CN110525999B

CN110525999B - Hard paper card stamping device and method

Info

Publication number: CN110525999B
Application number: CN201910836214.5A
Authority: CN
Inventors: 赵妍; 李胜虎; 李亚
Original assignee: Wuhan Yuen False Proof Technology Co ltd
Current assignee: WUHAN YUEN FALSE PROOF TECHNOLOGY Co.,Ltd.
Priority date: 2019-09-05
Filing date: 2019-09-05
Publication date: 2020-11-10
Anticipated expiration: 2039-09-05
Also published as: CN110525999A

Abstract

The invention relates to a hard paper card stamping device, which comprises a workbench, an adjustable stacking bin arranged on the workbench surface, a card conveying mechanism positioned in the adjustable stacking bin, a stamping mechanism fixedly arranged on the workbench surface, a push plate mechanism fixedly arranged on the workbench, a pair of blanking guide mechanisms which are arranged on the workbench surface and are oppositely arranged, and a square stacking bin fixedly arranged on the bottom end surface of the workbench.

Description

Hard paper card stamping device and method

Technical Field

The invention relates to the technical field of concave-convex imprinting, and particularly provides a hard paper card imprinting device and method.

Background

The embossing is also called embossing printing, which is a special processing technology in the surface decoration processing of printed matters, and uses an embossing mold to make a base material of the printed matters generate plastic deformation under the action of certain pressure, thereby performing artistic processing on the surface of the printed matters. The embossed convex patterns and figures show different patterns with different depths, and have obvious relief sense, thereby enhancing the stereoscopic impression and artistic appeal of the printed matter.

The existing embossing materials for the concave-convex embossing technology mainly comprise hard cards, leather and the like, the device and the method provided by the invention mainly carry out embossing processing on the hard paper cards, the existing similar paper embossing devices basically only have embossing structures and need to carry out feeding, discharging, material taking and stacking manually, simple and repeated operation is not only tedious and troublesome, but also the processing efficiency is excessively determined by manual factors such as manual proficiency and the like.

Based on the problems, the invention provides a hard paper card stamping device, which can completely realize the automatic operation of feeding, material taking and stacking in the stamping process of the hard paper card.

Disclosure of Invention

In order to solve the above problems, the present invention provides a hard paper card stamping device and method, which can solve the problems in the background art.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: the utility model provides a stereoplasm paper card impression device, includes the workstation, installs adjustable storehouse of stacking, be located on the workstation mesa adjustable card conveying mechanism, the fixed mounting of stacking in the storehouse be in stamping mechanism, fixed mounting on the workstation mesa push pedal mechanism, a pair of installation on the workstation mesa and mutual disposition's blanking guiding mechanism and fixed mounting are in square pile up neatly storehouse on the workstation terminal surface, stamping mechanism hugs closely adjustable storehouse of stacking is other, be equipped with square blanking mouth on the workstation, the pile up neatly storehouse sets up the position under the blanking mouth, and is a pair of blanking guiding mechanism sets up relatively blanking mouth department, and is a pair of blanking guiding mechanism with push pedal mechanism distributes stamping mechanism's both sides, push pedal mechanism's propelling movement direction is just right blanking guiding mechanism's direction and relative card conveying mechanism's direction of delivery is established perpendicularly The push plate mechanism can push the card to the blanking port from the stamping mechanism;

the adjustable stacking bin comprises a first fixed bin plate, a second fixed bin plate and an adjustable bin plate mechanism, wherein the first fixed bin plate and the second fixed bin plate are fixedly arranged on the table top of the working table and are arranged in parallel, the adjustable bin plate mechanism comprises a pair of movable bin plates which are oppositely arranged, two bearings with seats, a driving rod which is rotatably arranged between the two bearings with seats and a hand wheel which is fixedly arranged at two ends of the driving rod, the movable bin plates are slidably arranged between the first fixed bin plate and the second fixed bin plate, the bottoms of the movable bin plates are contacted with the table top of the working table, the bearing with seats is uniformly arranged at the outer side of each movable bin plate, two screw rod parts which are oppositely arranged in rotating directions are arranged on the driving rod, the movable bin plates are correspondingly in threaded connection with the two screw rod parts, and a strip rectangular card outlet is arranged on the second fixed bin plate, a guide brush is arranged on the inner top end surface of the card outlet, a gap is reserved between the guide brush and the inner lower end surface of the card outlet, and the conveying direction of the card conveying mechanism is opposite to the card outlet;

