CN105954328B - A kind of unidirectional automated manufacturing device of carbon fiber sensor sensing member - Google Patents

Abstract

The invention discloses a kind of unidirectional automated manufacturing devices of carbon fiber sensor sensing member, including：Workbench；Lifting and translation module；Platform is moved horizontally, is installed with moving horizontally on the table, top surface is equipped with the supporting plate for piddler；Steel wire storage module；Piddler module is mounted on the power output end of lifting and translation module, for being laid with the filament from steel wire storage module on supporting plate；Module is presoaked, is arranged on the filament path between steel wire storage module and piddler module for being pre-processed to filament；Resin fills module, is fixedly connected with the piddler module, is used to form the resin layer for accommodating the sensitive member of carbon fiber, and the line of the resin filling module gone out between fat mouth and the filament mouth of piddler module is parallel with lifting and the translation direction of translation module；Apparatus of the present invention are easily achieved the manufacture of carbon fiber sensor sensing member mass, and more artificial piddler process can ensure higher repeatability, greatly improve carbon fiber sensor sensing member manufacture efficiency.

Description

A kind of unidirectional automated manufacturing device of carbon fiber sensor sensing member

Technical field

The present invention relates to carbon fiber technical field of sensor manufacture, single more particularly to a kind of carbon fiber sensor sensing member To automated manufacturing device.

Background technology

Carbon fiber (Carbon Fiber, abbreviation CF) is a kind of high intensity 95% or more of phosphorus content, high modulus fibre New fiber materials.Carbon fiber has many excellent performances, and if axial strength and modulus are high, density is low, higher than performance, nothing Creep, superhigh temperature resistant under non-oxidizing atmosphere, endurance, corrosivity are good, and coefficient of thermal expansion is small and with anisotropy and good Electrical and thermal conductivity performance etc..Carbon fiber wire its resistance under stretching strain increases with proportional example is strained, and resistance is with answering under compressive strain The increase of change and proportional example reduces, show good electric conductivity and piezoresistive effect, there are good self-sensing properties.

Such as the patent document of Publication No. CN103422587A discloses a kind of carbon fiber resistance sensing layer intellectual monitoring Non-maintaining buckling restrained brace, including energy consumption steel core, GFRP confinement sections, waveform section, contoured foam, sensing layer electrode and carbon fiber Intelligent sensing layer, the both ends of the GFRP confinement sections are equipped with waveform section, and the inside center of GFRP confinement sections and waveform section is equipped with consumption Energy steel core, GFRP confinement sections are arranged symmetrically along energy consumption steel core, and the Intelligent carbon fiber sensing layer is located in GFRP confinement sections, carbon fiber Dimension intelligent sensing layer be arranged in parallel in energy consumption steel core long side both sides, Intelligent carbon fiber sensing layer and energy consumption steel core between there are Gap, Intelligent carbon fiber sensing layer are connect with sensing layer electrode, and Intelligent carbon fiber sensing layer connect to form entirety with GFRP confinement sections Contoured foam is filled in the gap of structure.Above-mentioned apparatus have it is reasonable for structure, from heavy and light, it is corrosion-resistant, non-maintaining, can intelligently supervise The characteristics of control.

Existing research manufactures and designs Intelligent carbon fiber layer using carbon fiber as sensitive member, is used for the health of large-sized structural parts Monitoring, achieves good effect.

In order to produce the intelligent layer grid of function admirable, there is researcher to propose that the method for manufacturing such grid, application are public The patent document of cloth CN 105082557A discloses a kind of manufacturing method of grid, which includes：For manufacturing Carbon fiber prepreg is laid in the mold of grid；Metamaterial microstructure layer is formed above the carbon fiber prepreg；It is molded, And resin material is made to enter in the mold；Resin material in the mold is cured, is demoulded later.The above method is logical It crosses and carbon fiber and resin material is added in a mold, and the resin material in mold is cured, grid can not only be made to have The characteristic of standby ideal intensity and forming, and grid can be allowed to show better characteristics when in face of electromagnetic wave, in addition, The density of the grid manufactured by above-mentioned method can be controlled in relatively low range, therefore will not dramatically increase the weight of grid Amount, ensure that the portability of grid, makes grid easy to process and transport.

But the above method only refines manufacturing process, and when currently manufactured intelligent layer grid mostly uses greatly manual side Formula, process is complicated and due to excessively introducing uncontrollable human factor, leads to manufactured sensor poor repeatability, need to be to the every of manufacture One sensor is demarcated, and is not easy to realize mass.Therefore, a kind of efficient controllable automatic device is established for manufacturing carbon fiber Dimension sensor has a very important significance.

