CN1632977A - Method for making lamination integrated direct methanol fuel battery and direct methanol fuel battery - Google Patents

Abstract

This invention relates to lamination integration direct carbinol battery process method and the battery, which comprises the following steps: to process shape flow channel groove or liquid groove layer; to process mass transfer electrolyte layer; to process control circuit layer; to combine the above layers into the integration direct carbinol fuel battery. The battery comprises one flow channel or liquid groove layer, one mass transfer electrolyte layer and one control circuit layer.

Description

The manufacture method of lamination integration type direct methanol fuel cell and direct methanol fuel cell

Technical field

The invention relates to a kind of manufacture method of direct methanol fuel cell, it is particularly about a kind of process technique of utilizing printed circuit board (PCB), make the manufacture method of lamination integration type direct methanol fuel cell, and implement the made direct methanol fuel cell of the inventive method.

Background technology

No. the 90129665th, Taiwan application for a patent for invention case " direct methanol fuel cell system and the method for making that comprise an integration methanol sensor ", though teaching direct methanol fuel cell system and method for making, yet still have the old disappearance of following indication: (a), fuel cell itself do not comprise dynamo-electric design, fail one-body molded design.(b), the design of microfluid pipeline, the volume production difficulty takes place in the phenomenon that can cause processing to be difficult for.(c), really methanol aqueous solution before reaction with reacted concentration, no correction mechanism.(d), the design of cathodic reaction zone is bad, can be because temperature inside and pressure react and can't allow outside ozone or oxygen enter cathodic reaction zone.

No. the 88210246th, Taiwan application for a patent for invention case " flat fuel cell and cell substrates structure thereof ", though teaching is about the structure technology of flat fuel cell, yet still have the old disappearance of following indication: (a), fuel cell itself do not comprise dynamo-electric design, fail one-body molded design.(b) in case fuel reacts, must after fuel consumption is intact, just can stop reaction, uncontrollable.(c), the design of cathodic reaction zone is bad, can be because temperature inside and pressure react and can't allow outside ozone or oxygen enter cathodic reaction zone.(d), the water that is generated after the reaction is not processed.

U.S. Pat P5,631,099 " fuel cell of surperficial reduction print (SurfaceReplica Fuel Cell) ", though teaching about the correlation technique of fuel cell, yet still have the old disappearance of following indication: (a), institute's structure of signing an undertaking is complicated and be difficult for making.(b), reaction product is got rid of and is difficult for, for example promptly difficult eliminating of water reaction product.(c), the supply of needed air or oxygen is difficult for.

The inventor urgently thinks the invention improvement in view of the disappearance of above-mentioned known technology, be to invent out a kind of process technique of utilizing printed circuit board (PCB), realizes the making of lamination integration type direct methanol fuel cell.

Summary of the invention

Main purpose of the present invention provides a kind of manufacture method of lamination integration type direct methanol fuel cell, and it utilizes the process technique of printed circuit board (PCB), and the lamination integration type direct methanol fuel cell is made.

Another object of the present invention provides a kind of lamination integration type direct methanol fuel cell that meets characteristic such as light, thin, short, little.

For reaching above-mentioned purpose of the present invention, the invention provides a kind of manufacture method of lamination integration type direct methanol fuel cell, comprise the following steps: to use the material material of printed circuit board (PCB), make molding flow path groove/solution tank layer; Make matter and pass dielectric substrate; Utilize the processing procedure of printed circuit board (PCB), make the control circuit layer; Flow path groove/solution tank layer, matter that made is respectively come out pass each layers such as dielectric substrate and control circuit layer, are bonded into the lamination integration type direct methanol fuel cell.

Moreover, for reaching above-mentioned purpose of the present invention, the invention provides a kind of lamination integration type direct methanol fuel cell, comprising: flow path groove/solution tank layer is to use the material material of printed circuit board (PCB) and makes moulding; Matter passes dielectric substrate; The control circuit layer is to utilize the processing procedure of printed circuit board (PCB) and produce; Wherein each layers such as other flow path groove/solution tank layer, matter biography dielectric substrate and control circuit layer are to make respectively, each layer are bonded into the lamination integration type direct methanol fuel cell again.

