CN111941998A

CN111941998A - Drive control device for letterpress printing machine

Info

Publication number: CN111941998A
Application number: CN202010905586.1A
Authority: CN
Inventors: 王社; 燕家辉
Original assignee: Individual
Current assignee: Dongguan Haoyang Paper Products Co ltd
Priority date: 2020-09-01
Filing date: 2020-09-01
Publication date: 2020-11-17

Abstract

The invention discloses a drive control device for a letterpress printing machine, which comprises a power part protection shell, wherein a motor is arranged in the power part protection shell, side clamping plates are respectively arranged on two sides of the motor, a plurality of connecting guide rods are uniformly and fixedly arranged on the other sides of the side clamping plates, a buffer box body is arranged on the outer side of one end of each connecting guide rod, the buffer box body is fixedly arranged on the inner wall of the power part protection shell, an input gear is fixedly arranged at the front end of the motor, a plurality of output gears are arranged on the outer side of the input gear, and a connecting shaft is fixedly arranged in the middle of each output gear. The power output rotating speed of the printing machine can be adjusted by installing the output shaft, the motor, the electromagnetic ring, the output gear, the transmission gear, the input gear and the connecting shaft, so that the speed can be conveniently adjusted according to the printing requirement of a product, the printing can be better performed, the structure is simple, and the operation is convenient.

Description

Drive control device for letterpress printing machine

Technical Field

The invention relates to the technical field of letterpress printing machines, in particular to a driving control device for a letterpress printing machine.

Background

With the rapid development of social economy, the letterpress printing machine is a machine with image-text information on a printing plate higher than a blank area, and is divided into three parts; a flat-press letterpress printing machine, a circular-press letterpress printing machine and a circular-press letterpress printing machine are disclosed, wherein the letterpress printing principle is that an ink supply device of the printing machine firstly distributes ink uniformly, then the ink is transferred onto a printing plate through an ink roller, the image-text part on the letterpress printing plate is far higher than the non-image-text part, therefore, the ink can only be transferred onto the image-text part of the printing plate, but the non-image-text part is free of ink, a paper feeding mechanism conveys paper to a printing part, and under the action of printing pressure, the ink on the image-text part of the printing plate is transferred onto a printing stock, so that one-time printing.

However, the existing letterpress printing machine cannot adjust the printing speed according to the printing requirements of the product when in use, and the quality of the printed product has defects because the printing speed is too fast or too slow; therefore, the existing requirements are not satisfied, and for this, we propose a drive control apparatus for a letterpress printing machine.

Disclosure of Invention

The invention aims to provide a driving control device for a letterpress printing machine, which aims to solve the problems that the prior letterpress printing machine proposed in the background art cannot adjust the printing speed according to the printing requirement of a product when in use, and the quality defect and the like of the printed product are caused by too high or too low printing speed.

In order to achieve the purpose, the invention provides the following technical scheme: a drive control device for a letterpress printing machine comprises a power component protection shell, wherein a motor is arranged inside the power component protection shell, side clamping plates are arranged on two sides of the motor, a plurality of connecting guide rods are uniformly and fixedly arranged on the other side of each side clamping plate, a buffer box body is arranged on the outer side of one end of each connecting guide rod, the buffer box body is fixedly arranged on the inner wall of the power component protection shell, an input gear is fixedly arranged at the front end of the motor, a plurality of output gears are arranged on the outer side of the input gear, a connecting shaft is fixedly arranged in the middle of each output gear, a light spring is arranged inside one end of each connecting shaft, ejection connecting blocks are movably arranged at two ends of each light spring, an output shaft is arranged on the outer side of one end of each connecting shaft, an electromagnetic ring is arranged on the outer side of each output, and a limiting spring is arranged between the magnetic filling block and the output shaft.

