terry cloth forms terry cloth on the face through the transverse movement of the warp knitting guide bars, meanwhile, each pile loop is tightly woven on the reverse side by the transverse movement of the guide bar of the bottom base, each pile loop on the face is guaranteed to be woven and held by the bottom base yarn, the original characteristics of soft hand feeling and three-dimensional concave-convex of the flannelette fabric are kept, the flannelette fabric has the advantages of soft hand feeling, thick texture, good water absorption, good heat retention and the like compared with common mesh fabrics, and the defects that the existing flannelette fabric is easy to deform, shrink and harden, lose elasticity and the soft and fluffy are influenced because the pile is not supported and is easy to fall down are overcome.

3. Compared with the existing warp knitting technology, the warp knitting technology of the local velvet feeling concave-convex terry mesh cloth changes the limitation of the existing technology through the combination of a yarn stitching method, has the advantages of local velvet feeling, can well reflect the opening of warp knitting, and forms the special local velvet feeling concave-convex fabric with warp knitting.

4. Compared with the existing local napping technology, the local napping of the local velvet feeling concave-convex terry mesh cloth is integrally woven and formed by the jacquard warp knitting machine, and the napping is not needed by auxiliary equipment such as a napping machine, so that the equipment investment is saved; the processing procedures such as singeing and napping are reduced, and the processing cost is saved; chemical reagents such as a film forming sealant and the like are not needed, so that the environment is protected.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only one or several embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to such drawings without creative efforts.

FIG. 1 is a schematic view of a partial pile sense concavo-convex loop mesh fabric according to the present invention;

FIG. 2 is a schematic cross-sectional view of section A of the present invention;

FIG. 3 is a schematic diagram of a structural simulation of the present invention;

FIG. 4 is an enlarged view of a mesh portion of the present invention;

FIG. 5 is a schematic view showing a multicolor pile layer according to example 3 of the present invention;

FIG. 6 is a schematic diagram of a simulation of the effect of a patterned layer according to the present invention.

Description of the main reference numerals: 1. a mesh body; 2. an underlayer; 3. an auxiliary layer; 4. a plush layer; 5. mesh openings; 6. a jacquard layer.

Detailed Description

The following detailed description of the embodiments of the present invention will be provided with reference to the drawings and examples, so that how to apply the technical means to solve the technical problems and achieve the technical effects can be fully understood and implemented. It should be noted that, as long as there is no conflict, the embodiments and the features of the embodiments of the present invention may be combined with each other, and the technical solutions formed are within the scope of the present invention.

In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the embodiments of the invention. It will be apparent, however, to one skilled in the art that the present invention may be practiced without some of these specific details or with other methods described herein.

[ concave-convex pile net cloth with local velvet feeling provided by the invention ]

A local velvet feeling concave-convex terry mesh cloth comprises a mesh cloth body 1 which is integrally woven, wherein the mesh cloth body 1 comprises a base layer 2, an auxiliary layer 3 and a locally arranged velvet layer 4, the velvet layer 4 is positioned at a local part on the mesh cloth body 1, the velvet of the velvet layer 4 is a terry formed by looping yarns, and the velvet layer 4 downwards penetrates through the auxiliary layer 3 to be connected with the base layer 2 in a looping manner; the auxiliary layer 3 is arranged below the plush layer 4 and presses the plush layer 4 to be connected to the underlayer 2 downwards; the subbase layer 2 is a layered structure formed by weaving materials, is positioned at the bottom of the mesh cloth body 1 and is connected with the auxiliary layer 3 in a looping manner.

The subbase layer 2 of the local velvet-feeling concavo-convex terry net cloth can be provided with meshes 5, can be full-transparent meshes 5, semi-transparent meshes 5 and gradual-change meshes 5, and can also be provided with floating lines in the middle of the meshes 5; when the number of layers of the base layer 2 exceeds one, a plain cloth layer can be clamped between two or more layers of the base layer 2, the mesh 5 does not penetrate through the turbo cloth layer to enable the plain cloth layer to be displayed in the mesh 5, and the plain cloth layer can be a fabric with compact tissues or a sparse fabric or a mesh fabric.

The pile layer 4 may also be formed of at least two materials or yarns of different colors, so that the pile layer 4 has different visual effects.

