阅读说明：本技术 一种图文设计装置及方法 (Image-text design device and method ) 是由 邓刘飞 于 2020-12-29 设计创作，主要内容包括：本发明公开了一种图文设计装置及方法,包括底座、立柱、整理装置；所述整理装置包括开设于所述立柱上的第一滑槽、可在所述第一滑槽内来回移动的第一中心杆、套设于所述第一中心杆上的套环、设于所诉套环上的连接框、开设于所述连接框上的第一腔体、设于所述第一腔体内的第一支撑轮、用于驱动所述第一中心杆转动的第一电机、套设于所述第一中心杆上的送料辊、用于控制连接框高度的升降结构、设于所述连接框一侧的纸张整理结构、放置于底座上的纸张；本发明通过通过纸张整理结构的设置,能够有效的对被打乱的纸张进行整理,从而有效减少了人工整理纸张的麻烦,同时使纸张能够更加整洁,保证了最终装订出来本子的规整。(The invention discloses a device and a method for designing pictures and texts, wherein the device comprises a base, an upright post and a sorting device; the arranging device comprises a first chute arranged on the upright post, a first central rod capable of moving back and forth in the first chute, a lantern ring sleeved on the first central rod, a connecting frame arranged on the lantern ring, a first cavity arranged on the connecting frame, a first supporting wheel arranged in the first cavity, a first motor used for driving the first central rod to rotate, a feeding roller sleeved on the first central rod, a lifting structure used for controlling the height of the connecting frame, a paper arranging structure arranged on one side of the connecting frame and paper placed on the base; according to the invention, through the arrangement of the paper arranging structure, disordered paper can be effectively arranged, so that the trouble of manually arranging paper is effectively reduced, meanwhile, the paper can be tidier, and the regularity of the finally bound book is ensured.)

1. An image-text design device and method comprises a base (1), an upright post (11) arranged on the base (1), and a sorting device (2) arranged on the upright post (11); the method is characterized in that: finishing device (2) including set up in first spout (21) on stand (11), can be in first spout (21) round trip movement's first well core rod (22), the cover is located lantern ring (23) on first well core rod (22), locate connection frame (24) on the lantern ring (23) of telling, set up in first cavity (25) on the connection frame, locate first supporting wheel (26) in first cavity (25), be used for the drive first well core rod (22) pivoted motor (27), cover are located feed roll (3) on first well core rod (22), be used for controlling connection frame (24) height elevation structure (4), locate paper finishing structure (5) of connection frame (24) one side, place paper (28) on base (1).

2. The graphic design device according to claim 1, wherein: the feeding roller (3) comprises an inner roller (31) sleeved on the first central rod (22), a guide block (32) arranged on the inner roller (31), a moving ring (33) sleeved on the inner roller (31), a rubber film (34) arranged on the moving ring (33), a clamping block (35) arranged on the moving ring (33) and a clamping opening (36) arranged on the guide block (32); a closed space is formed between the rubber film (34) and the inner roller (31).

3. The graphic design device according to claim 1, wherein: elevation structure (4) including locating first support (41) of connecting frame (24) below, locate first rotating member (42) on first support (41), locate lever (43) on first rotating member (42), locate lever (43) one end fillet (44), locate first rolling member (45) of fillet (44) department, locate first button (46) of connecting frame (24) below, locate the bevel (47) of lever (43) other end, with corresponding second button (48) of bevel (47), locate third button (49) on base (1), locate second motor (410) of lantern ring (23) below, locate first gear (411) on second motor (410), locate first concave tooth (412) on stand (11).

4. The graphic design device according to claim 1, wherein: the paper arranging structure (5) comprises a first connecting block (51) arranged below the connecting frame (24), a second cavity (52) arranged on the first connecting block (51), a second supporting wheel (53) arranged in the second cavity (52), an arranging plate (54) arranged on the first connecting block (51), flanges (55) arranged on two sides of the arranging plate (54), a first conveying crawler (56) and a second conveying crawler (57) arranged on the arranging plate (54), a plurality of second rolling pieces (58) arranged on the second conveying crawler (57), a detecting structure (6) arranged above the first conveying crawler (56), an adjusting structure (7) arranged on the arranging plate (54) and used for adapting to the sizes of various papers (28), and a leveling structure (8) arranged on the arranging plate (54); a third conveying crawler (59) is arranged on the adjusting structure; a first friction block is arranged on the third conveying crawler belt (59); the first friction block is obliquely arranged on the third conveying crawler (59); the third conveyor track (59) being in an opposite direction to the first conveyor track (56) and the second conveyor track (57); the arrangement plate (54) is obliquely arranged with the horizontal plane.

5. The graphic design device according to claim 4, wherein: the detection structure (6) comprises a first block body (61) arranged on the flange (55), an inductor (62) arranged below the first block body (61), a third cavity (63) arranged on the arranging plate (54), a rotating roller (64) arranged in the third cavity (63), a second friction block (65) arranged on the rotating roller (64), an auxiliary conveying structure (9) arranged on the first block body (61), and a detection line (66) arranged on the paper (28); the second friction block (65) is spirally wound on the rotating roller (64).

6. The graphic design device according to claim 4, wherein: the adjusting structure (7) comprises a groove (71) arranged on the arranging plate (54), a first sliding block (72) capable of moving back and forth in the groove (71), a second block body (73) arranged on the arranging plate (54), a fourth cavity (74) arranged in the second block body (73), an adjusting plate (75) capable of moving back and forth in the fourth cavity (74), a second connecting block (76) used for connecting the adjusting plate (75) with the first sliding block (72), a partition plate arranged on the groove (71) and arranged on a second sliding groove (77) on the second connecting block (76), a third sliding groove (78) arranged below the second sliding groove (77), a convex tooth (79) arranged on the side wall of the third sliding groove (78), a driving rod (710) arranged in the second sliding groove (77) in a penetrating manner, a twisting block (711) arranged at one end of the driving rod (710), and a pair of adjusting blocks (75), The second gear (712) is sleeved on the driving rod (710), the extending block (713) is arranged on the adjusting plate (75), the driving wheel (714) is arranged on the extending block (713), the first extending plate (715) is arranged on the first sliding block (72), and the supporting structure (10) is arranged in the groove (71); the third conveying crawler (59) is arranged on the first sliding block (72).

