CN114481279A

CN114481279A - Metal material plating that contains new material is with supplementary fine motion adjusting device

Info

Publication number: CN114481279A
Application number: CN202111587884.1A
Authority: CN
Inventors: 李新合
Original assignee: Jiangsu Jiuwei New Material Co ltd
Current assignee: Jiangsu Jiuwei New Material Co ltd
Priority date: 2021-12-23
Filing date: 2021-12-23
Publication date: 2022-05-13

Abstract

The invention relates to the technical field of research and development of new material technology, and discloses an auxiliary micro-motion adjusting device for plating a metal material containing a new material, which comprises an adjusting mechanism, wherein an ejector rod is arranged inside the adjusting mechanism, a slide rod is arranged on the surface of the ejector rod, a first rotating rod is connected on the surface of the ejector rod in a sliding manner, a toothed ring is arranged on the surface of the first rotating rod, the auxiliary micro-motion adjusting device for plating the metal material containing the new material is used by matching a driving mechanism and a movable clamping block, a first transmission shaft and a gear assembly, a fluted disc and a rack, the slide rod and the ejector rod, the first rotating rod and the toothed ring, a second rotating rod and a push rod, and a toothed plate and a bracket, so that the micro-motion adjustment can be carried out on the metal material in the transverse direction, impurities on the surface of the metal material can be effectively removed, and meanwhile, an electroplating solution around the metal material is in a micro-motion state, the concentration of effective ions around the ion source is guaranteed.

Description

Metal material plating that contains new material is with supplementary fine motion adjusting device

Technical Field

The invention relates to the technical field of research and development of new material technology, in particular to an auxiliary micro-motion adjusting device for plating a metal material containing a new material.

Background

The research and development of new material technology are research and development aiming at functional materials with excellent characteristics and special properties, some new materials can be combined with the existing materials after the research and development are completed to enhance the performance of the existing materials on one aspect, some new materials can be combined with the existing metal materials to enhance the wear resistance, the corrosion resistance and the like of the metal materials, and some metal materials containing the new materials need to be plated on the surfaces of the metal materials. When a conventional metal material is plated, impurities in a plating solution are adsorbed on the surface of the metal material, so that the quality of surface plating is affected, and meanwhile, along with the progress of plating, the effective ion content in the surrounding plating solution is reduced, so that the efficiency of surface plating processing is affected.

In order to solve the above problems, we have proposed an auxiliary fine-motion adjustment device for plating a metal material containing a new material, which has the advantages of performing fine-motion adjustment on the metal material, having a good effect of removing impurities on the surface of the metal material, maintaining the surrounding electroplating solution in a micro-flow state, and stabilizing the effective ion content in the surrounding electroplating solution, and effectively improving the quality of plating on the surface of the metal material and the efficiency of plating processing.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an auxiliary micro-motion adjusting device for plating a metal material containing a new material, which has the advantages of micro-motion adjustment of the metal material, good impurity removing effect on the surface of the metal material, maintenance of micro-flow state of the electroplating solution around the metal material and stable effective ion content in the electroplating solution around the metal material, and solves the problems that the impurities in the electroplating solution are adsorbed on the surface of the metal material during plating processing, the quality of plating on the surface of the metal material is low, the effective ion content in the electroplating solution around the metal material is reduced along with the plating, and the efficiency of plating processing on the surface of the metal material is low.

(II) technical scheme

In order to realize the purposes that the metal material can be subjected to micro-motion adjustment, the impurity removal effect on the surface of the metal material is good, the electroplating solution around the metal material is kept in a micro-flow state, and the effective ion content in the electroplating solution around the metal material is stable, the invention provides the following technical scheme: the utility model provides a metal material plating that contains new material is with supplementary fine motion adjusting device, includes adjustment mechanism, adjustment mechanism's inside is provided with the ejector pin, the surface of ejector pin is provided with the slide bar, the surperficial sliding connection of ejector pin has bull stick one, the surface of bull stick one is provided with the ring gear, adjustment mechanism's inside is provided with bull stick two, the surface of bull stick two is provided with the push rod.

Still include the casing, the inside sliding connection of casing has the support, the lower surface of support is provided with fixing device, the upper surface of support is provided with the pinion rack, the surface of pinion rack is provided with drive gear, the inside of casing is provided with branch, the sliding surface of branch is connected with the bullet pole.