The auxiliary layer 3 may be further provided with a jacquard layer 6 of at least one color or material, the jacquard layer 6 may form jacquard patterns of different patterns according to the process requirements, and the jacquard layer 6 is connected to the sub-layer 2 downward or upward.

The pile layer 4, the auxiliary layer 3 and the sub-base layer 2 can also be combined by one or more of the elements mentioned above.

[ method for manufacturing a partial pile-feeling concave-convex loop net cloth according to the present invention ]

A manufacturing method of local velvet-feel concave-convex terry mesh cloth comprises the following steps:

s1, setting guide bars: selecting a jacquard warp knitting machine with a plurality of guide bars for knitting;

s2, bar threading: threading each guide bar according to the technological requirements;

s3, weaving of mesh cloth: by utilizing a double-needle bed process with at least one guide bar, alternately lapping yarns on a front needle bed and a rear needle bed in turn to form loops, and forming local pile sense pile loops by a warp knitting chain stitch at the local pile sense pile loop part so as to form a pile layer 4; at least one guide bar is utilized to run the warp knitting chain tissue on the back needle bed, and the warp knitting chain tissue on the front needle bed is matched with the subbase layer 3; the yarns of the auxiliary layer 3 pull the local pile feeling loops so that the pile layer 4 is not displayed on the front needle bed; the sub-base layer 2 is formed by running the warp knitted chain stitch at the front needle bed by means of at least one guide bar.

When needing lifting holes, the guide bar forming the subbase layer 2 is utilized to walk on the front needle bed to weave the knitting chain tissue with the floating line on the back needle bed, the guide bar forming the plush layer 4 is utilized to walk on the front needle bed to weave the knitting chain tissue with the meshes, the guide bar forming the auxiliary layer 3 is utilized to walk on the front needle bed to weave the knitting chain tissue with the floating line on the back needle bed, and all the guide bars are mutually matched to form the meshes 5.

Example 1

Referring to fig. 1 to 4, the invention provides a local velvet feeling concavo-convex terry cloth, and the local velvet feeling concavo-convex terry cloth of the embodiment is integrally woven by a double-needle bed jacquard warp knitting machine, and includes a velvet layer 4, an auxiliary layer 3, a base layer 2 and meshes 5.

S1, setting guide bars: the jacquard warp knitting machine for knitting comprises 5 guide bars, wherein the 5 guide bars are sequentially arranged as a third ground guide bar (hereinafter, GB 3), a first jacquard guide bar (hereinafter, JK 1-1), a second jacquard guide bar (hereinafter, JK 1-2), a fourth ground guide bar (hereinafter, GB 4) and a fifth ground guide bar (hereinafter, GB 5) from a front needle bed to a back needle bed.

S2, bar threading: the JK1-1 and the JK1-2 are threaded in a mode that 1 thread is threaded and 1 empty, namely 1 position is left after each 1 thread is threaded and the yarn is continuously threaded circularly; GB3, GB4 and GB5 all perform threading in a full-through manner.

S3, weaving of mesh cloth:

JK 1-1: warping P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn, wherein a creel 1536 yarns have the gear let-off amount of 3600 mm/wax, the warp-knitting basic structure of 1-0/1-0/1-2/1-2//, and the content of the P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn is about 27.678%;

JK1-2, warping P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn, a creel 1536 yarns, a gear let-off amount of 3600 mm/wax, a warp-knitted basic structure 1-0/1-0/1-2/1-2//, and the content of the P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn is about 27.678%.

JK1-1 and JK1-2 double needle bed processes 1-0/1-0/1-2/1-2//, 1-0/1-0/1-2/1-2//, wherein the front needle bed and the rear needle bed are sequentially and alternately padded with yarns to form a loop, a warp knitting chain stitch 2-1/2-1/1-2/1-2// is arranged on the surface of the screen cloth body 1 to form a local velvet feeling concavo-convex pile loop, and the length of the local velvet feeling concavo-convex pile loop can be realized by adjusting the opening of equipment.

In addition, according to design requirements, the JK1-1 and the JK1-2 jacquard guide bars can be designed to randomly improve the concave-convex hand feeling, increase the concave-convex hand feeling and enrich the jacquard effect.