Preferably, the electromagnetic ring comprises a magnetic conducting rod extending towards one side of the connecting shaft, a vertical sleeve is arranged in the position, corresponding to the magnetic conducting rod, of the connecting shaft, a plurality of first sleeves are arranged in the connecting shaft and located on one side, far away from the motor, of the vertical sleeve, a first magnet, a first spring and a first limiting block are sequentially arranged in each first sleeve, a matched limiting hole is formed in the position, corresponding to the first limiting block, of the output shaft, second magnets are arranged on two sides of the vertical spring, a third magnet is arranged on one side, close to the vertical sleeve, of each second magnet, a fourth magnet is arranged on one side, far away from the vertical sleeve, of each second magnet, each third magnet is connected with each second magnet through a fixed column, each fourth magnet is connected with each second magnet through a fixed column, and a sliding block is arranged on the outer side of the ejection connecting block, the sliding block embeds there is the second sleeve, fifth magnet, second spring and second stopper have connected gradually in the second sleeve, ejecting connecting block outside corresponds the spacing hole of second stopper, second magnet can receive the magnetic force effect on the magnetic pole, second magnet can vertical spring is in balanced primary importance, and second magnet is receiving be located the second place behind the magnetic force effect of magnetic pole, during the primary importance, third magnet with fifth magnet repels and makes the second stopper can be right ejecting connecting block is spacing, and when the second place, fourth magnet can be right first magnet repels, makes first stopper can be right the output shaft is spacing.

Preferably, a plurality of heat dissipation holes are uniformly formed in the two sides of the power component protection shell, a movable cover plate is movably mounted on the upper end face of the power component protection shell, and the movable cover plate is connected with the power component protection shell through hinges.

Preferably, the elastic force of the light spring is smaller than that of the limiting spring, and the centrifugal force generated by the ejection connecting block along with the rotation of the connecting shaft and the ejection force of the light spring are smaller than the elastic force of the limiting spring.

Preferably, a transmission gear is arranged between the input gear and one of the output gears, a shaft pin penetrates through the middle of the transmission gear, and one end of the shaft pin is inserted into the power component protection shell.

Preferably, a rubber gasket is arranged between the side clamping plate and the motor and fixed on the side surface of the side clamping plate through an adhesive.

Preferably, a plurality of circles of electromagnetic coils are uniformly arranged inside the electromagnetic ring, and the electromagnetic ring is magnetically connected with the magnetic filling block.

Preferably, a limiting ring is arranged on the outer side of the inner end of the connecting guide rod, a damping spring is installed on one side of the limiting ring, and the damping spring is in a compressed state.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention is characterized in that a power supply of the device is switched on, an electromagnetic ring outside the end part of a specified output shaft is electrified according to the printing requirement of a printing production sheet after the power supply is switched on, strong magnetism can be generated after the electromagnetic ring is electrified to attract a magnetic filling block, so that the magnetic filling block compresses and contracts a limiting spring to enter the output shaft, a light spring loses the constraint of the force transmitted by the magnetic filling block through an ejection connecting block at the moment, the light spring ejects the ejection connecting block at the moment, the end part of the ejection connecting block is clamped in a clamping groove generated after the magnetic filling block contracts, the connecting shaft is mutually connected with the output shaft at the moment, then a motor is started, the motor drives an input gear to rotate, so that the input gear directly drives an output gear meshed with the input gear to rotate with the output gear connected with the output gear through a transmission gear, and a connecting shaft fixed, when the connecting shaft rotates, the connecting shaft connected with the output shaft can drive the output shaft to synchronously rotate through the ejection connecting block, and other output shafts are not connected with the connecting shaft through the ejection connecting block, so that only the connected output shaft rotates, the rotating output shaft can outwards convey the motion, and the printer works;

2. when the motor runs, the motor can generate vibration with a certain amplitude due to the running of internal components, the shock absorption spring with one end inserted in the buffer box body and in a compressed state at the end part of the connecting guide rod can provide a force to the side clamping plate through the connecting guide rod, so that the rubber pads on the side clamping plate and the side clamping plate are tightly attached to the side surface of the motor, the side clamping plate tightly attached to the motor can transmit the acting force of the shock absorption spring to the motor, the vibration generated by the running of the motor is weakened and counteracted, the running stability of the motor is ensured, and the rotating speed of an output shaft can be stably output outwards.

3. The invention can realize the stable control of the output shaft by matching the first magnet to the second magnet and the actively controlled electromagnetic ring, so that the output shaft is not influenced by the speed of the connecting shaft and the interference of shaking and the like, the driving output of the output shaft can be stably ensured, the printing quality and the printing speed can be rapidly and stably ensured, and the two can be realized simultaneously. According to actual needs, one or two or more of the output shafts can be driven under the control of the controller, so that the requirements for driving at different speeds can be met, meanwhile, multiple outputs can be realized through one motor, even through the arrangement of gear ratios, the whole device can realize the driving of all rotating parts of the whole printing through only one motor, the whole device is extremely simple and convenient, and the device is also an important invention point of the invention.

