CN219078639U - Transmission mechanism and electroplating production line with same - Google Patents

Abstract

The utility model discloses a transmission mechanism and an electroplating production line with the same, comprising the following steps: a clamping structure and a transmission structure. The clamping structure comprises at least two opposite clamping assemblies and at least one group of transmission structures, wherein the transmission structures are suitable for being fixedly connected with electroplating line segments without the clamping structures; the conveying structure comprises conveying rollers and an adjusting structure, wherein at least two conveying rollers are arranged in pairs, the adjusting structure is rotationally connected with the conveying rollers, and the adjusting structure is fixedly connected with the base frame; the adjusting structure is suitable for adjusting the distance and the angle between the two opposite conveying rollers. According to the structure, the distance and the angle between the two opposite transmission rollers are adjusted through the adjusting structure, so that friction forces in different directions are generated on the workpiece to be processed by the transmission rollers, and the film on the workpiece to be processed is stretched, so that wrinkles on the film on the workpiece to be processed are leveled.

Description

Transmission mechanism and electroplating production line with same

Technical Field

The utility model relates to the technical field of electroplating, in particular to a transmission mechanism and an electroplating production line with the same.

Background

The horizontal plating line water electroplating process flow comprises a copper front reflux-copper plating section-a copper rear reflux section-water washing-antioxidation-drying. When the copper is put into the copper groove, the film surface needs to carry small current, so that the copper on the bottom of the surface to be plated is prevented from being bitten. The copper plating section ensures that the corresponding area of the film surface and the anode is large, and the current distribution on the surface of the film material is uniform. The post-treatment water washing requires that the surface of the film be sufficiently cleaned, and no electroplating solution remains. The oxidation resistance is required to treat the whole surface of the film, so that the protection film is generated on the whole surface of the film. The film surface is required to be dried in an omnibearing way without dead angles, so that the film surface is prevented from being polluted and oxidized in the later period due to residual liquid medicine.

The original film of the horizontal coating line has different degrees of deformation or other defects due to the front-end process, the film material needs to enter from the inlet of the process section in the production process of the electroplating line, and the film material needs to be conveyed by the conveying roller in the conveying process of the film material.

However, as the whole roll of film has the difference in the length direction, the film surface is not matched with the deformation of the film material in the tensioning state of the film material in the moving direction of the transmission structure after being contacted with the working surface of the existing transmission structure; irregular wrinkling of the film surface can occur between the transmission structure and the transmission structure, and adverse effects are caused on subsequent processing.

Disclosure of Invention

Therefore, the technical problem to be solved by the utility model is that the wrinkling phenomenon occurs on the film surface between the transmission structures.

To this end, the utility model provides a transmission mechanism comprising: a base frame, and a plurality of base frames disposed on the base frame:

at least one clamping structure, wherein the clamping structure comprises at least two opposite clamping assemblies, and a pair of the clamping assemblies are enclosed into a first transmission cavity suitable for clamping materials; and

at least one group of transmission structures, wherein the transmission structures are suitable for being fixedly connected with the electroplating line segments without the clamping structures; the conveying structure comprises conveying rollers and an adjusting structure, wherein at least two conveying rollers are arranged in pairs, the adjusting structure is rotationally connected with the conveying rollers, and the adjusting structure is fixedly connected with the base frame;

wherein, form between two transmission rollers that set up in pairs and supply the material to pass through the transmission passageway, two adjacent transmission passageway jointly form the second transmission chamber that supplies the material circulation, adjusting structure is suitable for two relatively transmission roller and transmission roller between distance and angle.

Optionally, the conveying structure includes a first conveying roller and a second conveying roller that are disposed opposite to each other;

the adjusting structure comprises:

the mounting frame is fixedly connected with the base frame;

the first mounting piece and the second mounting piece are both mounted in the mounting frame, the first mounting piece is used for mounting the first transmission roller, and the second mounting piece is used for mounting the second transmission roller;

a first adjusting assembly disposed between the first mount and the mounting frame for adjusting the position of the first transfer roller;

and the second adjusting assembly is arranged between the second mounting piece and the mounting frame and is used for adjusting the position of the second conveying roller.