JK1-1 and JK1-2 based double needle bed processes 1-0/1-0/1-2/1-2//, 1-0/1-0/1-2/1-2//, when JK1-1 and JK1-2 based processes 2-1/1-1/1-2/2-2// on the surface of the mesh fabric body 1 and the auxiliary part 1-0/0-0/0-1/1-1// and the bottom base part based double needle bed process 1-0/1-1/0-1/1-1// on the front of the bottom base part needle bed 1-0/0-1 knitting chain stitch, 1-1/1-1 floating thread tissues are arranged at the bottom of the face and matched with each other to weave regular and irregular mesh 5 tissues.

The common polyester multifilament can be used according to the combed yarn, the visual concave-convex effect of the local concave-convex terry of the surface can be enhanced by utilizing the soft and comfortable characteristics of the multifilament, and the fabric has micro elasticity when being knitted, so that the extensibility of the fabric is enhanced, and the knitted product has higher softness.

GB 3: P-DTY150D/48F semi-optical environment-friendly low-elasticity light net (recycle) yarns, 512 yarns for each pan head of 6 pan heads, 1720 mm/wax of gear let-off quantity, 1-0/1-1/0-1/1-1//, and P-DTY150D/48F semi-optical environment-friendly low-elasticity light net (recycle) yarns account for about 26.448%.

GB3 is used as a base warp knitting chain stitch 1-0/1-1/0-1/1-1// of local velvet concavo-convex terry net cloth, can be matched with JK1-1 and JK1-2 basic processes 2-1/1-1/1-2/2-2 on the surface of the net cloth body 1 and an auxiliary part 1-0/0-0/0-1/1-1// to form a regular and irregular mesh 5 stitch.

GB3 also can go through the tricot knitting warp plain weave 1-0/1-1/1-2/1-1// go through tricot knitting warp plain weave 1-0/1-2//' at the preceding needle bar of base portion, at back needle bar 1-1/1-1// go float line and form the plain cloth, improve local matte sense unsmooth looped pile screen cloth rered fabric nature and thickness, cover supplementary portion tissue and weave different line plain cloth tissue, GB1, GB2 can weave the plain cloth tissue of different textures according to the demand simultaneously.

In addition, the GB3 warp knitting ground comb can design a knitting regular warp knitting mesh 5 tissue and an irregular gradual change warp knitting mesh tissue process according to design requirements through reasonable process and guide bar empty threading change, the variable texture effect of the local velvet feeling concave-convex terry cloth knitted by the double-needle-bed high-speed warp knitting machine is improved, and the unique advantages of the double-needle-bed high-speed warp knitting machine are fully utilized.

GB 4: warping P-DTY50D/24F semi-gloss low-elasticity light net yarn, 512 yarns for each pan head of 6 pan heads, the warp feeding amount of a gear is 1200 mm/wax gram, the warp knitting basic structure is 1-1/1-0/0-0/0-1//, and the content of the P-DTY50D/24F semi-gloss low-elasticity light net yarn is about 6.151%.

GB 5: warping P-DTY50D/24F semi-gloss low-elasticity light net yarn, 512 yarns of 6 pan heads per pan head, 2350 mm/wax of gear let-off, 1-0/0-0/0-1/1-1//, P-DTY50D/24F semi-gloss low-elasticity light net yarn content of 12.045%.

The combed yarn uses low-F-number multifilament, and utilizes the characteristics of softness, comfort and low F number of the multifilament, GB5 walks through a warp knitting floating line tissue 0-0/1-1// walks through a front needle bed 1-0/0-1//, a chain knitting tissue needing to form a mesh 5 with JK1-1 and JK1-2 walks through a front needle bed 2-1/1-2//, walks through a front needle bed 1-1/2-2/, and GB3 walks through a warp knitting chain knitting tissue 1-0/0-1//, a warp knitting floating line tissue 1-1/1-1/, GB5, JK1-1, JK1-2 and GB3 mutually cooperate to form the mesh 5;

and the 150D yarn of the front needle bed GB3 is consistent with the 150D yarn of JK1-1 and JK1-2 in thickness, so that the velvet feeling formed when the JK1-1 and JK1-2 run the warp knitting chain stitch 2-1/1-2// is pulled and is not displayed on the front needle bed.

