CN208586367U - A kind of device preparing porous anodic aluminium oxide in substrate - Google Patents

Abstract

The utility model discloses a kind of to prepare the device of porous anodic aluminium oxide in substrate, particularly belongs to anodised aluminium porous membrane field.It includes fixed frame, cathode plate, fixing seal device, substrate and conducting wire, and the two sides of fixed frame are respectively arranged with cathode plate and fixing seal device, and substrate is provided in fixing seal device, is connected with conducting wire in substrate.It is provided with fixing seal device, so that the process for preparing porous anodic aluminium oxide is more stable, and avoids the conducting wire connecting with substrate by electrolytic corrosion, to enable devices to long-term efficient operation.

Description

A kind of device preparing porous anodic aluminium oxide in substrate

Technical field

The utility model relates to a kind of to prepare the device of porous anodic aluminium oxide in substrate, particularly belongs to anodised aluminium Porous membrane field.

Background technique

For porous anodic alumina template due to its unique structure, preparation process is simple, and aperture size and nanostructure can Control, can be used as the template for preparing other nano materials, causes researchers in recent years and widely pay close attention to.Porous anodic aluminium oxide Template has been widely used for the preparation of large area nanostructure of uniform size as template.Porous anode is prepared in substrate When aluminium oxide, since institute's aluminizer is very thin, conventional oxidation unit easily causes the fracture of interface aluminium film and leads to oxygen The forming process for changing film stops, and in addition during carrying out cell reaction, electrolyte can carry out the conducting wire at linker bottom rotten Erosion causes conductivity to decline and influences cell reaction, causes device cannot long-term efficient operation, it is therefore desirable to which designing one kind can The conducting wire connecting with substrate is protected not to be corroded to the device of long-term efficient operation, thus when selecting conductor material not It is restricted, while guaranteeing aluminium film in entire cell reaction effectively and conductive contact.

Utility model content

The purpose of the utility model is to provide a kind of to prepare the device of porous anodic aluminium oxide in substrate, is provided with Fixing seal device so that the process for preparing porous anodic aluminium oxide is more stable, and avoids the conducting wire quilt connecting with substrate Electrolytic corrosion, to enable devices to long-term efficient operation.

In order to solve the above technical problems, the utility model adopts the following technical solutions:

A kind of device preparing porous anodic aluminium oxide in substrate, including fixed frame, cathode plate, fixing seal device, Substrate and conducting wire, the two sides of the fixed frame are respectively arranged with cathode plate and fixing seal device, in the fixing seal device It is provided with substrate, is connected with conducting wire in the substrate.

The device above-mentioned that porous anodic aluminium oxide is prepared in substrate, the fixed frame include fixed plate and bracket, institute It states and offers through-hole A in fixed plate, the bracket includes two sliding rails and supporting plate, and two sliding rails are connect vertically with fixed plate And it is set to the lower section of through-hole A, the one end of two sliding rails far from fixed plate is connected by supporting plate, and the cathode plate passes through through-hole A is placed on supporting plate and is slidably connected with two sliding rails.

The device above-mentioned that porous anodic aluminium oxide is prepared in substrate, the fixing seal device include fixed link, limit Position block, sealing plate, cover board and sealing element, are also provided with through-hole B on the fixed frame, the fixed link pass through through-hole B and on Portion is connected with limited block, the fixed link portion integral forms sealing plate, and through-hole C, the lid are offered on the sealing plate The through-hole D with through-hole C coaxial arrangement is offered on plate, the substrate is set between sealing plate and cover board, and the conducting wire is sealed It is connect after part sealing with substrate.

The device above-mentioned that porous anodic aluminium oxide is prepared in substrate, the sealing element include small O-ring, big O-ring And side plate, the sealing plate are also provided with the small annular groove and big annular groove being arranged concentrically with through-hole C far from cathode plate on one side, It is provided with small O-ring in the small annular groove, big O-ring is provided in the big annular groove, the boundary of the substrate is located at big O Between type circle and small O-ring, through-hole E, the sealing are also provided on the sealing plate between the small annular groove and big annular groove Plate and fixed link are also provided with the wire casing connecting with through-hole E far from cover board on one side, and the wire casing is opened up by through-hole E to fixation Bar top, side plate is provided on the wire casing, and the conducting wire passes through through-hole E, wire casing and substrate and connects.

