CN110952114A

CN110952114A - High-uniformity electroforming equipment

Info

Publication number: CN110952114A
Application number: CN201911324701.XA
Authority: CN
Inventors: 董云; 胡庭; 叶成斌; 胡敏超; 徐飞明; 姜云峰
Original assignee: Zhejiang Daoming Optoelectronics Technology Co ltd
Current assignee: Zhejiang Daoming Optoelectronics Technology Co ltd
Priority date: 2019-12-20
Filing date: 2019-12-20
Publication date: 2020-04-03

Abstract

The invention discloses high-uniformity electroforming equipment, which comprises an electroforming bath component, an anode titanium basket, a cathode mould component, a rotating component and an anode conducting component, wherein the anode titanium basket and the cathode mould component are positioned in the electroforming bath component, the cathode mould component is sleeved outside the anode titanium basket, the anode conducting component is connected with the anode titanium basket, the high-uniformity electroforming equipment also comprises a supporting column, the supporting column is arranged at the center of the bottom of the electroforming bath component, the anode titanium basket is sleeved outside the supporting column, the rotating component is arranged at the top end of the supporting column and rotates relative to the supporting column, and the rotating component is connected with the anode titanium basket and drives the anode titanium basket to rotate by taking the supporting column as an axis. The rotating assembly is arranged at the top end of the supporting column, so that the rotating assembly is prevented from directly contacting the electroforming solution, scraps generated by rotation friction cannot enter the electroforming solution, the quality of an electroforming product is ensured, and the cleaning maintenance period of the electroforming solution is prolonged.

Description

High-uniformity electroforming equipment

Technical Field

The invention relates to electroforming equipment, in particular to electroforming equipment with high uniformity.

Background

Electroforming is to apply the metal electrodeposition theory in electrochemistry, to make metal continuously deposited on a cathode mould in the electroforming process, and then to separate the metal deposition layer from the cathode mould to obtain a target product. By means of electroforming process, products with irregular micro structure and difficult to manufacture by mechanical processing method can be produced, and the method is generally used for manufacturing microprism reflecting materials with large area, micro structure and high precision requirement at present. In the electroforming process, in order to ensure uniform metal deposition, a rotating device is often arranged on a mould, and the conventional electroforming equipment generally arranges the rotating device inside a plating tank to be contacted with electroforming liquid in the plating tank. The rotating device can generate scraps due to friction in the operation process, so that the electroforming solution is polluted, the plating layer performance is influenced, and the service life of the die is shortened.

Disclosure of Invention

Aiming at the defects of pollution of electroforming solution, influence on coating performance and the like in the prior art, the invention provides novel electroforming equipment with high uniformity.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the utility model provides a high degree of consistency electroforming equipment, includes electroforming cell subassembly, positive pole titanium basket, negative pole mould subassembly, runner assembly, positive pole electrical component, positive pole titanium basket negative pole mould subassembly is located in the electroforming cell subassembly, negative pole mould subassembly cover is established outside the positive pole titanium basket, positive pole electrical component with positive pole titanium basket is connected, still includes the support column, the support column sets up electroforming cell subassembly tank bottom center, positive pole titanium basket cover is established outside the support column, the runner assembly sets up support column top and relative the support column rotates, the runner assembly with positive pole titanium basket is connected and is driven positive pole titanium basket with the support column rotates as the axle center.

The electroforming tank assembly is used for accommodating and bearing parts such as the anode titanium basket, the cathode mould assembly, the supporting column and the like, so that the parts can be reasonably arranged to exert the due functions. The supporting columns and the rotating assembly are arranged to realize the rotating function of the anode titanium basket, and meanwhile, the cathode die assembly is sleeved outside the anode titanium basket, so that the uniformity of the electroforming surface in the circumferential direction in the whole electroforming process is consistent, and the uniformity of an electroforming product is improved. The anode titanium basket is connected to the positive pole of a power supply through an anode conductive assembly, and the cathode mold assembly is connected to the negative pole of the power supply. The rotating assembly is arranged at the top end of the supporting column, so that the rotating assembly is prevented from directly contacting the electroforming liquid, scraps generated by rotation friction cannot enter the electroforming liquid, the quality of an electroforming product is ensured, and the cleaning maintenance period of the electroforming liquid is prolonged.

Preferably, the rotating assembly comprises a rotating motor, a rotating disc assembly and a transmission shaft assembly, the rotating motor is arranged on the electroforming tank assembly, the rotating disc assembly is arranged at the top end of the support column, two ends of the transmission shaft assembly are respectively connected with the rotating motor and the rotating disc assembly, and the rotating motor drives the rotating disc assembly to rotate through the transmission shaft assembly.

