CN112547609A

CN112547609A - Flattening device for printing intelligent manufacturing

Info

Publication number: CN112547609A
Application number: CN202011321440.9A
Authority: CN
Inventors: 冯卫
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-23
Filing date: 2020-11-23
Publication date: 2021-03-26

Abstract

The invention relates to a flattening device, in particular to a flattening device for intelligent printing manufacturing. The invention aims to provide a flattening device for intelligent printing manufacturing, which can automatically flatten printed articles and has higher working efficiency. The utility model provides a printing is flattening device for intelligent manufacturing, including: a support frame; the driving assembly is arranged on the supporting frame; the pressing component is arranged on the support frame; and the clamping assembly is arranged on the support frame. According to the invention, the printed object is fixed through the clamping assembly, and then the pressing assembly is driven to move through the driving assembly, so that the printed object is flattened.

Description

Flattening device for printing intelligent manufacturing

Technical Field

The invention relates to a flattening device, in particular to a flattening device for intelligent printing manufacturing.

Background

Printing is a technique of transferring ink to the surface of another material by making a partial original, applying ink, and pressing, and copying the content of the original in bulk.

Need flatten the processing to the article of printing before the printing for by the work of printing that carries on that printed article can be better, at the work time of flattening by printed article at present, mostly will be flattened by printed article by the workman is manual, carry out the work of printing to printed article again, flatten the operating speed like this slow, work efficiency is lower.

Therefore, a flattening device for printing intelligent manufacturing, which can automatically flatten printed objects and has high working efficiency, needs to be designed.

Disclosure of Invention

In order to overcome the defects that most of printed objects are manually operated by workers when being flattened at present, the working speed is low, and the working efficiency is low, the invention aims to provide the flattening device for printing intelligent manufacturing, which can automatically flatten the printed objects and has high working efficiency.

The technical scheme is as follows: the utility model provides a printing is flattening device for intelligent manufacturing, including: a support frame; the driving assembly is arranged on the supporting frame; the pressing component is arranged on the support frame; and the clamping assembly is arranged on the support frame.

As an improvement of the above solution, the driving assembly includes: the mounting rack is mounted on the support frame; the speed reducing motor is arranged on the mounting frame; the rotating shaft is arranged on an output shaft of the speed reducing motor through a coupler; the screw rod is arranged on the rotating shaft; and the nut is installed on the screw rod through threads.

As an improvement of the scheme, the pressing component comprises: the first guide frame is arranged on the support frame; the first sliding frame is slidably mounted on the first guide frame and is connected with the nut; the second sliding frame is arranged on the nut; the first sliding rod is slidably mounted on the second sliding frame; the lower pressing plate is arranged on the first sliding rod; and the first spring is arranged between the lower pressure plate and the second sliding frame.

As an improvement of the above, the clamping assembly comprises: the second guide frame is arranged on the support frame; the clamping blocks are arranged on two sides of the second guide frame in a sliding mode and are matched with the supporting frame in a sliding mode; and the second spring is arranged between the clamping blocks.

As an improvement of the above scheme, the method further comprises the following steps: the third guide frames are arranged on two sides of the support frame; the first connecting frame is slidably arranged between the third guide frames; the third spring is arranged between the first connecting frame and the third guide frame; the third sliding frame is slidably mounted on the first connecting frame; the cleaning roller is slidably mounted on the third sliding frame; the fourth spring is arranged between the third sliding frame and the first connecting frame; and the first connecting rod is arranged on the cleaning roller.

As an improvement of the above scheme, the method further comprises the following steps: the first rack is arranged on the first connecting rod; the first gear is arranged on the rotating shaft and meshed with the first rack; the first contact frame is arranged on the first rack; the first fixing frame is arranged on the first guide frame; the wedge block is arranged on the first fixing frame and matched with the first contact frame; the second connecting frame is arranged on the nut; the second rack is arranged on the second connecting frame; the second fixing frame is arranged on the mounting frame; the second gear is rotatably arranged on the second fixing frame and is meshed with the second rack; the fourth guide frame is arranged on the support frame; the fourth sliding frame is slidably mounted on the fourth guide frame; the fifth spring is arranged between the fourth sliding frame and the fourth guide frame; the third rack is arranged on the fourth sliding frame; the second connecting rod is arranged on the third rack; and the fifth sliding frame is arranged on the second connecting rod and is in sliding fit with the first connecting frame.

