WO2021042869A1 - 一种双层经编间隔织物及一种经编机 - Google Patents

一种双层经编间隔织物及一种经编机 Download PDF

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Publication number
WO2021042869A1
WO2021042869A1 PCT/CN2020/101224 CN2020101224W WO2021042869A1 WO 2021042869 A1 WO2021042869 A1 WO 2021042869A1 CN 2020101224 W CN2020101224 W CN 2020101224W WO 2021042869 A1 WO2021042869 A1 WO 2021042869A1
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Prior art keywords
group
fabric
needle bed
bar
layer
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PCT/CN2020/101224
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English (en)
French (fr)
Inventor
蒋高明
丛洪莲
夏风林
张爱军
张燕婷
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江南大学
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Publication of WO2021042869A1 publication Critical patent/WO2021042869A1/zh

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    • DTEXTILES; PAPER
    • D04BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
    • D04BKNITTING
    • D04B21/00Warp knitting processes for the production of fabrics or articles not dependent on the use of particular machines; Fabrics or articles defined by such processes
    • D04B21/06Patterned fabrics or articles
    • DTEXTILES; PAPER
    • D04BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
    • D04BKNITTING
    • D04B23/00Flat warp knitting machines
    • D04B23/02Flat warp knitting machines with two sets of needles

Definitions

  • the invention relates to a double-layer warp knitting spacer fabric and a warp knitting machine, belonging to the technical field of warp knitting spacers and textile equipment.
  • Warp-knitted spacer fabric refers to a fabric with more than two fabric planes connected by spacer yarns between the planes. The distance between the planes forms the thickness of the fabric. This type of fabric can be used for mattresses, shoe uppers, and seat cushions. And composite materials.
  • the current warp-knitted spacer fabric is produced on a double-needle-bed warp-knitting machine. It has two fabric planes and a spacer layer. By changing the inlay on one or two fabric planes, different pattern effects can be formed. See Patent No. CN1782156A patent document.
  • the compression resistance of the spacer fabric can be improved by changing the supporting direction of the spacer yarn and/or using high-strength spacer yarn.
  • the present invention provides a double-spaced warp knitted fabric with different compression resistance properties on both sides and a warp knitting machine that can be used to knit the double-spaced warp knitted fabric described in this application.
  • the first object of the present invention is to provide a double-layer warp-knitted spacer fabric, including:
  • the first and second fabric layers and the second and second fabric layers are stitched together by a stitching layer to form a double-layer warp-knitted spacer fabric;
  • the difference between the coefficient of elasticity of the first and second fabric layers and the coefficient of elasticity of the second two fabric layers meets a first preset requirement; the first preset requirement is set according to the actual demand for compression resistance. Certainly, the coefficient of elasticity corresponds to the compression resistance.
  • the difference between the elastic modulus of the first and second fabric layers and the elastic modulus of the second second fabric layer satisfies the first preset requirement, including:
  • the difference between the thickness ratio of the spacer layer of the first two fabric layers and the thickness ratio of the spacer layer of the second two fabric layers satisfies a second preset requirement; the second preset requirement is set according to the coefficient of elasticity Yes, the thickness of the spacer layer corresponds to the coefficient of elasticity.
  • the difference between the elastic modulus of the first and second fabric layers and the elastic modulus of the second second fabric layer satisfies the first preset requirement, including:
  • the material of the spacer layer of the first two fabric layers and the material of the spacer layer of the second fabric layer have different flexural rigidity; the material of the spacer layer has a flexural rigidity corresponding to the elastic coefficient.
  • the second object of the present invention is to provide a warp knitting machine, including 7 groups of bar structures and 5 needle beds, of which,
  • the first group of bar structures, the second group of bar structures, the third group of bar structures, the first needle bed and the second needle bed are used to form the first and second fabric layers;
  • the fourth group of bar structures, the fifth group of bar structures, the sixth group of bar structures, the third needle bed and the fourth needle bed are used to form the second and second fabric layers;
  • the seventh set of comb structures and the fifth needle bed are used to form the stitching layer of the first and second fabric layers and the second and second fabric layers;
  • the difference between the elastic coefficient of the first two fabric layers and the elastic coefficient of the second two fabric layers meets the first preset requirement.
  • the warp knitting machine can be used to knit the above-mentioned double-layer warp knitting spacer fabric.
  • the extension lines of the second group of bar structures are used to form the spacer layer of the first and second fabric layers, and the extension lines of the fifth group of bar structures are used to form the second two layers.
  • the spacer layer of the fabric layer wherein the thickness ratio of the spacer layer of the first two fabric layers is different from the thickness ratio of the spacer layer of the second two fabric layers.
  • the extension lines of the second group of bar structures are used to form the spacer layer of the first and second fabric layers;
  • extension lines of the fifth group of bar structures are used to form the spacer layer of the second second fabric layer
  • the material of the extension line of the second group of bar structures is different from the material of the extension line of the fifth group of bar structures in bending rigidity.
  • the first group of comb structures, the second group of comb structures, the third group of comb structures, the fourth group of comb structures, the fifth group of comb structures, and the sixth group of comb structures All include a first guide rail, a first bar, a first drive motor and a second drive motor;
  • the first driving motor is used to drive the first guide rail to move in the front and rear direction of the warp knitting machine, so that the first bar moves to the front and the back of the corresponding needle bed;
  • the second driving motor is used for driving the first bar to move left and right relative to the first guide rail, so that the yarn guide needle on the first bar is horizontally layed with respect to the knitting needle.
  • the seventh group of bar structures includes a second guide rail, a second bar, a third drive motor, and a fourth drive motor, wherein:
  • the third drive motor drives the second guide rail to move up and down
  • the fourth drive motor is used to drive the second bar to move left and right.
  • the first needle bed, the second needle bed, the third needle bed, and the fourth needle bed all include a first knitting needle bed body, a first sinker bed, and a fifth drive motor And the sixth drive motor, in which,
  • the fifth drive motor is used to drive the first knitting needle bed body to move up and down, so that the knitting needles on the first knitting needle bed body are knitted into loops to form loops;
  • the sixth drive motor is used to drive the first sinker bed to move forward and backward, so that the sinker on the first sinker bed can hold the coil;
  • the fifth needle bed includes a second needle bed body, a second sinker bed, a seventh drive motor and an eighth drive motor, wherein:
  • the seventh driving motor is used to drive the second knitting needle bed body to move in the front-rear direction;
  • the eighth driving motor is used to drive the second sinker bed to move up and down.
  • the warp knitting machine further includes:
  • the central control unit is used to control the first needle bed, the second needle bed, the third needle bed, the fourth needle bed, and the fifth needle bed;
  • the second group of bar structure, the third group of bar structure, the fourth group of bar structure, the fifth group of bar structure, the sixth group of bar structure and the seventh group of bar structure are controlled to form a double-layer warp knitting interval Fabric.
