CN113059862B - Release paper embossing device for water-based leather production and working method thereof - Google Patents

Abstract

The invention discloses a release paper embossing device for water-based leather production and a working method thereof. The embossing device provided by the invention is matched with the embossing bottom plate main bodies on two sides through the rotation of the embossing piece to perform alternate operation, and meanwhile, relative movement among the embossed release paper, the pressing plate main body and the embossing bottom plate main body is not generated in the extending direction of the embossed release paper, so that the embossing efficiency is improved while the integrity of the embossing of the release paper is ensured.

Description

Release paper embossing device for water-based leather production and working method thereof

Technical Field

The invention relates to the field of release paper embossing, in particular to a release paper embossing device for water-based leather production and a working method thereof.

Background

The release paper is a special release paper used for artificial leather, and the coating layer of the release paper generally has a concave-convex pattern structure, so that the release paper is widely used in artificial leather and synthetic leather. In a patent with publication number CN210062227U and name an embossing device for processing release paper, the disclosed embossing device realizes embossing by two roller bodies which rotate relatively, the matching patterns of the two rollers are clear, but when the roller bodies are separated from the release paper, the roller bodies rotate and move with the release paper, and the release paper is easily damaged; in the patent with publication number CN211763855U and the name of an embossing device for manufacturing small sample paper from release paper, the disclosed embossing device realizes embossing through matching of an embossing plate and negative pressure, and solves the problem of damage of the release paper, but the efficiency is low, and the embossing structure in the prior art exists and cannot solve the technical problem: efficiency is improved while ensuring the integrity of the release paper embossing.

Disclosure of Invention

The invention aims to provide a release paper embossing device for water-based leather production and a working method thereof, wherein a winding drum wound with release paper is sleeved on a sleeving rod, and the release paper is pulled, so that the release paper is extruded between guide wheels and between a first driving roller main body and a second driving roller main body and then passes through a through hole; the driving part drives the embossing part to reciprocate, the sliding block is positioned in the sliding groove to slide, so that the pressing plate main body is matched with the embossing bottom plate main body to emboss the release paper, after embossing, the driving part is driven reversely, the sliding block is separated from the sliding groove on one side, so that the first gear is matched with the rack, the rotating part rotates, after the first gear is separated from the rack, the sliding block is guided by the guide groove, the sliding block is matched with the sliding groove on the other side, and the pressing plate main body is matched with the embossing bottom plate main body on the other side to emboss the release paper; after the release paper is embossed, after the embossing piece moves to the other side, the second motor on the embossed side drives the support piece main body to rotate, so that the release paper is separated from the embossing bottom plate main body, and the third motor drives the first driving roller and the second driving roller to rotate, so that the release paper moves; the second motor drives the support part main body to rotate, the release paper is attached to the embossing bottom plate main body, the pressing plate main body is matched with the embossing bottom plate main body to emboss the release paper, the circulation operation is performed, the embossing is performed on the release paper, the gap operation is performed on two sides of the release paper, the embossing efficiency is ensured, relative movement among the release paper, the pressing plate main body and the embossing bottom plate main body is not generated in the extending direction of the embossed release paper, and the embossing integrity is ensured; the third cylinder drives the cutting knife to move to cut the release paper in the through hole.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a water-based leather production from type paper embossing apparatus, include first support piece from type paper embossing apparatus, be equipped with driving piece and impressed watermark piece on the first support piece, driving piece drive impressed watermark piece is located first support piece and moves, be equipped with the guide on the first support piece, the guide leads the emergence rotation at the removal in-process to the impressed watermark piece, realize the two-way impressed watermark operation of impressed watermark piece, be equipped with the impressed watermark bottom plate of symmetric distribution on the first support piece, the impressed watermark bottom plate carries out the impressed watermark with the cooperation of impressed watermark piece, it is equipped with the support piece that is used for placing type paper to rotate on the first support piece, be equipped with on the first support piece and be used for from the type paper tractive, the ejection of compact piece of cutting out.

