CN202576849U - Three-dimensional weaving device based on p3* symmetry of space group - Google Patents

Abstract

The utility model relates to a three-dimensional weaving device based on symmetry of a space group. A group of regular hexagons can be arranged on a weaving disk, wherein the centers of circles of inscribed circles are positioned on a group of parallel lines arranged at equal intervals, each regular hexagon is shaped like a plate as a whole, each regular hexagon has equivalent side length and parallel corresponding sides, every two adjacent regular hexagons share one vertex, a regular triangle can be arranged to the outside by taking each side of each regular hexagon as one side, a yarn carrying device for fixing weaving yarn at the center is respectively arranged at each vertex of each regular triangle, a driver for driving the yarn carrying device to move is arranged in the position where each regular triangle is located on the weaving disk in a rotating manner, a driving device for driving a rotating shaft to perform 120-degree intermittent one-way rotation and enabling the yarn carrying device to move on a circumscribed circle of the corresponding regular triangle is connected on the rotating shaft of each driver, all the rotating shafts are positioned on a group of parallel straight lines which are parallel to each other and parallel to one sides of the corresponding regular hexagons, and the rotating shafts positioned on the adjacent straight lines can rotate in reverse directions and move alternately.

Description

Based on space group P3*Symmetric 3 D weaving equipment

Technical field

The utility model relates to a kind of braiding apparatus of 3 D weaving material, relates in particular to a kind of braiding apparatus based on the symmetric 3 D weaving material of space group

.

Background technology

D braided composites obtains the extensive concern of industries such as Aero-Space, national defence and medical treatment with its excellent mechanical property.Owing to receive the restriction of factors such as processing technology, the kind of D braided composites is very few, working (machining) efficiency is low and the technology cost high.Obtain the better D braided composites of combination property, be badly in need of the more 3 D weaving technology of exploitation.Most at present researchs concentrate on four step rule and two kinds of braid methods of two step method, and the Study on Forecast of relevant three dimensional knitting method also is in the starting stage.

The crystal of different lattice structures shows different performances, adopts the crystal symmetric group can the crystal geometry be classified.With reference to the research method of symmetric group, to the in addition inductive research of the cell geometry of braided material, the three-dimensional yarn crossovers method that the symmetry operation of describing according to space point group and space group pushes away newly in a large number.Yet technological feasibility and performance study as new 3 D weaving material do not launch as yet.From satisfying space point group

(

for HM symbolic notation), deriving on the basis of all symmetry operations obtains a kind of unit cell of new yarn crossovers geometry.This unit cell is put into the space lattice that satisfies it can obtain yarn continuous three-dimensional yarn crossovers geometry.For this new braided material, existing two step method braiding, four step rule braiding and 3 D multi-directional braiding are all unsuitable.

The utility model content

It is a kind of based on the symmetric 3 D weaving process equipment of space group

, so that a kind of new 3 D weaving material to be provided that the purpose of the utility model is to provide.

For realizing above-mentioned purpose; The utility model adopts following technical scheme: a kind of based on the symmetric 3 D weaving process equipment of space group

; Comprise frame; Be set with knitting disc and the batching apparatus that be used to batch braided fabric relative on the frame with knitting disc; One group of regular hexagon can be set on the knitting disc; Each orthohexagonal length of side is equal and corresponding sides are parallel; Each orthohexagonal inscribed circle center of circle all is on the parallel lines of one group of equidistance; Regular hexagon on every straight line of inscribed circle circle centre position in these group parallel lines is a row regular hexagon; Orthohexagonal number in the two adjacent row regular hexagons differs one; Orthohexagonal number in the two row regular hexagons adjacent with a row regular hexagon equates, adjacent each regular hexagon of regular hexagon periphery respectively with the shared summit of this regular hexagon, be that a limit all can be provided with an equilateral triangle to the orthohexagonal outside of correspondence with each orthohexagonal each limit; Be provided with in the corresponding position on each summit of all equilateral triangles a center be in equilateral triangle the vertex position place take the yarn device; The center of taking the yarn device is used for fixing knitting yarn, takes the relative both sides of yarn device and has the identical evagination cylinder partial of curvature, is equipped with in place, each equilateral triangle position on the knitting disc to rotate through turning cylinder to be assemblied in the driver on the knitting disc; Turning cylinder rotates the place, position, center of the said equilateral triangle that is assemblied in knitting disc; The driver spline is assemblied on the turning cylinder, and driver is the sheave that outer peripheral face is evenly equipped with three indent cylinders, and driver coincide with three corresponding cylinder partials of taking the yarn device respectively through its three indent cylinders and cooperates; Be provided with all the slide limited impression of spacing cooperation of corresponding cylinder partial that cell wall and respective drivers three take the yarn device on the knitting disc in each driver place; Take the central lines of center-of-curvature line and corresponding turning cylinder of evagination cylinder partial of the both sides of yarn device, all be connected with on each turning cylinder drive turning cylinder 120 degree intermittently making of unidirectional rotation take the drive unit that the yarn device moves on the circumscribed circle of the equilateral triangle of correspondence, each turning cylinder all is positioned at one group and is parallel to each other and is parallel on the parallel lines on a said orthohexagonal limit; Be in the switched in opposite and the alternating movement of the turning cylinder on the two adjacent parallel lines, the end that batching apparatus and knitting disc are relative is provided with the fixed part of fixing each root knitting yarn.