Moreover, for reaching above-mentioned purpose of the present invention, the invention provides a kind of lamination integration type direct methanol fuel cell, comprising: flow path groove/solution tank series of strata are used the material material of printed circuit board (PCB) and are made moulding, and engage with matter biography dielectric substrate; Matter passes electrolyte series of strata interlayer between flow path groove/solution tank layer and control circuit layer; These control circuit series of strata are utilized the processing procedure of printed circuit board (PCB) and are produced, and engage with matter biography dielectric substrate.

Description of drawings

Fig. 1 shows the flow chart of the manufacture method of lamination integration type direct methanol fuel cell of the present invention.

Fig. 2 shows the structure chart of the flow path groove/solution tank layer that utilizes the inventive method made.

Fig. 3 shows that the matter of utilizing the inventive method made passes the structure chart of dielectric substrate.

Fig. 4 shows the structure chart of the control circuit layer that utilizes the inventive method made.

Fig. 5 shows the structure chart of the lamination integration type direct methanol fuel cell of utilizing the inventive method made.

Among the figure

10 manufacture methods

20 lamination integration type direct methanol fuel cell

101,103,105,107 steps

201 flow path grooves/solution tank layer

The 201a flow path groove

The 201b solution tank

203 matter pass dielectric substrate

The 203a cell of fuel cell

205 control circuit layers

205a current collection circuit

The 205b electronic building brick

205c hollow out zone

For making purpose, feature and the effect of being familiar with this technology personage and understanding the present invention, now by following specific embodiment, and cooperate appended accompanying drawing, to the present invention illustrate in detail as after

Embodiment

Manufacture method 10 of the present invention is that to be used for making lamination integration type direct methanol fuel cell 20 relevant, implement manufacture method 10 of the present invention, greatly partly only to utilize the material material of printed circuit board (PCB) (PCB), it for example is polymethyl methacrylate fibre base plate (FR4), need use the material of higher cost compared to the production method of known fuel cell, the present invention obviously possesses the advantage of making handling ease, economic cost of manufacture, also meets product trend now.

The inventive method 10 is the characteristics that need not change former direct methanol fuel cell fully, and makes the lamination integration type direct methanol fuel cell 20 that meets characteristic such as light, thin, short, little at an easy rate.This is for portable small-sized electricity consumption product, the for example power supply of mobile phone, personal digital aid (PDA) (PDA), smart phone (SMART Phone), e-book (E-Book), flat computer (Tablet PC) and mobile computer (Note Book PC) or the like, the present invention can give it convenient greatly.

Fig. 1 shows the flow chart of the manufacture method of lamination integration type direct methanol fuel cell of the present invention, hereinafter each step of being comprised of illustration method 10 respectively.Step (101) is to use the material material of printed circuit board (PCB), makes molding flow path groove/solution tank layer 201.Please cooperate the structure chart that shows the flow path groove/solution tank layer 201 that utilizes the inventive method made referring to Fig. 2, the material material of employed printed circuit board (PCB) can be polymethyl methacrylate fibre base plate (FR4) in step (101), the means of specific implementation step of the present invention (101), be to utilize hot press, laser make-up machine, CNC make-up machine or the like machinery equipment, polymethyl methacrylate fibre base plate (FR4) is molded the groove that the degree of depth is a desired depth, with as flow path groove 201a, and the desired depth of flow path groove 201a can be between 1 ~ 10mm.And then with hot press, laser make-up machine, CNC make-up machine or the like machinery equipment, mold solution tank 201b, utilize at last and stick together medium for sticking together flow path groove 201a and solution tank 201b, after superimposed, deliver to and carry out pressing in the hot press, the operating environment of pressing can be with hot press be set in temperature between between 130 ℃ ~ 200 ℃ and pressure under between 5 ~ 50kg/cm2, carry out pressing.The medium that sticks together that medium can use epoxy resin combined fiberglass (prepreg) that sticks together in step (101).