7. The graphic design device according to claim 5, wherein: the auxiliary conveying structure (9) comprises a fifth cavity (91) arranged on the first block body (61), a driving wheel (92) arranged in the fifth cavity (91), a wire groove (93) arranged on the driving wheel (92), a soft rope body (94) sleeved on the driving wheel (92), and a third rolling piece (95) arranged at the bottom of the fifth cavity (91); the third rolling member (95) is attached to the soft rope body (94).

8. The graphic design device according to claim 4, wherein: the leveling structure (8) comprises a sixth cavity (81) arranged in the flange (55), a third motor (82) arranged in the sixth cavity (81), a driving gear (83) arranged on the third motor (82), a driven gear (84) matched with the driving gear (83), a one-way gear (85) arranged on the driving gear (83), and a driving roller (86) and a driven roller (87) with two ends rotatably arranged on the flange (55); the driving roller (86) is connected to the driving gear (83); the driven roller (87) is connected to the driven gear (84); the driven gear (84) is larger than the driving gear (83).

9. The graphic design device according to claim 6, wherein: the supporting structure (10) comprises a second extending plate (101) arranged on the first sliding block (72), a fourth sliding groove (102) arranged at the bottom of the groove (71), a rotating rod (103) with one end rotatably connected below the second extending plate (101), a moving rod (104) arranged at the other end of the rotating rod (103) and capable of moving back and forth in the fourth sliding groove (102), a fifth sliding groove (105) arranged on the rotating rod (103), a second sliding block (106) capable of moving back and forth in the fifth sliding groove (105), an elastic piece (107) arranged in the fifth sliding groove (105) and used for resetting the second sliding block (106), and a rotating head (108) rotatably connected to the second sliding block (106).

10. A method of graphic arts apparatus as claimed in claims 1-9, wherein: the method comprises the following steps:

1. manually pressing a third button (49), lifting the feeding roller upwards, and adjusting the swelling degree of the rubber film (34) by adjusting the distance of a moving ring (33) on the feeding roller;

2. placing the disordered paper (28) data on the base (1), pressing a third button (49), moving the feed roller downwards until a first rolling member (45) below the lever (43) contacts the surface of the uppermost paper (28), and finally rotationally pressing the lever (43) to a first button (46) in the descending process, stopping descending the feed roller at the moment, and conveying the paper (28) through the driving of a first motor (27);

3. the paper (28) falls above the tidying plate (54) and is conveyed through a first conveying crawler (56) and a second conveying crawler (57);

4. the corner parts of the paper (28) are checked through the sensor (62) in the conveying process, if a detection line (66) reserved in advance is sensed, the paper is sent out through the first conveying crawler (56) and the second conveying crawler (57), if the detection line (66) is not sensed, the rotating roller (64) rotates, so that the paper (28) is driven to move upwards and is in contact with the third conveying crawler (59), and the paper (28) is driven to rotate to adjust the position until the detection line (66) reserved is sensed due to the fact that the direction of the third conveying crawler (59) is opposite to the direction of the first conveying crawler (56) and the direction of the second conveying crawler (57);

5. the paper sheet (28) is flattened by a flattening structure in the subsequent conveying process;

6. delivering the flattened paper (28) for stacking;

7. and binding the finished paper (28).

Technical Field

The invention belongs to the technical field of image-text design, and particularly relates to an image-text design device and method.

Background

Often print the processing to a large amount of data when inviting to post, because print quantity great to produce easily that the data is collected the data that leads to when untimely and is disturbed the condition emergence, thereby need the manual work to clear up the data, at this in-process, common manual arrangement mode is folded the paper easily, leads to the paper to have more crease, leads to subsequent arrangement to arrange, the condition emergence of mistake and reverse side appears, has seriously influenced final binding finished product's quality.

Disclosure of Invention

The invention provides a graphic design device and method for overcoming the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a device and a method for designing pictures and texts comprise a base, an upright column arranged on the base and a finishing device arranged on the upright column; the method is characterized in that: the arranging device comprises a first chute arranged on the upright post, a first central rod capable of moving back and forth in the first chute, a lantern ring sleeved on the first central rod, a connecting frame arranged on the lantern ring, a first cavity arranged on the connecting frame, a first supporting wheel arranged in the first cavity, a first motor used for driving the first central rod to rotate, a feeding roller sleeved on the first central rod, a lifting structure used for controlling the height of the connecting frame, a paper arranging structure arranged on one side of the connecting frame and paper placed on the base; the feeding roller is lifted upwards through the lifting structure, then disordered paper data are placed on the base, the feeding roller is extruded on the topmost paper through the lifting structure again, then the paper is driven by the first motor to rotate, so that the topmost paper slides outwards, then the paper enters the paper arranging structure to arrange the paper, in the process, due to the reduction of the paper, the thickness is gradually reduced, the first central rod moves downwards along the first sliding groove, the feeding roller is driven to move downwards gradually, the feeding roller can always play a role in conveying the paper, the first central rod is arranged through the connecting frame and the lantern ring, the descending stability of the first central rod is ensured, the first central rod can be always horizontal, and the stress of the feeding roller on the paper is more uniform, thereby the precision that the paper sent out has effectively been controlled, avoid the skew track of original of paper, thereby effectively guaranteed the stability of splice box through the setting of the first supporting wheel that sets up above that, the smoothness between splice box and the stand has been guaranteed, the wearing and tearing of equipment have been reduced, equipment service life has been prolonged, the setting through this structure will effectively pile to the paper of various thickness, all possess good transport effect, the stability of paper transport has been guaranteed, simultaneously, through paper arrangement structure, thereby arrange in order the paper, the quality after follow-up paper made originally has been guaranteed.

The feeding roller comprises an inner roller sleeved on the first central rod, a guide block arranged on the inner roller, a moving ring sleeved on the inner roller, a rubber film arranged on the moving ring, a clamping block arranged on the moving ring and a clamping opening arranged on the guide block; a closed space is formed between the rubber film and the inner roller; the clamping block is taken out of the clamping opening, so that the fixation of the movable ring is unlocked, then the movable ring can move along with the guide block, because the guide block and the inner roller are a closed space, the swelling degree of the rubber film can be controlled by moving the guide block, thereby controlling the pressure exerted by the rubber film on the paper, effectively ensuring the friction force between the paper and the rubber film, thereby ensuring that the paper can be subjected to enough friction force without scratching or damaging, thereby conveying the paper on the uppermost layer, ensuring the stability of the conveyed paper, effectively avoiding the possibility of overlapping in the process of conveying the paper through the arrangement of the structure, the possibility of sending out a plurality of sheets at one time is realized, and the rubber film has stronger error compensation capability and ensures the conveying stability of the equipment.

