WO2014048039A1 - 织物制备方法、制备控制方法、制备控制装置和制备系统 - Google Patents

织物制备方法、制备控制方法、制备控制装置和制备系统 Download PDF

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Publication number
WO2014048039A1
WO2014048039A1 PCT/CN2012/086531 CN2012086531W WO2014048039A1 WO 2014048039 A1 WO2014048039 A1 WO 2014048039A1 CN 2012086531 W CN2012086531 W CN 2012086531W WO 2014048039 A1 WO2014048039 A1 WO 2014048039A1
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WO
WIPO (PCT)
Prior art keywords
information
fabric
knitting
component
functional area
Prior art date
Application number
PCT/CN2012/086531
Other languages
English (en)
French (fr)
Inventor
刘蓉
朱罗润芬
Original Assignee
加宝利服装有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 加宝利服装有限公司 filed Critical 加宝利服装有限公司
Priority to EP12885383.5A priority Critical patent/EP2910671A4/en
Priority to US14/431,944 priority patent/US10287716B2/en
Publication of WO2014048039A1 publication Critical patent/WO2014048039A1/zh

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Classifications

    • DTEXTILES; PAPER
    • D04BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
    • D04BKNITTING
    • D04B15/00Details of, or auxiliary devices incorporated in, weft knitting machines, restricted to machines of this kind
    • D04B15/66Devices for determining or controlling patterns ; Programme-control arrangements
    • DTEXTILES; PAPER
    • D04BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
    • D04BKNITTING
    • D04B1/00Weft knitting processes for the production of fabrics or articles not dependent on the use of particular machines; Fabrics or articles defined by such processes
    • D04B1/10Patterned fabrics or articles
    • D04B1/102Patterned fabrics or articles with stitch pattern
    • DTEXTILES; PAPER
    • D04BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
    • D04BKNITTING
    • D04B1/00Weft knitting processes for the production of fabrics or articles not dependent on the use of particular machines; Fabrics or articles defined by such processes
    • D04B1/22Weft knitting processes for the production of fabrics or articles not dependent on the use of particular machines; Fabrics or articles defined by such processes specially adapted for knitting goods of particular configuration

Definitions

  • the present invention relates to the field of digital knitting technology, and more particularly to a method for preparing a seamless integrally formed needle, a preparation control method, a preparation control device, and a preparation system. Background technique
  • Fabrics are textiles made of natural or synthetic fibers. With the development of science and technology, the weaving process of knitted fabrics continues to advance.
  • Fitness tight-fitting sportswear is a type of sportswear that has developed rapidly in recent years to meet the different needs of people's sportswear.
  • the existing physical tight-fitting sportswear mainly supports and protects the main muscle groups and soft tissues through an additional support bandage or a protective pad to prevent the muscles or soft tissues from being damaged during strenuous exercise; and will be strengthened by sewing or bonding.
  • the protection device is placed on the shoulder, knee, elbow and other bone stress points, which increases the local body's resistance.
  • a support belt such as a TPU bandage
  • a protective pad such as a sponge pad
  • a vulnerable part of the human body movement have a tendency to extend the movement of the human body due to the limitation of the support band. Binding, for example, during muscle contraction and relaxation, excessive pressure on the support belt causes the athlete to feel tight and restrained during large limb movements; and the seam between the protective pad and the main body fabric is liable to cause skin irritation;
  • the above-mentioned additional components also affect the perspiration and venting of the moving parts, further reducing the wearing comfort.
  • the present invention provides a fabric preparation method, a preparation control method, a preparation control device and a preparation system, which realize mechanical support and moisture wicking function of the fabric part and system, enhance the protection effect of the fabric on the moving human body, and the fabric.
  • Technical effects of ductility and wearing comfort are provided.
  • a fabric preparation method comprising:
  • the knitting member information including knitting structure information and knitting action information
  • the integrally formed seamless weaving of the fabric is performed based on the knitted tissue structure information and the knitting motion information corresponding control command.
  • obtaining information about the fabric functional area setting using the human body shape information, the exercise force analysis data, and the thermal wet analysis data includes:
  • the support function area type including a mechanical support band group corresponding to a position of the main motion muscle group, the mechanical support The belt group is meshed, and a progressive support belt is provided in conjunction with the support belt;
  • the heat dissipation function area type including an wicking area, a moisture absorbing area, a protection type heat buffer, and a heat buffer.
  • the corresponding relationship between the fabric function area type information and the knitting component information is invoked, including: invoking a correspondence between the fabric function area type information and the knitting component information, comprising: calling a correspondence between the support belt and the first knitting member information; Corresponding relationship between the progressive support belt and the second member information, the first knitting member information comprising: one or any combination of rib bundle structure, hanging needle member or tuck tissue member; the second knitting member information
  • the invention comprises: information of one or any combination of a floating member, a hanging needle and a floating wire adding a plurality of members or a jacquard adding member;
  • the third component information includes mesh hollow member information
  • the fourth member information includes information of the floating wire adding member and/or the jacquard adding structure member; the fifth member information includes a hanging needle tissue member, and/or a combined member formed by the hanging needle and the floating wire adding member are spaced apart from each other Information
  • the sixth member information includes: information of the floating wire adding structure member and/or the jacquard adding tissue member.
  • the supporting functional area type further includes: the supporting functional area type further includes: a reinforcing support domain and a reinforcing protection pad, wherein the reinforcing support pad and the reinforcing protective pad correspond to the movable vulnerable part and the soft tissue vibration part Location setting
  • the seventh component information comprises: information about a tension tightness adjustable hanging needle member and/or a tightening adjustable rib bundle structure member .
  • the position of the reinforcing support field and the reinforcing protection pad corresponding to the vulnerable portion of the movement and the vibration portion of the soft tissue comprises:
  • the reinforcing support field and the reinforcing support pad are respectively disposed in the upper abdominal muscle, the lateral psoas muscle, the broad back muscle lateral direction, the rear shoulder muscle and the elbow corresponding region; and the lower front abdomen, the back waist, the lower part of the police part and the corresponding region of the tibia Settings.
  • performing integrally formed seamless knitting of the fabric according to the knitted tissue structure information and the knitting motion information comprises:
  • the ultra-fine denier polyester functional yarn and the polyamide elastic covering yarn are used and the integrally formed seamless weaving of the fabric is performed based on the knitted structural structure information and the knitting motion information.
  • a fabric preparation control method comprising:
  • the fabric functional area setting is performed by using the human body shape information, the exercise force analysis data, and the thermal wet analysis data, and the information of the fabric functional area setting information includes the fabric functional area type information;
  • the fabric functional area setting is performed by using human body shape information, exercise force analysis data, and thermal wet analysis data, including:
  • Supporting functional area setting is performed by using human body muscle group distribution information and muscle muscle force analysis data during exercise, the support function area type includes a mechanical support band group corresponding to a position of the main sports muscle group, and the mechanical support band group is represented by a network. And a progressive support belt disposed in conjunction with the support belt; performing heat dissipation function area setting using motion heat and humidity analysis data, the heat dissipation function area type including an wicking area, a moisture absorbing area, a protective heat buffer, and Hot buffer.
  • the corresponding relationship between the fabric function area type information and the knitting member information is included, including: constructing a correspondence between the fabric function area type information and the knitting member information, comprising: constructing a correspondence relationship between the support belt and the first knitting member information; Corresponding relationship between the progressive support belt and the second member information, the first knitting member information comprising: one or any combination of rib bundle structure, hanging needle member or tuck tissue member; the second knitting member information
  • the invention comprises: information of one or any combination of a floating member, a hanging needle and a floating wire adding a plurality of members or a jacquard adding member;
  • the third component information includes mesh hollow member information
  • the fourth member information includes information of the floating wire adding structure member and/or the jacquard adding tissue member;
  • the fifth member information includes a hanging needle tissue member, and/or a combination of the hanging needle and the floating wire adding member are spaced apart from each other Component information;
  • the sixth member information includes: information of the floating wire adding structure member and/or the jacquard adding tissue member.
  • the supporting functional area type further includes: reinforcing the support domain and reinforcing the protection pad; and constructing a correspondence between the fabric functional area type information and the knitting component information, including: Constructing a reinforcing support domain and reinforcing a correspondence between the protection pad and the seventh component information, the seventh component information comprising: information of a tension-tightness-adjustable hanging needle member and/or a tightening-adjustable rib-shaped bundle-shaped tissue member .
  • the position of the reinforcing support field and the reinforcing protection pad corresponding to the vulnerable portion of the movement and the vibration portion of the soft tissue comprises:
  • the reinforcing support field and the reinforcing support pad are respectively disposed in the upper abdominal muscle, the lateral psoas muscle, the broad back muscle lateral direction, the rear shoulder muscle and the elbow corresponding region; and the lower front abdomen, the back waist, the lower part of the police part and the corresponding region of the tibia Settings.
  • a fabric preparation control device comprising: a controller and a memory
  • the controller is configured to perform a fabric functional area setting using body shape information, motion force analysis data, and heat and moisture analysis data, wherein the information of the fabric function area setting includes fabric function area type information;
  • the knitting member information including knitting organization structure information and knitting motion information
  • a memory connection stores information of the fabric functional area setting, correspondence between the fabric functional area type information and the knitting member information, and control instructions carrying the knitted tissue structure information and the knitting motion information.
  • a fabric preparation system comprising: a fabric preparation control device and a seamless fabric preparation device, wherein: the fabric preparation control device comprises: a controller and a memory,
  • the controller is configured to perform a fabric functional area setting using body shape information, motion force analysis data, and heat and moisture analysis data, wherein the information of the fabric function area setting includes fabric function area type information;
  • the knitting member information including knitting organization structure information and knitting motion information
  • the seamless fabric preparation device comprises: a control device for a seamless fabric preparation device and a seamless fabric weaving device:
  • the control device of the seamless fabric preparation device is used to:
  • the seamless fabric weaving apparatus performs integrally formed seamless weaving of the fabric in accordance with the knitted tissue structure information and the knitting motion information corresponding control instruction.
