CN115027980A

CN115027980A - Three-dimensional signature conveying device used in high-speed stacking bundling machine system

Info

Publication number: CN115027980A
Application number: CN202210857389.6A
Authority: CN
Inventors: 陈嘉; 宋华明; 李孔旗; 王晋; 梁娟利; 张鑫; 王云田
Original assignee: Beiren Intelligent Equipment Technology Co ltd
Current assignee: Beiren Intelligent Equipment Technology Co ltd
Priority date: 2022-07-20
Filing date: 2022-07-20
Publication date: 2022-09-09

Abstract

The invention discloses a three-dimensional signature conveying device for a high-speed stacking bundling machine system, which comprises a support, wherein the support is fixedly connected with a plurality of tensioning wheels b and tensioning wheels c through an adjusting device, the tensioning wheels a and the tensioning wheels b are externally sleeved with upper pressing paper tapes, the tensioning wheels c are externally sleeved with lower pressing paper tapes, the upper pressing paper tapes and the lower pressing paper tapes are in a closed ring shape, two ends of a tensioning wheel fixing plate are respectively and fixedly connected with a first pressing wheel and a second pressing wheel, the first pressing wheel and the second pressing wheel are on the same side with the tensioning wheels a, two ends of the tensioning wheel fixing plate are also fixedly connected with a pair of back-shaped supports, the pair of back-shaped supports are respectively connected with a third pressing wheel and a fourth pressing wheel, a conveying channel with a twisting distance is formed between the two pressing paper tapes, and an adjusting beam and an adjusting groove are also designed; the device can realize the lifting of the signatures, the front and the back of the signatures are overturned, and the tension of the paper tapes and the gaps among the paper tapes can be adjusted at any time according to the thickness of the signatures through the adjusting beam and the adjusting groove.

Description

Three-dimensional signature conveying device used in high-speed stacking bundling machine system

Technical Field

The invention belongs to the technical field of conveying equipment, and relates to a three-dimensional signature conveying device for a high-speed stacking and bundling machine system.

Background

The existing method for conveying the signatures at the inlet end of the high-speed stacking and bundling machine mainly uses a plurality of conveying methods such as a common conveying belt, a 90-degree turning conveying belt, a 180-degree turning conveying belt, a high-low conveying belt and the like. The existing method for conveying signatures generally adopts multiple conveying belts to be arranged and combined for common use, the multiple conveying lines are large in structure, large in occupied area and inconvenient to adjust, a large amount of resources are wasted while the cost is increased, and the problem that how to unify multiple conveying line structures and functions is urgently to be solved is solved.

Disclosure of Invention

The invention aims to provide a device for three-dimensionally conveying signatures in a high-speed stacking and bundling machine system, which solves the problems of huge structure of various conveying lines and inconvenient adjustment of various conveying line devices in the prior art.

The invention adopts the technical scheme that the device for three-dimensionally conveying signatures in a high-speed stacking and bundling machine system comprises a support, wherein a strip-shaped tension wheel fixing plate is fixedly connected onto the support, the tension wheel fixing plate is spiral, two ends of the tension wheel fixing plate are oppositely turned and are parallel to each other, a plurality of tension wheels a are fixedly connected onto the same side of the tension wheel fixing plate in sequence, a plurality of tension wheels b and tension wheels c are fixedly connected onto the support through an adjusting device, an upper pressing paper tape is sleeved outside the tension wheels a and the tension wheels b, a lower pressing paper tape is sleeved outside the tension wheels c, the upper pressing paper tape and the lower pressing paper tape are closed rings, a first paper pressing wheel and a second paper pressing wheel are fixedly connected onto two ends of the tension wheel fixing plate respectively, the first paper pressing wheel and the second paper pressing wheel are on the same side of the tension wheels a, a pair of return type supports is fixedly connected onto two ends of the tension wheel fixing plate, a third paper pressing wheel and a fourth paper pressing wheel are connected onto the pair of return type supports respectively, the first paper pressing wheel corresponds to the third paper pressing wheel, the first paper pressing wheel is located above the third paper pressing wheel, the second paper pressing wheel corresponds to the fourth paper pressing wheel, the second paper pressing wheel is located below the fourth paper pressing wheel, the first paper pressing wheel and the second paper pressing wheel are located on the inner side of the upper paper pressing belt, and the third paper pressing wheel and the fourth paper pressing wheel are located on the inner side of the lower paper pressing belt.

