JP3932977B2 - 3D structured net - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a three-dimensional structured net formed by warp knitting, and more particularly to a three-dimensional structured net that has a good shape retaining property of a three-dimensional string portion that defines a mesh space, is not easily deformed, and has excellent compression resistance.
[0002]
[Prior art and problems to be solved by the invention]
  Conventionally, as a net or mesh-like knitted fabric by warp knitting used as, for example, a breathable spacer for clothing (for example, a shoulder pad), at least one has a net-like shape as seen in Japanese Utility Model Laid-Open No. 2-74647. A net is known in which the base and the back of the base material formed are connected by a connecting thread, and the string portion defining the net space is made into a three-dimensional structure to increase the thickness and void retention.
[0003]
  As for the net of the above three-dimensional structure, the shape retaining property decreases as the opening diameter of the net space increases and as the net thickness (the height of the string portion over which the connecting yarn is stretched) increases. However, bending deformation and falling easily occur, and the inherent elastic force in the thickness direction is inferior. Therefore, when it is required to have a large compression resistance and elastic force, the thickness of the net and the opening diameter (passage) of the net space cannot be increased so much, and its application is limited. ing.
[0004]
  In addition, the present inventor, as a three-dimensional structured net by warp knitting, uses a knitting technique that uses an insertion thread to knitting the front and back fabrics to form a three-dimensional string portion that defines a net space with a plurality of wale stitch rows. By configuring, a net having a three-dimensional structure in which the compression resistance of the three-dimensional string portion is increased to stabilize the structure has been proposed (Japanese Patent Laid-Open No. 5-187011).
[0005]
  However, even in this case, the larger the opening diameter of the mesh space, and the greater the thickness of the net, the lower the shape retention and the more likely the three-dimensional string portion will fall, and the compression resistance in the thickness direction. Power and natural elasticity will be inferior.
[0006]
  The present invention has been made in view of the above, and the shape of the three-dimensional string portion that defines the net space is good, does not easily deform, has excellent compression resistance, and has a high void retention rate. It is lightweight and can retain good elastic force, such as clothing nets such as spacers or medical protective nets, as cushioning materials and mat materials, and as a reinforcing core material and intermediate materials for various molded structures. It is intended to provide a three-dimensional structure net that can be used widely and suitably as an industrial material for various purposes such as a sloped vegetation net, a protective net and the like.
[0007]
[Means and Actions for Solving the Problems]
  The present invention solves the above-mentioned problems, and the invention according to claim 1 is formed by warp knitting, and has a mesh-like front and back base material and a connecting yarn that connects these base materials with a predetermined interval. Each string part that forms a mesh on the front and back substrates,It is composed of stitch rows of multiple wales that are continuous in the knitting direction,Each of the required intervals in the knitting direction is alternately knotted with adjacent left and right string portions, forming a zigzag shape, and forming a polygonal mesh respectively.A three-dimensionally structured net in which connecting yarns are stretched in a plurality of rows between corresponding strings on the front and back sides to form a three-dimensional string portion, and a net space is defined by the three-dimensional string portion. The connecting thread is stretched over the corresponding stitch rows of the front and back string portions of the three-dimensional string portion, andIn the side of the net spaceKnitting directionEvery predetermined course, Shifting from one side of the front and back substrates to the other side to the stitch row one or several rows away from the corresponding stitch row,In the net space, so as to form an approximately X shape in the knitting width directionIt is characterized by being slanted over.
[0008]
  According to this three-dimensionally structured net, the three-dimensional string portion itself that defines the net space is a three-dimensional structure formed by connecting a plurality of knitting stitch rows and a plurality of connecting yarns. In addition to the good shape retention compared to the case,Every predetermined courseDiagonal connecting portion of the connecting yarn in the case, that is, the diagonally extending portion that shifts to the stitch row one or several rows away from the corresponding stitch rowHowever, by forming a substantially X shape in the knitting width direction in the net space, the shape retaining force of the three-dimensional string portion is increased, and the directionality and collapse of the three-dimensional string portion are suppressed,Excessive opening and bending of the front and back string parts are regulated, and the shape retention of the three-dimensional string part is further improved, and the net space does not partially expand excessively. A substantially uniform and good compression resistance can be maintained.In particular, the expansion of the net space can be regulated substantially evenly on the front and back, and each solid string portion can be prevented from falling or deforming to the same side when receiving a load in the thickness direction.For this reason, it is possible to increase the aperture of the net space and the thickness of the net without deteriorating shape retention and compression resistance.
[0009]
  And aboveIn other words, the string portions forming the meshes on the front and back substrates are alternately knotted with the adjacent left and right string portions at each required interval in the knitting direction to form a zigzag shape, and each form a polygonal mesh.BecauseIn spite of the net having a three-dimensional structure, it is possible to easily adjust the width of the net and to fold it, and to make it easy to manufacture by warp knitting with a double raschel machine.
[0010]
  Claim2In the invention, the string portions of the base material on the front and back sides are knotted by shifting the positions in the knitting direction on the front and back surfaces, and the connecting thread is stretched over the front and back string portions, so that the mesh space is reduced. The three-dimensional string parts that are defined are alternately inclined to the left and rightIs.
  In this case, when a load or pressure in the thickness direction is applied to the net, the three-dimensional string portion itself acts so as to mutually regulate the fall, and this acts to regulate the bending deformation by the diagonally extending portion of the connecting yarn. Together with this, the shape of the net space and the three-dimensional structure of the net are further stabilized. That is, it is strong against a load and pressure in the thickness direction, has excellent pressure strength and shape retention, and has a good elastic force.
[0011]
  In particular, ClaimsThreeAs described above, the diagonally threaded portions of the connecting yarns having a substantially X shape in the mesh space exist alternately for each predetermined course in the knitting direction, with the stretched portions in the corresponding stitch row. If it is provided so as to restrict the opening of the opening, the opening of the mesh space is small and the shape retaining property is maintained better, and the compression resistance strength having no substantially uniform directionality is obtained throughout. Moreover, it is lightweight and can be used particularly suitably as a cushioning material.
[0012]
  Further, in the three-dimensional structured net of each of the inventions,FourSo that the connecting yarnIs slanted to form a substantially X shape in the net space for each predetermined course,It is preferable that the wire is stretched so as to form an approximately X shape in the width direction of the solid string portion within the solid string portion and / or the knot portion between the solid string portions.
[0013]
  This placeIfThe shape retaining force of the three-dimensional string part or knot part is increased, and the directionality and falling of the three-dimensional string part are suppressed, and even if the thickness of the net or the aperture of the net space is increased, even better compression resistance and elasticity Can have sex, StandingIt is possible to satisfactorily maintain the three-dimensional state of the body string portion and the expanded state of the net space, and obtain substantially uniform compression resistance and elasticity as a whole.
[0014]
  MoreIn addition,In the three-dimensionally structured net according to each of the above inventions, a flat ground portion obtained by knitting at least one of the front and back substrates with a flat ground structure can be set at an arbitrary position including both ear portions. Further, in this three-dimensionally structured net, at least a part of the constituent yarn of the base material on at least one side of the front and back sides and / or the connecting yarn spanned between the front and back base materials in the flat portion is made of a flexible yarn. Is preferred.