  • the fabric preparation method according to the embodiment of the present invention sets the protection area of the fabric based on the results of the human body shape, the motion force analysis and the heat and moisture analysis, and the types of the different protection areas correspond to different types.
  • the knitting component is matched with the muscle protection of the corresponding protection area and the heat dissipation requirement of the human body, and is seamlessly integrated and woven, which satisfies the mechanical support, stability and protection of the muscle group and the vulnerable part of the human body.
  • Figure la is a flow chart of a fabric preparation method disclosed in an embodiment of the present invention.
  • FIG. 1b is a schematic structural view of an upper body according to an embodiment of the present invention.
  • Figure If - Figure li is a schematic view of the lower body structure disclosed in the embodiment of the present invention.
  • FIG. 2a is a schematic structural view of a forearm front and rear body mechanical support belt group according to an embodiment of the present invention
  • FIG. 2b is a schematic view showing a molding position of a lower body mechanics support belt group according to an embodiment of the present invention
  • FIG. 3a is a schematic diagram of a distribution relationship between a support belt and a progressive support belt according to an embodiment of the present invention
  • 3b-3d are schematic views showing the preparation position of the upper body support belt, the progressive support belt, and the reinforcing support domain and the reinforcing support mat according to the embodiment of the present invention.
  • 3e-3f are schematic views showing the preparation position of the lower body support belt, the progressive support belt, and the reinforcing support domain and the reinforcing support mat according to the embodiment of the present invention.
  • FIGS. 4a-4d are schematic diagrams showing the weaving artisan of the heat dissipation functional area member structure according to an embodiment of the present invention.
  • FIG. 5a-5d are schematic views showing a molding position and application of a heat dissipation function area according to an embodiment of the present invention
  • FIG. 6 is a flow chart of a fabric preparation control method disclosed in an embodiment of the present invention.
  • FIG. 7 is a schematic structural view of a fabric preparation control device according to an embodiment of the present invention
  • FIG. 8 is a schematic structural view of a fabric preparation system according to an embodiment of the present invention.
  • the embodiment of the invention discloses a fabric preparation method, a preparation control method, a preparation control device and a preparation system, so as to realize mechanical support and moisture wicking function of the fabric part and system, enhance the protection effect of the fabric on the moving human body, and the fabric extension.
  • Technical effect of sex and wearing comfort is a fabric preparation method, a preparation control method, a preparation control device and a preparation system, so as to realize mechanical support and moisture wicking function of the fabric part and system, enhance the protection effect of the fabric on the moving human body, and the fabric extension.
  • Figure la shows a method of fabric preparation comprising:
  • S101 Obtain information of a fabric functional area setting performed by using human body shape information, exercise force analysis data, and thermal wet analysis data, wherein the information of the fabric functional area setting includes fabric functional area type information;
  • the information of the regional setting includes the mechanical support band group corresponding to the position of the main sports muscle group, the mechanical support band group is meshed, and the progressive support band connected with the support belt ;
  • the heat dissipation function area type including an wicking area, a moisture absorbing area, a protection type heat buffer, and a heat buffer.
  • the human body shape information contains the structural information of the upper body and the lower body, as well as the distribution of the muscle groups, as shown in Figure lb-le:
  • the support area of the upper body is mainly set in 8 groups of 15 blocks, including the chest L of the front body (left side L1 and right side L2), abdomen M (left side M1 and right side M2), side body part N (left side N1 and right side) Side N2), shoulder 0 of the back (left side 01 and right side 0 2 ), middle middle R (left side R1 and right side R 2 ), rear waist P, upper arm middle S (left side S1 and right side S2) ), and the rear elbow Q (left Q1 and right Ql).
  • the support field of the lower limbs of the human body is mainly set in 10 groups of 18 blocks, including the abdomen W, the posterior lumbar V, the front thigh A (the right A1 and the left A2), the front calf B (the right B1 and the left) Side B2), posterior thigh D (left D1 and right D2), posterior calf E (left E1 and right E2), knee C (right C1 and left C2), armpit F (left F1 and right F2), lateral thigh G (right G1 and left G2), and lateral calf K (right K1 and left K2); each support domain is ordered according to muscle distribution and orientation
  • the ground is connected to form a system of "mesh" support protection system.
  • Figure 2a is an expanded view of the front and back of the top, extending from the trapezius muscle at the upper end of the back 0 to the lower back fascia at the end of the posterior lumbar P block, forming the first support of the upper limb of the longitudinal back.
  • the belt 2050; the strip supports the transverse upper limb fourth support belt 208 and the lateral upper limb fifth support belt 208 in the shoulder 0 block, the back middle R block, and the back waist P block, and the rear waist P block, respectively.
  • the lateral upper limb sixth support belt 210 of the rear waist P block is intersected to form a mesh support system.
  • the lateral fourth support band 208 of the posterior lumbar P block laterally spans the back shoulder and extends down the armpit to the chest L block of the precursor to form a subcutaneous, anterior and pectoralis major. Support domain to enhance with upper arm pull The stability of the muscle group associated with the movement of the scapula.
  • the fifth upper support band 209 of the upper limb across the middle of the back R blocks from the back of the back to the abdomen M of the front body with an arched curve conforming to the human body curve (left side M2 and right side) Ml), with a broad back muscle and part of the rectus abdominis, and a lumbar fascia attached to the sixth support band 210 of the upper limb located in the P section of the posterior lumbar region, providing the upper body, especially the back, a coherent,
  • the support network reduces the stretching and oscillation of muscles during exercise and prevents possible muscle pain and damage.
  • the upper limb third support belt 207 further supports the middle and lower back.
  • a second support band 206 of the upper limb that extends through the front body is formed, which corresponds to the first support band 2050 of the upper limb extending through the back.
  • the mechanical support of the upper body in the longitudinal direction of the system Considering the sporty comfort and visual aesthetics, the width of the support belt varies in different locations. For example, in the vicinity of the chest, shoulders, and back, the support band is wider, the width is 8-14 cm; and the width of the longitudinal support band is relatively narrow, about 2-4 cm.
  • Figure 2b is an expanded view of the lower body fabric (here, taking the left leg fabric design as an example) including a lower limb first support belt 1 formed by a rectus abdominis muscle extending along the abdominal block W to the groin, wherein the segment And the distal end is connected to the lower limb second support belt 2 and the lower limb third support belt 3 formed by the quadriceps and sartorius muscles along the front A2 block of the thigh; the third support band 3 of the lower limb located in the block A2 Extending down to the medial aspect of the humerus of the block C2; along the third support zone 3 connecting the lower extremities, in the G2 block, two extended support members 4 and lower limbs of the lower extremity covering the intestinal iliac crest of the capsular sac a fifth support belt 5; along the posterior side of the thigh (block D1), the paraspinal muscle extends upward to the gluteus maximus to form a lower limb sixth support belt 6, which is respectively connected to the lower
  • a continuous mesh support system is also formed in the lower leg.
  • the lower limb eighth support band 8 extending downward from the lower third limb support band 3 of the block A2 and covering the B and E blocks (the calf anterior and gastrocnemius muscles), and the sixth support band 6 by the lower limbs
  • the ninth support band 9 of the lower limb extending downward, covering the medial gastrocnemius muscle in the B2 region of the anterior portion of the lower leg, and the tenth support band 10 of the lower limb of the gastrocnemius muscle extending the posterior side of the calf (E1 region).
  • These support belt branches form a mesh support belt system from different angles to the stressed muscle groups of multiple blocks to stabilize the muscle movement range and prevent damage.
  • the progressive support strip is seamlessly coupled to the support strip; the support pressure is progressively reduced from the support strip to the progressive support strip region. As shown in Figure 3a, the distribution relationship between the support band and the progressive support band is supported.
  • the progressive support belt not only has less pressure and tightness than the support belt, but also has better gas permeability due to the structure of the floating wire, improving the pressure and thermal comfort of the force surface during wearing. .
  • Figures 3b-3e show the preparation of the support belt and the progressive support belt in the lower body and upper body tights.
  • the first progressive support belt of the upper limb is formed in the vicinity of the seventh support belt 211 of the upper limb
  • an upper limb second progressive support belt 180 and an upper limb third progressive support belt 170 are formed in the vicinity of the third support pad 13.
  • the sleeve (Fig. 3d) forms an upper limb fourth progressive support belt 190 and an upper limb fifth progressive support belt 200 in the vicinity of the upper limb eighth support belt 212.
  • a lower progressive limb first progressive support belt 140, a lower limb second progressive support belt 100, a lower limb third progressive support belt 90, and a lower abdomen third progressive support belt 90 are formed in the vicinity of the lower limb third support belt 3.
  • a progressive support belt lower limb fourth progressive support belt 110 and a lower limb third progressive support belt 90 are formed in the vicinity of the first support belt 1 of the lower limb;
  • a fifth progressive support belt is formed in the vicinity of the seventh support belt 7 of the lower limb of the gastrocnemius muscle in the calf B block. 130.
  • the sixth progressive support band 120 The front part of the thigh (Fig. 3e): a lower progressive limb first progressive support belt 140, a lower limb second progressive support belt 100, a lower limb third progressive support belt 90, and a lower abdomen third progressive support belt 90 are formed in the vicinity of the lower limb third support belt 3.