Drawings

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a schematic view of the internal structure of the power unit protection casing according to the present invention;

FIG. 3 is a schematic structural view of a connecting shaft according to the present invention;

FIG. 4 is a schematic structural diagram of a buffer box according to the present invention;

FIG. 5 is a detailed structural schematic diagram of the connecting shaft and the output shaft of the present invention;

FIG. 6 is an enlarged view taken at A in FIG. 5 according to the present invention;

FIG. 7 is an enlarged view of the invention at B of FIG. 6.

In the figure: 1. a power component protective housing; 2. a removable cover plate; 3. an output shaft; 4. a motor; 5. side clamping plates; 6. a buffer box body; 7. an electromagnetic ring; 8. an output gear; 9. a transmission gear; 10. an input gear; 11. a connecting shaft; 12. connecting the guide rod; 13. a damping spring; 14. ejecting a connecting block; 15. a magnetic filler block; 16. a light spring; 17. a restraining spring; 18. a flux guide rod; 19. a first sleeve; 20. a first spring; 21. a first stopper; 22. a first magnet; 23. a vertical sleeve; 24. a vertical spring; 25. a second magnet; 26. a third magnet; 27. a fourth magnet; 28. a second sleeve; 29. a second spring; 30. a fourth magnet; 31. and a second limiting block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 4, an embodiment of the present invention includes: a drive control device for a letterpress printing machine comprises a power component protection shell 1, wherein a motor 4 is arranged inside the power component protection shell 1, side clamping plates 5 are arranged on two sides of the motor 4 and used for clamping the motor 4 to prevent the motor 4 from shaking during operation, so that the motor 4 can stably operate, a plurality of connecting guide rods 12 are uniformly and fixedly arranged on the other side of each side clamping plate 5, a buffer box body 6 is arranged on the outer side of one end of each connecting guide rod 12, the buffer box body 6 is fixedly arranged on the inner wall of the power component protection shell 1, an input gear 10 is fixedly arranged at the front end of the motor 4, a plurality of output gears 8 are arranged on the outer side of the input gear 10, a connecting shaft 11 is fixedly arranged in the middle of each output gear 8, a light spring 16 is arranged inside one end of each connecting shaft 11, ejection connecting blocks 14 are movably arranged at two, the kinetic energy generated by a motor 4 in the device is conveyed outwards to ensure the operation of the printing machine, an electromagnetic ring 7 is arranged on the outer side of an output shaft 3, two magnetic filling blocks 15 are uniformly arranged on the inner side of one end part of the output shaft 3, and a limiting spring 17 is arranged between each magnetic filling block 15 and the output shaft 3.

Further, a plurality of heat dissipation holes are uniformly formed in the two sides of the power component protection shell 1, a movable cover plate 2 is movably mounted on the upper end face of the power component protection shell 1, and the movable cover plate 2 is connected with the power component protection shell 1 through hinges.

Through adopting above-mentioned technical scheme, hinge connection makes removable cover 2 can freely open, conveniently overhauls, maintains or changes the internals, and the louvre conveniently looses the heat of internals operation, and the guarantee device operation is stable.

Further, the elastic force of the light spring 16 is smaller than that of the limiting spring 17, and the centrifugal force generated by the ejection connecting block 14 rotating along with the connecting shaft 11 plus the ejection force of the light spring 16 is smaller than that of the limiting spring 17.

By adopting the technical scheme, the elastic force of the limiting spring 17 is larger than the centrifugal force generated by the ejection connecting block 14 rotating along with the connecting shaft 11 and the ejection force of the light spring 16, so that when the electromagnetic ring 7 is not interfered, the ejection connecting block 14 cannot eject and contract the magnetic filling block 15 into the output shaft 3 and the end part of the ejection connecting block 14 is inserted into the output shaft 3, and different output shafts 3 cannot be started simultaneously.

Further, a transmission gear 9 is arranged between the input gear 10 and one of the output gears 8, a shaft pin is installed in the middle of the transmission gear 9 in a penetrating manner, and one end of the shaft pin is inserted into the power component protection shell 1.

By adopting the technical scheme, the output gear 8 and the shaft pin can connect the input gear 10 and the output gear 8, so that the movement can be conducted, and the smooth operation of the device is ensured.

Further, a rubber gasket is arranged between the side clamping plate 5 and the motor 4, and the rubber gasket is fixed on the side surface of the side clamping plate 5 through an adhesive.