The lifting structure comprises a first support arranged below the connecting frame, a first rotating part arranged on the first support, a lever arranged on the first rotating part, a round angle arranged at one end of the lever, a first rolling part arranged at the round angle, a first button arranged below the connecting frame, an oblique angle arranged at the other end of the lever, a second button corresponding to the oblique angle, a third button arranged on the base, a second motor arranged below the lantern ring, a first gear arranged on the second motor and a first concave tooth arranged on the upright post; the second motor is controlled to drive the first gear to rotate by pressing the third button, the connection frame is controlled to move up and down by matching the first gear with the first concave teeth, the third button is manually pressed, the feeding roller is lifted upwards, disordered paper data are placed on the base, the third button is pressed, the feeding roller moves downwards, the oblique angle on the lever extrudes the second button at the moment, the second motor is controlled to rotate quickly, the connection frame is driven to descend quickly, the working efficiency is accelerated until the first rolling piece below the lever contacts the surface of the uppermost paper and finally the lever rotates in the descending process, the round corner end of the lever extrudes the first button under the support of the paper, the feeding roller stops descending at the moment, the paper is conveyed by the driving of the first motor, when the number of the paper is reduced, the fillet end is no longer extruded to first button this moment, the connection frame will descend once more this moment, through the setting of this structure, thereby the thickness that will effectively pile through the paper carries out high regulation to the connection frame and has guaranteed the contact between rubber membrane and the paper, the extrusion intensity of rubber membrane to the paper has been guaranteed, thereby the paper that the friction undersize between rubber membrane and the paper leads to has been avoided can't be seen off, thereby perhaps the paper of the plural number that the friction too big leads to is seen off the possibility, thereby the stability of equipment has been guaranteed.

The paper arranging structure comprises a first connecting block arranged below the connecting frame, a second cavity arranged on the first connecting block, a second supporting wheel arranged in the second cavity, an arranging plate arranged on the first connecting block, flanges arranged on two sides of the arranging plate, a first conveying crawler and a second conveying crawler arranged on the arranging plate, a plurality of second rolling pieces arranged on the second conveying crawler, a detection structure arranged above the first conveying crawler, an adjusting structure arranged on the arranging plate and used for adapting to various paper sizes, and a leveling structure arranged on the arranging plate; the adjusting structure is provided with a third conveying crawler; the third conveying crawler is provided with a first friction block; the first friction block is obliquely arranged on the third conveying track; the third conveyor track is in an opposite direction to the first and second conveyor tracks; the arrangement plate is obliquely arranged with the horizontal plane; the arrangement plate is connected with the connecting frame, the upright post supports the arrangement plate through the second supporting wheel, so that the moving stability of the arrangement plate is ensured, when paper falls onto the arrangement plate, the lower part of the paper is matched with the first conveying crawler and the second conveying crawler to move along the arrangement plate, because the arrangement plate has an inclination angle, the paper is attached to the position flange at the lower end in the transportation process, the arrangement plate takes the direction of the first conveying crawler and the second conveying crawler as the advancing direction, the arrangement plate is taken as the reference plane, the direction vertical to the advancing direction is the slope direction, when the paper falls onto the arrangement plate, if the paper is not attached to the flange at the long edge, at the moment, because the upward occupying space of the inclination of the paper on the arrangement plate is larger, the paper is contacted with the third conveying crawler, the direction of the third conveying crawler is opposite to the advancing direction, so that one side of the paper is conveyed by the first conveying crawler, the other side of the paper is conveyed by the third conveying crawler, the middle part of the paper is supported by the second rolling piece on the second conveying crawler as a fulcrum at the moment, the paper rotates until the long edge of the paper is attached to the flange, the distance of the paper in the slope direction is shortest and the paper is not contacted with the third conveying crawler, the first conveying crawler and the second conveying crawler both play a conveying role, through the arrangement of the structure, messy paper is effectively conveyed in a mode that the long edge is attached to the flange, the final collection of the paper in the same state is ensured when the final paper is sent out, the sorting quality is ensured, the labor cost is greatly reduced, and the possibility of folding among the paper is effectively reduced through the mode, the possibility of uneven books during final book making due to folding of the paper is avoided, and the final book quality is effectively guaranteed.

The detection structure comprises a first block body arranged on the retaining edge, an inductor arranged below the first block body, a third cavity arranged on the arrangement plate, a rotating roller arranged in the third cavity, a second friction block arranged on the rotating roller, an auxiliary transmission structure arranged on the first block body and a detection line arranged on the paper; the second friction block is spirally wound on the rotating roller; when the paper passes through the inductor, the inductor will scan the detection line on the paper this moment, if the detection line on the paper is not scanned to the inductor this moment, change the roller this moment and will rotate, thereby make the paper receive the effect of the second clutch blocks on it, remove to keeping away from the flange along the slope, thereby make the paper contact third conveying track, overturn, the upset finishes when the inductor detects the detection line, change the roller stall this moment, the paper contacts with the flange once more along the downstream, the setting through this structure will effectively guarantee the paper at final arrangement when complete, every paper is the detection line at left state, the book making in-process has been avoided promptly, the condition that the characters stand upside down can not take place, thereby the quality that final preparation came out has been guaranteed.