The inside of casing is provided with actuating mechanism, actuating mechanism includes transmission shaft one, the surperficial swing joint of transmission shaft one has movable fixture block, actuating mechanism's inside is provided with transmission shaft two, the surface of transmission shaft one is provided with the gear assembly, the surface of gear assembly is provided with the fluted disc, the surface of fluted disc is provided with the rack, the surface of gear assembly is provided with the carousel, the surperficial sliding connection of carousel has the throw-out collar.

Preferably, the fixing device is located outside the shell, the toothed plate is matched with the transmission gear, the supporting rod is located between the first rotating rod and the second rotating rod, the number of the elastic rods is two, and one end, far away from the supporting rod, of each elastic rod is connected with the surface of the corresponding first rotating rod and the surface of the corresponding second rotating rod.

Preferably, the two groups of driving mechanisms are symmetrically distributed on two sides of the support, a rotating lantern ring is arranged in each driving mechanism, tooth grooves with opposite tooth surfaces are formed in the inner surfaces of two ends of the rotating lantern ring, the first transmission shaft and the first transmission shaft are symmetrically distributed on two ends of the rotating lantern ring, and uniform movable clamping blocks are arranged on the surfaces of the first transmission shaft and the second transmission shaft.

Preferably, the movable clamping block is matched with a tooth groove corresponding to the inside of a rotating lantern ring in the driving mechanism, a gear assembly is also designed on the surface of the transmission shaft II, and the gear assembly consists of two bevel gears matched with each other.

Preferably, the fluted disc adopts a half-tooth-surface design, tooth surfaces of two fluted discs in the two groups of driving mechanisms are symmetrically distributed on the same circle, the two fluted discs are connected by adopting a cross belt, and the fluted discs and bevel gears corresponding to the inner parts of the gear assemblies are coaxially designed.

Preferably, the rotary table and the bevel gears corresponding to the insides of the gear assemblies on the two surfaces of the transmission shaft are coaxially designed, the upper surface of the rotary table is provided with push columns which are in sliding connection with the push rings, the two rotary tables inside the two groups of driving mechanisms are connected by adopting crossed belts, and the two push rings are symmetrically distributed on the surfaces of the two sides of the support.

Preferably, the two ejector rods are symmetrically distributed on two sides inside the adjusting mechanism and are respectively in sliding connection with the first rotating rod and the second rotating rod, the sliding rods are fixedly connected with the corresponding racks, and the first rotating rod and the toothed ring are coaxially designed.

Preferably, the gear ring is matched with the transmission gear, the rotating rod II and the push rod are coaxially designed, and the push rod is in sliding connection with the toothed plate.

(III) advantageous effects

Compared with the prior art, the invention provides an auxiliary fine-motion adjusting device containing a new material for plating a metal material, which has the following beneficial effects:

1. this metallic material plating that contains new material is with supplementary fine motion adjusting device, use through the cooperation of actuating mechanism with the activity fixture block, transmission shaft one uses with the cooperation of gear assembly, the cooperation of fluted disc and rack is used, the slide bar is used with the cooperation of ejector pin, bull stick one uses with the cooperation of ring gear, bull stick two uses with the cooperation of push rod, the pinion rack is used with the cooperation of support, can carry out fine motion adjustment to metallic material in the transverse direction, can effectively get rid of its surperficial impurity, make the plating solution around it be in little flow state simultaneously, ensure the concentration of effective ion around it.

2. This contain metal material plating of new material with supplementary fine motion adjusting device uses through the cooperation of actuating mechanism and activity fixture block, and transmission shaft two uses with the cooperation of gear assembly, and the carousel uses with the cooperation of push ring, and the cooperation of push ring and support is used, can carry out fine motion adjustment to metal material in longitudinal direction, can effectively get rid of its surperficial impurity, makes the plating solution around it be in little flow state simultaneously, ensures the concentration of effective ion around it.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of the internal structure of the driving mechanism of the present invention;

FIG. 3 is a schematic diagram of the structure related to lateral adjustment of the present invention;

fig. 4 is a schematic diagram of the structure related to longitudinal adjustment of the present invention.