Step (103) is to make matter to pass dielectric substrate 203.Please cooperate referring to Fig. 3 and show that the matter of utilizing the inventive method made passes the structure chart of dielectric substrate 203, the means of specific implementation step of the present invention (103), be on proton exchange membrane and the macromolecular material behind platinum (Pt)/ruthenium (Ru) respectively at the platinum (Pt) of the predetermined concentration of coating on (coating) and predetermined concentration, utilize the gummed means that proton exchange membrane, macromolecule catalyst layer and carbon paper/carbon cloth is formed matter and pass dielectric substrate 203.The material of proton exchange membrane can be selected the Nafion of Du Pont (DoPontNafion) material for use, and the means system that is coated with (coating) can adopt the mode of high molecular polymer printing (Polyimide Printing) and carries out.For example adopt metal vacuum evaporation mode, go out the platinum (Pt) of predetermined concentration between 1 ~ 5mg/cm2, and evaporation goes out platinum (the Pt)/ruthenium (Ru) of predetermined concentration between 1 ~ 10mg/cm2 with evaporation.For example adopt the metal vacuum sputter again), perhaps means such as metal electroless plating are finished the coating operation of platinum (Pt) Yu platinum (the Pt)/ruthenium (Ru) of above-mentioned predetermined concentration.Again to adopt the means of screen printing, not imperial (Teflon), solvent compounding substances such as (Solvent) of carbon dust, iron in the printing, perhaps adopt the pressing plate printing means, not imperial (Teflon), solvent compounding substances such as (Solvent) of carbon dust, iron in the printing is even if this finishes the making that matter passes dielectric substrate 203.Via the method for producing of step (103), matter passes dielectric substrate 203 can include a plurality of cell of fuel cell 203a.

Step (105) is the processing procedure that utilizes printed circuit board (PCB), makes control circuit layer 205.Please cooperate the structure chart that shows the control circuit layer 205 that utilizes the inventive method made referring to Fig. 4, the means of specific implementation step of the present invention (105), be after adopting in the traditional PCB processing procedure boring, on the electric plating of whole board after the chemical copper of for example about 10 ~ 50u inch (inch), the copper of 200 ~ 500u inch (inch) for example in the re-plating, again with the press mold operation, exposure operation, after the development operation, in the re-plating for example behind the gold of 3 ~ 10u inch (inch), according to the circuit of putting that control circuit layer 205 is afraid of, the circuit of forming by a plurality of SMT electronic building brick 205b for example, wiring route, current collection circuit or the like circuit, design etched goes out circuit and the green lacquer of solder-mask printing, carry out circuit test at last, even if this control circuit layer of finishing 205 is made.Through the control circuit layer 205 that step (105) made comes out, can be double-sided printed-circuit board, or multilayer board.Simultaneously control circuit layer 205 passes on the dielectric substrate 203 a plurality of cell of fuel cell 203a at the joint of step (107) in order to cooperate matter, be the current collection circuit 205a that can form respectively corresponding each cell of fuel cell 203a on control circuit layer 205, and the lower end of current collection circuit 205a is the hollow out zone 205c for corresponding each cell of fuel cell 203a.

Step (107) is that flow path groove/solution tank layer 201, matter that made respectively comes out are passed each layers such as dielectric substrate 203 and control circuit layer 205, is bonded into lamination integration type direct methanol fuel cell 20.Please cooperate the structure chart that shows the lamination integration type direct methanol fuel cell 20 of utilizing the inventive method made referring to the 5th figure, the means of specific implementation step of the present invention (107), system utilizes sticks together medium with printing or the superimposed means of film, flow path groove/solution tank layer 201, matter are passed each stacked unification such as dielectric substrate 203 and control circuit layer 205 and rises, utilize hot press to carry out pressing after superimposed again, produce lamination integration type direct methanol fuel cell 20 by this.Operating environment in the pressing of step (107), can be with hot press be set in temperature between between 80 ℃ ~ 200 ℃ and pressure under between 2 ~ 50kg/cm2, carry out pressing, and at the medium that sticks together that medium can use epoxy resin (Epoxy) that sticks together of step (107).