  • a double-layer warp-knitted spacer fabric and warp knitting machine provided by the present invention, wherein the double-layer warp-knitted spacer fabric includes a first second fabric layer and a second second fabric layer; wherein, the first two The fabric layer and the second two fabric layers are stitched together by the stitching layer to form a double-layer warp-knitted spacer fabric; wherein the difference between the elastic coefficient of the first two fabric layers and the elastic coefficient of the second two fabric layers satisfies
  • the first predetermined requirement indicates that the first and second fabric layers and the second and second fabric layers have different elastic coefficients.
  • the first and second fabric layers and the second and second fabric layers have different elastic potential energy, that is, anti-compression performance, thus,
  • the two sides of the double-layer warp-knitted spacer fabric formed by sewing the first and second fabric layers and the second and second fabric layers through the stitching layer (the side where the first and second fabric layers are located and the side where the second and second fabric layers are located) have different resistances. Compression performance.
  • the present invention also provides a warp knitting machine to make the double-layer warp-knitted spacer fabric provided by the present invention, which can effectively make up for the lack of a way to make warp knitting with two surfaces with different compression resistance in the prior art.
  • the technical gap of the machine is not limited.
  • Figure 1 is a schematic diagram of the structure of a double-layer warp-knitted spacer fabric of Example 1; among them, 11 is the first and second fabric layers, 12 is the second and second fabric layers, 13 is the stitching layer, and 111 is the first and second fabric layers 11
  • the spacer layer 121 is the spacer layer of the second second fabric layer 12.
  • Figure 2 is a schematic diagram of the structure of a warp knitting machine provided in embodiment 2; among them, 21 is the first group of bar structure, 22 is the second group of bar structure, 23 is the third group of bar structure, and 24 is the fourth group Bar structure, 25 is the fifth group of bars, 26 is the sixth group of bars, 27 is the seventh group of bars, 28 is the first needle bed, 29 is the second needle bed, and 210 is the third needle Bed, 211 is the fourth needle bed, 212 is the fifth needle bed, 282 is the first knitting needle bed body, and 284 is the first sinker bed.
  • Fig. 3 is a schematic structural diagram of a warp knitting machine provided in Embodiment 2; among them, 21 is the structure of the first group of bars, 211 is the first drive motor, 215 is the first guide rail, 213 is the first bar, and 214 is The second drive motor, 27 is the seventh bar structure, 271 is the third drive motor, 272 is the second guide rail, 273 is the fourth drive motor, 274 is the second bar, 28 is the first needle bed, and 281 is the The fifth driving motor, 282 is the first knitting needle bed body, 283 is the sixth driving motor, 284 is the first sinker bed, 212 is the fifth needle bed, 2121 is the seventh driving motor, and 2122 is the second knitting needle bed In the main body, 2123 is the eighth drive motor, 2124 is the second sinker bed, and 216 is the central control unit.
  • Figure 4 is a physical image of a double-layer warp-knitted spacer fabric.
  • Figure 5 is a cross-sectional view of a double-layer warp-knitted spacer fabric.
  • a double-layer warp-knitted spacer fabric includes a first second fabric layer 11 and a second second fabric layer 12; wherein the first second fabric layer 11 and the second second fabric layer 12 pass through The stitched layers 13 are stitched together to form a double-layer warp-knitted spacer fabric; it is pointed out here that the difference between the elastic coefficient of the first and second fabric layers 11 and the elastic coefficient of the second second fabric layer 12 meets the first preset requirement.
  • the difference between the elastic modulus of the first and second fabric layers 11 and the elastic modulus of the second second fabric layer 12 meets the first preset requirement, which means that the first and second fabric layers 11 and the second second fabric layer 12 have Different elastic coefficients, therefore, the first and second fabric layers 11 and the second second fabric layer 12 have different elastic potential energy, that is, anti-compression performance, so that the first and second fabric layers 11 and the second second fabric layer 12 pass through the stitching layer.
  • Both sides of the double-layer warp-knitted spacer fabric formed after stitching (the side where the first and second fabric layers are located and the side where the second and second fabric layers are located) have different compression resistance properties.
  • the difference between the elastic coefficients of the first second fabric layer 11 and the second second fabric layer 12 meets the first preset requirement, including:
  • the difference between the thickness ratio of the spacer layer 111 of the first two fabric layers 11 and the thickness ratio of the spacer layer 121 of the second second fabric layer 12 meets the second preset requirement.
  • the difference between the thickness ratio of the spacer layer 111 of the first and second fabric layers 11 and the thickness ratio of the spacer layer 121 of the second and second fabric layers meets the second preset requirement, which can ensure that the first and second fabric layers 11
  • the difference between the elastic coefficient and the elastic coefficient of the second second fabric layer 12 meets the first preset requirement. It is pointed out here that according to the difference in bending rigidity of the materials used for the spacer layer 111 of the first and second fabric layers 11 and the spacer layer 121 of the second fabric layer 12, the second preset requirement is different from the first preset requirement. The required correspondence relationship is different.
  • the spacer layer 111 of the first and second fabric layers 11 and the spacer layer 121 of the second and second fabric layers 12 have higher bending rigidity. If it is larger, the thickness difference that meets the second preset requirement is smaller. On the contrary, if the material used for the spacer layer of the first and second fabric layers 11 and the spacer layer of the second and second fabric layers 12 has a smaller flexural rigidity, Then the thickness difference that meets the second preset requirement is relatively large.
  • the thickness ratio of the spacer layer of the first and second fabric layers 11 can be different from the thickness ratio of the spacer layer of the second second fabric layer 12, so that the first and second fabric layers 11 are different from each other.
  • the second second fabric layer 12 has different elastic coefficients, so that the two layers of the double-layer warp-knitted spacer fabric formed by stitching the first second fabric layer 11 and the second second fabric layer 12 together have different elastic coefficients, So that the two sides of the double-layer warp-knitted spacer fabric have different compression resistance properties.
  • the difference between the elastic modulus of the first second fabric layer 11 and the elastic modulus of the second second fabric layer 12 meets the first preset requirement, including:
  • the material of the spacer layer of the first and second fabric layers 11 is different from the material of the spacer layer of the second fabric layer 12 in flexural rigidity.
  • the material of the spacer layer of the first and second fabric layers 11 can be made to have the same flexural rigidity as The difference in flexural rigidity of the material of the spacer layer of the second fabric layer 12 meets the third preset requirement.
  • the flexural rigidity of the materials used for the spacer layer of the first and second fabric layers 11 and the spacer layer of the second and second fabric layers 12 is different, for example, when the difference between the two reaches the third preset requirement At this time, the difference between the elastic coefficient of the first second fabric layer 11 and the second second fabric layer 12 can meet the first preset requirement. It is pointed out here that the third preset requirement is not a specific value and can be adjusted according to actual needs.
