CN220594326U - Multi-specification notebook flexographic printing mechanism - Google Patents

Abstract

The utility model belongs to the technical field of printing mechanisms, and particularly relates to a multi-specification notebook flexible printing mechanism. The automatic label inserting machine comprises a workbench, four supporting legs are fixedly arranged below the workbench, a protective cover is fixedly arranged at one end of the workbench, a transmission mechanism is fixedly arranged in the protective cover, the transmission mechanism is connected with a conveyor belt through belt transmission, a paper cutting mechanism is fixedly arranged at one side of the transmission mechanism, a supporting seat is arranged at the other end of the workbench, a label inserting point counting mechanism is fixedly arranged on the supporting seat, and the label inserting point counting mechanism consists of a label feeding mechanism and a paper screening mechanism. According to the utility model, the driven gears with different diameters are replaced, so that the rotating speed of the conveyor belt is regulated, the paper cutting requirements of different surface widths are realized, and meanwhile, the other end of the conveyor belt is fixedly provided with the mark inserting point counting mechanism, so that the marked paper can be marked more efficiently and accurately.

Description

Multi-specification notebook flexographic printing mechanism

Technical Field

The utility model belongs to the technical field of printing mechanisms, and relates to a multi-specification notebook flexography mechanism.

Background

With the improvement of the requirements of various countries in the world on energy conservation, consumption reduction, green and the like in the printing industry, green printing becomes a main attack direction of the development of the global printing industry. Flexography, offset, gravure, and screen printing are the four most popular printing modes worldwide, with flexography being one of the fastest growing four traditional printing modes. In China, the market share of flexographic printing is increased year by year, the printing quality is better and better, and the reliability and expected value of the flexographic printing are higher and higher for users due to the environment-friendly type of the flexographic printing.

However, the existing flexographic printing mechanism has some problems, for example, in the notebook production process, a paper cutter is used for cutting a roll-type paper finished product according to a certain size, the paper is fed into a production line after being cut into one sheet, and the paper fed to the production line is staggered layer by layer and stacked layer by layer. Besides counting the paper on the assembly line, inserting labels on the paper according to a certain number, for example, inserting a label every 100 sheets according to the inserted labels, so that the subsequent notebook is convenient to bind into a book, but at present, a manual or semi-manual mode is adopted to carry out point counting and label inserting, and the cut paper is required to be manually stacked to a point counting machine to carry out point counting and then manually inserted, so that not only is the manpower resource wasted, but also the point counting precision of the conventional point counting machine is low, paper errors are easy to generate, and the problems of more paper, less paper and the like are caused; meanwhile, the paper conveying speed cannot be effectively controlled, and the operation is complicated.

Disclosure of Invention

The present utility model aims to solve the above problems and provide a multi-specification notebook flexographic printing mechanism.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

a multi-specification notebook flexographic printing mechanism comprises a workbench, four supporting legs are fixedly arranged below the workbench, a protective cover is fixedly arranged at one end of the workbench, a transmission mechanism is fixedly arranged in the protective cover and connected with a conveyor belt through belt transmission, a paper cutting mechanism is fixedly arranged at one side of the transmission mechanism, a supporting seat is arranged at the other end of the workbench, a mark inserting point counting mechanism is fixedly arranged on the supporting seat, and the mark inserting point counting mechanism consists of a label feeding mechanism and a paper screening mechanism.

In the multi-specification notebook flexographic printing mechanism, the conveyor belt consists of a plurality of driving rollers and conveyor strips, wherein two ends of the driving rollers are movably arranged in the workbench through pin shafts, the surface of the driving rollers is higher than the table surface of the workbench, and the conveyor strips are sleeved on the driving rollers.

In the multi-specification notebook flexographic printing mechanism, the transmission mechanism consists of a main gear, a driven gear, a guide wheel and a motor, wherein the main gear is fixedly arranged in the protective cover and is in transmission connection with the motor, the main gear is in transmission connection with the driven gear through a belt, and the other end of the driven gear is in transmission connection with the driving roller.

In the multi-specification notebook flexographic printing mechanism, the paper cutting mechanism consists of the cutter roller and the grooving roller, wherein two ends of the grooving roller are fixedly arranged in the workbench, and one end of the grooving roller is in transmission connection with the cutter roller.

