CN114953702B

CN114953702B - Processing device for preparing copper-clad plate

Info

Publication number: CN114953702B
Application number: CN202210599009.3A
Authority: CN
Inventors: 吴茂彬; 黄利辉; 李永平
Original assignee: Guangdong Yinghua Electronic Materials Co ltd
Current assignee: Guangdong Yinghua Electronic Materials Co ltd
Priority date: 2022-05-30
Filing date: 2022-05-30
Publication date: 2023-07-21
Anticipated expiration: 2042-05-30
Also published as: CN114953702A

Abstract

The invention discloses a processing device for preparing a copper-clad plate, which relates to a glass fiber cloth glue-penetrating processing device in the processing process of the copper-clad plate, wherein the glue-penetrating processing device comprises a glue-penetrating processing base, a discharging mechanism, a glue collecting box and a glue-penetrating processing mechanism, the discharging mechanism and the glue collecting box are fixedly arranged on the glue-penetrating processing base, and the glue-penetrating processing mechanism and a glue scraping processing mechanism are arranged in the glue collecting box; according to the invention, the upper surface and the lower surface of the glass fiber cloth can be subjected to XY plane gluing operation, so that the surface of the glass fiber cloth is uniformly glued, the speed of penetrating resin glue into the glass fiber cloth is accelerated, and the limiting locking column is arranged on the execution driving table and is pushed to be locked and matched with the locking limiting piece under the action of the compression spring, so that the precise control of the thickness of the scraping plate is realized, uneven resin glue attached to the surface of the glass fiber cloth can be scraped, the generation of surface colloidal particles is reduced, the strip glue mark formed on the surface of the glass fiber cloth by the resin glue is reduced, and the precision in the processing process of the copper-clad plate is improved.

Description

Processing device for preparing copper-clad plate

Technical Field

The invention belongs to the technical field of copper-clad plate processing, and relates to a processing device for preparing a copper-clad plate.

Background

The aluminum-based copper-clad plate is a plate-shaped material which is prepared by immersing electronic glass fiber cloth or other reinforcing materials in resin, single resin and the like as insulating adhesive layers, and carrying out hot pressing on one or both sides of the aluminum-based copper-clad plate by using copper foil, is one of important raw materials in the electronic manufacturing industry, and mainly plays roles of mutual communication, insulation and support on a printed circuit board, and the quality of the aluminum-based copper-clad plate greatly influences the transmission speed, energy loss, characteristic impedance and the like of a circuit signal, so that the quality of the aluminum-based copper-clad plate directly influences the quality of the printed circuit board.

In the course of working, because gum is not fully permeated into cloth, can granular adhesion at the surface model, because the hardness of micelle is greater than the copper foil, change the copper foil of point corresponding department in the copper-clad plate pressing process and receive the extrusion extension attenuation, probably cause the circuit break of printing plate, the reaction is the bright spot in copper foil surface, because the antioxidation layer on copper foil surface in bright spot department is destroyed, this point is easily oxidized when the product is depositing, even form rust etching spot, greatly reduced the storage cycle of product, and when copper-clad plate processing in-process is to glass fiber cloth preparation, because the condition such as the extrusion dynamics of unable control resin adhesive, in making the glue solution unable fully permeate glass fiber cloth, lead to glue solution uneven distribution, simultaneously to glass fiber cloth surface's glue solution can't carry out the strickling operation, in order to reduce the production of surface micelle, simultaneously, there is the inside bubble when the glass fiber cloth oozes the glue, the production of bubble can influence the processing quality of copper-clad plate, the present designs a processingequipment for preparing the copper-clad plate in order to solve above problem.

Disclosure of Invention

The invention aims to provide a processing device for preparing a copper-clad plate, which solves the problems in the prior art.

