阅读说明：本技术 一种卡片印刷加工工艺 (Card printing processing technology ) 是由 朱瑞 于 2020-12-31 设计创作，主要内容包括：本发明公开了一种卡片印刷加工工艺,包括以下步骤：S1、预先设计卡片图案,通过操控微机预先设置印刷机构、风干机构、模切机构和移动机构的运行轨迹；S2、将上机纸放置在移动机构上,然后开启设备,印刷机构、和移动机构会按照预定轨迹进行运行；S3、待上机纸印刷完毕后,采用风干机构对印刷面进行风干,模切机构会按照预设轨迹进行运行,对成品印张进行模切；S4、将模切后的卡片取下,从而完成卡片印刷。本发明通过抵压板的作用,并不会对卡片进行硬性接触,只是与卡片的表面相接触,不会对卡片产生挤压,可以减少对卡片表面上产生压痕,保证了卡片表面的质量,使得产品的更加的高质量,同时加快了整个卡片的加工效率。(The invention discloses a card printing processing technology, which comprises the following steps: s1, card patterns are designed in advance, and the operation tracks of the printing mechanism, the air drying mechanism, the die cutting mechanism and the moving mechanism are preset through a control microcomputer; s2, placing the upper machine paper on the moving mechanism, then starting the equipment, and enabling the printing mechanism and the moving mechanism to run according to a preset track; s3, after the printing of the paper on the machine is finished, the printed surface is air-dried by an air-drying mechanism, and the die-cutting mechanism runs according to a preset track to perform die-cutting on the finished printed sheet; and S4, removing the die-cut card, thereby finishing card printing. The card pressing plate can not be in rigid contact with the card through the action of the pressing plate, only contacts with the surface of the card, and can not extrude the card, so that the indentation on the surface of the card can be reduced, the quality of the surface of the card is ensured, the product is higher in quality, and the processing efficiency of the whole card is accelerated.)

1. A card printing processing technology is characterized in that: the method comprises the following steps:

s1, card patterns are designed in advance, upper machine paper with proper size is selected according to the card patterns, and the operation tracks of the printing mechanism, the air drying mechanism, the die cutting mechanism and the moving mechanism are preset through controlling a microcomputer;

s2, placing the upper machine paper on the moving mechanism, then starting the equipment, and enabling the printing mechanism and the moving mechanism to run according to a preset track and print on the upper machine paper according to the prepared typesetting;

s3, after the paper on the machine is printed, the printed surface is air-dried by an air-drying mechanism, the die-cutting mechanism runs according to a preset track, the finished printed sheets are die-cut, and a plurality of cards consisting of card components are obtained at one time;

s4, removing the die-cut card, and finishing card printing;

the S3 air drying mechanism comprises a case (1), a feed inlet (2) arranged on one side of the case (1), a discharge outlet (3) arranged on the other side of the case (1), a control panel (4) arranged on the case (1), a screw rod (5) arranged in the case (1), and a pressing device (6) sleeved outside the screw rod (5); a first motor (60) for driving the screw rod (5) to start is arranged on the case (1), a partition (10) is arranged in the case (1), and the partition (10) divides the interior of the case (1) into an air drying chamber (11) and a cutting chamber (12) which are communicated with each other; the pressing device (6) comprises a moving plate (61), a placing plate (62) arranged on the moving plate (61), a groove (63) arranged on the placing plate (62), a clamping sheet (64) arranged in the groove (63), driving grooves (65) arranged on two sides of the groove (63), a first rack (66) moving back and forth along the driving grooves (65), a gear (67) arranged on one side of the first rack (66), a second rack (68) arranged on one side of the gear (67), and a pressing plate (69) arranged on the second rack (68); when card (64) need be air-dried, card (64) are placed inside recess (63), promote first rack (66), and first rack (66) and gear (67) meshing, gear (67) rotate and second rack (68) meshing, second rack (68) case recess (63) internal motion, and second rack (68) drive is supported clamp plate (69) and is carried out the inward movement.

2. The card printing process of claim 1, wherein: a first moving groove (610) is formed in the moving plate (61), a second moving groove (620) is formed in the placing plate (62), and the first moving groove (610) is matched with the second moving groove (620) through a fixing device (7).

