CN108527830A - A kind of basement membrane automation roughening device and method based on micropin - Google Patents

Abstract

The invention discloses a kind of, and the basement membrane based on micropin automates roughening device, including driving portion, micropin portion, loading bench, basement membrane fixed platform；Driving unit drive micropin portion can horizontal reciprocating movement, when basement membrane roughening, basement membrane is clipped between micropin roller body and turntable.And the method using the device realizes the speed control during basement membrane roughening using micropin roller body as membrane surface roughening tool in conjunction with driving portion, flexibly change load pressure, turntable and buffer table ensure the uniformity of membrane surface roughness, and apparatus structure is simple, easy for installation；Easy to operate, inexpensive, free from admixture, and repeatability is high, controllability is good, efficiency is higher, for ensureing that IPMC material preparation batch consistency has positive effect.

Description

A kind of basement membrane automation roughening device and method based on micropin

Technical field

The present invention relates to a kind of basement membrane roughening device and method more particularly to a kind of basement membrane automations based on micropin Roughening device and method.

Background technology

IPMC, full name in English are：Ion-exchange polymer metal composite (ion-exchange polymer metals Material), it is a kind of artificial thews material, is a kind of novel flexible intellectual material risen in 20th century, in low-voltage (1-10V) Under effect, larger flexural deformation is will produce, belongs to typical ionic electroactive polymer.Its light weight, flexibility are good, become Shape is big, response is fast, anticipates in research fields such as biomedicine, optical device, flexible bionic machinery, MEMS, space flight and aviation Justice is great.

IPMC is made of polymer-based film and upper layer and lower layer electrode, and traditional IPMC preparation process flows include mainly four A step：Membrane surface roughening processing, immersion-reduction plating, chemical plating, material post-processing.Wherein the first step is in whole flow process It plays a key effect：Increase the roughness of membrane surface to increase the adhesive force of surface electrode and basement membrane, prevents surface electrode It falls off and fault-layer-phenomenon；Be conducive to the discharge of hydrogen in preparation process, alleviate face crack caused by swelling；Increase and penetrates into electrode Depth is effectively improved Interfacial electrode pattern, improves material property.

About IPMC membrane surface roughening techniques, document mainly reported six kinds at present：Sand paper polishing, chemical attack, mill Expect that polishing, sandblasting polishing, plasma etching, mold etch hot-pressing processing.

Although sand paper polishing be a kind of simplest basement membrane roughening mode used earliest, due to human factor influence compared with Greatly, discontinuity causes membrane surface deep mixed cut occur, cause to prepare influence of the batch to material property compared with Greatly.Few document is proposed through chemical reagent (such as：Naphthalene-receives treatment fluid etc.) roughening processing is carried out to basement membrane method, wherein Bar-Cohen etc. is attempted, the results showed that the technological reaction complicated mechanism, destructible basement membrane cause material property to reduce. The Common advantages of sand paper polishing and chemical attack are at low cost.Chen Hualing of Xi'an Communications University et al. has applied for abrasive material polishing The related patents (CN103465147A) of technique, Yang Xu etc. devise mechanical abrasive material roughening device, but only lean on abrasive material and basement membrane Friction, the tiling uniformity between the roughening depth and basement membrane and friction head of basement membrane all cannot be guaranteed.Sandblasting polishing, etc. from Daughter etching, mold etching hot-pressing processing introduce heavy mechanical equipment simultaneously, improve roughening efficiency and uniformity.Wang, gold Rather, Chang et al. has done relevant research to parameters such as blast time and blasting pressures, but on the whole at present for sandblasting Technological parameter is also a lack of comprehensive understanding, the unified term of reference of neither one, and the instantaneous pressure in sandblasting bruting process Power easily makes sand grains inject in basement membrane and is difficult to clean off, and can be produced bigger effect to material property.Kim, Choi, Saher etc. couple The plasma etching technology of Nano grade has made intensive studies, and the repeatability of the technology is high, but to equipment and environmental requirement And cost is higher, etching mechanism is complicated, processing area is limited, is unfavorable for industrialized production.Noh, what pine etc. pass through etching Mold is (such as：Al foils etc.) method that is combined with heat pressing process forms the more of the miniature nanometer channel of strip in polymer matrix film surface Grade texture structure increases the interfacial area of surface electrode thickness and electrode to achieve the purpose that basement membrane roughening, but research shows that should Technique is very high to mould and die accuracy requirement, complicated for operation, need to be equipped with corresponding press device, and cost is higher, the material electricity prepared It is easy to fall off.