Furthermore, the first support member comprises a first support plate, second support plates are symmetrically arranged on the first support plate, first guide holes are symmetrically arranged on the second support plate, first through holes are arranged on the second support plate, second guide holes are symmetrically arranged on the second support plate, the second guide holes are positioned on two sides of the first through holes, and second through holes are arranged on the second support plate;

the second supporting plates are provided with symmetrically distributed supporting sleeves, the first guide holes are positioned in the supporting sleeves, symmetrically distributed first guide shafts are arranged between the second supporting plates, and the first guide shafts are positioned on two sides of the second through holes;

one side of first backup pad is equipped with the first supporting block of symmetric distribution, and one side of second backup pad is equipped with the first support post of symmetric distribution, and first support post is located the top of first supporting block, is equipped with first rotation connecting hole on the first support post, and first rotation connecting hole runs through first supporting block and first support post.

Furthermore, the driving part comprises a first motor fixed on a second supporting plate on one side, an output shaft of the first motor is fixedly connected with a screw rod, and the screw rod is positioned in the second through hole to rotate.

Furthermore, the guide part comprises second support parts which are symmetrically distributed, the second support parts are located between the second support plates, the second support parts comprise first guide blocks which are symmetrically distributed, connecting rods are arranged between the first guide blocks, a rack is arranged on any one of the connecting rods, a sliding groove is formed in the first guide block, and a guide groove is formed in one side, close to the connecting rods, of the sliding groove.

Furthermore, the embossing part comprises a second supporting block, a rotating part is rotatably arranged below the second supporting block, a first air cylinder is arranged on one side of the rotating part, and a first pressing plate is arranged on an output shaft of the first air cylinder;

the second supporting block comprises a supporting block main body, a fourth guide hole matched with the first guide shaft is formed in the supporting block main body, a threaded hole matched with the screw rod is formed in the supporting block main body, a second supporting column is arranged below the supporting block main body, and a second rotating connecting hole is formed in the second supporting column;

the rotating piece comprises a first rotating shaft, a first gear and a second guide block are arranged on the first rotating shaft, the rotating piece is rotatably connected with the second rotating connecting hole through the first rotating shaft, and sliding blocks matched with the sliding grooves are arranged on two sides of the second guide block;

a third supporting block is arranged below the first rotating shaft, third guide holes which are symmetrically distributed are formed in the third supporting block, and third through holes are formed in the third supporting block;

the output shaft of the first air cylinder penetrates through the third through hole and is fixedly connected with the pressing plate main body, the pressing plate main body is provided with second guide shafts which are symmetrically distributed, the second guide shafts are located in the third guide holes and slide, one end of each second guide shaft is fixedly connected with the pressing plate main body, and the other end of each second guide shaft is provided with a first limiting block.

Further, the impressed watermark bottom plate includes impressed watermark bottom plate main part, is equipped with the third guiding axle of symmetric distribution in the impressed watermark bottom plate main part, and the third guiding axle is located the downthehole slip of first guiding, the one end and the impressed watermark bottom plate main part fastening connection of third guiding axle, and the other end is equipped with the second stopper, the suit has an elastic component on the third guiding axle, the one end and the impressed watermark bottom plate main part fastening connection of elastic component, the other end and second backup pad fastening connection.

Further, a support part comprises a second motor fixed below the first supporting block, a support part main body is fixedly connected to an output shaft of the second motor, the support part main body comprises a second rotating shaft, a first supporting rod is arranged on one side of the second rotating shaft, a first connecting shaft is arranged between the first supporting rod and the second rotating shaft, a second supporting rod is arranged at one end of the first supporting rod, the second supporting rod is perpendicularly connected with the first supporting rod, a sleeving rod is perpendicularly arranged at the other end of the second supporting rod, a winding cylinder for winding release paper is sleeved on the sleeving rod, and the support part main body rotates in the first rotating connecting hole through the second rotating shaft.

Furthermore, the discharging part comprises a third supporting part, a second air cylinder is arranged on one side of the third supporting part and fixed on the second supporting plate, and an output shaft of the second air cylinder penetrates through the first through hole and is fixedly connected with the third supporting part;

the third supporting piece is provided with guide wheels distributed in an array manner, the third supporting piece is provided with a first driving roller and second driving rollers distributed symmetrically, the third supporting piece is provided with a third motor, and an output shaft of the third motor is fixedly connected with the second driving roller on one side;

and a third cylinder is arranged on the third supporting piece, and a cutting knife is arranged on an output shaft of the third cylinder.