3. The card printing process of claim 2, wherein: the fixing device (7) comprises a moving strip (70) arranged in a first moving groove (610), a moving block (71) arranged in a second moving groove (620), a connecting rod (72) used for connecting the moving strip (70) and the moving block (71), and a first spring (73) used for connecting the moving block (71) and the second moving groove (620), and a top rod (74) used for driving the moving strip (70) to move is arranged in the case (1); the first motor (60) is started, the first motor (60) drives the moving plate (61) to move, the moving plate (61) drives the placing plate (62) to move rightwards, then air drying and cutting are carried out, after work is finished, the first motor (60) drives the screw (5) to rotate in the reverse direction, the moving plate (61) moves leftwards, when the ejector rod (74) is moved to be in contact with the moving strip (70), the moving strip (70) moves rightwards, the moving strip (70) drives the connecting rod (72) to move, the connecting rod (72) drives the moving block (71) to move leftwards, when the moving block (71) moves the inner end of the second moving groove (620), the moving block (71) drives the placing plate (62) to move leftwards.

4. The card printing process of claim 1, wherein: a fixed groove (611) is formed in the moving plate (61), a fixed bar (612) and a second spring (613) used for connecting the fixed bar (612) and the fixed groove (611) are arranged in the fixed groove (611), and the fixed bar (612) is in contact with the moving block (71); when the moving block (71) moves rightwards, the moving strip (70) is in contact with the fixed strip (612), the fixed strip (612) moves upwards, then the fixed strip (612) is clamped inside the moving block (71), when the moving block (71) moves leftwards, the fixed strip (612) moves upwards, and the fixed strip (612) is not in contact with the moving block (71).

5. The card printing process of claim 1, wherein: an air drying device (8) is arranged in the air drying cavity (11), and the air drying device (8) comprises a second motor (80), a rotating shaft (81) arranged on the second motor (80), a first connecting plate (82) arranged on the rotating shaft (81), a second connecting plate (83) arranged on the first connecting plate (82), a reciprocating plate (84) arranged on the second connecting plate (83), a hot air blower (85) arranged on the reciprocating plate (84), an air outlet cavity (86) arranged on the hot air blower (85), a plurality of air outlets (87) formed in the air outlet cavity (86), an air outlet piece (88) embedded in the air outlet (87), and a plurality of inclined air outlet holes (89) formed in the circumferential direction of the air outlet piece (88); second motor (80) and air heater (85) start, second motor (80) drive pivot (81) and rotate, pivot (81) drive first connecting plate (82) and rotate, first connecting plate (82) drive second connecting plate (83) upwards or move down, hot-blast air flow to air outlet (87) from air-out cavity (86) in, flow out from air outlet (87) flow direction slope venthole (89) again, it gives vent to anger to go out gas spare (88) to rotate.

6. The card printing process of claim 1, wherein: a stepping groove (13) is formed in the case (1), a switch component (9) is arranged in the stepping groove (13), the switch component (9) comprises a limiting plate (90), a starting block (91) capable of moving up and down along the limiting plate (90) and a third spring (92) used for connecting the starting block (91) and the limiting plate (90), and a button (93) contacted with the starting block (91) is arranged in the limiting plate (90); when the first connecting plate (82) rotates and rotates to touch the starting block (91), the starting block (91) moves upwards and contacts with the button (93), and when the first connecting plate (82) does not contact with the starting block (91), the starting block (91) does not contact with the button (93).

7. The printing processing technology of the card according to claim 1, wherein a switch door (14) is arranged in the partition (10), opening devices (20) matched with the moving plate (61) are arranged on the front side and the rear side of the switch door (14), each opening device (20) comprises a first through groove (200) and a second through groove (201), a moving rack (202) capable of moving up and down along the first through groove (200), a moving gear (203) arranged on one side of the moving rack (202), and a moving toothed door (204) arranged on one side of the moving gear (203); when the moving plate (61) moves rightwards, the moving plate (61) is in contact with the moving rack (202), the moving rack (202) moves downwards to be meshed with the moving gear (203), the moving gear (203) rotates to be meshed with the moving gear gate (204), the moving gear gate (204) moves upwards, and the moving plate (61) enters the cutting chamber (12) at the moment.