The aim of the invention can be achieved by the following technical scheme:

a processing device for preparing a copper-clad plate relates to a glass fiber cloth glue-penetrating processing device in the processing process of the copper-clad plate, wherein the glue-penetrating processing device comprises a glue-penetrating processing base, a discharging mechanism, a glue collecting box and a glue-penetrating processing mechanism, the discharging mechanism and the glue collecting box are fixedly arranged on the glue-penetrating processing base, and the glue-penetrating processing mechanism is arranged in the glue collecting box;

the glue collecting box comprises two-way limiting rectangular plates which are symmetrically and fixedly arranged at two ends of the glue collecting box, wherein a first guide roller, a second guide roller, a third guide roller and a fourth guide roller are symmetrically arranged at two sides of the two-way limiting rectangular plates respectively, limiting slide rails are arranged at the upper end face and the lower end face of the two-way limiting rectangular plates, and guide extension holes are arranged at two ends of the two-way limiting rectangular plates;

the glue seepage processing mechanism comprises a power gear, two racks, a connecting plate, a linkage bottom plate and a glue seepage processing plate, wherein the power gear penetrates through the glue collecting box and is connected with the first glue seepage motor, the two racks are respectively positioned on the upper side and the lower side of the power gear and meshed with the power gear, and the two racks are respectively matched with a limiting sliding rail on the bidirectional limiting rectangular plate;

the rack is fixedly connected with the connecting plate, the connecting plate is connected with the linkage bottom plate through an electric telescopic rod, the glue seepage processing plate is in sliding fit with the linkage bottom plate, the end face of the glue seepage processing plate is fixedly provided with an execution linkage plate, an installation groove is formed in the execution linkage plate, a key shaft is installed in the installation groove through a bearing, a lead screw sleeve is slidably installed on the key shaft and is located in the installation groove, one end of the key shaft is connected with a second glue seepage motor through a coupler, a bevel gear meshed with the lead screw sleeve is installed on the execution linkage plate, the bevel gear is connected with the second linkage rod through a first link rod, and the end face of the second link rod is fixedly provided with an extension fixing plate and hinged with the end face of the linkage bottom plate.

Preferably, two support plates are fixed on the glue seepage processing base, a discharging mechanism is placed on the support plates and comprises a discharging roller, limited width clamping pieces are installed at two ends of the discharging roller, the discharging roller is connected with a discharging motor through a coupler, each limited width clamping piece comprises a first limiting plate and a second limiting plate which are in sliding fit with the discharging roller, and the first limiting plates are connected with the second limiting plates through limiting springs.

Preferably, the glass fiber cloth on the discharging roller sequentially passes through the first guide roller, the third guide roller, the glue seepage processing mechanism, the fourth guide roller, the glue scraping processing mechanism and the second guide roller.

Preferably, a plurality of glue-penetrating brushes are distributed on one surface of the glue-penetrating treatment plate far away from the linkage bottom plate.

Preferably, the bevel gear is fixedly connected with the first link rod, and the first link rod is hinged with the second link rod.

Preferably, the glue seepage processing device further comprises a glue scraping processing mechanism, the glue scraping processing mechanism comprises a glue scraping supporting frame, an execution rotating table, an execution connecting rod, two glue scraping plates, a locking limiting part and a rotating rod, the glue scraping supporting frame is fixed on the inner wall of the glue collecting box, a first conducting groove and a second conducting groove are formed in the glue scraping supporting frame and are communicated with each other, the bearing plate is fixedly arranged in the first conducting groove, support connecting rods are symmetrically fixed at two ends of the execution rotating table, the support connecting rods are hinged to one end of the execution connecting rods through rotating shafts, the other ends of the execution connecting rods are connected with the glue scraping plates through shaft pins, limiting locking columns are fixed on the execution rotating table, a plurality of protrusions are uniformly distributed on the periphery of the limiting locking columns, the execution rotating table is connected with the bearing plate through compression springs, the two glue scraping plates are slidably arranged in the second conducting grooves of the glue scraping supporting frame, and the locking limiting part is matched with the protrusions on the periphery of the limiting locking columns.

Preferably, the scraping support frame is provided with a semicircular ball groove, a rolling ball is arranged in the semicircular ball groove, and the scraping plate is matched with the rolling ball in the semicircular ball groove so as to reduce the sliding friction force of the scraping plate in the second conducting groove.

Preferably, the scraping plate is internally provided with an extrusion limiting groove, the scraping assembly is slidably installed in the extrusion limiting groove, the scraping assembly comprises a sliding connecting rod, a scraping auxiliary plate and an extrusion buffer spring, two ends of the scraping auxiliary plate are fixedly provided with the sliding connecting rod which is slidably matched with the extrusion limiting groove, one end of the extrusion buffer spring is connected with the inner wall of the limiting groove, and the other end of the extrusion buffer spring is connected with the sliding connecting rod.