IPMC materials basement membrane roughening technique not yet forms unified standard at present so that and the stability of prior art is poor, because The basement membrane roughening device that this proposition is inexpensive, automates, improvement and specification roughening technique, it is controllable during promotion basement membrane roughening Property, consistency, stability, there is positive effect with application to the preparations of IPMC materials production！

Invention content

Technical problem to be solved by the present invention lies in providing, a kind of above-mentioned background technology of solution is of high cost, complicated for operation Basement membrane based on micropin automate roughening device and method.

The present invention is to solve above-mentioned technical problem by the following technical programs：A kind of basement membrane based on micropin of the present invention is certainly Dynamicization roughening device, including driving portion, micropin portion, loading bench, basement membrane fixed platform；

The driving portion includes driving unit and the sliding block for capableing of horizontal reciprocating movement, and driving unit is drivingly connected sliding block, Micropin portion is connected with sliding block and can be placed in horizontal reciprocating movement above basement membrane fixed platform, and loading bench can be connected releasably Above micropin portion, driving portion is placed in parallel with basement membrane fixed platform；The micropin portion include can rollably micropin roller body, it is sliding Block is drivingly connected micropin roller body；

The basement membrane fixed platform includes buffer table and turntable, and turntable is nested in buffer table, and the platform of turntable The table top of face and buffer table is in same level, and when basement membrane roughening, basement membrane is clipped between micropin roller body and turntable.

Preferably, driving portion further includes pedestal, and the pedestal includes the first pedestal, the second pedestal, the first pedestal and second Pedestal is parallel staggered relatively, and the first pedestal is disposed vertically with the second pedestal, the driving unit be motor, ball-screw, Motor is drivingly connected ball-screw, and ball-screw can be pivotally connected between the first pedestal and the second pedestal, motor setting In the other side of pedestal.

Preferably, driving portion further includes speed display device, is mounted on the other side of pedestal, or by wireless external.

Preferably, driving portion further includes connector, and the connector is perpendicular type element, including level board and vertical panel, One end of vertical panel and the top surface of sliding block are detachably connected, and the other end is fixedly connected with one end of level board, level board it is another End connection micropin portion, and it is equipped with connecting hole.

Preferably, micropin portion further includes holder, straight pin, cylindrical bar, and the holder is concave structure, and micropin roller body is set In in concave structure, micropin roller body is fixed on by straight pin on holder, and one end of the cylindrical bar is fixed on cradle top surface Middle part, the other end are equipped with external screw thread or are machined with bolted through-hole, and cylindrical bar is connect after passing through connecting hole with loading bench, even The diameter for connecing hole is more than cylindrical bar.

Preferably, the loading bench includes the loading end for holding load, and loading bench bottom surface is equipped with protrusion, is set in protrusion There is internal thread or is machined with bolted through-hole.

Preferably, the platform structure of circular through hole is equipped with centered on the buffer table, the table top of the turntable is circle Shape, turntable is placed in the underface of circular through hole, and is more than micropin roller body stroke length in buffer table land length size.

Preferably, the gap between the buffer table and turntable is 0.05-0.5mm.

Preferably, the turntable is intermittent electric rotary table.