As an improvement of the above scheme, the method further comprises the following steps: the first contact rod is arranged on the clamping block; the fifth guide frame is arranged on two sides of the lower pressing plate; the sixth sliding frame is slidably mounted on the fifth guide frame; the sixth spring is arranged between the sixth sliding frame and the fifth guide frame; the second contact rod is arranged on the sixth sliding frame and matched with the first contact rod on the same side; and the third contact rods are arranged on two sides of the second sliding frame and are matched with the sixth sliding frame on the same side.

As an improvement of the above scheme, the method further comprises the following steps: the third connecting frame is arranged on the second connecting rod; the special-shaped block is arranged on the third connecting frame; the second sliding rod is arranged on the supporting frame; the first pushing frame is arranged on the second sliding rod in a sliding mode; the fourth contact rod is arranged on the second sliding rod in a sliding mode and matched with the special-shaped block; the seventh spring is arranged between the fourth contact rod and the first pushing frame; the second pushing frame is arranged on the clamping block on one side; the blocking frame is arranged on the second pushing frame and matched with the first pushing frame; the connecting block is arranged on the first contact rod; the connecting rod is rotatably arranged on the connecting block; the pushing block is rotatably arranged between the connecting rods; the contact plate is arranged on the lower pressing plate and matched with the pushing block; and the eighth spring is arranged between the fourth contact rod and the support frame.

The beneficial effects are that: 1. according to the invention, the printed object is fixed through the clamping assembly, and then the pressing assembly is driven to move through the driving assembly, so that the printed object is flattened;

2. according to the invention, before flattening work is carried out on the printed object, the printed object can be cleaned through the cleaning roller, and after cleaning is finished, the cleaning roller does not move any more, so that the flattening work can be smoothly carried out on the pressing component;

3. when the printed matter is flattened, the clamping assembly stops fixing the printed matter, and the printed matter is pushed out through the first pushing frame after the flattened printed matter is finished, so that a user can conveniently collect the printed matter.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the driving assembly of the present invention.

Fig. 3 is a schematic perspective view of a pressing assembly according to the present invention.

Fig. 4 is a perspective view of the clamping assembly of the present invention.

FIG. 5 is a schematic view of a first partial body structure according to the present invention.

FIG. 6 is a schematic view of a second partial body structure according to the present invention.

Fig. 7 is a perspective view of a third embodiment of the present invention.

Fig. 8 is a perspective view of a fourth embodiment of the present invention.

Number designation in the figures: 1. support frame, 2, driving assembly, 21, mounting frame, 22, gear motor, 23, rotating shaft, 24, screw rod, 25, nut, 3, lower pressing assembly, 31, first guide frame, 32, first sliding frame, 33, second sliding frame, 34, first sliding rod, 35, lower pressing plate, 36, first spring, 4, clamping assembly, 41, second guide frame, 42, clamping block, 43, second spring, 5, third guide frame, 6, first connecting frame, 7, third spring, 8, third sliding frame, 9, cleaning roller, 10, fourth spring, 11, first connecting rod, 12, first rack, 13, first gear, 14, first contact frame, 15, first fixing frame, 16, wedge-shaped block, 17, second connecting frame, 18, second rack, 19, second fixing frame, 110, second gear, 111, fourth guide frame, 112, fourth sliding frame, 113, second sliding frame, 13, third sliding frame, 6, second sliding frame, 8, third sliding frame, 9, cleaning roller, fourth spring, 11, second sliding frame, 12, third sliding, A fifth spring, 114, a third rack, 115, a second connecting rod, 116, a fifth sliding frame, 117, a first contact rod, 118, a fifth guide frame, 119, a sixth sliding frame, 120, a sixth spring, 121, a second contact rod, 122, a third contact rod, 123, a third connecting frame, 124, a special-shaped block, 125, a second sliding rod, 126, a first pushing frame, 127, a seventh spring, 128, a fourth contact rod, 129, a second pushing frame, 130, a blocking frame, 131, a connecting block, 132, a pushing block, 133, a connecting rod, 134, a contact plate, 135 and an eighth spring.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It should be understood that these examples are for illustrative purposes and are not intended to limit the scope of the present application. The conditions used in the examples may be further adjusted according to the conditions of the particular manufacturer, and the conditions not specified are generally the conditions in routine experiments.