Furthermore, the third supporting piece comprises a third supporting plate, a fourth guide shaft is arranged on the third supporting plate and matched with the second guide hole, one end of the fourth guide shaft is fixedly connected with the third supporting plate, and a third limiting block is arranged at the other end of the fourth guide shaft;

an output shaft of the second cylinder penetrates through the first through hole to be fixedly connected with the third supporting plate;

fourth supporting plates are symmetrically arranged on the third supporting plate, third rotating connecting holes are distributed in an array mode on the fourth supporting plates, an n-type supporting frame is arranged on the fourth supporting plate on one side, and fourth through holes are formed in the n-type supporting frame;

the third supporting plate is provided with a fifth supporting plate, the fifth supporting plate is positioned on one side of the fourth supporting plate and is vertical to the fourth supporting plate, the fifth supporting plate is provided with a through hole, and the fifth supporting plate is provided with a fifth through hole vertically communicated with the through hole;

the second driving roller comprises a second driving roller main body, a second gear is arranged at one end of the second driving roller main body, the first driving roller comprises a second connecting shaft, the two ends of the second connecting shaft are respectively provided with a first driving roller main body, a third gear matched with the second gear is arranged on one side of the first driving roller main body, the first driving roller and the second driving roller are respectively positioned in two third rotating connecting holes on one side to rotate, and the second driving roller main body is positioned in the rest third rotating connecting holes to rotate;

an output shaft of the third motor passes through the fourth through hole and is fixedly connected with the second gear;

the third cylinder is fixed on the n-type support frame, and a fourth through hole of the third cylinder is tightly connected with the cutting knife.

A working method of a release paper embossing device for water-based leather production comprises the following steps:

s1, release paper sleeving arrangement

Sleeving the winding cylinder wound with the release paper on the sleeving rod, and drawing the release paper to enable the release paper to be extruded between the guide wheels and between the first driving roller main body and the second driving roller main body and then to pass through the through hole;

s2, embossing

The driving piece drives the embossing piece to reciprocate, the sliding block is positioned in the sliding groove to slide, so that the pressing plate main body is matched with the embossing bottom plate main body to emboss the release paper, after embossing, the driving piece is driven reversely, the sliding block is separated from the sliding groove on one side, so that the first gear is matched with the rack, the rotating piece rotates, after the first gear is separated from the rack, the sliding block is guided by the guide groove, the sliding block is matched with the sliding groove on the other side, and the pressing plate main body is matched with the embossing bottom plate main body on the other side to emboss the release paper;

s3, moving release paper

After the release paper is embossed, after the embossing piece moves to the other side, the second motor on the embossed side drives the support piece main body to rotate, so that the release paper is separated from the embossing bottom plate main body, and the third motor drives the first driving roller and the second driving roller to rotate, so that the release paper moves;

s4, attaching the release paper to the embossing bottom plate main body

The second motor drives the support part main body to rotate, the release paper is attached to the embossing bottom plate main body, the pressing plate main body is matched with the embossing bottom plate main body to emboss the release paper, the circulation operation is performed, the embossing is performed on the release paper, the gap operation is performed on two sides of the release paper, the embossing efficiency is ensured, the release paper after embossing does not move relatively with the pressing plate main body and the embossing bottom plate main body in the extending direction of the release paper, and the integrity of embossing is ensured;

s5: cutting out

The third cylinder drive is tailor the sword and is removed and tailors through downthehole from type paper.

The invention has the beneficial effects that:

the embossing device provided by the invention is matched with the embossing bottom plate main bodies on two sides through the rotation of the embossing piece to perform alternate operation, and meanwhile, relative movement among the embossed release paper, the pressing plate main body and the embossing bottom plate main body is not generated in the extending direction of the embossed release paper, so that the embossing efficiency is improved while the integrity of the embossing of the release paper is ensured.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of an embossing apparatus according to the present invention;

FIG. 2 is a schematic view of the embossing apparatus of the present invention;

FIG. 3 is a schematic view of a portion of the embossing apparatus of the present invention;

FIG. 4 is an enlarged view of a portion of the guide of the present invention;

FIG. 5 is a schematic view of the embossing element of the present invention;

FIG. 6 is a schematic view of a second support block according to the present invention;

FIG. 7 is a schematic view of a rotating member according to the present invention;

FIG. 8 is a schematic view of an embossed base plate structure of the present invention;

FIG. 9 is a schematic view of the main structure of the bracket member of the present invention;

FIG. 10 is a schematic view of the discharge member of the present invention;

FIG. 11 is a schematic view of a third support structure of the present invention;

fig. 12 is an enlarged view of a portion a of fig. 10 according to the present invention.