Optionally, the first adjusting assembly includes: a first adjustment structure and a second adjustment structure; the first adjusting structure is suitable for adjusting the position of the first mounting piece in a first direction, the second adjusting structure is suitable for adjusting the position of the first mounting piece in a second direction, and the first direction and the second direction are intersected;

the second adjustment assembly includes: a third adjustment structure and a fourth adjustment structure; the third adjusting structure is suitable for adjusting the position of the second mounting piece in a third direction, the fourth adjusting structure is suitable for adjusting the position of the second mounting piece in a fourth direction, and the third direction is intersected with the fourth direction.

Optionally, the third direction is parallel to the first direction, and the fourth direction is parallel to the second direction.

Optionally, the first adjusting structure includes:

a first mounting block mounted on the mounting frame and a second mounting block mounted on the first mounting block;

the first adjusting piece is arranged between the first mounting block and the second mounting block in a penetrating mode and is suitable for adjusting the relative position between the first mounting block and the second mounting block.

Optionally, the third adjusting structure includes:

a third mounting block mounted on the mounting frame and a fourth mounting block mounted on the second mounting block;

the third adjusting piece is arranged between the third mounting block and the fourth mounting block in a penetrating mode and is suitable for adjusting the relative position between the third mounting block and the fourth mounting block.

Optionally, the second adjusting structure includes: the second adjusting piece is arranged between the mounting frame and the first mounting piece in a penetrating mode.

Optionally, the fourth adjusting structure includes:

the fourth adjusting piece and the locking piece, the fourth adjusting piece wears to establish the installation frame with between the second installation piece, the locking piece cover is established the fourth adjusting piece outside, the locking piece is suitable for the locking the fourth adjusting piece relative the installation frame's position.

An electroplating line comprising: the transmission mechanism is sequentially arranged along the transmission direction of the transmission mechanism: the electroplating device comprises a pre-plating mechanism, an electroplating mechanism and a post-plating reflux mechanism, wherein the clamping structure clamps materials in the electroplating mechanism, and the transmission structure is suitable for transmitting the materials in the pre-plating mechanism and the post-plating reflux mechanism.

Optionally, the conveying direction of the transmission mechanism is set up in the washing mechanism, the antioxidation mechanism and the drying mechanism behind the back flow mechanism after plating, wherein the transmission mechanism guides the materials in the washing mechanism, the antioxidation mechanism and the drying mechanism.

The technical scheme provided by the utility model has the following advantages:

1. the utility model provides a transmission structure, which comprises: a base frame, and a plurality of base frames disposed on the base frame: at least one clamping structure, wherein the clamping structure comprises at least two opposite clamping assemblies, and a pair of the clamping assemblies are enclosed into a first transmission cavity suitable for clamping materials; the transmission structure is suitable for being fixedly connected with the electroplating line segment without the clamping structure; the conveying structure comprises conveying rollers and an adjusting structure, wherein at least two conveying rollers are arranged in pairs, the adjusting structure is rotationally connected with the conveying rollers, and the adjusting structure is fixedly connected with the base frame; wherein, form between two transmission rollers that set up in pairs and supply the material to pass through the transmission passageway, two adjacent transmission passageway jointly form the second transmission chamber that supplies the material circulation, adjusting structure is suitable for two relatively transmission roller and transmission roller between distance and angle.

This structure is adjusted the distance and the angle between two relative transmission rollers through setting up adjusting structure, because can produce the angle of different directions between two transmission rollers for the transmission roller can produce the frictional force of different directions when treating the transmission of machined part, and the frictional force of two different directions can treat the film on the machined part and stretch, thereby the fold on the film on the machined part is treated to the strand level, thereby optimize the processingquality of film, reduce the defective rate.

2. The electroplating production line provided by the utility model comprises the following components: the transmission subassembly sets gradually along transmission direction of transmission structure: the device comprises a pre-plating mechanism, an electroplating mechanism, a post-plating reflow mechanism, a water washing mechanism, an antioxidant mechanism and a drying mechanism.