A kind of roughening approach of the basement membrane automation roughening device based on micropin of the present invention, the method specific steps are such as Under：

(1) IPMC material basement membranes are cut, there are surplus 3-5mm on four sides, and thin adhesive tape is fitted closely at surplus, by basement membrane sample Piece is fixed on the level table of turntable；

(2) fixed load on loading bench；

(3) set the rolling speed of micropin roller body as 20-80mm/s, the single rotation angle of turntable be 2 ° -12 ° and The single intermittent time is that the single of micropin roller body rolls the ratio between effective travel and rolling speed in the same direction；

(4) while starting motor, turntable, ball-screw drives micropin roller body to roll, when micropin roller body is in single After being moved to buffer table table top in intermittent time, micropin roller body has been completed the roughening process of first time, and has moved It moves to buffer table plane, turntable is quickly rotated according to preset rotation parameter this moment, second of roughening is waited for, with this Mode recycles, and micropin roller body at the uniform velocity reciprocating rolling realizes the single side roughening of basement membrane；

(5) motor and turntable are closed, basement membrane is removed, by the face-up of another non-roughening, step (4) repeated and is somebody's turn to do The roughening of basement membrane another side is handled.

The present invention has the following advantages compared with prior art：

(1) using micropin roller body as membrane surface roughening tool, the speed during basement membrane roughening is realized in conjunction with driving portion Degree can obtain equal control, and loading bench flexibly changing is combined to load to control basement membrane roughening pressure, turntable and buffering Platform ensures the uniformity of membrane surface roughness, and apparatus structure is simple, easy for installation；

(2) turntable uses intermittent electric rotary table, is easy to control, enables to roughening each time all uniform, nothing Blind area；

(3) easy to operate, inexpensive, free from admixture, and repeatability is high, controllability is good, efficiency is higher, for ensureing IPMC Material preparation batch consistency has positive effect；

(4) present invention is mainly applied to IPMV materials, it may also be used for be applied to the roughening of other flexible substrate films, such as Kynoar (Poly (vinylidene fluoride), PVDF) film, dimethyl silicone polymer (Polydimethylsiloxane, PDMS) film etc..

Description of the drawings

Fig. 1 is a kind of structural schematic diagram of the basement membrane automation roughening device based on micropin of the embodiment of the present invention；

Fig. 2 is a kind of vertical view of the basement membrane automation roughening device based on micropin of the embodiment of the present invention；

Fig. 3 is the exploded perspective view of micropin portion and loading bench；

Fig. 4 is vertical view when basement membrane is fixed；

Fig. 5 is work flow diagram.

Figure label:Driving portion 1, the first pedestal 11, the second pedestal 12, motor 13, ball-screw 14, sliding block 15, speed It is display device 16, connector 17, micropin portion 2, micropin roller body 21, holder 22, straight pin 23, cylindrical bar 24, loading bench 3, convex Play 31, basement membrane fixed platform 4, buffer table 41, turntable 42, basement membrane 5, thin adhesive tape 51.

Specific implementation mode

It elaborates below to the embodiment of the present invention, the present embodiment is carried out lower based on the technical solution of the present invention Implement, gives detailed embodiment and specific operating process, but protection scope of the present invention is not limited to following implementation Example.

As shown in Figs. 1-2, a kind of basement membrane automation roughening device based on micropin of the present embodiment includes driving portion 1, micropin Portion 2, loading bench 3, basement membrane fixed platform 4；

The driving portion 1 includes driving unit and the sliding block 15 for capableing of horizontal reciprocating movement, and driving unit, which is drivingly connected, to be slided Block 15, sliding block 15 are fixedly connected with micropin portion 2, and what horizontal reciprocating movement was capable of in micropin portion 2 is placed in 4 top of basement membrane fixed platform, adds 2 top of connection micropin portion that microscope carrier 3 can be dismantled, driving portion 1 are placed in parallel with basement membrane fixed platform 4；The micropin portion 2 includes Rollably micropin roller body 21, sliding block 15 it can be drivingly connected micropin roller body 21；Realize that driving portion 1 drives micropin idler wheel with this 21 horizontal direction of body rolls.

The basement membrane fixed platform 4 includes buffer table 41 and turntable 42, and turntable 42 is nested in buffer table 41, and is revolved The table top of turntable 42 is in same level with the table top of buffer table 41, and when 5 roughening of basement membrane, basement membrane 5 is clipped in micropin roller body Between 21 and turntable 42.