GB4 knitting chain stitch 1-0/0-1// knitting floating stitch 1-1/0-0// knitting flat stitch 1-0/1-2// knitting flat stitch, JK1.1 and JK1.2, needing to form flat cloth, on the back needle bed, knitting flat stitch 2-1/1-2// forming flat cloth texture on the front needle bed, meanwhile, the stitch of JK1-1 and JK1-2 flat cloth can be changed into that of knitting flat cloth 1-0/2-3// knitting flat cloth on the back needle bed, knitting flat cloth texture 2-1/1-2// forming thick solid cloth texture on the front needle bed, and design richness is increased

GB5 walks 2-1/1-2// at the front needle bed and walks 2-1/1-2// at the back needle bed for the chain knitting tissue of JK1-1 and JK1-2 needing to form the mesh 5 at the front needle bed, and GB 5P-DTY 50D/24F semi-gloss low-elasticity light mesh yarn is thinner than JK1-1 and JK 1-2P-DTY 150D/48F semi-gloss environment-friendly low-elasticity light mesh yarn, GB5 is used as an auxiliary yarn to pull the fluffy yarn formed by JK1-1 and JK1-2, so that the mesh fabric with the fluffy texture is formed.

Compared with the prior art, the local velvet feeling concave-convex coil screen cloth is integrally woven by a double-needle bed jacquard warp knitting machine, holes and local velvet feelings are formed at one time, equipment or chemical reagents such as a velvet raising machine and the like are not needed, the defect that a large circular knitting machine cannot lift holes is overcome, working procedures, labor and cost are saved on local velvet raising, and the local velvet raising is more environment-friendly.

Example 2

Referring to fig. 1 to 4, on the basis of embodiment 1, the partial pile feeling concavo-convex loop mesh fabric of the present invention may further include:

s1, setting guide bars: the jacquard warp knitting machine for knitting comprises 7 guide bars, wherein the 7 guide bars are sequentially arranged as a fifth guide bar (hereinafter, GB 5), a first jacquard guide bar (hereinafter, JK 1-1), a second jacquard guide bar (hereinafter, JK 1-2), a third jacquard guide bar (hereinafter, JK 2-1), a fourth jacquard guide bar (hereinafter, JK 2-2), a sixth guide bar (hereinafter, GB 6) and a seventh guide bar (hereinafter, GB 7).

S2, bar threading: the JK1-1, the JK1-2, the JK2-1 and the JK2-2 are threaded in a mode that 1 thread is threaded and 1 empty, namely 1 position is left after each 1 thread is threaded and the yarn is threaded continuously and circularly; GB5, GB 6 and GB7 all perform threading in a full-through manner.

S3, weaving of mesh cloth:

JK 1-1: warping P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn, wherein a creel 1536 yarns, the gear let-off amount is 3600 mm/wax, the warp-knitting basic structure is 1-0/1-0/1-2/1-2//, and the content of the P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn is about 13.839%.

JK1-2: warping P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn, wherein a creel 1536 yarns, the gear let-off amount is 3600 mm/wax, the warp-knitting basic structure is 1-0/1-0/1-2/1-2//, and the content of the P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn is about 13.839%.

JK 2-1: warping P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn, wherein a creel 1536 yarns, the gear let-off amount is 3600 mm/wax, the warp-knitting basic structure is 1-0/1-0/1-2/1-2//, and the content of the P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn is about 13.839%.

JK 2-2: warping P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn, wherein a creel 1536 yarns, the gear let-off amount is 3600 mm/wax, the warp knitting basic structure is 1-0/1-0/1-2/1-2//, the content of the P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn accounts for about 13.839 percent

GB 5: P-DTY150D/48F semi-optical environment-friendly low-elasticity light net (recycle) yarns, 512 yarns for each pan head of 6 pan heads, 1720 mm/wax of gear let-off quantity, 1-0/1-1/0-1/1-1//, and P-DTY150D/48F semi-optical environment-friendly low-elasticity light net (recycle) yarns account for about 26.448%.