The device above-mentioned that porous anodic aluminium oxide is prepared in substrate, the conducting wire include coil interconnected and draw Line, between small O-ring and big O-ring, the coil is connect the coil with substrate, and the lead is along through-hole E and wire casing It is pierced by by fixed link top.

The device above-mentioned that porous anodic aluminium oxide is prepared in substrate, the sealing plate and cover board are circumferentially equal along through-hole C Several through-hole F are furnished with, are provided with bolt in the through-hole F.

The device above-mentioned that porous anodic aluminium oxide is prepared in substrate is also provided with observation panel in the fixed plate.

Compared with prior art, the utility model has the beneficial effect that

1) the utility model prepares the device of porous anodic aluminium oxide by providing a kind of in substrate, and it is close to be provided with fixation Seal apparatus so that the process for preparing porous anodic aluminium oxide is more stable, and avoids the conducting wire connecting with substrate by electrolyte Corrosion, to enable devices to long-term efficient operation；

2) by opening up through-hole A in fixed plate, and two sliding rails and supporting plate are set below through-hole A, so that cathode plate Through-hole A can be passed through to be placed on supporting plate and be slidably connected with two sliding rails, to facilitate the dismounting and replacement of cathode plate；

3) by the way that small annular groove and big annular groove are arranged on sealing plate, and small O-ring is set in small annular groove, big ring Big O-ring is set in shape slot, so that small O-ring is bonded with substrate, big O-ring is bonded with cover board, so that small O-ring and big Confined space is formed between O-ring, electrolyte not can enter, and also open up on the sealing plate between small O-ring and big O-ring There are through-hole E, sealing plate and fixed link to be also provided with the wire casing connecting with through-hole E on one side far from cover board, wire casing is opened by through-hole E If being also covered with side plate on wire casing to fixed link top so that conducting wire passes through through-hole E, wire casing and substrate connect, conducting wire due to every From electrolyte, to will not be corroded, device being capable of long-term efficient operation；

4) by setting coil and lead interconnected for conducting wire, enable coil and substrate contact area more Greatly, it connects even closer, is conducive to the progress of cell reaction, and coil is positioned at small O-ring and big O-ring between, lead is leading to In the seal protection of hole E, wire casing and side plate, prevent it is long-term to be conducive to device from corroding to coil and lead for electrolyte Efficient operation；

5) by the way that sealing plate and cover board are circumferentially evenly distributed with several through-hole F in through-hole C, and bolt is set in through-hole F, so that Sealing plate and cover board are more stable to the fixation of substrate, facilitate the steady progress for preparing porous anodic aluminium oxide reaction；

6) by the way that observation panel is arranged in fixed plate, the preparation process of anodic oxidation aluminium formwork is observed, It is more effectively controlled to make entirely to react.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the explosive view of fixing seal device in the utility model；

Fig. 3 is the structural schematic diagram of fixed frame in the utility model；

Fig. 4 is the front view of sealing plate and fixed link in the utility model；

Fig. 5 is the rearview of sealing plate and fixed link in the utility model；

Fig. 6 is the structural schematic diagram of conducting wire in the utility model.

The meaning of appended drawing reference: 1- fixed frame, 2- cathode plate, 3- substrate, 4- fixing seal device, 5- conducting wire, 6- are fixed Plate, 7- bracket, 8- through-hole A, 9- sliding rail, 10- supporting plate, 11- through-hole B, 12- fixed link, 13- limited block, 14- sealing plate, 15- lid Plate, 16- sealing element, the small O-ring of 17- through-hole C, 18- through-hole D, 19-, the big O-ring of 20-, 21- side plate, the small annular groove of 22-, 23- Big annular groove, 24- wire casing, 25- through-hole E, 26- through-hole F, 27- bolt, 28- observation panel, 29- coil, 30- lead.

The utility model is further described with reference to the accompanying drawings and detailed description.