[0015]
  In the case of a three-dimensional structure net with a flat part set on the ears as described above, for example, when performing heat setting after knitting, tweezers can be tapped using the flat part of both ears, making processing easy In addition, when used in combination with other members such as a sheet material, the flat ground portion can be used as a joint portion by stitching or the like. In addition, it is possible to easily join with an adhesive or a double-sided adhesive tape using this flat portion, and the combination with other members such as a sheet becomes easy.
[0016]
  In particularBothWhen a flexible thread is used for a flat portion at an arbitrary position including the ear portion, the flat portion can be easily flattened and the thickness of the portion can be reduced. It is also possible to fold and fold the flat part. In particular, when the ears are flat ground knitted with flexible fiber yarns, the ears tend to shrink in the knitting direction when the three-dimensional structure net is expanded by expanding in the knitting width direction after knitting. The net space can be expanded and set into a substantially uniform predetermined shape over the entire area.
[0017]
  further,in frontIn the case where the central portion of the flat portion of the three-dimensionally structured net described above is knitted with a structure having no connecting yarn and consists of only the front and back substrates, the thickness can be further reduced by joining the front and back substrates. In addition, it is possible to insert ropes, metal wires, hollow pipes, perforated pipes, long bodies such as cotton and urethane foam in the space between the front and back substrates, and use them as protective nets and vegetation nets for slopes, etc. In this case, the net can be easily stretched, and when used as a spacer, the cushioning property is improved.
[0018]
  Claim8'sThe invention uses warp knitting so that the base on one side of the front and back sides is a plain formed by chain knitting yarns and insertion yarns, the base on the other side is a net, and the string portion forming the mesh of the base is continuous in the knitting direction. This is a string part that is composed of a plurality of wale stitch rows and forms a mesh on this mesh substrateThe multiple wale stitch rowAnd the substrate on the one sideStitch rowA three-dimensionally structured net that forms a three-dimensional string part that defines a net space on one side of the connecting thread, the connecting thread comprising a string part in the mesh substrate and the flat ground part The three-dimensional string portion is stretched over the corresponding stitch row with the substrate.Side of the net spaceIn any part of the knitting direction, the transition to one or several rows away from the corresponding stitch row from one of the front and back substrates to the other side, Between the adjacent three-dimensional string part or between the base part inside the net spaceThis is a three-dimensionally structured net that is stretched diagonally.
[0019]
  In the case of this three-dimensional structured net, it has both a function as a sheet by a flat ground and a function as a three-dimensional structure net by a three-dimensional string portion on one side, and a plurality of stitch rows and a plurality of rows constituting this one-side net The three-dimensional cord portion of the connecting yarn is prevented from being tilted by the diagonally extending portion of the connecting yarn, for example, the diagonally extending portion between the adjacent three-dimensional string portion or the inner base portion thereof, thereby maintaining the three-dimensional structure. The shape is further improved, the surface is stable, the compression resistance in the thickness direction is excellent, and a good elastic force can be provided. Therefore, it is particularly suitable as a spacer having cushioning properties.
[0020]
  And claims10As described above, in the above-described three-dimensionally structured net, the three-dimensionally structured net formed by knitting the front and back substrates as a net can be set at any location including both ears. In this case, the effect of the single-sided flat part and the net part of the three-dimensional structure has both planar stability and flexibility, and the knitting is performed so that the insertion thread of the base material formed in a net shape is knitted on the flat ground. What is necessary is just to arrange | position, and what is suitable for the spacer etc. which can be folded lightweight and can be obtained easily.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
  Next, embodiments of the present invention will be described based on examples shown in the drawings.
[0022]
  FIG. 1 schematically shows a part of a three-dimensional structure net (A) of one embodiment knitted with a synthetic fiber yarn, FIG. 2 shows an enlarged perspective view of a part thereof, and FIG. The wrapping figure of the knitting structure of is shown.
[0023]
  In the figure, (1) and (2) show the front and back substrates in the form of a net, and (3) shows a connecting yarn that connects these substrates (1) and (2) with a required interval. (11) is a string portion that defines the mesh of the front side substrate (1), and (21) is a string portion that defines the mesh of the back side substrate (2). It is constituted by a stitch row of wales (in the case of the figure, 2 wales). Furthermore, the connecting yarn (3) is stretched between the corresponding string part (11) and the string part (21) on the front and back sides in the same multiple rows as the stitch line of the string part, so (1) and (2) are connected to form a three-dimensional string portion (4) that defines the net space (S). (5) shows a knot between the three-dimensional string portions (4) and (4).
[0024]
  Each of the string portions (11) and (21) of the mesh-like front and back bases (1) and (2) is composed of a chain knitting yarn and an insertion yarn that is inserted into the chain knitting waving. It consists of a row of stitches of multiple wales, and this string part (11) (21) is knotted in an alternating manner at the required intervals corresponding to the mesh part (11) (21) adjacent to the left and right respectively. Thus, the meshes on the front and back sides are polygons such as quadrilaterals, rhombuses, or substantially hexagons, respectively. (15) and (25) show knots between the string portions (11) and (11) and between (21) and (21).
[0025]
  In addition, the connecting thread (3) is basically spanned by stitch rows corresponding to the front and back string portions (11) and (21) and has a width extending over a plurality of wales. The stretched part (31) of the three-dimensional string part (4) can be ventilated and passed through in the longitudinal direction and inside / outside with the string parts (11) and (21) continuously in a zigzag shape. Are formed in a three-dimensional shape having a three-dimensional void.
[0026]
  And in the arbitrary part (arbitrary course position) of the knitting direction in the said three-dimensional string part (4), the said connection thread | yarn (3) goes to the other side from one side of the base material (1) (2) of front and back, front and back Are shifted to a stitch row one or several rows away from the corresponding stitch row and are slanted over. As will be described later, the slanting spanning portion (32) is spanned so as to form a substantially X shape in the mesh space (S), or inside the solid cord portion (4) and / or the solid cord. The parts (4) and (4) are spanned so as to form an approximately X shape inside the nodule part (5).
[0027]
  The three-dimensionally structured net (A) of the above embodiment is constructed by warp knitting by a double raschel machine having two rows of needle beds, and a specific example of the knitting is based on the lapping diagram shown in FIG. explain.
[0028]
  On the front side of the double raschel machine, two types of chain knitting yarns (L2) and (L3) for alternately introducing two chain knitting yarns respectively, and insertion yarn ridges for introducing insertion yarns every two wales (L1), while inserting the insertion yarn into the chain knitting wale (L2) and the chain knitting wale (L3) respectively, the string on the front side net-like substrate (1) by the stitch row extending over the two wales By knitting the strips (11), and forming the stitches by shifting the chain stitch yarns of chain stitches (L2) (L3) to the left and right alternately by 2 wales for each required course corresponding to the mesh Then, the knitting is alternately repeated with the left and right adjacent string portions (11), and then the knitting to return to the original wale position is repeated.
[0029]
  Also on the back side, two types of chain knitting yarns (L6) and (L7) for alternately introducing two chain knitting yarns respectively, and insertion yarn ridges (L8) for introducing insertion yarns every two wales. ), The strand portion of the base (2) forming a net-like structure on the back side by a row of stitches extending over the two wales while inserting the insertion yarns into the chain knitting wales by the chain braids (L6) (L7). (21) is knitted respectively, and at the same course position as the front side of each course corresponding to the mesh, the chain stitch yarn is alternately shifted to the left and right for two wales to form a stitch, thereby forming a string adjacent to the left and right Repeat the knitting to connect to the part (21) and then return to the original wale position.