In the multi-specification notebook flexographic printing mechanism, the cutter roller is fixedly arranged above the grooving roller, a plurality of blades are fixedly arranged on the cutter roller, a gap size of 0.05-0.15mm is kept between the cutter roller and the grooving roller, and one end of the cutter roller is in transmission connection with a motor.

In the above-mentioned multi-specification notebook flexographic printing mechanism, the label feeding mechanism comprises cylinder, pneumatic push rod, label box and guide slot, wherein cylinder fixed mounting is in the one end on the supporting seat, and the one end transmission of pneumatic push rod is connected in the cylinder, promotes the connection.

In the above-mentioned multi-specification notebook flexographic printing mechanism, the pneumatic push rod is of an L-shaped push plate structure, wherein the other end of the pneumatic push rod is placed below the label box, the label box is fixedly installed on the supporting seat, a discharge hole is formed in the bottom of the pneumatic push rod, a guide groove is fixedly installed on one side of the discharge hole, and the guide groove is obliquely placed above the conveying belt.

In the multi-specification notebook flexographic printing mechanism, the paper screening mechanism is composed of a servo motor, a support frame, a driving rod, a sliding block, a driving rod and a sensor, wherein the support frame is fixedly arranged on the support seat, and the servo motor is fixedly arranged on one side of the support frame.

In the multi-specification notebook flexographic printing mechanism, the driving end of the servo motor is fixedly connected with a driving rod, the driving rod is of a threaded rod structure, the other end of the driving rod is movably mounted on the inner wall of the supporting frame, the center position of the sliding block is screwed on the driving rod, and the other side of the sliding block is sleeved with a sliding rod.

In the multi-specification notebook flexographic printing mechanism, the supporting plate is fixedly arranged below the sliding block, the micro air pumps are respectively arranged at two ends of the supporting plate, the vacuum chuck is connected to the micro air pumps in a transmission mode, and the sensor is a Hall sensor and is fixedly arranged above the conveying belt.

Compared with the prior art, the utility model has the advantages that:

according to the utility model, the driven gears are driven to rotate by the aid of the main gears, so that the rotating speed of the conveyor belt can be adjusted by changing the driven gears with different diameters, different surface paper cutting requirements are realized, meanwhile, through repeated experiments, the optimal gear clearance is adopted, the clearance size of 0.05-0.15mm is kept between the cutter roller and the grooving roller, so that the better paper cutting requirements are kept, the service life of the paper cutting mechanism is prolonged, meanwhile, the mark inserting point counting mechanism is fixedly arranged on the conveyor belt, paper is moved and counted by utilizing the vacuum chuck, the servo motor and the sensor, meanwhile, the air cylinder is fixedly arranged above the conveyor belt, the labels in the label box are pushed to be conveyed into the processed paper by the guide groove by utilizing the air cylinder, the use is more convenient, and the burden of operators is further reduced.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

Fig. 1 is a schematic view of the overall structure of the present utility model.

Fig. 2 is a top view of the table of the present utility model.

Fig. 3 is a top view of the point of insertion mechanism of the present utility model.

FIG. 4 is a side view of a slider of the present utility model.

In the figure: 1. a work table; 2. support legs; 3. a protective cover; 4. a transmission mechanism; 41. a main gear; 42. a driven gear; 43. a guide wheel; 5. a belt; 6. a conveyor belt; 61. a driving roller; 62. a transport bar; 7. a paper cutting mechanism; 71. a cutter roll; 72. grooving rollers; 8. a support base; 9. a punctuation point inserting mechanism; 91. a label feeding mechanism; 92. a paper screening mechanism; 93. a cylinder; 94. a pneumatic push rod; 95. a label box; 96. a guide groove; 10. a motor; 11. a vacuum chuck; 12. a support frame; 13. a driving rod; 14. a slide block; 15. a micro air pump; 16. a sensor; 17. and a support plate.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

As shown in fig. 1-4, a multi-specification notebook flexographic printing mechanism comprises a workbench 1, four supporting legs 2 are fixedly arranged below the workbench 1, a protective cover 3 is fixedly arranged at one end of the workbench 1, a transmission mechanism 4 is fixedly arranged in the protective cover 3, the transmission mechanism 4 is connected with a conveyor belt 6 through a belt 5 in a transmission manner, a paper cutting mechanism 7 is fixedly arranged at one side of the transmission mechanism 4, a supporting seat 8 is arranged at the other end of the workbench 1, a mark inserting point number mechanism 9 is fixedly arranged on the supporting seat 8, and the mark inserting point number mechanism 9 consists of a label feeding mechanism 91 and a paper screening mechanism 92.

