CN202509222U - Multidimensional weaving and forming machine for composite material - Google Patents

Abstract

The utility model provides a multidimensional weaving and forming machine for a composite material. The multidimensional weaving and forming machine comprises a guide template, an electronically controlled three-dimensional movement mechanism and a knitting needle, wherein the guide template comprises a plurality of columnar guide ways which are arranged according to a geometrical shape of a prefabricated piece; the electronically controlled three-dimensional movement mechanism comprises a control signal receiving end and a three-dimensional movement output end, wherein the control signal receiving end is used for receiving a movement control signal which corresponds to the geometrical shape of the prefabricated piece, and the three-dimensional movement output end forms a movement track according to the movement control signal; and the knitting needle is connected with the three-dimensional movement output end, so that weaving fibers are distributed among the columnar guide ways according to the geometrical shape of the prefabricated piece. By the multidimensional weaving and forming machine for the composite material, the columnar guide ways and the electronically controlled three-dimensional movement mechanism are utilized, so that the knitting needle drives the weaving lines to be distributed among the columnar guide ways along the movement track so as to form the guide template; the multidimensional weaving and forming machine can be suitable for multidimensional weaving and forming of large and complex composite materials; the interlaminar strength of the composite material can be effectively improved; and moreover, by the forming machine, the rapid forming technology is applied to the multidimensional weaving and forming of the composite material, and automatic technical process is realized.

Description

The composite multidimensional is weaved forming machine

Technical field

The utility model relates to composite and weaves the shaping technical field, especially, relates to a kind of composite multidimensional and weaves forming machine.

Background technology

High-intensity fibers such as carbon fiber, aramid fiber, polyethylene, glass and composite product thereof be as the part of the strategic new industry of China, has light weight, intensity is high, corrosion-resistant and advantage such as disguised uniqueness.Composite is widely used in fields such as wind energy, Aero-Space, automobile, track traffic, building, weapons, plate armour, boats and ships, chemical industry and sports, is that first develop and important industry with keen competition countries in the world always.In most advanced and sophisticated industries such as Aero-Space, composite is basic critical material, and for example, composite technology is first key technology of Boeing and airbus contention for hegemony, also is one of main 'bottleneck' restrictions technology of the civilian big aircraft project of China.The composite of Boeing 787 aircraft utilizations has accounted for more than 50% of aircraft gross mass; The shell of stealth fighter is by the composite manufacturing of inhaling ripple basically; Simultaneously, composite is one of stealthy fundamental of aircraft and naval vessels.Though composite has many excellent properties, composite is wanted further expanding application, must improve following restriction weakness:

The first, interlayer is easy to crack

Many being stacked by fibre sheet materials such as cloth, preimpregnation cloth of existing fibrous composite is added to certain thickness, solidifies through resin matrix to form.The two-dimensional directional on sheet material plane is owing to there is ultra high strength fiber, and strong several times of strength ratio steel can reach more than the 3000MPa.Yet be the resin and plastic matrix between the sheet material, interlaminar strength is very low, only has about 100MPa, and fiber and interlayer plastics intensity differ more than 30 times in the layer, so interlayer is easy to crack to be the congenital weakness of fibrous composite.Because composite interlayer intensity is low, the impact strength of composite and compression strength are also lower, when especially receiving shock loading and pressurized fatigue load, and the interlayer main failure mode of composite especially that ftractures.

For improving the interlaminar strength of composite, can adopt methods such as interlayer sewing, three-dimensional woven, 3 D weaving, though these technological research and development have obtained some progress, but the complex process cost is very high, uses limited.And use wider Multi-axial Warp Knitted Fabric for Composites, and limit by thickness, can't obtain whole three-dimensional structure.This explanation, interlayer is easy to crack to be the main weakness of puzzlement composite property, thereby how low-cost fortifying fibre composite interlayer intensity also becomes world-famous puzzle for a long time.

The second, lamination efficient is low, and labour cost is high

Use long fiber to do structural material, make fibre sheet by yarn usually, sheet is incorporated into certain thickness and obtains composite panel or goods.Use long fiber and do the process that material must pass through line, face, plate/body, but in the whole production flow process of producd fibers composite product, only wiredly can use the textile technology high efficiency production to face.Owing to be difficult to automated machine operation fibre sheet material; Have only aircraft manufacturing etc. can adopt an expensive fiber automation shop layer equipment to the very high most advanced and sophisticated industry of the lamination accuracy requirement of fibre sheet material; Thereby in composite industry, fibre sheet material is laminated to plate and goods

The layer process of closing adopts manual lamination more, and production efficiency is low, and labour cost is high.Wherein, manual lamination inefficiency is a main bottleneck of composite production process.