  • the first and second fabric layers 11 and the second second fabric layer 12 are provided with spacer layers using spacer yarns with different bending stiffness.
  • the spacers of different materials are used.
  • the yarn itself has a relatively large difference in bending rigidity, so it is easier to implement, so that the difference between the elastic coefficient of the first and second fabric layers and the elastic coefficient of the second and second fabric layers of the double-layer warp-knitted spacer fabric meets the first prediction Set requirements.
  • Figures 4 and 5 are the actual pictures of the double-layer warp-knitted spacer fabric.
  • the thickness of the first and second fabric layers 11 in the figure is 10 mm.
  • the yarn thickness of the bar 21 and the bar 23 is 400D polyester low-elastic yarn.
  • the yarn used on the bar 22 is a polyester monofilament with a diameter of 0.2 mm.
  • the second second fabric layer 12 150D polyester low-elastic yarn used on bar 24 and bar 26, 30D polyester monofilament used on bar 25; red yarn used on bar 27, specifications For 30D polyester low stretch yarn, the first and second fabric layers and the second and second fabric layers are stitched together.
  • the double-layer spacer fabric formed by weaving has high rigidity in the first and second fabric layers and is a high compression resistance layer; the second and second fabric layers are soft and are a low compression resistance layer.
  • a warp knitting machine includes 7 groups of bar structures, namely the first group of bar structures 21, the second group of bar structures 22, the third group of bar structures 23, and the fourth group of bar structures.
  • the needle bed 210, the fourth needle bed 211 and the fifth needle bed 212 of which:
  • the first group of bar structures 21, the second group of bar structures 22, the third group of bar structures 23, the first needle bed 28 and the second needle bed 29 are used to form the first and second fabric layers 11;
  • the fourth group of bar structures 24, the fifth group of bar structures 25, the sixth group of bar structures 26, the third needle bed 210 and the fourth needle bed 211 are used to form the second second fabric layer 12;
  • the seventh set of comb structures 27 and the fifth needle bed 212 are used to form the stitching layer of the first and second fabric layers 11 and the second and second fabric layers 12;
  • the difference between the elastic coefficient of the first two fabric layers 11 and the elastic coefficient of the second second fabric layer 12 meets the first preset requirement.
  • the first group of bar structures 21 and the second group of bar structures 22 are looped on the first needle bed 28 to form the first surface of the first and second fabric layers, and the second group of bar structures 22.
  • the third group of comb structures 23 is laid on the second needle bed 29 to form a loop to form the second surface of the first and second fabric layers, wherein the extension lines of the second group of comb structures 22 form the first and second fabric layers ⁇ 211 ⁇ The spacing layer 211.
  • the fourth group of bar structures 24 and the fifth group of bar structures are looped on the third needle bed 210 to form the first surface of the second and second fabric layers, the fifth group of bar structures 25, and the sixth group of bars
  • the structure 26 is looped on the fourth needle bed 211 to form the second surface of the second and second fabric layer; wherein the extension lines of the fifth group of comb structures 25 form the spacer layer of the second and second fabric layers, and the seventh group
  • the comb structure 27 is looped on the fifth needle bed 212 to form a suture layer of a double-layer warp-knitted spacer fabric. It is pointed out here that when sewing, the first surface of the second second fabric layer and the second surface of the first second fabric layer are close to or tightly attached and stitched.
  • the extension line of the second group of bar structures 22 is composed of a part of the second group of bar structures between the first needle bed and the second needle bed. It can be used to be perpendicular to the first and second fabric layers.
  • the second surface or part of the first surface constitutes the spacer layer of the first and second fabric layers; in the same way, the extension line of the fifth group of comb structures 25 is formed by the fifth group of comb structures on the third needle bed and the fourth needle bed.
  • Part of the structure between the beds can also be selected to form the second surface or the first surface of the second second fabric layer to form the spacer layer of the second second fabric layer.
  • the first and second fabric layers are formed by the first group of bar structures, the second group of bar structures, the third group of bar structures, the first needle bed and the second needle bed;
  • the four groups of bar structures, the fifth group of bar structures, the sixth group of bar structures, the third needle bed and the fourth needle bed form the second and second fabric layers; then the seventh group of bar structures and the fifth needle bed combine
  • the first two fabric layers and the second two fabric layers are stitched together to form a double-layer warp-knitted spacer fabric with different elastic coefficients on both sides, so that the two sides of the formed double-layer warp-knitted spacer fabric have different compression resistance properties.
  • extension lines of the second group of comb structures are used to form the spacer layer of the first and second fabric layers
  • extension lines of the fifth group of comb structures are used to form the spacer layer of the second and second fabric layers, wherein The thickness ratio of the spacer layer of the first two fabric layers is different from the thickness ratio of the spacer layer of the second two fabric layers.
  • the extension lines of the second group of bar structures 22 form the spacer layer of the first and second fabric layers 11
  • the extension lines of the fifth group of bar structures 25 form the spacer layer of the second and second fabric layers 12
  • the thickness of the spacer layer formed by the extension lines of the two groups of bar structures 22 is different from that of the spacer layer formed by the fifth group of bar structures 25, so that the thickness ratio of the spacer layer of the first and second fabric layers 11 is the same as that of the second two fabric layers 12.
  • the thickness ratio of the spacer layer is different.
  • first and second fabric layers 11 and the second second fabric layer 12 can have different elastic coefficients, so that both sides of the double-layer warp-knitted spacer fabric formed by stitching together the first and second fabric layers and the second two fabric layers Has different compression resistance properties.
  • extension lines of the second set of comb structures 22 are used to form the spacing layer of the first and second fabric layers 11; the extension lines of the fifth set of comb structures 25 are used to form the spacing of the second two fabric layers 12 Layer; wherein the bending rigidity of the material of the extension line of the second group of bar structures 22 is different from the bending rigidity of the material of the extension line of the fifth group of bar structures 25.
  • the material of the extension lines of the second group of bar structures 22 and the material of the extension lines of the fifth group of bar structures 25 have different flexural rigidity, so that the extension lines of the second group of bar structures 22
  • the elastic modulus of the spacer layer of the first and second fabric layers 11 formed is different from that of the spacer layer of the second second fabric layer 12 formed by the extension lines of the fifth group of comb structures 25, so that the first and second fabric layers 11 It has a different elastic modulus from the second second fabric layer 12. Therefore, the two sides of the double-layer warp-knitted spacer fabric formed by stitching the first second fabric layer 11 and the second second fabric layer 12 have different compression resistance properties.
  • the bar structure 26 includes a first guide rail, a first bar, a first drive motor, and a second drive motor; in any bar structure of the six groups of bar structures, the first drive motor is used to drive the The first guide rail moves in the front and rear direction of the warp knitting machine, so that the first bar moves to the front and back of the corresponding needle bed; the second drive motor is used to drive the first bar relative to the first The guide rail moves left and right to make the yarn guide needle on the first bar lay the yarn horizontally relative to the corresponding knitting needle.