the blanking guide mechanism comprises two rows of slide rails fixedly mounted on the table top of the working table, guide plates slidably mounted on the two rows of slide rails and a push-pull cylinder horizontally and fixedly mounted on the table top of the working table, the sliding direction of the guide plates is parallel to the conveying direction of the card conveying mechanism, the output end of the push-pull cylinder is fixed on the back of the guide plates, guide grooves along the conveying direction are formed in the front of the guide plates, flaring processing is performed on the surfaces of the guide grooves facing one ends of the push plate mechanisms, balls are uniformly distributed on the inner side walls of the guide grooves, a rotatably mounted blanking roller is arranged at the front end of the guide grooves on the guide plates, and the horizontal upper tangent plane of the blanking roller is flush with the lower end faces of the guide grooves.

Preferably, card conveying mechanism includes fixed mounting and a pair of installation strip rail, rotation that the level set up on the workstation mesa are installed a pair of double-end output tubular motor between the installation strip rail, be located adjustable a plurality of transport bearing rollers and two driving chains of stacking the storehouse, the cross-section of installation strip rail is the spill, installation strip rail is located adjustable stack storehouse and one end extend perpendicularly to the outside of a fixed storehouse board, double-end output tubular motor is located the outside of a fixed storehouse board, the both ends output of double-end output tubular motor all is equipped with drive sprocket, and is a plurality of transport bearing roller all rotates to be installed a pair of on the installation strip rail and evenly distributed, the both ends of transport bearing roller all are equipped with driven sprocket, both sides drive sprocket and both sides driven sprocket correspond the distribution in the homonymy the concave groove of installation strip rail, the driving chain wheel and the driven chain wheel in each mounting strip rail groove are sleeved with the transmission chain.

Preferably, the embossing mechanism includes fixed mounting and is in die holder, fixed mounting on the workstation die board, the fixed mounting of die holder upper end, fixed mounting are in the installation frame, the fixed mounting of the shape of falling L on the workstation the impression cylinder on installation frame top, be located upper die base and the fixed mounting of installation frame below are in the die board of upper die base bottom, the die board hugs closely on the lateral wall of No. two fixed storehouse boards, the output of impression cylinder passes the installation frame and with the top fixed connection of upper die base.

Preferably, the push plate mechanism comprises a push plate cylinder horizontally and fixedly mounted on the workbench and a push plate fixedly mounted at the output end of the push plate cylinder, the cross section of the push plate is L-shaped, and the push plate is in contact with the upper end face of the concave template.

Preferably, the back of the guide plate is provided with two sliding rods which are correspondingly connected with the two sliding rails in a sliding manner.

In addition, the invention also provides an imprinting method for imprinting the hard paper card by adopting the hard paper card imprinting device, which comprises the following specific steps:

step 1: adjusting the distance between the two movable bin plates through an adjustable bin plate mechanism according to the size of the square card;

step 2: adjusting the distance between two guide plates of a pair of blanking guide mechanisms according to the size of the square card;

and step 3: putting the stacked cards on a conveying carrier roller in an adjustable stacking bin;

and 4, step 4: conveying the card into the stamping mechanism through the card conveying mechanism;

and 5: stamping the card through a stamping mechanism;

step 6: pushing the imprinted card to a position between two guide plates of a pair of blanking guide mechanisms through a push plate mechanism, so that the card is positioned in an area above a blanking port;

and 7: the guide plates are respectively pulled by the two push-pull air cylinders to enable the two guide plates to slide back to back, and the cards horizontally fall into the stacking bin from the blanking port between the two blanking guide mechanisms.

And 8: and taking out the cards stacked in the stacking bin.