Be set with the circular cover that lower surface and the upper end of taking the yarn device are slidingly matched on the described driver or on the turning cylinder.

In each regular hexagon, be provided with a yarn fixing point on the said knitting disc.

Said axle yarn fixing point all is in the circle centre position of the orthohexagonal inscribed circle of periphery separately.

Described drive unit comprises by motor-driven driving crank; Drive crank and be connected with first rocking bar through master connecting-rod; First rocking bar is connected with second rocking bar identical with the first rocking bar characteristics of motion through slave connecting rod; The center of rotation place of first rocking bar and second rocking bar rotates respectively and is provided with the first ratchet ratchet structure and the second ratchet ratchet structure; Be hinged with the first promotion tooth that free end cooperates with the unidirectional pushing of the gear teeth of first ratchet of the first ratchet ratchet structure on first rocking bar; Have between the first promotion tooth and first rocking bar and make the first promotion tooth elasticity be pressed in extension spring or torsion spring on the ratchet; Be hinged with the second promotion tooth that free end cooperates with the unidirectional pushing of the gear teeth of second ratchet of the second ratchet ratchet structure on second rocking bar; Second promotes to have between tooth and second rocking bar and makes the second promotion tooth elasticity be pressed in extension spring or torsion spring on the ratchet, the switched in opposite of first ratchet and second ratchet, corresponding respectively first connecting rod and the second connecting rod of being hinged with on first ratchet and second ratchet; First connecting rod and second connecting rod tabular connecting rod for stacking up and down; The rectangular channel that it is divided into one group of rib is all arranged on tabular connecting rod, be hinged with one group of first driven crank of the turning cylinder corresponding spline assembling with an All Drives that turns on the rib of first connecting rod, be hinged with turning cylinder one group of second driven crank that corresponding spline is assembled at the center of rotation place on the rib of second connecting rod with another All Drives that turns at the center of rotation place.

Said batching apparatus is provided with fixed part through a profiled sheeting; Each fixed part all be arranged on profiled sheeting with the knitting disc facing surfaces on; Be set with steel wire rope on another surface of moulding; The other end volume of steel wire rope is located on the winding drum that is driven by reel-motor, and said winding drum rotates and is assemblied on the frame, and said reel-motor is fixedly mounted on the frame.

The described two ends of taking the yarn device also are the identical evagination cylinder partial of curvature, and the four part evagination cylinder partials of taking the yarn device are connected smoothly.