  • the first group of comb structures 21 as an example to illustrate:
  • the first group of bar structure 21 includes a first drive motor 211, a second drive motor 214, a first bar 213 and a first guide rail 215, the first drive motor 211 drives the first guide rail 215
  • the knitting machine moves forward and backward, that is, from the front of the warp knitting machine to the back of the warp knitting machine, and then from the back of the warp knitting machine to the front of the warp knitting machine, and so on, so that the first bar 213 can move To the front or back of the knitting needles of the first needle bed;
  • the second drive motor 214 is used to drive the first bar 213 to move left and right relative to the first guide rail 215, so that the yarn guide needle on the first bar 213 is relatively
  • the corresponding needle bed of a set of comb structure-the knitting needles on the first needle bed are horizontally laid.
  • the second group of comb structures, the third group of comb structures, the fourth group of comb structures, the fifth group of comb structures, and the sixth group of comb structures include the components, the connection relationship between the components, and the The movement mode is the same as the components included in the first group of comb structures, the connection relationship between the components, and the movement mode and principle, which will not be repeated here.
  • the difference is that the first group of bar structures corresponds to the needle bed as the first needle bed; the second group of bar structures corresponds to the needle bed as the first and second needle beds; the third group of bar structures corresponds to the needle bed as the first needle bed.
  • Two needle beds; the fourth group of comb structures corresponds to the third needle bed; the fifth group of comb structures corresponds to the third and fourth needle beds; the sixth group of comb structures corresponds to the third needle bed.
  • the seventh group of bar structures 27 includes a second guide rail 272, a second bar 274, a third drive motor 271, and a fourth drive motor 273, wherein the third drive motor 271 drives the The second guide rail 272 moves up and down, and the fourth driving motor 273 is used to drive the second bar 274 to move left and right.
  • the first needle bed, the second needle bed, the third needle bed and the fourth needle bed all include the first knitting needle bed body, the first sinker bed, the fifth drive motor and the sixth drive motor, Take the first needle bed as an example for illustration: the first needle bed 28 includes a first knitting needle bed body 282, a first sinker bed 284, a fifth drive motor 281, and a sixth drive motor 283.
  • the fifth driving motor is used to drive the first knitting needle bed body 282 to move up and down, so that the knitting needles on the first knitting needle bed body 282 are knitted into loops to form loops;
  • the sixth driving motor 283 is used to drive the first sinker
  • the sheet bed 284 moves in the front-to-rear direction, so that the first sinker bed 284 holds the coil.
  • the fifth needle bed 212 includes a second knitting needle bed body 2122, a second sinker bed 2124, a seventh drive motor 2121, and an eighth drive motor 2123.
  • the seventh drive motor is used to drive the second knitting machine.