The technical scheme has the following advantages or beneficial effects:

1. the invention provides a hard paper card stamping device, wherein an adjustable stacking bin can be adjusted according to the size of a specific hard paper card, the distance between a first fixed bin plate and a second fixed bin plate is fixed, but the distance between two movable bin plates in an adjustable bin plate mechanism is adjustable, and particularly, a hand wheel arranged on any side can be rotated to drive a driving rod to rotate, so that two sections of screw rod parts which are opposite in screwing direction on the driving rod can drive the two movable bin plates to slide towards or away from each other to change the distance, the two movable bin plates can play a good role in guiding the transportation and removal of the card, a card outlet is formed in the second fixed bin plate, and a guide hairbrush is arranged in the card outlet, so that the adjustable stacking bin also has a limiting effect on the transportation of the card, and ensures that only one card can be transported and removed from the card outlet every time, the cards can thus be imprinted one by one in turn at the imprinting mechanism.

2. The invention provides a hard paper card imprinting device, which is provided with a push plate mechanism and a blanking guide mechanism which are matched, when a card is imprinted in the imprinting mechanism, the push plate mechanism can push the card to slide into a space between two guide plates of a pair of blanking guide mechanisms, balls are uniformly arranged in guide grooves of the guide plates, the rolling guide of the balls is helpful for the card to slide into the guide grooves, the guide plates have the function of temporarily supporting the card, the card is in a horizontal state when positioned above a blanking port, when a push-pull cylinder slowly pulls the guide plates to enable the two guide plates to slide back and forth, the card is separated in the rotating process of two blanking rollers and then horizontally falls into a stacking bin along with the gradual increase of the distance between the two guide plates, the blanking guide mechanism enables the card to fall into the stacking bin in a horizontal state, the position of blanking is unanimous at every turn, therefore the card of consequently follow-up completion impression will realize the pile up neatly and stack.

3. The invention provides a hard paper card stamping device, wherein in the whole device, the arranged adjustable stacking bin can realize the conveying guiding and single-sheet conveying of cards, the arranged card conveying mechanism can automatically feed the cards, the arranged push plate mechanism can realize the automatic stripping of the cards, and the arranged blanking guide mechanism can realize the automatic stacking of the cards.

Drawings

The invention and its features, aspects and advantages will become more apparent from reading the following detailed description of non-limiting embodiments with reference to the accompanying drawings. The drawings, in which like numerals refer to like parts throughout the several views and which are not necessarily drawn to scale, emphasis instead being placed upon illustrating the principles of the invention.

FIG. 1 is a top view of a rigid paper card embossing apparatus according to the present invention;

FIG. 2 is a front view of a hard paper card embossing apparatus according to the present invention;

FIG. 3 is an enlarged, fragmentary, schematic view at A of FIG. 1 of the present invention;

FIG. 4 is a front view of the second fixed deck of the present invention;

fig. 5 is a front view of the guide plate of the present invention.

In the figure: 1. a work table; 11. a blanking port; 2. an adjustable stacking bin; 21. a first fixed bin plate; 22. a second fixed bin plate; 221. a card outlet; 222. a guide brush; 23. an adjustable warehouse board mechanism; 231. a movable warehouse board; 232. a pedestal bearing; 233. a drive rod; 2331. a screw section; 234. a hand wheel; 3. a card conveying mechanism; 31. mounting the strip rail; 32. a double-ended output tubular motor; 321. a drive sprocket; 33. conveying carrier rollers; 331. a driven sprocket; 34. a drive chain; 4. a stamping mechanism; 41. a lower die holder; 42. a cavity plate; 43. a mounting frame; 44. an embossing cylinder; 45. an upper die holder; 46. a convex template; 5. a push plate mechanism; 51. a push plate cylinder; 52. pushing the plate; 6. a blanking guide mechanism; 61. a slide rail; 62. a guide plate; 621. a guide groove; 6211. a ball bearing; 622. a blanking roller; 623. a slide bar; 63. a push-pull cylinder; 7. and (7) a stacking bin.

Detailed Description

The following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings for the purpose of providing those skilled in the art with a more complete, accurate and thorough understanding of the concept and technical solution of the present invention, and to facilitate the implementation thereof, but not to limit the present invention.