Preferably, the electroforming equipment with high uniformity comprises a rotating disc assembly and a roller, wherein the rotating disc assembly comprises a rotating disc and a roller which are connected with each other, the rotating disc is overlapped with the axis of the supporting column, the transmission shaft assembly is connected with the rotating disc, and the rotating disc rotates through the roller.

The arrangement of the roller wheel enables the whole rotating process to be more stable and smooth, and reduces scraps generated by friction.

Preferably, the high uniformity electroforming device comprises an anode post, a conductive slip ring and a titanium basket connecting rod, wherein the anode post penetrates through the support column and coincides with the axis of the support column, the titanium basket connecting rod is arranged on the rotating disc and connected with the anode titanium basket, the conductive slip ring is arranged at the center of the rotating disc, and the titanium basket connecting rod is rotatably connected with the anode post through the conductive slip ring.

The anode column is arranged in the center of the conductive slip ring and connected with the positive electrode of the power supply, the anode column is in contact with the conductive slip ring, the anode titanium basket can be electrified, and the support column can hide the anode column, so that the anode titanium basket is more attractive. One end of the titanium basket connecting rod penetrates through the rotating disc to be connected with the conductive slip ring, and the other end of the titanium basket connecting rod is connected with the anode titanium basket, so that the anode titanium basket can rotate to conduct electricity.

Preferably, the transmission shaft assembly comprises a transmission shaft body and a transmission shaft fixing frame, the transmission shaft fixing frame is arranged on the electroforming tank assembly and detachably connected with the electroforming tank assembly, the transmission shaft body is mounted on the transmission shaft fixing frame through a bearing, and two ends of the transmission shaft body are respectively connected with the rotating motor and the rotating disc.

The drive shaft mount is removably attached to the electrofusion tank assembly to accommodate removal and insertion of the cathode mold assembly.

Preferably, in the electroforming device with high uniformity, the side wall of the anode titanium basket is in a convex arc shape, and the side wall of the anode titanium basket is in a hollowed-out net structure.

By changing the shape of the anode titanium basket, the current density in the middle of the mould in the depth direction is enhanced to resist the edge effect, so that the thickness uniformity of the electroformed product in the longitudinal direction is greatly improved.

Preferably, in the electroforming equipment with high uniformity, a rotating groove is formed at the top end of the supporting column, and the rotating disc assembly is located in the rotating groove.

The rotating disc component is arranged in the rotating groove, so that the friction foreign matters are further prevented from falling into the electroforming groove component to pollute the electroforming solution.

Preferably, in the electroforming apparatus with high uniformity, the cathode mold assembly includes a cathode mold portion, a support ring, and a cathode conductive ring, the support ring is located above the electroforming tank assembly, the cathode conductive ring is disposed on the support ring, and the cathode mold portion is detachably connected to the cathode conductive ring.

The cathode conducting ring is communicated with the cathode mould part and the power supply, so that the electrifying effect of the cathode mould part is realized, and meanwhile, the operation difficulty can be effectively reduced and the operation space is increased by detachable connection.

As preferred, the aforesaid a high degree of consistency electroforming equipment, negative pole mould portion includes the electrically conductive connecting rod of negative pole, the fixed frame of mould, negative pole mould body, the fixed frame cover of mould is established this external and fixed of negative pole mould the negative pole mould body, the electrically conductive connecting rod of negative pole one end with the fixed frame dismantlement formula of mould is connected, the electrically conductive connecting rod of negative pole the other end with the negative pole conducting ring dismantlement formula is connected.

The cathode die body is fixed through the die fixing frame, so that the disassembly and installation processes are more convenient.

Preferably, in the electroforming apparatus with high uniformity, the cathode mold assembly further includes an insulating ring, the insulating ring is disposed between the cathode conductive ring and the support ring, and the insulating ring is adapted to the cathode conductive ring.

An insulating ring is arranged between the cathode conducting ring and the supporting ring, so that the electric leakage phenomenon is prevented.

Preferably, in the electroforming equipment with high uniformity, the electroforming tank assembly is provided with the positioning ring, the support ring is provided with the positioning wedge block, the positioning wedge block is provided with the limiting inclined plane and the limiting bend, and the limiting inclined plane and the limiting bend are matched with the inner side of the positioning ring.

The operation difficulty that the cathode mould assembly falls into the electroforming tank assembly is reduced through the limiting inclined plane and the limiting bending, and meanwhile, the uniformity of an electroforming product can be improved.

Preferably, in the electroforming apparatus with high uniformity, the cathode conductive connection rod is a metal rod coated with an insulating paste.