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 utility model provides a water-based leather production from type paper embossing apparatus, include first support piece 1 from type paper embossing apparatus, as shown in fig. 1, as shown in fig. 2, be equipped with driving piece 2 and impressed watermark piece 3 on the first support piece 1, driving piece 2 drive impressed watermark piece 3 is located first support piece 1 and moves, be equipped with guide 4 on the first support piece 1, guide 4 is to impressed watermark piece 3 the emergence rotation of leading in the removal process, realize the two-way impressed watermark operation of impressed watermark piece 3, be equipped with symmetric distribution's impressed watermark bottom plate 5 on the first support piece 1, impressed watermark bottom plate 5 carries out the impressed watermark with the cooperation of impressed watermark piece 3, it is equipped with the support piece 6 that is used for placing from type paper to rotate on the first support piece 1, be equipped with on the first support piece 1 and be used for from the type paper tractive, the play material 7 of tailorring.

The first support member 1 includes a first support plate 11, as shown in fig. 3, a second support plate 12 is disposed on the first support plate 11 and symmetrically distributed, first guide holes 121 are disposed on the second support plate 12 and symmetrically distributed, first through holes 123 are disposed on the second support plate 12, second guide holes 122 are disposed on the second support plate 12 and symmetrically distributed, the second guide holes 122 are disposed on two sides of the first through holes 123, and second through holes 124 are disposed on the second support plate 12.

The second support plate 12 is provided with support sleeves 125 which are symmetrically distributed, the first guide holes 121 are located in the support sleeves 125, the first guide shafts 13 which are symmetrically distributed are arranged between the second support plates 12, and the first guide shafts 13 are located on two sides of the second through holes 124.

One side of the first supporting plate 11 is provided with first supporting blocks 14 which are symmetrically distributed, one side of the second supporting plate 12 is provided with first supporting columns 15 which are symmetrically distributed, the first supporting columns 15 are located above the first supporting blocks 14, first rotating connecting holes 151 are formed in the first supporting columns 15, and the first rotating connecting holes 151 penetrate through the first supporting blocks 14 and the first supporting columns 15.

The driving member 2 includes a first motor 21 fixed on the second supporting plate 12 on one side, a screw rod 22 is tightly connected to an output shaft of the first motor 21, and the screw rod 22 is positioned in the second through hole 124 for rotation.

The guide member 4 includes second supporting members 41 symmetrically distributed, the second supporting members 41 are located between the second supporting plates 12, the second supporting members 41 include first guide blocks 411 symmetrically distributed, connecting rods 412 are disposed between the first guide blocks 411, a rack 44 is disposed on any one of the connecting rods 412, a sliding groove 42 is disposed on the first guide block 411, and a guide groove 43 is disposed on one side of the sliding groove 42 close to the connecting rod 412.

The embossing part 3 includes a second supporting block 31, as shown in fig. 5, a rotating part 32 is rotatably disposed below the second supporting block 31, a first cylinder 34 is disposed on one side of the rotating part 32, and a first pressing plate 33 is disposed on an output shaft of the first cylinder 34.

The second supporting block 31 includes a supporting block body 311, as shown in fig. 6, a fourth guiding hole 312 matched with the first guiding shaft 13 is provided on the supporting block body 311, a threaded hole 313 matched with the screw rod 22 is provided on the supporting block body 311, a second supporting column 314 is provided below the supporting block body 311, and a second rotation connecting hole 315 is provided on the second supporting column 314.

The rotating member 32 includes a first rotating shaft 321, as shown in fig. 7, a first gear 322 and a second guide block 324 are provided on the first rotating shaft 321, the rotating member 32 is rotatably connected to the second rotating connection hole 315 through the first rotating shaft 321, and two sides of the second guide block 324 are provided with sliding blocks 325 engaged with the sliding grooves 42.

A third supporting block 323 is arranged below the first rotating shaft 321, third guiding holes 326 are symmetrically distributed on the third supporting block 323, and a third through hole 327 is arranged on the third supporting block 323.