In this embodiment, the workbench 1 can be stably supported by the four supporting legs 2, the protecting cover 3 is fixedly installed on one side of the workbench 1, the transmission mechanism 4 can be used for protecting, the transmission mechanism 4 is used for driving the conveyor belt 6 to move, so that paper can be placed on the conveyor belt 6 for moving, meanwhile, the paper is cut into a proper size by the paper cutting mechanism 7, the supporting seat 8 is arranged at the other end of the conveyor belt 6, the mark inserting point counting mechanism 9 is fixedly installed on the supporting seat 8, so that the sensor 16 can be used for counting the paper, the vacuum chuck 11 and the servo motor 10 are used for driving the paper to count and move, and meanwhile, the pneumatic push rod 94 is used for pushing the mark counting paper to have the guide groove 96 to fall onto the finished paper, and the operation is simpler.

Referring to fig. 1 and 2, the conveyor belt 6 is composed of a plurality of driving rollers 61 and a conveying strip 62, wherein two ends of the driving rollers 61 are movably mounted in the workbench 1 through pin shafts, the surface of the driving rollers is higher than the surface of the workbench 1, and the conveying strip 62 is sleeved on the driving rollers 61.

In this embodiment, the driving roller 61 is movably mounted inside the workbench 1 through the pin shaft, and meanwhile, the driving roller 61 is sleeved with the conveying strip 62, so that the driving roller 61 can be driven to rotate through the conveying strip 62, and meanwhile, the paper is further driven to move for use.

As shown in fig. 1 and 2, the transmission mechanism 4 is composed of a main gear 41, a driven gear 42, a guide wheel 43 and a motor 10, wherein the main gear 41 is fixedly installed in the protective cover 3 and is in transmission connection with the motor 10, the main gear 41 is in transmission connection with the driven gear 42 through a belt 5, and the other end of the driven gear 42 is in transmission connection with the driving roller 61.

In this embodiment, the motor 10 is used to drive the main gear 41 to rotate, and the main gear 41 is used to drive the driven gear 42 to rotate, while the other end of the driven gear 42 is connected to the driving roller 61 in a transmission manner, so that the speed of the conveying belt 6 can be controlled by replacing the driven gears 42 with different diameters.

Referring to fig. 1 and 2, the paper cutting mechanism 7 is composed of a cutter roller 71 and a grooving roller 72, wherein two ends of the grooving roller 72 are fixedly installed in the workbench 1, and one end of the grooving roller is in transmission connection with the cutter roller 71.

In the present embodiment, by disposing the cutter roller 71 above the slitting roller 72 with the slitting roller 72 disposed between the conveyor belts 6, the sheet can be cut and used more favorably.

As shown in fig. 1 and 2, the cutter roller 71 is fixedly installed above the grooving roller 72, wherein a plurality of blades are fixedly installed on the cutter roller 71, a gap size of 0.05-0.15mm is kept between the cutter roller 71 and the grooving roller 72, and one end of the cutter roller 71 is in transmission connection with the motor 10.

In the present embodiment, a gap size of 0.05-0.15mm is maintained between the cutter roller 71 and the incising roller 72, and the cutter roller 71 and the incising roller 72 are driven to rotate by the motor 10, so that the paper can be cut and used without affecting the normal movement of the paper.

Referring to fig. 1 and 3, the label feeding mechanism 91 is composed of an air cylinder 93, a pneumatic push rod 94, a label box 95 and a guiding groove 96, wherein the air cylinder 93 is fixedly installed at one end of the supporting seat 8, and one end of the pneumatic push rod 94 is in transmission connection with the air cylinder 93 for pushing connection.

In this embodiment, the air cylinder 93 is fixedly installed on the supporting seat 8, and meanwhile, the air cylinder 93 is in transmission connection with the air cylinder 93, so that the air cylinder 93 can push the air cylinder 94 to move for use.

Referring to fig. 1 and 3, the pneumatic push rod 94 is of an L-shaped push plate structure, wherein the other end of the push rod is disposed below the label box 95, the label box 95 is fixedly mounted on the support base 8, a discharge hole is formed in the bottom of the push rod, a guide groove 96 is fixedly mounted on one side of the discharge hole, and the guide groove 96 is obliquely disposed above the conveyor belt 6.