The transmission structure of the structure guides materials in the preplating mechanism, the electroplating back-flow mechanism, the water washing mechanism, the antioxidation mechanism and the drying mechanism, and the preplating mechanism adopts a conductive roller and a rubber coating roller passing mode to convey the film material into the copper tank and conduct small current to the film material, so that the film material is charged into the copper tank. Preventing the copper groove of the film bottom copper from being corroded before being clamped by the electroplating clamp. The electroplating mechanism adopts a clamping structure, and the double-sided clamp is driven and conductive. The electroplating clamp adopts a clamping structure to clamp the membrane material, so that the current in each area of the membrane material is ensured to be uniform. Meanwhile, the whole membrane surface of the membrane material is in contact with the liquid medicine, and the whole membrane surface of the membrane material corresponds to the anode. The omnibearing electroplating of the whole film surface is ensured, the current efficiency is improved, and the uniformity and consistency of the copper plating layer are ensured. And (5) carrying out copper plating, and then carrying out reflow to carry out clamping removal. The water washing mechanism, the antioxidation mechanism and the drying mechanism adopt transmission rollers for transmission, the whole film surface is completely free of shielding, the water washing is complete, the whole film surface is free of electroplating liquid residue, the antioxidation layer is formed on the surface of the film surface in an omnibearing manner, the whole film surface can be dried without dead angles by drying, the film surface is thoroughly dried, and no liquid medicine residue is caused.

3. The utility model provides a transmission structure, the fourth adjusting structure comprises: the fourth adjusting piece and the locking piece, the fourth adjusting piece wears to establish the installation frame with between the second installation piece, the locking piece cover is established the fourth adjusting piece outside, the locking piece is suitable for the locking the fourth adjusting piece relative the installation frame's position.

This structure is through setting up fourth adjustment structure, fourth adjustment mechanism runs through the upper wall of installing frame, and rotate with the second installed part and be connected, when needs carry out the reciprocating to the second installed part, through rotatory fourth adjustment structure, fourth adjustment structure can reciprocate at the upper wall of installing frame, drive the second installed part simultaneously and reciprocate, and then adjust the second transmission roller, the rethread sets up the retaining member, after adjusting the suitable position with the second transmission roller, through rotatory retaining member, lock fourth adjustment mechanism, prevent that fourth adjustment mechanism's self from sliding, lead to the skew of second transmission roller.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the overall structure of a clamping structure according to an embodiment of the present utility model;

fig. 2 is a schematic overall structure of a transmission structure according to an embodiment of the present utility model;

FIG. 3 is a schematic structural view of an adjusting structure provided in an embodiment of the present utility model;

FIG. 4 is a rear view of an adjustment structure provided in an embodiment of the present utility model;

FIG. 5 is a schematic view of an electroplating line according to an embodiment of the present utility model;

reference numerals illustrate:

1-a clamping structure;

2-a transmission structure; 21-a transfer roller; 211-a first transfer roller; 212-a second transfer roller; 22-an adjustment structure; 221-a mounting frame; 222-a first mount; 223-a second mount;

3-a first adjustment assembly; 31-a first adjustment structure; 311-a first mounting block; 312-a second mounting block; 313-a first adjustment member; 32-a second adjustment structure;

4-a second adjustment assembly; 41-a third adjustment structure; 411-a third mounting block; 412-a fourth mounting block; 413-a third adjustment member; 42-fourth adjustment structure; 421-fourth adjustment; 422-locking member;

5-a preplating mechanism; 6-an electroplating mechanism; 7-a post-plating reflow mechanism; 8-a water washing mechanism; 9-an antioxidant mechanism; 10-a drying mechanism.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

In addition, the technical features of the different embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

Example 1

The present embodiment provides a transmission mechanism, as shown in fig. 1 to 4, including: a clamping structure 1 and a transport structure 2.