  • the needle bed body 2122 moves in the front and rear directions; the eighth driving motor is used to drive the second sinker bed 2124 to move up and down.
  • the control unit for controlling the first needle bed, the second needle bed, the third needle bed, the fourth needle bed, and the fifth needle bed.
  • the control unit is also used to control the first group of comb structures 21, the second group of comb structures 22, the third group of comb structures 23, the fourth group of comb structures 24, the fifth group of comb structures 25, and the sixth group of combs.
  • the comb structure 26 and the seventh group of comb structures 27 are controlled so that the needle beds (including the first needle bed, the second needle bed, the first needle bed, the first needle bed and the first needle bed) and the comb Comb structure (including the first group of comb structures 21, the second group of comb structures 22, the third group of comb structures 23, the fourth group of comb structures 24, the fifth group of comb structures 25, and the sixth group of comb structures 26 and the seventh group of comb structures 27) move in the manner introduced, thereby forming two double-layer warp-knitted spacer fabrics with different compression resistance properties on the two surfaces.
  • warp knitting machine provided in this embodiment, it is possible to form two double-layer warp-knitted spacer fabrics with different elastic coefficients on the surfaces, thereby making up for the inability to form two double-layer warp-knitting spacers with different compression resistance on the two surfaces in the prior art scheme.
  • the technical gap of warp-knitted spacer fabric is possible to form two double-layer warp-knitted spacer fabrics with different elastic coefficients on the surfaces, thereby making up for the inability to form two double-layer warp-knitting spacers with different compression resistance on the two surfaces in the prior art scheme.
  • connection may be a direct connection or an indirect connection. It can be connected by wires or by other connection structures, such as hose connections. This plan does not specifically limit it.

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  • Textile Engineering (AREA)
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Abstract

本发明公开了一种双层经编间隔织物及一种经编机,属于经编间隔物及纺织设备技术领域。本发明所述的一种双层经编间隔织物,包括:第一二织物层和第二二织物层;所述第一二织物层与所述第二二织物层通过缝合层缝合在一起,形成双层经编间隔织物;其中,所述第一二织物层的弹性系数与所述第二二织物层的弹性系数的差值满足第一预设要求。本方案,第一二织物层的弹性系数与所述第二二织物层的弹性系数的差值满足第一预设要求,则第一二织物层与第二二织物层具有不同的弹性势能,即抗压缩性能,因此,将第一二织物层与第二二织物层通过缝合层缝合后形成的双层经编间隔织物的两面具有不同的抗压缩性能。

Description

一种双层经编间隔织物及一种经编机 技术领域
本发明涉及一种双层经编间隔织物及一种经编机,属于经编间隔物及纺织设备技术领域。
背景技术
经编间隔织物是指具有两个以上的织物平面,平面间通过间隔纱连接的织物,平面之间的间隔的距离形成了织物的厚度,此类织物可用于床垫、鞋面、座椅垫以及复合材料等。
目前的经编间隔织物使用双针床经编机生产,具有两个织物平面和一个间隔层,通过在一个或两个织物平面上变化垫纱,可以形成不同的图案效果,可参见专利号为CN1782156A的专利文件。在实际生产中,可通过改变间隔纱的支撑方向,和/或使用高强度间隔纱提高间隔织物的抗压缩性能,具体可参见专利号为CN107938151A的专利文件。然而,想要达到织物的两面具有不同的抗压缩性能,目前尚无法实现。
因此,现有技术方案中,缺少一种两面具有不同的抗压缩性能的经编织物及设备。
发明内容
为了解决上述至少一个问题,本发明提供了一种两面具有不同的抗压缩性能的双层间隔经编织物及一种可以用来编织本申请所述的双层间隔经编织物的经编机。
本发明的第一个目的是提供一种双层经编间隔织物,包括:
第一二织物层和第二二织物层;所述的第一二织物层为一个经编间隔织物,所述的第二二织物层为另一个经编间隔织物;
所述第一二织物层与所述第二二织物层通过缝合层缝合在一起,形成双层经编间隔织物;
其中,所述第一二织物层的弹性系数与所述第二二织物层的弹性系数的差值满足第一预设要求;所述的第一预设要求是根据抗压缩性能的实际需求设定的,弹性系数与抗压缩性能是相对应的。
在本发明的一种实施方式中,所述第一二织物层的弹性系数与所述第二二织物层的弹性系数的差值满足第一预设要求,包括:
所述第一二织物层的间隔层的厚度比例与第二二织物层的间隔层的厚度比例的差值满足第二预设要求;所述的第二预设要求是根据弹性系数进行设定的,间隔层的厚度与弹性系数是相对应的。
在本发明的一种实施方式中,所述第一二织物层的弹性系数与所述第二二织物层的弹性系数的差值满足第一预设要求,包括:
所述第一二织物层的间隔层的材质与第二二织物层的间隔层的材质的抗弯刚度不同;间隔层的材质的抗弯刚度与弹性系数是相对应的。
本发明的第二个目的是提供一种经编机,包括7组梳栉结构与5个针床,其中,
第一组梳栉结构、第二组梳栉结构、第三组梳栉结构、第一针床与第二针床用于形成第一二织物层;
第四组梳栉结构、第五组梳栉结构、第六组梳栉结构、第三针床与第四针床用于形成第二二织物层;
第七组梳栉结构与第五针床用于形成所述第一二织物层与所述第二二织物层的缝合层;
其中,第一二织物层的弹性系数与第二二织物层的弹性系数的差值满足第一预设要求。
在本发明的一种实施方式中,所述的经编机可以用来编织上述的双层经编间隔织物。
在本发明的一种实施方式中,所述第二组梳栉结构的延展线用于形成第一二织物层的间隔层,所述第五组梳栉结构的延展线用于形成第二二织物层的间隔层,其中,所述第一二织物层的间隔层的厚度比例与第二二织物层的间隔层的厚度比例不同。
在本发明的一种实施方式中,所述第二组梳栉结构的延展线用于形成第一二织物层的间隔层;
所述第五组梳栉结构的延展线用于形成第二二织物层的间隔层;
其中,所述第二组梳栉结构的延展线的材质与第五组梳栉结构的延展线的材质的抗弯刚度不同。
在本发明的一种实施方式中,第一组梳栉结构、第二组梳栉结构、第三组梳栉结构、第四组梳栉结构、第五组梳栉结构及第六组梳栉结构均包括第一导轨、第一梳栉、第一驱动电机及第二驱动电机;
在每组梳栉结构中,
所述第一驱动电机用于驱动所述第一导轨在经编机前后方向上移动,使所述第一梳栉移动到对应针床的前方及后方;
所述第二驱动电机用于驱动所述第一梳栉相对所述第一导轨做左右移动,使第一梳栉上的导纱针相对织针横向垫纱。
在本发明的一种实施方式中,所述第七组梳栉结构,包括第二导轨、第二梳栉、第三驱动电机及第四驱动电机,其中,
所述第三驱动电机驱动所述第二导轨上下运动,所述第四驱动电机用于驱动所述第二梳栉左右移动。
在本发明的一种实施方式中,所述第一针床、第二针床、第三针床及第四针床均包括第一织针床本体、第一沉降片床、第五驱动电机和第六驱动电机,其中,
所述第五驱动电机用于驱动所述第一织针床本体上下移动,使所述第一织针床本体上的织针成圈编织形成线圈;
所述第六驱动电机用于驱动所述第一沉降片床在前后方向移动,使所述第一沉降片床上的沉降片对所述线圈进行握持;和/或
所述第五针床包括第二针床本体、第二沉降片床、第七驱动电机和第八驱动电机,其中:
所述第七驱动电机用于驱动所述第二织针床本体在前后方向移动;
第八驱动电机用于驱动所述第二沉降片床上下移动。
在本发明的一种实施方式中,所述经编机,还包括:
中央控制单元,用于对所述第一针床、第二针床、第三针床、第四针床及第五针床进行控制;及用于对所述第一组梳栉结构、第二组梳栉结构、第三组梳栉结构、第四组梳栉结构、第五组梳栉结构、第六组梳栉结构及第七组梳栉结构进行控制,以形成双层经编间隔织物。
本发明的有益效果:
(1)本发明提供的一种双层经编间隔织物及经编机,其中,所述双层经编间隔织物包括第一二织物层和第二二织物层;其中,所述第一二织物层与所述第二二织物层通过缝合层缝合在一起,形成双层经编间隔织物;其中,第一二织物层的弹性系数与所述第二二织物层的弹性系数的差值满足第一预设要求,表征第一二织物层与第二二织物层具有不同的弹性系数,因此,第一二织物层与第二二织物层具有不同的弹性势能,即抗压缩性能,从而,将第一二织物层与第二二织物层通过缝合层缝合后形成的双层经编间隔织物的两面(第一二织物层所在的面与第二二织物层所在的面)具有不同的抗压缩性能。
(2)本发明还提供一种经编机,以制作上述本发明提供的双层经编间隔织物,有效弥补现有技术方案中缺乏一种制作两个表面具有不同的抗压缩性能的经编机的技术空白。
附图说明
本发明所提供的说明附图用于解释本发明,应该理解的是,如下所描述的具体实施例为构成本发明的一部分实施例,并不构成对本发明的不当限定。在附图中:
图1为实施例1的一种双层经编间隔织物的结构示意图;其中,11为第一二织物层,12为第二二织物层,13为缝合层,111为第一二织物层11的间隔层,121为第二二织物层12的间隔层。
图2为实施例2提供的一种经编机结构示意图;其中,21为第一组梳栉结构,22为第二组梳栉结构,23为第三组梳栉结构,24为第四组梳栉结构,25为第五组梳栉结构,26为第六组梳栉结构,27为第七组梳栉结构,28为第一针床,29为第二针床,210为第三针床,211为第四针床,212为第五针床,282为第一织针床本体,284为第一沉降片床。
图3为实施例2提供的一种经编机的结构示意图;其中,21为第一组梳栉结构,211为第一驱动电机,215为第一导轨,213为第一梳栉,214为第二驱动电机,27为第七组梳栉结构,271为第三驱动电机,272为第二导轨,273为第四驱动电机,274为第二梳栉,28为第一针床,281为第五驱动电机,282为第一织针床本体,283为第六驱动电机,284为第一沉降片床,212为第五针床,2121为第七驱动电机,2122为第二织针床本体,2123为第八驱动电机,2124为第二沉降片床,216为中央控制单元。
图4为双层经编间隔织物的实物图。
图5为双层经编间隔织物的截面图。
具体实施方式
为使本发明的目的、技术方案和优点更加清楚,下面将结合本发明具体实施例及相应的附图对本发明技术方案进行清楚、完整地描述。显然,所描述的实施例仅是本发明的一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。
以下结合附图,详细说明本发明各实施例提供的技术方案。
实施例1
参见图1所示,一种双层经编间隔织物,包括第一二织物层11和第二二织物层12;其中,所述第一二织物层11与所述第二二织物层12通过缝合层13缝合在一起,形成双层经编间隔织物;在此指出,第一二织物层11的弹性系数与所述第二二织物层12的弹性系数的差值满足第一预设要求。
本实施例中,第一二织物层11的弹性系数与第二二织物层12的弹性系数的差值满足第一预设要求,则表征第一二织物层11与第二二织物层12具有不同的弹性系数,因此,第一二织物层11与第二二织物层12具有不同的弹性势能,即抗压缩性能,从而,将第一二织物层11与第二二织物层12通过缝合层13缝合后形成的双层经编间隔织物的两面(第一二织物层所在的面与第二二织物层所在的面)具有不同的抗压缩性能。
在本实施例中,所述第一二织物层11与所述第二二织物层12的弹性系数的差值满足第一预设要求,包括:
所述第一二织物层11的间隔层111的厚度比例与第二二织物层12的间隔层121的厚度比例的差值满足第二预设要求。
在实施例中,第一二织物层11的间隔层111的厚度比例与第二二织物层的间隔层121的厚度比例的差值满足第二预设要求,则可保证第一二织物层11的弹性系数与第二二织物层12的弹性系数的差值满足第一预设要求。在此指出,根据第一二织物层11的间隔层111、第二二织物层12的间隔层121所采用的材质的抗弯折刚度的不同,所述第二预设要求与第一预设要求的对应关系有所差异。在满足第一预设要求的弹性系数的差值确定的情况下,如第一二织物层11的间隔层111、第二二织物层12的间隔层121所采用的材质的抗弯折刚度较大,则满足第二预设要求的厚度差值较小,相反,若第一二织物层11的间隔层、第二二织物层12的间隔层所采用的材质的抗弯折刚度较小,则满足第二预设要求的厚度差值较大。
本实施例提供的双层经编间隔织物,可通过设置第一二织物层11的间隔层的厚度比例与第二二织物层12的间隔层的厚度比例不同,使得第一二织物层11与第二二织物层12具有不同的弹性系数,从而使通过将第一二织物层11与第二二织物层12缝合在一起而形成的双层经编间隔织物的两层具有不同的弹性系数,从而使得双层经编间隔织物的两面具有不同的抗压缩性能。
在本实施例中,所述第一二织物层11的弹性系数与所述第二二织物层12的弹性系数的差值满足第一预设要求,包括:
所述第一二织物层11的间隔层的材质与第二二织物层12的间隔层的材质的抗弯刚度不同,如可使第一二织物层11的间隔层的材质的抗弯刚度与第二二织物层12的间隔层的材质的抗弯刚度的差值满足第三预设要求。