  • a progressive support belt lower limb fourth progressive support belt 110 and a lower limb third progressive support belt 90 are formed in the vicinity of
  • a lower seventh limb progressive support belt 40 and a lower limb eighth progressive support belt 30 are formed near the upper end of the sixth support belt 6 formed by the third support belt 3 of the lower limb extending toward the rear side D1 block;
  • a ninth progressive support belt 60 of the lower limb and a tenth progressive support belt 50 of the lower limb are formed in the vicinity of the lower end of the sixth support belt 6 of the lower limb of the back D of the thigh; and the lower support 8 is formed in the vicinity of the lower limb 8 of the lower leg gastrocnemius of the calf
  • the eleventh progressive support band 80 and the twelfth progressive support band 70 of the lower limb are formed near the upper end of the sixth support belt 6 formed by the third support belt 3 of the lower limb extending toward the rear side D1 block;
  • a ninth progressive support belt 60 of the lower limb and a tenth progressive support belt 50 of the lower limb are formed in the vicinity of the lower end of the sixth support belt 6 of the lower limb of the back D
  • S102 Calling the corresponding relationship between the fabric function area type information and the knitting member information, comprising: calling a correspondence relationship between the support belt and the first knitting member information; and a correspondence between the progressive support belt and the second member information, the first knitting member
  • the information includes: information of one or any combination of a ribbed bundle structure member, a hanging needle member or a tuck tissue member;
  • the second knitting member information includes: a floating wire adding member, a hanging needle, and a floating wire adding yarn are spaced apart from each other Information of one or any combination of the formed composite members or jacquard adding members;
  • the support belt adopts a three-dimensional seamless rib-like structure with a large density and a small stretchability, and the mesh support belt system and the other parts of the fabric are naturally seamlessly spliced. Increased integration of clothing and stretch comfort.
  • the main support belt is applied to the skin at a pressure of between 1200 and 2500 Pascals, which is in line with the comfortable pressure range of the human body.
  • the progressive support belt not only has less pressure and tightness than the main support belt, but also has better gas permeability due to the structure of the floating wire, improving the pressure and thermal comfort of the force surface during wearing. Sex.
  • the third component information includes mesh hollow member information
  • the fourth member information includes information of the floating wire adding structure member and/or the jacquard adding tissue member;
  • the fifth member information includes a hanging needle tissue member, and/or a combination of the hanging needle and the floating wire adding member are spaced apart from each other Component information;
  • the sixth member information includes: information of the floating wire adding structure member and/or the jacquard adding tissue member.
  • the above knitting action information can be interpreted as:
  • the hollow mesh structure refers to a fake mesh formed by a partial knocking technique in a flat needle-stacking structure Effect.
  • the float-stacking structure refers to a base on which the ground yarn is always involved in the weaving, and the veil is selectively involved in the weaving according to the structure and the pattern, and exists in the form of a floating line at the weaving place.
  • the hanging needle structure is a three-dimensional woven structure having a discontinuous stitching effect formed by selecting one needle or several needles continuously across a plurality of courses in the weft flat structure.
  • the meshed hollowed out tissue has good breathability and moisture permeability, and the perspiration structure is applied to the front chest 1900, the middle middle 191, and the left arm underarm 192 and the right arm underarm 193, in combination with Figs. 5a-5b. Shown
  • the cross-mesh structure formed by the floating wire-bonding structure is used to produce a light-weight and breathable fabric wicking property, and thus is disposed at the armpit F-where 194 and the armpit F at two points 195.
  • the accumulation of the fabric at the back of the knee when the leg is bent is reduced, and the heat and humidity regulation of the local position is also increased.
  • the fabric is separated by the hanging needle and the floating wire to form a fabric block which has both support and "heat cushioning". It is arranged in the middle of the front abdomen 196, the broad back muscle 197, the thigh.
  • the front portion 202, the thigh rear portion 203, and the lower leg front portion 204 and the lower leg rear portion 205 are used to increase the thermal cushioning of these portions, that is, to provide a certain support and protection to the muscle group while avoiding the impact of the environmental temperature on the body. .
  • a "hot buffer” is formed by the structure of the floating wire, which is arranged at a front part of the front 198, two parts of the front body and the abdomen 199, and a side of the back side of the body 201, and the back side of the body 2020. Its thickness is thinner than that of Figure 4c, but it has better breathability, moisture permeability and stretchability to enhance the thermal and wet comfort of the overall wear.
  • the above functional fabric blocks are seamless and seamlessly combined.
  • the integrated fabric structure can be adjusted under its own conditions without affecting the wearing comfort, such as pulling Pull, cut, reply, etc., to meet the wearer's activity needs.
  • the support functional area type further includes: a reinforcing support field and a reinforcing protection pad, and the reinforcing support pad and the reinforcing protection pad are corresponding to the position of the movable vulnerable part and the soft tissue vibration part. ;
  • the seventh component includes: information on the tension-tightness of the suspension member and/or the rib-shaped tissue member with adjustable tightening.
  • FIGS. 5a-5d The preparation of the reinforcing support field and the reinforcing protective pad are shown in Figures 5a-5d.
  • the mask is covered along the upper arm S block, and the peptide triceps extend to the lower part of the arm to the bottom of the sleeve to form two arches.
  • a support band that varies from wide (5-9cm) to narrow (2-4cm) to support and protect the upper limb muscles.
  • the support pad upper body M, the side waist N, the back middle (wide back muscle) P, and the rear shoulder 0 position form the first support pad 11 and the second support pad 12, The third support pad 13 and the fourth support pad 14.
  • the tensile strength of the support pad is close to that of the support tape, but the texture is thicker, with better force cushioning and thermal cushioning properties.
  • the elbow Q-position reinforcing pad 15 is formed by a seamless 3D hanging needle structure, and has a thickness of 7 mm and is seamlessly connected with other fabrics of the upper body.
  • the 3D hanging needle structure is woven to form a first reinforcing support field 17 with a small degree of stretch and good shape retention, and a second Strengthen the support domain 18, and the third reinforcement support domain 19 (see Figure 3e-Fig.
  • a tighter 3D suspension structure forms a thicker support in the humeral C
  • the field and the reinforcing protective pad 20, having a thickness of 8 mm, the reinforcing support field and the reinforcing protective pad are located at the intersection of the eighth support band 8 of the lower limb and the ninth support belt 9 of the lower limb, and are naturally connected to the mesh support belt.
  • the two steps of S101-S102 are performed by the control device in the seamless fabric preparation device, and the corresponding information is obtained and the corresponding relationship in the integrated seamless knitting process is called to prepare for the final seamless weaving device to complete the knitting. .
  • S103 Perform integrally formed seamless knitting of the fabric according to the knitted tissue structure information and the knitting motion information corresponding control instruction.
  • the knitting action information is directed to the timing and action requirements of the seamless weaving apparatus during the weaving process, and the weaving action information can be interpreted as a weaving action set of the seamless weaving apparatus corresponding to the pattern design generated after the fabric functional area setting.
  • the ultra-fine denier polyester functional yarn and the polyamide elastic covering yarn are used to perform integral forming seamless weaving of the fabric according to the knitted structural structure information and the knitting motion information.
  • the woven material of the fabric is not limited to the polyester and polyamide fibers mentioned, but may also be other natural, artificial, synthetic or suitable for weaving. Functional yarn.
  • the superfine denier polyester functional yarn is made of polyester fiber as a carrier, and the cross section of the fiber is an engineering ultra-fine multi-channel groove and a hollow structure combined body.
  • This special structure not only increases the wicking effect of the fabric on sweat vapor (moisture absorption and perspiration), but also dynamically adjusts the heat balance, increases the warmth and thermal cushioning of the fabric, and the ultra-fine denier hollow structure also makes the fabric softer and softer. Comfortable feel.
  • the fabric was woven using 75 denier of the above ultrafine denier polyester functional yarn and 20 denier polyamide elastic covered yarn.
  • FIG. 1b and FIG. 2 and FIG. 2-4 are only used as a reference, and are not limited to the illustrated form, and the divided areas and the respective areas are not limited to the figure. The division of the display.
  • the fabric preparation method can be carried out according to the actual preparation requirements, and the top, the lower garment and the onesies, as well as the partial fabric applied to the human body, the body plastic body and the weaving of the medical fabric, are not directed to a certain or a certain Fabric-like application examples are limited.
  • Figure 6 shows a fabric preparation control method comprising:
  • S601 Performing a fabric function area setting by using body shape information, exercise force analysis data, and heat and moisture analysis data, wherein the information of the fabric function area setting information includes fabric function area type information; the step may preferably:
  • Supporting functional area setting is performed by using human body muscle group distribution information and muscle muscle force analysis data during exercise, the support function area type includes a mechanical support band group corresponding to a position of the main sports muscle group, and the mechanical support band group is represented by a network. And a progressive support belt disposed in conjunction with the support belt; performing heat dissipation function area setting using motion heat and humidity analysis data, the heat dissipation function area type including an wicking area, a moisture absorbing area, a protective heat buffer, and Hot buffer.
  • S602 construct a correspondence relationship between the fabric function area type information and the knitting member information, where the knitting member information includes knitting structure information and knitting action information;
  • S602 can be implemented as:
  • Constructing the correspondence between the fabric function area type information and the knitting member information comprising: constructing a correspondence relationship between the support belt and the first knitting member information; and a correspondence between the progressive support belt and the second member information, wherein the first knitting member information includes : ribbed bundle structure member, hanging needle member Or the information of one or any combination of the tuck tissue members; the second knit component information comprises: a floating wire adding member, a hanging member and a floating wire adding one another, or a jacquard adding member or Any combination of information;
  • the third component information includes mesh hollow member information
  • the fourth member information includes information of the floating wire adding structure member and/or the jacquard adding tissue member;
  • the fifth member information includes a hanging needle tissue member, and/or a combination of the hanging needle and the floating wire adding member are spaced apart from each other Component information;
  • the sixth member information includes: information of the floating wire adding structure member and/or the jacquard adding tissue member.
  • the support functional area type further includes: strengthening the support domain and strengthening the protection pad;
  • S602 Constructing a reinforcing support domain and reinforcing a correspondence between the protection pad and the seventh component information, wherein the seventh component information comprises: a hanging pin member with adjustable tightness of tension and/or a ribbed bundle structure member with adjustable tightening degree Information.
  • S603 generating a control instruction carrying the knitted tissue structure information and the knitting motion information, and instructing the integrally formed seamless knitting of the fabric according to the knitted tissue structure information and the knitting motion information.
  • the method is a method of controlling a seamless fabric preparation device for fabric preparation.