Through adopting above-mentioned technical scheme, the rubber gasket can avoid

side splint

5 and 4 direct contact of motor, guarantees that 4 internal components of motor can not be because of the manual damage of the vibration of side splint 5.

Furthermore, a plurality of circles of electromagnetic coils are uniformly arranged inside the electromagnetic ring 7, and the electromagnetic ring 7 is magnetically connected with the magnetic filling block 15.

Through adopting above-mentioned technical scheme, electromagnetic ring 7 can produce extremely strong magnetism to magnetism filling block 15 after the circular telegram of inside solenoid of electromagnetic ring 7 for inside magnetism filling block 15 compressed limiting spring 17 and got into output shaft 3, make ejecting connecting block 14 can be ejecting and the tip block inside output shaft 3 by light spring 16 smoothly, make connecting axle 11 drive output shaft 3 rotatory.

Further, a limiting ring is arranged on the outer side of the inner end of the connecting guide rod 12, a damping spring 13 is installed on one side of the limiting ring, and the damping spring 13 is in a compression state.

Through adopting above-mentioned technical scheme, damping spring 13 that is in compression state can provide a power to motor 4 through connecting guide rod 12 and side splint 5, prevents that motor 4 from vibrating when the operation, guarantees that motor 4 operates stably.

When the invention is used, firstly, a power supply of the device is switched on, after the power supply is switched on, the electromagnetic ring 7 at the outer side of the end part of the appointed output shaft 3 is electrified according to the printing requirement of a printing production piece, the electromagnetic ring 7 can generate extremely strong magnetism to attract the magnetic filling block 15 after being electrified, so that the magnetic filling block 15 compresses and contracts the limiting spring 17 to enter the output shaft 3, at the same time, the light spring 16 can lose the constraint of the force transmitted by the magnetic filling block 15 through the ejection connecting block 14, at the same time, the light spring 16 can eject the ejection connecting block 14, so that the end part of the ejection connecting block 14 is clamped in the clamping groove generated after the magnetic filling block 15 contracts, at the same time, the connecting shaft 11 can be mutually connected with the output shaft 3, then the motor 4 is started, so that the motor 4 drives the input gear 10 to rotate, so that the input gear 10 directly drives the output gear 8 meshed with the, the connecting shaft 11 fixed with the output gear 8 is enabled to synchronously rotate, when the connecting shaft 11 rotates, the connecting shaft 11 connected with the output shaft 3 can drive the output shaft 3 to synchronously rotate through the ejection connecting block 14, and other output shafts 3 are not connected with the connecting shaft 11 through the ejection connecting block 14, so only the connected output shaft 3 rotates, the rotating output shaft 3 can outwards convey the motion, so that the printing machine works, because the transmission ratios between the input gear 10 and a plurality of output gears 8 outside the input gear are different, when the input gear 10 drives different output gears 8 to rotate, the printing machine can obtain different running speeds, speed adjustment can be performed according to the printing requirements of products, so that the products can be better printed, the generation of quality defects is reduced, the qualification rate of the products is effectively improved, the structure is simple, the weight of the printing machine is simple, the weight of the printing, The operation is convenient.

Because the connecting shaft 11 is in a rotating state when in use, the push-out connecting block 14 connected with the light spring 16 is inevitably under the action of centrifugal force, although the elastic force setting between the spring and the light spring is limited by the action of the invention, so that a better effect can be realized, when in actual high-precision and fast printing, the push-out connecting block is usually required to be capable of fast reaction, and when the speed is higher, the movement of the push-out connecting block 14 is difficult to avoid, if the elastic force of the limiting spring is set to be larger, the magnetic filling block 15 is easy to recover under the high-speed rotation, even on the connecting shaft 11 when the printing is not required, the magnetic filling block is also rotated, and the speed of the magnetic filling block may be continuously changed to meet different requirements.