Example 1

The utility model provides a flattening device for printing intelligence manufacturing, as shown in fig. 1 to 4, including support frame 1, drive assembly 2, push down subassembly 3 and clamping component 4, support frame 1 left side is equipped with drive assembly 2, and 1 upside of support frame is equipped with and pushes down subassembly 3, and 1 upside of support frame is equipped with clamping component 4.

When the work of flattening is carried out to the printed matter to needs, will be placed on 1 upper portion of support frame by the printed matter to press from both sides tightly by clamping component 4 with the printed matter, alright control drive assembly 2 begins work afterwards, drive assembly 2 can drive and push down the motion of subassembly 3, thereby work of flattening is carried out to the printed matter, after the work of flattening is accomplished, push down subassembly 3 through drive assembly 2 control and reset, control drive assembly 2 stop work afterwards, and will flatten by the printed matter take out can.

The driving assembly 2 comprises an installation frame 21, a speed reducing motor 22, a rotating shaft 23, a screw rod 24 and a nut 25, the installation frame 21 is connected to the left side of the support frame 1, the speed reducing motor 22 is fixedly connected to the upper portion of the installation frame 21 through a bolt, the rotating shaft 23 is connected to an output shaft of the speed reducing motor 22 through a coupling, the screw rod 24 is connected to the upper portion of the rotating shaft 23, and the nut 25 is connected to the screw rod 24 through threads.

After clamping unit 4 will be fixed by the printed matter, alright control gear motor 22 begins work, gear motor 22 can drive pivot 23 and lead screw 24 and rotate, the lead screw 24 is rotatory just can drive nut 25 downstream to the drive pushes down subassembly 3 downstream, flatten the printed matter, accomplish the work back of flattening by the printed matter, alright control lead screw 24 through gear motor 22 and pivot 23 reversal, make nut 25 and push down subassembly 3 reset, alright control gear motor 22 stop work afterwards.

The pressing component 3 comprises a first guide frame 31, a first sliding frame 32, a second sliding frame 33, a first sliding rod 34, a pressing plate 35 and a first spring 36, the upper portion of the support frame 1 is connected with the first guide frame 31, the upper portion of the first guide frame 31 is slidably provided with the first sliding frame 32, the first sliding frame 32 is connected with a nut 25, the right side of the nut 25 is connected with the second sliding frame 33, the right side of the second sliding frame 33 is slidably provided with the first sliding rod 34, the lower portion of the first sliding rod 34 is connected with the pressing plate 35, and the first spring 36 is connected between the pressing plate 35 and the second sliding frame 33.

When the nut 25 moves downwards, the first sliding frame 32 and the second sliding frame 33 are also driven to move downwards, the second sliding frame 33 moves downwards, the first sliding rod 34, the lower pressing plate 35 and the first spring 36 are driven to move downwards, after the lower pressing plate 35 moves to be in contact with the printed matter, the first sliding rod 34 and the lower pressing plate 35 stop moving, the second sliding frame 33 continues to move downwards, the first spring 36 is compressed, the printed matter is flattened through the elastic force of the first spring 36, after the printed matter is flattened, the nut 25 resets, the first sliding frame 32 and the second sliding frame 33 reset accordingly, the first spring 36 starts to rebound, and after the first spring 36 returns to a normal state, the first sliding rod 34, the lower pressing plate 35 and the first spring 36 reset along with the second sliding frame 33.