As shown in fig. 1 and 2, a transmission mechanism includes: a base frame and a plurality of base frames arranged on the base frame: at least one group of clamping structures 1, wherein the group of clamping structures 1 comprises at least two opposite clamping assemblies, and a pair of clamping assemblies are enclosed into a first transmission cavity suitable for clamping materials; and at least one group of transmission structures 2, the transmission structures 2 being adapted to be fixedly connected with the electroplated line segments on which the clamping structures 1 are not mounted; any group of transmission structures 2 comprises transmission rollers 21 and adjusting structures 22, at least two groups of transmission rollers 21 are arranged in pairs, the adjusting structures 22 are rotationally connected with the transmission rollers 21, and the adjusting structures 22 are fixedly connected with the base frame; wherein, form the supplies material and pass through the transmission passageway between two transport rollers 21 that set up in pairs, two adjacent transmission passageways jointly form the second transmission chamber that supplies the material circulation, and the adjustment structure 22 is suitable for adjusting the distance and the angle between two relative transport rollers 21 and the transport roller 21.

In this embodiment, by providing a transmission mechanism, it includes: a base frame and a plurality of base frames arranged on the base frame: at least one group of clamping structures 1, wherein the group of clamping structures 1 comprises at least two opposite clamping assemblies, and a pair of clamping assemblies are enclosed into a first transmission cavity suitable for clamping materials; clamping the to-be-machined parts on the assembly line at the electroplating stage in the electroplating line section by using opposite clamping assemblies to carry out electroplating treatment, wherein on one hand, the to-be-machined parts are clamped on two sides, so that the film can be clamped, the film is stretched, and wrinkles on the film are eliminated; on the other hand, when the workpiece is clamped on two sides, most of the surface of the workpiece to be machined can be exposed in the first transmission cavity, so that electroplating is more comprehensive and sufficient, and electroplating efficiency is improved. And at least one group of transmission structures 2, the transmission structures 2 being adapted to be fixedly connected with the electroplated line segments on which the clamping structures 1 are not mounted; any group of transmission structures 2 comprises transmission rollers 21 and adjusting structures 22, at least two groups of transmission rollers 21 are arranged in pairs, the adjusting structures 22 are rotationally connected with the transmission rollers 21, and the adjusting structures 22 are fixedly connected with the base frame; wherein, a material passing transmission channel is formed between two transmission rollers 21 arranged in pairs, two adjacent transmission channels jointly form a second transmission cavity for material circulation, one end of each transmission roller 21 penetrates through the transmission structure 2, the other end of each transmission roller does not penetrate through the transmission structure 2, and the angle of each transmission roller 21 is regulated by the transmission structure 2 which does not penetrate through the transmission structure 2; one end of a transmission roller 21 penetrating through the transmission structure 2 is connected with an external power source; the adjustment structure 22 is adapted to adjust the distance and angle between two opposing transport rollers 21 and the transport roller 21; according to the structure, the distance and the angle between the two opposite conveying rollers 21 and the conveying rollers 21 are adjusted through the adjusting structure 22, and as the angles in different directions are generated between the two conveying rollers 21, friction forces in different directions can be generated when the conveying rollers 21 convey workpieces to be processed, and the films on the workpieces to be processed can be stretched by the friction forces in the two different directions, so that wrinkles on the films on the workpieces to be processed are leveled, the processing quality of the films is optimized, and the defective rate is reduced.

As shown in fig. 2 and 3, the conveying structure 2 includes a first conveying roller 211 and a second conveying roller 212 that are disposed opposite to each other; the adjustment structure 22 includes: the mounting frame 221 is fixedly connected with the base frame; the first mounting piece 222 and the second mounting piece 223 are both mounted in the mounting frame 221, the first mounting piece 222 is used for mounting the first conveying roller 211, and the second mounting piece 223 is used for mounting the second conveying roller 212; the first adjusting assembly 3 is disposed between the first mount 222 and the mount frame 221 for adjusting the position of the first conveying roller 211; the second adjusting assembly 4 is disposed between the second mounting 223 and the mounting frame 221 for adjusting the position of the second transfer roller 212.