The 3rd, high-intensity fibers such as carbon fiber, aramid fiber, high-modulus polyethylene cost an arm and a leg

Because the interlaminar strength of fibrous composite is low, lamination efficient is low, lamination procedure labour cost is high, makes that the scope of application of composite is limited, also makes high-intensity fibers such as carbon fiber, aramid fiber, high-modulus polyethylene mainly be used in high-end product, market capacity is limited; Add the technical monopoly of developed country to carbon fiber, aramid fiber, high-modulus polyethylene fiber, these high-intensity fibers are just very expensive naturally.The good news is that China had progressively captured the difficulty that carbon fiber and high-modulus polyethylene are produced in recent years, had realized production domesticization, also victory is in sight in the production domesticization of aramid fiber.

If composite interlayer intensity improves, lamination is realized low cost autonation, and the application demand of composite will sharply enlarge, and the output of carbon fiber, aramid fiber, high-modulus polyethylene also can significantly improve, and their manufacturing cost just is expected to descend.

The utility model content

The utility model purpose is to provide a kind of composite multidimensional to weave forming machine, does not have the technical problem that automaticity is high, can weave out the manufacturing equipment of high-intensity composite in the existing technology to solve.

Be to realize above-mentioned purpose, the utility model provides a kind of composite multidimensional to weave forming machine, comprising: guiding die plate comprises the cylindricality guide way of a plurality of geometric arrangement according to prefabricated component; Automatically controlled three-dimensional motion mechanism is positioned at the top of guiding die plate, and automatically controlled three-dimensional motion mechanism comprises: the control signal receiving terminal is used to receive and the corresponding motion control signal of the geometry of prefabricated component; The three-dimensional motion output forms movement locus according to motion control signal; Knitting mechanism comprises: knitting needle, link to each other with the three-dimensional motion output, and drive braided fiber and between the cylindricality guide way, move along movement locus, braided fiber is distributed between the cylindricality guide way according to the geometry of prefabricated component.

Further; Guiding die plate comprises that braiding is dull and stereotyped; The braiding flat board is provided with a plurality of equally distributed first through holes, and the dull and stereotyped below of braiding is provided with porous plate, and porous plate has a plurality of and the coaxial corresponding second through hole of first through hole; Lead passes first through hole and second through hole, and the cylindricality guide way is the selectable cylindrical sleeve of height that is set on the lead.

Further, the three-dimensional motion output is provided with the pneumatic chuck that is used for gripping knitting needle, cylindricality guide way and/or lead.

Further; Lead is provided with the draw-in groove that is equally spaced vertically; The below of porous plate is provided with removable adjustable plate, and the below of removable adjustable plate is provided with the lead supporting plate static relatively with porous plate, and removable adjustable plate with respect to porous plate slidably; Removable adjustable plate is provided with a plurality of and the corresponding slotted hole of second lead to the hole site porous plate, and lead passes slotted hole and under the motion of removable adjustable plate, in slotted hole, moves.

Further, removable adjustable plate is provided with the lock piece that cooperates with draw-in groove, and removable adjustable plate has to be made lock piece cooperate the lock position of the height of lead locking with draw-in groove and make lock piece and the unlocked position of exact separation.

Further, lock piece is the spring leaf that extends to adjacent lead obliquely of an end that is arranged on the bearing of trend of slotted hole, and draw-in groove is formed with the flange part that is arranged on the miner diameter end of conus portion by the conus portion of lead.

Further; The below of removable adjustable plate is provided with first support frame; First support frame is provided with first carriage that is positioned at removable adjustable plate periphery; First carriage is provided with location-plate, and the side of location-plate is provided with horizontally extending adjusting screw(rod), and first end of adjusting screw(rod) is fixedly connected with removable adjustable plate.

Further, the bottom surface of removable adjustable plate is set with fork, and first end of adjusting screw(rod) is fixedly connected with removable adjustable plate through fork, and second end of adjusting screw(rod) is provided with the adjusting handle.

Further, also be provided with on the location-plate and be used for the connecting hole that links to each other with first carriage.

Further, first support frame comprises four first supporting legs, and the lead supporting plate is arranged between four first supporting legs.

Further, also be provided with a plurality of positioning sleeves with the coaxial coupling of second through hole on the porous plate, lead passes positioning sleeve 66.

Further, the upper end of lead is provided with the radially outwardly directed first ring platform.

Further, the periphery of cylindricality guide way is provided with multilayer and is used for the annular groove spacing to braided fiber.

Further, the upper end of cylindricality guide way is provided with the radially outwardly directed second ring platform.