An output shaft of the first cylinder 34 is tightly connected with a pressing plate main body 331 through a third through hole 327, second guide shafts 332 which are symmetrically distributed are arranged on the pressing plate main body 331, the second guide shafts 332 are positioned in the third guide holes 326 to slide, one end of each second guide shaft 332 is tightly connected with the pressing plate main body 331, and the other end of each second guide shaft 332 is provided with a first limiting block 333.

The embossing bottom plate 5 comprises an embossing bottom plate main body 51, as shown in fig. 8, third guide shafts 52 which are symmetrically distributed are arranged on the embossing bottom plate main body 51, the third guide shafts 52 are located in the first guide holes 121 to slide, one end of each third guide shaft 52 is tightly connected with the embossing bottom plate main body 51, the other end of each third guide shaft is provided with a second limiting block 53, an elastic piece 54 is sleeved on each third guide shaft 52, one end of each elastic piece 54 is tightly connected with the embossing bottom plate main body 51, and the other end of each elastic piece 54 is tightly connected with the second supporting plate 12.

The support member 6 includes a second motor 61 fixed below the first support block 14, a support member main body 62 is fixedly connected to an output shaft of the second motor 61, as shown in fig. 9, the support member main body 62 includes a second rotation shaft 621, a first support rod 622 is arranged on one side of the second rotation shaft 621, a first connection shaft 623 is arranged between the first support rod 622 and the second rotation shaft 621, a second support rod 624 is arranged at one end of the first support rod 622, the second support rod 624 is vertically connected with the first support rod 622, a sleeving rod 625 is vertically arranged at the other end of the second support rod 624, a winding drum wound with release paper is sleeved on the sleeving rod 625, and the support member main body 62 rotates in the first rotation connection hole 151 through the second rotation shaft 621.

The discharging member 7 includes a third supporting member 71, as shown in fig. 10, a second cylinder 72 is disposed on one side of the third supporting member 71, the second cylinder 72 is fixed on the second supporting plate 12, and an output shaft of the second cylinder 72 passes through the first through hole 123 to be fastened to the third supporting member 71.

The third supporting member 71 is provided with guide wheels 73 distributed in an array manner, the third supporting member 71 is provided with a first driving roller 75 and second driving rollers 74 distributed symmetrically, the third supporting member 71 is provided with a third motor 76, and an output shaft of the third motor 76 is fixedly connected with the second driving rollers 74 on one side.

A third cylinder 77 is arranged on the third supporting member 71, and a cutting knife is arranged on an output shaft of the third cylinder 77.

The third supporting member 71 includes a third supporting plate 711, as shown in fig. 11, a fourth guiding shaft 712 is disposed on the third supporting plate 711, the fourth guiding shaft 712 is matched with the second guiding hole 122, one end of the fourth guiding shaft 712 is fastened to the third supporting plate 711, and a third limiting block 7121 is disposed at the other end of the fourth guiding shaft 712.

The output shaft of the second cylinder 72 passes through the first through hole 123 and is fastened to the third support plate 711.

The third supporting plate 711 is provided with fourth supporting plates 713 which are symmetrically distributed, the fourth supporting plates 713 are provided with third rotating connecting holes 714 which are distributed in an array manner, the fourth supporting plate 713 on one side is provided with an n-type supporting frame 715, and the n-type supporting frame 715 is provided with a fourth through hole 716.

The third supporting plate 711 is provided with a fifth supporting plate 717, the fifth supporting plate 717 is disposed at one side of the fourth supporting plate 713, and is perpendicular to each other, the fifth supporting plate 717 is provided with a through hole 718, and the fifth supporting plate 717 is provided with a fifth through hole 719 vertically communicating with the through hole 718.

As shown in fig. 12, one end of the second driving roller body 741 is provided with a second gear 742, the first driving roller 75 includes a second connecting shaft 751, two ends of the second connecting shaft 751 are provided with a first driving roller body 752, one side of the first driving roller body 752 is provided with a third gear 753 which is engaged with the second gear 742, the first driving roller 75 and the second driving roller 74 are respectively located in two third rotation connecting holes 714 on one side for rotation, and the second driving roller body 741 is located in the remaining third rotation connecting holes 714 for rotation.

The output shaft of the third motor 76 is fixedly connected to the second gear 742 through the fourth through hole 716.

The third cylinder 77 is fixed on the n-type support frame 715, and the fourth through hole 716 of the third cylinder 77 is tightly connected with the cutting knife.