The invention is also characterized in that:

the first support frame is L-shaped, the short arm end of the first support frame is fixedly connected with the cross beam, the long arm end of the first support frame is positioned above the cross beam and is respectively perpendicular to the axial direction of the cross beam and the axial direction of the upright post, and the top end of the long arm end of the first support frame is fixedly connected with a tensioning wheel fixing plate.

The tensioning wheel fixing plate is bent towards the direction close to the long arm end of the first support frame, one end of the tensioning wheel fixing plate is located above the middle of the cross beam, and the other end of the tensioning wheel fixing plate is close to the top end of the long arm end of the first support frame.

The adjusting device connected with the tensioning wheel b comprises an adjusting cross beam, the adjusting cross beam is arranged at the long arm end of the first support frame, the included angle between the adjusting cross beam and the long arm end of the first support frame is smaller than 90 degrees, and the adjusting cross beam is connected with the tensioning wheel b through an adjusting support.

The adjusting bracket is provided with a plurality of adjusting grooves, the adjusting beam and the adjusting bracket are both provided with adjusting grooves, and the adjusting beam and the adjusting bracket are connected through adjusting groove bolts.

The adjusting device connected with the tension wheel c comprises a support column and an L-shaped support column, the support column and the L-shaped support column are fixedly connected to the cross beam respectively, and the support column and the L-shaped support column are connected with the tension wheel c through a plurality of fixing supports respectively.

The supporting upright columns are vertically upward and perpendicular to the cross beam, the short arm ends of the L-shaped supporting columns are perpendicular to the axial directions of the supporting upright columns and the cross beam respectively, the extending directions of the short arm ends of the L-shaped supporting columns and the long arm ends of the first supporting columns are the same, and the long arm ends of the L-shaped supporting columns are vertically upward.

The fixed bolster includes fixed bolster an, fixed bolster b, fixed bolster c and fixed bolster d, fixed bolster a, fixed bolster b and fixed bolster c all are the L type, the short arm end of fixed bolster an and fixed bolster b rigid coupling respectively is on the support post top and opposite each other, the directional first support frame of support a short arm end, fixed bolster an and fixed bolster b long arm end are all vertical upwards, fixed bolster c and fixed bolster d rigid coupling respectively are on L type support post top, the short arm end of fixed bolster c and the short arm end homonymy of fixed bolster b and parallel to each other, the vertical upwards of fixed bolster c long arm end, fixed bolster d is the vertical bar, fixed bolster d is perpendicular and the directional support post one side of keeping away from with the crossbeam axis.

The bracket is also fixedly connected with a transmission motor through a motor bracket, an output shaft of the transmission motor is fixedly connected with a transmission wheel a, the transmission wheel a is connected with a transmission wheel b through a belt, and the transmission wheel b is coaxially and fixedly connected with a second paper pressing wheel.

The invention has the beneficial effects that:

the device utilizes the spiral line paper pressing wheel, the tensioning wheel and a twisted paper tape pressing structure to rotate the front and the back of a continuous strip-shaped book by 180 degrees, the left and the right of the book are exchanged, the book is conveyed and rotated by 90 degrees, and the functions of various conveyor line structures are combined together; in order to facilitate the more stable and efficient operation of the two paper tapes, the specially designed support frame structure effectively improves the paper tape transmission efficiency; the invention has simple structure and strong comprehensive function, and solves the problems of signature turning, signature lifting, front and back face overturning and the like in the process of conveying the signatures; the invention has small floor area, simple and convenient adjustment, and time and labor saving.