In this embodiment, the pneumatic push rod 94 is set to be of an L-shaped push plate structure, and meanwhile, the other end of the pneumatic push rod 94 is placed below the label box 95, and a discharge hole is formed below the label box 95, so that the labels in the label box 95 are pushed out for use by the pneumatic push rod 94, and the labels fall onto processed paper from the guide groove 96 for marking.

Referring to fig. 1 and 3, the paper screening mechanism 92 is composed of a servo motor 10, a support frame 12, a driving rod 13, a sliding block 14 and a sensor 16, wherein the support frame 12 is fixedly installed on the support seat 8, and the servo motor 10 is fixedly installed on one side of the support frame 12.

In this embodiment, the support frame 12 is fixedly mounted on the support seat 8 to maintain the support stability of the support frame 12, and meanwhile, the support frame 12 is fixedly mounted above the conveyor belt 6, so that the servo motor 10 can be maintained to ensure the normal use of the paper screening mechanism 92.

Referring to fig. 1 and 3, the driving end of the servo motor 10 is fixedly connected with a driving rod 13, the driving rod 13 is of a threaded rod structure, the other end of the driving rod is movably mounted on the inner wall of the supporting frame 12, the center of the sliding block 14 is screwed on the driving rod 13, and the other side of the sliding block is sleeved with a sliding rod.

In this embodiment, the driving rod 13 is driven by the motor 10 to rotate, the driving rod 13 is sleeved with the sliding block 14, and the driving rod 13 has a threaded rod structure, so that the driving rod 13 can be used for driving the sliding block 14 to move on the supporting frame 12, and the sliding rod on one side of the sliding block 14 can keep the sliding block 14 stable during movement.

Referring to fig. 1 and 4, a support plate 17 is fixedly installed below the slider 14, wherein micro air pumps 15 are respectively arranged at two ends of the support plate 17, vacuum chucks 11 are connected to the micro air pumps 15 in a transmission manner, and the sensor 16 is a hall sensor and is fixedly installed above the conveyor belt 6.

In this embodiment, the support plate 17 is fixedly installed below the slider 14, and the micro air pumps 15 are disposed at two ends of the support plate 17, so that the micro air pumps 15 can be used for pushing the vacuum chuck 11 to stretch and retract, and thus, paper can be adsorbed and released.

The working principle of the utility model is as follows:

according to the utility model, when the paper cutter mechanism is used, the workbench 1 is transported to a proper position, at the moment, the cut paper is driven to move below the vacuum chuck 11 by installing the driven gear 42 with proper diameter, at the moment, the driven gear 42 is driven by the main gear 41 to rotate for use, the other end of the driven gear 42 is connected to the driving roller 61 in a transmission way, at the moment, the conveyor belt 6 can be driven to rotate for use, so that the paper can be driven to move on the conveyor belt 6 for use, at the same time, the paper can be rapidly cut for use, the cut paper is driven by the conveyor belt 6 to move below the vacuum chuck 11, at the moment, the paper is adsorbed for use by the driving of the micro air pump 15, and when the servo motor 10 starts to rotate, the slider 14 is driven to move, and at the same time, the sensor 16 is fixedly arranged at one end of the support frame 12, so that the paper can be used, at the moment, the air cylinder 93 pushes the label in the label box 95 to fall under the control of the controller, the label box is more efficiently and more rapidly used.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model.

Although 1, a table is used more herein; 2. support legs; 3. a protective cover; 4. a transmission mechanism; 41. a main gear; 42. a driven gear; 43. a guide wheel; 5. a belt; 6. a conveyor belt; 61. a driving roller; 62. a transport bar; 7. a paper cutting mechanism; 71. a cutter roll; 72. grooving rollers; 8. a support base; 9. a punctuation point inserting mechanism; 91. a label feeding mechanism; 92. a paper screening mechanism; 93. a cylinder; 94. a pneumatic push rod; 95. a label box; 96. a guide groove; 10. a motor; 11. a vacuum chuck; 12. a support frame; 13. a driving rod; 14. a slide block; 15. a micro air pump; 16. a sensor; 17. support plates, etc., but does not exclude the possibility of using other terms. These terms are only used to more conveniently describe and explain the nature of the utility model and should be construed in a manner consistent with their spirit and scope.