在本实施例中,所述第一二织物层11的间隔层与第二二织物层12的间隔层所采用的材质的抗弯刚度不同,如当二者的差值达到第三预设要求时,可使得第一二织物层11的弹性系数与第二二织物层12的弹性系数的差值满足第一预设要求。在此指出,第三预设要求并非为具体的数值,可根据实际需求而进行调整。
本实施例提供的双层经编间隔织物,通过设置包括采用不同抗弯刚度的间隔纱的间隔层的第一二织物层11和第二二织物层12,基于一般情况下,不同材质的间隔纱本身抗弯刚度就相差比较大,因此,比较容易实施,从而使得构成双层经编间隔织物的第一二织物层的弹性系数与第二二织物层的弹性系数的差值满足第一预设要求。
图4、5为双层经编间隔织物的实物图,图中第一二织物层11的厚度为10毫米,梳栉21和梳栉23上使用的纱线粗细为400D的涤纶低弹纱,梳栉22上使用的纱线为直径0.2毫 米的涤纶单丝。第二二织物层12:梳栉24和梳栉26上使用的纱线为150D的涤纶低弹纱,梳栉25上使用的为30D的涤纶单丝;梳栉27上使用红色纱线,规格为30D涤纶低弹纱,将第一二织物层和第二二织物层缝合在一起。编织形成的双层间隔织物在第一二织物层刚性大,为高抗压缩层;第二二织物层柔软,为低抗压缩层。
实施例2
参见图2所示,一种经编机,包括7组梳栉结构,分别为第一组梳栉结构21、第二组梳栉结构22、第三组梳栉结构23、第四组梳栉结构24、第五组梳栉结构25、第六组梳栉结构26与第七组梳栉结构27;还包括5个针床,分别为第一针床28、第二针床29、第三针床210、第四针床211与第五针床212,其中:
第一组梳栉结构21、第二组梳栉结构22、第三组梳栉结构23、第一针床28与第二针床29用于形成第一二织物层11;
第四组梳栉结构24、第五组梳栉结构25、第六组梳栉结构26、第三针床210与第四针床211用于形成第二二织物层12;
第七组梳栉结构27与第五针床212用于形成所述第一二织物层11与所述第二二织物层12的缝合层;
其中,第一二织物层11的弹性系数与第二二织物层12的弹性系数的差值满足第一预设要求。
在本实施例中,第一组梳栉结构21、第二组梳栉结构22在第一针床28上垫纱成圈,形成第一二织物层的第一表面,第二组梳栉结构22、第三组梳栉结构23在第二针床29上垫纱成圈,形成第一二织物层的第二表面,其中,第二组梳栉结构22的延展线形成第一二织物层的间隔层211。第四组梳栉结构24、第五组梳栉结构在第三针床210上垫纱成圈,形成第二二织物层的第一表面,第五组梳栉结构25、第六组梳栉结构26在第四针床211上垫纱成圈,形成第二二织物层的第二表面;其中,第五组梳栉结构25的延展线形成第二二织物层的间隔层,第七组梳栉结构27在第五针床212上垫纱成圈,形成双层经编间隔织物的缝合层。在此指出,在缝合时,将第二二织物层的第一表面与第一二织物层的第二表面贴近或紧密贴合并进行缝合。在此指出,第二组梳栉结构22的延展线,由第二组梳栉结构在第一针床、第二针床之间的一部分构成,可以采用将垂直于所述第一二织物层的第二表面或第一表面的部分构成第一二织物层的间隔层;同理,第五组梳栉结构25的延展线,由第五组梳栉结构在第三针床、第四针床之间的一部分构成,也可以选择将垂直于所述第二二织物层的第二表面或第一表面的部分构成第二二织物层的间隔层。
采用本实施例提供的经编机,通过第一组梳栉结构、第二组梳栉结构、第三组梳栉结构、第一针床与第二针床形成第一二织物层;通过第四组梳栉结构、第五组梳栉结构、第六组梳栉结构、第三针床与第四针床形成第二二织物层;然后通过第七组梳栉结构与第五针床将第一二织物层与第二二织物层缝合在一起,可形成两面具备不同弹性系数的双层经编间隔织物,使得形成的双层经编间隔织物的两面的抗压缩性能不同。
进一步地,第二组梳栉结构的延展线用于形成第一二织物层的间隔层,所述第五组梳栉结构的延展线用于形成第二二织物层的间隔层,其中,所述第一二织物层的间隔层的厚度比例与第二二织物层的间隔层的厚度比例不同。
在本实施例中,第二组梳栉结构22的延展线形成第一二织物层11的间隔层,第五组梳栉结构25的延展线形成第二二织物层12的间隔层,而第二组梳栉结构22的延展线形成的间隔层与第五组梳栉结构25形成的间隔层的厚度不同,从而使得第一二织物层11的间隔层的厚度比例与第二二织物层12的间隔层的厚度比例不同。如此,可使得第一二织物层11与第二二织物层12具有不同的弹性系数,从而使得由第一二织物层和第二二织物层缝合在一起形成的双层经编间隔织物的两面具有不同的抗压缩性能。
或者,所述第二组梳栉结构22的延展线用于形成第一二织物层11的间隔层;所述第五组梳栉结构25的延展线用于形成第二二织物层12的间隔层;其中,所述第二组梳栉结构22的延展线的材质的抗弯刚度与第五组梳栉结构25的延展线的材质的抗弯刚度不同。
在本实施例中,第二组梳栉结构22的延展线的材质与第五组梳栉结构25的延展线的材质的抗弯刚度不同,从而,由第二组梳栉结构22的延展线形成的第一二织物层11的间隔层的弹性系数与由第五组梳栉结构25的延展线形成的第二二织物层12的间隔层的弹性系数不同,从而使得第一二织物层11与第二二织物层12具有不同的弹性系数,因而,由第一二织物层11与第二二织物层12缝合形成的双层经编间隔织物的两面具有不同的抗压缩性能。
在本实施例中,第一组梳栉结构21、第二组梳栉结构22、第三组梳栉结构23、第四组梳栉结构24、第五组梳栉结构25及第六组梳栉结构26均包括第一导轨、第一梳栉、第一驱动电机及第二驱动电机;在上述六组梳栉结构的任一梳栉结构中,所述第一驱动电机用于驱动所述第一导轨在经编机前后方向上移动,使所述第一梳栉移动到对应的针床的前方及后方;所述第二驱动电机用于驱动所述第一梳栉相对所述第一导轨做左右移动,使第一梳栉上的导纱针相对对应的织针横向垫纱。如下,以第一组梳栉结构21为例,进行阐述:
参见图3所示,在第一组梳栉结构21包括第一驱动电机211、第二驱动电机214、第一梳栉213及第一导轨215,第一驱动电机211驱动第一导轨215在经编机前后方向上移动,即从经编机的前方移动到经编机的后方,然后再从经编机的后方移动到经编机的前方, 如此循环,从而使得第一梳栉213能够移动到第一针床的织针的前方或后方;第二驱动电机214用于驱动第一梳栉213相对第一导轨215做左右方向的移动,使第一梳栉213上的导纱针相对第一组梳栉结构的对应针床——第一针床上的织针做横向垫纱。在此指出,第二组梳栉结构、第三组梳栉结构、第四组梳栉结构、第五组梳栉结构及第六组梳栉结构中包括的部件、部件之间的连接关系及运动方式与第一组梳栉结构中包括的部件、部件之间的连接关系及运动方式及原理相同,在此不予赘述。不同的是,第一组梳栉结构对应针床为第一针床;第二组梳栉结构对应针床为第一针床和第二针床;第三组梳栉结构对应针床为第二针床;第四组梳栉结构对应针床为第三针床;第五组梳栉结构对应针床为第三针床和第四针床;第六组梳栉结构对应针床为第四针床。
在本实施例中,第七组梳栉结构27,包括第二导轨272、第二梳栉274、第三驱动电机271及第四驱动电机273,其中,所述第三驱动电机271驱动所述第二导轨272上下运动,所述第四驱动电机273用于驱动所述第二梳栉274左右移动。
在本实施例中,第一针床、第二针床、第三针床及第四针床均包括第一织针床本体、第一沉降片床、第五驱动电机及第六驱动电机,如下,以第一针床为例进行阐述:所述第一针床28包括第一织针床本体282、第一沉降片床284、第五驱动电机281和第六驱动电机283,其中,第五驱动电机用于驱动所述第一织针床本体282上下移动,使第一织针床本体282上的织针成圈编织以形成线圈;第六驱动电机283用于驱动所述第一沉降片床284在前后方向移动,使第一沉降片床284对所述线圈进行握持。而第五针床212包括第二织针床本体2122、第二沉降片床2124、第七驱动电机2121和第八驱动电机2123,其中:所述第七驱动电机用于驱动所述第二织针床本体2122在前后方向移动;第八驱动电机用于驱动第二沉降片床2124上下移动。