Drawings

FIG. 1 is a schematic structural view of a three-dimensional signature feeding device for use in a high-speed stacking baler system according to the present invention;

FIG. 2 is a front view of a three-dimensional signature feeding device for use in a high speed stacking baler system of the present invention;

FIG. 3 is a top view of a three-dimensional signature transport device for use in a high speed stacking baler system of the present invention;

FIG. 4 is a schematic view of a first support frame of the present invention for a three-dimensional signature feeding apparatus in a high speed stacking baler system;

FIG. 5 is a schematic structural view of a support column and an L-shaped support column of a device for three-dimensional signature transport in a high-speed stacking baler system according to the present invention.

In the figure, 1, a support, 2, a tension wheel fixing plate, 3, a tension wheel a, 4, a tension wheel b, 5, a tension wheel c, 6, an upper paper pressing belt, 7, a lower paper pressing belt, 8, a clip support, 9, a first paper pressing wheel, 10, a second paper pressing wheel, 11, a third paper pressing wheel, 12, a fourth paper pressing wheel, 13, a first support frame, 14, a cross beam, 15, an upright post, 16, a base, 17, an adjusting cross beam, 18, an adjusting support, 19, an adjusting groove, 20, a support upright post, 21, an L-shaped support column, 22, a fixing support, 23, a motor support, 24, a transmission motor, 25, a transmission wheel and 26 are used for a signature;

22-1, 22-2, b, 22-3, c, 22-4 and d; 25-1. a transmission wheel a, 25-2 and a transmission wheel b.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

The invention relates to a three-dimensional signature conveying device used in a high-speed stacking bundling machine system, as shown in figure 1, the device comprises a bracket 1, a strip-shaped tension wheel fixing plate 2 is fixedly connected on the bracket 1, the tension wheel fixing plate 2 is spiral, two ends of the tension wheel fixing plate 2 are oppositely turned and parallel, a plurality of tension wheels a3 are fixedly connected on the same side of the tension wheel fixing plate 2 in sequence, a plurality of tension wheels b4 and tension wheels c5 are fixedly connected on the bracket 1 through a regulating device, a plurality of tension wheels a3 and a plurality of tension wheels b4 are simultaneously externally sleeved with an upper paper pressing belt 6, a plurality of tension wheels c5 are externally sleeved with a lower paper belt 7, the upper paper pressing belt 6 and the lower paper belt 7 are both in a closed ring shape, a first paper pressing wheel 9 and a second paper pressing wheel 10 are fixedly connected at two ends of the tension wheel fixing plate 2 respectively, the first paper pressing wheel 9 and the second tension wheel 10 are at the same side of the tension wheel 3, a pair of return type brackets 8 are fixedly connected at two ends of the fixing plate 2, the pair of square-shaped supports 8 are respectively connected with a third paper pressing wheel 11 and a fourth paper pressing wheel 12, the first paper pressing wheel 9 corresponds to the third paper pressing wheel 11, the first paper pressing wheel 9 is positioned above the third paper pressing wheel 11, the second paper pressing wheel 10 corresponds to the fourth paper pressing wheel 12, the second paper pressing wheel 10 is positioned below the fourth paper pressing wheel 12, the first paper pressing wheel 9 and the second paper pressing wheel 10 are positioned on the inner side of the upper paper pressing belt 6, and the third paper pressing wheel 11 and the fourth paper pressing wheel 12 are positioned on the inner side of the lower paper pressing belt 7.

A three-dimensional signature conveying device for a high-speed stacking and bundling machine system is shown in figure 2, and a support 1 comprises a first support frame 13, wherein the first support frame 13 is fixedly connected to a cross beam 14, the cross beam 14 is vertically and fixedly connected with an upright post 15 which is vertically upward, and the upright post 15 is vertically and fixedly connected with a base 16.

As shown in fig. 3, the first support frame 13 is L-shaped, a short arm end of the first support frame 13 is fixedly connected to the cross beam 14, a long arm end of the first support frame 13 is located above the cross beam 14 and is perpendicular to the axial direction of the cross beam 14 and the vertical column 15, respectively, and a top end of the long arm end of the first support frame 13 is fixedly connected to the tensioning wheel fixing plate 2.