Referring to the attached drawings 1-5, a hard paper card stamping device comprises a workbench 1, an adjustable stacking bin 2 arranged on the table top of the workbench 1, a card conveying mechanism 3 positioned in the adjustable stacking bin 2, a stamping mechanism 4 fixedly arranged on the table top of the workbench 1, a push plate mechanism 5 fixedly arranged on the workbench 1, a pair of blanking guide mechanisms 6 arranged on the table top of the workbench 1 and oppositely, and a square stacking bin 7 fixedly arranged on the bottom end face of the workbench 1, wherein the stamping mechanism 4 is tightly attached beside the adjustable stacking bin 2, a square blanking port 11 is arranged on the workbench 1, the stacking bin 7 is arranged right below the blanking port 11, a pair of blanking guide mechanisms 6 are oppositely arranged at the blanking port 11, a pair of blanking guide mechanisms 6 and the push plate mechanism 5 are distributed at two sides of the stamping mechanism 4, the pushing direction of the push plate mechanism 5 is opposite to the guiding direction of the blanking guide mechanisms 6, and is vertical to the conveying direction of the card conveying mechanism 3 The push plate mechanism 5 can push the card from the stamping mechanism 4 to the blanking port 11;

the adjustable stacking bin 2 comprises a first fixed bin plate 21, a second fixed bin plate 22 and an adjustable bin plate mechanism 23, wherein the first fixed bin plate 21 and the second fixed bin plate 22 are welded and fixedly installed on the table top of the workbench 1 and are arranged in parallel, the adjustable bin plate mechanism 23 comprises a pair of movable bin plates 231 arranged oppositely, two bearings 232 with seats, a driving rod 233 arranged between the two bearings 232 with seats in a rotating mode and hand wheels 234 fixedly installed at two ends of the driving rod 233, the movable bin plates 231 are installed between the first fixed bin plate 21 and the second fixed bin plate 22 in a sliding mode, the bottoms of the movable bin plates are in contact with the table top of the workbench 1, the bearings 232 with seats are arranged on the outer sides of the movable bin plates 231, the bearings 232 with seats are fixedly installed on the table top of the workbench 1 through screws, two screw rod portions 2331 with opposite rotating directions are arranged on the driving rod 233, the pair of movable bin plates 231 are correspondingly in threaded connection with the two screw rod portions 233, a strip rectangular card outlet 221 is arranged on the second fixed bin plate 22, a guide brush 222 is arranged on the inner top end surface of the card outlet 221, a gap is reserved between the guide brush 222 and the inner lower end surface of the card outlet 221, and the conveying direction of the card conveying mechanism 3 is opposite to the card outlet 221;

the hard paper card to be stamped is square, but the specific sizes are different, the first fixed bin plate 21 and the second fixed bin plate 22 limit a fixed width, the distance between the two movable bin plates 231 is adjustable, can be adjusted according to the size and width of the card, particularly by rotating the hand wheel 234 on either side, the driving rod 233 is driven to rotate, and then the two screw portions 2331 which are arranged in opposite rotation directions drive the two movable bin plates 231 to slide in the opposite directions or in the opposite directions, so that the stacked cards are attached between the two movable bin plates 231, and the conveying guiding effect is achieved;

the blanking guide mechanism 6 comprises two rows of slide rails 61 fixedly welded on the table top of the workbench 1, guide plates 62 slidably mounted on the two rows of slide rails 61, and a push-pull cylinder 63 horizontally and fixedly mounted on the table top of the workbench 1, the back of the guide plates 62 is provided with two slide bars 623 correspondingly and slidably connected with the two slide rails 61, the sliding direction of the guide plates 62 is arranged in parallel relative to the conveying direction of the card conveying mechanism 3, the output end of the push-pull cylinder 63 is fixed in the middle of the back of the guide plates 62, the front of the guide plates 62 is provided with guide grooves 621 along the conveying direction, flaring treatment is performed on one ends of the guide grooves 621 facing the push plate mechanism 5 (the flaring treatment can improve the smoothness of the card pushed by the push plate mechanism 5 to slide in and avoid material blocking), the inner side walls of the guide grooves 621 are uniformly distributed with balls 6211, the dry friction of the balls 6211 in the guide grooves 621 of the, the resistance is smaller, the blanking rollers 622 which are rotatably arranged are arranged at the front ends of the guide grooves 621 on the two rows of guide plates 62, and the horizontal upper tangent plane of each blanking roller 622 is flush with the lower end surface of each guide groove 621; blanking guiding mechanism 6 mainly can fall into pile up neatly storehouse 7 in order to realize the card level particularly, two deflectors 62 can bear the card that has accomplished the impression that slides in from the propelling movement of push pedal mechanism 5, under the pulling of push-and-pull cylinder 63, two deflectors 62 will be slowly slided back to back, the interval of two deflectors 62 will be pulled open gradually, the card will fall into pile up neatly storehouse 7 through blanking mouth 11 level in the interval of pulling open, two blanking rollers 622 play the effect of supplementary blanking, just because the effect of two blanking guiding mechanism 6 makes the card can the level fall into pile up neatly storehouse 7, subsequent card falls into and can realize the pile up neatly and stack.