A working method of a release paper embossing device for water-based leather production comprises the following steps:

s1, release paper sleeving arrangement

The winding drum wound with the release paper is sleeved on the sleeving rod 625, and the release paper is pulled so that the release paper is extruded between the guide wheels 73 and between the first driving roller main body 752 and the second driving roller main body 741 and then passes through the through hole 718.

S2, embossing

Drive piece 2 drive impressed watermark piece 3 reciprocating motion, it slides to be located the sliding tray 42 through slider 325, make clamp plate main part 331 and impressed watermark bottom plate main part 51 cooperation to carry out the impressed watermark from type paper, after the impressed watermark, drive piece 2 back drive, slider 325 breaks away from with the sliding tray 42 of one side, make first gear 322 and rack 44 cooperation, it rotates to rotate piece 32, first gear 322 breaks away from the back with rack 44, after slider 325 leads through guide way 43, slider 325 cooperates with the sliding tray 42 of opposite side, clamp plate main part 331 cooperates with the impressed watermark bottom plate main part 51 of opposite side to carrying out the impressed watermark from type paper.

S3, moving release paper

After the release paper is embossed, the embossing part 3 moves to the other side, the second motor 61 on the embossed side drives the bracket part main body 62 to rotate, so that the release paper is separated from the embossing bottom plate main body 51, and the third motor 76 drives the first driving roller 75 and the second driving roller 74 to rotate, so that the release paper moves.

S4, attaching release paper to the embossing bottom plate main body

Second motor 61 drive support part main part 62 rotates, from the laminating of type paper and embossing bottom plate main part, clamp plate main part 331 and embossing bottom plate main part 51 cooperation are to carrying out the impressed watermark from type paper, and the circulation operation is to carrying out the impressed watermark from type paper, and the both sides carry out the clearance operation, have ensured the efficiency of impressed watermark, and what after the impressed watermark is from type paper is in the extending direction from type paper, does not produce relative movement from between type paper and clamp plate main part 331 and the embossing bottom plate main part 51, ensures the integrality of impressed watermark.

S5: cutting out

The third cylinder 77 drives the cutter blade to move to cut the release paper in the through hole 718.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, principal features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims (8)

1. A release paper embossing device for water-based leather production comprises a first supporting piece (1) and is characterized in that the first supporting piece (1) comprises a first supporting plate (11), symmetrically distributed second supporting plates (12) are arranged on the first supporting plate (11), a driving piece (2) and an embossing piece (3) are arranged on the first supporting piece (1), the driving piece (2) comprises a first motor (21) fixed on the second supporting plate (12) on one side, a lead screw (22) is fixedly connected to an output shaft of the first motor (21), the driving piece (2) drives the embossing piece (3) to move on the first supporting piece (1), a guide piece (4) is arranged on the first supporting piece (1), the guide piece (4) guides the embossing piece (3) to rotate in the moving process, the bidirectional embossing operation of the embossing piece (3) is realized, symmetrically distributed embossing bottom plates (5) are arranged on the first supporting piece (1), the embossing bottom plates (5) are matched with the embossing piece (3) to emboss, a support piece (6) for placing support paper is rotatably arranged on the first supporting piece (1), and a material for cutting is pulled and a discharge piece (7) for cutting;

the guide piece (4) comprises second support pieces (41) which are symmetrically distributed, the second support pieces (41) are located between the second support plates (12), the second support pieces (41) comprise first guide blocks (411) which are symmetrically distributed, connecting rods (412) are arranged between the first guide blocks (411), a rack (44) is arranged on any one connecting rod (412), a sliding groove (42) is arranged on the first guide block (411), and a guide groove (43) is arranged on one side, close to the connecting rod (412), of the sliding groove (42);

the embossing part (3) comprises a second supporting block (31), a rotating part (32) is rotatably arranged below the second supporting block (31), a first air cylinder (34) is arranged on one side of the rotating part (32), and a first pressing plate (33) is arranged on an output shaft of the first air cylinder (34);

the second supporting block (31) comprises a supporting block main body (311), a fourth guide hole (312) matched with the first guide shaft (13) is formed in the supporting block main body (311), a threaded hole (313) matched with the screw rod (22) is formed in the supporting block main body (311), a second supporting column (314) is arranged below the supporting block main body (311), and a second rotating connecting hole (315) is formed in the second supporting column (314);