Moreover, the inventive method 10 is when making flow path groove/solution tank 201, matter respectively and pass three layers on dielectric substrate 203 and control circuit layer 205 etc., and make fixing hole (figure does not show) respectively at each layer, fixing hole by each layer, flow path groove/solution tank 201, matter are passed three layers on dielectric substrate 203 and control circuit layer 205 etc., adopt that fourth of the twelve Earthly Branches splice grafting closes, screw engages or bind to glued joint and close or the like engagement means and engaged together.

Through flow path groove/solution tank layer 201 that step of the present invention (101) made comes out, it provides the function in the accumulator tank district of fuel that fuel cell need possess and water, and the function in anode reaction district.Control circuit layer 205 through step of the present invention (105) made comes out except that having a plurality of SMT electronic building brick 205b and wiring route, provides outside the function of Electromechanical Control, and the function of fuel battery negative pole reaction zone still is provided.

The lamination integration type direct methanol fuel cell 20 of implementing the inventive method 10 includes at least: flow path groove/solution tank layer 201 is to use the material material of printed circuit board (PCB) and make moulding; Matter passes dielectric substrate 203; And control circuit layer 205 is to utilize the processing procedure of printed circuit board (PCB) and produce; Wherein other flow path groove/solution tank layer 201, matter pass each series of strata such as dielectric substrate 203 and control circuit layer 205 and can make respectively, each layer are bonded into lamination integration type direct methanol fuel cell 20 again.

The lamination integration type direct methanol fuel cell 20 of implementing the inventive method 10 includes at least: flow path groove/solution tank layer 201 is to use the material material of printed circuit board (PCB) and make moulding, and passes dielectric substrate 203 with matter and engage; It is that interlayer is between flow path groove/solution tank layer 201 and control circuit layer 205 that matter passes dielectric substrate 203; Control circuit layer 205 is to utilize the processing procedure of printed circuit board (PCB) and produce, and passes dielectric substrate 203 with matter and engage.

The inventive method 10 and lamination integration type direct methanol fuel cell 20 possess following advantage are arranged:

1. the conformability manufacturing cost meets economic benefits with the cost of material is low.

2. applicable to the volume production processing procedure, the tool standardization.

3. the cooperation degree of requirement for peripheral system is low.

4. the spendable time is longer.

5. methanol fuel is obtained conveniently, has anticorrosive property again, anti-ly leaks, anti-gas-leak.

6. have an environmental protection characteristic.

7. frivolous little spatial character.

The material material of printed circuit board (PCB) used in the present invention is to illustrate that as disclosing the present invention is not a limitation with the polymethyl methacrylate fibre base plate with polymethyl methacrylate fibre base plate (FR4).

Though the present invention discloses as above with preferred embodiment; right its is not in order to limiting the present invention, anyly is familiar with this operator, without departing from the spirit and scope of the invention; when doing a little change and retouching, the change of doing still belongs within the appended claim protection range of the present invention with retouching.

Claims (19)

1. the manufacture method of a lamination integration type direct methanol fuel cell comprises the following steps:

(A). use the material material of printed circuit board (PCB), make molding one flow path groove/solution tank layer

(B). make a matter and pass dielectric substrate;

(C). utilize the processing procedure of printed circuit board (PCB), make a control circuit layer;

(D). this flow path groove/solution tank layer of coming out of made, this matter pass each layers such as dielectric substrate and this control circuit layer respectively, are bonded into a lamination integration type direct methanol fuel cell.

2. manufacture method as claimed in claim 1, wherein the material material of the printed circuit board (PCB) of this step (A) is a polymethyl methacrylate fibre base plate (FR4).

3. manufacture method as claimed in claim 2, wherein the making of this step (A) molds the step of this flow path groove/solution tank layer, be to utilize hot press and/or laser make-up machine and/or CNC make-up machine, it is that the groove of a desired depth is as this flow path groove that this polymethyl methacrylate fibre base plate is molded the degree of depth, and then mold this solution tank with hot press and/or laser make-up machine and/or CNC make-up machine, utilize one to stick together medium at last, after coinciding, deliver to and carry out pressing in the hot press for sticking together this flow path groove and this solution tank.