Specific embodiment

The embodiments of the present invention 1: a kind of device preparing porous anodic aluminium oxide in substrate constitutes such as Fig. 1-figure Shown in 6, including fixed frame 1, cathode plate 2, fixing seal device 4, substrate 3 and conducting wire 5, the two sides of the fixed frame 1 are set respectively It is equipped with cathode plate 2 and fixing seal device 4, the cathode plate 2 is fixedly installed on the side lower end of fixed frame 1, and the fixation is close Substrate 3 is provided in seal apparatus 4, the substrate 3 is rounded, and the substrate 3 can be the materials such as sapphire, silicon wafer, glass, and And the substrate 3 is coated with the aluminium film of different-thickness according to the thickness difference of the anodic oxidation aluminium formwork of preparation, connects in the substrate 3 It is connected to conducting wire 5, the conducting wire 5 is copper wire, and described device is placed in electrolyte when preparing porous anodic aluminium oxide, the cathode 2 top of plate is connect with power cathode, and the conducting wire 5 is connect with positive pole.

The fixing seal device 4 includes fixed link 12, limited block 13, sealing plate 14, cover board 15 and sealing element 16, described Through-hole B11 is also provided on fixed frame 1, the fixed link 12 passes through through-hole B11 and top is connected far from the one side of cathode plate 2 There are limited block 13,12 portion integral of the fixed link to form sealing plate 14, through-hole C17, institute are offered on the sealing plate 14 Stating through-hole C17 is circular hole, and being offered on the cover board 15 with the through-hole D18, the through-hole D18 of through-hole C17 coaxial arrangement is circle Hole, the substrate 3 are set between sealing plate 14 and cover board 15, are connect after the sealing of the conducting wire 5 sealed part 16 with substrate 3.

The sealing element 16 includes small O-ring 19, big O-ring 20 and side plate 21, and the sealing plate 14 is far from cathode plate 2 It is also provided with the small annular groove 22 and big annular groove 23 being arranged concentrically with through-hole C17 on one side, is provided in the small annular groove 22 Small O-ring 19 is provided with big O-ring 20 in the big annular groove 23, and the substrate 3 and big O-ring 20 are arranged concentrically, the base Sealing plate of the boundary at bottom 3 between big O-ring 20 and small O-ring 19, between the small annular groove 22 and big annular groove 23 Through-hole E25, the sealing plate 14 and fixed link 12 is also provided on 14 to connect far from being also provided on one side for cover board 15 with through-hole E25 The wire casing 24 connect, the wire casing 24 are opened up by through-hole E25 to 12 top of fixed link, are provided with side plate 21 on the wire casing 24, The conducting wire 5 includes coil 29 interconnected and lead 30, and the coil 29 is described between small O-ring and big O-ring Coil 29 and substrate 3 are coaxially disposed, and the coil 29 is connect with substrate 3, and the lead 30 is along through-hole E25 and wire casing 24 by fixing 12 top of bar is pierced by, and the lead 30 being pierced by is connect with positive pole.By the way that small 22 He of annular groove is arranged on sealing plate 14 Big annular groove 23, and small O-ring 19 is set in small annular groove 22, big O-ring 20 is set in big annular groove 23, so that small O-shaped Circle 19 is bonded with substrate 3, and big O-ring 20 is bonded with cover board 15, so that being formed between small O-ring 19 and big O-ring 20 close Space is closed, electrolyte not can enter, and be also provided with through-hole on the sealing plate 14 between small O-ring 19 and big O-ring 20 E25, sealing plate 14 and fixed link 12 are also provided with the wire casing 24 connecting with through-hole E25 far from cover board 15 on one side, wire casing 24 by It is opened up at through-hole E25 to 12 top of fixed link, side plate 21 is also covered on wire casing 24, by the way that conducting wire 5 to be set as being connected with each other Coil 29 and lead 30, such that coil 29 and 3 contact area of substrate are bigger, connection is even closer, it is anti-to be conducive to electrolysis The progress answered, and coil 29 is located between small O-ring 19 and big O-ring 20, lead 30 is in through-hole E25, wire casing 24 and side plate 21 Seal protection in, prevent electrolyte is conducive to the long-term efficient operation of device from corroding to coil 29 and lead 30.