the rotating part (32) comprises a first rotating shaft (321), a first gear (322) and a second guide block (324) are arranged on the first rotating shaft (321), the rotating part (32) is rotatably connected with the second rotating connecting hole (315) through the first rotating shaft (321), and sliding blocks (325) matched with the sliding grooves (42) are arranged on two sides of the second guide block (324);

a third supporting block (323) is arranged below the first rotating shaft (321), third guide holes (326) which are symmetrically distributed are formed in the third supporting block (323), and a third through hole (327) is formed in the third supporting block (323);

an output shaft of the first air cylinder (34) penetrates through the third through hole (327) and is fixedly connected with a pressing plate main body (331), second guide shafts (332) which are symmetrically distributed are arranged on the pressing plate main body (331), the second guide shafts (332) are located in the third guide holes (326) and slide, one end of each second guide shaft (332) is fixedly connected with the pressing plate main body (331), and a first limiting block (333) is arranged at the other end of each second guide shaft (332).

2. The release paper embossing device for water-based leather production, according to claim 1, characterized in that the second supporting plate (12) is provided with first guide holes (121) symmetrically distributed, the second supporting plate (12) is provided with first through holes (123), the second supporting plate (12) is provided with second guide holes (122) symmetrically distributed, the second guide holes (122) are located on two sides of the first through holes (123), and the second supporting plate (12) is provided with second through holes (124);

the second supporting plates (12) are provided with symmetrically distributed supporting sleeves (125), the first guide holes (121) are located in the supporting sleeves (125), symmetrically distributed first guide shafts (13) are arranged between the second supporting plates (12), and the first guide shafts (13) are located on two sides of the second through hole (124);

one side of first backup pad (11) is equipped with first supporting block (14) of symmetric distribution, and one side of second backup pad (12) is equipped with first support column (15) of symmetric distribution, and first support column (15) are located the top of first supporting block (14), are equipped with first rotation connecting hole (151) on first support column (15), and first rotation connecting hole (151) run through first supporting block (14) and first supporting column (15).

3. The device for embossing release paper for waterborne leather production as claimed in claim 2, wherein the lead screw (22) rotates in the second through hole (124).

4. The release paper embossing device for water-based leather production as claimed in claim 3, wherein the embossing base plate (5) comprises an embossing base plate main body (51), third guide shafts (52) are symmetrically distributed on the embossing base plate main body (51), the third guide shafts (52) are located in the first guide holes (121) and slide, one end of each third guide shaft (52) is fixedly connected with the embossing base plate main body (51), the other end of each third guide shaft is provided with a second limiting block (53), each third guide shaft (52) is sleeved with an elastic piece (54), one end of each elastic piece (54) is fixedly connected with the embossing base plate main body (51), and the other end of each elastic piece is fixedly connected with the second supporting plate (12).

5. The release paper embossing device for the production of water-based leather according to claim 4, wherein the support member (6) comprises a second motor (61) fixed below the first support block (14), a support member main body (62) is fixedly connected to an output shaft of the second motor (61), the support member main body (62) comprises a second rotating shaft (621), a first support rod (622) is arranged on one side of the second rotating shaft (621), a first connecting shaft (623) is arranged between the first support rod (622) and the second rotating shaft (621), a second support rod (624) is arranged at one end of the first support rod (622), the second support rod (624) is vertically connected with the first support rod (622), a sleeving rod (625) is vertically arranged at the other end of the second support rod, a winding tube wound with release paper is sleeved on the sleeving rod (625), and the support member main body (62) rotates in the first rotating connecting hole (151) through the second rotating shaft (621).

6. The release paper embossing device for water-based leather production, according to claim 5, characterized in that the discharging member (7) comprises a third supporting member (71), a second air cylinder (72) is arranged on one side of the third supporting member (71), the second air cylinder (72) is fixed on the second supporting plate (12), and an output shaft of the second air cylinder (72) passes through the first through hole (123) to be tightly connected with the third supporting member (71);

the third supporting piece (71) is provided with guide wheels (73) distributed in an array manner, the third supporting piece (71) is provided with a first driving roller (75) and second driving rollers (74) distributed symmetrically, the third supporting piece (71) is provided with a third motor (76), and an output shaft of the third motor (76) is fixedly connected with the second driving roller (74) on one side;

and a third cylinder (77) is arranged on the third supporting piece (71), and a cutting knife is arranged on an output shaft of the third cylinder (77).