Claims (10)

1. The utility model provides a many specifications notebook flexography mechanism, includes workstation (1), its characterized in that, workstation (1) below fixed mounting have four supporting legs (2), workstation (1) on one end fixed mounting have safety cover (3), safety cover (3) in fixed mounting have drive mechanism (4), drive mechanism (4) be connected with conveyer belt (6) through belt (5) transmission, one side fixed mounting of drive mechanism (4) have paper cutting mechanism (7), workstation (1) other end on be provided with supporting seat (8), supporting seat (8) on fixed mounting insert mark point number mechanism (9), just insert mark point number mechanism (9) constitute by label feed mechanism (91) and paper screening mechanism (92).

2. The multi-specification notebook flexographic printing mechanism according to claim 1, wherein the conveyor belt (6) consists of a plurality of driving rollers (61) and a conveyor belt (62), wherein two ends of the driving rollers (61) are movably mounted in the workbench (1) through pin shafts, the surface of the driving rollers is higher than the table top of the workbench (1), and the conveyor belt (62) is sleeved on the driving rollers (61).

3. The multi-specification notebook flexographic printing mechanism according to claim 2, wherein the transmission mechanism (4) consists of a main gear (41), a driven gear (42), a guide wheel (43) and a motor (10), wherein the main gear (41) is fixedly arranged in the protective cover (3) and is in transmission connection with the motor (10), the main gear (41) is in transmission connection with the driven gear (42) through a belt (5), and the other end of the driven gear (42) is in transmission connection with the driving roller (61).

4. A multi-format notebook flexographic printing mechanism according to claim 3 characterized in that the paper cutting mechanism (7) consists of a cutter roller (71) and a grooving roller (72), wherein both ends of the grooving roller (72) are fixedly installed inside the workbench (1), and one end is in transmission connection with the cutter roller (71).

5. The multi-format notebook flexographic printing mechanism according to claim 4, wherein the cutter roller (71) is fixedly installed above the grooving roller (72), a plurality of blades are fixedly installed on the cutter roller (71), a gap size of 0.05-0.15mm is kept between the cutter roller (71) and the grooving roller (72), and one end of the cutter roller (71) is connected with a motor (10) in a transmission way.

6. The multi-specification notebook flexographic printing mechanism according to claim 5, wherein the label feeding mechanism (91) is composed of an air cylinder (93), a pneumatic push rod (94), a label box (95) and a guide groove (96), wherein the air cylinder (93) is fixedly arranged at one end of the supporting seat (8), and one end of the pneumatic push rod (94) is in transmission connection in the air cylinder (93) for pushing connection.

7. The multi-format notebook flexographic printing mechanism according to claim 6, wherein the pneumatic push rod (94) is of an L-shaped push plate structure, wherein the other end of the pneumatic push rod is placed below a label box (95), the label box (95) is fixedly mounted on a supporting seat (8), a discharge hole is formed in the bottom of the pneumatic push rod, a guide groove (96) is fixedly mounted on one side of the discharge hole, and the guide groove (96) is obliquely placed above the conveyor belt (6).

8. The multi-format notebook flexographic printing mechanism according to claim 7 wherein the paper screening mechanism (92) is comprised of a servo motor (10), a support frame (12), a drive rod (13), a slider (14) and a sensor (16), wherein the support frame (12) is fixedly mounted on the support base (8) and the servo motor (10) is fixedly mounted on one side of the support frame (12).

9. The multi-specification notebook flexographic printing mechanism according to claim 8, wherein the driving end of the servo motor (10) is fixedly connected with a driving rod (13), the driving rod (13) is of a threaded rod structure, the other end of the driving rod is movably mounted on the inner wall of the supporting frame (12), the central position of the sliding block (14) is screwed on the driving rod (13), and the other side of the sliding block is sleeved with a sliding rod.

10. The multi-specification notebook flexographic printing mechanism according to claim 9, wherein a supporting plate (17) is fixedly arranged below the sliding block (14), two ends of the supporting plate (17) are respectively provided with a micro air pump (15), a vacuum chuck (11) is connected to the micro air pump (15) in a transmission way, and the sensor (16) is a hall sensor and is fixedly arranged above the conveyor belt (6).