8. The card printing process of claim 1, wherein: the cutting chamber (12) comprises a sliding rail (120), a collecting tank (121), a sliding block (122) moving left and right along the sliding rail (120), an air cylinder (123) arranged below the sliding block (122), a rod body (124) arranged on the air cylinder (123), and supporting rods (125) arranged on two sides of the rod body (124), wherein cutting pieces (126) are arranged on the rod body (124) and the supporting rods (125); slide rail (120) and cylinder (123) start, and slider (122) drive cylinder (123) and move, and cylinder (123) drive the body of rod (124) and move down, and the body of rod (124) drive branch (125) and move down, and cutting blade carries out the cutting to card (64).

Technical Field

The invention belongs to the technical field of printing, and particularly relates to a card printing processing technology.

Background

Printing is a technique of transferring ink to the surface of a material such as paper, fabric, or leather by performing processes such as plate making, inking, and pressing on an original such as characters, pictures, or photographs, thereby mass-transferring the contents of the original. In a simple sense, printing is a process technique in which a printing plate or other means is used to transfer graphic and text information from an original to a substrate, and may also be understood as a reproduction process in which an analog or digital image carrier is used to transfer a color former/colorant (e.g., ink) to a substrate, and various types of board-like printed products are also on the market.

The printing technology of card printed matter is more troublesome for ordinary paper printed matter technology operation, and trip card still need carry out the cross cutting when printing, when carrying out the cross cutting, the blade can contact with the printing face, because the printing face does not air-dry to it is fuzzy to lead to the coating to appear in the printing face, and printing quality seriously descends.

Disclosure of Invention

The invention provides a card printing processing technology for overcoming the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a card printing processing technology comprises the following steps:

s1, card patterns are designed in advance, upper machine paper with proper size is selected according to the card patterns, and the operation tracks of the printing mechanism, the air drying mechanism, the die cutting mechanism and the moving mechanism are preset through controlling a microcomputer;

s2, placing the upper machine paper on the moving mechanism, then starting the equipment, and enabling the printing mechanism and the moving mechanism to run according to a preset track and print on the upper machine paper according to the prepared typesetting;

s3, after the paper on the machine is printed, the printed surface is air-dried by an air-drying mechanism, the die-cutting mechanism runs according to a preset track, the finished printed sheets are die-cut, and a plurality of cards consisting of card components are obtained at one time;

s4, removing the die-cut card, and finishing card printing;

the S3 air drying mechanism comprises a case, a feed inlet arranged on one side of the case, a discharge outlet arranged on the other side of the case, a control panel arranged on the case, a screw rod arranged in the case, and a pressing device sleeved outside the screw rod; the machine case is provided with a first motor for driving the screw to start, a separator is arranged in the machine case, and the separator divides the interior of the machine case into an air drying cavity and a cutting cavity which are communicated with each other; the pressing device comprises a moving plate, a placing plate arranged on the moving plate, a groove arranged on the placing plate, a clamping piece arranged in the groove, driving grooves arranged on two sides of the groove, a first rack moving back and forth along the driving grooves, a gear arranged on one side of the first rack, a second rack arranged on one side of the gear, and a pressing plate arranged on the second rack; when the card is required to be air-dried, the card is placed inside the groove, the first rack is pushed, the first rack is meshed with the gear, the gear rotates to be meshed with the second rack, the second rack box moves in the groove, and the second rack moves to abut against the pressing plate to move inwards.

Through the effect that supports the clamp plate, can not carry out rigid contact to the card, just contact with the surface of card, can not produce the extrusion to the card, can reduce to producing the indentation on the card surface, guaranteed the quality on card surface for the higher quality of product has accelerated the machining efficiency of whole card simultaneously.

A first moving groove is formed in the moving plate, a second moving groove is formed in the placing plate, and the first moving groove is matched with the second moving groove through a fixing device.