The frame of the utility model is provided with knitting disc; At the regular hexagon that can be provided with on the knitting disc on the parallel lines that one group of inscribed circle center of circle all is in one group of equidistance; Regular hexagon on every straight line of inscribed circle circle centre position in these group parallel lines is a row regular hexagon; Orthohexagonal number in the two adjacent row regular hexagons differs one; Orthohexagonal number in the two row regular hexagons adjacent with a row regular hexagon equates; Each orthohexagonal length of side is equal and corresponding sides are parallel; The shared summit of per two adjacent regular hexagons is that a limit outwards all can be provided with an equilateral triangle with each orthohexagonal each limit, and what be equipped with at the place, each summit of each equilateral triangle that a center is used for fixing knitting yarn takes the yarn device; Locate all to rotate to be provided with to take the driver that the yarn device moves in each equilateral triangle position on the knitting disc; All be connected with driving turning cylinder 120 degree making of unidirectional rotation at intermittence on the turning cylinder of each driver and take the drive unit that the yarn device moves on the circumscribed circle of the equilateral triangle of correspondence, each turning cylinder all is positioned at one group and is parallel to each other and is parallel on the parallel lines on a said orthohexagonal limit, is in the switched in opposite and the alternating movement of the turning cylinder on the adjacent straight line.In use, with an end of knitting yarn be fixed on take the yarn device on, the other end is fixed on the machine and is arranged on the fixed part.When braiding; Driver drives with its contacted three take the yarn device on the circumferencial direction of the circumscribed circle of corresponding equilateral triangle, move in the same way 120 the degree; That is to say; And then make one in three three knitting yarns taking on the yarn device to move to an adjacent knitting yarn place in a circumferential direction, and this adjacent with it root knitting yarn then moves on to the position at the 3rd knitting yarn place along the direction identical with it, and the 3rd knitting yarn is then along moving to the position at the original place of first knitting yarn with preceding two identical directions of knitting yarn; Every turning cylinder all intermittently carries out always; That is to say that can stop a period of time behind rotating shaft rotation 120 degree and move next time again, the direction of the rotation of a rotating shaft is also constant always.The rotation that is positioned at the turning cylinder of two adjacent parallel lines hocket and the direction of motion opposite; That is to say; Rotating shaft can stop a period of time after rotating 120 degree, stop during this period of time in, be in this root rotating shaft with the adjacent parallel lines of parallel lines on turning cylinder begin to rotate; When all taking promptly weaves one deck fabric after the yarn device all moves once, make that this braided fabric can mechanization production.

Description of drawings

Fig. 1 is the layout drawing of the knitting yarn of the corresponding process of the utility model;

Fig. 2 is the knitting yarn of the corresponding process of the utility model and the layout drawing of axle yarn;

Fig. 3 is the schematic diagram of the knitting yarn motion of the corresponding process of the utility model;

Fig. 4 is the overall structure sketch map of the process equipment of the utility model;

Fig. 5 is the left view of Fig. 4;

Fig. 6 is the vertical view of Fig. 4;

Fig. 7 is the A-A view among Fig. 4;

Fig. 8 is the front view of the knitting disc among Fig. 4;

Fig. 9 is the left view of Fig. 8;

Figure 10 is the vertical view of Fig. 8;

Figure 11 is the assembling sketch map of actuator assembly on knitting disc;

Figure 12 is the structural representation of the drive unit among Fig. 4;

Figure 13 is the vertical view of Figure 12;

Figure 14 is the upward view of Figure 13;

Figure 15 is the structural representation of ratchet drives part among Figure 12;

Figure 16 is the left view of Figure 15;

Figure 17 is the vertical view of Figure 15.

The specific embodiment

A kind of embodiment based on the symmetric 3 D weaving process of space group ; In Fig. 1～3, this method comprises the steps:

A) as shown in Figure 1; Lay last one group of knitting yarn 103 earlier, an end of each knitting yarn 103 is fixed, and the other end is free; The free end correspondence of knitting yarn 103 is on one group of orthohexagonal summit; These orthohexagonal length of sides all equate, and these orthohexagonal corresponding sides are all parallel, and all orthohexagonal inscribed circle centers of circle all are on the parallel lines of one group of equidistance; Regular hexagon on every straight line of inscribed circle circle centre position in these group parallel lines is a row regular hexagon; Orthohexagonal number in the two adjacent row regular hexagons differs one, and the orthohexagonal number in the two row regular hexagons adjacent with a row regular hexagon equates, adjacent each regular hexagon of each regular hexagon periphery respectively with the shared summit of this regular hexagon.That is to say, be in a regular hexagon periphery and the regular hexagon adjacent with this regular hexagon all with the shared summit of this regular hexagon.In the present embodiment, all regular hexagons are roughly formed long plate shape.Being a limit with each orthohexagonal each limit then all can be provided with an equilateral triangle outside correspondence orthohexagonal; All knitting yarns all are on the summit of these equilateral triangles in above-mentioned this group knitting yarn; Some is in the inboard in these equilateral triangles; Three summits that are in inboard equilateral triangle have a knitting yarn respectively, and some equilateral triangle is in the outside, and the equilateral triangle that is in the outside has only on two summits and has knitting yarn; The 3rd summit do not have knitting yarn; That is to say that the equilateral triangle that three summits all are orthohexagonal summits is to be in inboard equilateral triangle, the equilateral triangle that to have only two summits are orthohexagonal summits is the equilateral triangle that is in the outside.On the 3rd summit of the equilateral triangle outside these are in a knitting yarn is set all also.