Invention content

The present invention provides a kind of unidirectional automated manufacturing device of carbon fiber sensor sensing member, simple in structure, users Just, manufacture is reproducible, efficient, realizes the sensitive member of automatic batch production carbon fiber.

A kind of unidirectional automated manufacturing device of carbon fiber sensor sensing member, including：

Workbench；

Lifting and translation module, are installed on the table；

Platform is moved horizontally, is installed with moving horizontally on the table, top surface is equipped with the supporting plate for piddler；

Steel wire storage module；

Piddler module is mounted on the power output end of lifting and translation module, and steel wire storage mould is come from for being laid on supporting plate The filament of block；

Module is presoaked, is arranged on the filament path between steel wire storage module and piddler module pre- for being carried out to filament Processing；

Resin fills module, is fixedly connected with the piddler module, is used to form the resin layer for accommodating the sensitive member of carbon fiber, The translation side of the line gone out between fat mouth and the filament mouth of piddler module and lifting and translation module of the resin filling module To parallel.

The present invention fills module, driving filament movement, instead of artificial fat liquoring by the way that filament driving box and resin is arranged With piddler process, overcome because excessively introduce artificial uncontrollable factor cause manufactured by sensor poor repeatability and inefficiency ask Topic, it is easy to accomplish mass manufactures, and is fixedly connected with resin filling module with the piddler module in the present invention, institute State the translation direction of the line gone out between fat mouth and the filament mouth of piddler module and lifting and translation module of resin filling module It is parallel, to realize that piddler is identical with brush resin liquid direction, the manufacture of carbon fiber sensor sensing member can be rapidly completed, it is above-mentioned Setting overall structure is simple, when producing the check configuration of carbon fiber sensor sensing member, has production efficiency high, stability is good The advantages that.

Detachable supporting plate is equipped on moving horizontally platform, convenient for the follow-up place of the sensitive member of Intelligent carbon fiber layer manufactured Reason, such as dose electrode, further solidification.

For accurate, flexible, steadily output fiber silk, it is preferred that the piddler module includes：

Mounting base is fixedly connected with the power output end of lifting and translation module,

Filament driving box is fixed in the mounting base；

Piddler head, is mounted below the filament driving box, and the filament driving box is by the filament of steel wire storage module Traction is to piddler head and drives filament from the piddler head wire vent.Filament driving box is directly installed on power output in the present invention On end, the filament mouth apart from the piddler head is close, can stablize effective conveying fiber silk.

For flexible steadily conveying fiber silk, it is preferred that the filament driving box includes：

Babinet, side are equipped with into silk mouth, and bottom surface is equipped with filament mouth；

A pair of adjustment roller, installation outside the enclosure and with it is described positioned opposite into silk mouth, for guide filament enter described in Into silk mouth；Adjustment roller avoids leading to filament portion fractures because of sliding friction.

Guide wheel group will be guided from the filament into silk mouth in babinet and be sent to the filament mouth, including extremely The driving wheel of a few conveying fiber silk；The guide wheel group includes the first directive wheel of adjustment direction, and undertaking is led from first To filametntary a pair of second directive wheel of wheel, one of them second directive wheel is that driving wheel is connect with rotational power source.

Rotational power source drives driving wheel rotation.Driving motor may be used in rotational power source.

Resin liquid can squeeze out by various modes, such as gas (external air pump), screw (motor driving) etc., for simplification Structure, easy to use and even spread resin, it is preferred that the resin fills module and includes：

Resin liquid case, one side are fixedly connected with the one side of the babinet, and another side is equipped with air inlet, and bottom surface is set There is resin outlet；

Resin paving brush, connect with the resin outlet；

Vulcanite scraper is fixed in a side of resin paving brush.Resin paving brush and the alignment of piddler head.The resin paving brush and tree Fat liquid case is connected through a screw thread, and is conveniently replaceable different resins paving brush, such as different in width, different size goes out fat mouth etc., to adapt to not With the manufacture requirement of size carbon fiber sensing element.

Preferably, the piddler head includes：

Rotation seat is fixed on filament driving box bottom；

Connecting rod, one end is hinged with the rotation seat, and hinged place is equipped with locking nut；

Pressure roller is mounted on the other end of the connecting rod.

The connecting rod can rotate, to the vertical position with the horizontal position and work packed up.