In the present embodiment, the mounting frame 221 is fixedly connected to the base frame; the first mounting piece 222 and the second mounting piece 223 are both mounted in the mounting frame 221, the first mounting piece 222 and the second mounting piece 223 can move up and down and left and right in a small range in the mounting frame 221, the first mounting piece 222 is used for mounting the first conveying roller 211, and the second mounting piece 223 is used for mounting the second conveying roller 212; the first mounting piece 222 is rotatably connected with the first conveying roller 211, the second mounting piece 223 is rotatably connected with the second conveying roller 212, and the first adjusting component 3 is arranged between the first mounting piece 222 and the mounting frame 221 and is used for adjusting the position of the first conveying roller 211; the second adjusting component 4 is arranged between the second mounting piece 223 and the mounting frame 221 and is used for adjusting the position of the second conveying roller 212, so that the first conveying roller 211 and the second conveying roller 212 can independently move up and down and left and right, and the angle between the first conveying roller 211 and the second conveying roller 212 can also be adjusted by itself, different distances and angles are formed between the first conveying roller 211 and the second conveying roller 212 by adjusting the first adjusting component 3 and the second adjusting component 4, so that the film tensioning state of the rollers is guaranteed to be matched with the deformation of the film, the film surface is in a tensioning and non-wrinkling state, friction forces in different directions can be generated when the first conveying roller 211 and the second conveying roller 212 are used for conveying the workpiece, and the films on the workpiece to be stretched by the friction forces in two different directions, so that the strands are leveled on the film on the workpiece to be processed, and the processing quality of the films is optimized, and the defective rate is reduced.

As shown in fig. 3, the first adjusting assembly 3 includes: a first adjustment structure 31 and a second adjustment structure 32; the first adjusting structure 31 is adapted to adjust the position of the first mounting member 222 in a first direction, and the second adjusting structure 32 is adapted to adjust the position of the first mounting member 222 in a second direction, the first direction intersecting the second direction; the second adjusting assembly 4 comprises: a third adjustment structure 41 and a fourth adjustment structure 42; the third adjusting structure 41 is adapted to adjust the position of the second mounting member 223 in a third direction, and the fourth adjusting structure 42 is adapted to adjust the position of the second mounting member 223 in a fourth direction, the third direction intersecting the fourth direction; the third direction is parallel to the first direction, and the fourth direction is parallel to the second direction.

In the present embodiment, by providing the first adjusting structure 31 and the second adjusting structure 32, the first adjusting structure 31 is adapted to adjust the position of the first mounting member 222 in the first direction, and can adjust the first mounting member 222 to perform left-right adjustment, and when the first adjusting assembly 3 is adjusted, the first mounting member 222 and the second mounting member 223 each independently perform left-right movement; the second adjusting structure 32 is adapted to adjust the position of the first mounting in the second direction and to adjust the first mounting member 222 to move up and down simultaneously inside the mounting frame 221; by providing a third adjustment structure 41 and a fourth adjustment structure 42; the third adjusting structure 41 is adapted to adjust the position of the second mounting member 223 in the third direction and to adjust the movement of the second mounting member 223 alone in the left-right direction, and the fourth adjusting structure 42 is adapted to adjust the position of the second mounting member 223 in the fourth direction and to adjust the movement of the second mounting member 223 alone up-down within the mounting frame 221, thereby controlling the distance and angle between the first conveying roller 211 and the second conveying roller 212. The third direction is intersected with the fourth direction; the third direction is parallel to the first direction, and the fourth direction is parallel to the second direction.

As shown in fig. 3, the first adjustment structure 31 includes: a first mounting block 311 and a second mounting block 312, the first mounting block 311 being mounted on the mounting frame 221, the second mounting block 312 being mounted on the first mounting block 311; the first adjusting member 313, the first adjusting member 313 is arranged between the first mounting block 311 and the second mounting block 312 in a penetrating way, and is suitable for adjusting the relative position between the first mounting block 311 and the second mounting block 312.