The clamping assembly 4 comprises a second guide frame 41, clamping blocks 42 and a second spring 43, the second guide frame 41 is connected to the right side of the upper portion of the support frame 1, the clamping blocks 42 are arranged on the front side and the rear side of the second guide frame 41 in a sliding mode, the clamping blocks 42 are matched with the support frame 1 in a sliding mode, and the second spring 43 is connected between the clamping blocks 42.

When the printed matter needs to be flattened, the clamping blocks 42 are controlled to be away from each other, the second springs 43 are stretched, the printed matter can be placed on the support frame 1, then the clamping blocks 42 are loosened, the second springs 43 automatically reset, the clamping blocks 42 are driven to reset, the printed matter is fixed, after the flattening operation is completed, the clamping blocks 42 can be controlled to be away from each other again, then the printed matter which is flattened can be taken down, and then the clamping assembly 4 is controlled to reset.

Example 2

Based on embodiment 1, as shown in fig. 5 and 6, the cleaning device further includes a third guide frame 5, a first connecting frame 6, a third spring 7, a third sliding frame 8, a cleaning roller 9, a fourth spring 10 and a first connecting rod 11, the front and rear sides of the lower portion of the support frame 1 are connected with the third guide frame 5, the first connecting frame 6 is slidably disposed between the third guide frames 5, the third spring 7 is connected between the first connecting frame 6 and the third guide frame 5, the third sliding frame 8 is slidably disposed on the upper portion of the first connecting frame 6, the cleaning roller 9 is slidably disposed on the upper portion of the third sliding frame 8, the fourth spring 10 is connected between the third sliding frame 8 and the first connecting frame 6, and the first connecting rod 11 is connected to the left side of the cleaning roller 9.

After the clamping assembly 4 fixes the object to be printed, the first connecting rod 11 can be pulled forward, so that the third sliding frame 8 and the cleaning roller 9 move forward, the fourth spring 10 is stretched, the cleaning roller 9 moves forward to clean the object to be printed, after cleaning is completed, the first connecting rod 11 can be loosened, and the fourth spring 10 automatically resets and drives the third sliding frame 8, the cleaning roller 9 and the first connecting rod 11 to reset.

The device also comprises a first rack 12, a first gear 13, a first contact frame 14, a first fixed frame 15, a wedge block 16, a second connecting frame 17, a second rack 18, a second fixed frame 19, a second gear 110, a fourth guide frame 111, a fourth sliding frame 112, a fifth spring 113, a third rack 114, a second connecting rod 115 and a fifth sliding frame 116, wherein the left side of the first connecting rod 11 is connected with the first rack 12, the middle part of a rotating shaft 23 is connected with the first gear 13 in a key way, the first gear 13 is meshed with the first rack 12, the upper part of the rear side of the first rack 12 is connected with the first contact frame 14, the middle part of the first guide frame 31 is connected with the first fixed frame 15, the upper part of the first fixed frame 15 is welded with the wedge block 16, the wedge block 16 is matched with the first contact frame 14, the rear side of a nut 25 is connected with the second connecting frame 17, the lower part of the second connecting frame 17 is connected with the second rack 18, the rear side of, a second gear 110 is rotatably arranged on the right side of the second fixing frame 19, the second gear 110 is engaged with the second rack 18, the rear side of the left portion of the supporting frame 1 is connected with a fourth guide frame 111, a fourth sliding frame 112 is slidably arranged on the fourth guide frame 111, a fifth spring 113 is connected between the fourth sliding frame 112 and the fourth guide frame 111, the right side of the fourth sliding frame 112 is connected with a third rack 114, the third rack 114 is engaged with the second gear 110, the right side of the lower portion of the third rack 114 is connected with a second connecting rod 115, the right side of the second connecting rod 115 is connected with a fifth sliding frame 116, and the fifth sliding frame 116 is slidably matched with the first connecting frame 6.