  • the process and instructions corresponding to the method can be completed by a computer that controls the seamless weaving device, and the implementation of the preparation method in the diagram of FIG. 1 and its description can be interpreted as the completion of the fabric function area setting and correspondence in the computer.
  • the control device transmitted to the seamless fabric preparation device executes the control method of the present embodiment.
  • Figure 7 shows a fabric preparation control device comprising:
  • controller 71 configured to perform fabric functional area setting using body shape information, motion force analysis data, and heat and moisture analysis data, wherein the information of the fabric function area setting includes fabric function area type information; Constructing a correspondence relationship between the fabric functional area type information and the knitting member information, the knitting member information including the knitted tissue structure information and the knitting motion information;
  • the controller 71 passes through the interface
  • the memory 72 is connected, and the memory stores information of the fabric functional area setting, correspondence between the fabric functional area type information and the knitting member information, and control instructions carrying the knitted tissue structure information and the knitting motion information.
  • the control device can be interpreted as a computer or a smart terminal having a control function, such as a tablet computer, which controls the seamless fabric preparation device online or offline.
  • FIG. 8 shows a fabric preparation system, a fabric preparation control device 81 and a seamless fabric preparation device 82, wherein:
  • the fabric preparation control device 81 includes: a controller 811 and a memory 812,
  • the controller is configured to perform a fabric functional area setting using body shape information, motion force analysis data, and heat and moisture analysis data, wherein the information of the fabric function area setting includes fabric function area type information;
  • the knitting member information including knitting organization structure information and knitting motion information
  • a control instruction carrying the knitted tissue structure information and the knitting motion information and instructing the integrally formed seamless knitting of the fabric according to the knitted tissue structure information and the knitting motion information;
  • a memory connection storing information of a fabric functional area setting, a correspondence relationship between the fabric functional area type information and the knitting member information, and a control instruction carrying the knitted tissue structure information and the knitting motion information;
  • the seamless fabric preparation device 82 comprises: a control device 821 for a seamless fabric preparation device and a seamless fabric weaving device 822:
  • the control device 821 of the seamless fabric preparation device is used to:
  • the seamless fabric weaving apparatus 822 performs integral forming seamless weaving of the fabric according to the knitted tissue structure information and the knitting motion information corresponding control instruction.
  • the seamless fabric weaving apparatus can be realized by an electronic seamless circular knitting machine.
  • the fabric preparation control device 81 is a control device, and the seamless fabric preparation device 82 is a controlled device having a processing unit, that is, a control device 821 of the seamless fabric preparation device.
  • the control device 821 transmitted to the seamless fabric preparation device performs a control method, and the seamless fabric weaving device 822 performs the The fabric is integrally molded and seamlessly woven.
  • the fabric preparation method of the embodiment of the invention sets the protection area of the fabric for the human body shape, the motion force analysis and the heat and moisture analysis result, and the different protection area types correspond to different knitting members to match the muscle of the corresponding protection area.
  • the group is protected by force and heat dissipation of the human body, and is seamlessly integrated and weaved. It satisfies the mechanical support of the human body muscles and vulnerable parts, and the foundation of stability and protection ensures the ductility and moisture absorption of the fabric.
  • the sweat function overcomes the puncturing feeling caused by the seam portion in the prior art, and realizes the technical effect of enhancing the protective effect of the fabric on the moving human body, improving the fabric ductility and wearing comfort.