Further, the card conveying mechanism 3 comprises a pair of installation strip rails 31 which are fixedly welded on the table-board of the workbench 1 and are horizontally arranged, a double-end output tubular motor 32 which is rotatably installed between the pair of installation strip rails 31, four conveying support rollers 33 and two transmission chains 34 which are positioned in the adjustable stacking bin 2, the section of the installation strip rail 31 is concave, the installation strip rail 31 is positioned in the adjustable stacking bin 2, one end of the installation strip rail vertically extends to the outer side of the first fixed bin plate 21, the double-end output tubular motor 32 is positioned on the outer side of the first fixed bin plate 21, two output ends of the double-end output tubular motor 32 are respectively provided with a driving chain wheel 321, the four conveying support rollers 33 are respectively rotatably installed on the pair of installation strip rails 31 and are uniformly distributed, two ends of the conveying support rollers 33 are respectively provided with a driven chain wheel 331, the driving chain wheels 321 on two sides and the driven chain wheels 331 on two sides are correspondingly distributed in the, the driving chain wheel 321 and the driven chain wheel 331 in the concave groove of each mounting strip rail 31 are sleeved with the transmission chain 34. The stacked cards are placed on the conveying rollers 33, the upper ends of the conveying rollers 33 are slightly higher than the inner lower end surfaces of the card outlets 221, the card conveying mechanism 3 provides kinetic energy through the double-head output tubular motor 32 (it should be noted that the double-head output tubular motor 32 performs intermittent conveying, namely, conveying of a card is started after impression blanking is completed and then a second card is conveyed), the driven sprockets 331 are driven by the two driving chains 34 through the driving sprockets 321, synchronous rotation of the four conveying rollers 33 is realized, the four conveying rollers 33 convey the card contacting with the four conveying rollers out of the card outlets 221, and all cards on the card at the bottommost layer are blocked by the inner walls of the second fixing bin plate 22 and cannot be moved out.

Further, the stamping mechanism 4 comprises a lower die holder 41 fixedly mounted on the workbench 1 through screws, a cavity plate 42 fixedly mounted at the upper end of the lower die holder 41 through screws, an inverted L-shaped mounting frame 43 fixedly mounted on the workbench 1 through welding, a stamping cylinder 44 fixedly mounted at the top end of the mounting frame 43 through screws, an upper die holder 45 positioned below the mounting frame 43 and a convex die plate 46 fixedly mounted at the bottom end of the upper die holder 45 through screws, the cavity plate 42 is tightly attached to the outer side wall of the second fixed bin plate 22, and the output end of the stamping cylinder 44 penetrates through the mounting frame 43 and is welded with the top center of the upper die holder 45. The cavity plate 42 and the convex plate 46 are in up-and-down opposite matching for card imprinting to form an imprinting pattern, and the corresponding cavity plate 42 and the corresponding convex plate 46 can be installed and replaced according to different patterns, and the card will be imprinted between the cavity plate 42 and the convex plate 46.

Further, the push plate mechanism 5 comprises a push plate cylinder 51 horizontally and fixedly mounted on the workbench 1 and a push plate 52 welded and fixedly mounted at the output end of the push plate cylinder 51, the cross section of the push plate 52 is L-shaped, and the push plate 52 is in surface contact with the upper end of the cavity plate 42. The pushing plate cylinder 51 drives the pushing plate 52 to push the card imprinted on the cavity plate 42 to slide into between the two guiding plates 62, so that the card is located in the upper area of the blanking opening 11, and then the blanking guiding mechanism 6 will complete the blanking.