Above said equilateral triangle can overlap, that is to say, when outwards equilateral triangle being set, having some equilateral triangles and coincide together with different orthohexagonal limits, in fact, be in inboard equilateral triangle and all overlap.

As shown in Figure 2; Axle yarn 104 on all laying in each regular hexagon in diagram; The two ends of each root axle yarn 104 are all fixing, and an end of axle yarn is fixed together with the stiff end of knitting yarn, and the other end of axle yarn is fixed on the plane that the free end of each root knitting yarn belongs to.

B) as shown in Figure 3; Every knitting yarn all is on the summit of above-mentioned equilateral triangle; Three summits crossing these equilateral triangles 105 all can be provided with a circumscribed circle 106; The center of circle of these circumscribed circles 106 all is positioned on one group of parallel lines that are parallel to each other 107, and these parallel lines 107 all are parallel to above-mentioned orthohexagonal corresponding edge.When braiding; Be in three knitting yarns on the same circumscribed circle 120 degree that move in the same way in a circumferential direction; That is to say that one in three knitting yarns moves to an adjacent knitting yarn place in a circumferential direction, this adjacent with it root knitting yarn then moves on to the position at the 3rd knitting yarn place along the direction identical with it; The 3rd knitting yarn is then along moving to the original position that belongs to of first knitting yarn with preceding two identical directions of knitting yarn; When these three knitting yarn motions, the three can move simultaneously, also can move during difference.Motion in the same way on the circumscribed circle is intermittently carried out always, that is to say, has carried out once can stopping a period of time after the motion in the same way on the circumscribed circle and has moved next time again, and in whole braiding process, the homodromous direction on circumscribed circle is constant always.The center of circle is positioned on the circumscribed circle on two adjacent parallel lines that motion hockets and the direction of motion is opposite; That is to say; Motion on circumscribed circle can stop a period of time after finishing; Stop during this period of time in, the motion that is on the circumscribed circle on the parallel lines adjacent with the parallel lines at place, the center of circle of this circumscribed circle begins to carry out, and after all knitting yarns all move once, promptly weaves one deck fabric.Since each root axle yarn in motion process, all have belong on two circumscribed circles that are on two adjacent parallel lines simultaneously in, therefore knitting yarn can move on different circumscribed circles in the braiding process.

Axle yarn in the present embodiment is in described orthohexagonal center, and here, the position of axle yarn not only is confined to orthohexagonal center, as long as the axle yarn is arranged in the regular hexagon.

Certainly, in other embodiments, also a yarn can be set, have some holes in the braided fabric that at this moment weaves.