在本实施例中,还包括中央控制单元216,用于对所述第一针床、第二针床、第三针床、第四针床及第五针床进行控制,同时,所述中央控制单元还用于对第一组梳栉结构21、第二组梳栉结构22、第三组梳栉结构23、第四组梳栉结构24、第五组梳栉结构25、第六组梳栉结构26及第七组梳栉结构27进行控制,以使得按照上述针对针床(包括第一针床、第二针床、第一针床、第一针床与第一针床)及梳栉结构(包括第一组梳栉结构21、第二组梳栉结构22、第三组梳栉结构23、第四组梳栉结构24、第五组梳栉结构25、第六组梳栉结构26及第七组梳栉结构27)介绍的方式进行运动,进而形成两个表面具有不同的抗压缩性能的双层经编间隔织物。
采用本实施例所提供的经编机,可以形成两个表面具有不同的弹性系数的双层经编间隔织物,进而弥补现有技术方案中无法形成两个表面具有不同的抗压缩性能的双层经编间隔织物的技术空白。
需要说明的是,在本实施例中,术语“连接”,可以是直接连接,也可以指间接连接。可以是通过导线连接,也可以是通过其他连接结构,如软管连接。本方案并不对其做具体限定。
还需要说明的是,术语“包括”、“包含”或者其任何其他变体意在涵盖非排他性的包含,从而使得包括一系列要素的过程、方法、商品或者设备不仅包括那些要素,而且还包括没有明确列出的其他要素,或者是还包括为这种过程、方法、商品或者设备所固有的要素。在没有更多限制的情况下,由语句“包括一个……”限定的要素,并不排除在包括所述要素的过程、方法、商品或者设备中还存在另外的相同要素。
以上仅以一较佳实施例对本发明的技术方案进行介绍,但是对于本领域的一般技术人员,依据本发明实施例的思想,应能在具体实施方式上及应用范围上进行改变,故而,综上所述,本说明书内容部不应该理解为本发明的限制,凡在本发明的精神和原理之内所作的任何修改、等同替换、改进等,均应包含在本发明的权利要求范围之内。

Claims (13)

  1. 一种双层经编间隔织物,其特征在于,包括:
    第一二织物层和第二二织物层;所述的第一二织物层为一个经编间隔织物,所述的第二二织物层为另一个经编间隔织物;
    所述第一二织物层与所述第二二织物层通过缝合层缝合在一起,形成双层经编间隔织物;
    其中,所述第一二织物层的弹性系数与所述第二二织物层的弹性系数的差值满足第一预设要求。
  2. 根据权利要求1所述的双层经编间隔织物,其特征在于,所述第一二织物层的弹性系数与所述第二二织物层的弹性系数的差值满足第一预设要求,包括:
    所述第一二织物层的间隔层的厚度比例与第二二织物层的间隔层的厚度比例的差值满足第二预设要求。
  3. 根据权利要求1所述的双层经编间隔织物,其特征在于,所述第一二织物层的弹性系数与所述第二二织物层的弹性系数的差值满足第一预设要求,包括:
    所述第一二织物层的间隔层的材质与第二二织物层的间隔层的材质的抗弯刚度不同。
  4. 一种经编机,其特征在于,包括7组梳栉结构与5个针床,其中,
    第一组梳栉结构、第二组梳栉结构、第三组梳栉结构、第一针床与第二针床用于形成第一二织物层;
    第四组梳栉结构、第五组梳栉结构、第六组梳栉结构、第三针床与第四针床用于形成第二二织物层;
    第七组梳栉结构与第五针床用于形成缝合所述第一二织物层与所述第二二织物层的缝合层;
    其中,所述第一二织物层的弹性系数与第二二织物层的弹性系数的差值满足第一预设要求;
    所述的经编机用来编织权利要求1所述的双层经编间隔织物。
  5. 根据权利要求4所述的经编机,其特征在于,
    所述第二组梳栉结构的延展线用于形成第一二织物层的间隔层,所述第五组梳栉结构的延展线用于形成第二二织物层的间隔层,其中,所述第一二织物层的间隔层的厚度比例与第二二织物层的间隔层的厚度比例不同。
  6. 根据权利要求4所述的经编机,其特征在于,
    所述第二组梳栉结构的延展线用于形成第一二织物层的间隔层;
    所述第五组梳栉结构的延展线用于形成第二二织物层的间隔层;
    其中,所述第二组梳栉结构的延展线的材质与第五组梳栉结构的延展线的材质的抗弯刚度不同。
  7. 根据权利要求5所述的经编机,其特征在于,第一组梳栉结构、第二组梳栉结构、第三组梳栉结构、第四组梳栉结构、第五组梳栉结构及第六组梳栉结构均包括第一导轨、第一梳栉、第一驱动电机及第二驱动电机;
    在每组梳栉结构中,
    所述第一驱动电机用于驱动所述第一导轨在经编机前后方向上移动,使所述第一梳栉移动到对应针床的前方及后方;
    所述第二驱动电机用于驱动所述第一梳栉相对所述第一导轨做左右移动,使第一梳栉上的导纱针相对织针横向垫纱。
  8. 根据权利要求6所述的经编机,其特征在于,第一组梳栉结构、第二组梳栉结构、第三组梳栉结构、第四组梳栉结构、第五组梳栉结构及第六组梳栉结构均包括第一导轨、第一梳栉、第一驱动电机及第二驱动电机;
    在每组梳栉结构中,
    所述第一驱动电机用于驱动所述第一导轨在经编机前后方向上移动,使所述第一梳栉移动到对应针床的前方及后方;
    所述第二驱动电机用于驱动所述第一梳栉相对所述第一导轨做左右移动,使第一梳栉上的导纱针相对织针横向垫纱。
  9. 根据权利要求7所述的经编机,其特征在于,所述第七组梳栉结构,包括第二导轨、第二梳栉、第三驱动电机及第四驱动电机,其中,
    所述第三驱动电机驱动所述第二导轨上下运动,所述第四驱动电机用于驱动所述第二梳栉左右移动。
  10. 根据权利要求8所述的经编机,其特征在于,所述第七组梳栉结构,包括第二导轨、第二梳栉、第三驱动电机及第四驱动电机,其中,
    所述第三驱动电机驱动所述第二导轨上下运动,所述第四驱动电机用于驱动所述第二梳栉左右移动。
  11. 根据权利要求5所述的经编机,其特征在于,所述第一针床、第二针床、第三针床、第四针床均包括第一织针床本体、第一沉降片床、第五驱动电机和第六驱动电机,其中,
    所述第五驱动电机用于驱动所述第一织针床本体上下移动,使所述第一织针床本体上的织针成圈编织形成线圈;
    所述第六驱动电机用于驱动所述第一沉降片床在前后方向移动,使所述第一沉降片床上的沉降片对所述线圈进行握持;和/或
    所述第五针床包括第二针床本体、第二沉降片床、第七驱动电机和第八驱动电机,其中:
    所述第七驱动电机用于驱动所述第二织针床本体在前后方向移动;
    第八驱动电机用于驱动所述第二沉降片床上下移动。
  12. 根据权利要求6所述的经编机,其特征在于,所述第一针床、第二针床、第三针床、第四针床均包括第一织针床本体、第一沉降片床、第五驱动电机和第六驱动电机,其中,
    所述第五驱动电机用于驱动所述第一织针床本体上下移动,使所述第一织针床本体上的织针成圈编织形成线圈;
    所述第六驱动电机用于驱动所述第一沉降片床在前后方向移动,使所述第一沉降片床上的沉降片对所述线圈进行握持;和/或
    所述第五针床包括第二针床本体、第二沉降片床、第七驱动电机和第八驱动电机,其中:
    所述第七驱动电机用于驱动所述第二织针床本体在前后方向移动;
    第八驱动电机用于驱动所述第二沉降片床上下移动。
  13. 根据权利要求4所述的经编机,其特征在于,还包括:
    中央控制单元,用于对所述第一针床、第二针床、第三针床、第四针床及第五针床进行控制;及
    用于对所述第一组梳栉结构、第二组梳栉结构、第三组梳栉结构、第四组梳栉结构、第五组梳栉结构、第六组梳栉结构及第七组梳栉结构进行控制,以形成双层经编间隔织物。
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CN108251954A (zh) * 2016-12-29 2018-07-06 米勒纺织品有限公司 间隔织物、用间隔织物形成的复合材料和复合材料的应用
CN110499572A (zh) * 2019-09-02 2019-11-26 江南大学 一种双层经编间隔织物及一种经编机

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