Preferably, the auxiliary scraping plate is an inclined plate, and an included angle between the auxiliary scraping plate and the auxiliary scraping plate is smaller than 45 degrees.

The invention has the beneficial effects that:

according to the invention, the limiting clamping piece is arranged on the discharging mechanism, so that the coiled glass fiber cloth can be limited, clamped and fixed, and the glass fiber cloth is prevented from shifting in the discharging process, and the subsequent glue seepage and scraping operations are prevented from being influenced.

According to the invention, through the structural design of the power gear and the rack in the glue seepage treatment mechanism, the reciprocating glue coating operation on the X axis of the upper surface and the lower surface of the glass fiber cloth needing glue seepage can be satisfied, the screw rod sleeve is driven to reciprocate on the key shaft through the bevel gear, the reciprocating glue coating operation on the Y axis of the upper surface and the lower surface of the glass fiber cloth can be performed, the glue coating on the surface of the glass fiber cloth is uniform, the speed of resin glue seepage to the glass fiber cloth is accelerated, and sufficient time is reserved for the later copper-clad plate processing.

According to the invention, the space between the two glue scraping plates can be adjusted by executing the rotating table to drive the execution connecting rod, the processing thickness requirements of glass fiber cloth after different glue adhering are met, the limiting locking column is arranged on the execution driving table, the periphery of the limiting locking column is provided with the bulge to be matched with the locking limiting piece, once the space between the two glue scraping plates is adjusted, the limiting locking column is pushed to be locked and matched with the locking limiting piece under the action of the compression spring to realize precise control of the glue scraping thickness.

Drawings

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

FIG. 1 is a schematic view of a processing apparatus for producing a copper-clad plate according to the present invention;

FIG. 2 is a top view of FIG. 1 in accordance with the present invention;

FIG. 3 is a cross-sectional view of FIG. 2 in accordance with the present invention;

FIG. 4 is an enlarged schematic view of A in the present invention;

FIG. 5 is an enlarged schematic view of B in the present invention;

FIG. 6 is a cross-sectional view of the doctor blade handling mechanism of the present invention;

FIG. 7 is an enlarged schematic view of C in the present invention;

fig. 8 is a partial cross-sectional view of the doctor blade handling mechanism of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, a processing device for preparing a copper-clad plate relates to a glass fiber cloth glue-penetrating processing device in the processing process of the copper-clad plate, in particular to a glue-penetrating processing device in the processing process of the copper-clad plate, wherein the glue-penetrating processing device comprises a glue-penetrating processing base 1, a discharging mechanism 2, a glue collecting box 3, a glue-penetrating processing mechanism 4 and a glue scraping processing mechanism 5, the discharging mechanism 2 and the glue collecting box 3 are fixedly arranged on the glue-penetrating processing base 1, and the glue-penetrating processing mechanism 4 and the glue scraping processing mechanism 5 are arranged in the glue collecting box 3.

Two parallel support plates 11 are fixed on the glue seepage processing base 1, a discharging mechanism 2 is placed on the support plates 11, the discharging mechanism 2 comprises discharging rollers, limited width clamping pieces are installed at two ends of each discharging roller, each discharging roller is connected with a discharging motor through a coupler, each limited width clamping piece comprises a first limiting plate 21 and a second limiting plate 23 which are in sliding fit with each discharging roller, the first limiting plates 21 and the second limiting plates 23 are connected through limiting springs 22, the limited width clamping pieces are used for limiting and clamping rolled glass fiber cloth to be glued, placed between the two limited width clamping pieces, and when the discharging motors work, the discharging rollers are driven to rotate, and a pair of glass fiber cloth wound on the discharging rollers is loosened.

The glue collecting box 3 comprises a first guide roller 31, a second guide roller 32, a third guide roller 33, a fourth guide roller 34 and two-way limiting rectangular plates 35 which are symmetrically and fixedly arranged at two ends of the glue collecting box 3, wherein the two sides of the two-way limiting rectangular plates 35 are respectively and symmetrically provided with the first guide roller 31, the second guide roller 32, the third guide roller 33 and the fourth guide roller 34, limiting slide rails are arranged on the upper end face and the lower end face of the two-way limiting rectangular plates 35, guide extension holes are arranged at the two ends of the two-way limiting rectangular plates, glass fiber cloth on a discharging roller sequentially passes through the first guide roller 31, the third guide roller 33, a glue penetrating treatment mechanism 4, the fourth guide roller 34 and a glue scraping treatment mechanism 5, and finally the glass fiber cloth processed by the glue scraping treatment mechanism 5 is guided by the second guide roller 32.