[0030]
  Further, for the connecting yarns, two types of connecting yarns (L4) and (L5), which are alternately introduced two by two, are connected to the front side chain braid (L2) constituting the front side string portion (11). ) (L3) each with two wale stitch rows and corresponding back wreath stitches (L6) (L7) constituting the back side string portion (21) alternately Knitting so that both bases (1) and (2) are connected by the connecting yarn (3) by forming stitches on the front and back sides.
[0031]
  Then, as shown in FIG. 3, using the above-mentioned connecting yarns (L4) and (L5) as a basic structure, the chain stitches in the knitting direction, for example, front and back chain stitches, are used. The string parts (11) and (11) and the knot parts (15) and (25) between the string parts (21) and (21), that is, between the adjacent three-dimensional string parts (4) and (4) When the connecting yarns of the connecting yarns (L4) and (L5) are passed from one of the front and back (usually the back side) to the other side at the knot portion (5) and the course positions before and after the knot portion (5), In the same direction as the chain braid or in the opposite direction to the chain braid, the yarn is shifted by 2 wales from the corresponding stitch row, and knitted diagonally across the stitch row corresponding to the adjacent string portion. Then, return to the original wale position and organize.
[0032]
  By knitting with the knitting structure of FIG. 3 in this way, the connecting yarn (3) is a three-dimensional string portion composed of front and back string portions (11) and (21) and a normal spanning portion (31) of the connecting yarn. In the mesh space (S) in which (4) is defined, it is spanned obliquely at the front and rear positions of the knot portions (5) at both ends in the knitting direction and at the center position in the knitting direction.
[0033]
  After this knitting, the knitted fabric is appropriately widened so as to form a net shape, and expanded and heat-set to open the meshes of the front and back substrates (1) and (2), that is, the net space (S). As a result, a moderate shape-retaining force is imparted to the yarn used as the constituent yarn, and a part of the connecting yarn (3) is approximately at both ends and the central portion in the knitting direction in the net space (S). A three-dimensionally structured net (A) shown in FIGS. 1 and 2 that is slanted so as to form an X shape is obtained.
[0034]
  This three-dimensional structured net (A) has a three-dimensional structure in which excessive opening and bending of the front and back string portions (11) and (21) are restricted by the diagonally extending portion (32) of the connecting thread (3). The string part (4) is prevented from falling down and the knot part (5) is reinforced, and the shape retaining property of the three-dimensional string part (4) is further improved. Further, the net space (S) does not partially expand excessively, and substantially uniform and good compression resistance can be maintained over the entire net. So this net alone orIsIt can be used as a spacer, cushion material or slope vegetation net by joining with other sheet materials.
[0035]
  The knitting structure of FIG. 4 is inserted with a chain stitch (L2) (L3) and an insertion thread kite (L1) on the front side, and with a chain stitch (L6) (L7) on the back side, as in the above embodiment. Both bases (1) and (2) are connected to each other in an organization for knitting the string portions (11) and (21) each consisting of a two-wale stitch row of the front and back bases (1) and (2) by the yarn thread (L8). The diagonally extending portions (32) of the connecting yarn (3) are knitted so as to cross in a substantially X shape at the front and rear positions of the knot portions (5) at both ends in the knitting direction in the mesh space (S). Shows the case.
[0036]
  That is, the connecting yarn (3) for connecting the front and back substrates is formed by connecting the string portions (11) and (21) corresponding to the front and back by connecting yarns (L4) and (L5) that are alternately introduced two by two. Based on the knitting that crosses the stitch row alternately and connects the front and back substrates (1) and (2), by the transition of the front and back side chain stitches (L2) (L3) and (L6) (L7) At the course position before and after the knot portion between the front and back string portions, that is, the knot portion (5) between the three-dimensional string portions, each of the chain stitches (L2 ) In the same direction as the transition direction of (L3) and (L6) (L7), make a transition 2 wales from the corresponding stitch row, and then hang diagonally so as to return to the original wale position. Yes.
[0037]
  As a result, the connecting yarn (3) is slanted at the front and rear positions of the knot portions (5) at both ends in the knitting direction in the mesh space (S) defined by the three-dimensional string portion (4). It will be X-shaped. That is, a three-dimensionally structured net (A) having no slanting spanning portion (32) in the central portion in the net space (S) in the net of FIG. 2 is obtained, and both ends of the knot portion (5) are connected to each other. It can be reinforced. It is also possible to provide the diagonally extending portion (32) of the connecting thread only on one side of the front and rear position of the knot portion (5).
[0038]
  Further, the knitting structure of FIG. 5 is similar to the above-described embodiment in that the front side is composed of the chain stitch (L2) (L3) and the insertion thread kite (L1), and the back side is the chain stitch (L6) (L7). And the insertion yarns (L8), in the structure knitting the string portions (11) and (21) each consisting of two wale stitch rows of the front and back substrates (1) and (2), connecting yarns (3 ) In which the diagonally extending portions (32) are alternately arranged every one or several courses in the knitting direction in the net space (S).
[0039]
  That is, the connecting yarn (3) for connecting the front and back substrates is formed by connecting the string portions (11) and (21) corresponding to the front and back by connecting yarns (L4) and (L5) which are alternately introduced one by one. Based on the knitting in which the fabrics (1) and (2) on the front and back sides are connected alternately to the stitch rows, the connecting yarn thread (L4) is used for each course when it is passed from one of the front and back to the other. (L5) is knitted in the opposite direction so as to move sideways by two wales from the corresponding stitch row, and from the other side of the front and back to the one side without the side knitting Is repeated.
[0040]
  As a result, the connecting yarn (3) is passed through the corresponding stitch row in each course in the net space (S) defined by the three-dimensional string portion (4). And the diagonally extending portion (32) are alternately present, and the obliquely extending portion (32) is substantially X-shaped in the net space (S), as shown in FIG. can get.
[0041]
  In this three-dimensional structured net (A), the expansion of the mesh space (S) is restricted by the diagonally extending portion (32), the opening is small and the shape retaining property is well maintained, and the three-dimensional string portion ( 4) There is no collapse, and a compression resistance strength having no substantially uniform orientation is obtained as a whole, and it is lightweight and can be used particularly suitably as a cushion material or a spacer for mats and beds.
[0042]
  The knitting structure of FIG. 7 is similar to the above embodiment in that the front side chain stitches (L2) (L3) and the insertion yarns (L1), and the back side chain stitches (L6) (L7) and the insertion yarns. The ridges (11) and (21) are knitted by the two-wale stitch row of the front and back bases (1) and (2) with the heel (L8), and both bases (1) and (2) are connected with the connecting yarn (3). In the three-dimensional structured net to be connected, the elasticity and the structural stability in the thickness direction are particularly improved by the structure and use of the connecting yarn (3).
[0043]
  In this knitting structure, a connecting yarn ridge (L4) guided by a full set and a connecting yarn ridge (L5) guided by a full set or every other yarn are used. The connected yarn thus guided is knitted over the stitch rows of the corresponding string portions (11) and (21) on the front and back, respectively, from one side of the front and back and from the other side to the one side, and As for the other connecting yarn thread (L5), when it is passed from one of the front and the back to the other for each course, the adjacent string portion from the stitch row of the corresponding string portion (11) (21) It is knitted over the stitch row so as to be shifted sideways by one wale.