The fixing device comprises a moving strip arranged in a first moving groove, a moving block arranged in a second moving groove, a connecting rod used for connecting the moving strip and the moving block, and a first spring used for connecting the moving block and the second moving groove, wherein an ejector rod used for driving the moving strip to move is arranged in the case; the first motor is started, the first motor drives the movable plate to move, the movable plate drives the placing plate to move rightwards, then air drying and cutting are carried out, after work is finished, the first motor drives the screw rod to rotate reversely, the movable plate moves leftwards, when the ejector rod is moved to be in contact with the moving strip, the moving strip moves rightwards, the moving strip drives the connecting rod to move, the connecting rod drives the moving block to move leftwards, and when the moving block moves the tail end in the second moving groove, the moving block drives the placing plate to move leftwards.

After the work is finished, when the cards about to enter the next batch are printed and air-dried, the placing plate can move left, and the placing plate moves to the feed inlet, so that the workers can move smoothly when placing the cards without stretching hands to bend and take the cards, the placing plate automatically moves left, and the cards are smooth and easy to place.

A fixed groove is formed in the moving plate, a fixed strip and a second spring for connecting the fixed strip and the fixed groove are arranged in the fixed groove, and the fixed strip is in contact with the moving block; when the moving block moves rightwards, the moving strip is in contact with the fixing strip, the fixing strip moves upwards, then the fixing strip is clamped into the moving block, when the moving block moves leftwards, the fixing strip moves upwards, and the fixing strip is not in contact with the moving block.

Through the effect of fixed strip, can consolidate the fixed effect of placing board and movable plate and contacting for place the board can be more firm with the movable plate to removing, secondly, under the effect of second spring, can realize resetting of fixed strip.

An air drying device is arranged in the air drying cavity and comprises a second motor, a rotating shaft arranged on the second motor, a first connecting plate arranged on the rotating shaft, a second connecting plate arranged on the first connecting plate, a reciprocating plate arranged on the second connecting plate, an air heater arranged on the reciprocating plate, an air outlet cavity arranged on the air heater, a plurality of air outlets formed in the air outlet cavity, an air outlet member embedded in the air outlet, and a plurality of inclined air outlet holes formed in the circumferential direction of the air outlet member; the second motor and the air heater start, and the second motor drives the pivot and rotates, and the pivot drives first connecting plate and rotates, and first connecting plate drives the second connecting plate and upwards or move down, and hot-blast from the air-out cavity internal flow to the air outlet, flow from the air outlet flow direction slope air outlet again, give vent to anger the piece and rotate and give vent to anger.

Through the setting of slope venthole, can be under the effect of wind, gaseous outwards flows from the diagonal direction and spouts gas, can drive the piece of giving vent to anger and rotate jet-propelled, it rotates jet-propelled to give vent to anger the piece, air-dried area has been enlarged, make the ink mark on card surface faster air-dry, secondly, because reciprocating plate upwards or decurrent removal carries out again, when spouting gas downwards, can make the gaseous certain department to the card of concentrating more air-dry fast, when reciprocating plate rebound, make gaseous angle enlarge, each department of card can both air-dry, intermittent type reciprocates and can guarantee that the paper fibre of card does not receive the damage, prevent to air-dry the card all the time, the impaired phenomenon of card produces, the air-dried efficiency in card surface has been improved, whole processing technology's process has been accelerated.

The case is internally provided with a stepping groove, the stepping groove is internally provided with a switch component, the switch component comprises a limiting plate, a starting block capable of moving up and down along the limiting plate and a third spring for connecting the starting block and the limiting plate, and the limiting plate is internally provided with a button contacted with the starting block; when the first connecting plate rotates, the starting block moves upwards when the first connecting plate rotates to touch the starting block, the starting block moves upwards to be in contact with the button, and when the first connecting plate is not in contact with the starting block, the starting block is not in contact with the button.

When rotating through first connecting plate, first connecting plate rotates when setting up down, at this moment the reciprocating plate upwards, when the head rod rotates and sets up, contact with the start block, the start block removes the contact button, the button adjusts the wind-force of air heater down, when reciprocating plate rebound, all play gas spare all rebound, wind-force grow this moment, the button carries out the wind-force regulation and control to the air heater this moment, reduce wind-force, save the electric energy, more environmental protection, when the head rod does not contact with the start block, reciprocating plate will move down this moment, air-dry the part of card, at this moment the button is closed, wind-force replies the initial condition again, convenient and fast more of operation process, air-dried efficiency has been accelerated.