In this embodiment, the first adjusting member 313 is specifically a screw through penetrating the first mounting block 311 and the second mounting block 312, and two screws are respectively located on two sides of the second mounting frame on the screw, and the second mounting block 312 is moved left and right by rotating the two screws, so as to drive the first mounting member 222 to move left and right; and one end of the first adjusting member 313 far away from the first mounting block 311 is connected with the base frame, and the first mounting block 311 is connected with the first adjusting member 313, so that the first adjusting member 313 can shake a small distance inside the first mounting block 311.

As shown in fig. 3, the third adjustment structure 41 includes: a third mounting block 411 and a fourth mounting block 412, the third mounting block 411 being mounted on the mounting frame 221, the fourth mounting block 412 being mounted on the second mounting block 312; and a third adjusting member 413, the third adjusting member 413 being penetrated between the third mounting block 411 and the fourth mounting block 412 and adapted to adjust the relative position between the third mounting block 411 and the fourth mounting block 412.

In this embodiment, the third adjusting member 413 is specifically a screw rod, and two screws on the screw rod are respectively located at two sides of the fourth mounting frame, and the fourth mounting block 412 is moved left and right by rotating the two screws, so as to drive the second mounting member 223 to move left and right; and one end of the third adjusting member 413 away from the third mounting block 411 is connected with the base frame, the connection position of the third mounting block 411 and the third adjusting member 413, and the third adjusting member 413 can shake a small distance inside the third mounting block 411.

As shown in fig. 3, the second adjustment structure 32 includes: and a second regulating member penetrating between the mounting frame 221 and the first mounting member 222.

In this embodiment, the second adjusting member is specifically: the screw penetrates through the lower mounting frame 221 to be propped against the lower surface of the first mounting piece 222, and the first mounting piece 222 is controlled to move up and down by rotating the screw.

As shown in fig. 3, the fourth adjustment structure 42 includes: fourth regulating member 421 and retaining member 422, fourth regulating member 421 wears to establish between mounting frame 221 and second mounting member 223, and retaining member 422 overlaps in fourth regulating member 421 outside, and retaining member 422 is suitable for locking the position of fourth regulating member 421 relative to mounting frame 221.

In this embodiment, by providing the fourth adjusting structure 42, the fourth adjusting mechanism penetrates through the upper wall of the mounting frame 221 and is rotationally connected with the second mounting member 223, when the second mounting member 223 needs to be moved up and down, the fourth adjusting structure 42 can move up and down on the upper wall of the mounting frame 221 by rotating the fourth adjusting structure 42, and meanwhile, the second mounting member 223 is driven to move up and down, so that the second conveying roller 212 is adjusted, and then by providing the locking member 422, after the second conveying roller 212 is adjusted to a proper position, the fourth adjusting mechanism is locked by rotating the locking member 422, so that the fourth adjusting mechanism is prevented from sliding itself, and the second conveying roller 212 is prevented from being deviated.

Example 2

The embodiment provides an electroplating production line, as shown in fig. 5, including: the transmission mechanism is sequentially arranged along the transmission direction of the transmission mechanism: the plating device comprises a pre-plating mechanism 5, an electroplating mechanism 6 and a post-plating reflux mechanism 7, wherein a clamping structure clamps materials in the electroplating mechanism 6, and the conveying structure is suitable for conveying the materials in the pre-plating mechanism 5 and the post-plating reflux mechanism 7. The device also comprises a water washing mechanism 8, an antioxidant mechanism 9 and a drying mechanism 10 which are arranged behind the post-plating reflow mechanism 7 along the conveying direction of the transmission mechanism, wherein the transmission structure guides materials in the water washing mechanism 8, the antioxidant mechanism 9 and the drying mechanism 10.