[0044]
  The three-dimensional structured net knitted in this way is such that all of the connecting yarns guided by the connecting yarns (L4) are nets in the three-dimensional string portions composed of the front and back string portions and the connecting yarns stretched over them. The connecting yarns, which are stretched by each stitch row in a direction substantially perpendicular to the front and back surfaces, and are introduced every other by the connecting yarns (L5), are net space defined by the three-dimensional string portion ( In S), each course is slanted so as to form a substantially X shape. Further, when the connecting yarn is introduced as a full set, it is also laid in an X shape within the three-dimensional string portion. Therefore, a three-dimensional net having a high compression resistance of the three-dimensional string portion and a great effect of suppressing the collapse and excellent in structural stability and cushioning properties can be obtained.
[0045]
  In particular, in the knitting structure described above, a nylon yarn having low heat setting property is used as the connecting yarn of the connecting yarn ridge (L4), and the heat setting property is used for each of the knitting yarns knitting the connecting yarn heel (L5) and the front and back substrates. By using a good polyester yarn, etc. and heat-setting after knitting, the heat-setting property of the nylon yarn is suppressed and good cushioning is maintained in the net thickness direction, and the polyester yarn is heat-set. The shape of the front and back substrates is good and the structure is more stable. Therefore, it can be suitably used as a spacer or cushion material.
[0046]
  The knitting structure shown in FIG. 8 is inserted with a chain stitch (L2) (L3) and an insertion thread kite (L1) on the front side and a chain stitch (L6) (L7) on the back side, as in the above embodiment. In a structure in which the string portions (11) and (21) of the front and back substrates (1) and (2) are knitted so as to be constituted by two knitted stitch rows by the yarn thread (L8), the connecting yarns (3 ), The diagonally extending portion (32) is arranged in a substantially X shape for each predetermined course in the knitting direction, particularly inside the three-dimensional string portion (4).
[0047]
  In the case of this knitted structure, the connecting yarns (L5) are not used, and the connecting yarns are used every other or every several courses (shown in the figure) using connecting yarns (L4) that are introduced every other yarn. When suspending from one side of the front and back to the other side, the knitting is performed by shifting from the stitch row of the corresponding string portion to the stitch row next to several wales (one wales in the figure).
[0048]
  As a result, in the three-dimensional string portion (4) formed of a plurality of stitch rows, the connecting yarn (3) has alternating portions (31) and diagonally extending portions (32) in the corresponding stitch rows. Thus, as shown in FIG. 9, the X-shaped string (4) has a substantially X shape in the width direction.
[0049]
  Thus, by expanding the three-dimensional string portion (4) and expanding the mesh space (S) and performing heat setting, the structural stability of the three-dimensional string portion (4) is improved, the directionality is eliminated, and one side is removed. Inclination or tilting is less likely to occur, and the compression resistance in the thickness direction is further improved. In addition, when using two ligatures (L4) and (L5), it is possible to obtain one that has higher structural stability and excellent compression resistance in the thickness direction by doubling the linking yarn. It is done.
[0050]
  The knitting structure shown in FIG. 10 is similar to the above-described embodiment in that the front-side chain stitches (L2) (L3) and the insertion yarns (L1), and the back-side chain stitches (L6) (L7) The insertion yarns (L8) are used to knit the string portions (11) and (21) by the two-wale stitch row of the front and back substrates (1) and (2), and further, the diagonally extending portion (32) of the connecting yarn (3) (32) ) Is arranged inside the knot portion (5) between the three-dimensional string portion (4) and the three-dimensional string portions (4) and (4) so as to form a substantially X shape for each predetermined course in the knitting direction. ing.
[0051]
  In the case of this embodiment, the connecting yarns are shifted every other three by one, and the connecting yarns (L4) and (L5) that guide the yarns are shifted every one or several courses (the course is one course). Each chain knitting (L2) (L3) is based on the knitting that is carried over by shifting from the corresponding stitch row of the string portion to the stitch row next to one wale when it is passed from one of the front and back to the other side. ) And (L6) (L7), the knot portion between the front and back string portions, that is, the knot portion (5) between the three-dimensional string portions, and the course position before and after the knot portion is two wales from the corresponding stitch row. It is knitted by alternating it so that it can be shifted.
[0052]
  As a result, the connecting thread (3) has alternating portions (31) and diagonally extending portions (32) in the stitch rows corresponding to the front and back in the three-dimensional string portion (4), and knots. In the inside of the part (5), as shown in FIG. 11, the joint part (5) and the front and rear parts thereof are obliquely spanned across the stitch rows of the knot parts (4) and the compatible body string parts (4) and (4), as shown in FIG. It will make a shape.
[0053]
  Thus, by expanding the mesh space (S) and performing heat setting, the three-dimensional string portion (4) and the knot portion (5) have high structural stability and bonding strength, and are bulky even if the number of connecting yarns is small. Light weight and good three-dimensional structure can be maintained. Further, the fiber density of the knot portion (5) is increased, the structural stability is increased, and when the net is used for slope vegetation, the effect of preventing the net from collapsing and falling is excellent.
[0054]
  As in the above-described embodiments, the three-dimensional string portion (4) is configured to have a width of a plurality of wales of 2 or more wales, so that it is simply compared to the case of a three-dimensional string portion with a stitch row of 1 wales. Can be knitted easily, can increase strength and compression resistance, can also increase the density of the connecting yarn (3), can increase the pressure-receiving area and bonding area of the front and back substrates, and the surface texture To improve.
[0055]
  That is, in order to increase the strength and compression resistance of the three-dimensional string portion, it is necessary to use a relatively monofilament yarn such as a thick monofilament. However, in the case of a thick monofilament yarn, the knitting gauge must be rough due to the knitting technique. It must be difficult to organize. In addition, thick monofilament yarns are less likely to tighten knitting loops, and surface irregularities become large and surface smoothness is lost.
[0056]
  On the other hand, in the case of a three-dimensional string portion having a width of a plurality of wales of two or more wales, a three-dimensional string portion having the same or higher strength and compression resistance is used without making the yarn used thick. It can be configured. Moreover, the front and back string portions themselves constituting the three-dimensional string portion also have a plurality of wale widths to increase the surface area thereof, and when used for slope vegetation, the effect of preventing sediment discharge is increased. In addition, since the compression resistance can be increased by using a thin thread, the surface area can be increased, a relatively smooth texture can be obtained on the surface, and the pressure receiving and bonding area in use can be increased. Can do. This can be said also about the Example mentioned later.
[0057]
  12 and 13 are three-dimensional structured nets in which meshes (13) and (23) smaller than the mesh space (S) defined by the three-dimensional string portion (4) are formed on at least one of the front and back sides, for example, both sides as shown in the figure. In A), an embodiment is shown in which a part of the connecting yarn (3) for connecting the bases (1) and (2) on the front and back sides is slanted at a required location.