A kind of embodiment based on the symmetric 3 D weaving equipment of space group

; In Fig. 4～17; In conjunction with Fig. 1～3; This weaving equipment comprises frame 8, is set with knitting disc 12 on the frame 8.One group of regular hexagon can be set on knitting disc 12; Each orthohexagonal length of side is equal and corresponding sides are parallel; Each orthohexagonal inscribed circle center of circle all is on the parallel lines of one group of equidistance; Regular hexagon on every straight line of inscribed circle circle centre position in these group parallel lines is a row regular hexagon; Orthohexagonal number in the two adjacent row regular hexagons differs one, and the orthohexagonal number in the two row regular hexagons adjacent with a row regular hexagon equates, adjacent each regular hexagon of regular hexagon periphery respectively with the shared summit of this regular hexagon; That is to say, be in a regular hexagon periphery and regular hexagon and this a regular hexagon shared summit adjacent with this regular hexagon.Being a limit with each orthohexagonal each limit then all can be provided with an equilateral triangle outside correspondence orthohexagonal; Be provided with in the corresponding position on each summit of all equilateral triangles a center be in equilateral triangle the vertex position place take the yarn device; The centre of taking yarn device 29 is in the place, summit of equilateral triangle; The centre of taking yarn device 29 is used for fixing knitting yarn; Be provided with the fixedly hook 27 of knitting yarn taking the center position that the yarn device is used for fixing knitting yarn, all take the place, summit that yarn device 29 all is positioned at above-mentioned equilateral triangle, and the center of taking the yarn device overlaps with the summit of above-mentioned equilateral triangle.Taking yarn device 29 is four sections Long Circles that the arc that radius of curvature is identical is in twos formed for cross section, takes yarn device 29 for oblong flat lamellar body, has the four parts evagination cylinder partial that radius of curvature is identical in twos, and this four parts cylinder partial seamlessly transits.The radius of curvature of cylinder partial of taking yarn device both sides is greater than the radius of curvature of the cylinder partial at its two ends.The place is rotatably equipped with driver in said equilateral triangle position, and driver all rotates through turning cylinder 25 and is assemblied on the knitting disc 12.It is cylindric that driver 28 is on the whole; Driver 28 is provided with the sheave of three indent cylinders for outer peripheral face; Driver is positioned at above-mentioned equilateral triangle place; Its turning cylinder 25 is positioned at the center of this equilateral triangle; Three cylinder partials of taking the yarn device that driver is established with the place, three summits of its place equilateral triangle respectively through its three indent cylinders are fitted, and the center-of-curvature line of the indent cylinder of driver overlaps with the center-of-curvature line of the side corresponding with it of taking the yarn device, and take the central lines of center-of-curvature line and the turning cylinder 25 of corresponding driver of the side of yarn device.The central axis that knitting disc 12 is provided with the turning cylinder 25 of driver is the limited impression of the circle of central axis, and also can be said to is blind hole, and the cell wall of limited impression is slidingly matched with the corresponding side surface of taking the yarn device.Because taking the yarn device, each all cooperates with two drivers simultaneously; Like this; Two sides taking the yarn device cooperate with a limited impression respectively; That is to say that these two limited impressions are communicated with, in when work, driver is taken through the rotating drive of self that the yarn device slides and is mobile between different limited impressions in the limited impression of knitting disc 12.On the turning cylinder 25 of each driver, all be set with a circular cover 30, the lower surface of circular cover 30 is slidingly matched with the upper end of taking the yarn device.

Above-mentioned orthohexagonal center position on knitting disc 12 is an axle yarn fixing point, on axle yarn fixing point, is set with a yarn bar 26, and axle yarn bar 26 is used for fixing a yarn.

Each turning cylinder 25 all is positioned on one group of straight line that is parallel to each other, and this group straight line all is parallel to a yarn bar and belongs to orthohexagonal two limits, is in the switched in opposite and the alternating movement of the turning cylinder 25 on the adjacent straight line.

All be connected with on each turning cylinder 25 and drive the drive unit that turning cylinder 25 carries out 120 degree rotations at intermittence; Drive unit comprises motor 17; Motor 17 drives the rotating disk 18 as crank through decelerator 15, band transmission, and rotating disk 18 rotates around its geometric center, is hinged with master connecting-rod 19 on the edge of rotating disk 18; The master connecting-rod 19 and first rocking bar 20 are hinged, and rotating disk 18 is formed crank and rocker mechanism with the master connecting-rod 19 and first rocking bar 20.The unidirectional stroke of first rocking bar 20 is 120 degree, and first rocking bar 20 is connected with second rocking bar 22 identical with the first rocking bar characteristics of motion through slave connecting rod 21.That is to say that first rocking bar 20 and second rocking bar 22 and slave connecting rod 21 are formed parallelogram.Rotate the switched in opposite that is provided with first ratchet structure 24 and second ratchet structure, 23, the first ratchets and second ratchet respectively at the center of rotation place of first rocking bar 20 and second rocking bar 22, two ratchets are driven by each self-corresponding rocking bar respectively.Be hinged with first driving gear 13 on first rocking bar; Be hinged with second driving gear 14 on second rocking bar; First driving gear is identical with the structure of second driving gear; Be provided with extension spring between two driving gears and each the self-corresponding rocking bar, extension spring makes the free end of two driving gears be pressed in respectively on each self-corresponding ratchet, and the free end of the two driving gears gear teeth pushing of the ratchet corresponding with each all the time cooperates.Two driving gears are separately positioned on the opposition side of corresponding rocking bar, respectively the driving pawl counter motion.Be respectively fitted with the crankwheel that is connected through key on the turning cylinder 25 of first ratchet and second ratchet, respectively hinged first connecting rod 11 and second connecting rod 9 on two crankwheel end faces.First connecting rod and the second connecting rod tabular connecting rod for stacking up and down all has the rectangular channel that it is divided into one group of rib on tabular connecting rod.Be hinged with on the rib of first connecting rod and turning cylinder that one turns to identical All Drives forms one group of first crankwheel 10 that key cooperates, be hinged with on the rib of second connecting rod and another turns to the turning cylinder of identical All Drives to form one group of second crankwheel that key cooperates.Crankwheel on the ratchet shaft, first crankwheel and second crankwheel are identical.