In the figure: 1. a housing; 2. a support; 3. a fixing device; 4. a toothed plate; 5. a drive mechanism; 51. a first transmission shaft; 52. a movable clamping block; 53. a second transmission shaft; 54. a gear assembly; 55. a fluted disc; 56. a rack; 57. a turntable; 58. a push ring; 6. an adjustment mechanism; 61. a top rod; 62. a slide bar; 63. a first rotating rod; 64. a toothed ring; 65. a second rotating rod; 66. a push rod; 7. a transmission gear; 8. a strut; 9. a spring rod;

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1-4, an auxiliary fine-adjustment device for plating a metal material containing a new material includes a housing 1, a bracket 2 slidably connected to the interior of the housing 1, used for driving the fixing device 3 to move, the lower surface of the bracket 2 is provided with the fixing device 3, the fixing device 3 is positioned outside the shell 1, used for fixing the metal material and simultaneously driving the metal material to do micro-motion, the upper surface of the bracket 2 is provided with a toothed plate 4, the toothed plate 4 is matched with the transmission gear 7, used for driving the bracket 2 to move, a driving mechanism 5 is arranged in the shell 1, two groups of driving mechanisms 5 are arranged in the shell, symmetrically distributed at two sides of the bracket 2, a rotating lantern ring is designed inside the driving mechanism 5, tooth grooves with opposite tooth surfaces are designed on the inner surfaces of two ends of the rotating lantern ring, and the movable clamping block 52 on the surface of the first transmission shaft 51 or the second transmission shaft 53 is engaged to drive the first transmission shaft 51 or the second transmission shaft 53 to rotate.

The driving mechanism 5 comprises a first transmission shaft 51, the first transmission shaft 51 and a second transmission shaft 53 are symmetrically distributed at two ends of the rotating sleeve ring and used for driving bevel gears inside a gear assembly 54 on the surface of the first transmission shaft to rotate, uniform movable clamping blocks 52 are designed on the surface of the first transmission shaft 51, the movable clamping blocks 52 are movably connected with the surface of the first transmission shaft 51 and are matched with tooth grooves corresponding to the inside of the rotating sleeve ring in the driving mechanism 5 and used for driving the first transmission shaft 51 or the second transmission shaft 53 to rotate, the second transmission shaft 53 is arranged inside the driving mechanism 5 and used for driving bevel gears inside the gear assembly 54 on the surface of the driving mechanism to rotate, and the gear assembly 54 is arranged on the surface of the first transmission shaft 51 and used for driving a fluted disc 55 and a turntable 57 to rotate.

The surface of the gear assembly 54 is provided with a fluted disc 55, the fluted disc 55 adopts a half-fluted disc design, tooth surfaces of two fluted discs 55 in the two groups of driving mechanisms 5 are symmetrically distributed on the same circle, the two fluted discs 55 are connected by adopting a cross belt, the fluted disc 55 and corresponding bevel gears in the gear assembly 54 adopt a coaxial design and are meshed with the rack 56 to drive the rack 56 to reciprocate, the surface of the fluted disc 55 is provided with the rack 56 for driving the slide bar 62 to move, the surface of the gear assembly 54 is provided with a turntable 57, the turntable 57 and the corresponding bevel gears in the gear assembly 54 on the surface of the second transmission shaft 53 adopt a coaxial design, the upper surface of the turntable 57 is provided with a push column which is in sliding connection with the push ring 58, and the two turntables 57 in the two groups of driving mechanisms 5 adopt a cross belt connection to drive the push ring 58 to reciprocate.

The surface sliding connection of carousel 57 has throw ring 58, throw ring 58 has two, the symmetric distribution is at the both sides surface of support 2, be used for driving support 2 and do reciprocating motion in longitudinal direction, including adjustment mechanism 6, be used for driving slide bar 62 to remove, simultaneously carry out fine motion adjustment to metal material in longitudinal direction, the surface of pinion rack 4 is provided with drive gear 7, mesh with pinion rack 4, drive pinion rack 4 and remove, the inside of casing 1 is provided with branch 8, branch 8 is located bull stick one 63 and bull stick two 65, be used for the removal of bullet pole 9, the surface sliding connection of branch 8 has bullet pole 9, the one end of keeping away from branch 8 is connected with the surface of corresponding bull stick one 63 and bull stick two 65, be used for the buffering between bull stick one 63 and the bull stick two 65 to rotate.

Example two:

referring to fig. 1-4, an auxiliary fine-motion adjusting device for plating a metal material containing a new material comprises a housing 1, a bracket 2 is slidably connected inside the housing 1 and used for driving a fixing device 3 to move, the fixing device 3 is arranged on the lower surface of the bracket 2 and located outside the housing 1 and used for fixing the metal material and simultaneously driving the metal material to make fine-motion, a toothed plate 4 is arranged on the upper surface of the bracket 2, the toothed plate 4 is matched with a transmission gear 7 and used for driving the bracket 2 to move, a driving mechanism 5 is arranged inside the housing 1 and used for performing fine-motion adjustment on the metal material in the transverse direction, the auxiliary fine-motion adjusting device comprises an adjusting mechanism 6, two ejector rods 61 are arranged inside the adjusting mechanism 6 and symmetrically distributed on two sides inside the adjusting mechanism 6 and respectively slidably connected with a first rotating rod 63 and a second rotating rod 65, the first rotating rod 63 and the second rotating rod 65 are driven to rotate.