Driving portion 1 further includes the first pedestal 11, the second pedestal 12, and the first pedestal 11 is parallel with the second pedestal 12 to be set relatively It sets, and the first pedestal 11 is disposed vertically with the second pedestal 12, the driving unit is motor 13, ball-screw 14, motor 13 It is drivingly connected ball-screw 14, some also attached control units of motor 13, to control 13 rotary speed of motor and positive and negative rotation, ball Leading screw 14 can be pivotally connected between the first pedestal 11 and the second pedestal 12, and ball-screw 14 passes through sliding block 15, sliding block 15 Equipped with screw thread, drive the rotation of ball-screw 14 to realize the horizontal reciprocating of sliding block 15, motor 13 by the positive and negative rotation of motor It is arranged on pedestal, in the present embodiment, motor 13 is mounted on the other side of the second pedestal 12, specifically, motor 13 selects stepping Motor.In the present embodiment, the effective travel of ball-screw 14 is 100mm, speed 20-80mm/s.Certainly, in the present embodiment Driving portion 1 can commonly be realized and be moved along a straight line back and forth horizontally using the composite structure of sliding block 15 and ball-screw 14 Mechanism can also have gear mechanism, cam mechanism etc., but in the present embodiment, and ball screw 14 enables to speed to be more uniformly distributed.

As advanced optimizing for the present embodiment, driving portion 1 further includes speed display device 16, is mounted on pedestal, or Person can external mobile display panel, be external in motor 13 or wired connection using wireless, in the present embodiment, be mounted on the first base The other side of seat 11, to monitor the speed of motor 13 in real time.Driving portion 1 further includes connector 17, and the connector 17 is vertical Straight element, including level board 171 and vertical panel 172, one end and the top surface of sliding block 15 of vertical panel 172 are detachably connected, specifically , the bottom of vertical panel 172 is equipped with the plane for connection, and bolt or screw can be used in plane and the top surface of sliding block connects, separately One end is fixedly connected with one end of level board 171, the other end connection micropin portion 2 of level board 171.As shown in the figure, level board 171 right end is equipped with φ 10mm circle connecting holes, and connecting hole inner wall roughness is Ra1.6, and the cylindrical bar 24 for micropin portion 2 is worn It crosses, the diameter of cylindrical bar 24 is less than the diameter of connecting hole, and difference is positively retained at 0.1-0.5mm, specifically, wherein vertical panel 172 Size be 60mm × 20mm × 10mm, the size of level board 171 is 140mm × 20mm × 10mm.

As shown in figure 3, the groundwork part in micropin portion 2 is micropin roller body 21, except this further includes holder 22, straight pin 23, cylindrical bar 24, the holder 22 are concave structure, and micropin roller body 21 is placed in concave structure, and micropin roller body 21 passes through Straight pin 23 is fixed on holder 22, and can realize rotation, and one end of the cylindrical bar 24 is fixed in the middle part of 22 top surface of holder, The other end is equipped with external screw thread or is machined with bolted through-hole.

21 needle body of micropin roller body is uniformly distributed, and surface density is 100-200 roots/cm², needle body shape is centrum, and centrum is horizontal The maximum gauge or length in section are 0.03-0.3mm, and needle overall length is 0.2-1mm.In the present embodiment, the size of micropin roller body For φ 20mm × 45mm, surface density is 100/cm², needle body shape selects cone, and the maximum gauge of centrum cross section is 0.03mm, needle overall length are 0.2mm；A diameter of φ 8.8mm of cylindrical bar 24, long 80mm, surface roughness Ra1.6, top External screw thread of the portion equipped with 10mm long is machined with bolted through-hole.After cylindrical bar 24 passes through at the circular through hole of level board 171 It is connect with loading bench 3.

The loading bench 3 includes the loading end for holding load, and in the present embodiment, the loading bench 3 is box-like structure, 3 bottom surface of loading bench is equipped with protrusion 31, is equipped with internal thread in protrusion 31 or is machined with bolted through-hole.The outer spiral shell of cylindrical bar 24 Line and the internal thread realization of protrusion 31 are detachably connected.Certainly, loading bench 3 can also be other structures, as long as can place negative Load.Loading bench 3 realizes counterpressure control, line pressure ranging from 5-50g/mm by fixed different loads.