For the ease of packing up piddler head, it is preferred that be connected with the driving connecting rod between the connecting rod and rotation seat to water What prosposition was set packs up spring.After unclamping locking nut, the link rotatable is to level under the action of packing up spring.

In order to which connecting rod will not loosen under filametntary pulling force effect and be stowed away spring and pack up during piddler, preferably , the link rotatable applies to the pulling force that spring is applied on the connecting rod is packed up described in when upright position with the filament Direction of pull on connecting rod is opposite.

In order to facilitate manufacturing and use, it is preferred that the lifting and translation module include：

Two root posts, compartment of terrain are fixed on the table, and an at least root post is equipped with elevating mechanism；

Crossbeam, both ends are mounted in two root posts, are moved up and down by elevating mechanism realization；

Translation mechanism is mounted on crossbeam, has the power output end.There are many elevating translational mechanism type, such as Ball screw.

The present invention is in use, carbon fiber wire initiating terminal can be fixed by various modes, such as gluing, clamps, as It is preferred that the carbon fiber wire is initially fixed by rubber grips, it is simple to operate.

It presoaks module to presoak filament, to further increase its tensile strength, it is preferred that the preimpregnation module includes：

Cylinder is presoaked, is fixed on the table, for containing prepreg solution, opposite sides was equipped with wire hole；

First strainer is separately fixed on the side for the preimpregnation cylinder for being equipped with wire hole；

Second strainer, setting limitation filament in preimpregnation cylinder pass through prepreg solution always.Strainer can be adopted Use tensioning wheel.

Beneficial effects of the present invention：

Apparatus of the present invention drive filament movement, instead of artificial fat liquoring and piddler process, overcome and are introduced manually not because excessive Controllable factor leads to manufactured sensor poor repeatability and inefficiency problem, it is easy to accomplish batch of carbon fiber sensor sensing member Quantization manufacture.

Description of the drawings

Fig. 1 is the dimensional structure diagram of the unidirectional automated manufacturing device of carbon fiber sensor sensing member of the present invention.

Fig. 2 is the dimensional structure diagram of driving box and resin liquid case in Fig. 1.

Fig. 3 is the dimensional structure diagram of resin liquid case in Fig. 2.

Fig. 4 is the dimensional structure diagram that case is presoaked in Fig. 1.

Fig. 5 is the enlarged structure schematic diagram of part A in Fig. 4.

Fig. 6 is the dimensional structure diagram of piddler head in Fig. 2.

Fig. 7 is the dimensional structure diagram of resin paving brush in Fig. 2.

Fig. 8 is the schematic cross-sectional view of the resin paving brush of Fig. 7.

Fig. 9 is the course of work schematic diagram of apparatus of the present invention.

Each reference numeral is in figure：

1, platform is moved horizontally, 2, driving motor, 3, guide rail slide block, 4, column, 5, driving box, 6, resin liquid case, 7, crossbeam, 8, resin liquid case lid, 9, column, 10, driving motor, 11, ball-screw, 12, workbench, 13, filament volume, 14, holder, 15, Presoak cylinder, 16, driving motor, 17, spreader, 18, supporting plate, 19, spreader, 20, driving motor, 21, filament, 22, preimpregnation cylinder cap Plate, 23, bearing, 24, boss, 25, resin liquid, 26, cross wire hole, 27, prepreg solution, 28, tensioning wheel, 29, rubber folder, 30, solidification Resin glue, 51, driving case lid, 52, piddler head, 53, guide wheel group, 54, adjustment roller, 61, resin paving brush, 151, idler wheel, 511, Observation panel, 521, pressing roller holder, 522, connecting rod, 523, rotation seat, 524, hook, 525, pressure roller, 526, pack up spring, 601, into Gas port, 602, resin outlet, 611, vulcanite scraper, 612, nut, 613, go out fat mouth.

Specific implementation mode

With reference to each attached drawing, the present invention is described in detail：

As shown in Figure 1, the unidirectional automated manufacturing device of carbon fiber sensor sensing member of the present embodiment, including：

Platform 1 is moved horizontally, is arranged on two spreaders 17,19 by ball-screw and guide rail slide block, driving motor 16 drives Dynamic ball-screw control mobile station 1 moves forward and backward, and spreader is arranged on table 12；

Filament driving box 5 is equipped with the driving motor 20 of 21 extruded velocity of control fiber silk；

Resin liquid case 6 is arranged on filament driving box 5, for holding resin liquid；

Cylinder 15 is presoaked, is fixed on table 12, for holding pre-soaked resin, filament 21 is presoaked；

Holder 14, setting rolls up 13 on table 12, for placing filament, as steel wire storage module.