[0058]
  The three-dimensionally structured net (A) of this embodiment forms, as its basic structure, the meshes (13) and (23) of the bases (1) and (2) that form a net structure on each of the front and back sides as in the above-described embodiment. Each string part (11) (21) is composed of one or a plurality of wales (two wales in the figure), and the string parts corresponding to each of the plurality of meshes of both substrates (1) (2) (11) The connecting yarn (3) is stretched over the portion of (21) and the base (1) (2) of the front and back is connected, and the base (1) (2) of the front and back is connected by this spanning portion (31). ), A mesh space (S) larger than the mesh of the mesh is defined, and the mesh (11) (21) portion of the front and back substrates (1) (2) not having the connecting thread (3) A plurality of smaller meshes (13) and (23) are formed in the space (S).
[0059]
  In the case of the net (A) of this embodiment, the strips (11) and (21) of the front and back bases (1) and (2) cross each other in the X shape between the opposite sides of the net space (S). The sizes of the meshes (13) and (23) of the two substrates (1) and (2) are set so as to form four meshes.
[0060]
  And the connecting yarn (3) is based on the knitting that forms the stitches over the corresponding stitch rows of the front and back string portions (11), (21) in the three-dimensional string portion (4), and the knot portion (5) And the course position before and after that, and the knot portion (15) between the string portions (11) and (11) and the string portions (21) and (21) that do not have the connecting thread inside the net space (S) And (25) and a normal threaded portion (31) stretched between the front and back sides, and the connecting thread (3) is approximately between the joints (15) (25) and the joint (5). It is stretched diagonally so as to form an X shape. (32) indicates an oblique span.
[0061]
  This three-dimensionally structured net (A) is knitted like a knitting structure illustrated in FIG. 13 by a double raschel machine. This knitting example will be described.
[0062]
  On the front side of knitting the fabric (1) on the front side, two types of chain knitting yarns (L2) and (L3) that alternately introduce two chain knitting yarns, and insertion yarns every two wales The base material which forms a mesh on the front side by the stitch row extending over the two wales while inserting the insertion yarns into the chain knitting wales by the chain knitting knives (L2) and (L3) with the inserting knives (L1) While knitting the string part (11) of (1) and moving the chain knitting yarn to the left and right alternately by two whales alternately for each required course corresponding to the mesh (13), the string adjacent to the left and right Knotted alternately with part (11), and then knitted back to the original wale position.
[0063]
  Also on the back side, two types of chain knitting yarns (L6) and (L7) for alternately introducing two chain knitting yarns in the same manner as described above, and insertion yarn ridges (L8) for introducing insertion yarns every two wales. ), The strand portion of the base (2) forming a net-like structure on the back side by a row of stitches extending over the two wales while inserting the insertion yarns into the chain knitting wales by the chain braids (L6) (L7). (21) is knitted respectively, and for each required course corresponding to the mesh (23), the chain knitting yarn is alternately shifted to the left and right for two wales to form a stitch, thereby forming a string portion (21 ) And knot alternately, then return to the original wale position and knitting.
[0064]
  The strips (11) and (21) of the front and back substrates (1) and (2) that are knitted as described above are the strips (11) and (21) and the mesh (13) and (23) that are adjacent to the left and right, respectively. Are alternately knotted at the required intervals corresponding to, and are zigzag-shaped and continuous in the knitting direction, whereby the meshes (13) and (23) each form a polygon such as a rectangle, a rhombus, or a substantially hexagon. Yes.
[0065]
  In addition, for the connecting yarn (3), two kinds of connecting yarns (L4) and (L5) that alternately introduce two yarns every 8 wales are used to tie the front and back fabrics (1) and (2). The two strands (1) and (2) are connected to each other by connecting yarns (3) by alternately forming the stitches of the two wales constituting the parts (11) and (21), thereby forming the stitches. Each of the knots (15) and (25) between the knots (15) and (25) between the front and back of the knots (L2) (L3) and (L6) (L7) 11) Basically, the knitting is performed by alternately shifting to the position of the 2-wale stitch row corresponding to (21).
[0066]
  Further, before and after the transition course of the connecting yarn (3), when the yarn is passed from one of the front and back to the other, the stitch row of the adjacent string portions (11) (21) and the original stitch row Knitted alternately and diagonally between the two wales, and the course position of the other knots between the other knots, that is, the knots of the string parts that originally do not have a connecting thread (15) In (25) and the knot part (5) of the three-dimensional string part and the course position before and after that, after shifting to the wale position of the adjacent string part, return to the original wale position, and then the opposite side It is knitted so that it is shifted to the wale position of the string part and slanted over.
[0067]
  By knitting in this way, the connecting yarn (3) is stretched over each of the plurality of meshes of the respective string portions (11) and (21) of the both substrates (1) and (2), and the front and back substrates (1) A three-dimensional string portion (4) that defines a net space (S) larger than the mesh of (2) is formed, and in the net space (S), a part of the connecting yarn (3) is substantially X-shaped. You can get a net that you can hang around. In particular, as shown in FIG. 12, a substantially X-shape is formed between the knots (15) and (25) of the string portions that do not have the connecting yarns on the front and back surfaces and the knot portion (5) of the three-dimensional string portion (4). Thus, a three-dimensionally structured net (A) is obtained in which the connecting thread is also stretched between the knot portions (15) and (25).
[0068]
  Even if this three-dimensionally structured net (A) has a three-dimensional string portion (4) with a stable structure and a stable mesh space (S), and has a large mesh space (S) as a whole, It is lightweight and has excellent compression resistance and structural stability. Moreover, a large three-dimensional porosity can be obtained.
[0069]
  In the knitting described above, one of the front and back substrates, for example, the mesh of the front substrate (1) is formed larger than the mesh of the other substrate (2), and each string portion (11) of this one substrate (1) is formed. And a string (21) of the other substrate (2) corresponding thereto, and a connecting thread (3) is stretched to form a three-dimensional string (4). The three-dimensional string (4) makes the large mesh A three-dimensional structure in which a net mesh space (S) corresponding to is defined, and a small mesh (23) is formed inside the net mesh space (S) by the string (21) of the other substrate (2). In the knitted net, at any point in the knitting direction of the three-dimensional string portion (4), the connecting yarn moves from the front and back substrates to the stitch row one or several rows away from the corresponding stitch row toward the other side. In the string section that forms a small mesh inside the net space (S) It is also possible to pass over in order.
[0070]
  For example, in the knitting structure of FIG. 13 described above, one of the chain stitches (L2) (L3) for knitting the front side and the back side, for example, the string portion (11), is introduced twice every 8 wales. As an alternative, for every course twice as long as the distance between the knots on the back side of the other side (21), shift to the position of the 2 wale stitch row on the left and right side (11) for 4 wales. Based on a structure that is knitted and knitted by moving the connecting yarns (L4) and (L5) according to the stitch row of the chain braid, the knot portion (5) of the three-dimensional string portion (4) and It can be obtained by knitting the connecting yarn (3) diagonally at an arbitrary course position such as before and after that (not shown).
[0071]
  In the three-dimensional structure net (A) of any of the above-described embodiments, the knot portion (15) between the front side string portions (11) and (11) in the basic configuration and the back side string portion (21) ( By knitting the nodule part (25) of 21) with the front and back sides shifted in the knitting direction, the three-dimensional string part (4) itself is alternately inclined to the left and right as schematically shown in FIG. A substantially truss structure can be formed.