  • the description is relatively simple, and the relevant parts can be referred to the description of the method embodiment.
  • the device embodiments described above are merely illustrative, wherein the units described as separate components may or may not be physically separated, and the components displayed as units may or may not be physical units, ie may be located One place, or it can be distributed to multiple network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the embodiment. Those of ordinary skill in the art can understand and implement without any creative effort.
  • the above description of the disclosed embodiments enables those skilled in the art to make or use the invention.

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Abstract

一种织物制备方法、制备控制方法、制备控制装置和制备系统,其中织物制备方法包括:获取利用人体形态信息、运动受力分析数据和热湿分析数据进行的织物功能区域设置的信息,所述织物功能区域设置的信息包括织物功能区域类型信息;调用织物功能区域类型信息与针织构件信息的对应关系,所述针织构件信息包括针织组织结构信息和编织动作信息;根据所述针织组织结构信息和编织动作信息对应控制指令进行所述织物的一体成型无缝编织。实现了增强织物对运动人体的支持保护作用、改善织物延展性和穿着舒适性的技术效果。

Description

织物制备方法、 制备控制方法、 制备控制装置和制备系统 本申请要求于 2012年 9月 29日提交中国专利局、 申请号为 201210379627.3 发明名称为 "织物制备方法、 制备控制方法、 制备控制装置和制备系统"的中 国专利申请的优先权, 其全部内容通过引用结合在本申请中。 技术领域
本发明涉及数字化针织技术领域, 更具体地说, 涉及一种无缝一体成型针 织的制备方法、 制备控制方法、 制备控制装置和制备系统。 背景技术
织物是用天然纤维或合成纤维制成的纺织品, 随着科学技术的发展,针织 织物的织造工艺不断进步。 健体紧身运动服是近年来发展较快的一类运动服 饰, 以满足人们运动着装的不同需求。
现有的健体紧身运动服主要通过附加式支持绷带或保护垫对主要肌肉群 及软组织进行支持与保护, 防止人体在剧烈运动时肌肉或软组织的损伤; 并且 通过缝纫或粘合的方法将加强保护装置设置于肩部、膝部、肘部等骨骼受力部 位, 增加机体局部的抗击能力。
然而, 现有针对人体运动时易受损部位所设置的支持带 (如 TPU绷带)或保 护垫 (如海绵衬垫)等附加部件, 由于支持带伸缩性局限而对人体运动动作的 延展性产生束縛, 例如在肌肉收缩和舒张过程中, 支持带产生过大的局部压力 使得运动员在进行大肢体运动时感到紧绷和拘束;且保护垫与主体织物的接缝 部位容易造成肌肤刺痒感; 并且上述附加部件也影响了运动部位的排汗透气, 进一步降低了穿着的舒适度。 发明内容 有鉴于此, 本发明提供一种织物制备方法、 制备控制方法、 制备控制装置 和制备系统, 以实现织物局部及系统的力学支持和吸湿排汗功能,增强织物对 运动人体的保护作用、 以及织物延展性和穿着舒适性的技术效果。
一种织物制备方法, 包括:
获取利用人体形态信息、运动受力分析数据和热湿分析数据进行的织物功 能区域设置的信息, 所述织物功能区域设置的信息包括织物功能区域类型信 息;
调用织物功能区域类型信息与针织构件信息的对应关系,所述针织构件信 息包括针织组织结构信息和编织动作信息;
根据所述针织组织结构信息和编织动作信息对应控制指令进行所述织物 的一体成型无缝编织。
可选地, 获取利用人体形态信息、运动受力分析数据和热湿分析数据进行 的织物功能区域设置的信息包括:
获取利用人体肌群分布信息以及运动中肌群受力分析数据生成的支持功 能区域设置的信息,所述支持功能区域类型包括与主运动肌群对应位置设置的 力学支持带群, 所述力学支持带群呈网状, 以及, 与所述支持带衔接设置的渐 进支持带;
以及, 获取利用运动热湿分析数据生成的散热功能区域设置的信息, 所述 散热功能区域类型包括排汗区、 吸湿透气区、 保护型热緩冲区和热緩冲区。
可选地, 调用织物功能区域类型信息与针织构件信息的对应关系, 包括: 调用织物功能区域类型信息与针织构件信息的对应关系, 包括: 调用支持带与第一针织构件信息的对应关系;以及渐进支持带与第二构件 信息的对应关系, 所述第一针织构件信息包括: 罗纹束状组织构件、 吊针构件 或集圈组织构件之一或任意组合的信息; 所述第二针织构件信息包括: 浮线添 紗构件、吊针和浮线添紗相互间隔而形成的组合构件或提花添紗构件之一或任 意组合的信息;
以及,
排汗区与第三构件信息的对应关系;吸湿透气区与第四构件信息的对应关 系; 保护型热緩冲区与第五构件信息的对应关系, 以及热緩冲区与第六构件信 息的对应关系;
第三构件信息包括网状镂空构件信息;
第四构件信息包括浮线添紗构件和 /或提花添紗组织构件的信息; 第五构件信息包括吊针组织构件, 和 /或, 吊针和浮线添紗构件相互间隔 而形成的组合构件信息;
以及, 第六构件信息包括: 浮线添紗组织构件和 /或提花添紗组织构件的 信息。
可选地, 所述支持功能区域类型还包括: 所述支持功能区域类型还包括: 加强支持域和加强保护垫,所述加强支持域和加强保护垫与运动易受损部位以 及软组织振动部位对应位置设置;
获取织物功能区域类型信息与针织构件信息的对应关系, 包括:
获取加强支持域和加强保护垫与第七构件信息的对应关系,所述第七构件 信息包括: 拉伸紧密度可调的吊针构件和 /或紧缩度可调的罗纹束状组织构件 的信息。
可选地,所述加强支持域和加强保护垫与运动易受损部位以及软组织振动 部位对应位置设置包括:
所述加强支持域和加强支持垫分别在上身腹部肌肉、侧腰肌、阔背肌横向、 后肩部肌肉和肘部对应区域设置; 以及, 下身前腹部、 后腰部、 警部下端和髌 骨对应区域设置。
可选地 ,根据所述针织组织结构信息和编织动作信息进行所述织物的一体 成型无缝编织包括:
利用超细旦聚酯功能紗及聚酰胺弹力包覆紗并根据所述针织组织结构信 息和编织动作信息进行所述织物的一体成型无缝编织。
一种织物制备控制方法, 包括:
利用人体形态信息、运动受力分析数据和热湿分析数据进行织物功能区域 设置, 所述织物功能区域设置的信息包括织物功能区域类型信息;
构建织物功能区域类型信息与针织构件信息的对应关系,所述针织构件信 息包括针织组织结构信息和编织动作信息; 生成携带有针织组织结构信息和编织动作信息的控制指令,并指示所述根 据所述针织组织结构信息和编织动作信息进行所述织物的一体成型无缝编织。
可选地, 利用人体形态信息、运动受力分析数据和热湿分析数据进行织物 功能区域设置, 包括:
利用人体肌群分布信息以及运动中肌群受力分析数据进行支持功能区域 设置, 所述支持功能区域类型包括与主运动肌群对应位置设置的力学支持带 群, 所述力学支持带群呈网状, 以及, 与所述支持带衔接设置的渐进支持带; 利用运动热湿分析数据进行散热功能区域设置,所述散热功能区域类型包 括排汗区、 吸湿透气区、 保护型热緩冲区和热緩冲区。
可选地, 构建织物功能区域类型信息与针织构件信息的对应关系, 包括: 构建织物功能区域类型信息与针织构件信息的对应关系, 包括: 构建支持带与第一针织构件信息的对应关系;以及渐进支持带与第二构件 信息的对应关系, 所述第一针织构件信息包括: 罗纹束状组织构件、 吊针构件 或集圈组织构件之一或任意组合的信息; 所述第二针织构件信息包括: 浮线添 紗构件、吊针和浮线添紗相互间隔而形成的组合构件或提花添紗构件之一或任 意组合的信息;
以及,
构建排汗区与第三构件信息的对应关系、吸湿透气区与第四构件信息的对 应关系、保护型热緩冲区与第五构件信息的对应关系, 以及热緩冲区与第六构 件信息的对应关系;
第三构件信息包括网状镂空构件信息;
第四构件信息包括浮线添紗组织构件和 /或提花添紗组织构件的信息; 第五构件信息包括吊针组织构件, 和 /或, 吊针和浮线添紗构件相互间隔 而形成的组合构件信息;
以及, 第六构件信息包括: 浮线添紗组织构件和 /或提花添紗组织构件的 信息。
可选地, 所述支持功能区域类型还包括: 加强支持域和加强保护垫; 构建织物功能区域类型信息与针织构件信息的对应关系, 包括: 构建加强支持域和加强保护垫与第七构件信息的对应关系,所述第七构件 信息包括: 拉伸紧密度可调的吊针构件和 /或紧缩度可调的罗纹束状组织构件 的信息。
可选地,所述加强支持域和加强保护垫与运动易受损部位以及软组织振动 部位对应位置设置包括:
所述加强支持域和加强支持垫分别在上身腹部肌肉、侧腰肌、阔背肌横向、 后肩部肌肉和肘部对应区域设置; 以及, 下身前腹部、 后腰部、 警部下端和髌 骨对应区域设置。
一种织物制备控制装置, 包括: 控制器和存储器,
所述控制器用于利用人体形态信息、运动受力分析数据和热湿分析数据进 行织物功能区域设置,所述织物功能区域设置的信息包括织物功能区域类型信 息;
构建织物功能区域类型信息与针织构件信息的对应关系,所述针织构件信 息包括针织组织结构信息和编织动作信息;
生成携带有针织组织结构信息和编织动作信息的控制指令,并指示所述根 据所述针织组织结构信息和编织动作信息进行所述织物的一体成型无缝编织; 所述控制器通过接口与所述存储器连接,所述存储器存储织物功能区域设 置的信息、织物功能区域类型信息与针织构件信息的对应关系和携带有针织组 织结构信息和编织动作信息的控制指令。
一种织物制备系统, 包括: 织物制备控制装置和无缝织物制备装置,其中: 所述织物制备控制装置包括: 控制器和存储器,
所述控制器用于利用人体形态信息、运动受力分析数据和热湿分析数据进 行织物功能区域设置,所述织物功能区域设置的信息包括织物功能区域类型信 息;
构建织物功能区域类型信息与针织构件信息的对应关系,所述针织构件信 息包括针织组织结构信息和编织动作信息;