To this end, the applicant has made further improvements to solve the above-mentioned problems, the solutions being as follows: as shown in fig. 5-7, the electromagnetic ring 7 includes a magnetic conducting rod 18 extending to one side of the connecting shaft 11, although only one magnetic conducting rod 18 is shown in the drawings, a vertical sleeve 23 is disposed in a position of the connecting shaft 11 corresponding to the magnetic conducting rod 18, it should be understood that the magnetic conducting rod 18 may be disposed on two sides corresponding to the vertical sleeve 23, a plurality of first sleeves 19 are disposed inside the connecting shaft 11 on one side of the vertical sleeve 23 away from the motor 4, a first magnet 22, a first spring 20 and a first limit block 21 are sequentially disposed in each first sleeve 19, a position of the output shaft 3 corresponding to the first limit block 21 has a matching limit hole, and the output shaft can be better driven by matching the limit hole with the first limit hole 21, and after the ejection connecting block 14 is ejected to the position of the magnetic filling block 15, the reset of the limiting spring 17 may occur due to the speed change during the rotation, so that the power loss between the connecting shaft 11 and the output shaft 3 may occur during the connection process, the loss may be recovered by the action of the electromagnetic ring 7, but even the short loss means the speed change of the output shaft 3, which causes the printing problem or the printing precision problem, the second magnet 25 is disposed on both sides of the vertical spring 24, the third magnet 26 is disposed on one side of the second magnet 25 close to the vertical sleeve 23, the fourth magnet 27 is disposed on one side of the second magnet 25 far from the vertical sleeve 23, the third magnet 26 and the second magnet 25 are connected through a fixed column, the fourth magnet 27 and the second magnet 25 are connected through a fixed column, and the sliding block is disposed on the outer side of the ejecting connection block 14, the sliding block embeds there is second sleeve 28, fifth magnet 30, second spring 29 and second stopper 31 have connected gradually in the second sleeve 28, ejecting connecting block 14 outside corresponds the spacing hole of second stopper 31, second magnet 25 can receive the magnetic force effect on the magnetic pole 18, second magnet 25 can vertical spring 24 is in balanced primary importance, and second magnet 25 receives be located the second position behind the magnetic force effect of magnetic pole 18, during the primary importance, third magnet 26 with fifth magnet 30 repels and makes second stopper 31 can be right ejecting connecting block 14 is spacing, and during the second position, fourth magnet 27 can be right first magnet 22 repels, makes first stopper 21 can be right output shaft 3 carries on spacingly.

When the electromagnetic ring is used, if the output shaft 3 does not need to be driven, the third magnet 26 repels the fourth magnet 30, so that the second limiting block 31 can extend out of the sliding block, and the limiting hole on the ejection connecting block 14 is limited, so that the ejection connecting block 14 is always fixed in the connecting shaft 11, and the state change caused by disturbance and speed change on the connecting shaft 11 is avoided, when the output shaft 3 needs to be driven, the electromagnetic ring 7 is opened, so that the electromagnetic ring 7 adsorbs the magnetic filling block 15, the magnetic filling block 15 compresses the limiting spring 17, so that the ejection connecting block 14 can enter the output shaft 3 for driving, meanwhile, when the electromagnetic ring 7 generates magnetic force, magnetism appears on the magnetic conducting rod 18, the magnetism repels the second magnet 25, and through the arrangement of the magnetic force, the second magnet 25 can compress the vertical spring 24, so that the second magnet 25 can stay at the position corresponding to the first magnet 22, at this time, due to the repulsive action of the fourth magnet 27 to the first magnet 22, the first stopper extends out of the connecting shaft and enters the corresponding stopper hole on the output shaft 3, so that the driving is more stable, the output shaft 3 is not separated from the connecting shaft 11 due to the change of speed and interference, when the release is needed, the electromagnetic ring 7 is powered off, so that the magnetic filling block 15 is reset under the action of the limiting spring 17, so that the ejection connecting block 14 enters the inside of the connecting shaft 11 again, meanwhile, the electromagnetic ring 7 is powered off, so that the magnetic conducting rod 18 no longer has magnetism, at this time, due to the reset action of the vertical spring 24, the second magnet 25 and the third and fourth magnets driven by the second magnet 25 are reset to the initial position again, at this position, the first magnet 22 will not be repelled by the fourth magnet 27 any more, so that the first stopper 21 will receive the restoring force of the first spring 20, thereby releasing the limitation of the output shaft 3, and at the same time, since the third magnet 26 again corresponds to the fifth magnet 30, the third magnet 26 will repel the fifth magnet 30 again, thereby the second stopper 31 again extends out of the sliding block to limit the ejection connecting block 14. Therefore, the invention can realize the stable control of the output shaft by matching the electromagnetic ring 7 which is actively controlled through the matching action of the first magnet to the second magnet, so that the invention can not be influenced by the speed of the connecting shaft 11 and the interference of shaking and the like, can stably ensure the driving output of the output shaft, and can quickly and stably ensure the printing quality and speed, so that the two can be realized simultaneously. According to actual needs, the output shafts 3 can drive one or two or more of the output shafts 3 under the control of the controller, so that the driving at different speeds can be met, meanwhile, the output shafts can be output by one motor 4, even through the arrangement of gear ratios, the whole device can drive all rotating parts of the whole printing by only one motor 4, and the whole device is extremely simple and convenient.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. A drive control apparatus for a letterpress printing machine, comprising a power component protective casing (1), characterized in that: the power component protection device is characterized in that a motor (4) is arranged inside a power component protection shell (1), side clamping plates (5) are arranged on two sides of the motor (4), a plurality of connecting guide rods (12) are uniformly and fixedly arranged on the other side of each side clamping plate (5), a buffer box body (6) is arranged on the outer side of one end of each connecting guide rod (12), the buffer box body (6) is fixedly arranged on the inner wall of the power component protection shell (1), an input gear (10) is fixedly arranged at the front end of the motor (4), a plurality of output gears (8) are arranged on the outer side of the input gear (10), a connecting shaft (11) is fixedly arranged in the middle of each output gear (8), a light spring (16) is arranged inside one end of each connecting shaft (11), ejection connecting blocks (14) are movably arranged at two ends of each light spring (16), and an output shaft (3), an electromagnetic ring (7) is arranged on the outer side of the output shaft (3), two magnetic filling blocks (15) are uniformly mounted on the inner side of the end part of one end of the output shaft (3), and a limiting spring (17) is arranged between each magnetic filling block (15) and the corresponding output shaft (3).