GB 6: the whole P-DTY50D/24F semi-gloss low-elasticity light net yarn comprises 512 yarns for each pan head of 6 pan heads, the let-off of a gear is 1200 mm/wax, the basic texture of warp knitting is 1-1/1-0/0-0/0-1//, and the content of the P-DTY50D/24F semi-gloss low-elasticity light net yarn is about 6.151%.

GB 7: warping P-DTY50D/24F semi-gloss low-elasticity light net yarn, 512 yarns of 6 pan heads per pan head, 2350 mm/wax of gear let-off, 1-0/0-0/0-1/1-1//, P-DTY50D/24F semi-gloss low-elasticity light net yarn content of 12.045%.

Example 3

Referring to fig. 1 to 4, on the basis of embodiment 1, the local pile feeling concavo-convex loop mesh fabric provided by the present invention may further include:

s1, setting guide bars: the jacquard warp knitting machine for knitting includes 9 guide bars, and the 9 guide bars are sequentially set from the front needle bed to the rear needle bed as a seventh guide bar (hereinafter, referred to as GB 7), a first jacquard guide bar (hereinafter, referred to as JK 1-1), a second jacquard guide bar (hereinafter, referred to as JK 1-2), a third jacquard guide bar (hereinafter, referred to as JK 2-1), a fourth jacquard guide bar (hereinafter, referred to as JK 2-2), a fifth jacquard guide bar (hereinafter, referred to as JK 3-1), a sixth jacquard guide bar (hereinafter, referred to as JK 3-2), an eighth guide bar (hereinafter, referred to as GB 8), and a ninth guide bar (hereinafter, referred to as GB 9).

S2, bar threading: JK1-1, JK1-2, JK2-1, JK2-2, JK3-1 and JK 3-2 are threaded in a mode that 1 thread is threaded and 1 empty, namely 1 position is left after 1 yarn is threaded and the yarn is threaded continuously and circularly; GB7, GB8 and GB9 all perform threading in a full-through manner.

S3, weaving of mesh cloth:

JK 1-1: warping P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight gauze yarn, wherein each pan head has 256 yarns for 6 pan heads, the let-off of a gear is 3600 mm/wax, the warp-knitting basic structure is 1-0/1-0/1-2/1-2//, and the content of the P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight gauze yarn is about 9.226%.

JK1-2: warping P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight gauze yarn, wherein each pan head has 256 yarns for 6 pan heads, the let-off of a gear is 3600 mm/wax, the warp-knitting basic structure is 1-0/1-0/1-2/1-2//, and the content of the P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight gauze yarn is about 9.226%.

JK 2-1: warping P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn, wherein a creel 1536 yarns, the gear let-off amount is 3600 mm/wax, the warp-knitting basic structure is 1-0/1-0/1-2/1-2//, and the content of the P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn is about 9.226%.

JK 2-2: warping P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn, wherein a creel 1536 yarns, the gear let-off amount is 3600 mm/wax, the warp-knitting basic structure is 1-0/1-0/1-2/1-2//, and the content of the P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn is about 9.226%.

JK 3-1: warping P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn, wherein a creel 1536 yarns, the gear let-off amount is 3600 mm/wax, the warp-knitting basic structure is 1-0/1-0/1-2/1-2//, and the content of the P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn is about 9.226%.

JK 3-2: warping P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn, wherein a creel 1536 yarns, the gear let-off amount is 3600 mm/wax, the warp-knitting basic structure is 1-0/1-0/1-2/1-2//, and the content of the P-DTY150D/48F semi-gloss environment-friendly low-elasticity light-weight net yarn is about 9.226%.

GB 7: P-DTY150D/48F semi-optical environment-friendly low-elasticity light net (recycle) yarns, 512 yarns for each pan head of 6 pan heads, 1720 mm/wax of gear let-off quantity, 1-0/1-1/0-1/1-1//, and P-DTY150D/48F semi-optical environment-friendly low-elasticity light net (recycle) yarns account for about 26.448%.

GB 8: warping P-DTY50D/24F semi-gloss low-elasticity light net yarn, 512 yarns for each pan head of 6 pan heads, the warp feeding amount of a gear is 1200 mm/wax gram, the warp knitting basic structure is 1-1/1-0/0-0/0-1//, and the content of the P-DTY50D/24F semi-gloss low-elasticity light net yarn is about 6.151%.