The tensioning wheel fixing plate 2 is, as shown in fig. 2 and 3, bent towards the direction close to the long arm end of the first support frame 13, one end of the tensioning wheel fixing plate 2 is located above the middle of the cross beam 14, and the other end of the tensioning wheel fixing plate 2 is close to the top end of the long arm end of the first support frame 13.

The adjusting beam 17, as shown in fig. 2 and fig. 3, the adjusting device connected with the tensioning wheel b4 comprises an adjusting beam 17, the adjusting beam 17 is installed at the long arm end of the first supporting frame 13, the included angle between the adjusting beam 17 and the long arm end of the first supporting frame 13 is less than 90 °, and the adjusting beam 17 is connected with the tensioning wheel b4 through an adjusting bracket 18.

The adjusting bracket 18 is provided with a plurality of adjusting grooves 19, the adjusting beam 17 and the adjusting bracket 18 are both provided with adjusting grooves 19, and the adjusting beam 17 and the adjusting bracket 18 are connected through the adjusting grooves 19 by bolts.

As shown in fig. 4 and 5, the adjusting device connected to the tensioning wheel c5 includes a support column 20 and an L-shaped support column 21, the support column 20 and the L-shaped support column 21 are respectively and fixedly connected to the cross beam 14, and the support column 20 and the L-shaped support column 21 are respectively connected to the tensioning wheel c5 through a plurality of fixing brackets 22.

The support column 20 is vertically upward and perpendicular to the cross beam 14, the short arm end of the L-shaped support column 21 is perpendicular to the axial direction of the support column 20 and the axial direction of the cross beam 14, the short arm end of the L-shaped support column 21 and the long arm end of the first support frame 13 extend in the same direction, and the long arm end of the L-shaped support column 21 is vertically upward.

The fixed support 22 comprises a fixed support a22-1, a fixed support b22-2, a fixed support c22-3 and a fixed support d22-4, wherein the fixed support a22-1, the fixed support b22-2 and the fixed support c22-3 are all in an L shape, the short arm ends of the fixed support a22-1 and the fixed support b22-2 are respectively fixedly connected to the top end of the support upright post 20 and are opposite to each other, the short arm end of the support a22-1 points to the first support frame 13, the long arm ends of the fixed support a22-1 and the fixed support b22-2 are both vertically upward, the fixed support c22-3 and the fixed support d22-4 are respectively fixedly connected to the top end of the L-shaped support post 21, the short arm end of the fixed support c22-3 is the same side as the short arm end of the fixed support b22-2 and is parallel to each other, the long arm end of the fixed support c22-3 is vertically upward, the fixed support d22-4 is in a straight strip shape, the fixed bracket d22-4 is perpendicular to the axis of the beam 14 and points away from the side of the support column 20.

The bracket 1 is also fixedly connected with a transmission motor 24 through a motor bracket 23, an output shaft of the transmission motor 24 is fixedly connected with a transmission wheel a25-1, the transmission wheel a25-1 is connected with a transmission wheel b25-2 through a belt, and the transmission wheel b25-2 is coaxially and fixedly connected with the second paper pressing wheel 10.

The main parts of the three-dimensional signature conveying device used in the high-speed stacking and bundling machine system have the following functions:

a tension wheel; the tensioning wheels comprise a plurality of tensioning wheels a3, a plurality of tensioning wheels b4 and a plurality of tensioning wheels c5, the tensioning wheels a3 and the tensioning wheels b4 are used for limiting the upper paper pressing belt 6, the tensioning wheels c5 are used for limiting the lower paper pressing belt 7, and finally the upper paper pressing belt 6 and the lower paper pressing belt 7 can be conveyed according to a specified conveying track;