Insulating glue is coated outside the cathode conductive connecting rod to isolate the cathode conductive connecting rod from electroforming solution, so that the uniformity of current density is ensured.

Preferably, the electroforming device with high uniformity comprises an electroforming tank body and a bearing frame, wherein the bearing frame is arranged on the electroforming tank body, the rotating motor, the positioning ring and the transmission shaft fixing frame are respectively arranged on the bearing frame, and the support column, the anode titanium basket and the cathode mould assembly are respectively arranged in the electroforming tank body.

The bearing frame is made of steel, has high strength and strong corrosion resistance, and can reduce the gravity load of the electroforming tank body.

Drawings

FIG. 1 is a schematic structural view of the support ring, cathode conductive ring, and positioning wedge assembled together according to the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

FIG. 3 is a cross-sectional view of the present invention;

FIG. 4 is an exploded view of the present invention;

fig. 5 is a schematic view of the cathode mold assembly of the present invention with the cathode mold assembly removed.

Detailed Description

The invention will be described in further detail below with reference to the accompanying figures 1-5 and the detailed description, but they are not intended to limit the invention:

example 1

The utility model provides a high degree of consistency electroforming equipment, includes electroforming cell subassembly 3, positive pole titanium basket 6, negative pole mould subassembly 1, runner assembly 2, positive pole conducting element 4, positive pole titanium basket 6 negative pole mould subassembly 1 is located in

electroforming cell subassembly

3, 1 covers of negative pole mould subassembly are established outside positive pole titanium basket 6, positive pole conducting element 4 with positive pole titanium basket 6 is connected, still includes support column 5, support column 5 sets up 3 tank bottoms centers of electroforming cell subassembly, positive pole titanium basket 6 covers is established outside support column 5, runner assembly 2 sets up 5 tops of support column are relative support column 5 rotates, runner assembly 2 with positive pole titanium basket 6 is connected and drives positive pole titanium basket 6 with support column 5 rotates as the axle center.

When the device is used, the cathode mould assembly 1 is firstly placed in the electroforming tank assembly 3, after the liquid level of the electroforming solution is adjusted to a designated position, the power supply is switched on, the anode titanium basket 6 is connected to the positive electrode of the power supply through the anode conducting assembly 4, the cathode mould assembly 1 is connected to the negative electrode of the power supply, the rotating assembly 2 is started, and the rotating assembly 2 drives the anode titanium basket 6 to rotate by taking the support column 5 as an axis, so that the starting is completed. And after the electroforming process is finished, cutting off the power supply, stopping the rotation of the anode titanium basket 6 at the moment, and not electrifying the anode titanium basket 6 and the cathode mould assembly 1 any more, taking out and dismounting the cathode mould assembly 1 from the electroforming tank assembly 3, and demoulding after cleaning to obtain an electroforming product.

Preferably, the rotating assembly 2 includes a rotating motor 21, a rotating disc assembly 22 and a transmission shaft assembly 23, the rotating motor 21 is disposed on the electroforming tank assembly 3, the rotating disc assembly 22 is disposed at the top end of the supporting column 5, two ends of the transmission shaft assembly 23 are respectively connected to the rotating motor 21 and the rotating disc assembly 22, and the rotating motor 21 drives the rotating disc assembly 22 to rotate through the transmission shaft assembly 23.

Preferably, the rotating disc assembly 22 includes a rotating disc 221 and a roller 222 which are connected with each other, the rotating disc 221 is overlapped with the axis of the supporting column 5, the transmission shaft assembly 23 is connected with the rotating disc 221, and the rotating disc 221 is rotated by the roller 222.

Preferably, the anode conductive assembly 4 includes an anode column 42, a conductive slip ring 43, and a titanium basket connecting rod 41, the anode column 42 passes through the supporting column 5 and coincides with the axis of the supporting column 5, the titanium basket connecting rod 41 is disposed on the rotating disk 221 and connected to the anode titanium basket 6, the conductive slip ring 43 is disposed at the center of the rotating disk 221, and the titanium basket connecting rod 41 is rotatably connected to the anode column 42 through the conductive slip ring 43.

Preferably, the transmission shaft assembly 23 includes a transmission shaft body 231 and a transmission shaft fixing frame 232, the transmission shaft fixing frame 232 is disposed on the electroforming tank assembly 3 and detachably connected with the electroforming tank assembly 3, the transmission shaft body 231 is mounted on the transmission shaft fixing frame 232 through a bearing, and two ends of the transmission shaft body 231 are respectively connected with the rotating motor 21 and the rotating disk 221.