Further, automatically controlled three-dimensional motion mechanism also comprises: X axle moving cell comprises: X axle supporter, extend along first direction; The X axis rail is arranged on the X axle supporter; The X axle is with motion synchronously, is provided with along the X axis rail, has X axle slide block; Y axle moving cell comprises: Y axle supporter, link to each other with X axle slide block, and the edge second direction vertical with first direction extended; The Y axis rail is arranged on the Y axle supporter; The Y axle is with motion synchronously, is provided with along the Y axis rail, and has Y axle slide block; Z axle moving cell comprises: Z axle supporter, and the edge third direction vertical with the plane that first direction and second direction form extends; The Z axis rail is arranged on the Z axle supporter; The Z axle is with motion synchronously, is provided with along the Z axis rail, and has Z axle slide block, and Z axle slide block is fixedly connected with Y axle slide block, and wherein, the lower end of Z axle supporter forms the three-dimensional motion output.

Further; X axle supporter comprises two first supporters that laterally arrange and second supporter; The X axis rail comprises first guide rail and second guide rail that is separately positioned on first supporter and second supporter; The X axle is with motion to be arranged on first supporter synchronously, and the X axle links to each other with first end of Y axle supporter with the synchronous band of motion synchronously; X axle slide block comprises first slide block and second slide block that lays respectively on first guide rail and second guide rail; First slide block and second slide block lay respectively at the below of first end and second end of Y axle supporter.

Further; The composite multidimensional that the utility model provides is weaved forming machine; Also comprise cylindricality guide way storage rack; Be positioned at first side of guiding die plate, cylindricality guide way storage rack comprises guide way storage bracing frame and the memory plane that is arranged on the guide way storage bracing frame, prestores the cylindricality guide way of a plurality of differing heights on the memory plane.

Further, memory plane is provided with a plurality of equally distributed screwed holes, is provided with the storage support bar that is used to support the cylindricality guide way in the screwed hole, and the lower end of storage support bar is provided with the external screw thread that cooperates with said screwed hole.

Further, knitting mechanism also comprises fiber wire feed and strainer, is positioned at second side of guiding die plate.

Further, fiber wire feed and strainer comprise: the 3rd support; The fiber roll installing rack is arranged on the 3rd support, has the pole that is used for the carrier of strand volume; The regulating wheel seat board is arranged on the 3rd support, and the regulating wheel seat board is provided with and is used to knitting needle filametntary regulating wheel and directive wheel are provided.

Further, fiber wire feed and strainer also comprise the braiding needle stand that is used to deposit institute's knitting needle, and the knitting needle seat is positioned at a side of regulating wheel seat board.

The utlity model has following beneficial effect:

The composite multidimensional that the utility model provides is weaved forming machine and is utilized cylindricality guide way and automatically controlled three-dimensional motion mechanism; Knitting needle drive weaving thread is distributed between the cylindricality guide way along movement locus form guiding die plate; The multidimensional that can be applicable to large-scale, complicated composite is weaved shaping; Can effectively improve the interlaminar strength of composite, this forming machine is applied to the composite multidimensional with RP technique and weaves shaping, and technical process realizes automation.

Except top described purpose, feature and advantage, the utility model also has other purpose, feature and advantage.To do further detailed explanation to the utility model with reference to figure below.

Description of drawings

The accompanying drawing that constitutes the application's a part is used to provide the further understanding to the utility model, and illustrative examples of the utility model and explanation thereof are used to explain the utility model, do not constitute the improper qualification to the utility model.In the accompanying drawings:

Fig. 1 is the perspective view that the composite multidimensional of the utility model preferred embodiment is weaved forming machine;

Fig. 2 is the structural representation of the automatically controlled three-dimensional motion mechanism of the utility model preferred embodiment;

Fig. 3 is the structure for amplifying sketch map of the 30a among Fig. 2;

Fig. 4 is the II portion structure for amplifying sketch map among Fig. 2;

Fig. 5 is the structural representation of the X axle moving cell of the utility model preferred embodiment;

Fig. 6 be among Fig. 5 A to local enlarged diagram;

Fig. 7 is the structural representation of the Y axle moving cell of the utility model preferred embodiment;

Fig. 8 is that B among Fig. 7 is to structural representation;

Fig. 9 is the fiber wire feed of the utility model preferred embodiment and the local structure for amplifying sketch map of strainer;

Figure 10 is the composition structural representation of the guiding die plate of the utility model preferred embodiment;

Figure 11 is that skeleton guide table and the position of removable adjustable plate of the guiding die plate below of the utility model preferred embodiment concerns sketch map;

Figure 12 be after braiding is accomplished during the free-falling of guide way support bar the position of lock piece and draw-in groove concern sketch map;

Figure 13 is a removable adjustable plate when being positioned at the lock position, and the position of lock piece and draw-in groove concerns sketch map;

Figure 14 is the structural representation of the guide way support bar of the utility model preferred embodiment; And

Figure 15 is the surface texture sketch map of the cylindricality guide way of the utility model preferred embodiment.