The surface of the ejector rod 61 is provided with a sliding rod 62, the sliding rod 62 is fixedly connected with the corresponding rack 56 and used for driving the ejector rod 61 to move, the surface of the ejector rod 61 is slidably connected with a first rotating rod 63, a coaxial design is adopted between the first rotating rod 63 and a toothed ring 64 and used for driving the toothed ring 64 to rotate, the surface of the first rotating rod 63 is provided with a toothed ring 64, the toothed ring 64 is matched with the transmission gear 7 and meshed with the transmission gear 7 and used for driving the transmission gear 7 to rotate, a second rotating rod 65 is arranged inside the adjusting mechanism 6, a coaxial design is adopted between the second rotating rod 65 and the push rod 66 and used for driving the push rod 66 to move, the surface of the second rotating rod 65 is provided with a push rod 66, and the push rod 66 is slidably connected with the toothed plate 4 and used for driving the toothed plate 4 to move.

The surface of pinion rack 4 is provided with drive gear 7, meshes with pinion rack 4, drives pinion rack 4 and removes, and the inside of casing 1 is provided with branch 8, and branch 8 is located between bull stick one 63 and bull stick two 65 for the removal of bouncing rod 9, and the surperficial sliding connection of branch 8 has bouncing rod 9, and the one end of keeping away from branch 8 is connected with the surface of bull stick one 63 and bull stick two 65 that correspond, is used for the buffering between bull stick one 63 and the bull stick two 65 to rotate.

Example three:

an auxiliary fine-motion adjusting device for plating metal materials containing new materials comprises a shell 1, a bracket 2 is connected in the shell 1 in a sliding way, used for driving the fixing device 3 to move, the lower surface of the bracket 2 is provided with the fixing device 3, the fixing device 3 is positioned outside the shell 1, used for fixing the metal material and simultaneously driving the metal material to do micro-motion, the upper surface of the bracket 2 is provided with a toothed plate 4, the toothed plate 4 is matched with the transmission gear 7, used for driving the bracket 2 to move, a driving mechanism 5 is arranged in the shell 1, two groups of driving mechanisms 5 are arranged in the shell, symmetrically distributed at two sides of the bracket 2, a rotating lantern ring is designed inside the driving mechanism 5, tooth grooves with opposite tooth surfaces are designed on the inner surfaces of two ends of the rotating lantern ring, and the movable clamping block 52 on the surface of the first transmission shaft 51 or the second transmission shaft 53 is engaged to drive the first transmission shaft 51 or the second transmission shaft 53 to rotate.

The surface of the gear assembly 54 is provided with a fluted disc 55, the fluted disc 55 adopts a half-fluted-surface design, the tooth surfaces of two fluted discs 55 in the two groups of driving mechanisms 5 are symmetrically distributed on the same circle, the two fluted discs 55 are connected by adopting a cross belt, the fluted disc 55 and the bevel gears corresponding to the inside of the gear assembly 54 adopt a coaxial design and are meshed with the rack 56 to drive the rack 56 to reciprocate, the surface of the fluted disc 55 is provided with the rack 56 for driving the slide bar 62 to move, the surface of the gear assembly 54 is provided with a turntable 57, the turntable 57 and the bevel gears corresponding to the inside of the gear assembly 54 on the surface of the second transmission shaft 53 adopt a coaxial design, the upper surface of the turntable 57 is provided with a push column which is in sliding connection with the push ring 58, the two turntables 57 in the two groups of driving mechanisms 5 adopt a cross belt connection for driving the push ring 58 to reciprocate, the surface of the turntable 57 is in sliding connection with the push ring 58, the two push rings 58 are symmetrically distributed on two side surfaces of the bracket 2 and are used for driving the bracket 2 to reciprocate in the longitudinal direction.