[0072]
  In this case, the void holding ratio is high and light, the pressure strength and the shape retention are excellent, and good elasticity can be maintained, and the characteristics as the three-dimensional structured net (A) can be maintained well. Further, the connecting yarn (3) connecting the front and back substrates (1) and (2) is usually connected to the diagonally extending portions (32) or the diagonally extending portion (32) by the diagonally extending manner. When the three-dimensional structured net (A) is used as a three-dimensional structure filter, the three-dimensional string portion (4) slope and connecting thread ( 3) By the cross structureTehuThe filter efficiency is high.
[0073]
  By appropriately changing the number of courses and positions that shift the position of the front and back knots (15) and (25) on the front and back, the knots (15) and (25) can be in alternate positions on the front and back, The configuration can be arbitrarily set, such as a configuration in which the positions are slightly shifted on the front and back sides.
[0074]
  The knitting structure shown in FIGS. 15 to 17 is obtained by forming the square three-dimensionally structured net schematically shown in FIG. 12 into a turtle shell shape as schematically shown in FIGS. 18 and 19. Connecting thread (3) for connecting the front and back substrates (1) and (2) in the three-dimensional structured net (A) formed by overlapping the turtle shell-shaped net having no connecting thread in the turtle-shaped three-dimensional structured net having An embodiment is shown in which a part of is obliquely crossed at a required location.
[0075]
  According to this knitting structure, on both the front side and the back side, chain knitting yarns (L2) (L3) and (L6) (L7) that alternately introduce two chain knitting yarns are introduced every other wale. Using the insertion thread rods (L1) and (L8) to be knitted, knitting the string portions (11) and (21) by the 2-wale stitch rows of the front and back substrates (1) and (2), respectively, for each required course, The chain knitting is moved to the position of the stitch row of the adjacent string part, and the knitting is alternately knotted with the left and right adjacent string parts and then returned to the original position. By repeating the transition to the position of the stitch row of the adjacent string portion over several courses in every other nodule portion, the nodule portion (15) as shown in FIG. 18 and FIG. By lengthening (25) and shortening the portion of the string portion (11) that is not knotted, The three-dimensional string portion (4) forming the eyes is formed and knitted so as to overlap the substantially turtle-shaped mesh and the turtle-shaped mesh having no connecting thread.
[0076]
  And about the connection thread | yarn (3) which connects the front-and-back base materials (1) and (2) which make the said shape, like the structure | tissue of FIG. 17, it is an adjacent string in the location of a short knot | joint part (15) (25). The knitting is performed by shifting to the wale position corresponding to the strips (11) and (21), and at the course positions of the long knots (15) and (25), the connecting yarns (L4) and (L5 ) Is transferred from one side of the front and the back (usually the back side) to the other side by two wales from the corresponding stitch row alternately for each course, and then returned to the original wale position. In this way, the linked knitting is carried out while crossing diagonally.
[0077]
  As a result, as shown in FIGS. 18 and 19, the front and back substrates (1) and (2) have a relatively large mesh (13a) (23a) with a turtle shell and a smaller rhombus (13b) (23b). The connecting thread (3), which has a net-like shape and connects both bases (1) and (2), has a threaded portion (11) ( The three-dimensional string portion (4) which is arranged except for a part of 21) and defines the three-dimensional net space (S) is formed, and long nodule portions (15) (15) and (25) ( 25) A unique three-dimensionally structured net (A) is obtained in which the diagonally extending portions (32) are arranged so as to form a substantially X shape.
[0078]
  In this three-dimensional structured net (A), the expansion of the net space (S) by the large mesh (13a) (23a) is restricted by the slanting span (32), and the three-dimensional string portion (4) A relatively large number of units can be placed per unit area, shape retention is maintained well, and the pressure-receiving surface can be dispersed. It can be particularly suitably used as a cushion material for a bed or a spacer, or a spacer. Furthermore, it is possible to increase the area occupied by the string portions (11) and (21) in the front and back substrates (1) and (2), thereby joining other sheet materials or the like by means of adhesion or the like. It is also effective when making composite materials.
[0079]
  In any of the above-described embodiments of the present invention, it is possible to knit ones that do not contain connecting yarns in the vertical and horizontal directions (not shown). As in the three-dimensional structured net (A) shown in FIGS. 20 and 21, at least one of the front and back substrates (1) and (2) in any part including at least ears at both ends in the knitting width direction in warp knitting. Can be knitted with a plain structure, and a flat part (a1) that is continuous or intermittent in the knitting direction can be formed. (A1) indicates the net part. The flat ground portion (a1) may be formed only in both ears, but it is desirable to form it in one or a plurality of places in addition to both ears in use. In the net part (A1) and the flat ground part (a1), the connecting yarns are knitted by being slanted over an arbitrary course in the same manner as in the above embodiments.
[0080]
  In the case of this three-dimensionally structured net (A), during the heat setting process after knitting, tweezers can be held using the flat part (a1) of the ears and held in tension, and other members such as sheet material can be used. When combined, the flat ground portion (a1) can be used as a joint portion by stitching or an adhesive or a double-sided adhesive tape, and can be easily combined with other members such as a sheet. Further, the flat ground portion (a1) can be used as a mounting portion for a fixture such as a connecting bracket.
[0081]
  Further, as the constituent yarns on both or either of the front and back substrates (1) and (2) in the flat land portion (a1), a relatively flexible yarn such as a synthetic filament multifilament yarn or a natural fiber yarn. In addition, it is also possible to use a yarn having the same flexibility as the connecting yarn (3) spanned between the front and back substrates (1) and (2) of the flat portion (a1). And a monofilament yarn having relatively rigidity can be used in combination.
[0082]
  In this case, the flat portion (a1) can be easily flattened and the thickness of the portion can be reduced, so that the sewing needle can easily pass and sewing is facilitated. It is also possible to easily fold and fold the flat part (a1). In particular, when the flat part such as the ear part is knitted with a flexible fiber thread, it is easy to expand in the knitting width direction after knitting, and when the three-dimensional structured net is expanded, the ear part also in the knitting direction. Since it is easy to contract, the net space can be expanded and set into a substantially uniform predetermined good shape over the entire area of the net.
[0083]
  As the constituent yarn of the flat portion (a1), one or more kinds of heat-sealable yarn, high-tensile yarn such as carbon yarn, antibacterial yarn, high-shrinkage yarn, elastic yarn and water-retaining yarn, if necessary. Can also be used.
[0084]
  Further, in the three-dimensional structure net (A) forming the flat ground portion (a1) as described above, at least the center portion in the width direction of the flat ground portion (a1) does not have the connecting thread (3) as shown in FIG. It can be formed into a two-layer structure by knitting with a structure and using only the front and back substrates (1) and (2).
[0085]
  In this case, the thickness of the flat ground portion (a1) can be reduced by joining the front and back substrates (1) and (2) in the flat ground portion (a1) by sewing or adhesive means. Further, it becomes possible to insert a long body (not shown) such as a rope, a metal wire, a hollow pipe, a perforated pipe, cotton or urethane foam into the internal space between the front and back substrates (1) and (2). By doing in this way, when using it as a protection net or a vegetation net of a slope, etc., it becomes easy to lay and stretch the net, and the ventilation, drainage function and tensile strength can be enhanced. Moreover, when using as a spacer, another pressure | voltage resistant function etc. can be provided.
[0086]
  Further, when the flat portion is formed as described above, it is possible to knitted the base material on one side of the flat portion (a1) as a net.