4. manufacture method as claimed in claim 3, wherein this desired depth is between 1 ~ 10mm.

5. manufacture method as claimed in claim 3, wherein this sticks together the medium that sticks together that medium is an epoxy resin combined fiberglass (prepreg).

6. manufacture method as claimed in claim 3, wherein this delivers to the step of carrying out pressing in the hot press after coinciding, be with this hot press be set in temperature between 130 ℃ ~ 200 ℃ and the hot press of pressure between 5 ~ 50kg/cm2 carry out pressing.

7. manufacture method as claimed in claim 1, wherein this matter of the making of this step (B) passes the step of dielectric substrate, be with on a proton exchange membrane and the macromolecular material behind platinum (Pt)/ruthenium (Ru) respectively at a platinum (Pt) of a predetermined concentration in the coating and a predetermined concentration, utilize the gummed means that this proton exchange membrane, a macromolecule catalyst layer and one carbon paper/carbon cloth is formed matter and pass dielectric substrate.

8. manufacture method as claimed in claim 7, wherein this proton exchange membrane system comprises a Nafion of Du Pont (DoPont Nafion) material.

9. manufacture method as claimed in claim 7, wherein the predetermined concentration of this platinum (Pt) is between 1 ~ 5mg/cm2.

10. manufacture method as claimed in claim 7, wherein the predetermined concentration of this platinum (Pt)/ruthenium (Ru) is between 1 ~ 10mg/cm2.

11. manufacture method as claimed in claim 1, wherein these control circuit series of strata are a two-sided printed circuit board (PCB).

12. manufacture method as claimed in claim 1, wherein these control circuit series of strata are a multilayer board.

13. manufacture method as claimed in claim 1, wherein these control circuit series of strata comprise a printed circuit board (PCB) at least, and at least more than one the electronic building brick that is arranged on this printed circuit board (PCB).

14. manufacture method as claimed in claim 1, the engagement step of this step (D) wherein, system utilizes one to stick together medium with printing or the film means that coincide, this flow path groove/solution tank layer, this matter are passed each stacking unification such as dielectric substrate and this control circuit layer and rises, utilize a hot press to carry out pressing after coinciding again, produce this lamination integration type direct methanol fuel cell by this.

15. manufacture method as claimed in claim 14, wherein this to stick together medium be an epoxy resin (Epoxy).

16. manufacture method as claimed in claim 14, wherein this hot press system be set in temperature between 80 ℃ ~ 180 ℃ and pressure between 2 ~ 50kg/cm2.

17. manufacture method as claimed in claim 1, when further comprising the following steps: to make respectively this flow path groove/solution tank, this matter and passing three layers on dielectric substrate and this control circuit layer etc., and make at least more than one fixing hole respectively at each layer, fixing hole by each layer, this flow path groove/solution tank, this matter are passed three layers on dielectric substrate and this control circuit layer etc., adopt that fourth of the twelve Earthly Branches splice grafting closes, screw engages or bind to glued joint and one of them engagement means such as close, engaged together.

18. a lamination integration type direct methanol fuel cell comprises:

One flow path groove/solution tank layer is to use the material material of printed circuit board (PCB) and make moulding;

One matter passes dielectric substrate;

One control circuit layer is to utilize the processing procedure of printed circuit board (PCB) and produce;

Wherein other this flow path groove/solution tank layer, this matter pass each series of strata such as dielectric substrate and this control circuit layer and can make respectively, each layer are bonded into this lamination integration type direct methanol fuel cell again.

19. a lamination integration type direct methanol fuel cell comprises:

One flow path groove/solution tank layer is to use the material material of printed circuit board (PCB) and make moulding, and passes dielectric substrate with a matter and engage;

This matter passes dielectric substrate, is that interlayer is between this a flow path groove/solution tank layer and a control circuit layer;

This control circuit layer is to utilize the processing procedure of printed circuit board (PCB) and produce, and passes dielectric substrate with this matter and engage.

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