The sealing plate 14 and cover board 15 are circumferentially evenly equipped with several through-hole F26 along through-hole C17, are arranged in the through-hole F26 There is bolt 27, uniformly distributed bolt 27 makes sealing plate 14 and cover board 15 more stable to the fixation of substrate 3, helps to prepare porous The steady progress of anodic oxidation reactive aluminum.

The device that porous anodic aluminium oxide is prepared in substrate is also provided with observation panel 28 in the fixed plate 6, leads to The setting observation panel 28 in fixed plate 6 is crossed, the process of anodic oxidation aluminium formwork is observed, to make entirely to react It is more effectively controlled.

Embodiment 2: a kind of device preparing porous anodic aluminium oxide in substrate is constituted as shown in figs 1 to 6, including solid Determine frame 1, cathode plate 2, fixing seal device 4, substrate 3 and conducting wire 5, the two sides of the fixed frame 1 are respectively arranged with 2 He of cathode plate Fixing seal device 4 is provided with substrate 3 in the fixing seal device 4, and the substrate 3 is rounded, and the substrate 3 can be The materials such as sapphire, silicon wafer, glass, and the substrate 3 is coated with not according to the thickness difference of the anodic oxidation aluminium formwork of preparation The aluminium film of stack pile is connected with conducting wire 5 in the substrate 3, and the conducting wire 5 is copper wire, and described device prepares porous anode It is placed in electrolyte when aluminium, 2 top of cathode plate is connect with power cathode, and the conducting wire 5 is connect with positive pole.

The fixed frame 1 includes fixed plate 6 and bracket 7, offers through-hole A8 in the fixed plate 6, the bracket 7 includes Two sliding rails 9 and supporting plate 10, two sliding rails 9 connect vertically and are set to the lower section of through-hole A8, two cunnings with fixed plate 6 The one end of rail 9 far from fixed plate 6 is connected by supporting plate 10, and one end of the cathode plate 2 passes through through-hole A8 and is placed on supporting plate 10, institute The two sides and two sliding rails 9 for stating cathode plate 2 are slidably connected, and set by opening up through-hole A8 in fixed plate 6, and below through-hole A8 Two sliding rails 9 and supporting plate 10 are set, enables cathode plate 2 to pass through through-hole A8 and is placed on supporting plate 10 and is slided with two sliding rails 9 Connection, to facilitate the dismounting and replacement of cathode plate 2.

The fixing seal device 4 includes fixed link 12, limited block 13, sealing plate 14, cover board 15 and sealing element 16, described Through-hole B11 is also provided on fixed frame 1, the fixed link 12 passes through through-hole B11 and top is connected far from the one side of cathode plate 2 There are limited block 13,12 portion integral of the fixed link to form sealing plate 14, through-hole C17, institute are offered on the sealing plate 14 Stating through-hole C17 is circular hole, and being offered on the cover board 15 with the through-hole D18, the through-hole D18 of through-hole C17 coaxial arrangement is circle Hole, the substrate 3 are set between sealing plate 14 and cover board 15, are connect after the sealing of the conducting wire 5 sealed part 16 with substrate 3.

The sealing element 16 includes small O-ring 19, big O-ring 20 and side plate 21, and the sealing plate 14 is far from cathode plate 2 It is also provided with the small annular groove 22 and big annular groove 23 being arranged concentrically with through-hole C17 on one side, is provided in the small annular groove 22 Small O-ring 19 is provided with big O-ring 20 in the big annular groove 23, and the substrate 3 and big O-ring 20 are arranged concentrically, the base Sealing plate of the boundary at bottom 3 between big O-ring 20 and small O-ring 19, between the small annular groove 22 and big annular groove 23 Through-hole E25, the sealing plate 14 and fixed link 12 is also provided on 14 to connect far from being also provided on one side for cover board 15 with through-hole E25 The wire casing 24 connect, the wire casing 24 are opened up by through-hole E25 to 12 top of fixed link, are provided with side plate 21 on the wire casing 24, The conducting wire 5 includes coil 29 interconnected and lead 30, and the coil 29 is described between small O-ring and big O-ring Coil 29 and substrate 3 are coaxially disposed, and the coil 29 is connect with substrate 3, and the lead 30 is along through-hole E25 and wire casing 24 by fixing 12 top of bar is pierced by, and the lead 30 being pierced by is connect with positive pole.By the way that small 22 He of annular groove is arranged on sealing plate 14 Big annular groove 23, and small O-ring 19 is set in small annular groove 22, big O-ring 20 is set in big annular groove 23, so that small O-shaped Circle 19 is bonded with substrate 3, and big O-ring 20 is bonded with cover board 15, so that being formed between small O-ring 19 and big O-ring 20 close Space is closed, electrolyte not can enter, and be also provided with through-hole on the sealing plate 14 between small O-ring 19 and big O-ring 20 E25, sealing plate 14 and fixed link 12 are also provided with the wire casing 24 connecting with through-hole E25 far from cover board 15 on one side, wire casing 24 by It is opened up at through-hole E25 to 12 top of fixed link, side plate 21 is also covered on wire casing 24, by the way that conducting wire 5 to be set as being connected with each other Coil 29 and lead 30, such that coil 29 and 3 contact area of substrate are bigger, connection is even closer, it is anti-to be conducive to electrolysis The progress answered, and coil 29 is located between small O-ring 19 and big O-ring 20, lead 30 is in through-hole E25, wire casing 24 and side plate 21 Seal protection in, prevent electrolyte is conducive to the long-term efficient operation of device from corroding to coil 29 and lead 30.