step 1: the distance between the two movable bin plates 231 is adjusted through the adjustable bin plate mechanism 23 according to the size of the square card, and the hand wheels 234 on any side are rotated to drive the two movable bin plates 231 to move towards or away from each other, so that the distance between the two movable bin plates 231 is adjusted to be matched with the size of the card, and the stacked card can be placed in the adjustable bin plate mechanism by being attached to the inner walls of the movable bin plates 231 on the two sides;

step 2: the distance between the two guide plates 62 of the blanking guide mechanisms 6 is adjusted according to the size of the square card, the sliding guide plates 62 are pushed and pulled through the push-pull air cylinder 63, so that the two guide plates 62 slide in the opposite directions or in the opposite directions, and the distance between the two guide plates 62 is matched with the width of the card in the conveying direction;

and step 3: placing the stacked cards onto a conveyor roller 33 in the adjustable stacking bin 2;

and 4, step 4: the card is conveyed into the stamping mechanism 4 through the card conveying mechanism 3; the double-ended output tubular motor 32 will drive the transport rollers 33 to rotate synchronously, so that the transport rollers 33 will drive the card out of the card outlet 221 and onto the cavity plate 42;

and 5: the card is stamped by a stamping mechanism 4; the stamping cylinder 44 drives the upper die holder 45 and the convex template 46 to move downwards integrally, and then the convex template 46 and the concave template 42 complete stamping on the card;

step 6: the push plate 52 is pushed by the push plate cylinder 51 of the push plate mechanism 5 to move along the surface of the concave template 42, and then the push plate 52 slides the card which is pushed to be imprinted into the space between the two guide plates 62 of the pair of blanking guide mechanisms 6, so that the card is positioned in the upper area of the blanking port 11;

and 7: the two guide plates 62 are respectively pulled by the two push-pull air cylinders 63 to enable the two guide plates 62 to slide back to back, and the card horizontally falls into the stacking bin 7 from the blanking port 11 between the two blanking guide mechanisms 6.

And 8: and taking out the cards stacked and stacked in the stacking bin 7.

Those skilled in the art will appreciate that variations may be implemented by those skilled in the art in combination with the prior art and the above-described embodiments, and will not be described in detail herein. Such variations do not affect the essence of the present invention and are not described herein.

The above description is of the preferred embodiment of the invention. It is to be understood that the invention is not limited to the particular embodiments described above, in that devices and structures not described in detail are understood to be implemented in a manner common in the art; it will be understood by those skilled in the art that various changes and modifications may be made, or equivalents may be modified, without departing from the spirit of the invention. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical essence of the present invention are still within the scope of the protection of the technical solution of the present invention, unless the contents of the technical solution of the present invention are departed.

Claims

1. The utility model provides a stereoplasm paper card stamping device, includes workstation (1), installs adjustable storehouse (2), the card conveying mechanism (3), the fixed mounting that are located in adjustable storehouse (2) of stacking on workstation (1) mesa are stamping mechanism (4), fixed mounting on workstation (1) mesa push pedal mechanism (5), a pair of installation on workstation (1) mesa and relative arrangement's blanking guiding mechanism (6) and fixed mounting be in square pile up neatly storehouse (7) on workstation (1) bottom face, its characterized in that: the stamping mechanism (4) is tightly attached to the side of the adjustable stacking bin (2), a square blanking port (11) is formed in the workbench (1), the stacking bin (7) is arranged under the blanking port (11), the blanking guide mechanisms (6) are oppositely arranged at the blanking port (11), the blanking guide mechanisms (6) and the push plate mechanism (5) are distributed on two sides of the stamping mechanism (4), the pushing direction of the push plate mechanism (5) is over against the guiding direction of the blanking guide mechanisms (6) and is vertically arranged relative to the conveying direction of the card conveying mechanism (3), and cards can be pushed to the blanking port (11) from the stamping mechanism (4) by the push plate mechanism (5);