As shown in Figure 1, in conjunction with Fig. 4, in the present embodiment, the desk knot of circular through hole is equipped with centered on the buffer table 41 Structure, the length dimension (direction for being parallel to ball screw 14) of 41 table top of buffer table are more than the stroke length of micropin roller body 21, 41 outer profile size of buffer table needs to meet, and during the work time, straight pin 23 is in buffer table 41 to micropin roller body 21 always The surface in face.In the present embodiment, in 21 rotating direction of micropin roller body and between two tangent parallel lines of circular through hole In the range of, the distance in every bit to the circular through hole center of circle on 41 side of buffer table is all higher than circular through hole radius and micropin idler wheel The sum of 21 radius of body, it is therefore intended that when ensureing that micropin roller body 21 is rolled on buffer table 41, center of gravity be in buffer table 41 just on Side, is not to fall.The table top of the turntable 42 is circle, and intermittent electric rotary table is placed in immediately below circular through hole.Institute It is intermittent electric rotary table to state turntable 42, and the circle of the table top of turntable 42 being dimensioned slightly smaller than at 41 center of buffer table is logical Hole, so that turntable 42 is socketed in buffer table 41, the gap between buffer table 41 and turntable 42 is positively retained at 0.05-0.5mm. Buffer table 41 can also be that other top surfaces are the structure of plane, and such as platform is also not necessarily limited to the exterior contour of buffer table 41, can be length Rectangular, round, triangle table structure etc..

In the present embodiment, the mesa dimensions of buffer table 41 are 160mm × 80mm × 10mm, and the interior diameter of circular through hole is The overall diameter of 60.2mm, 42 face of turntable are 60mm.

A kind of IPMC material basement membranes automation roughening device using described based on micropin is also provided in the embodiment of the present invention Roughening approach, which is characterized in that the method is as follows：

(1) IPMC materials basement membrane 5 is cut, size is 35mm × 35mm, and four sides are closely pasted there are surplus 5mm at surplus Thin adhesive tape 51 is closed, 5 print of basement membrane is fixed on the level table of intermittent electric rotary table；

(2) 300g loads are fixed on loading bench 3 to control roughening pressure；

(3) the roughening speed of driving portion 1 is set as 50mm/s, and the intermittent time of intermittent electric rotary table is 2s, rotation Angle is 5 °；

(4) while starting motor 13 and intermittent electric rotary table, ball-screw 14 drives micropin roller body 21 to roll, when After micropin roller body 21 rolls 2s, micropin roller body 21 has been completed the roughening process of first time, and has moved to slow It rushing in the plane of platform 41, turntable 42 is according to quickly 5 ° of the rotation of preset rotation parameter this moment, and waits for second of roughening, It recycles by this method, during whole service, micropin roller body 21 remains a constant speed in effective travel always reciprocating rolling shape State controls basement membrane roughening uniformity with this loop cycle, and single side roughening time control is 5min；

(5) motor 13 and intermittent electric rotary table are closed, basement membrane 5 is removed, the face-up of another non-roughening repeats Step (4) carries out the roughening processing of 5 another side of basement membrane.

The present invention have replicability, can be applied not only to IPMC materials, it may also be used for other flexible substrate films it is rough Change, such as Kynoar (Poly (vinylidene fluoride), PVDF) film, dimethyl silicone polymer (Polydimethylsiloxane, PDMS) film etc..

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention All any modification, equivalent and improvement etc., should all be included in the protection scope of the present invention made by within refreshing and principle.