When the rotating shaft 23 rotates, the first gear 13 is also driven to rotate, so that the first rack 12 drives the first connecting rod 11 and the first contact frame 14 to move forward, when the first contact frame 14 moves to be in contact with the wedge block 16, the first contact frame 14, the first rack 12, the first connecting rod 11 and parts thereon move upward together, when the first rack 12 moves to be not meshed with the first gear 13, the first connecting rod 11 and parts thereon start to reset and drive the first rack 12 and the first contact frame 14 to reset, at this time, the first contact frame 14 is not in contact with the wedge block 16, the first rack 12 is meshed with the first gear 13 again, when the nut 25 moves downward, the second connecting frame 17 and the second rack 18 are also driven to move downward, and when the second rack 18 moves downward, the second gear 110 drives the third rack 114, and the third rack 14, The fourth sliding frame 112, the second connecting rod 115 and the fifth sliding frame 116 move upwards, the fifth spring 113 is stretched, after the cleaning roller 9 finishes cleaning for multiple times, the fifth sliding frame 116 also moves upwards to contact with the third guide frame 5, so as to drive the third guide frame 5 to move upwards together, so that the third spring 7 deforms, the third guide frame 5 moves upwards to drive the third sliding frame 8, the cleaning roller 9, the fourth spring 10, the first connecting rod 11 and the first rack 12 to move upwards, when the first rack 12 moves to be disengaged from the first gear 13, the first connecting rod 11 and the parts thereon start to reset and drive the first rack 12 and the first contact frame 14 to reset, then the first rack 12 cannot be engaged with the first gear 13 any more, then the pressing component 3 can smoothly perform the pressing work on the printed object, when the pressing work is finished and the nut 25 resets, the second connecting frame 17 and the second rack 18 are reset accordingly, so that the second gear 110 drives the third rack 114, the fourth sliding frame 112, the second connecting rod 115 and the fifth sliding frame 116 to reset, the fifth spring 113 is reset accordingly, when the fifth sliding frame 116 is reset, the third spring 7 is automatically reset, so that the third guide frame 5 and the parts thereon are reset, and the first rack 12 is meshed with the first gear 13 again.

Example 3

Based on embodiment 2, as shown in fig. 7 and 8, the clamping device further includes a first contact bar 117, a fifth guide frame 118, a sixth sliding frame 119, a sixth spring 120, a second contact bar 121, and a third contact bar 122, the right side of the clamping block 42 is connected with the first contact bar 117, the front and rear sides of the upper portion of the lower pressing plate 35 are connected with the fifth guide frame 118, the fifth guide frame 118 is slidably provided with the sixth sliding frame 119, the sixth spring 120 is connected between the sixth sliding frame 119 and the fifth guide frame 118, the right side of the sixth sliding frame 119 is connected with the second contact bar 121, the second contact bar 121 is matched with the first contact bar 117 on the same side, the front and rear sides of the second sliding frame 33 are connected with the third contact bar 122, and the third contact bar 122 is matched with the sixth sliding frame 119 on the same side.

When the lower pressing plate 35 stops moving when contacting the printed object, the second carriage 33 continues moving downward, the third contact bar 122 moves accordingly, and when the third contact bar 122 moves to contact the sixth carriage 119, the sixth carriage 119 is pushed to move away from each other, the sixth spring 120 is stretched, the sixth carriage 119 moves to drive the second contact bar 121 to move away from each other, and when the second contact bar 121 moves to contact the first contact bar 117, the first contact bar 117 is driven to move away from each other, so that the clamping block 42 is driven to move away from each other, so that the clamping assembly 4 stops clamping the printed object during the flattening operation, when the second carriage 33 starts to reset, the third contact bar 122 resets accordingly, and then the sixth spring 120 starts to rebound and drive the sixth carriage 119 and the second contact bar 121 to reset.