The specific embodiment

Embodiment to the utility model is elaborated below in conjunction with accompanying drawing, but the multitude of different ways that the utility model can be defined by the claims and cover is implemented.

As shown in Figure 1, the utility model provides a kind of composite multidimensional to weave forming machine, comprising: guiding die plate 60 comprises the cylindricality guide way 62 of the arrangements of the preparatory forging piece of a plurality of bases; Automatically controlled three-dimensional motion mechanism 30 is positioned at the top of guiding die plate 60, and automatically controlled three-dimensional motion mechanism 30 comprises: the control signal receiving terminal is used to receive motion control signal; Three-dimensional motion output 30a forms movement locus according to motion control signal; The utility model provides a kind of composite multidimensional to weave forming machine also to comprise knitting mechanism 50, comprising: knitting needle 14,30a links to each other with the three-dimensional motion output, drives weaving thread and distributes between cylindricality guide way 62 along movement locus.

Shown in figure 10; In order to realize the shaping of guiding die plate 60, guiding die plate comprises the dull and stereotyped 60a of braiding, weaves dull and stereotyped 60a and is provided with a plurality of equally distributed first through holes; Weaving dull and stereotyped 60a is supported by rectangular frame 59; The below that weaves dull and stereotyped 60a is provided with porous plate 65, and porous plate 65 has a plurality of and the coaxial corresponding second through hole of first through hole, and the below of porous plate 65 is provided with a plurality of adjustable for height leads 61; The upper end of lead 61 passes first through hole and second through hole is positioned at the top that weaves dull and stereotyped 60a, and cylindricality guide way 62 is for being set in the selectable cylindrical sleeve of height on the lead 61.

The upper end of lead 61 is provided with the radially outwardly directed first ring platform 61c.Can utilize clamping device to grasp the part below this first ring platform 61c, mobile guide post 61.

For the ease of the extracting to cylindricality guide way 62, the upper end of cylindricality guide way 62 is provided with the radially outwardly directed second ring platform 62c.

Like Figure 11 and shown in Figure 14; Lead 61 is provided with the draw-in groove 61a that is equally spaced vertically; Removable adjustable plate 68 is established in the below of porous plate 65, and the below of removable adjustable plate 68 is provided with the lead supporting plate 64 static relatively with porous plate 65, when lead 61 all falls; The lower end of lead 61 is positioned on the lead supporting plate 64; Removable adjustable plate 68 with respect to porous plate 65 slidably, removable adjustable plate 68 is provided with a plurality of and the corresponding slotted holes in position porous plate 65 through holes, lead 61 passes slotted hole and under the motion of removable adjustable plate 68, in slotted hole, moves.

Removable adjustable plate 68 is provided with the lock piece that cooperates with draw-in groove 61a, and removable adjustable plate 68 has to be made lock piece that draw-in groove 61a is cooperated the lock position of the height locking of lead 61 and makes lock piece separate height with lead 61 with draw-in groove 61a to continue the unlocked position regulated.

The below of removable adjustable plate 68 is provided with first support frame 58; First support frame 58 is provided with the first carriage 58a that is positioned at removable adjustable plate 68 peripheries; The first carriage 58a is provided with location-plate 63; Location-plate 63 is provided with internal thread hole, is provided with the adjusting screw(rod) 69 that matches with internal thread hole in the internal thread hole, and the flexible end of adjusting screw(rod) 69 is fixedly connected with removable adjustable plate 65.

Like Figure 12 and shown in Figure 13, lock piece can be arranged on the spring leaf 71 that extends to adjacent lead 61 obliquely of an end of the bearing of trend of slotted hole, and draw-in groove 61a is formed by conus portion on the lead 61 and the flange part that is arranged on the miner diameter end of conus portion.