The sealing plate 14 and cover board 15 are circumferentially evenly equipped with several through-hole F26 along through-hole C17, are arranged in the through-hole F26 There is bolt 27, uniformly distributed bolt 27 makes sealing plate 14 and cover board 15 more stable to the fixation of substrate 3, helps to prepare porous The steady progress of anodic oxidation reactive aluminum.

The device that porous anodic aluminium oxide is prepared in substrate is also provided with observation panel 28 in the fixed plate 6, leads to The setting observation panel 28 in fixed plate 6 is crossed, the process of anodic oxidation aluminium formwork is observed, to make entirely to react It is more effectively controlled.

Working principle of the utility model is: the utility model be by by fixed frame 1, cathode plate 2, fixing seal device 4, Components are organic is assembled into a kind of device that porous anodic aluminium oxide is prepared in substrate for substrate 3 and conducting wire 5 etc., so that preparation The process of porous anodic aluminium oxide is more stable, and avoids the conducting wire 5 connecting with substrate 3 by electrolytic corrosion, to make to fill Setting being capable of long-term efficient operation.Described device is placed in electrolyte when preparing porous anodic aluminium oxide, 2 top of cathode plate It is connect with power cathode, the conducting wire 5 is connect with positive pole, and the aluminium film in substrate 3 is sufficiently prepared with electrolyte contacts, guarantee Porous anodic aluminium oxide quality.Wherein, by opening up through-hole A8 in fixed plate 6, and two are arranged below through-hole A8 Sliding rail 9 and supporting plate 10 enable cathode plate 2 to pass through through-hole A8 and are placed on supporting plate 10 and are slidably connected with two sliding rails 9, from And facilitate the dismounting and replacement of cathode plate 2；By the way that small annular groove 22 and big annular groove 23 are arranged on sealing plate 14, and small Small O-ring 19 is set in annular groove 22, big O-ring 20 is set in big annular groove 23, so that small O-ring 19 is bonded with substrate 3, greatly O-ring 20 is bonded with cover board 15, so that form confined space between small O-ring 19 and big O-ring 20, electrolyte cannot be into Enter, and is also provided with through-hole E25, sealing plate 14 and fixed link 12 on the sealing plate 14 between small O-ring 19 and big O-ring 20 It is also provided with the wire casing 24 connecting with through-hole E25 on one side far from cover board 15, wire casing 24 is opened up by through-hole E25 to fixed link 12 Top is also covered with side plate 21 on wire casing 24 so that conducting wire 5 passes through through-hole E25, wire casing 24 is connect with substrate 3, conducting wire 5 due to Electrolyte is isolated, to will not be corroded, device being capable of long-term efficient operation；By setting interconnected for conducting wire 5 Coil 29 and lead 30, such that coil 29 and 3 contact area of substrate are bigger, connection is even closer, is conducive to cell reaction Progress, and coil 29 is located between small O-ring 19 and big O-ring 20, and lead 30 is in through-hole E25, wire casing 24 and side plate 21 In seal protection, prevent electrolyte is conducive to the long-term efficient operation of device from corroding to coil 29 and lead 30；Pass through By sealing plate 14 and cover board 15 in the circumferentially uniformly distributed several through-hole F26 of through-hole C17, and bolt 27 is set in through-hole F26, so that close Sealing plate 14 and cover board 15 are more stable to the fixation of substrate 3, facilitate the steady progress for preparing porous anodic aluminium oxide reaction；It is logical The setting observation panel 28 in fixed plate 6 is crossed, the preparation process of anodic oxidation aluminium formwork is observed, to make entire Reaction is more effectively controlled.