Frame is provided with the batching apparatus that batches braided fabric with knitting disc 12 relative being used to; Batching apparatus comprises the winding drum by reel-motor 1 drive that is arranged on the frame 8; Reel-motor 1 is given belt driver 2 through its output shaft with transmission of power, the driven pulley 3 and the transmission of winding drum spline of belt driver 2.Volume is provided with steel wire 4 on the winding drum, and the other end that steel wire 4 is walked around bracing frame 5 is fixed with through stay hook 6 and is used for the profiled sheeting 7 that is connected with braided fabric, and knitting yarn all is fixed on the surface of profiled sheeting 7 with an axle yarn.The profiled sheeting 7 here is a rectangle, and the stiff end of knitting yarn arrangement mode on profiled sheeting is identical with its free-ended arrangement mode.

In the present embodiment; Driver integral body is cylindrical; On the outer peripheral face of driver, be provided with the cylinder of three indents equably; Take side identical of yarn device through its evagination cylinder shape and be close on the driver, the outer peripheral face of driver overlaps with another side of taking the yarn device, and another side of taking the yarn device coincide and is close on the indent cylinder of another driver.The diameter of limited impression also just with the outer peripheral face equal diameters of driver, that is to say that driver just coincide and is arranged in the limited impression.Certainly, the diameter of the outer peripheral face of driver also can be smaller, takes the yarn device and move just passable as long as can drive.

Be provided with a yarn bar in the foregoing description, when not using a spool yarn, also a yarn bar just need not be set.

Wait in use, an end of axle yarn bar and knitting yarn is separately fixed at a yarn bar and takes on the yarn device, and the other end then is fixed on the profiled sheeting 7 together.

Drive unit in the technique scheme can also be gear drive or worm gearing.

The extension spring that is arranged in the technique scheme between first driving gear and the first connecting rod also can be replaced by the torsion spring on the jointed shaft that is arranged on first driving gear and first connecting rod; Equally, the extension spring that is arranged between second driving gear and the second connecting rod also can be replaced by the torsion spring on the jointed shaft that is arranged on second driving gear and second connecting rod.

Claims (7)