the adjustable stacking bin (2) comprises a first fixed bin plate (21), a second fixed bin plate (22) and an adjustable bin plate mechanism (23), the first fixed bin plate (21) and the second fixed bin plate (22) are fixedly mounted on the table top of the workbench (1) and are arranged in parallel, the adjustable bin plate mechanism (23) comprises a pair of movable bin plates (231) which are arranged oppositely, two bearings (232) with seats, a driving rod (233) which is rotatably mounted between the two bearings (232) with seats and hand wheels (234) which are fixedly mounted at two ends of the driving rod (233), the movable bin plates (231) are slidably mounted between the first fixed bin plate (21) and the second fixed bin plate (22) and are in contact with the table top of the workbench (1), the bearings (232) with seats are uniformly arranged on the outer sides of the movable bin plates (231), the card conveying mechanism is characterized in that two sections of screw rod parts (2331) with opposite rotating directions are arranged on the driving rod (233), the pair of movable bin plates (231) is correspondingly in threaded connection with the two sections of screw rod parts (2331), a strip-shaped rectangular card outlet (221) is arranged on the second fixed bin plate (22), a guide brush (222) is arranged on the inner top end surface of the card outlet (221), a gap is reserved between the guide brush (222) and the inner lower end surface of the card outlet (221), and the conveying direction of the card conveying mechanism (3) is over against the card outlet (221);

the blanking guide mechanism (6) comprises two rows of slide rails (61) fixedly arranged on the table top of the workbench (1), a guide plate (62) slidably arranged on the two rows of slide rails (61) and a push-pull air cylinder (63) horizontally and fixedly arranged on the table top of the workbench (1), the sliding direction of the guide plate (62) is arranged in parallel relative to the conveying direction of the card conveying mechanism (3), the output end of the push-pull air cylinder (63) is fixed on the back surface of the guide plate (62), the front surface of the guide plate (62) is provided with a guide groove (621) along the conveying direction, one end of the guide groove (621) facing the push plate mechanism (5) is flared, the inner side wall of the guide groove (621) is uniformly distributed with balls (6211), and the blanking roller (622) rotatably arranged at the front end of the guide groove (621) on the guide plate (62), the horizontal upper tangent plane of the blanking roller (622) is flush with the lower end face of the guide groove (621).

2. A rigid paper card embossing apparatus as claimed in claim 1, wherein: card conveying mechanism (3) including fixed mounting on workstation (1) mesa and a pair of installation strip rail (31), rotation installation be a pair of double-end output tubular motor (32) between installation strip rail (31), be located adjustable a plurality of transport bearing rollers (33) and two driving chain (34) of stacking in storehouse (2), the cross-section of installation strip rail (31) is the spill, installation strip rail (31) are located adjustable stack storehouse (2) in and one end extend perpendicularly to the outside of a fixed storehouse board (21), double-end output tubular motor (32) are located the outside of a fixed storehouse board (21), two output ends of double-end output tubular motor (32) all are equipped with drive sprocket (321), and are a plurality of transport bearing roller (33) all rotate and install a pair of on installation strip rail (31) and evenly distributed, both ends of conveying bearing roller (33) all are equipped with driven sprocket (331), both sides drive sprocket (321) and both sides driven sprocket (331) correspond and distribute at the homonymy install the concave groove of strip rail (31), every install strip rail (31) concave inslot drive sprocket (321) with driven sprocket (331) all cup joints driving chain (34).

3. A rigid paper card embossing apparatus as claimed in claim 1, wherein: impression mechanism (4) are including fixed mounting die holder (41), fixed mounting on workstation (1) die holder (41), die holder (41) upper end, fixed mounting are in mounting bracket (43), the fixed mounting of falling L shape on workstation (1) impression cylinder (44), the position on mounting bracket (43) top are in upper die base (45) and the fixed mounting of mounting bracket (43) below are in convex template (46) of upper die base (45) bottom, die holder (42) hug closely on the lateral wall of No. two fixed storehouse boards (22), the output of impression cylinder (44) passes mounting bracket (43) and with the top fixed connection of upper die base (45).

4. A rigid paper card embossing apparatus as claimed in claim 3, wherein: push pedal mechanism (5) are including horizontal fixed mounting push pedal cylinder (51) and fixed mounting on workstation (1) push pedal (52) of push pedal cylinder (51) output, push pedal (52) cross-section is L shape, just push pedal (52) with die board (42) up end contact.

5. A rigid paper card embossing apparatus as claimed in claim 1, wherein: the back of the guide plate (62) is provided with two sliding rods (623) which are correspondingly connected with the two sliding rails (61) in a sliding manner.