Preferably, the side wall of the anode titanium basket 6 is in an outward convex arc shape, and the side wall of the anode titanium basket 6 is in a hollowed-out net structure.

Preferably, the top end of the supporting column 5 is provided with a rotating groove 51, and the rotating disc assembly 22 is positioned in the rotating groove 51.

Preferably, the cathode mold assembly 1 comprises a cathode mold part 15, a support ring 11, and a cathode conductive ring 12, wherein the support ring 11 is located above the electroforming tank assembly 3, the cathode conductive ring 12 is disposed on the support ring 11, and the cathode mold part 15 is detachably connected to the cathode conductive ring 12.

Preferably, the cathode mold part 15 includes a cathode conductive connecting rod 151, a mold fixing frame 152, and a cathode mold body 153, the mold fixing frame 152 is sleeved on the outside of the cathode mold body 153 and fixed to the cathode mold body 153, one end of the cathode conductive connecting rod 151 is detachably connected to the mold fixing frame 152, and the other end of the cathode conductive connecting rod 151 is detachably connected to the cathode conductive ring 12.

Preferably, the cathode mold assembly 1 further comprises an insulating ring 14, the insulating ring 14 is disposed between the cathode conductive ring 12 and the support ring 11, and the insulating ring 14 is adapted to the cathode conductive ring 12.

Preferably, the electroforming tank assembly 3 is provided with a positioning ring 321, the support ring 11 is provided with a positioning wedge 13, the positioning wedge 13 is provided with a limiting inclined surface 131 and a limiting bend 132, and the limiting inclined surface 131 and the limiting bend 132 are matched with the inner side of the positioning ring 321.

Preferably, the cathode conductive connection rod 151 is a metal rod coated with an insulating paste.

Preferably, the electroforming bath assembly 3 includes an electroforming bath body 31 and a carrier 32, the carrier 32 is disposed on the electroforming bath body 31, the rotating motor 21, the positioning ring 321 and the transmission shaft fixing frame 232 are respectively disposed on the carrier 32, and the supporting column 5, the anode titanium basket 6 and the cathode mold assembly 1 are respectively disposed in the electroforming bath body 31.

When the electroforming device is used, firstly, the cathode mould body 153 is placed in the mould fixing frame 152, then the cathode mould body is connected to the cathode conducting ring 12 through the cathode conducting connecting rod 151, the assembly of the cathode mould assembly 1 is completed, then the cathode mould assembly 1 is placed in the electroforming tank body 31, then the transmission shaft fixing frame 232 provided with the transmission shaft body 231 is installed on the bearing frame 32, the liquid level of electroforming liquid is adjusted to a specified position, the power is switched on, at the moment, the anode titanium basket 6 is connected to the positive pole of a power supply sequentially through the titanium basket connecting rod 41, the conducting slip ring 43 and the anode pole 42, and the cathode mould body 153 is connected to the negative pole of the power supply sequentially through the mould fixing frame 152, the cathode conducting connecting rod. The rotating motor 21 is started, the rotating motor 21 drives the rotating disc 221 to rotate through the transmission shaft body 231, and at the moment, the rotating disc 221 drives the anode titanium basket 6 to rotate by taking the support column 5 as an axis, so that the starting is completed.

After the electroforming process is finished, the power supply is cut off, the anode titanium basket 6 stops rotating at the moment, the anode titanium basket 6 and the cathode mould assembly 1 are not electrified, the transmission shaft fixing frame 232 provided with the transmission shaft body 231 is dismounted at the moment, the cathode mould assembly 1 is taken out, and finally the cathode mould body 153 is dismounted from the mould fixing frame 152 and cleaned for demoulding to obtain the electroforming product.

In summary, the above-mentioned embodiments are only preferred embodiments of the present invention, and all equivalent changes and modifications made within the scope of the claims of the present invention should be covered by the present invention.

Claims

1. The utility model provides a high degree of consistency electroforming equipment, includes electroforming cell subassembly (3), positive pole titanium basket (6), negative pole mould subassembly (1), runner assembly (2), positive pole conducting component (4), positive pole titanium basket (6) negative pole mould subassembly (1) is located in electroforming cell subassembly (3), negative pole mould subassembly (1) cover is established outside positive pole titanium basket (6), positive pole conducting component (4) with positive pole titanium basket (6) are connected, its characterized in that: still include support column (5), support column (5) set up at electricity electroforming bath subassembly (3) tank bottom center, positive pole titanium basket (6) cover is established outside support column (5), rotating assembly (2) set up support column (5) top and relative support column (5) rotate, rotating assembly (2) with positive pole titanium basket (6) are connected and drive positive pole titanium basket (6) use support column (5) rotate as the axle center.