1. one kind based on the symmetric 3 D weaving equipment of space group

; It is characterized in that: comprise frame; Be set with knitting disc and the batching apparatus that be used to batch braided fabric relative on the frame with knitting disc; One group of regular hexagon can be set on the knitting disc; Each orthohexagonal length of side is equal and corresponding sides are parallel; Each orthohexagonal inscribed circle center of circle all is on the parallel lines of one group of equidistance; Regular hexagon on every straight line of inscribed circle circle centre position in these group parallel lines is a row regular hexagon; Orthohexagonal number in the two adjacent row regular hexagons differs one; Orthohexagonal number in the two row regular hexagons adjacent with a row regular hexagon equates; Adjacent each regular hexagon of regular hexagon periphery respectively with the shared summit of this regular hexagon; With each orthohexagonal each limit is that a limit all can be provided with an equilateral triangle to the orthohexagonal outside of correspondence, be provided with in the corresponding position on each summit of all equilateral triangles a center be in equilateral triangle the vertex position place take the yarn device, the center of taking the yarn device is used for fixing knitting yarn; Take the relative both sides of yarn device and have the identical evagination cylinder partial of curvature; Be equipped with in place, each equilateral triangle position on the knitting disc to rotate through turning cylinder and be assemblied in the driver on the knitting disc, turning cylinder rotates the place, position, center of the said equilateral triangle that is assemblied in knitting disc, and the driver spline is assemblied on the turning cylinder; Driver is the sheave that outer peripheral face is evenly equipped with three indent cylinders; Driver coincide with three corresponding cylinder partials of taking the yarn device respectively through its three indent cylinders and cooperates, and is provided with all the slide limited impression of spacing cooperation of corresponding cylinder partial that cell wall and respective drivers three take the yarn device on the knitting disc in each driver place, takes the central lines of center-of-curvature line and corresponding turning cylinder of evagination cylinder partial of the both sides of yarn device; All be connected with driving turning cylinder 120 degree making of unidirectional rotation at intermittence on each turning cylinder and take the drive unit that the yarn device moves on the circumscribed circle of the equilateral triangle of correspondence; Each turning cylinder all is positioned at one group and is parallel to each other and is parallel on the parallel lines on a said orthohexagonal limit, is in the switched in opposite and the alternating movement of the turning cylinder on the two adjacent parallel lines, and the end that batching apparatus and knitting disc are relative is provided with the fixed part of fixing each root knitting yarn.

2. according to claim 1 based on the symmetric 3 D weaving equipment of space group

, it is characterized in that: be set with the circular cover that lower surface and the upper end of taking the yarn device are slidingly matched on the described driver or on the turning cylinder.

3. according to claim 1 and 2 based on the symmetric 3 D weaving equipment of space group

, it is characterized in that: in each regular hexagon, be provided with a yarn fixing point on the said knitting disc.

4. according to claim 3 based on the symmetric 3 D weaving equipment of space group

, it is characterized in that: said axle yarn fixing point all is in the circle centre position of the orthohexagonal inscribed circle of periphery separately.

5. according to claim 4 based on the symmetric 3 D weaving equipment of space group

; It is characterized in that: described drive unit comprises by motor-driven driving crank; Drive crank and be connected with first rocking bar through master connecting-rod; First rocking bar is connected with second rocking bar identical with the first rocking bar characteristics of motion through slave connecting rod; The center of rotation place of first rocking bar and second rocking bar rotates respectively and is provided with the first ratchet ratchet structure and the second ratchet ratchet structure; Be hinged with the first promotion tooth that free end cooperates with the unidirectional pushing of the gear teeth of first ratchet of the first ratchet ratchet structure on first rocking bar; Have between the first promotion tooth and first rocking bar and make the first promotion tooth elasticity be pressed in extension spring or torsion spring on the ratchet; Be hinged with the second promotion tooth that free end cooperates with the unidirectional pushing of the gear teeth of second ratchet of the second ratchet ratchet structure on second rocking bar; Have between the second promotion tooth and second rocking bar and make the second promotion tooth elasticity be pressed in extension spring or torsion spring on the ratchet; The switched in opposite of first ratchet and second ratchet; Corresponding respectively first connecting rod and the second connecting rod of being hinged with on first ratchet and second ratchet, first connecting rod and the second connecting rod tabular connecting rod for stacking up and down all has the rectangular channel that it is divided into one group of rib on tabular connecting rod; Be hinged with one group of first driven crank of the turning cylinder corresponding spline assembling with an All Drives that turns on the rib of first connecting rod, be hinged with turning cylinder one group of second driven crank that corresponding spline is assembled at the center of rotation place on the rib of second connecting rod with another All Drives that turns at the center of rotation place.

6. according to claim 5 based on the symmetric 3 D weaving equipment of space group

; It is characterized in that: said batching apparatus is provided with fixed part through a profiled sheeting; Each fixed part all be arranged on profiled sheeting with the knitting disc facing surfaces on; Be set with steel wire rope on another surface of moulding; The other end volume of steel wire rope is located on the winding drum that is driven by reel-motor; Said winding drum rotates and is assemblied on the frame, and said reel-motor is fixedly mounted on the frame.

7. according to claim 1 based on the symmetric 3 D weaving equipment of space group ; It is characterized in that: the described two ends of taking the yarn device also are the identical evagination cylinder partial of curvature, and the four part evagination cylinder partials of taking the yarn device are connected smoothly.

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