The bottom surface of removable adjustable plate 68 is set with fork 70, and first end of adjusting screw(rod) 69 is fixedly connected with fork 70, and second end of adjusting screw(rod) 69 is provided with regulates handle 69a.Utilize and regulate handle 69a rotation adjusting screw rod 69, adjusting screw(rod) 69 is flexible in the internal thread hole of location-plate 63, drives fork 70 motions; And then drive removable adjustable plate 68 and move, spring leaf 71 is cooperated, with lead 61 lockings with draw-in groove 61a; At this moment, lead 61 can only raise and can not reduce; After parts braidings was accomplished, the linear relative movement through adjusting screw(rod) 69 and location-plate 63 drove removable adjustable plate 68 and carries out rectilinear motion, makes lead 61 by spring leaf 71 chuckings, and free-falling is to lead supporting plate 64.

Also be provided with on the location-plate 63 and be used for the connecting hole 63a that links to each other with the first carriage 58a.

First support frame 58 comprises four first supporting leg 58c, and lead supporting plate 64 is arranged between four the first supporting leg 58c.

Also be provided with a plurality of positioning sleeves 66 with the coaxial coupling of second through hole on the porous plate 65, lead 61 passes positioning sleeve 66.

Size or shape that cylindricality guide way 62 in the guiding die plate 60 can change be arranged according to the resemblance of weaving parts in advance, the height that is used to support the lead 61 of cylindricality guide way 62 can be regulated according to the resemblance of weaving parts in advance; Porous plate 65 is fixed on first support frame 58, and the positioning sleeve 66 of lead 61 is installed on the porous plate 65, is used to increase the rigidity of lead 61; Removable adjustable plate 68 is through being lifted on porous plate 65 times with the fixing porous plate mount pads 67 of porous plate 65, and can do rectilinear motion with respect to porous plate 65; There are spring leaf 71 and slotted hole 72 to match on the removable adjustable plate 68, realize chucking and relieving lead 61.

The cylindricality guide way stores plate 2 can store the different cylindricality guide way 62 of height specification, and according to the face shaping of braiding parts, the cylindricality guide way 62 of choosing differing heights is enclosed within on lead 62 dot matrix, is similar to braiding.

Shown in figure 15; In order to make braided fiber can be positioned at the surface of cylindricality guide way 62; The periphery of cylindricality guide way 62 is provided with and is used for the multilayer annular groove spacing to said braided fiber; The top of cylindricality guide way 62 also is provided with the radially outwardly directed first ring platform 62a, can utilize chuck to clamp the part below the first ring platform 62a, and cylindricality guide way 62 is carried out the gripping action.

As shown in Figure 2, automatically controlled three-dimensional motion mechanism 30 also comprises: X axle moving cell, and X axle supporter extends along first direction; The X axis rail is arranged on the X axle supporter; The X axle is with motion synchronously, is provided with along the X axis rail, has X axle slide block; Y axle moving cell comprises: Y axle supporter 12, link to each other with X axle slide block, and the edge second direction vertical with first direction extended; Y axis rail 11 is arranged on the Y axle supporter 12; The Y axle is with motion synchronously, is provided with along Y axis rail 11, and has Y axle slide block 31; Z axle moving cell comprises: Z axle supporter 8, and the edge third direction vertical with the plane that first direction and second direction form extends; Z axis rail 9 is arranged on the Z axle supporter 8; The Z axle is with motion synchronously, is provided with along Z axis rail 9, and has Z axle slide block 33, and Z axle slide block 33 is fixedly connected with Y axle slide block 31, and wherein, the lower end of Z axle supporter 8 forms three-dimensional motion output 30a.

Extremely shown in Figure 6 like Fig. 4; In order to increase the support strength of automatically controlled three-dimensional motion unit; X axle supporter can comprise two first supporters 3 that laterally arrange and second supporter 6; The X axis rail comprises first guide rail 5 and second guide rail 7 that is separately positioned on first supporter 3 and second supporter 6; Be respectively arranged with first on first guide rail 5 and second guide rail 7 and be with motion and second band motion synchronously synchronously, the first synchronous band motion and the second synchronous band motion have first slide block 17 and second slide block 27 respectively; The two ends of Y axle supporter 12 link to each other with second slide block 27 with first slide block 17 respectively.

In fact, also can adopt the more moving cell of multidimensional such as four axes motion unit or 5-axis movement unit, and then the multidimensional of realization composite is weaved.