The glue-penetrating treatment mechanism 4 comprises a power gear 41, two racks 42, a connecting plate 43, a linkage bottom plate 45 and a glue-penetrating treatment plate 46, wherein the power gear 41 penetrates through the glue collecting box 3 and is connected with a first glue-penetrating motor, the two racks 42 are respectively positioned on the upper side and the lower side of the power gear 41, the two racks 42 are respectively matched with limiting sliding rails on the bidirectional limiting rectangular plate 35, two ends of the racks 42 are respectively in sliding fit with the guiding extension holes, and the racks 42 are meshed with the power gear 41.

The rack 42 is fixedly connected with the connecting plate 43, the connecting plate 43 is connected with the linkage bottom plate 45 through the electric telescopic rod 44, the buffer spring 47 is sleeved on the electric telescopic rod 44, two ends of the buffer spring are fixedly connected with the connecting plate 43 and the linkage bottom plate 45 respectively, the glue penetrating processing plate 46 is in sliding fit with the linkage guide rail 451 on the linkage bottom plate 45, the extending fixing plate 452 is fixedly arranged on the end face of the linkage bottom plate 45, a plurality of glue penetrating brushes are distributed on one surface of the glue penetrating processing plate 46 far away from the linkage bottom plate 45, the executing linkage plate 461 is fixedly arranged on the end face of the glue penetrating processing plate 46, the installing groove 462 is formed in the executing linkage plate 461, the key shaft 463 is installed in the installing groove 462 through a bearing, the lead screw sleeve 464 is slidably installed on the key shaft 463 and is located in the installing groove 462, one end of the key shaft 463 is connected with the second glue penetrating motor through a coupler, the executing linkage plate 461 is provided with a bevel gear 465 meshed with the lead screw sleeve 464, the bevel gear 465 can rotate around the axis of the bevel gear 465, the bevel gear 465 is connected with the second linkage 467 through the first link 466, the bevel gear 465 is fixedly connected with the first link 466, the axis of the bevel gear 466 is perpendicular to the axis of the bevel gear 465, the first link 467 is hinged with the second link 467, and the first link 467 is connected with the bevel gear 467 through the extending link.

When the first glue penetrating motor works to drive the power gear 41 to rotate, the power gear 41 rotates to drive the two racks 42 to move in opposite directions, and the racks 42 move to the guiding extension holes along with the rotation of the power gear 41, so that the glue penetrating treatment plates 46 positioned on the upper surface and the lower surface of the glass fiber cloth are driven to conduct reciprocating glue penetrating treatment on the X axis.

The distance between the two linkage bottom plates 45 can be controlled through the electric telescopic rod 44, the distance between the glue-penetrating treatment plates 46 is further controlled, so that the height adjustment is performed according to the thickness of glass fiber cloth to be processed, the key shaft 463 is driven to rotate through the second glue-penetrating motor, the screw sleeve 464 is driven to move along the axis direction of the key shaft 463 under the meshing action of the screw sleeve 464 and the helical gear 465 and the action of the first link 466 and the second link 467, so that the glue-penetrating treatment plates 46 are pushed to do reciprocating linear movement (Y-axis) on the linkage bottom plates 45, the glue-penetrating coating operation on the XY plane of the glass fiber cloth is completed, and the glue solution is fully penetrated into the glass fiber cloth.