2. The high uniformity electroforming apparatus of claim 1, wherein: rotating assembly (2) is including rotating motor (21), rotating disc subassembly (22), transmission shaft subassembly (23), rotating motor (21) sets up on electroforming cell subassembly (3), rotating disc subassembly (22) sets up support column (5) top, transmission shaft subassembly (23) both ends are connected respectively rotating motor (21) rotating disc subassembly (22), rotating motor (21) passes through transmission shaft subassembly (23) drive rotating disc subassembly (22) rotate.

3. The high uniformity electroforming apparatus of claim 2, wherein: the rotating disc assembly (22) comprises a rotating disc (221) and a roller (222) which are connected with each other, the rotating disc (221) is overlapped with the axis of the supporting column (5), the transmission shaft assembly (23) is connected with the rotating disc (221), and the rotating disc (221) rotates through the roller (222).

4. The high uniformity electroforming apparatus of claim 3, wherein: the anode conducting component (4) comprises an anode column (42), a conducting slip ring (43) and a titanium basket connecting rod (41), wherein the anode column (42) penetrates through the supporting column (5) and coincides with the axis of the supporting column (5), the titanium basket connecting rod (41) is arranged on the rotating disc (221) and connected with the anode titanium basket (6), the conducting slip ring (43) is arranged at the central position of the rotating disc (221), and the titanium basket connecting rod (41) is connected with the anode column (42) in a rotating mode through the conducting slip ring (43).

5. The high uniformity electroforming apparatus of claim 3, wherein: the transmission shaft assembly (23) comprises a transmission shaft body (231) and a transmission shaft fixing frame (232), the transmission shaft fixing frame (232) is arranged on the electric casting groove assembly (3) and detachably connected with the electric casting groove assembly (3), the transmission shaft body (231) is installed on the transmission shaft fixing frame (232) through a bearing, and two ends of the transmission shaft body (231) are respectively connected with the rotating motor (21) and the rotating disc (221).

6. The high uniformity electroforming apparatus of claim 2, wherein: the side wall of the anode titanium basket (6) is arc-shaped and protrudes outwards, and the side wall of the anode titanium basket (6) is of a hollowed-out net structure.

7. The high uniformity electroforming apparatus of claim 2, wherein: the top end of the supporting column (5) is provided with a rotating groove (51), and the rotating disc component (22) is located in the rotating groove (51).

8. The high uniformity electroforming apparatus of claim 5, wherein: the cathode mould assembly (1) comprises a cathode mould part (15), a support ring (11) and a cathode conducting ring (12), wherein the support ring (11) is positioned above the electroforming cell assembly (3), the cathode conducting ring (12) is arranged on the support ring (11), and the cathode mould part (15) is detachably connected with the cathode conducting ring (12).

9. The high uniformity electroforming apparatus of claim 8, wherein: the cathode mould part (15) comprises a cathode conductive connecting rod (151), a mould fixing frame (152) and a cathode mould body (153), wherein the mould fixing frame (152) is sleeved on the cathode mould body (153) and fixed outside the cathode mould body (153), one end of the cathode conductive connecting rod (151) is connected with the mould fixing frame (152) in a detachable mode, and the other end of the cathode conductive connecting rod (151) is connected with the cathode conductive ring (12) in a detachable mode.

10. The high uniformity electroforming apparatus of claim 8, wherein: the cathode mould assembly (1) further comprises an insulating ring (14), the insulating ring (14) is arranged between the cathode conductive ring (12) and the support ring (11), and the insulating ring (14) is matched with the cathode conductive ring (12).

11. The high uniformity electroforming apparatus of claim 8, wherein: be provided with holding ring (321) on electroforming cell subassembly (3), be provided with location voussoir (13) on support ring (11), be provided with spacing inclined plane (131), spacing bending (132) on location voussoir (13), spacing inclined plane (131) spacing bending (132) with the inboard of holding ring (321) cooperatees.

12. The high uniformity electroforming apparatus of claim 9, wherein: the cathode conductive connecting rod (151) is a metal rod wrapped with insulating glue.

13. The high uniformity electroforming apparatus of claim 11, wherein: the electroforming bath component (3) comprises an electroforming bath body (31) and a bearing frame (32), wherein the bearing frame (32) is arranged on the electroforming bath body (31), the rotating motor (21), the positioning ring (321) and the transmission shaft fixing frame (232) are respectively arranged on the bearing frame (32), and the support column (5), the anode titanium basket (6) and the cathode mould component (1) are respectively arranged in the electroforming bath body (31).