The adjusting structure comprises a groove arranged on the arranging plate, a first slide block capable of moving back and forth in the groove, a second block body arranged on the arranging plate, a fourth cavity arranged in the second block body, an adjusting plate capable of moving back and forth in the fourth cavity, a second connecting block used for connecting the adjusting plate and the first slide block, a second sliding groove arranged on the second connecting block and a third sliding groove arranged below the second sliding groove, the convex teeth are arranged on the side wall of the third sliding chute, the driving rod penetrates through the second sliding chute, the screwing block is arranged at one end of the driving rod, the second gear is sleeved on the driving rod, the extending block is arranged on the adjusting plate, the driving wheel is arranged on the extending block, the first extending plate is arranged on the first sliding block, and the supporting structure is arranged in the groove; the third conveying crawler belt is arranged on the first sliding block; the driving rod is rotated by screwing the screwing block, when the driving rod rotates, the second gear is driven to rotate in the third chute, the second connecting block is driven to move by the cooperation between the second gear and the convex teeth arranged in the third chute, the first slider and the adjusting plate which are provided with the third conveying crawler belt are driven to move by the movement of the second connecting block, the distance between the slope surface and the paper turning and the distance between the third conveying crawler belt and the retaining edge at the bottom are adjusted by the movement of the first slider and the adjusting plate, so that the paper with various specifications is adjusted, meanwhile, the mode that the extending block is arranged at the position of the adjusting plate and the driving wheel is arranged in the extending block is adopted, when the paper is conveyed to the position, the paper which is adjusted at the position is moved under the action of the driving wheel, the centre gripping of certain degree has been carried out and has been removed, the mobility stability of paper has been guaranteed, avoid the bending of paper simultaneously, the quality of final cost has been guaranteed, through the mode that sets up first extension board on first slider, make and to obtain supporting when the paper is in the part that the slope upwards surpassed third conveying track, avoided the distal end not to receive the support, thereby the paper distal end that leads to receives gravity upset downwards, thereby the paper middle part arch that leads to, can't contact the possibility of third conveying track, thereby the stability of equipment operation has been guaranteed, final quality has been guaranteed.

The auxiliary conveying structure comprises a fifth cavity arranged on the first block, a driving wheel arranged in the fifth cavity, a wire groove arranged on the driving wheel, a soft rope body sleeved on the driving wheel, and a third rolling piece arranged at the bottom of the fifth cavity; the third rolling piece is attached to the soft rope body; rotate through the drive wheel, thereby drive the soft rope body of joint in the wire casing and rotate, in the pivoted because the friction between soft rope body and the third rolling member, thereby will drive the third rolling member and rotate, thereby with form the cooperation between the first transmission track, convey the paper jointly, simultaneously because the ball possesses universal rolling ability, when the paper received the drive rebound of commentaries on classics roller, the ball can not produce the effect of blockking to the paper, setting through this structure, the transport of paper will effectively be guaranteed, guaranteed simultaneously that the paper has avoided because the cracked possibility of paper that the too big result in of friction in each side rebound's stability, thereby the final quality of product has been guaranteed.

The leveling structure comprises a sixth cavity arranged in the flange, a third motor arranged in the sixth cavity, a driving gear arranged on the third motor, a driven gear matched with the driving gear, a one-way gear arranged on the driving gear, and a driving roller and a driven roller, wherein two ends of the driving roller and the driven roller are rotatably arranged on the flange in a penetrating way; the driving roller is connected to the driving gear; the driven roller is connected to the driven gear; the driven gear is larger than the driving gear; when no paper passes through, the rotation of the driving roller drives the driven roller to rotate through the meshing of the driving gear and the driven gear, the driven gear is larger than the driving gear, so the rotating speed of the driven roller is slow, but still has a certain rotating speed, the situation that the paper cannot pass through the driven roller is avoided, the paper is in contact with the driven roller at the moment, the paper enters the position of the driving roller through the conveying of the driven roller, the rotating speed of the driving roller is fast, the paper is accelerated to move under the driving of the driving roller, and the paper between the two rollers is tightened because a certain speed difference is formed between the slow speed of the driven roller and the driving roller at the moment, so the paper is straightened, the speed of the driven roller is improved to a certain degree, and at the moment, a part of power of the rotation of the driven roller comes from the paper driven by the driving roller, so the speed of the driven roller is increased, the rotating speed of the driven gear rises, the driven gear continuously penetrates through the teeth of the driving wheel through the one-way teeth, paper is effectively leveled through the arrangement of the structure, the smoothness of final paper is guaranteed, and the quality of final books is guaranteed.

The supporting structure comprises a second extending plate arranged on the first sliding block, a fourth sliding groove arranged at the bottom of the groove, a rotating rod with one end rotatably connected below the second extending plate, a moving rod arranged at the other end of the rotating rod and capable of moving back and forth in the fourth sliding groove, a fifth sliding groove arranged on the rotating rod, a second sliding block capable of moving back and forth in the fifth sliding groove, an elastic piece arranged in the fifth sliding groove and used for resetting the second sliding block, and a rotating head rotatably connected to the second sliding block; the second extending plate is arranged to enable the paper to be supported by the second extending plate at the farthest edge in the slope direction when the long edge of the paper is attached to the flange, so that the sagging of the edge of the paper is avoided, the folding and damage of the paper possibly caused by the fact that the paper is clamped in the concave position are avoided, the paper is supported, when the first sliding block moves along the groove, the rotary rod rotates around the connecting position of the second extending plate, the other end of the rotary rod moves along the fourth sliding groove, at the moment, the second sliding block continuously pops outwards under the action of the elastic piece and abuts against the edge of the second extending plate through the rotating head, the whole plane has the supporting capacity for the paper, the grid type supporting of the paper is guaranteed, the occurrence of straight strip type faults is avoided, and the possibility that the paper sinks at the fault to cause the tilting of the edge of the paper is caused, thereby avoiding the possibility of folding the paper and ensuring the final quality of the book.

A method of graphic design apparatus comprising the steps of:

1. manually pressing the third button, lifting the feeding roller upwards, and adjusting the swelling degree of the rubber film by adjusting the distance of the moving ring on the feeding roller;

2. the disordered paper data is placed on the base, the third button is pressed, the feeding roller moves downwards until the first rolling piece below the lever contacts the surface of the uppermost paper, and finally the lever rotates to extrude the first button in the descending process, at the moment, the feeding roller stops descending, and the paper is conveyed through the driving of the first motor;

3. the paper falls above the finishing plate and is conveyed through the first conveying crawler belt and the second conveying crawler belt;

4. the corner parts of the paper are checked through the sensor in the conveying process, if a detection line reserved in advance is sensed, the paper is sent out through the first conveying crawler belt and the second conveying crawler belt, if the detection line is not sensed, the rotating roller rotates at the moment, so that the paper is driven to move upwards and is in contact with the third conveying crawler belt, and the paper is driven to rotate to adjust the position until the reserved detection line is sensed;

5. the paper is flattened by a flattening structure in the subsequent conveying process;

6. sending out the leveled paper sheets for stacking;

7. and binding the finished paper.

According to the invention, through the arrangement of the paper arranging structure, disordered paper can be effectively arranged, so that the trouble of manually arranging paper is effectively reduced, meanwhile, the paper can be tidier, and the regularity of the finally bound book is ensured.

Drawings

Fig. 1 is a first structural schematic diagram of the present invention.