The scraping treatment mechanism 5 comprises a scraping support frame 51, an execution rotating table 52, an execution connecting rod 53, two scraping plates 56, a locking limiting piece 57 and a rotating rod 58, wherein the scraping support frame 51 is fixed on the inner wall of the glue collecting box 3, a first conducting groove 511 and a second conducting groove 512 are formed in the scraping support frame 51, the first conducting groove 511 and the second conducting groove 512 are mutually communicated, a semicircular ball groove 513 is formed in the lower end face of the scraping support frame 51, the bearing plate 514 is fixedly arranged in the first conducting groove 511, supporting connecting rods are symmetrically fixed at two ends of the execution rotating table 52, the supporting connecting rods are hinged with one end of the execution connecting rod 53 through rotating shafts 55, the other end of the execution connecting rod 53 is connected with the scraping plates 56 through shaft pins, limiting locking columns 521 are fixed on the execution rotating table 52, a plurality of protrusions 522 are uniformly distributed on the periphery of the limiting locking columns 521, the execution rotating table 52 is connected with the bearing plate 514 through pressing springs 54, the two scraping plates 56 are slidably arranged in the second conducting groove 512 of the scraping support frame 51, the locking limiting piece 57 is fixed on the scraping support frame 51 right above the execution limiting columns 57, the locking limiting piece 57 is fixedly matched with the rotating table 52, the limiting columns 521 are matched with the rotating table 52, and the other end of the rotating rod 52 is matched with the rotating rod 52, and the limiting locking limiting piece 52 is matched with the rotating rod 52, and the rotating rod 52 is matched with the rotating rod 52.

When the rotary rod 58 is pressed downwards and rotated, the rotary rod 58 drives the executing rotary table 52 to move downwards so as to push the limiting locking column 521 to be separated from the limiting constraint of the locking limiting piece 57, the executing rotary table 52 can be driven to rotate, and then the executing connecting rod 53 drives the glue scraping plate 56 to slide in the second conducting groove 512 so as to adjust the distance between the glue scraping plates 56 connected with the two executing connecting rods 53, thereby realizing glue scraping treatment on glass fiber cloth attached with glue solution, and avoiding excessive glue solution adhesion and influencing processing quality.

The doctor supporting frame 51 is provided with a semicircular ball groove, a rolling ball is installed in the semicircular ball groove 513, and the doctor plate 56 is matched with the rolling ball in the semicircular ball groove 513 to reduce the sliding friction force of the doctor plate 56 in the second conducting groove 512.

Wherein, it has extrusion spacing groove to open in the frictioning board 56, slidable mounting has the frictioning subassembly in the extrusion spacing groove, the frictioning subassembly includes slide connection pole 561, frictioning accessory plate 562 and extrusion buffer spring 563, frictioning accessory plate 562 both ends are fixed with extrusion spacing groove sliding fit's slide connection pole 561, extrusion buffer spring 563 one end is connected with the spacing groove inner wall, the other end is connected with slide connection pole 561, wherein, frictioning accessory plate 562 is the hang plate, the contained angle between frictioning accessory plate 562 and frictioning board 56 is less than 45 degrees, in order to further get rid of the glue solution that is more.

The foregoing is merely illustrative and explanatory of the principles of the invention, as various modifications and additions may be made to the specific embodiments described, or similar thereto, by those skilled in the art, without departing from the principles of the invention or beyond the scope of the appended claims.

Claims

1. A processingequipment for preparing copper-clad plate, its characterized in that: the glass fiber cloth glue-penetrating processing device comprises a glue-penetrating processing base (1), a discharging mechanism (2), a glue collecting box (3) and a glue-penetrating processing mechanism (4), wherein the discharging mechanism (2) and the glue collecting box (3) are fixedly arranged on the glue-penetrating processing base (1), and the glue-penetrating processing mechanism (4) is arranged in the glue collecting box (3);

two support plates (11) are fixed on the glue seepage processing base (1), a discharging mechanism (2) is placed on the support plates (11), the discharging mechanism (2) comprises a discharging roller, two ends of the discharging roller are provided with limited width clamping pieces, the discharging roller is connected with a discharging motor through a coupler, the limited width clamping pieces comprise a first limiting plate (21) and a second limiting plate (23) which are in sliding fit with the discharging roller, and the first limiting plate (21) and the second limiting plate (23) are connected through limiting springs (22);

glass fiber cloth on the discharging roller sequentially passes through a first guide roller (31), a third guide roller (33), a glue seepage processing mechanism (4), a fourth guide roller (34), a glue scraping processing mechanism (5) and a second guide roller (32);

the glue collecting box (3) comprises two-way limiting rectangular plates (35) which are symmetrically and fixedly arranged at two ends of the glue collecting box (3), a first guide roller (31), a second guide roller (32), a third guide roller (33) and a fourth guide roller (34) are symmetrically arranged at two sides of the two-way limiting rectangular plates (35), limiting sliding rails are arranged at the upper end face and the lower end face of the two-way limiting rectangular plates (35), and guide extension holes are formed at two ends of the two-way limiting rectangular plates;