Lifting and translation module, including column 4, column 9 and crossbeam 7, two root posts 4, column 9 are arranged in workbench 12 On, it is respectively equipped with ball-screw 11 and guide rail slide block 3 thereon；7 both ends of crossbeam are connect with sliding block and ball-screw nut respectively, Driving motor 10 controls under ball-screw, moves up and down along two root posts；Crossbeam 7 is equipped with ball-screw and driving motor 2, drives Dynamic motor 2 drives ball-screw and then drives filament driving box 5 along 7 side-to-side movement of crossbeam.

As shown in Fig. 2, 5 lower part of filament driving box is equipped with boss 24 and piddler head 52, filament driving box 5 includes case Body, driving case lid 51, driving motor 20, guide wheel group 53 and adjustment wheel 54, driving case lid 51 are equipped with observation panel 511 and use In the bore of installation bearing 23；By 511 observable filament 21 of observation panel under the action of guide wheel group 53 motion conditions；Tree 6 lower part of fat liquid case is equipped with resin paving brush 61；Guide wheel group 53 includes first directive wheel on the top being arranged in babinet and is located at The second directive wheel of a pair of lower section, filament 21 pass through from this between the second directive wheel, one of them second directive wheel is to drive Driving wheel is driven by driving motor 20.

As shown in figure 3,6 side of resin liquid case be equipped with air inlet 601, bottom be equipped with resin outlet 602, air inlet 601 with Extraneous air pump connection, resin outlet 602 are threadedly coupled with resin paving brush 61, and resin liquid 25 is under gas pressure by going out fat mouth It 613 and is paved under the effect of vulcanite scraper 611, arrow A indicates that airintake direction, arrow B indicate resin liquid outbound course in figure.

As shown in Figures 4 and 5, the both ends of preimpregnation cylinder 15 are equipped with the idler wheel 151 as strainer and cross wire hole 26, and inside is set There are tensioning wheel 28, limitation filament 21 that can pass through prepreg solution 27 always.

As shown in fig. 6, piddler head 52 includes pressure roller 525, pressing roller holder 521, connecting rod 522 and rotation seat 523；Pressing roller holder 521 and connecting rod 522 by bolted splice, and can be locked by bolt；Connecting rod 522 can be rotated to have around rotation seat 523 and be received The vertical position of the horizontal position and work risen, connecting rod 522 and rotation seat 523 are equipped with for installing the extension for packing up spring 526 Hook 524, for packing up connecting rod 522 and pressure roller 525, connecting rod 522 packs up spring 526 and is applied to connecting rod when turning to upright position Pulling force on 522 is opposite with the direction of pull that filament 21 is applied on connecting rod 522.

As shown in FIG. 7 and 8, resin paving brush 61 includes vulcanite scraper 611, nut 612 and goes out fat mouth 613, and vulcanite scraper 611 passes through Screw is fixed, and the resin outlet 602 on nut 612 and resin liquid case 6 connects.

The course of work of the present embodiment：

As shown in Figure 1,13 installation of filament volume will be purchased on the support 14, filament 21 is successively by 15 right side of preimpregnation cylinder Idler wheel 151, the mistake wire hole 26 on right side, tensioning wheel 28, the mistake wire hole 26 in left side, the idler wheel 151 in left side, filament driving box 5 Right side a pair of adjustment roller 54, guide wheel group 53, boss 24, piddler head 52, pressure roller 525 in babinet；By good pre- of configured in advance Immersion liquid 27, which is poured into preimpregnation cylinder 15, extremely to be covered tensioning wheel 28 and covers cover board 22；The good resin liquid 25 of configured in advance is poured into resin Liquid case 6 simultaneously covers case lid 8；Supporting plate 18 is fixed on and is moved horizontally on platform 1；The Intelligent carbon fiber layer structure prepared as needed, Each driving motor control program is set and completes entire set-up procedure.

It is fixed as shown in figure 9,21 one end of filament rubber is pressed from both sides 29, starting device, each driving motor is according to setting journey Sequence is automatically performed piddler fat liquoring process, and piddler head 52 works with fat mouth 613 is gone out along same straight line, and control process is simple, can prepare Go out the Intelligent carbon fiber layer sensing element under being precisely controlled.