[0087]
  FIG. 23 shows still another embodiment of the present invention. The net (A) of this embodiment is formed by warp knitting so that the base material on one side of the front and back sides, for example, the base material on the back side (2) is a plain ground formed by chain knitting yarns and insertion yarns, and the base material on the other side (1) is used. A net is formed on one side of the mesh substrate (1) by linking the connecting yarn (3) between the string (11) of the plurality of wales and the other substrate (2). A three-dimensional string portion (4) that defines a space is formed. In particular, the connecting yarn (3) is formed on the front and back substrates (1) (2) at an arbitrary position in the knitting direction of the three-dimensional string portion (4). ) From one side to the other side, the stitch row is shifted to one or several rows from the corresponding stitch row, and is slanted over.
[0088]
  For example, as shown in the knitting structure of FIG. 24, this three-dimensional structured net (A) has chain stitches (L2) (L3) and one wale every other on the front side. Knitting the string portion (11) by the 2-wale stitch row using the insertion yarn thread (L1) introduced into the yarn, and the position of the stitch row of the adjacent string portion for each required course Knitted to form a tortoiseshell-shaped mesh by repeating the knitting that is repeated over several courses, alternately knotting with the adjacent left and right string parts, and then returning to the original position, and on the back side, The back side substrate (2) made of a flat ground structure is knitted by the chain stitch (L6) and the two insertion yarns (L7) (L8) guided by the full set.
[0089]
  Further, for the connecting yarn (3) for connecting the front and back substrates (1) and (2), two yarns are alternately introduced by the connecting yarns (L4) and (L5), respectively, and the front side substrate (1) string is connected. Based on the knitting that crosses and connects the stitch row of the back side base (2) corresponding to the stitch row of the strip (11), one of the front and back (usually at the course position of the connection portion (15)) When laying from the back side) to the other side, the knitting is knitted while laying diagonally so as to shift sideways by two wales from the corresponding stitch row alternately for each course and then return to the original wale position.
[0090]
  Thereby, the three-dimensionally structured net (A) of FIG. 23 is obtained. The net (A) has both a function as a sheet and a function as a net having a three-dimensional structure formed by the three-dimensional string portion (4) on one side, and the three-dimensional string portion (4) constituting the net on one side is provided. Due to the tilt-preventing action by the diagonally extending portion (32) of the connecting thread (3), for example, the diagonally extending portion (32) between the adjacent three-dimensional string portion (4) or the inner base portion thereof. The shape of the string portion (4) is further improved, it is stable in a planar manner, is excellent in compression resistance in the thickness direction, and has a good elastic force.
[0091]
  Although not shown in the drawings, the three-dimensionally structured net of each of the above embodiments is knitted so as to have a portion where the connecting yarn is not partly spanned between the front and back substrates at regular intervals in the knitting direction. I can keep it. By knitting in this way, it is possible to form a space that is continuous in a direction substantially perpendicular to the knitting direction, and can be folded at this portion, a rope or the like can be inserted, and a solid suitable for use. A structural net can be obtained.
[0092]
  In addition, in the three-dimensional structured net having the flat surface on one side, the illustration is omitted, but the three-dimensional structure net portion formed by arranging the front and back base materials in a net shape is set at an arbitrary position including both ear portions. be able to. In this case, it is suitable for a spacer that can be warped and knitted by simply arranging the insertion thread of the base material formed in a net shape so as to insert a flat ground, and that is lightweight and foldable.
[0093]
  Furthermore, in the three-dimensionally structured net of each of the above-described embodiments, the connecting yarn (3) that connects the front and back substrates (1) and (2) is not partially stretched across the front and back at regular intervals in the knitting direction, for example. Can be organized to have As a result, a space perpendicular to the knitting direction can be formed at the portion where the connecting yarn is not stretched, and the rope can be folded at this portion or a rope can be inserted. Can be obtained.
[0094]
  In the three-dimensionally structured net (A) of each of the above embodiments, the yarns constituting the front and back substrates (1) and (2) differ depending on the application and are not particularly limited, but are usually synthetic fiber yarns. Nylon yarns, carbon fiber yarns and other various synthetic fiber multifilament yarns, monofilament yarns or their aligned yarns are preferably used. Elastic yarns, metallic fibers, heat-shrinkable yarns and the like are also used. Of course, natural fiber yarns can also be used. As for the connecting yarn (3), elasticity, strength, etc. are taken into account from the synthetic fiber yarn and natural fiber yarn in the same manner as described above so as to be suitable for connecting the front and back substrates (1) and (2) in three dimensions. Therefore, monofilament yarn is preferably used mainly from the viewpoint of maintaining the three-dimensional structure and maintaining the elastic force. Any of these can be used as a single yarn or as a plurality of draw yarns.
[0095]
  These yarns can be given moderate rigidity and compression resistance by heat setting after knitting or synthetic resin processing. Moreover, the pressure resistance strength and the elastic force in the thickness direction increase as the number of the connecting yarns (3) connecting the front and back substrates (1) and (2) increases and the density increases. In the case of a homogeneous material such as nylon, the waist becomes stronger as the thread becomes thicker. A net exhibiting a softer feel and feel can be obtained by knitting using fiber yarns such as multifilament yarns without using monofilaments for each component yarn.
[0096]
  The thickness and material of these yarns are determined in consideration of the strength, tension, elasticity, etc. required by the application. For example, as a cushioning material, mat material, or industrial material, when knitting with 14 to 6 gauge (number of needles / inch) by a double raschel machine, the net-like base material has 50 to 2000 denier, preferably 200 to 1000 denier. A yarn of 100 to 5000 denier, preferably 100 to 3000 denier is suitably used as the connecting yarn.
[0097]
  When it is desired to increase the physical strength, 4.5 to 3 gauge can be used and a thread thicker than the above can be used, and the strength can be increased. In addition, knitting can be performed using yarns having different thicknesses on the front and back sides, and the strength of the substrate can be further increased. Furthermore, depending on the purpose of clothing or medical nets, thinner threads can be used.
[0098]
  Further, by using elastic yarns such as multifilaments and natural fibers for all or part of the yarns and connecting yarns constituting the front and back substrates (1) and (2), a stretchable hollow three-dimensional structure net and It is also possible to do. In this case, it is possible to obtain fit and elasticity that cannot be obtained with a net that does not use elastic yarn. It is also possible to change the type of elastic yarn, natural yarn and synthetic fiber yarn every one or several wales to obtain a three-dimensional structure having a shape retention and a soft feeling.
[0099]
  The thickness of the three-dimensional structured net (A) of the present invention, the mesh space (S), and the size of the three-dimensional string portion (4) vary depending on its use and the like. Generally, a net having a thickness of several mm to several tens of mm, an opening diameter of the net space (S) of several mm to several hundred mm, and a string portion having a width of 0.5 to 200 mm is generally used. Implementation outside the dimensions is also possible.
[0100]
  The above three-dimensional structure net (A) is an industrial material such as a reinforcing core material or an intermediate material for various molded structures, as a clothing net such as a spacer or a medical protection net, as a cushion material or a mat material. Furthermore, it can be used widely and suitably for various other uses such as a slope vegetation net, a protection net and the like.