Claims (7)

1. a kind of device for preparing porous anodic aluminium oxide in substrate, which is characterized in that including fixed frame (1), cathode plate (2), fixing seal device (4), substrate (3) and conducting wire (5), the two sides of the fixed frame (1) be respectively arranged with cathode plate (2) and Fixing seal device (4) is provided with substrate (3) in the fixing seal device (4), is connected with conducting wire on the substrate (3) (5)。

2. the device according to claim 1 for preparing porous anodic aluminium oxide in substrate, which is characterized in that the fixation Frame (1) includes fixed plate (6) and bracket (7), is offered through-hole A (8) on the fixed plate (6), and the bracket (7) includes two Sliding rail (9) and supporting plate (10), two sliding rails (9) connect vertically and are set to the lower section of through-hole A (8) with fixed plate (6), described The one end of two sliding rails (9) far from fixed plate (6) is connected by supporting plate (10), and the cathode plate (2) passes through through-hole A (8) and is placed in It is slidably connected on supporting plate (10) and with two sliding rails (9).

3. the device according to claim 2 for preparing porous anodic aluminium oxide in substrate, which is characterized in that the fixation Sealing device (4) includes fixed link (12), limited block (13), sealing plate (14), cover board (15) and sealing element (16), the fixation Be also provided on frame (1) through-hole B (11), the fixed link (12) pass through through-hole B (11) and top be connected with limited block (13), Fixed link (12) portion integral forms sealing plate (14), offers through-hole C (17), the lid on the sealing plate (14) The through-hole D (18) with through-hole C (17) coaxial arrangement is offered on plate (15), the substrate (3) is set to sealing plate (14) and cover board (15) it between, is connect after the sealed part of the conducting wire (5) (16) sealing with substrate (3).

4. the device according to claim 3 for preparing porous anodic aluminium oxide in substrate, which is characterized in that the sealing Part (16) includes small O-ring (19), big O-ring (20) and side plate (21), one side of the sealing plate (14) far from cathode plate (2) It is also provided with the small annular groove (22) and big annular groove (23) being arranged concentrically with through-hole C (17), is set in the small annular groove (22) It is equipped with small O-ring (19), is provided with big O-ring (20) in the big annular groove (23), the boundary of the substrate (3) is located at big O Between type circle (20) and small O-ring (19), on the sealing plate (14) between the small annular groove (22) and big annular groove (23) also It offers through-hole E (25), the sealing plate (14) and fixed link (12) being also provided on one side and through-hole E far from cover board (15) (25) wire casing (24) connected, the wire casing (24) are opened up by through-hole E (25) to fixed link (12) top, the wire casing (24) On be provided with side plate (21), the conducting wire (5) passes through through-hole E (25), wire casing (24) and connect with substrate (3).

5. the device according to claim 4 for preparing porous anodic aluminium oxide in substrate, which is characterized in that the conducting wire It (5) include coil interconnected (29) and lead (30), the coil (29) is located at small O-ring (19) and big O-ring (20) Between, the coil (29) connect with substrate (3), and the lead (30) is along through-hole E (25) and wire casing (24) by fixed link (12) Top is pierced by.

6. the device according to claim 5 for preparing porous anodic aluminium oxide in substrate, which is characterized in that the sealing Plate (14) and cover board (15) are circumferentially evenly equipped with several through-hole F (26) along through-hole C (17), are provided with bolt in the through-hole F (26) (27)。

7. the device according to claim 6 for preparing porous anodic aluminium oxide in substrate, which is characterized in that the fixation Observation panel (28) are also provided on plate (6).