The opening device comprises a first through groove, a second through groove, a first moving rack capable of moving up and down along the first through groove, a moving gear arranged on one side of the moving rack, and a moving gear door arranged on one side of the moving gear; when the moving plate moves rightwards, the moving plate is in contact with the moving rack, the moving rack moves downwards to be meshed with the moving gear, the moving gear rotates to be meshed with the moving toothed door, the moving toothed door moves upwards, and the moving plate enters the cutting chamber at the moment.

Through the power with the help of the movable plate, will move the tooth door and open, need not with the help of extra power source, more energy-concerving and environment-protective, guaranteed the synchronism of working process simultaneously, secondly remove the tooth door and will air-dry the cavity and keep apart with the cutting cavity, guaranteed two cavities work alone mutually, mutual noninterference prevents that the paper foam in the cutting cavity from flying into and air-drying the cavity in, influences the work progress in the air-drying cavity.

The cutting cavity comprises a slide rail, a collecting tank, a slide block moving left and right along the slide rail, an air cylinder arranged below the slide block, a rod body arranged on the air cylinder, and support rods arranged on two sides of the rod body, wherein cutting blades are arranged on the rod body and the support rods; slide rail and cylinder start, and the slider drives the cylinder and removes, and the cylinder drives the body of rod and carries out the downstream, and the body of rod drives branch and carries out the downstream, and cutting blade carries out the cutting to the card.

After the air-drying is finished, the air-drying device directly enters the cutting cavity, the labor force is saved in the automatic process, the broken powder cut off by the cutting groove can be collected by the collecting groove, and the cleaning work in the cutting cavity is facilitated.

In conclusion, the invention has the following advantages: under the action of the pressing plate, the card can not be in rigid contact, only is in contact with the surface of the card, and can not be extruded, so that the indentation on the surface of the card can be reduced, the quality of the surface of the card is ensured, and the product has higher quality;

through the setting of slope venthole, can be under the effect of wind force, gaseous outwards flow out jet-propelled from the diagonal direction, can drive the piece of giving vent to anger and rotate jet-propelled, the piece of giving vent to anger rotates jet-propelled, has enlarged air-dried area for the ink mark on card surface is faster air-dries.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a left side view of the present invention.

Fig. 3 is a cross-sectional perspective view taken along a-a in fig. 2.

Fig. 4 is an enlarged view of a structure shown in fig. 3.

Fig. 5 is an enlarged view of the structure at B in fig. 4.

Fig. 6 is a cross-sectional perspective view taken along B-B in fig. 2.

Fig. 7 is an enlarged view of the structure at F in fig. 6.

Fig. 8 is a cross-sectional perspective view taken along line C-C in fig. 2.

Fig. 9 is an enlarged view of the structure at C in fig. 8.

Fig. 10 is a first cross-sectional perspective view taken along line D-D of fig. 2.

Fig. 11 is an enlarged view of the structure at D in fig. 10.

Fig. 12 is a second sectional perspective view taken along D-D in fig. 2.

Fig. 13 is an enlarged view of the structure at E in fig. 12.

Fig. 14 is a front view of the present invention.

Fig. 15 is a cross-sectional perspective view taken along E-E in fig. 14.

Detailed Description

As shown in fig. 1-15, a card printing process includes the following steps:

s1, card patterns are designed in advance, upper machine paper with proper size is selected according to the card patterns, and the operation tracks of the printing mechanism, the air drying mechanism, the die cutting mechanism and the moving mechanism are preset through controlling a microcomputer;

s2, placing the upper machine paper on the moving mechanism, then starting the equipment, and enabling the printing mechanism and the moving mechanism to run according to a preset track and print on the upper machine paper according to the prepared typesetting;

s3, after the paper on the machine is printed, the printed surface is air-dried by an air-drying mechanism, the die-cutting mechanism runs according to a preset track, the finished printed sheets are die-cut, and a plurality of cards consisting of card components are obtained at one time;

s4, removing the die-cut card, and finishing card printing;

the S3 air drying mechanism comprises a case 1, a feeding hole 2, a discharging hole 3, a control panel 4, a screw 5 and a pressing device 6; the feed port 2 is arranged on the left side of the case 1; the discharge port 3 is arranged on the right side of the case 1; the control panel 4 is fixedly connected to the front part of the case 1; the screw 5 penetrates through the case 1; a first motor 60 for driving the screw 5 to start is arranged on the case 1, and the first motor 60 is the prior art and is not described herein again; the machine case is characterized in that a partition 10 is arranged in the machine case 1, the partition 10 divides the interior of the machine case 1 into an air drying cavity 11 and a cutting cavity 12 which are communicated with each other, the air drying cavity 11 is located on the left side of the machine case 1, and the cutting cavity 12 is located on the right side of the machine case 1.