The novel support frame further comprises a third connecting frame 123, a special-shaped block 124, a second sliding rod 125, a first pushing frame 126, a seventh spring 127, a fourth contact rod 128, a second pushing frame 129, a blocking frame 130, a connecting block 131, a pushing block 132, a connecting rod 133, a contact plate 134 and an eighth spring 135, the right side of the second connecting rod 115 is connected with the third connecting frame 123, the front side of the third connecting frame 123 is connected with the special-shaped block 124, the upper portion of the support frame 1 is connected with the second sliding rod 125, the left side of the second sliding rod 125 is slidably provided with the first pushing frame 126, the left side of the second sliding rod 125 is slidably provided with the fourth contact rod 128, the fourth contact rod 128 is matched with the special-shaped block 124, the seventh spring 127 is connected between the fourth contact rod 128 and the first pushing frame 126, the left side of the clamping block 42 at the rear side is connected with the second pushing frame 129, the rear side of the second pushing frame 129 is connected with the blocking frame 130, the blocking frame 130 is matched with the first pushing frame 126, the upper, the connecting rods 133 are rotatably arranged on the inner sides of the connecting blocks 131, the pushing blocks 132 are rotatably connected between the connecting rods 133, the contact plate 134 is connected to the right side of the upper portion of the lower pressing plate 35, the contact plate 134 is matched with the pushing blocks 132, and an eighth spring 135 is connected between the fourth contact rod 128 and the support frame 1.

When the second connecting rod 115 moves upward, the third connecting frame 123 and the special-shaped block 124 are also driven to move upward, when the special-shaped block 124 moves upward to contact with the fourth contact rod 128, the fourth contact rod 128 is pushed to move to the right, the eighth spring 135 is compressed, the seventh spring 127 is extended, at this time, the first pushing frame 126 is blocked by the blocking frame 130 and does not move, when the pressing plate 35 contacts with the printed matter to perform the flattening work, the first contact rod 117 and the clamping block 42 start to move away from each other, the first contact rod 117 drives the connecting block 131 to move, so that the pushing block 132 is driven by the connecting rod 133 to move upward, when the pushing block 132 moves upward to contact with the contact plate 134, the contact plate 134 and the lower pressing plate 35 are driven to move upward together, so that the pressing plate 35 stops contacting with the printed matter after the flattening work of the printed matter is completed, meanwhile, the rear clamping block 42 moves to drive the blocking frame 130 to move, when the blocking frame 130 moves to a position not in contact with the first pushing frame 126, the seventh spring 127 starts to reset and drives the first pushing frame 126 to move rightwards, so that the printed matter which is flattened on the support frame 1 is pushed out, therefore, the printed matter does not need to be taken down manually by a user, then, the second connecting rod 115 starts to reset, the third connecting frame 123 and the special-shaped block 124 reset along with the reset, when the special-shaped block 124 resets, the eighth spring 135 resets and drives the fourth contact rod 128, the seventh spring 127 and the first pushing frame 126 to reset, and meanwhile, the clamping block 42 and the first contact rod 117 reset, so that the blocking frame 130, the connecting block 131, the pushing block 132 and the connecting rod 133 are driven to reset.

The above description is only an example of the present invention and is not intended to limit the present invention. All equivalents which come within the spirit of the invention are therefore intended to be embraced therein. Details not described herein are well within the skill of those in the art.

Claims

1. The utility model provides a flattening device for printing intelligent manufacturing which characterized in that, including:

a support frame (1);

the driving assembly (2) is arranged on the support frame (1);

the pressing component (3) is arranged on the support frame (1);

the clamping assembly (4) is arranged on the support frame (1).

2. The intelligent printing press flattening device according to claim 1, wherein the drive assembly (2) comprises:

the mounting rack (21) is mounted on the support frame (1);

the speed reducing motor (22) is arranged on the mounting frame (21);

the rotating shaft (23) is arranged on an output shaft of the speed reducing motor (22) through a coupling;

a screw rod (24) mounted on the rotating shaft (23);

and the nut (25) is installed on the screw rod (24) through threads.

3. The flattening device for intelligent manufacturing of printing according to claim 2, characterized in that the pressing assembly (3) comprises:

the first guide frame (31) is arranged on the support frame (1);

the first sliding frame (32) is slidably arranged on the first guide frame (31), and the first sliding frame (32) is connected with the nut (25);

a second carriage (33) mounted on the nut (25);

a first sliding rod (34) which is slidably mounted on the second sliding frame (33);

a lower press plate (35) mounted on the first slide bar (34);

and a first spring (36) mounted between the lower platen (35) and the second carriage (33).