Like Fig. 7 and shown in Figure 8, specifically, the X axis motion system comprises first guide rail 5 and second guide rail 7 that laterally arranges; First guide rail is supported by first supporter 3, and second guide rail 7 supports the preset distance of being separated by between first supporter 3 and second supporter 6 by second supporter 6; Distance between first supporter 3 and second supporter 6 can be confirmed by the width of guiding die plate 60; Can set the distance between first supporter 3 and second supporter 6 for bigger distance; Guiding die plate 60 corresponding increasings weave needed space to adapt to the large scale parts.First slide block 17 is arranged on first guide rail 5, and second slide block 27 is arranged on second guide rail 7, and first supporter 3 is connected through horizontal connecting rod 13 with second supporter 6.Y axle supporter 1 can 2 be connected with second slide block 27 with first slide block 17 through XY connecting plate 18; The X axle is with 21 to be with fixed head 26 and Y axle to support 12 synchronously through the X axle to be connected with the X axle in the mechanism synchronously synchronously; X axle active synchronization belt wheel 22 is connected with X axle reductor 24 on being fixed on first supporter 3 through rolling bearing; The passive and synchronous belt wheel 19 of X axle is installed on the passive wheel shaft 50 of X axle through bearing and shaft end ring; The passive wheel shaft 50 of X axle passes through screw threads for fastening on first supporter 3; X axle moving cell is power unit with X spindle motor 25 with X axle reductor 24, drives X axle active synchronization belt wheel 22 as gear unit with X spindle motor 25, reaches the effect that driving first slide block 17 and second slide block 27 move on first guide rail 5 and second guide rail 7.

The Y axis motion system comprises Y axis rail 11, and Y axis rail 11 is supported by Y axle supporter 12, and Y axle slide block 31 is arranged on the Y axis rail 11.

Z axle moving cell comprises Z axis rail 9, and Z axis rail 9 is supported by Z axle supporter 8, and Z axle slide block 33 is arranged on the Z axis rail 9, and Z axle slide block 23 is connected with Y axle slide block 31 through YZ right-angle connecting plate 10.The Y axle is with 30 to be pressed in the Y axle and to be with synchronously on the fixed head 39 on the Y axle with the synchronous belt lacing pressing plate 38 of the Y axle in the mechanism synchronously synchronously; And be fixed on the YZ right-angle connecting plate 10; Y axle active synchronization belt wheel 35 is connected with Y axle reductor 36 on the Y shaft fixing support 12 through rolling bearing; The passive and synchronous belt wheel 29 of Y is installed on the passive wheel shaft 49 of Y axle through bearing and shaft end ring, and on Y axle supporter 12, the Y axis motion system is power unit with y-axis motor 37 with Y axle reductor 36 to the passive wheel shaft 49 of Y axle through screw threads for fastening;, reach drive the effect that Y axle slide block 31 moves on Y axis rail 11 as gear unit with y-axis motor 37 and Y axle active drive synchronous pulley 35.Z axle active synchronization belt wheel seat 42 is fixed on the YZ right-angle connecting plate 10; Z axle active synchronization belt wheel 47 is connected with the Z axle reductor 40 that is fixed on Z axle active synchronization belt wheel seat 42 through rolling bearing; The Z axle is with 46 synchronously through being with pulley 45 to change directions synchronously; And be fixed on the support Z9 after being with pressing plate 43 and Z axle to be with fixed head 44 to compress synchronously synchronously through the Z axle; Band pulley 45 is installed on the synchronous band pulley spindle 48 through bearing and axle head collar synchronously, is with pulley spindle 48 to pass through screw threads for fastening on Z axle active synchronization belt wheel seat 42 synchronously.

The composite multidimensional that the utility model provides is weaved forming machine; Also comprise cylindricality guide way storage rack; Be positioned at first side of guiding die plate 60; Cylindricality guide way storage rack comprises guide way storage bracing frame and the memory plane 2 that is arranged on the guide way storage bracing frame, prestores the cylindricality guide way 62 of a plurality of differing heights on the memory plane.

Memory plane 2 is provided with a plurality of equally distributed screwed holes, is provided with the storage support bar that is used to support cylindricality guide way 62 in the screwed hole, and the lower end of storage support bar is provided with the external screw thread that cooperates with screwed hole.

Three-dimensional motion output 30a is provided with the pneumatic chuck 15 that is used for the gripping knitting needle and is pre-stored in the cylindricality guide way on the memory plane.This pneumatic chuck can adopt a prior standard part.

As shown in Figure 9, the composite multidimensional that the utility model provides is weaved forming machine, also comprises fiber wire feed and strainer, is positioned at second side of guiding die plate 10.

Fiber wire feed and strainer comprise: the 3rd support 57, have a plurality of brace summer 57a, and fiber roll installing rack 56 is arranged on the brace summer, has the pole that is used for carrier of strand volume 55; Regulating wheel seat board 52 is arranged on the brace summer 57a, is positioned at the oblique upper of fiber roll installing rack 56, and it is provided with and is used to knitting needle filametntary regulating wheel 53 and directive wheel 54 are provided.Fiber roll installing rack 56 is installed on the 3rd support 57 through bolt; Fiber roll 55 is horizontal on fiber roll installing rack 56; Regulating wheel seat board 52 all is to be installed on the 3rd support 57 through bolt with braiding needle stand 51, and regulating wheel 53 is installed on the regulating wheel seat board 52 with directive wheel 54.The filament of fiber roll 55 through directive wheel 54 guiding after through regulating wheel 53 tensionings, carried by knitting needle 14 then and weave.