Fig. 2 is a second structural schematic diagram of the present invention.

Fig. 3 is a front view of the present invention.

Fig. 4 is an enlarged schematic view of a portion a of fig. 1.

Fig. 5 is an enlarged schematic view of fig. 1 at B.

Fig. 6 is a partially enlarged schematic view of fig. 5.

Fig. 7 is a partially enlarged schematic view of fig. 2.

Fig. 8 is a partially enlarged schematic view of fig. 7.

Fig. 9 is a schematic perspective cross-sectional view taken along line a-a of fig. 3.

Fig. 10 is a partially enlarged schematic view of fig. 9.

Fig. 11 is a schematic structural view of the auxiliary conveying structure 9.

Fig. 12 is an enlarged schematic view of the feed roller 3.

FIG. 13 is a schematic view of the present invention with the adjustment plate and its attachment portions removed.

Fig. 14 is a partial structural view of the flattening structure.

Fig. 15 is a schematic structural view of the hidden portion of fig. 13.

Detailed Description

As shown in fig. 1-15, an image-text design device and method comprises a base 1, a column 11, and a finishing device 2; the upright post 11 is arranged on the base 1, and the arranging device 2 is arranged on the upright post 11; the sorting device 2 comprises a first chute 21, a first central rod 22, a lantern ring 23, a connecting frame 24, a first cavity 25, a first supporting wheel 26, a first motor 27, a feeding roller 3, a lifting structure 4, a paper sorting structure 5 and paper 28; the first chute 21 is arranged on the upright post 11, the first central rod 22 can move back and forth in the first chute 21, the lantern ring 23 is sleeved on the first central rod 22, the connecting frame 24 is arranged on the lantern ring 23, the first cavity 25 is arranged on the connecting frame, the first supporting wheel 26 is arranged in the first cavity 25, the first motor 27 is used for driving the first central rod 22 to rotate, the feed roller 3 is sleeved on the first central rod 22, the lifting structure 4 is used for controlling the height of the connecting frame 24, the paper arranging structure 5 is arranged on one side of the connecting frame 24, and the paper 28 is placed on the base 1; the feeding roller is lifted upwards through the lifting structure, after the disordered paper 28 data is placed on the base 1, the feeding roller is extruded on the topmost paper 28 through the lifting structure again, then the feeding roller is driven by the first motor 27 to rotate, so that the topmost paper 28 slides outwards, then the paper 28 enters the paper sorting structure to be sorted, in the process, due to the reduction of the paper 28, the thickness is gradually reduced, so that the first central rod 22 moves downwards along the first sliding groove 21, the feeding roller is driven to move downwards gradually, the feeding roller is guaranteed to play a role in conveying the paper 28 all the time, the first central rod 22 is arranged through the connecting frame 24 and the lantern ring 23, the descending stability of the first central rod 22 is guaranteed, the first central rod 22 is guaranteed to be horizontal all the time, and the feeding roller is more uniform in stress on the paper 28, thereby the precision that paper 28 sent out has effectively been controlled, avoid the skew track of original of paper 28, thereby effectively guaranteed the stability of connection frame 24 through the setting of the first supporting wheel 26 that sets up above that, guaranteed the smoothness between connection frame 24 and the stand 11, the wearing and tearing of equipment have been reduced, equipment service life has been prolonged, setting up through this structure will effectively pile the paper 28 of various thickness, all possess good transport effect, the stability that paper 28 carried has been guaranteed, simultaneously through paper arrangement structure, thereby arrange in order paper 28, the quality after follow-up paper 28 made originally has been guaranteed.

The feeding roller 3 comprises an inner roller 31, a guide block 32, a moving ring 33, a rubber film 34, a clamping block 35 and a clamping interface 36; the inner roller 31 is sleeved on the first central rod 22, the guide block 32 is arranged on the inner roller 31, the moving ring 33 is sleeved on the inner roller 31, the rubber film 34 is arranged on the moving ring 33, the clamping block 35 is arranged on the moving ring 33, and the clamping interface 36 is arranged on the guide block 32; a closed space is formed between the rubber film 34 and the inner roller 31; the clamping block 35 is taken out from the clamping interface 36, so that the fixing of the moving ring 33 is unlocked, then the moving ring 33 can move along with the guide block 32, and because a closed space is formed between the guide block 32 and the inner roller 31, the swelling degree of the rubber film 34 can be controlled by moving the guide block 32, so that the pressure applied by the rubber film 34 to the paper 28 is controlled, the friction force between the paper 28 and the rubber film 34 is effectively ensured by setting the rubber film 34, so that the paper 28 can be subjected to enough friction force under the condition of not generating scratch or damage, so that the paper 28 at the uppermost layer is conveyed, the stability of conveying the paper 28 is ensured, meanwhile, the possibility of overlapping in the conveying process of the paper 28, namely the possibility of delivering a plurality of paper at one time is effectively avoided by setting the structure, and the structure has stronger error compensation capability through the form of the rubber film 34, the stability of equipment transportation is guaranteed.

The lifting structure 4 comprises a first bracket 41, a first rotating member 42, a lever 43, a round angle 44, a first rolling member 45, a first button 46, a bevel 47, a second button 48, a third button 49, a second motor 410, a first gear 411 and a first concave tooth 412; the first bracket 41 is arranged below the connecting frame 24, the first rotating part 42 is arranged on the first bracket 41, the lever 43 is arranged on the first rotating part 42, the round angle 44 is arranged on one end of the lever 43, the first rolling part 45 is arranged at the round angle 44, the first rolling part 45 is provided with a ball, the first button 46 is arranged below the connecting frame 24, the bevel angle 47 is arranged at the other end of the lever 43, the second button 48 corresponds to the bevel angle 47, the third button 49 is arranged on the base 1, the second motor 410 is arranged below the lantern ring 23, the first gear 411 is arranged on the second motor 410, and the first concave tooth 412 is arranged on the upright post 11; the second motor 410 is controlled to drive the first gear 411 to rotate by pressing the third button 49, so that the up-and-down movement of the connecting frame 24 is controlled by matching the first gear 411 with the first concave teeth 412, the third button 49 is manually pressed, the feeding roller is lifted upwards, the disordered paper 28 data is placed on the base 1, the third button 49 is pressed, the feeding roller moves downwards, the second button 48 is pressed by the bevel angle 47 on the lever 43 at the moment, so that the second motor 410 is controlled to rotate quickly, the connecting frame 24 is driven to descend quickly, the working efficiency is increased, until the first rolling piece 45 below the lever 43 contacts the surface of the uppermost paper 28, and finally the lever 43 rotates in the descending process, the first button 46 is pressed by the round corner 44 end of the lever 43 under the support of the paper 28, and the feeding roller stops descending, the paper 28 is conveyed by the driving of the first motor 27, when the number of the paper 28 is reduced, the round angle 44 end is not pressed against the first button 46 any more, at the moment, the connecting frame 24 is lowered again, through the arrangement of the structure, the height of the connecting frame 24 is effectively adjusted by the thickness of the paper 28 stack, so that the contact between the rubber film 34 and the paper 28 is ensured, the extrusion strength of the rubber film 34 to the paper 28 is ensured, the possibility that the paper 28 cannot be sent out due to the fact that the friction between the rubber film 34 and the paper 28 is too small or a plurality of papers 28 are sent out due to the fact that the friction is too large is avoided, and the stability of the equipment is ensured.