The pressing device 6 comprises a moving plate 61, a placing plate 62, a groove 63, a card 64, a driving groove 65, a first rack 66, a gear 67, a second rack 68 and a pressing plate 69; the moving plate 61 is sleeved outside the screw 5 and can move leftwards or rightwards on the screw 5; the number of the grooves 63 is multiple, and the number of the grooves 63 can be arranged according to specific conditions, the number of the grooves 63 is 3, and the grooves are uniformly arranged on the placing plate 62 at intervals; the clamping piece 64 is arranged in the groove 63; the number of the driving grooves 65 is 2, and the driving grooves are respectively arranged at the front side and the rear side of the groove 63; the first rack 66 is arranged in the groove 63 and moves left and right along the driving groove 65; the gear 67 is embedded in the driving groove 65 and is meshed with the first rack 66; the second rack 68 penetrates through the groove 63 and the driving groove 65 and moves back and forth in the groove 63 and the driving groove 65; the pressing plate 69 is fixedly connected to the second rack 68.

When the card 64 needs to be air-dried, the card 64 is placed in the groove 63, the first rack 66 is pushed, the first rack 66 is meshed with the gear 67, the gear 67 rotates to be meshed with the second rack 68, the second rack 68 moves in the groove 63, and the second rack 68 drives the pressing plate 69 to move inwards. Through the effect that supports clamp plate 69 to card 64 carries out rigid contact, just contacts with the surface of card 64, can not produce the extrusion to card 64, can reduce to card 64 on the surface and produce the indentation, has guaranteed the quality on card 64 surface for the higher quality of product has accelerated the machining efficiency of whole card 64 simultaneously.

The movable plate 61 is internally provided with first movable grooves 610, the number of the first movable grooves 610 is 2, and the first movable grooves 610 are arranged on the front side and the rear side of the movable plate 61; the placing plate 62 is provided with second moving grooves 620, the number of the second moving grooves 620 is 2, and the second moving grooves 620 are arranged on the front side and the rear side of the placing plate; the first moving groove 610 is engaged with the second moving groove 620 by the fixing means 7. The fixing device 7 comprises a moving bar 70, a moving block 71, a connecting rod 72 and a first spring 73; the moving bar 70 is arranged in the first moving groove 610 and moves leftwards or rightwards in the first moving groove 610; the moving block 71 is arranged in the second moving groove 620 and moves leftwards or rightwards in the second moving groove 620, and an opening 6120 is formed in the top of the moving block 71; the connecting rod 72 is used for connecting the moving bar 70 and the moving block 71, the middle part of the connecting rod 72 is movably connected to the moving plate 61, and two ends of the connecting rod are fixedly connected with the moving block 71 and the moving bar 70; the first spring 73 is used for connecting the moving block 71 and the second moving groove 620; a push rod 74 for driving the moving bar 70 to move is arranged in the case 1, and the push rod 74 is in contact with the moving bar 70.

The first motor 60 is started, the first motor 60 drives the moving plate 61 to move, the moving plate 61 drives the placing plate 62 to move rightwards, air drying and cutting are carried out, after work is finished, the first motor 60 drives the screw 5 to rotate reversely, the moving plate 61 moves leftwards, when the ejector rod 74 is moved to be in contact with the moving strip 70, the moving strip 70 moves rightwards, the moving strip 70 drives the connecting rod 72 to move, the connecting rod 72 drives the moving block 71 to move leftwards, and when the moving block 71 moves the tail end in the second moving groove 620, the moving block 71 drives the placing plate 62 to move leftwards. After finishing through work, when being about to get into next batch card 64 and print and air-dry, place board 62 and can remove left, remove feed inlet 2 department for the staff can be more smooth when placing card 64, need not to stretch out the hand and go to bend and remove, place board 62 and remove left automatically, more smooth and easy when placing.