paper pressing wheel: the first paper pressing wheel 9 and the second paper pressing wheel 10 can reverse the direction of the upper paper pressing belt 6 when in conveying, the third paper pressing wheel 11 and the fourth paper pressing wheel 12 can reverse the direction of the lower paper pressing belt 7 when in conveying, meanwhile, the first paper pressing wheel 9 corresponds to the third paper pressing wheel 11, the first paper pressing wheel 9 is positioned above the third paper pressing wheel 11, the second paper pressing wheel 10 corresponds to the fourth paper pressing wheel 12, and the second paper pressing wheel 10 is positioned below the fourth paper pressing wheel 12, so that the upper paper pressing belt 6 and the lower paper pressing belt 7 are twisted and bent at the parallel opposite part between the paper pressing wheels, namely, one end of the paper belts which are parallel and opposite to each other of the upper paper pressing belt 6 and the lower paper pressing belt 7 is turned over 180 degrees, the pressure of the paper pressing wheels is adjusted through the adjusting bracket 18 to facilitate the continuous book to pass between the two wheels, and the gap between the upper paper pressing belt and the lower paper pressing belt is adjusted to clamp the continuously conveyed book 26, the movement of the signature 26 along with the paper pressing belt completes the turning of the front and back sides of the signature 26 and the 90-degree turning of the signature 26;

adjusting beam 17 and adjusting bracket 18: the relative position of the adjusting beam 17 and the adjusting bracket 18 is adjusted through the adjusting groove 19, the tension of the upper paper pressing belt 6 is further adjusted through position change, the tension can play a role of clamping and conveying the signatures 26, and therefore the signatures 26 between the two conveying belts are conveyed stably and efficiently;

the clip-shaped bracket 8: the two return type supports 8 are respectively fixedly connected to two ends of the tensioning wheel fixing plate 2, the two return type supports are respectively connected with a third paper pressing wheel 11 and a fourth paper pressing wheel 12, the third paper pressing wheel 11 and the fourth paper pressing wheel 12 are positioned on the inner side of the lower paper pressing belt 7, so that the lower paper pressing belt 7 can be supported through the return type supports, meanwhile, the first paper pressing wheel 9 and the third paper pressing wheel 11 are enabled to correspond through the return type supports, the first paper pressing wheel 9 is positioned above the third paper pressing wheel 11, the second paper pressing wheel 10 and the fourth paper pressing wheel 12 are enabled to correspond, the second paper pressing wheel 10 is positioned below the fourth paper pressing wheel 12, and the upper paper pressing belt 6 and the lower paper pressing belt 7 form a conveying channel capable of enabling the book 26 to turn through the arrangement of the position relationship between the first paper pressing wheel 9 and the second paper pressing wheel 10 and the third paper pressing wheel 11 and the fourth paper pressing wheel 12.

The upper paper pressing belt 6 and the lower paper pressing belt 7 are arranged on two sides of the conveying channel in parallel and opposite, the signatures 26 are conveyed along the channel when conveyed, the upper paper pressing belt 6 and the lower paper pressing belt 7 at one end of the conveying channel are turned over for 180 degrees at the same time, and the front and back sides of the conveyed signatures 26 can be turned over for 180 degrees. The front face of the signature 26 before turning is upward, the front face of the signature 26 after turning is downward, the left side of the signature 26 before turning is changed into the right side of the signature 26 after turning, and meanwhile, the paper pressing belts turn 90 degrees on the plane, so that the signature between the two paper pressing belts also turns 90 degrees on the plane;

tensioning wheel fixing plate 2: 2 rigid couplings of take-up pulley fixed plate are on first support frame 13 long arm end top, and take-up pulley fixed plate 2 presses paper tape 6 through a plurality of take-up pulley a3 overcoat, and wherein take-up pulley fixed plate 2 is heliciform and wholly for the banding, can play moulding fixed action to the conveying passageway that 180 degrees of upset and have two paper pressing belt formations of certain radian, is utilizing back type support also effectively to simplify the structure simultaneously, material saving.

The fixing bracket 22: the fixed support 22 comprises a fixed support a22-1, a fixed support b22-2, a fixed support c22-3, a fixed support d22-4 and an adjusting support 18, and the fixed support and the adjusting support have a supporting function on the upper paper pressing belt 6 and the lower paper pressing belt 7 by fixedly connecting a plurality of tensioning wheels, and meanwhile, the number and the installation mode of the fixed support 22 and the adjusting support 18 are not unique, and can be correspondingly adjusted according to the actual conveying requirements of the paper pressing belt 6 and the lower paper pressing belt 7.