4. Flattening device for the smart manufacturing of prints according to claim 3, characterized in that the clamping assembly (4) comprises:

the second guide frame (41) is arranged on the support frame (1);

the clamping blocks (42) are arranged on two sides of the second guide frame (41) in a sliding mode, and the clamping blocks (42) are matched with the support frame (1) in a sliding mode;

and a second spring (43) mounted between the clamping blocks (42).

5. The intelligent printing press flattening apparatus of claim 4, further comprising:

the third guide frames (5) are arranged on two sides of the support frame (1);

the first connecting frame (6) is installed between the third guide frames (5) in a sliding mode;

a third spring (7) installed between the first link frame (6) and the third guide frame (5);

a third sliding frame (8) which is slidably mounted on the first connecting frame (6);

a cleaning roller (9) slidably mounted on the third carriage (8);

a fourth spring (10) mounted between the third carriage (8) and the first link (6);

a first connecting rod (11) installed on the cleaning roller (9).

6. The intelligent printing press flattening apparatus of claim 5, further comprising:

a first rack (12) mounted on the first connecting rod (11);

the first gear (13) is arranged on the rotating shaft (23), and the first gear (13) is meshed with the first rack (12);

a first contact rack (14) mounted on the first rack (12);

a first fixing frame (15) mounted on the first guide frame (31);

the wedge block (16) is arranged on the first fixing frame (15), and the wedge block (16) is matched with the first contact frame (14);

a second connecting frame (17) mounted on the nut (25);

a second rack (18) mounted on the second link (17);

the second fixing frame (19) is arranged on the mounting frame (21);

the second gear (110) is rotatably arranged on the second fixed frame (19), and the second gear (110) is meshed with the second rack (18);

the fourth guide frame (111) is arranged on the support frame (1);

a fourth sliding frame (112) which is slidably mounted on the fourth guide frame (111);

a fifth spring (113) installed between the fourth carriage (112) and the fourth guide frame (111);

a third rack (114) mounted on the fourth carriage (112);

a second connecting rod (115) mounted on the third rack (114);

and the fifth sliding frame (116) is arranged on the second connecting rod (115), and the fifth sliding frame (116) is in sliding fit with the first connecting frame (6).

7. The intelligent printing press flattening apparatus of claim 6, further comprising:

a first contact bar (117) mounted on the clamping block (42);

the fifth guide frame (118) is arranged on two sides of the lower pressing plate (35);

a sixth sliding frame (119) slidably mounted on the fifth guide frame (118);

a sixth spring (120) installed between the sixth carriage (119) and the fifth guide frame (118);

the second contact rod (121) is installed on the sixth sliding frame (119), and the second contact rod (121) is matched with the first contact rod (117) on the same side;

and the third contact rod (122) is arranged on two sides of the second sliding frame (33), and the third contact rod (122) is matched with the sixth sliding frame (119) on the same side.

8. The intelligent printing press flattening apparatus of claim 7, further comprising:

a third link (123) mounted on the second link (115);

a special-shaped block (124) mounted on the third connecting frame (123);

the second sliding rod (125) is arranged on the support frame (1);

a first pushing frame (126) slidably mounted on the second sliding bar (125);

a fourth contact bar (128) slidably mounted on the second slide bar (125), the fourth contact bar (128) cooperating with the profile block (124);

a seventh spring (127) installed between the fourth contact lever (128) and the first push frame (126);

a second pushing frame (129) installed on the clamping block (42) on one side;

the blocking frame (130) is arranged on the second pushing frame (129), and the blocking frame (130) is matched with the first pushing frame (126);

a connection block (131) mounted on the first contact bar (117);

a connecting rod (133) rotatably mounted on the connecting block (131);

the pushing block (132) is rotatably arranged between the connecting rods (133);

the contact plate (134) is arranged on the lower pressing plate (35), and the contact plate (134) is matched with the pushing block (132);

and an eighth spring (135) installed between the fourth contact bar (128) and the support frame (1).