More than be merely the preferred embodiment of the utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various changes and variation.All within the spirit and principle of the utility model, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection domain of the utility model.

Claims (21)

1. a composite multidimensional is weaved forming machine, it is characterized in that, comprising:

Guiding die plate (60) comprises the cylindricality guide way (62) of a plurality of geometric arrangement according to prefabricated component;

Automatically controlled three-dimensional motion mechanism (30) is positioned at the top of said guiding die plate (60), and said automatically controlled three-dimensional motion mechanism (30) comprising:

The control signal receiving terminal is used to receive and the corresponding motion control signal of the geometry of prefabricated component;

Three-dimensional motion output (30a) forms movement locus according to said motion control signal;

Knitting mechanism (50) comprising:

Knitting needle (14) links to each other with said three-dimensional motion output, drives braided fiber and moves between said cylindricality guide way (62) along said movement locus, and said braided fiber is distributed between said cylindricality guide way (62) according to the geometry of said prefabricated component.

2. composite multidimensional according to claim 1 is weaved forming machine; It is characterized in that; Said guiding die plate comprises braiding dull and stereotyped (60a); Said braiding dull and stereotyped (60a) is provided with a plurality of equally distributed first through holes, and the below of said braiding dull and stereotyped (60a) is provided with porous plate (65), and said porous plate (65) has the coaxial corresponding second through hole of a plurality of and said first through hole; Said lead (61) passes said first through hole and said second through hole, and said cylindricality guide way (62) is for being set in the selectable cylindrical sleeve of height on the said lead (61).

3. composite multidimensional according to claim 2 is weaved forming machine, it is characterized in that, said three-dimensional motion output (30a) is provided with the pneumatic chuck (15) that is used for the said knitting needle of gripping (14), said cylindricality guide way or said lead (61).

4. composite multidimensional according to claim 2 is weaved forming machine; It is characterized in that; Said lead (61) is provided with the draw-in groove (61a) that is equally spaced vertically; The below of said porous plate (65) is provided with removable adjustable plate (68); The below of said removable adjustable plate (68) is provided with the lead supporting plate (64) static relatively with said porous plate (65); Said removable adjustable plate (68) with respect to said porous plate (65) slidably, said removable adjustable plate (68) is provided with the corresponding slotted hole of second lead to the hole site (72) of a plurality of and said porous plate (65), said lead (61) passes said slotted hole (72) and in said slotted hole (72), is moving under the motion of said removable adjustable plate (68).

5. composite multidimensional according to claim 4 is weaved forming machine; It is characterized in that; Said removable adjustable plate (68) is provided with the lock piece that cooperates with said draw-in groove (61a), and said removable adjustable plate (68) has makes said lock piece and said draw-in groove (61a) cooperation with the lock position of the height locking of said lead (61) and the unlocked position that said lock piece is separated with said draw-in groove (61a).

6. composite multidimensional according to claim 5 is weaved forming machine; It is characterized in that; Said lock piece is the spring leaf (71) that extends to adjacent said lead (61) obliquely of an end that is arranged on the bearing of trend of said slotted hole, and said draw-in groove (61a) is formed with the flange part that is arranged on the miner diameter end of said conus portion by the conus portion of said lead (61).

7. composite three dimensional weaving machine according to claim 4; It is characterized in that; The below of said removable adjustable plate (68) is provided with first support frame (58); Said first support frame (58) is provided with first carriage (58a) that is positioned at said removable adjustable plate (68) periphery; Said first carriage (58a) is provided with location-plate (63), and the side of said location-plate (63) is provided with horizontally extending adjusting screw(rod) (69), and first end of said adjusting screw(rod) (69) is fixedly connected with said removable adjustable plate (68).

8. composite three dimensional weaving machine according to claim 7; It is characterized in that; The bottom surface of said removable adjustable plate (68) is set with fork (70); First end of said adjusting screw(rod) (69) is fixedly connected with said removable adjustable plate (68) through said fork (70), and second end of said adjusting screw(rod) (69) is provided with regulates handle (69a).

9. composite three dimensional weaving machine according to claim 7 is characterized in that, also is provided with on the said location-plate (63) to be used for the connecting hole (63a) that links to each other with said first carriage (58a).