A fixing groove 611 is formed in the moving plate 61, a fixing bar 612 is formed in the fixing groove 611, and a second spring 613 is used for connecting the fixing bar 612 and the fixing groove 611; when moving block 71 moves rightwards, moving bar 70 is in contact with fixing bar 612, fixing bar 612 moves upwards, fixing bar 612 is clamped inside moving block 71, and when moving block 71 moves leftwards, fixing bar 612 moves upwards, and fixing bar 612 is not in contact with moving block 71. Through the effect of the fixed strip 612, the fixing effect of the contact between the placing plate 62 and the moving plate 61 can be strengthened, so that the placing plate 62 can move towards the moving plate 61 more stably, and secondly, under the effect of the second spring 613, the reset of the fixed strip 612 can be realized.

An air drying device 8 is arranged in the air drying cavity 11, and the air drying device 8 comprises a second motor 80, a rotating shaft 81, a first connecting plate 82, a second connecting plate 83, a reciprocating plate 84, a hot air blower 85, an air outlet cavity 86, an air outlet 87, an air outlet piece 88 and an inclined air outlet 89; the second motor 80 is a conventional motor, and is not described in detail herein; the rotating shaft 81 is fixedly connected with the output end of the second motor 80; one end of the first connecting rod 72 is fixedly connected to the rotating shaft 81; one end of the second connecting plate 83 is hinged to the other end of the first connecting rod 72; the reciprocating plate 84 is fixedly connected to the other end of the second connecting plate 83, guide rods 840 penetrate through the front end and the rear end of the reciprocating plate 84, and the reciprocating plate 84 moves upwards or downwards on the guide rods 840, so that the moving stability of the reciprocating plate 84 is enhanced; the hot air blower 85 is a conventional technique, and will not be described herein, and the hot air blower 85 is fixedly connected to the bottom center portion of the reciprocating plate 84; the air outlet chamber 86 is fixedly connected to the air heater 85; the number of the air outlets 87 is multiple, the number of the air outlets can be arranged according to specific conditions, and the air outlets are uniformly arranged on the air outlet chamber 86 at intervals; the number of the air outlet pieces 88 is equal to that of the air outlets 87, the air outlet pieces 88 are in one-to-one correspondence, and the air outlet pieces 88 are embedded in the air outlets 87; the inclined air outlet holes 89 are arranged in a plurality of numbers, the number of the inclined air outlet holes can be arranged according to specific conditions, and the inclined air outlet holes are evenly arranged in the air outlet circumferential direction at intervals.

Second motor 80 and air heater 85 start, and second motor 80 drives pivot 81 and rotates, and pivot 81 drives first connecting plate 82 and rotates, and first connecting plate 82 drives second connecting plate 83 and upwards or moves down, and hot-blast air flow to air outlet 87 in from air-out cavity 86, flows out from air outlet 87 flow direction slope air outlet 89 again, and air outlet 88 rotates and gives vent to anger. Through the setting of slope air outlet 89, can be under the effect of wind, gaseous outwards outflow air-blast from the diagonal direction of following, can drive out gas piece 88 and rotate air-blast, it rotates air-blast to go out gas piece 88, the air-dried area has been enlarged, make the air-dry of the ink mark on card 64 surface faster, secondly, again because reciprocating plate 84 carries out upwards or decurrent removal, when jet-blasting downwards, can make gaseous certain department to card 64 that concentrates more air-dry fast, when reciprocating plate 84 rebound, make gaseous angle enlarge, each department of card 64 can both air-dry, intermittent type reciprocates and can guarantee that the paper fibre of card 64 does not receive the damage, prevent that one from air-drying card 64, the impaired phenomenon of card 64 produces, the dry efficiency in card 64 surface has been improved, whole processing technology's process has been accelerated.