Wherein, the transmission structure guides the materials in the preplating mechanism 5, the back reflux mechanism 7 after electroplating, the water washing mechanism 8, the antioxidation mechanism 9 and the drying mechanism 10, and the preplating mechanism 5 adopts a conductive roller and a rubber coating roller passing mode to carry the film material into the electroplating mechanism 6 and simultaneously can conduct small current to the film material, thereby realizing that the film material is charged into the electroplating mechanism 6. Preventing the membrane material from being snapped before the electroplating clamp is clamped. The copper plating section adopts double-sided clamp transmission and electric conduction. The electroplating clamp adopts a clamping structure to clamp the membrane material, so that the current in each area of the membrane material is ensured to be uniform. Meanwhile, the whole membrane surface of the membrane material is in contact with the liquid medicine, and the whole membrane surface of the membrane material corresponds to the anode. The omnibearing electroplating of the whole film surface is ensured, the current efficiency is improved, and the uniformity and consistency of the copper plating layer are ensured. And (5) carrying out copper plating, and then carrying out reflow to carry out clamping removal. The water washing mechanism 8, the antioxidation mechanism 9 and the drying mechanism 10 adopt the transmission structure 2 for transmission, the whole film surface comprises the clamping point position of the electroplating mechanism 6, the whole film surface is completely free of shielding, the water washing is thorough, the whole film surface is free of electroplating liquid residues, the antioxidation forms a protective layer on the surface of the film surface in an omnibearing manner, the drying can realize the drying of the whole film surface without dead angles, the film surface is ensured to be dried thoroughly, and no liquid medicine remains.

The application process of the transmission mechanism provided in the embodiment is as follows:

when the first conveying roller 211 and the second conveying roller 212 are required to be adjusted up and down, the second adjusting parts at the two ends of the conveying roller 21 are rotated to drive the second mounting parts 223 to move up and down, so that the first mounting parts 222 are driven to move up and down;

when the second conveying roller 212 needs to be adjusted up and down independently, the fourth adjusting structures 42 at two ends of the second conveying roller 212 are rotated to enable the fourth adjusting structures 42 to move up and down on the upper wall of the mounting frame 221, meanwhile, the second mounting piece 223 is driven to move up and down, and then the second conveying roller 212 is adjusted, after the second conveying roller 212 is adjusted to a proper position through the locking piece 422, the fourth adjusting mechanisms are locked through the rotation of the locking piece 422, and self sliding of the fourth adjusting mechanisms is prevented, so that the second conveying roller 212 is caused to deviate.

When the first conveying roller 211 needs to be adjusted in a left-right angle, the second mounting block 312 is moved in a left-right direction by rotating the two screws, so that the first mounting piece 222 is driven to move in a left-right direction, and the first conveying roller 211 is driven to move in a left-right direction, so that the first conveying roller 211 is adjusted in an angle; when the second conveying roller 212 needs to be adjusted in a left-right angle, the screws on the third adjusting piece 413 are rotated to move the fourth mounting block 412 in a left-right direction, so as to drive the second mounting piece 223 to move in a left-right direction; thereby driving the second transfer roller 212 to move left and right, and performing angle adjustment on the second transfer roller 212.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the utility model.

Claims (10)

1. A transmission mechanism, comprising: a base frame, and a plurality of base frames disposed on the base frame:

at least one group of clamping structures (1), wherein one group of clamping structures (1) comprises at least two opposite clamping assemblies, and a pair of clamping assemblies are enclosed into a first transmission cavity suitable for clamping materials; and

at least one group of transmission structures (2), wherein the transmission structures (2) are suitable for being fixedly connected with the electroplating line segments without the clamping structures (1); any group of the transmission structures (2) comprises transmission rollers (21) and an adjusting structure (22), wherein at least two groups of the transmission rollers (21) are arranged in pairs, the adjusting structure (22) is rotationally connected with the transmission rollers (21), and the adjusting structure (22) is fixedly connected with the base frame;

wherein, form the supplies material and pass through the transmission passageway between two transmission rollers (21) that set up in pairs, two adjacent transmission passageways jointly form the second transmission chamber that supplies the material circulation, adjusting structure (22) are suitable for two relative distance and angle between transmission roller (21) and transmission roller (21).