The paper sheet tidying structure 5 comprises a first connecting block 51, a second cavity 52, a second supporting wheel 53, a tidying plate 54, a rib 55, a first conveying crawler 56, a second conveying crawler 57, a second rolling piece 58, a detection structure 6, an adjusting structure 7, a leveling structure 8 and a third conveying crawler 59; the first connecting block 51 is arranged below the connecting frame 24, the second cavity 52 is arranged on the first connecting block 51, the second supporting wheel 53 is arranged in the second cavity 52, the arranging plate 54 is arranged on the first connecting block 51, the ribs 55 are arranged on two sides of the arranging plate 54, the first conveying crawler 56 and the second conveying crawler 57 are arranged on the arranging plate 54, a plurality of second rolling members 58 are arranged, the second rolling members 58 are arranged as balls and arranged on the second conveying crawler 57, the detection structure 6 is arranged above the first conveying crawler 56, the adjusting structure 7 is arranged on the arranging plate 54 and used for adapting to various paper 28 sizes, and the leveling structure 8 is arranged on the arranging plate 54; a third conveyor track 59 is provided on the adjustment structure; a first friction block is arranged on the third conveying crawler 59; the first friction blocks are obliquely arranged on the third conveying track 59; the third conveying track 59 is opposite to the first and second conveying tracks 56 and 57; the arranging plate 54 is obliquely arranged with the horizontal plane; the arrangement plate 54 is connected with the connecting frame 24, the upright post 11 supports the arrangement plate 54 through the second supporting wheel 53, so that the stability of the movement of the arrangement plate 54 is ensured, after the paper 28 falls on the arrangement plate 54, the lower part of the paper 28 is matched with the first conveying crawler 56 and the second conveying crawler 57 so as to move along the arrangement plate 54, the arrangement plate 54 has an inclination angle 47 degrees, so that the paper 28 is attached to the lower position blocking edge 55 in the transportation process, the arrangement plate 54 takes the direction of the first conveying crawler 56 and the second conveying crawler 57 as the advancing direction, the arrangement plate 54 as a reference plane, and the direction vertical to the advancing direction is a slope direction, so when the paper 28 falls on the arrangement plate, if the paper 28 is not attached to the blocking edge 55 at the long side, the upward slope of the paper 28 on the arrangement plate 54 is larger due to the inclination, the paper 28 will contact with the third conveying caterpillar 59, and since the direction of the third conveying caterpillar 59 is opposite to the advancing direction, one side of the paper 28 will be conveyed by the first conveying caterpillar 56, the other side will be conveyed by the third conveying caterpillar 59, and the middle part will be supported by the second rolling member 58 on the second conveying caterpillar 57 as a fulcrum, so that the paper 28 will rotate until the long side of the paper 28 is jointed with the rib 55, and at this time, the distance of the paper 28 in the sloping direction is shortest, and the paper 28 is no longer contacted with the third conveying caterpillar 59, and the first conveying caterpillar 56 and the second conveying caterpillar 57 both play a conveying role, through the arrangement of the structure, the messy paper 28 can be effectively conveyed in a way that the long side is jointed with the rib 55, and the paper 28 can be finally collected in the same state when finally sent out, thereby ensuring the finishing quality, the labor cost is greatly reduced, the possibility of folding among the paper sheets 28 is effectively reduced through the mode, the possibility of uneven books during final book manufacturing caused by folding of the paper sheets 28 is avoided, and the final book quality is effectively guaranteed.

The detection structure 6 comprises a first block body 61, a sensor 62, a third cavity 63, a roller 64, a second friction block 65, an auxiliary conveying structure 9 and a detection line 66; the first block 61 is arranged on the rib 55, the sensor 62 is arranged below the first block 61, the sensor 62 is a structure capable of detecting whether the detection line 66 is scanned or not so as to determine whether the rotating roller 64 is rotated, which can be realized by a single chip microcomputer as the prior art, and is not described herein again, the third cavity 63 is arranged on the sorting plate 54, the rotating roller 64 is arranged in the third cavity 63, the second friction block 65 is arranged on the rotating roller 64, the rotating roller 64 can be arranged in multiple sections, and is more suitable for conveying multiple sheets of paper simultaneously, meanwhile, the arrangement of the second friction block 65 on the roller enables the roller to have the capability of driving the paper 28 to move in the forward direction while moving the paper 28 in the upward slope direction, the auxiliary conveying structure 9 is arranged on the first block 61, and the detection line 66 is arranged on the paper 28; the second friction block 65 is spirally wound on the rotating roller 64; when the paper 28 passes through the sensor 62, the sensor 62 scans the detection line 66 on the paper 28, if the sensor 62 does not scan the detection line 66 on the paper 28, the roller 64 rotates at this time, so that the paper 28 is under the action of the second friction block 65 on the paper, the paper 28 moves away from the rib 55 along the slope direction, so that the paper 28 is enabled to contact with the third conveying crawler 59 for overturning, when the sensor 62 detects the detection line 66 after overturning is completed, the roller 64 stops rotating at this time, the paper 28 contacts with the rib 55 again along downward movement, the arrangement of the structure effectively ensures that the paper 28 is completely arranged finally, each paper 28 is in a state that the detection line 66 is on the left side, namely, the book making process is avoided, the situation that the characters are inverted cannot occur, and the finally made quality is ensured.