Claims (10)

1. a kind of basement membrane based on micropin automates roughening device, which is characterized in that including driving portion, micropin portion, loading bench, base Film fixed platform；

The driving portion includes driving unit and the sliding block for capableing of horizontal reciprocating movement, and driving unit is drivingly connected sliding block, micropin Portion is connected with sliding block and can be placed in horizontal reciprocating movement above basement membrane fixed platform, and loading bench can releasably connect micropin Above portion, driving portion is placed in parallel with basement membrane fixed platform；The micropin portion includes rollably micropin roller body, sliding block driving Dynamic connection micropin roller body；

The basement membrane fixed platform includes buffer table and turntable, and turntable is nested in buffer table, and the table top of turntable with The table top of buffer table is in same level, and when basement membrane roughening, basement membrane is clipped between micropin roller body and turntable.

2. a kind of basement membrane based on micropin according to claim 1 automates roughening device, which is characterized in that driving portion is also Including pedestal, the pedestal includes the first pedestal, the second pedestal, and the first pedestal is parallel with the second pedestal staggered relatively, and first Pedestal is disposed vertically with the second pedestal, and the driving unit is motor, ball-screw, and motor is drivingly connected ball-screw, rolling Ballscrew can be pivotally connected between the first pedestal and the second pedestal, and motor is arranged in the other side of pedestal.

3. a kind of basement membrane based on micropin according to claim 2 automates roughening device, which is characterized in that driving portion is also Including speed display device, it is mounted on the other side of pedestal, or by wireless external.

4. a kind of basement membrane based on micropin according to claim 1 automates roughening device, which is characterized in that driving portion is also Including connector, the connector is perpendicular type element, including level board and vertical panel, one end of vertical panel and the top surface of sliding block It is detachably connected, the other end is fixedly connected with one end of level board, the other end connection micropin portion of level board, and equipped with connection Hole.

5. a kind of basement membrane based on micropin according to claim 4 automates roughening device, which is characterized in that micropin portion is also Including holder, straight pin, cylindrical bar, the holder is concave structure, and micropin roller body is placed in concave structure, micropin roller body Be fixed on holder by straight pin, one end of the cylindrical bar is fixed in the middle part of cradle top surface, the other end be equipped with external screw thread or It is machined with bolted through-hole, cylindrical bar is connect after passing through connecting hole with loading bench, and the diameter of connecting hole is more than cylindrical bar.

6. a kind of basement membrane based on micropin according to claim 1 automates roughening device, which is characterized in that the load Platform includes the loading end for holding load, and loading bench bottom surface is equipped with protrusion, is equipped with internal thread in protrusion or is machined with bolt company The through-hole connect.

7. a kind of basement membrane based on micropin according to claim 1 automates roughening device, which is characterized in that the buffering The platform structure of circular through hole is equipped with centered on platform, the table top of the turntable is circle, and turntable is placed in circular through hole Underface, and it is more than micropin roller body stroke length in buffer table land length size.

8. a kind of basement membrane based on micropin according to claim 7 automates roughening device, which is characterized in that the buffering Gap between platform and turntable is 0.05-0.5mm.

9. a kind of basement membrane based on micropin according to claim 7 automates roughening device, which is characterized in that the rotation Platform is intermittent electric rotary table.

10. a kind of roughening approach automating roughening device using any IPMC material basement membranes based on micropin of above-mentioned 2-9, It is characterized in that, the method is as follows：

(1) IPMC material basement membranes are cut, there are surplus 3-5mm on four sides, and thin adhesive tape is fitted closely at surplus, and basement membrane print is consolidated Due on the level table of turntable；

(2) fixed load on loading bench；

(3) rolling speed of micropin roller body is set as 20-80mm/s, and the single rotation angle of turntable is 2 ° -12 ° and single Intermittent time is that the single of micropin roller body rolls the ratio between effective travel and rolling speed in the same direction；

(4) while starting motor, turntable, ball-screw drives micropin roller body to roll, when micropin roller body is in single interval After being moved to buffer table table top in time, micropin roller body has been completed the roughening process of first time, and has moved to In buffer table plane, turntable is quickly rotated according to preset rotation parameter this moment, waits for second of roughening, by this method Cycle, micropin roller body at the uniform velocity reciprocating rolling realize the single side roughening of basement membrane；

(5) motor and turntable are closed, basement membrane is removed, by the face-up of another non-roughening, step (4) repeated and carries out the basement membrane The roughening of another side is handled.