The adjusting mechanism comprises an adjusting mechanism 6, wherein ejector rods 61 are arranged inside the adjusting mechanism 6, the ejector rods 61 are two, the ejector rods are symmetrically distributed on two sides inside the adjusting mechanism 6 and are respectively in sliding connection with a first rotating rod 63 and a second rotating rod 65 and are used for driving the first rotating rod 63 and the second rotating rod 65 to rotate, a sliding rod 62 is arranged on the surface of the ejector rod 61, the sliding rod 62 is fixedly connected with a corresponding rack 56 and is used for driving the ejector rod 61 to move, the surface of the ejector rod 61 is connected with the first rotating rod 63 in a sliding mode, the first rotating rod 63 and a toothed ring 64 are coaxially designed and are used for driving the toothed ring 64 to rotate, a toothed ring 64 is arranged on the surface of the first rotating rod 63, the toothed ring 64 is matched with a transmission gear 7 and is meshed with the transmission gear 7 and drives the transmission gear 7 to rotate.

The inside of adjustment mechanism 6 is provided with bull stick two 65, adopt coaxial design between bull stick two 65 and the push rod 66, be used for driving push rod 66 to remove, the surface of bull stick two 65 is provided with push rod 66, push rod 66 and 4 sliding connection of pinion rack, be used for driving pinion rack 4 to remove, the surface of pinion rack 4 is provided with drive gear 7, mesh with pinion rack 4, it removes to drive pinion rack 4, the inside of casing 1 is provided with branch 8, branch 8 is located between bull stick one 63 and bull stick two 65, be used for the removal of bouncing rod 9, the surperficial sliding connection of branch 8 has bouncing rod 9, the one end of keeping away from branch 8 is connected with the surperficial of corresponding bull stick one 63 and bull stick two 65, be used for the buffering between bull stick one 63 and the bull stick two 65 to rotate.

The working principle is as follows: when the metal material containing new material is plated, the device can be used for carrying out auxiliary micro-motion adjustment operation on the metal material, and the specific operation steps are as follows:

firstly, fixing a metal material on the surface of a fixing device 3, then placing the metal material in plating equipment, rotating a rotating lantern ring in a driving mechanism 5 through related driving equipment, wherein a tooth groove on the inner surface of the rotating lantern ring is meshed with a movable clamping block 52 on the surface of a first transmission shaft 51 to drive the first transmission shaft 51 to rotate, the first transmission shaft 51 drives a gear assembly 54 on the surface of the first transmission shaft to rotate, the gear assembly 54 drives a fluted disc 55 to rotate, and the fluted disc 55 drives the fluted disc 55 in the other group to rotate through belt connection.

Two fluted discs 55 can be meshed with the rack 56 alternately, the rack 56 is driven to reciprocate, a sliding rod 62 of the rack 56 moves, the sliding rod 62 drives an ejector rod 61 to move, the ejector rod 61 drives a rotating rod I63 and a rotating rod II 65 to rotate, the rotating rod I63 can drive a toothed ring 64 to rotate when rotating, the toothed ring 64 is meshed with a transmission gear 7 to drive the transmission gear 7 to rotate, the transmission gear 7 is meshed with a toothed plate 4 to drive the toothed plate 4 to move, the rotating rod II 65 can drive a push rod 66 to move when rotating, the push rod 66 is matched with the transmission gear 7 to drive the toothed plate 4 to move, the reciprocating movement of the rack 56 can drive the toothed plate 4 to reciprocate through the matching of structures such as the sliding rod 62, the toothed plate 4 drives the support 2 to move together, the support 2 drives metal materials to move together through the fixing device 3, and the metal materials are subjected to micro-adjustment in the transverse direction.

The internal rotating lantern ring of the driving mechanism 5 is rotated reversely through related driving equipment, at the moment, the tooth sockets inside the rotating lantern ring are meshed with the movable clamping blocks 52 on the surfaces of the second transmission shafts 53 to drive the second transmission shafts 53 to rotate, the second transmission shafts 53 drive the bevel gears inside the gear assemblies 54 on the surfaces of the second transmission shafts to rotate together, the gear assemblies 54 drive the rotary discs 57 to rotate, the rotary discs 57 drive the rotary discs 57 inside the other group of driving mechanisms 5 to synchronously rotate through belt connection, the two rotary discs 57 drive the corresponding push rings 58 to reciprocate through cylinders on the surfaces of the rotary discs 57, the two push rings 58 are mutually matched to drive the support 2 to reciprocate in the longitudinal direction, and the support 2 drives the metal materials to move together through the fixing device 3, so that the metal materials are subjected to micro-adjustment in the longitudinal direction.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. An auxiliary fine-motion adjusting device for plating a metal material containing a new material is characterized in that: including adjustment mechanism (6), the inside of adjustment mechanism (6) is provided with ejector pin (61), the surface of ejector pin (61) is provided with slide bar (62), the surperficial sliding connection of ejector pin (61) has bull stick (63), the surface of bull stick (63) is provided with ring gear (64), the inside of adjustment mechanism (6) is provided with bull stick two (65), the surface of bull stick two (65) is provided with push rod (66).