[0101]
【The invention's effect】
  As described above, according to the three-dimensional structured net of the present invention, the structural stability of the three-dimensional string portion that defines the mesh space is satisfactorily maintained, and in particular, the three-dimensional string portion includes a plurality of stitch rows and a plurality of rows of connecting yarns. In the case of a three-dimensional structure having a gap inside and having a void inside, a connecting thread is formed so as to form an X shape over both the string portions inside the solid string portion itself and / or the knot portion between the solid string portions. Or is stretched so as to form an X shape in the net space defined by the three-dimensional string portion, thereby significantly improving the structural stability and shape retention of the three-dimensional string portion. The diameter of the net space and the dimension in the thickness direction are increased, the porosity is increased, and the compression resistance and the elasticity in the thickness direction are good. In particular, by providing the three-dimensional string portion with a plurality of wales, the area of the front and back substrates can be increased even if the porosity is large.
[0102]
  Therefore, it can be suitably used as a breathable spacer for clothing and other clothing articles, as a medical net, as a mat material, a cushion material, or an intermediate material or a core material of various industrial products. Furthermore, it has good structural stability, is strong against tension, has high compression resistance, and also has high elastic force. Therefore, it can be used for various applications using these characteristics.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view of one embodiment of a three-dimensionally structured net according to the present invention.
FIG. 2 is an enlarged perspective view of a part of the above.
FIG. 3 is a wrapping diagram of each component yarn showing an example of a specific knitting structure.
FIG. 4 is a wrapping diagram of constituent yarns showing a knitting structure of another embodiment of the present invention.
FIG. 5 is a wrapping diagram of constituent yarns showing a knitting structure of still another embodiment of the present invention.
FIG. 6 is a schematic explanatory view of a part showing a state in which the connecting thread of the net of the above is passed.
FIG. 7 is a wrapping diagram of each component yarn showing a knitting structure of still another embodiment of the present invention.
FIG. 8 is a wrapping diagram of constituent yarns showing a knitting structure of still another embodiment of the present invention.
FIG. 9 is a schematic explanatory view of a part showing a state in which the connecting thread of the net of the above is passed.
FIG. 10 is a wrapping diagram of constituent yarns showing a knitting structure of still another embodiment of the present invention.
FIG. 11 is a partial schematic explanatory view showing a state in which the connecting thread of the net of the above is passed.
FIG. 12 is a partial enlarged perspective view showing still another embodiment of the present invention.
FIG. 13 is a wrapping diagram of each component yarn showing the knitting structure.
FIG. 14 is a partial schematic explanatory view showing a state in which a connecting thread of a net of another embodiment is stretched.
FIG. 15 is a wrapping diagram of constituent yarns of the front substrate in a knitted structure of a three-dimensionally structured net according to another embodiment of the present invention.
FIG. 16 is a wrapping diagram of the constituent yarns of the back side substrate in the knitting structure of the net.
FIG. 17 is a wrapping diagram of connecting yarns in the knitting structure of the net.
FIG. 18 is a schematic enlarged plan view of a part of the net.
FIG. 19 is a schematic enlarged perspective view of a part of the net.
FIG. 20 is a schematic plan view of a three-dimensionally structured net according to still another embodiment of the present invention.
FIG. 21 is a schematic enlarged sectional view of a part of the net.
FIG. 22 is a schematic enlarged cross-sectional view of a part of a net of another embodiment that forms a flat portion.
FIG. 23 is a perspective view schematically showing a three-dimensionally structured net according to still another embodiment of the present invention.
FIG. 24 is a wrapping diagram of each constituent yarn showing the knitting structure of the net.
[Explanation of symbols]
    (A) Three-dimensional net
    (S) Net eye space
    (1) (2) Front and back substrate
    (11) (21) Front and back string parts
    (15) (25) Knot section of the front and back string sections
    (13) (23) Front and back mesh
    (3) Connecting thread
    (31) Normal passing part
    (32) Diagonal span
    (4) Solid string part
    (5) Nodule
    (A1) Net part
    (A1) Flat part

Claims (10)

It is formed by warp knitting, and consists of a mesh-like front and back base material and connecting yarns that connect these base materials with a predetermined spacing, and each string part that forms a mesh on each of the front and back base materials has a knitting direction. Are arranged in a zigzag pattern, each of which is formed in a zigzag pattern alternately with the adjacent left and right string portions for each required interval in the knitting direction, and forms a polygonal mesh. A three-dimensionally structured net in which three-dimensional string portions are formed by linking connecting yarns in a plurality of rows between the corresponding string portions on the front and back sides, and a net space is defined by the three-dimensional string portions. There,
The connecting thread is stretched over the corresponding stitch rows of the front and back string strips of the three-dimensional string portion, and for each predetermined course in the knitting direction at the side of the net space of the three-dimensional string portion, The stitch line is shifted from the corresponding stitch line to one or several lines away from the corresponding stitch line, and is slanted so as to form a substantially X shape in the knitting width direction in the net space. A three-dimensional structured net. The string parts of the base material on the front and back sides are knotted in the knitting direction on the front and back sides, respectively, and a connecting thread is stretched over the corresponding string parts on the front and back surfaces to define a net space. The three-dimensionally structured net according to claim 1, wherein the three-dimensional string portions are alternately inclined to the left and right. In the net space, the diagonally extending portions of the connecting yarns having a substantially X-shape are alternately present at every predetermined course in the knitting direction, and the opening portions of the net space are restricted. The three-dimensional structure net according to claim 1 or 2, which is provided as described above. The connecting thread is slanted so as to form an approximately X shape in the mesh space for each predetermined course, and the width of the three-dimensional string portion within the three- dimensional string portion and / or the knot portion between the three-dimensional string portions. The three-dimensionally structured net according to any one of claims 1 to 3 , wherein the three-dimensionally structured net is slanted every predetermined course so as to form an approximately X shape in the direction . The three-dimensional structure net according to any one of claims 1 to 4, wherein a three-dimensional structure is formed by setting a flat ground portion obtained by knitting at least one of the front and back base materials with a flat ground structure at any location including both ear portions. Net. The three-dimensionally structured net according to claim 5, wherein at least a part of the constituent yarn of the base material on at least one side of the front and back sides and / or the connecting yarn spanned between the front and back base materials in the flat portion is made of a flexible yarn. The three-dimensionally structured net according to claim 5 or 6 , wherein the center portion of the flat portion is composed only of the front and back substrates knitted with a structure having no connecting yarn. By warp knitting, the base on one side of the front and back is formed as a plain formed by chain knitting yarn and insertion yarn, the base on the other side is made into a net, and the string portion forming the mesh of the base is continuous in the knitting direction It is composed of a plurality of wale stitch rows, and a connecting thread is spanned between the plurality of wale stitch rows and the one side fabric stitch row of the string portion forming the mesh of the net-like substrate, and the mesh is formed on one side. A three-dimensional net having a three-dimensional string portion that defines a space,
The connecting yarn, in any location in the knitting direction in the side of the net-th space of the three-dimensional cord portions, the stitch row away 1 or sequences from the corresponding stitch row toward the one sides of the green body on the other side A three-dimensionally structured net that is shifted and slanted between adjacent three-dimensional string portions or a base portion inside the net space . 9. Each of the string portions forming the mesh in the mesh substrate is alternately knotted to the left and right adjacent string portions for each required course in the knitting direction to form a turtle-shaped mesh. Three-dimensional net. 9. The three-dimensional structure net according to claim 8, wherein the three-dimensional structure net portion knitted with the front and back bases as a net shape is set at an arbitrary position including both ear portions.

Images