The transmission motor 24: a transmission shaft of the transmission motor 24 is provided with a transmission wheel a25-1 which is connected with a transmission wheel b25-2 through a belt, the transmission wheel b25-2 is coaxially and fixedly connected with the second paper pressing wheel 10, and the transmission motor 24 rotates to drive the second paper pressing wheel 10 to rotate and drive the second paper pressing wheel 10 to rotate to drive the upper paper pressing belt 6 to move.

The invention relates to a three-dimensional signature conveying device used in a high-speed stacking and bundling machine system, which comprises the following working processes:

the signature 26 enters the starting end of a conveying channel between the upper paper pressing belt 6 and the lower paper pressing belt 7 through a left signature device and a right signature device at the front end of the device, namely enters from a gap between the upper paper pressing belt 6 and the lower paper pressing belt 7 where the first paper pressing wheel 9 and the third paper pressing wheel 11 are located, the tension of the paper belts is adjusted through the adjusting cross beam 17 and the adjusting support 18, meanwhile, the pressure of the paper pressing wheels is adjusted, the gap between the upper paper pressing belt 6 and the lower paper pressing belt 7 is adjusted, and the friction force between the signature 26 and the paper pressing belts is utilized to drive the signature 26 to advance along the conveying channel.

When the signatures 26 are conveyed to the output end of the channel, that is, the signatures 26 reach between the upper paper pressing belt 6 and the lower paper pressing belt 7 where the second paper pressing wheel 10 and the fourth paper pressing wheel 12 are located, at this time, the front and the back of the continuous signatures 26 are turned by 180 degrees, the front of the front signature 26 is turned upwards, the front of the back signature 26 is turned downwards, the left side of the front signature 26 is turned to become the right side of the back signature 26, the signature 26 between the two paper pressing belts is turned by 90 degrees on the plane, and then the signatures 26 enter the next left and right signature aligning device to complete the whole turning process.

Claims

1. The utility model provides a be arranged in high-speed bundling machine system three-dimensional book label device of carrying, its characterized in that includes support (1), the rigid coupling has spiral helicine take-up pulley fixed plate (2) on support (1), the both ends of take-up pulley fixed plate (2) overturn relatively and are parallel to each other, take-up pulley fixed plate (2) in proper order in its homonymy respectively the rigid coupling have a plurality of take-up pulleys a (3), still there are a plurality of take-up pulleys b (4) and take-up pulley c (5) through adjusting device rigid coupling on support (1), a plurality of take-up pulleys a (3) and a plurality of take-up pulley b (4) overcoat have simultaneously presses paper area (6), a plurality of take-up pulley c (5) overcoat has and presses paper tape (7) down, it is closed cyclic annular to press paper tape (6) and press paper tape (7) down, take-up pulley fixed plate (2) both ends respectively the rigid coupling have first press paper wheel (9) second to press paper wheel (10), first press paper wheel (9) and second to press paper wheel (10) and take-up pulley a (3) homonymy, take-up pulley fixed plate (9) both ends have still linked firmly a pair of type support (8) that returns, be connected with the third respectively on a pair of type support (8) and press paper wheel (11) and fourth to press paper wheel (12), first press paper wheel (9) and third press paper wheel (11) corresponding and first press paper wheel (9) to be located third and press paper wheel (11) top, second press paper wheel (10) and fourth press paper wheel (12) corresponding and second to press paper wheel (10) to be located fourth and press paper wheel (12) below, first press paper wheel (9) and second to press paper wheel (10) to be located simultaneously and press paper tape (6) inboard, third press paper wheel (11) and fourth to press paper wheel (12) to be located simultaneously and press paper tape (7) inboard.

2. The device for the three-dimensional transfer of signatures in a high speed stacking baler system according to claim 1, characterized in that the support (1) comprises a first support (13), the first support (13) being fixedly connected to a cross beam (14), the cross beam (14) being fixedly connected perpendicular to a vertical upward column (15), the column (15) being fixedly connected perpendicular to a base (16).