the glue seepage processing mechanism (4) comprises a power gear (41), two racks (42), a connecting plate (43), a linkage bottom plate (45) and a glue seepage processing plate (46), wherein the power gear (41) penetrates through the glue collecting box (3) to be connected with a first glue seepage motor, the two racks (42) are respectively positioned on the upper side and the lower side of the power gear (41) and meshed with the power gear (41), and the two racks (42) are respectively matched with limiting sliding rails on a bidirectional limiting rectangular plate (35);

the rack (42) is fixedly connected with the connecting plate (43), the connecting plate (43) is connected with the linkage bottom plate (45) through an electric telescopic rod (44), the glue seepage processing plate (46) is in sliding fit with the linkage bottom plate (45), an execution linkage plate (461) is fixed on the end face of the glue seepage processing plate (46), a mounting groove (462) is formed in the execution linkage plate (461), a key shaft (463) is mounted in the mounting groove (462) through a bearing, a lead screw sleeve (464) is slidably mounted on the key shaft (463) and is positioned in the mounting groove (462), one end of the key shaft (463) is connected with a second glue seepage motor through a coupler, a bevel gear (465) meshed with the lead screw sleeve (464) is mounted on the execution linkage plate (461), the bevel gear (465) is connected with a second linkage rod (467) through a first link rod (466), and the end face of the second link rod (467) is fixedly hinged with an extension fixing plate (452);

a plurality of glue-penetrating brushes are distributed on one surface of the glue-penetrating treatment plate (46) far away from the linkage bottom plate (45);

the bevel gear (465) is fixedly connected with the first link rod (466), and the first link rod (466) is hinged with the second link rod (467).

2. The processing device for preparing a copper-clad plate according to claim 1, wherein: the glue seepage processing device also comprises a glue scraping processing mechanism (5), the glue scraping processing mechanism (5) comprises a glue scraping supporting frame (51), an execution rotating table (52), an execution connecting rod (53), two glue scraping plates (56), a locking limiting piece (57) and a rotating rod (58), the glue scraping supporting frame (51) is fixed on the inner wall of the glue collecting box (3), a first conducting groove (511) and a second conducting groove (512) are formed in the glue scraping supporting frame (51), the first conducting groove (511) and the second conducting groove (512) are mutually communicated, a bearing plate (514) is fixedly arranged in the first conducting groove (511), two ends of the execution rotating table (52) are symmetrically fixed with supporting connecting rods, one ends of the supporting connecting rods are hinged with one end of the execution connecting rod (53) through rotating shafts (55), the other ends of the execution connecting rods (53) are connected with the glue scraping plates (56) through shaft pins, a limiting locking column (521) is fixed on the execution rotating table (52), a plurality of protrusions (522) are uniformly distributed on the periphery of the limiting locking column (521), the execution rotating table (52) is connected with the bearing plate (514) through a pressing spring (54), the bearing plate (521) and the two glue scraping plates (521) are arranged in the second scraping supporting frame (512), the locking limiting piece (57) is matched with a protrusion (522) on the periphery of the limiting locking column (521).

3. The processing device for preparing a copper-clad plate according to claim 2, wherein: the scraping support frame (51) is provided with a semicircular ball groove (513), a rolling ball is arranged in the semicircular ball groove (513), and the scraping plate (56) is matched with the rolling ball in the semicircular ball groove (513) so as to reduce the sliding friction force of the scraping plate (56) in the second conducting groove (512).

4. A processing device for producing a copper-clad plate according to claim 3, wherein: the utility model discloses a scraper, including scraper plate (56), scraper assembly, scraper plate (562) and extrusion buffer spring (563), wherein the scraper plate (56) is internally opened has extrusion spacing groove, and slidable mounting has the scraper assembly in the extrusion spacing groove, and the scraper assembly includes sliding connection pole (561), scraper auxiliary plate (562) and extrusion buffer spring (563), and scraper auxiliary plate (562) both ends are fixed with sliding connection pole (561) with extrusion spacing groove sliding fit, extrusion buffer spring (563) one end and spacing groove inner wall connection, and the other end is connected with sliding connection pole (561).

5. The processing device for preparing a copper-clad plate according to claim 4, wherein: the auxiliary scraping plate (562) is an inclined plate, and an included angle between the auxiliary scraping plate (562) and the auxiliary scraping plate (56) is smaller than 45 degrees.