The adjusting structure 7 comprises a groove 71, a first slider 72, a second block 73, a fourth cavity 74, an adjusting plate 75, a second connecting block 76, a second sliding groove 77, a third sliding groove 78, a convex tooth 79, a driving rod 710, a screwing block 711, a second gear 712, an extending block 713, a driving wheel 714, a first extending plate 715 and the supporting structure 10; the groove 71 is arranged on the arranging plate 54, the first sliding block 72 can move back and forth in the groove 71, the second block body 73 is arranged on the arranging plate 54, the fourth cavity 74 is arranged in the second block body 73, the adjusting plate 75 can move back and forth in the fourth cavity 74, the second connecting block 76 is used for connecting the adjusting plate 75 and the first sliding block 72, the partition plate of the second sliding groove 77 arranged on the groove 71 is arranged on the second connecting block 76, the third sliding groove 78 is arranged below the second sliding groove 77, the convex teeth 79 are arranged on the side wall of the third sliding groove 78, the driving rod 710 is arranged in the second sliding groove 77 in a penetrating way, the screwing block 711 is arranged at one end of the driving rod 710, the second gear 712 is sleeved on the driving rod 710, the extending block 713 is arranged on the adjusting plate 75, the driving wheel 714 is arranged on the extending block 713, the first extending plate 715 is arranged on the first sliding block 72, the support structure 10 is arranged in the groove 71; the third conveying crawler 59 is arranged on the first slider 72; the driving rod 710 is rotated by screwing the screwing block 711, when the driving rod 710 is rotated, the second gear 712712 is driven to rotate in the third chute 78, the second connecting block 76 is driven to move by the cooperation between the second gear 712712 and the convex teeth 79 arranged in the third chute 78, the first slider 72 and the adjusting plate 75 provided with the third conveying crawler 59 are driven to move by the movement of the second slider 712712 and the adjusting plate 75, the distance between the slope surface and the turning of the paper 28 and the distance between the third conveying crawler 59 and the bottom rib 55 are adjusted by the movement of the first slider 72 and the adjusting plate 75, so that the paper 28 corresponding to a plurality of specifications is adjusted, and when the paper 28 is conveyed to the position by the way of arranging the extending block 713 in which the driving wheel 714 is arranged at the position of the adjusting plate 75, the paper 28 after position adjustment is completed, receive the effect of drive wheel 714 to remove, certain degree of centre gripping removal has been carried out, the mobility stability of paper 28 has been guaranteed, avoid the bending of paper 28 simultaneously, the quality of final cost has been guaranteed, through the mode that sets up first extension board 715 on first slider 72, make the part that surpasss third conveying track 59 when paper 28 is in the slope upwards support, the distal end has been avoided not receiving the support, thereby the paper 28 distal end that leads to receives gravity upset downwards, thereby the paper 28 middle part hunch-up that leads to, can't contact the possibility of third conveying track 59, thereby the stability of equipment operation has been guaranteed, final quality has been guaranteed.

The auxiliary conveying structure 9 comprises a fifth cavity 91, a driving wheel 92, a wire groove 93, a soft rope body 94 and a third rolling piece 95; the fifth cavity 91 is arranged on the first block body 61, the driving wheel 92 is arranged in the fifth cavity 91, the wire groove 93 is arranged on the driving wheel 92, the soft rope body 94 is sleeved on the driving wheel 92, and the third rolling piece 95 is arranged at the bottom of the fifth cavity 91 and is provided with a ball; the third rolling member 95 is attached to the soft rope 94; rotate through drive wheel 92, thereby drive the soft rope body 94 of joint in wire casing 93 and rotate, in the pivoted time because the friction between soft rope body 94 and the third rolling member 95, thereby will drive third rolling member 95 and rotate, thereby with form the cooperation between the first transmission track 56, convey paper 28 jointly, simultaneously because the ball possesses universal rolling ability, when paper 28 received the drive rebound of commentaries on classics roller 64, the ball can not produce the effect of blockking to paper 28, setting through this structure, the transport of paper 28 will effectively be guaranteed, guaranteed paper 28 simultaneously and avoided because the cracked possibility of paper 28 that leads to because the friction is too big at each side rebound's stability, thereby the final quality of product has been guaranteed.

The leveling structure 8 comprises a sixth cavity 81, a third motor 82, a driving gear 83, a driven gear 84, a one-way gear 85, a driving roller 86 and a driven roller 87; the sixth cavity 81 is arranged in the rib 55, the second motor 410 is arranged in the sixth cavity 81, the driving gear 83 is arranged on the second motor 410, the driven gear 84 is matched with the driving gear 83, the one-way gear 85 is arranged on the driving gear 83, and two ends of the driving roller 86 and the driven roller 87 can rotatably penetrate through the rib 55; preferably, two sets of driving rollers 86 and driven rollers 87 are provided, and the driven rollers 87 are matched with each other at the same rotating speed in opposite directions. Drive roll 86 works similarly to finish plate 54 to reduce friction; the driving roller 86 is connected to the driving gear 83; the driven roller 87 is connected to the driven gear 84; the driven gear 84 is larger than the driving gear 83; when no paper 28 passes through, the rotation of the driving roller 86 drives the driven roller 87 to rotate through the engagement of the driving gear 83 and the driven gear 84, because the driven gear 84 is larger than the driving gear 83, the rotation speed of the driven roller 87 is slow, but still has a certain rotation speed, at this time, the paper 28 will contact with the driven roller 87, and enter the position of the driving roller 86 through the transportation of the driven roller 87, and the rotation speed of the driving roller 86 is fast, the paper 28 will move in an accelerated manner under the driving of the driving roller 86, because a certain speed difference is formed between the slow speed of the driven roller 87 and the driving roller 86, the paper 28 between the two rollers is tightened, so as to straighten the paper 28, and then the speed of the driven roller 87 will be lifted to a certain extent due to the paper 28, at this time, the rotation of the driven roller 87 will have a part of power from the paper 28 driven by the driving roller 86, therefore, the driven roller 87 is accelerated, the rotating speed of the driven gear 84 rises, and the driven gear continuously penetrates through the teeth of the driving wheel through the one-way teeth 85, so that the paper 28 is effectively leveled through the arrangement of the structure, the smoothness of the final paper 28 is ensured, and the quality of the final book is ensured.