GB 9: warping P-DTY50D/24F semi-gloss low-elasticity light net yarn, 512 yarns of 6 pan heads per pan head, 2350 mm/wax of gear let-off, 1-0/0-0/0-1/1-1//, P-DTY50D/24F semi-gloss low-elasticity light net yarn content of 12.045%.

It is worth noting that the multi-color effect (shown in figure 5) of the partial pile sense concavo-convex pile loop net cloth pile layer 4 can be realized on the basis of the embodiment 1 by using the embodiments 2 and 3, and the multi-color effect can be freely realized, meanwhile, the whole net cloth is thickened due to the increase of the number of the guide bars, so that the physical property of the partial pile sense concavo-convex pile loop net cloth can be greatly enhanced while the partial thickness effect is realized.

Example 1 uses JK1-1, JK1-2 with the auxiliary layer 3 and the base layer to form a flat cloth, example 2 can not only form a flat cloth by using JK1-1, JK1-2 with the auxiliary layer 3 and the base layer 2; the jacquard guide bars JK1-1, JK1-2, JK2-1 and JK2-2 can be matched with the auxiliary layer 3 and the sub-base layer 2 to form plain cloth, so that the thickness of the plain cloth part of the mesh cloth is more three-dimensional;

example 3 since there are six guide bars to be fitted not only a plain cloth can be formed by using JK1-1, JK1-2 with the auxiliary layer 3 and the under layer 2; meanwhile, four jacquard guide bars, namely JK1-1, JK1-2, JK2-1 and JK2-2, are matched with the auxiliary layer 3 and the subbase layer 2 to form plain cloth, and six jacquard guide bars, namely JK1-1, JK1-2, JK2-1, JK2-2, JK3-1 and JK 3-2, are matched with the auxiliary layer 3 and the subbase layer 2 to form plain cloth, so that the thickness of a plain cloth part forming the mesh cloth is increased, and the physical property of the whole mesh cloth is improved;

simultaneously the increase of sley bar can realize that surface course, middle level, bottom form mesh 5 simultaneously, perhaps surface course, bottom realize freely trompil middle level plain cloth again to and 5 middle levels in mesh are opened to the surface course and 5 combinations of 5 bottom plain cloths of multiple mesh 5 forms such as mesh are opened:

example 1 the mesh 5 of the partial velvet-feeling concavo-convex terry net cloth is formed by matching JK1-1, JK1-2 with the technical organization of the base layer 2 to form the mesh 5 of the complete through hole; embodiment 2 based on embodiment 1, 2 jacquard guide bars are added to realize that 1, JK1-1, JK1-2, JK2-1 and JK2-2 are matched with the technical organization of the underlayer 2 to form a mesh 5 with a thickness and complete through holes; 2. JK1-1, JK1-2, JK2-1, JK2-2 are matched with the technical organization of the bottom base layer 2 to form a middle floating wire mesh 5; 3. JK1-1, JK1-2, JK2-1 and JK2-2 are matched with the bottom process tissue to form a semi-transparent mesh 5; embodiment 3 can realize the local velvet feeling concavo-convex looped pile mesh 5 in the above embodiments 1 and 2, and simultaneously can form the surface mesh 5 and the bottom mesh 5 with flat cloth effect lines in the middle through the matching of the JK1-1, JK1-2, JK2-1, JK2-2, JK3-1 and JK 3-2 and the bottom base layer 2 process organization.

The embodiment 1 can not realize the mesh cloth jacquard V-point effect, the embodiment 2 can realize the effects of the local velvet feeling concavo-convex terry and the jacquard V-point while the embodiment 2 can realize the local velvet feeling concavo-convex terry by adding two jacquard guide bars and the embodiment 3 can realize the effects of the jacquard V-point, the jacquard double V, the jacquard pure color V-point, the jacquard double color V-point, the jacquard color mixed V-point (attached figure 6) and the like.

The present invention and its embodiments have been described above schematically, without limitation, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching, without departing from the spirit of the invention, the person skilled in the art shall not inventively design the similar structural modes and embodiments to the technical solution, but shall fall within the scope of the invention.