生成携带有针织组织结构信息和编织动作信息的控制指令,并指示所述根 据所述针织组织结构信息和编织动作信息进行所述织物的一体成型无缝编织; 所述控制器通过接口与所述存储器连接,所述存储器存储织物功能区域设 置的信息、织物功能区域类型信息与针织构件信息的对应关系和携带有针织组 织结构信息和编织动作信息的控制指令;
所述无缝织物制备装置包括:无缝织物制备装置的控制设备和无缝织物织 造设备:
所述无缝织物制备装置的控制设备用于:
获取所述利用人体形态信息、运动受力分析数据和热湿分析数据进行的织 物功能区域设置的信息;
调用所述织物功能区域类型信息与针织构件信息的对应关系;
所述无缝织物织造设备根据所述针织组织结构信息和编织动作信息对应 控制指令进行所述织物的一体成型无缝编织。
从上述的技术方案可以看出, 本发明实施例的织物制备方法,基于人体形 态、运动受力分析和热湿分析的结果, 对织物进行保护区域的设定, 不同保护 区域的类型对应不同的针织构件,以配合对应保护区域的肌群受力保护及人体 散热需要, 并采用无缝一体成型编织, 在满足对人体运动肌群和易受损部位的 力学支持, 稳固和保护的基 上, 保证了织物的延展性和吸湿排汗功能, 且克 服了现有技术中接缝部位造成的穿着刺痒感,实现增强织物对运动人体的保护 作用、 改善织物延展性和穿着舒适性的技术效果。 附图说明 为了更清楚地说明本发明实施例或现有技术中的技术方案,下面将对实施 例或现有技术描述中所需要使用的附图作简单地介绍,显而易见地, 下面描述 中的附图仅仅是本发明的一些实施例, 对于本领域普通技术人员来讲,在不付 出创造性劳动的前提下, 还可以根据这些附图获得其他的附图。
图 la为本发明实施例公开的一种织物制备方法流程图;
图 lb-图 le为本发明实施例公开的上身构造示意图;
图 If-图 li为本发明实施例公开的下身构造示意图;
图 2a为本发明实施例公开的上肢前后身力学支持带群结构示意图; 图 2b为本发明实施例公开的下身力学支持带群制备成型位置示意图; 图 3a 为本发明实施例公开的一种支持带与渐进支持带的分布关系示意 图;
图 3b-图 3d为本发明实施例公开的上身支持带、渐进支持带、以及加强支 持域和加强支持垫的制备成型位置示意图;
图 3e-图 3f为本发明实施例公开的下身支持带、 渐进支持带、 以及加强支 持域和加强支持垫的制备成型位置示意图;
图 4a-图 4d为本发明实施例公开的散热功能区域构件组织结构编织意匠 示意图;
图 5a-图 5d为本发明实施例公开的一种散热功能区域成型位置及应用示 意图;
图 6为本发明实施例公开的织物制备控制方法流程图;
图 7为本发明实施例公开的一种织物制备控制装置结构示意图; 图 8为本发明实施例公开的一种织物制备系统结构示意图。 具体实施方式
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清 楚、 完整地描述, 显然, 所描述的实施例仅仅是本发明一部分实施例, 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作出创造 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。
本发明实施例公开了一种织物制备方法、制备控制方法、制备控制装置和 制备系统, 以实现织物局部及系统的力学支持和吸湿排汗功能,增强织物对运 动人体的保护作用、 以及织物延展性和穿着舒适性的技术效果。
图 la示出了一种织物制备方法, 包括:
S101 : 获取利用人体形态信息、运动受力分析数据和热湿分析数据进行的 织物功能区域设置的信息,所述织物功能区域设置的信息包括织物功能区域类 型信息;
上述步骤可实现为:
获取利用人体肌群分布信息以及运动中肌群受力分析数据生成的支持功 能区域设置的信息,所述支持功能区域类型包括与主运动肌群对应位置设置的 力学支持带群, 所述力学支持带群呈网状, 以及, 与所述支持带衔接设置的渐 进支持带;
以及, 获取利用运动热湿分析数据生成的散热功能区域设置的信息, 所述 散热功能区域类型包括排汗区、 吸湿透气区、 保护型热緩冲区和热緩冲区。
出于说明清楚及公开充分的考虑, 结合图 lb-图 li进行说明:
人体形态信息中包含有上身和下身的构造信息,以及肌群分布,如图 lb-le 所示:
上身的支持域主要设置在 8组 15个区块, 包括前身的胸部 L (左侧 L1和 右侧 L2)、 腹部 M (左侧 Ml和右侧 M2 )、 侧身部 N (左侧 N1和右侧 N2)、 后 身的肩部 0 (左侧 01和右侧 02)、 背中部 R (左侧 R1和右侧 R2)、 后腰部 P、 上臂中部 S (左侧 S1和右侧 S2) , 以及臂后肘部 Q (左侧 Q1和右侧 Ql)。
如图 lf-li所示:
人体下肢的支持域主要设置在 10组共 18个区块, 包括腹部 W、 后腰部 V、 前大腿部 A (右侧 A1和 左侧 A2)、 前小腿部 B (右侧 B1和左侧 B2)、 后大 腿部 D( 左侧 D1和右侧 D2)、后小腿部 E (左侧 E1和右侧 E2)、膝盖部 C (右侧 C1和左侧 C2)、 胭窝部 F (左侧 F1和右侧 F2 )、 大腿外侧部 G (右侧 G1和左 侧 G2)、 以及小腿外侧部 K (右侧 K1和左侧 K2 ); 各支持域按照肌肉分布和 走向有序地进行连接, 从而形成一个系统的 "网状" 支持保护系统。
主运动肌群对应位置设置的力学支持带群制备成型位置通过图 2a-2c进行 说明:
图 2a是上衣前后身的展开图示, 从位于背部上端 0区块的斜方肌沿脊推 向下延伸至后腰部 P区块末端的腰背筋膜处,形成纵贯背部的上肢第一支持带 2050; 此条支持带分别与位于肩部 0区块、 背中部 R区块、 以及后腰部 P区 块的横向上肢第四支持带 208、 后腰部 P区块的横向上肢第五支持带 209、 后 腰部 P区块的横向上肢第六支持带 210相交接, 形成网状支持系统。 后腰部 P 区块的横向第四支持带 208横向跨越后背肩部,并沿袖窿腋下延伸至前身的胸 部 L区块, 形成一个包附棘下肌、 前踞肌和胸大肌的支持域, 以增强与上臂拉 伸及肩胛骨运动相关的肌肉群的稳定性。 横跨背中部 R (左侧 R1和右侧 R2) 区块的上肢第五支持带 209, 从后背部以符合人体曲线的拱状弧线一直延伸至 前身的腹部 M (左侧 M2和右侧 Ml ), 包附了阔背肌及部分腹直肌, 同时配 合位于后腰部 P区块的上肢第六支持带 210所包附的腰背筋膜, 提供给上身, 尤其是后背部一个连贯、有序的支持网,减少肌肉在运动中的过渡拉伸和震荡, 预防可能引起的肌群疼痛和损伤。 同时, 与上肢第一支持带 2050并行, 且始 于上肢第四支持带 208、 连接上肢第五支持带 209、 上肢第六支持带 210, 止 于后衣身下摆部,还设有一个较宽的上肢第三支持带 207, 进一步对背中、 背 下部提供支持。
除此以外, 在前身, 沿胸部 L区块上端经过腹部至 M区块下端, 形成纵 贯前身的上肢第二支持带 206, 其与纵贯后背的上肢第一支持带 2050相呼应, 形成上身在纵向上的系统的力学支持。考虑到运动舒适性及视觉美观性, 支持 带的宽窄在不同区位有所变化。 例如, 在靠近胸部、 肩背部、 背中部, 支持带 较宽, 最宽处为 8-14cm; 而纵向支持带的宽度相对较窄, 约为 2-4cm。
图 2b是下身织物的展开图示,(此处以左侧腿部织物设计为例)包括由沿 腹部区块 W的腹直肌向下延伸至腹股沟处形成的下肢第一支持带 1 , 其中段 及末端分别与沿着大腿前部 A2区块的股四头肌和缝匠肌形成的下肢第二支持 带 2和下肢第三支持带 3相连接; 位于区块 A2的下肢第三支持带 3向下延伸 至区块 C2的髌骨内侧; 沿着连接下肢第三支持带 3在 G2区块产生了两条覆 盖并紧包阔肌膜之肠胫束的延伸性下肢第四支持带 4和下肢第五支持带 5; 沿 大腿后侧 (区块 D1 )胭旁肌向上延伸至臀大肌形成下肢第六支持带 6, 其分 别与下肢第四支持带 4和下肢第五支持带 5相连; 同时, 下肢第六支持带 6 继续向上延伸至后腰部 V, 并与经过警大肌与稳固臀中肌的下肢第七支持带 7 相连。 以上的组合支持带设计在腰腹、臀部及大腿上半部等主运动肌群形成了 一个连续的网状式支持带系统。
与大腿部网状支持带相连, 经过膝盖区块 C, 在小腿部也形成了一个连续 的网状支持系统。 包括由区块 A2的下肢第三支持带 3向下延伸并覆盖 B和 E 区块(小腿胫前肌和腓肠肌) 的下肢第八支持带 8, 以及由下肢第六支持带 6 向下延伸、 覆盖至小腿前部 B2区内侧腓肠肌的下肢第九支持带 9, 以及纵贯 ( E1区)小腿后侧腓肠肌的下肢第十支持带 10。 这些支持带分支从不同角度 对多个区块的受力肌肉群形成了网状式支持带系统, 以稳定肌肉的运动幅度, 预防损伤。
渐进支持带制备成型形态和位置通过图 3a-图 3e进行说明:
在支持带附近形成"次力系"区域,使得在压力较大的支持带附近形成一个 过渡型渐进式力学支持功能区域,避免局部高压对肌肤组织带来的不适感和可 能引起的肿胀和血流循环问题。 所述渐进支持带与所述支持带无缝连接; 支持 压力从支持带依次向渐进支持带区域递减。 如图 3a所示, 支持带与渐进支持 带的分布关系。 所述渐进支持带不仅具有较于支持带较小的压力和紧度, 而且 由于浮线添紗的结构而具有更好的透气性,改善受力面在穿着过程中的压感及 热舒适性。
图 3b-3e显示了在下身及上身紧身服中支持带与渐进支持带的制备成型位 置。
上身前(图 3b ), 在上肢第七支持带 211的附近形成上肢第一渐进支持带
160;
上身后 (图 3c ), 在第三支持垫 13 的附近形成上肢第二渐进支持带 180 和上肢第三渐进支持带 170。
袖子(图 3d ),在上肢第八支持带 212的附近形成上肢第四渐进支持带 190 和上肢第五渐进支持带 200。
大腿前部(图 3e ): 在下肢第三支持带 3的附近形成下肢第一渐进支持带 140、 下肢第二渐进支持带 100、 下肢第三渐进支持带 90; 位于前腹部肠腰肌 处的下肢第一支持带 1的附近形成渐进支持带下肢第四渐进支持带 110、 下肢 第三渐进支持带 90; 处于小腿 B区块经腓肠肌的下肢第七支持带 7的附近形 成第五渐进支持带 130、 第六渐进支持带 120。
大腿后部 (图 3f ): 沿下肢第三支持带 3向后侧 D1 区块延伸而形成的第 六支持带 6的上端附近形成下肢第七渐进支持带 40、下肢第八渐进支持带 30; 在大腿后侧 D区块的下肢第六支持带 6下端附近形成下肢第九渐进支持带 60、 下肢第十渐进支持带 50; 在小腿后侧腓肠肌的下肢第八支持带 8附近形成下 肢第十一渐进支持带 80和下肢第十二渐进支持带 70。