7. The device for embossing release paper for water-based leather production as claimed in claim 6, wherein the third supporting member (71) comprises a third supporting plate (711), a fourth guiding shaft (712) is arranged on the third supporting plate (711), the fourth guiding shaft (712) is matched with the second guiding hole (122), one end of the fourth guiding shaft (712) is tightly connected with the third supporting plate (711), and the other end of the fourth guiding shaft is provided with a third limiting block (7121);

the output shaft of the second cylinder (72) passes through the first through hole (123) and is fixedly connected with the third support plate (711);

fourth supporting plates (713) which are symmetrically distributed are arranged on the third supporting plate (711), third rotating connecting holes (714) which are distributed in an array mode are arranged on the fourth supporting plate (713), an n-type supporting frame (715) is arranged on the fourth supporting plate (713) on one side, and a fourth through hole (716) is formed in the n-type supporting frame (715);

a fifth supporting plate (717) is arranged on the third supporting plate (711), the fifth supporting plate (717) is positioned on one side of the fourth supporting plate (713) and is vertical to the fourth supporting plate, a through hole (718) is formed in the fifth supporting plate (717), and a fifth through hole (719) which is vertically communicated with the through hole (718) is formed in the fifth supporting plate (717);

the second driving roller (74) comprises a second driving roller main body (741), one end of the second driving roller main body (741) is provided with a second gear (742), the first driving roller (75) comprises a second connecting shaft (751), two ends of the second connecting shaft (751) are respectively provided with a first driving roller main body (752), one side of the first driving roller main body (752) is provided with a third gear (753) matched with the second gear (742), the first driving roller (75) and the second driving roller (74) are respectively positioned in two third rotating connecting holes (714) on one side to rotate, and the second driving roller main body (741) is positioned in the rest third rotating connecting holes (714) to rotate;

the output shaft of the third motor (76) passes through the fourth through hole (716) and is fixedly connected with the second gear (742);

the third cylinder (77) is fixed on the n-shaped support frame (715), and the fourth through hole (716) of the third cylinder (77) is tightly connected with the cutting knife.

8. The operating method of an embossing apparatus as claimed in claim 7, characterized in that the operating method comprises the steps of:

s1, release paper sleeving arrangement

Sleeving a winding cylinder wound with release paper on a sleeving rod (625), and pulling the release paper to enable the release paper to be extruded between guide wheels (73) and between a first driving roller main body (752) and a second driving roller main body (741) and then to pass through a through hole (718);

s2, embossing

The driving part (2) drives the embossing part (3) to reciprocate, the sliding block (325) is positioned in the sliding groove (42) to slide, so that the pressing plate main body (331) is matched with the embossing bottom plate main body (51) to emboss the release paper, after embossing, the driving part (2) reversely drives, the sliding block (325) is separated from the sliding groove (42) on one side, so that the first gear (322) is matched with the rack (44), the rotating part (32) rotates, after the first gear (322) is separated from the rack (44), the sliding block (325) is guided by the guide groove (43), the sliding block (325) is matched with the sliding groove (42) on the other side, and the pressing plate main body (331) is matched with the embossing bottom plate main body (51) on the other side to emboss the release paper;

s3, moving release paper

After the release paper is embossed, after the embossing piece (3) moves to the other side, the second motor (61) on the embossed side drives the support piece main body (62) to rotate, so that the release paper is separated from the embossing bottom plate main body (51), and the third motor (76) drives the first driving roller (75) and the second driving roller (74) to rotate, so that the release paper moves;

s4, attaching the release paper to the embossing bottom plate main body

The second motor (61) drives the support part main body (62) to rotate, the release paper is attached to the embossing bottom plate main body, the pressing plate main body (331) is matched with the embossing bottom plate main body (51) to emboss the release paper, the circulation operation is performed, the embossing is performed on the release paper, the gap operation is performed on the two sides, the embossing efficiency is ensured, the embossed release paper does not move relatively with the pressing plate main body (331) and the embossing bottom plate main body (51) in the extending direction of the release paper, and the integrity of the embossing is ensured;

s5: cutting out

The third air cylinder (77) drives the cutting knife to move to cut the release paper in the through hole (718).

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