A step-down groove 13 is formed in the case 1, a switch component 9 is arranged in the step-down groove 13, and the switch component 9 comprises a limiting plate 90, a starting block 91 and a third spring 92; the limiting plates 90 are arranged in a pair and are fixedly connected inside the abdicating groove 13; the starting block 91 is arranged in the limiting plate 90 and can move up and down along the limiting plate 90; the third spring 92 is used for connecting the starting block 91 and the limiting plate 90; a button 93 which is contacted with the starting block 91 is arranged in the limiting plate 90, and the switch button 93 is connected with a motor of the hot air blower 85; when the first connection plate 82 rotates to touch the start block 91, the start block 91 moves upward to contact the button 93, and when the first connection plate 82 does not contact the start block 91, the start block 91 does not contact the button 93. When rotating through first connecting plate 82, first connecting plate 82 rotates when setting up down, at this moment reciprocating plate 84 upwards, when head rod 72 rotates when setting up, contact with start block 91, start block 91 goes to contact button 93, button 93 transfers down air heater 85's wind-force, when reciprocating plate 84 rebound, all play gas spare 88 all rebound, wind-force grow this moment, button 93 carries out the wind-force regulation and control to air heater 85 this moment, reduce wind-force, save the electric energy, environmental protection more, when head rod 72 does not contact with start block 91, reciprocating plate 84 will the rebound this moment, air-dry the part of card 64, at this moment, button 93 closes, wind-force returns the initial condition again, the convenient and fast more of operation process, air-dried efficiency has been accelerated.

An opening and closing door 14 is arranged in the partition 10, opening devices 20 matched with the moving plate 61 are arranged on the front side and the rear side of the opening and closing door 14, and each opening device 20 comprises a first through groove 200, a second through groove 201, a moving rack 202, a moving gear 203 and a moving toothed door 204; the first through groove 200 and the second through groove 201 are arranged on the inner wall of the case 1; the movable rack 202 is arranged in the first through groove 200 and can move up and down along the first through groove 200, a movable spring 2020 is arranged on the movable rack 202, and the other end of the movable spring 2020 is fixedly connected with the first through groove 200; the movable gear 203 is embedded on the inner wall of the case 1 and is meshed with the movable rack 202; the movable toothed door 204 is arranged in the second through groove 201, can move up and down along the second through groove 201 and is meshed with the movable gear 203; when the moving plate 61 moves rightwards, the moving plate 61 is in contact with the moving rack 202, the moving rack 202 moves downwards to be meshed with the moving gear 203, the moving gear 203 rotates to be meshed with the moving gear door 204, the moving gear door 204 moves upwards, and the moving plate 61 enters the cutting chamber 12. Through the power with the help of movable plate 61, will move tooth door 204 and open, need not with the help of extra power source, more energy-concerving and environment-protective, guaranteed the synchronism of working process simultaneously, secondly move tooth door 204 and will air-dry cavity 11 and cut cavity 12 and keep apart, guaranteed two cavities work alone each other, mutual noninterference prevents that the paper foam in the cutting cavity 12 from flying into and air-drying cavity 11 in, the work progress in the cavity 11 is air-dried in the influence.

The cutting chamber 12 comprises a slide rail 120, a collecting groove 121, a slide block 122, a cylinder 123, a rod body 124 and a support rod 125; the slide rail 120 is a conventional one, and is not described herein in detail and is fixedly connected to the top of the cutting chamber 12; the collecting tank 121 is placed at the bottom in the cutting chamber 12; the sliding block 122 is embedded in the sliding rail 120 and moves left and right along the sliding rail 120; the air cylinder 123 is in the prior art, and is not described herein again, and the air cylinder 123 is fixedly connected to the bottom of the sliding block 122; the rod body 124 is fixedly connected to the cylinder 123; the number of the supporting rods 125 is 2, and the supporting rods are fixedly connected to the front side and the rear side of the rod body 124; both the rod 124 and the rod 125 are provided with a cutting blade 126, and the cutting blade 126 is prior art and will not be described herein. Slide rail 120 and cylinder 123 start, and slider 122 drives cylinder 123 and moves, and cylinder 123 drives the body of rod 124 and moves down, and the body of rod 124 drives branch 125 and moves down, and cutting blade carries out the cutting to card 64. After the air drying is finished, the air drying device directly enters the cutting chamber 12, labor force is saved in an automatic process, the cut scraps can be collected by the collecting groove 121, and cleaning work in the cutting chamber 12 is facilitated.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.