After the completion of piddler, filament is manually cut；Driving motor 10 drives ball-screw 11 to drag the piddler mould on crossbeam 7 Block moves up certain distance；Driving motor 2 drives ball-screw dragging piddler module level direction to move to piddler initial position；Driving Motor 10 drives ball-screw 11 that the piddler module on crossbeam 7 is driven to be displaced downwardly to piddler head and is contacted with supporting plate；It is clamped with rubber Filament 21 carries out next round piddler process.In addition to filament is cut after the fixation of filament initial position and piddler, entirely Process by each driving motor co-ordination, is automatically performed the manufacture of each carbon fiber sensor sensing member completely.

The foregoing is merely the preferred embodiment of the present invention, not thereby limit the scope of patent protection of the present invention, all It is directly or indirectly to be used in other relevant technologies with equivalent structure transformation made by description of the invention and accompanying drawing content Field includes similarly within the scope of the present invention.

Claims (7)

1. a kind of unidirectional automated manufacturing device of carbon fiber sensor sensing member, which is characterized in that including：

Workbench；

Lifting and translation module, are installed on the table；

Platform is moved horizontally, is installed with moving horizontally on the table, top surface is equipped with the supporting plate for piddler；

Steel wire storage module；

Piddler module is mounted on the power output end of lifting and translation module, for being laid with from steel wire storage module on supporting plate Filament；

Module is presoaked, is arranged on the filament path between steel wire storage module and piddler module for being located in advance to filament Reason；

Resin fills module, is fixedly connected with the piddler module, is used to form the resin layer for accommodating the sensitive member of carbon fiber, described Resin fills the line of module gone out between fat mouth and the filament mouth of piddler module and the translation direction of lifting and translation module is put down Row；

The piddler module includes：

Mounting base is fixedly connected with the power output end of lifting and translation module,

Filament driving box is fixed in the mounting base；

Piddler head is mounted below the filament driving box, and the filament driving box draws the filament of steel wire storage module To piddler head and drive filament from the piddler head wire vent；

The filament driving box includes：

Babinet, side are equipped with into silk mouth, and bottom surface is equipped with filament mouth；

A pair of adjustment roller, installation outside the enclosure and with it is described positioned opposite into silk mouth, it is described into silk for guiding filament to enter Mouthful；

Guide wheel group will be guided from the filament into silk mouth in babinet and be sent to the filament mouth, including at least one The driving wheel of a conveying fiber silk；

Rotational power source drives driving wheel rotation.

2. the unidirectional automated manufacturing device of carbon fiber sensor sensing member as described in claim 1, which is characterized in that the tree Fat fills module：

Resin liquid case, one side are fixedly connected with the one side of the babinet, and another side is equipped with air inlet, and bottom surface is equipped with tree Fat exports；

Resin paving brush, connect with the resin outlet；

Vulcanite scraper is fixed in a side of resin paving brush.

3. the unidirectional automated manufacturing device of carbon fiber sensor sensing member as described in claim 1, which is characterized in that the paving Silk head include：

Rotation seat is fixed on filament driving box bottom；

Connecting rod, one end is hinged with the rotation seat, and hinged place is equipped with locking nut；

Pressure roller is mounted on the other end of the connecting rod.

4. the unidirectional automated manufacturing device of carbon fiber sensor sensing member as claimed in claim 3, which is characterized in that the company It is connected with the driving connecting rod between bar and rotation seat and packs up spring to horizontal position.

5. the unidirectional automated manufacturing device of carbon fiber sensor sensing member as claimed in claim 4, which is characterized in that the company The pulling force that spring is applied on the connecting rod is packed up described in when bar turns to upright position to be applied on connecting rod with the filament Direction of pull it is opposite.

6. the unidirectional automated manufacturing device of carbon fiber sensor sensing member as described in claim 1, which is characterized in that the liter Drop and translation module include：

Two root posts, compartment of terrain are fixed on the table, and an at least root post is equipped with elevating mechanism；

Crossbeam, both ends are mounted on two root posts and are moved up and down by elevating mechanism realization；

Translation mechanism is mounted on crossbeam, has the power output end.

7. the unidirectional automated manufacturing device of carbon fiber sensor sensing member as described in claim 1, which is characterized in that described pre- Soaking module includes：

Cylinder is presoaked, is fixed on the table, for containing prepreg solution, opposite sides was equipped with wire hole；

First strainer is separately fixed on the side for the preimpregnation cylinder for being equipped with wire hole；

Second strainer, setting limitation filament in preimpregnation cylinder pass through prepreg solution always.