10. composite three dimensional weaving machine according to claim 7 is characterized in that said first support frame (58) comprises four first supporting legs (58c), and said lead supporting plate (64) is arranged between four said first supporting legs (58c).

11. composite multidimensional according to claim 2 is weaved forming machine, it is characterized in that, also is provided with a plurality of positioning sleeves (66) with the coaxial coupling of said second through hole on the said porous plate (65), said lead (61) passes said positioning sleeve (66).

12. composite multidimensional according to claim 2 is weaved forming machine, it is characterized in that, the upper end of said lead (61) is provided with the radially outwardly directed first ring platform (61c).

13. composite multidimensional according to claim 1 is weaved forming machine, it is characterized in that, the periphery of said cylindricality guide way (62) is provided with multilayer and is used for the annular groove spacing to said braided fiber (62a).

14. composite multidimensional according to claim 1 is weaved forming machine, it is characterized in that, the upper end of said cylindricality guide way (62) is provided with the radially outwardly directed second ring platform (62c).

15. composite multidimensional according to claim 1 is weaved forming machine, it is characterized in that, said automatically controlled three-dimensional motion mechanism (30) also comprises:

X axle moving cell comprises:

X axle supporter extends along first direction;

The X axis rail is arranged on the said X axle supporter;

The X axle is with motion synchronously, is provided with along said X axis rail, has X axle slide block;

Y axle moving cell comprises:

Y axle supporter (12) links to each other with said X axle slide block, and the edge second direction vertical with said first direction extended;

Y axis rail (11) is arranged on the said Y axle supporter (12);

The Y axle is with motion synchronously, is provided with along said Y axis rail (11), and has Y axle slide block (31);

Z axle moving cell comprises:

Z axle supporter (8), the edge third direction vertical with the plane that said first direction and said second direction form extends;

Z axis rail (9) is arranged on the said Z axle supporter (8);

The Z axle is with motion synchronously, is provided with along said Z axis rail (9), and has Z axle slide block (33), and said Z axle slide block (33) is fixedly connected with said Y axle slide block (31),

Wherein, the lower end of said Z axle supporter (8) forms said three-dimensional motion output.

16. composite multidimensional according to claim 15 is weaved forming machine, it is characterized in that,

Said X axle supporter comprises two first supporters (3) that laterally arrange and second supporter (6); Said X axis rail comprises first guide rail (5) and second guide rail (7) that is separately positioned on said first supporter (3) and said second supporter (6); Said X axle is with motion to be arranged on said first supporter (3) synchronously, and said X axle links to each other with first end of said Y axle supporter (12) with the synchronous band of motion synchronously;

Said X axle slide block comprises first slide block (17) and second slide block (27) that lays respectively on said first guide rail (5) and said second guide rail (7);

Said first slide block (17) and said second slide block (27) lay respectively at the below of first end and second end of said Y axle supporter (12).

17. weave forming machine according to each described composite multidimensional in the claim 1 to 16; It is characterized in that; Also comprise cylindricality guide way storage rack; Be positioned at first side of said guiding die plate (60), said cylindricality guide way storage rack comprises guide way storage bracing frame (1) and is arranged on the memory plane (2) on the said guide way storage bracing frame (1), prestores the said cylindricality guide way (62) of a plurality of differing heights on the said memory plane (2).

18. composite multidimensional according to claim 17 is weaved forming machine; It is characterized in that; Said memory plane (2) is provided with a plurality of equally distributed screwed holes; Be provided with the storage support bar that is used to support said cylindricality guide way (62) in the said screwed hole, the lower end of said storage support bar is provided with the external screw thread that cooperates with said screwed hole.

19. composite multidimensional according to claim 18 is weaved forming machine, it is characterized in that, said knitting mechanism (50) also comprises fiber wire feed and strainer, is positioned at second side of said guiding die plate (60).

20. composite multidimensional according to claim 19 is weaved forming machine, it is characterized in that, said fiber wire feed and strainer comprise:

The 3rd support (57);

Fiber roll installing rack (56) is arranged on said the 3rd support (57), has the pole that is used for carrier of strand volume (55);

Regulating wheel seat board (52) is arranged on said the 3rd support (57), and said regulating wheel seat board (52) is provided with and is used to said knitting needle (14) filametntary regulating wheel (53) and directive wheel (54) are provided.

21. composite multidimensional according to claim 20 is weaved forming machine; It is characterized in that; Said fiber wire feed and strainer also comprise the braiding needle stand (51) that is used to deposit institute's knitting needle, and said braiding needle stand (51) is positioned at a side of said regulating wheel seat board (52).

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