S102: 调用织物功能区域类型信息与针织构件信息的对应关系, 包括: 调用支持带与第一针织构件信息的对应关系;以及渐进支持带与第二构件 信息的对应关系, 所述第一针织构件信息包括: 罗纹束状组织构件、 吊针构件 或集圈组织构件之一或任意组合的信息; 所述第二针织构件信息包括: 浮线添 紗构件、吊针和浮线添紗相互间隔而形成的组合构件或提花添紗构件之一或任 意组合的信息;
为了达到足够的力学支持和形态稳定性 ,支持带采用了密度较大而拉伸性 较小的立体无缝罗纹束状组织,并且网状支持带系统与织物的其他部分进行自 然无痕拼接,增加了服装穿着的一体化及拉伸舒适性。主要支持带作用在肌肤 上的界面压力约在 1200-2500帕斯卡之间, 符合人体舒适压范围。
所述渐进支持带不仅具有较于主支持带较小的压力和紧度,而且由于浮线 添紗的结构而具有更好的透气性, 改善受力面在穿着过程中的压感及热舒适 性。
以及,
排汗区与第三构件信息的对应关系;吸湿透气区与第四构件信息的对应关 系; 保护型热緩冲区与第五构件信息的对应关系, 以及热緩冲区与第六构件信 息的对应关系;
第三构件信息包括网状镂空构件信息;
第四构件信息包括浮线添紗组织构件和 /或提花添紗组织构件的信息; 第五构件信息包括吊针组织构件, 和 /或, 吊针和浮线添紗构件相互间隔 而形成的组合构件信息;
以及, 第六构件信息包括: 浮线添紗组织构件和 /或提花添紗组织构件的 信息。
排汗区、 吸湿透气区、 保护型热緩冲区和热緩冲区构件意匠图参照图 4a- 图 4d进行说明, 以及, 各功能区在紧身服上的应用位置参见图 5a-5d:
可作为列举实例地, 上述编织动作信息可解译为:
所述镂空网状组织指在平针添紗组织中采用局部脱圈技术形成的假网眼 效果。 所述浮线添紗组织指在地紗始终参与编织的基 上, 面紗根据结构和花 型的需要而有选择性地参与编织,在编织的地方以浮线存在的形式。 所述吊针 结构是在纬平组织中 ,选一针或几针连续跨越多个横列而形成的具有间断缝叠 效果的立体编织结构。
如图 4a所示, 网状镂空组织具有良好的透气透湿性, 排汗结构应用在前 胸部 1900、 后背中部 191、 以及左臂腋下 192和右臂腋下 193 , 结合图 5a-图 5b所示;
如图 4b所示, 由浮线添紗组织形成的交叉网纹结构, 以产生轻薄而透气 性好的织物排汗性能, 因此设置于胭窝 F—处 194、 胭窝 F二处 195。 一方面 减少腿部在弯曲时, 膝盖后部织物的堆积, 也增加了局部位的热湿调节性。
如图 4c所示, 由吊针和浮线添紗组织相互间隔形成了既具有支持保护又 有 "热緩冲" 作用的织物区块, 设置于前腹中部 196、 阔背肌处 197、 大腿前 部 202、 大腿后部 203、 以及小腿前部 204和小腿后部 205 , 以增加这些部位 的热緩冲, 即在避免环境温度变化对肌体冲击的同时,提供给肌肉群一定的支 持和保护。
如图 4d所示, 由浮线添紗组织形成 "热緩冲区", 设置于前身腹部一处 198、 前身腹部二处 199, 以及后背侧身一处 201、 后背侧身二处 2020。 其厚 度较图 4c织物薄, 但具有更好的透气、 透湿性和拉伸性, 以提升整体穿着的 热湿舒适感。
以上各功能织物区块均为无缝无痕拼合,在穿着过程中, 随着肢体形态的 变化,一体成型织物结构在不影响穿用舒适的条件下,可进行自身的受力调整, 如牵拉、 剪切、 回复等, 以满足穿用者的活动需求。 可作为另一实施例进行说明的是: 所述支持功能区域类型还包括: 加强支 持域和加强保护垫,所述加强支持域和加强保护垫与运动易受损部位以及软组 织振动部位对应位置设置;
获取织物功能区域类型信息与针织构件信息的对应关系, 包括:
获取加强支持域和加强保护垫与第七构件信息的对应关系,所述第七构件 信息包括: 拉伸紧密度可调的吊针构件和 /或紧缩度可调的罗纹束状组织构件 的信息。
所述加强支持域和加强保护垫的制备成型位置参见图 5a-5d包括: 沿上臂 S区块覆盖三角肌、肽三头肌一直向手臂下部延伸至袖部底端形成 两条拱状并行的、 从宽(5-9cm )到窄(2-4cm )渐变的支持带, 以对上肢肌肉 进行支持和保护。
如图 3b-图 3c所示: 所述支持垫上身腹部 M、 侧腰部 N、 后背中 (阔背 肌) P、 后肩部 0位, 形成了第一支持垫 11、 第二支持垫 12、 第三支持垫 13 和第四支持垫 14。 所述支持垫的拉伸紧度与支持带的拉伸紧度接近, 但质地 较厚、 有更好的力緩冲和热緩冲特性。 另外, 由无缝 3D吊针结构形成了肘部 Q位加强保护垫 15 , 其厚度达 7mm, 并与上身的其它织物无缝连接。
同时, 在下身的前腹部\¥、 后腰部 V、 以及 D区上部警下端, 由 3D吊针 结构编织分别形成了拉伸度小、 且保型性好的第一加强支持域 17、 第二加强 支持域 18、 和第三加强支持域 19 (参见图 3e-图 3f ) ,起到提警收腹的力学效 果;更紧密的 3D吊针组织结构在髌骨位 C形成更为厚实的加强支持域和加强 保护垫 20,厚度达 8mm, 加强支持域和加强保护垫的位置正好位于下肢第八 支持带 8与下肢第九支持带 9的交叉位, 并与网状支持带自然无痕连接。
S101-S102两个步骤由无缝织物制备装置中的控制设备执行, 在获取所需 信息及调用了在一体成型无缝编织过程中的对应关系,为最终无缝织造设备完 成编织做好控制准备。
S103:根据所述针织组织结构信息和编织动作信息对应控制指令进行所述 织物的一体成型无缝编织。
所述编织动作信息针对无缝织造设备在织造过程中的时序及动作要求,所 述编织动作信息可解释为进行织物功能区域设置后生成的纹样设计所对应的 无缝织造设备的织造动作集合。
利用超细旦聚酯功能紗及聚酰胺弹力包覆紗并根据所述针织组织结构信 息和编织动作信息进行所述织物的一体成型无缝编织。所述织物的织造材料并 不限于提及的聚酯和聚酰胺纤维, 也可为其他适于编织的天然、人造、 合成或 功能紗线。
需要进一步说明的是,超细旦聚酯功能紗以聚酯纤维为载体, 纤维横断面 为工程设计的超细旦多通道凹槽及中空结构合并体。此特殊结构不但增加了织 物对汗液水汽的芯吸作用 (吸湿导汗), 而且还能动态调节热平衡、 增加织物 的保暖及热緩冲性, 同时超细旦中空结构也使得织物具有更加轻软的舒适手 感。所述织物采用 75丹尼尔的上述超细旦聚酯功能紗及 20丹尼尔聚酰胺弹力 包覆紗编织而成。
需要说明的是, 图 lb-图 li, 以及图 2-4图示中制备成型位置仅作为一种 参考进行, 而并不局限于图示形式, 所划分区域及各个区域也并不局限于图示 的划分方式。
可以知道的是, 所述织物制备方法可根据实际编制需要, 进行上衣、 下衣 及连体衣, 以及应用于人体的局部织物, 美体塑体以及医疗织物的编织, 并不 针对某种或某类织物应用实例进行局限。
图 6示出了一种织物制备控制方法, 包括:
S601 : 利用人体形态信息、运动受力分析数据和热湿分析数据进行织物功 能区域设置, 所述织物功能区域设置的信息包括织物功能区域类型信息; 该步骤可优选:
利用人体肌群分布信息以及运动中肌群受力分析数据进行支持功能区域 设置, 所述支持功能区域类型包括与主运动肌群对应位置设置的力学支持带 群, 所述力学支持带群呈网状, 以及, 与所述支持带衔接设置的渐进支持带; 利用运动热湿分析数据进行散热功能区域设置,所述散热功能区域类型包 括排汗区、 吸湿透气区、 保护型热緩冲区和热緩冲区。
S602: 构建织物功能区域类型信息与针织构件信息的对应关系, 所述针织 构件信息包括针织组织结构信息和编织动作信息;
S602可实现为:
构建织物功能区域类型信息与针织构件信息的对应关系, 包括: 构建支持带与第一针织构件信息的对应关系;以及渐进支持带与第二构件 信息的对应关系, 所述第一针织构件信息包括: 罗纹束状组织构件、 吊针构件 或集圈组织构件之一或任意组合的信息; 所述第二针织构件信息包括: 浮线添 紗构件、吊针和浮线添紗相互间隔而形成的组合构件或提花添紗构件之一或任 意组合的信息;
以及,
构建排汗区与第三构件信息的对应关系、吸湿透气区与第四构件信息的对 应关系、保护型热緩冲区与第五构件信息的对应关系, 以及热緩冲区与第六构 件信息的对应关系;
第三构件信息包括网状镂空构件信息;
第四构件信息包括浮线添紗组织构件和 /或提花添紗组织构件的信息; 第五构件信息包括吊针组织构件, 和 /或, 吊针和浮线添紗构件相互间隔 而形成的组合构件信息;
以及, 第六构件信息包括: 浮线添紗组织构件和 /或提花添紗组织构件的 信息。 所述支持功能区域类型还包括: 加强支持域和加强保护垫;
S602: 构建加强支持域和加强保护垫与第七构件信息的对应关系,所述第 七构件信息包括: 拉伸紧密度可调的吊针构件和 /或紧缩度可调的罗纹束状组 织构件的信息。
S603 : 生成携带有针织组织结构信息和编织动作信息的控制指令,并指示 所述根据所述针织组织结构信息和编织动作信息进行所述织物的一体成型无 缝编织。
该方法是控制无缝织物制备装置进行织物制备的方法。该方法对应的进程 及指令, 可通过对无缝织造设备进行控制的计算机完成, 而图 1图示及其说明 中的制备方法的实现方式, 可解释为计算机中完成织物功能区域设置、对应关 系构建和控制指令的生成后,传输至无缝织物制备装置的控制设备执行本实施 例的控制方法。
图 7示出了一种织物制备控制装置, 包括:
控制器 71和存储器 72, 所述控制器 71用于利用人体形态信息、 运动受 力分析数据和热湿分析数据进行织物功能区域设置 ,所述织物功能区域设置的 信息包括织物功能区域类型信息; 构建织物功能区域类型信息与针织构件信息的对应关系,所述针织构件信 息包括针织组织结构信息和编织动作信息;
生成携带有针织组织结构信息和编织动作信息的控制指令,并指示所述根 据所述针织组织结构信息和编织动作信息进行所述织物的一体成型无缝编织; 所述控制器 71通过接口与所述存储器 72连接,所述存储器存储织物功能 区域设置的信息、织物功能区域类型信息与针织构件信息的对应关系和携带有 针织组织结构信息和编织动作信息的控制指令。
所述控制装置可以解释为一台计算机, 或者具备控制功能的智能终端,如 平板电脑等设备, 该控制装置对无缝织物制备装置进行在线或离线控制。
图 8示出了一种织物制备系统, 织物制备控制装置 81和无缝织物制备装 置 82, 其中:
所述织物制备控制装置 81包括: 控制器 811和存储器 812,
所述控制器用于利用人体形态信息、运动受力分析数据和热湿分析数据进 行织物功能区域设置,所述织物功能区域设置的信息包括织物功能区域类型信 息;
构建织物功能区域类型信息与针织构件信息的对应关系,所述针织构件信 息包括针织组织结构信息和编织动作信息;
生成携带有针织组织结构信息和编织动作信息的控制指令,并指示所述根 据所述针织组织结构信息和编织动作信息进行所述织物的一体成型无缝编织; 所述控制器通过接口与所述存储器连接,所述存储器存储织物功能区域设 置的信息、织物功能区域类型信息与针织构件信息的对应关系和携带有针织组 织结构信息和编织动作信息的控制指令;
所述无缝织物制备装置 82包括: 无缝织物制备装置的控制设备 821和无 缝织物织造设备 822:
所述无缝织物制备装置的控制设备 821用于:
获取所述利用人体形态信息、运动受力分析数据和热湿分析数据进行的织 物功能区域设置的信息;
调用所述织物功能区域类型信息与针织构件信息的对应关系; 所述无缝织物织造设备 822根据所述针织组织结构信息和编织动作信息 对应控制指令进行所述织物的一体成型无缝编织。
所述无缝织物织造设备可通过电子无缝圓筒针织机实现。
所述织物制备控制装置 81 是一种控制设备, 所述无缝织物制备装置 82 是受控设备, 该受控设备具备处理单元, 即所述无缝织物制备装置的控制设备 821。 所述织物制备控制装置 81完成织物功能区域设置、对应关系构建和控制 指令的生成后,传输至无缝织物制备装置的控制设备 821执行控制方法, 由所 述无缝织物织造设备 822进行所述织物的一体成型无缝编织。
综上所述:
本发明实施例的织物制备方法,对人体形态、运动受力分析和热湿分析结 果, 对织物进行保护区域的设定, 不同保护区域的类型对应不同的针织构件, 以配合对应保护区域的肌群受力保护及人体散热需要 ,并采用无缝一体成型编 织, 在满足对人体运动肌群和易受损部位的力学支持, 稳固和保护的基石出上, 保证了织物的延展性和吸湿排汗功能,且克服了现有技术中接缝部位造成穿着 刺痒感, 实现增强织物对运动人体的保护作用、 改善织物延展性和穿着舒适性 的技术效果。 本说明书中各个实施例采用递进的方式描述,每个实施例重点说明的都是 与其他实施例的不同之处,各个实施例之间相同相似部分互相参见即可。对于 实施例公开的装置和系统而言, 由于其与实施例公开的方法相对应, 所以描述 的比较简单, 相关之处参见方法部分说明即可。
对于系统实施例而言, 由于其基本相应于方法实施例, 所以描述得比较简 单,相关之处参见方法实施例的部分说明即可。 以上所描述的装置实施例仅仅 是示意性的,其中所述作为分离部件说明的单元可以是或者也可以不是物理上 分开的,作为单元显示的部件可以是或者也可以不是物理单元, 即可以位于一 个地方, 或者也可以分布到多个网络单元上。可以根据实际的需要选择其中的 部分或者全部模块来实现本实施例方案的目的。本领域普通技术人员在不付出 创造性劳动的情况下, 即可以理解并实施。 对所公开的实施例的上述说明,使本领域专业技术人员能够实现或使用本 发明。 对这些实施例的多种修改对本领域的专业技术人员来说将是显而易见 的,本文中所定义的一般原理可以在不脱离本发明实施例的精神或范围的情况 下, 在其它实施例中实现。 因此, 本发明实施例将不会被限制于本文所示的这 些实施例, 而是要符合与本文所公开的原理和新颖特点相一致的最宽的范围。

Claims

权 利 要 求
1、 一种织物制备方法, 其特征在于, 包括:
获取利用人体形态信息、运动受力分析数据和热湿分析数据进行的织物功 能区域设置的信息, 所述织物功能区域设置的信息包括织物功能区域类型信 息;
调用织物功能区域类型信息与针织构件信息的对应关系,所述针织构件信 息包括针织组织结构信息和编织动作信息;
根据所述针织组织结构信息和编织动作信息对应控制指令进行所述织物 的一体成型无缝编织。
2、 如权利要求 1所述的织物制备方法, 其特征在于, 获取利用人体形态 信息、 运动受力分析数据和热湿分析数据进行的织物功能区域设置的信息包 括:
获取利用人体肌群分布信息以及运动中肌群受力分析数据生成的支持功 能区域设置的信息, 所述支持功能区域类型包括:
与主运动肌群对应位置设置的力学支持带群, 所述力学支持带群呈网状, 以及, 与所述支持带衔接设置的渐进支持带;
以及, 获取利用运动热湿分析数据生成的散热功能区域设置的信息, 所述 散热功能区域类型包括排汗区、 吸湿透气区、 保护型热緩冲区和热緩冲区。
3、 如权利要求 2所述的织物制备方法, 其特征在于,
调用织物功能区域类型信息与针织构件信息的对应关系, 包括: 调用支持带与第一针织构件信息的对应关系;以及渐进支持带与第二构件 信息的对应关系, 所述第一针织构件信息包括: 罗纹束状组织构件、 吊针构件 或集圈组织构件之一或任意组合的信息; 所述第二针织构件信息包括: 浮线添 紗构件、吊针和浮线添紗相互间隔而形成的组合构件或提花添紗构件之一或任 意组合的信息;
以及,
排汗区与第三构件信息的对应关系;吸湿透气区与第四构件信息的对应关 系; 保护型热緩冲区与第五构件信息的对应关系, 以及热緩冲区与第六构件信 息的对应关系; 第三构件信息包括网状镂空构件信息;
第四构件信息包括浮线添紗组织构件和 /或提花添紗组织构件的信息; 第五构件信息包括吊针组织构件, 和 /或, 吊针和浮线添紗构件相互间隔 而形成的组合构件信息;
以及, 第六构件信息包括: 浮线添紗组织构件和 /或提花添紗组织构件的 信息。
4、 如权利要求 2所述的织物制备方法, 其特征在于, 所述支持功能区域 类型还包括: 加强支持域和加强保护垫, 所述加强支持域和加强保护垫与运动 易受损部位以及软组织振动部位对应位置设置;
获取织物功能区域类型信息与针织构件信息的对应关系, 包括:
获取加强支持域和加强保护垫与第七构件信息的对应关系,所述第七构件 信息包括: 拉伸紧密度可调的吊针构件和 /或紧缩度可调的罗纹束状组织构件 的信息。
5、 如权利要求 1所述的织物制备方法, 其特征在于, 所述加强支持域和 加强保护垫与运动易受损部位以及软组织振动部位对应位置设置包括:
所述加强支持域和加强支持垫分别在上身腹部肌肉、侧腰肌、阔背肌横向、 后肩部肌肉和肘部对应区域设置; 以及, 下身前腹部、 后腰部、 警部下端和髌 骨对应区域设置。
6、 如权利要求 1所述的织物制备方法, 其特征在于, 根据所述针织组织 结构信息和编织动作信息进行所述织物的一体成型无缝编织包括:
利用超细旦聚酯功能紗及聚酰胺弹力包覆紗并根据所述针织组织结构信 息和编织动作信息进行所述织物的一体成型无缝编织。
7、 一种织物制备控制方法, 其特征在于, 包括:
利用人体形态信息、运动受力分析数据和热湿分析数据进行织物功能区域 设置, 所述织物功能区域设置的信息包括织物功能区域类型信息;
构建织物功能区域类型信息与针织构件信息的对应关系,所述针织构件信 息包括针织组织结构信息和编织动作信息;
生成携带有针织组织结构信息和编织动作信息的控制指令,并指示所述根 据所述针织组织结构信息和编织动作信息进行所述织物的一体成型无缝编织。
8、 如权利要求 7所述的织物制备控制方法, 其特征在于, 利用人体形态 信息、 运动受力分析数据和热湿分析数据进行织物功能区域设置, 包括: 利用人体肌群分布信息以及运动中肌群受力分析数据进行支持功能区域 设置, 所述支持功能区域类型包括与主运动肌群对应位置设置的力学支持带 群, 所述力学支持带群呈网状, 以及, 与所述支持带衔接设置的渐进支持带; 利用运动热湿分析数据进行散热功能区域设置,所述散热功能区域类型包 括排汗区、 吸湿透气区、 保护型热緩冲区和热緩冲区。
9、 如权利要求 7所述的织物制备控制方法, 其特征在于,
构建织物功能区域类型信息与针织构件信息的对应关系, 包括:
构建支持带与第一针织构件信息的对应关系;以及渐进支持带与第二构件 信息的对应关系, 所述第一针织构件信息包括: 罗纹束状组织构件、 吊针构件 或集圈组织构件之一或任意组合的信息; 所述第二针织构件信息包括: 浮线添 紗构件、吊针和浮线添紗相互间隔而形成的组合构件或提花添紗构件之一或任 意组合的信息;
以及,
构建排汗区与第三构件信息的对应关系、吸湿透气区与第四构件信息的对 应关系、保护型热緩冲区与第五构件信息的对应关系, 以及热緩冲区与第六构 件信息的对应关系;
第三构件信息包括网状镂空构件信息;
第四构件信息包括浮线添紗构件和 /或提花添紗组织构件的信息; 第五构件信息包括吊针组织构件, 和 /或, 吊针和浮线添紗构件相互间隔 而形成的组合构件信息;
以及, 第六构件信息包括: 浮线添紗组织构件和 /或提花添紗组织构件的 信息。
10、 如权利要求 7所述的织物制备控制方法, 其特征在于, 所述支持功能 区域类型还包括: 加强支持域和加强保护垫;
构建织物功能区域类型信息与针织构件信息的对应关系, 包括:
构建加强支持域和加强保护垫与第七构件信息的对应关系,所述第七构件 信息包括: 拉伸紧密度可调的吊针构件和 /或紧缩度可调的罗纹束状组织构件 的信息。
11、 如权利要求 7所述的织物制备控制方法, 其特征在于, 所述加强支持 域和加强保护垫与运动易受损部位以及软组织振动部位对应位置设置包括: 所述加强支持域和加强支持垫分别在上身腹部肌肉、侧腰肌、阔背肌横向、 后肩部肌肉和肘部对应区域设置; 以及, 下身前腹部、 后腰部、 警部下端和髌 骨对应区域设置。
12、 一种织物制备控制装置, 其特征在于, 包括: 控制器和存储器, 所述控制器用于利用人体形态信息、运动受力分析数据和热湿分析数据进 行织物功能区域设置,所述织物功能区域设置的信息包括织物功能区域类型信 息;
构建织物功能区域类型信息与针织构件信息的对应关系,所述针织构件信 息包括针织组织结构信息和编织动作信息;
生成携带有针织组织结构信息和编织动作信息的控制指令,并指示所述根 据所述针织组织结构信息和编织动作信息进行所述织物的一体成型无缝编织; 所述控制器通过接口与所述存储器连接,所述存储器存储织物功能区域设 置的信息、织物功能区域类型信息与针织构件信息的对应关系和携带有针织组 织结构信息和编织动作信息的控制指令。
13、 一种织物制备系统, 其特征在于, 包括: 织物制备控制装置和无缝织 物制备装置, 其中:
所述织物制备控制装置包括: 控制器和存储器,
所述控制器用于利用人体形态信息、运动受力分析数据和热湿分析数据进 行织物功能区域设置,所述织物功能区域设置的信息包括织物功能区域类型信 息;
构建织物功能区域类型信息与针织构件信息的对应关系,所述针织构件信 息包括针织组织结构信息和编织动作信息;
生成携带有针织组织结构信息和编织动作信息的控制指令,并指示所述根 据所述针织组织结构信息和编织动作信息进行所述织物的一体成型无缝编织; 所述控制器通过接口与所述存储器连接,所述存储器存储织物功能区域设 置的信息、织物功能区域类型信息与针织构件信息的对应关系和携带有针织组 织结构信息和编织动作信息的控制指令;
所述无缝织物制备装置包括:无缝织物制备装置的控制设备和无缝织物织 造设备:
所述无缝织物制备装置的控制设备用于:
获取所述利用人体形态信息、运动受力分析数据和热湿分析数据进行的织 物功能区域设置的信息; 调用所述织物功能区域类型信息与针织构件信息的对应关系;
所述无缝织物织造设备根据所述针织组织结构信息和编织动作信息对应 控制指令进行所述织物的一体成型无缝编织。
+
PCT/CN2012/086531 2012-09-29 2012-12-13 织物制备方法、制备控制方法、制备控制装置和制备系统 WO2014048039A1 (zh)

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