3. The device for three-dimensional feeding of signatures in a high-speed stacking bundler system according to claim 1 or 2, characterized in that the first support frame (13) is L-shaped, the short arm end of the first support frame (13) is vertically fixed with the cross beam (14), the long arm end of the first support frame (13) is located above the cross beam (14) and is respectively vertical to the axial direction of the cross beam (14) and the upright column (15), and the top end of the long arm end of the first support frame (13) is fixedly connected with the tension wheel fixing plate (2).

4. The device for vertically conveying signatures in a high speed stacking bundler system according to claim 1 or 2, characterized in that the tensioning wheel fixing plate (2) is bent towards the end of the long arm of the first support frame (13), one end of the tensioning wheel fixing plate (2) is located above the middle of the cross beam (14), and the other end of the tensioning wheel fixing plate (2) is close to the top end of the long arm of the first support frame (13).

5. The device for three-dimensional feeding of signatures in a high speed stacking baler system according to claim 1 or 2, characterized in that the adjusting device connected to the tensioning wheel b (4) comprises an adjusting beam (17), the adjusting beam (17) is mounted at the long arm end of the first support frame (13), the adjusting beam (17) is at an angle of less than 90 ° with the long arm end of the first support frame (13), and the adjusting beam (17) is connected to the tensioning wheel b (4) through an adjusting bracket (18).

6. The device for three-dimensional conveying of signatures in a high-speed stacking bundler system according to claim 5, characterized in that the adjusting brackets (18) are provided with a plurality of adjusting grooves (19), the adjusting beams (17) and the adjusting brackets (18) are provided with adjusting grooves (19), and the adjusting beams (17) and the adjusting brackets (18) are connected through the adjusting grooves (19) by bolts.

7. The device for feeding signatures stereoscopically in high-speed stacking and bundling machine systems according to claim 1, wherein the adjusting device connected with the tensioning wheel c (5) comprises a supporting column (20) and an L-shaped supporting column (21), the supporting column (20) and the L-shaped supporting column (21) are respectively fixed on the cross beam (14), and the supporting column (20) and the L-shaped supporting column (21) are respectively connected with the tensioning wheel c (5) through a plurality of fixing brackets (22).

8. The device for solid delivery of signatures in a high speed stacking bundler system according to claim 1 or 2 or 7, characterized in that the support column (20) is vertically upward and perpendicular to the cross beam (14), the short arm end of the L-shaped support column (21) is perpendicular to the axial direction of the support column (20) and the cross beam (14), respectively, the short arm end of the L-shaped support column (21) is in the same direction as the long arm end of the first support frame (13), and the long arm end of the L-shaped support column (21) is vertically upward.

9. The device for three-dimensional feeding of signatures in a high-speed stacking baler system according to claim 8, wherein the fixed support (22) comprises a fixed support a (22-1), a fixed support b (22-2), a fixed support c (22-3) and a fixed support d (22-4), the fixed support a (22-1), the fixed support b (22-2) and the fixed support c (22-3) are all L-shaped, the short arm ends of the fixed support a (22-1) and the fixed support b (22-2) are respectively fixed on the top end of the support column (20) and are opposite to each other, the short arm end of the support a (22-1) points to the first support frame (13), the long arm ends of the fixed support a (22-1) and the fixed support b (22-2) both point upwards vertically, the fixed support c (22-3) and the fixed support d (22-4) are fixedly connected to the top end of the L-shaped support column (21) respectively, the short arm end of the fixed support c (22-3) is parallel to the short arm end of the fixed support b (22-2) at the same side, the long arm end of the fixed support c (22-3) is vertically upward, the fixed support d (22-4) is in a straight strip shape, and the fixed support d (22-4) is perpendicular to the axis of the cross beam (14) and points to the side away from the support column (20).

10. The device for three-dimensional feeding of signatures in a high-speed stacking and bundling machine system according to claim 1, wherein the support (1) is further fixedly connected with a transmission motor (24) through a motor support (23), an output shaft of the transmission motor (24) is fixedly connected with a transmission wheel a (25-1), the transmission wheel a (25-1) is connected with a transmission wheel b (25-2) through a belt, and the transmission wheel b (25-2) is coaxially and fixedly connected with the second paper pressing wheel (10).