2. The micro-motion adjusting device for metal material plating containing a new material as set forth in claim 1, wherein: still include casing (1), the inside sliding connection of casing (1) has support (2), the lower surface of support (2) is provided with fixing device (3), the upper surface of support (2) is provided with pinion rack (4), the surface of pinion rack (4) is provided with drive gear (7), the inside of casing (1) is provided with branch (8), the sliding surface connection of branch (8) has spring pole (9).

3. The micro-motion adjusting device for metal material plating containing a new material as set forth in claim 2, wherein: the inside of casing (1) is provided with actuating mechanism (5), actuating mechanism (5) are including transmission shaft one (51), the surperficial swing joint of transmission shaft one (51) has movable fixture block (52), the inside of actuating mechanism (5) is provided with transmission shaft two (53), the surface of transmission shaft one (51) is provided with gear assembly (54), the surface of gear assembly (54) is provided with fluted disc (55), the surface of fluted disc (55) is provided with rack (56), the surface of gear assembly (54) is provided with carousel (57), the surperficial sliding connection of carousel (57) has push ring (58).

4. The micro-motion adjusting device for metal material plating containing a new material as set forth in claim 2, wherein: fixing device (3) are located the outside of casing (1), pinion rack (4) and drive gear (7) looks adaptation, and branch (8) are located between bull stick one (63) and bull stick two (65), and bullet pole (9) have two, keep away from the one end of branch (8) and the surperficial connection of bull stick one (63) and bull stick two (65) that correspond.

5. The micro-motion adjusting device for metal material plating containing a new material as set forth in claim 3, wherein: the two groups of driving mechanisms (5) are symmetrically distributed on two sides of the support (2), a rotating lantern ring is designed inside the driving mechanisms (5), tooth grooves with opposite tooth surfaces are designed on the inner surfaces of two ends of the rotating lantern ring, the first transmission shaft (51) and the second transmission shaft (53) are symmetrically distributed at two ends of the rotating lantern ring, and uniform movable clamping blocks (52) are designed on the surfaces of the first transmission shaft and the second transmission shaft.

6. The micro-motion adjusting device for metal material plating containing a new material as set forth in claim 3, wherein: the movable clamping block (52) is matched with a corresponding tooth groove in the rotating lantern ring in the driving mechanism (5), a gear assembly (54) is also designed on the surface of the second transmission shaft (53), and the gear assembly (54) is composed of two bevel gears which are matched with each other.

7. The micro-motion adjusting device for metal material plating containing a new material as set forth in claim 3, wherein: the fluted disc (55) adopts a half-tooth-surface design, the tooth surfaces of two fluted discs (55) in the two groups of driving mechanisms (5) are symmetrically distributed on the same circle, the two fluted discs (55) are connected by adopting a cross belt, and the fluted disc (55) and the bevel gears corresponding to the inner parts of the gear assemblies (54) adopt a coaxial design.

8. The micro-motion adjusting device for metal material plating containing a new material as set forth in claim 3, wherein: the bevel gears corresponding to the inner parts of the gear assemblies (54) on the surfaces of the rotating discs (57) and the second transmission shafts (53) are coaxially designed, the upper surfaces of the rotating discs (57) are provided with push columns which are in sliding connection with the push rings (58), the two rotating discs (57) in the two groups of driving mechanisms (5) are connected through cross belts, and the two push rings (58) are symmetrically distributed on the surfaces of the two sides of the support (2).

9. The micro-motion adjusting device for metal material plating containing a new material as set forth in claim 1, wherein: the two ejector rods (61) are symmetrically distributed on two sides inside the adjusting mechanism (6) and are respectively in sliding connection with the first rotating rod (63) and the second rotating rod (65), the sliding rod (62) is fixedly connected with the corresponding rack (56), and the first rotating rod (63) and the toothed ring (64) are coaxially designed.

10. The micro-motion adjusting device for metal material plating containing a new material as set forth in claim 2, wherein: the toothed ring (64) is matched with the transmission gear (7), the rotating rod II (65) and the push rod (66) are coaxially designed, and the push rod (66) is in sliding connection with the toothed plate (4).