2. The transmission mechanism according to claim 1, characterized in that the transport structure (2) comprises a first transport roller (211) and a second transport roller (212) arranged opposite each other;

the adjustment structure (22) comprises:

a mounting frame (221) fixedly connected with the base frame;

a first mounting member (222) and a second mounting member (223), the first mounting member (222) and the second mounting member (223) being both mounted within the mounting frame (221), the first mounting member (222) being for mounting a first conveying roller (211), the second mounting member (223) being for mounting a second conveying roller (212);

-a first adjustment assembly (3), the first adjustment assembly (3) being arranged between the first mount (222) and the mounting frame (221) for adjusting the position of the first transfer roller (211);

and a second adjusting assembly (4), wherein the second adjusting assembly (4) is arranged between the second mounting piece (223) and the mounting frame (221) and is used for adjusting the position of the second conveying roller (212).

3. The transmission mechanism according to claim 2, wherein the first adjustment assembly (3) comprises: a first adjustment structure (31) and a second adjustment structure (32); the first adjusting structure (31) is suitable for adjusting the position of the first mounting piece (222) in a first direction, and the second adjusting structure (32) is suitable for adjusting the position of the first mounting piece (222) in a second direction, and the first direction and the second direction are intersected;

the second adjustment assembly (4) comprises: a third adjustment structure (41) and a fourth adjustment structure (42); the third adjustment structure (41) is adapted to adjust the position of the second mounting (223) in a third direction, and the fourth adjustment structure (42) is adapted to adjust the position of the second mounting (223) in a fourth direction, the third direction being arranged intersecting the fourth direction.

4. A transmission according to claim 3, wherein the third direction is arranged parallel to the first direction and the fourth direction is arranged parallel to the second direction.

5. A transmission according to claim 3, wherein the first adjustment structure (31) comprises:

a first mounting block (311) and a second mounting block (312), the first mounting block (311) being mounted on the mounting frame (221), the second mounting block (312) being mounted on the first mounting block (311);

the first adjusting piece (313) is arranged between the first mounting block (311) and the second mounting block (312) in a penetrating mode, and is suitable for adjusting the relative position between the first mounting block (311) and the second mounting block (312).

6. The transmission mechanism according to claim 5, wherein the third adjustment structure (41) comprises:

a third mounting block (411) and a fourth mounting block (412), the third mounting block (411) being mounted on the mounting frame (221), the fourth mounting block (412) being mounted on the second mounting block (312);

and a third adjusting piece (413), wherein the third adjusting piece (413) is arranged between the third mounting block (411) and the fourth mounting block (412) in a penetrating way and is suitable for adjusting the relative position between the third mounting block (411) and the fourth mounting block (412).

7. A transmission according to claim 3, wherein the second adjustment structure (32) comprises: and a second adjusting member which is provided between the mounting frame (221) and the first mounting member (222) in a penetrating manner.

8. A transmission according to claim 3, wherein the fourth adjustment structure (42) comprises:

fourth regulating part (421) and retaining member (422), fourth regulating part (421) wear to establish install frame (221) with between second installing part (223), retaining member (422) cover is established fourth regulating part (421) outside, retaining member (422) are suitable for the locking fourth regulating part (421) are relative install frame (221) position.

9. An electroplating production line, comprising: the transmission mechanism according to any one of claims 1 to 8, further comprising: the electroplating device comprises a pre-plating mechanism (5), an electroplating mechanism (6) and a post-plating reflux mechanism (7), wherein a clamping structure (1) clamps materials in the electroplating mechanism (6), and the conveying structure (2) is suitable for conveying the materials in the pre-plating mechanism (5) and the post-plating reflux mechanism (7).

10. Electroplating line according to claim 9, further comprising a washing mechanism (8), an antioxidant mechanism (9) and a drying mechanism (10) arranged after the post-plating reflow mechanism (7) in the conveying direction of the transmission mechanism, wherein the transmission mechanism (2) guides the material in the washing mechanism (8), the antioxidant mechanism (9) and the drying mechanism (10).

Images