The supporting structure 10 comprises a second extending plate 101, a fourth sliding chute 102, a rotating rod 103, a moving rod 104, a fifth sliding chute 105, a second sliding block 106, an elastic member 107 and a rotating head 108; the second extending plate 101 is disposed on the first sliding block 72, the fourth sliding slot 102 is disposed at the bottom of the groove 71, one end of the rotating rod 103 is rotatably connected below the second extending plate 101, the moving rod 104 is disposed at the other end of the rotating rod 103 and can move back and forth in the fourth sliding slot 102, the fifth sliding slot 105 is disposed on the rotating rod 103, the second sliding block 106 can move back and forth in the fifth sliding slot 105, the elastic element 107 is disposed in the fifth sliding slot 105 and is used for restoring the second sliding block 106, where the elastic element 107 is configured as a spring, and the rotating head 108 is rotatably connected to the second sliding block 106; the second extending plate 101 is arranged to enable the paper 28 to be supported by the second extending plate 101 at the farthest edge in the sloping direction when the long edge of the paper 28 is attached to the rib 55, so as to avoid the sagging of the edge of the paper 28, avoid the folding and damage of the paper 28 which may be caused by the paper 28 being stuck in the recess, support the paper 28, and enable the rotating rod 103 to rotate around the connection of the second extending plate 101 when the first slider 72 moves along the groove 71, so as to enable the other end of the rotating rod 103 to move along the fourth sliding slot 102, and at this time, the second slider 106 will continuously pop out outwards under the action of the elastic member 107 and abut against the edge of the second extending plate 101 through the rotating head 108, so that the whole plane has the supporting capability for the paper 28, the grid-type support for the paper 28 is ensured, the occurrence of straight faults is avoided, and the possibility of the warping of the edge of the paper 28 caused by the paper 28 sinking at the fault is caused, thereby avoiding the possibility of folding the sheets 28 and ensuring the final quality of the book.

A method of graphic design apparatus comprising the steps of:

1. the third button 49 is manually pressed, the feeding roller is lifted upwards, and the bulging degree of the rubber film 34 is adjusted by adjusting the distance of the moving ring 33 on the feeding roller;

2. placing the disordered paper 28 data on the base 1, pressing the third button 49, moving the feed roller downwards until the first rolling piece 45 below the lever 43 contacts the surface of the uppermost paper 28, and finally rotating and extruding the lever 43 to the first button 46 in the descending process, wherein the feed roller stops descending, and the paper 28 is conveyed by the driving of the first motor 27;

3. the sheet 28 falls over the collating plate 54, being conveyed by the first conveying belt 56 and the second conveying belt 57;

4. the corner parts of the paper 28 are checked through the sensor 62 in the conveying process, if a detection line 66 reserved in advance is sensed, the paper is sent out through the first conveying crawler 56 and the second conveying crawler 57, if the detection line 66 is not sensed, the rotating roller 64 rotates at the moment, so that the paper 28 is driven to move upwards and is in contact with the third conveying crawler 59, and the paper 28 is driven to rotate and adjust the position until the reserved detection line 66 is sensed due to the fact that the direction of the third conveying crawler 59 is opposite to the direction of the first conveying crawler 56 and the direction of the second conveying crawler 57;

5. the paper sheet 28 is flattened by a flattening structure in a subsequent conveyance process;

6. the flattened sheets 28 are fed out for stacking;

7. the finished sheets 28 are bound.

The specific operation flow is as follows:

manually pressing the third button 49, the feeding roller will be lifted upwards, adjusting the distance of the moving ring 33 on the feeding roller to adjust the degree of the rubber film 34 swelling, placing the disordered paper 28 data on the base 1, pressing the third button 49, the feeding roller will move downwards until the first rolling member 45 under the lever 43 contacts the surface of the topmost paper 28, and finally the lever 43 rotates and presses the first button 46 in the descending process, at this time, the feeding roller stops descending, and the paper 28 is driven by the first motor 27 to be fed, the paper 28 falls into the upper part of the arranging plate 54 and is fed by the first and second feeding tracks 56 and 57, when the paper 28 passes through the sensor 62, the sensor 62 will scan the detection line 66 on the paper 28, if the sensor 62 does not scan the detection line 66 on the paper 28, the rotating roller 64 will rotate, so that the paper 28 is acted by the second friction block 65 thereon, and moves away from the rib 55 along the slope direction, thereby promoting the paper 28 to contact the third conveying track 59 for turning, when the sensor 62 detects the detection line 66 after turning over, the rotation roller 64 stops rotating at this time, the paper 28 moves downwards and contacts with the rib 55 again, the arrangement of the structure will effectively ensure that each paper 28 is in the state that the detection line 66 is on the left side when the final finishing of the paper 28 is completed, and the paper 28 rotates through the transmission wheel 92, thereby driving the soft rope 94 clamped in the wire groove 93 to rotate, and the third rolling member 95 is driven to rotate due to the friction between the soft rope 94 and the third rolling member 95 while rotating, thereby forming the cooperation with the first conveying track 56, conveying the paper 28 together, and meanwhile, because the ball has the universal rolling capability, when the paper 28 is driven by the roller 64 to move upwards, the balls do not block the paper 28, when no paper 28 passes through, the driving roller 86 rotates to drive the driven roller 87 to rotate through the meshing of the driving gear 83 and the driven gear 84, the driven gear 84 is larger than the driving gear 83, the driven roller 87 rotates at a slow speed but still has a certain rotation speed, the paper 28 contacts with the driven roller 87 at the moment, the paper enters the position of the driving roller 86 through the conveying of the driven roller 87, the driving roller 86 rotates at a fast speed, the paper 28 is accelerated to move under the driving of the driving roller 86, and the driven roller 87 rotates at a slow speed to form a certain speed difference with the driving roller 86, so that the paper 28 between the two rollers is tightened to straighten the paper 28, and then the speed of the driven roller 87 is lifted to a certain degree due to the paper 28, at this moment, the driven roller 87 rotates to enable part of power to come from the paper 28 driven by the driving roller 86, so that the speed of the driven roller 87 is increased, the rotating speed of the driven gear 84 rises and continuously passes through the teeth of the driving wheel through the one-way teeth 85, the paper 28 is effectively leveled through the arrangement of the structure and finally sent out, a guide inclined plane can be arranged at the rear after the paper is sent out so as to collect the paper, because the two sides of the paper sent out are limited, baffles can be arranged at the two sides to ensure that the paper can be stacked orderly, and in the binding process, the detection lines are arranged at one side, so that the binding can completely shield the detection lines, and the attractiveness of books is ensured.

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.