2. A drive control apparatus for a letterpress printing machine according to claim 1, wherein: the electromagnetic ring (7) comprises a magnetic conducting rod (18) extending towards one side of the connecting shaft (11), a vertical sleeve (23) is arranged in the position, corresponding to the magnetic conducting rod (18), of the connecting shaft (11), a plurality of first sleeves (19) are arranged on one side, away from the motor (4), of the vertical sleeve (23) in the connecting shaft (11), a first magnet (22), a first spring (20) and a first limiting block (21) are sequentially arranged in each first sleeve (19), a matched limiting hole is formed in the position, corresponding to the first limiting block (21), of the output shaft (3), second magnets (25) are arranged on two sides of each vertical spring (24), a third magnet (26) is arranged on one side, close to the vertical sleeve (23), of each second magnet (25), and a fourth magnet (27) is arranged on one side, away from the vertical sleeve (23), of each second magnet (25), the third magnet (26) is connected with the second magnet (25) through a fixed column, the fourth magnet (27) is connected with the second magnet (25) through a fixed column, a sliding block is arranged on the outer side of the ejection connecting block (14), a second sleeve (28) is arranged in the sliding block, a second spring (29), a fifth magnet (30) and a second limiting block (31) are sequentially connected in the second sleeve (28), the outer side of the ejection connecting block (14) corresponds to a limiting hole of the second limiting block (31), the second magnet (25) can be under the action of magnetic force on the magnetic conducting rod (18), the second magnet (25) can be in a balanced first position through the vertical spring (24), the second magnet (25) is in a second position after being under the action of the magnetic force of the magnetic conducting rod (18), and when in the first position, the third magnet (26) and the fifth magnet (30) repel each other, so that the second limiting block (31) can limit the ejection connecting block (14), and in the second position, the fourth magnet (27) can repel the first magnet (22), so that the first limiting block (21) can limit the output shaft (3).

3. A drive control apparatus for a letterpress printing machine according to claim 1, wherein: the power component protection device is characterized in that a plurality of heat dissipation holes are uniformly formed in the two sides of the power component protection shell (1), a movable cover plate (2) is movably mounted on the upper end face of the power component protection shell (1), and the movable cover plate (2) is connected with the power component protection shell (1) through hinges.

4. A drive control apparatus for a letterpress printing machine according to claims 1 and 2, wherein: the elastic force of the light spring (16) is smaller than that of the limiting spring (17), and the centrifugal force generated by the ejection connecting block (14) along with the rotation of the connecting shaft (11) and the ejection force of the light spring (16) are smaller than the elastic force of the limiting spring (17).

5. A drive control apparatus for a letterpress printing machine according to claims 1 and 2, wherein: a transmission gear (9) is arranged between the input gear (10) and one of the output gears (8), a shaft pin penetrates through the middle of the transmission gear (9), and one end of the shaft pin is inserted into the power component protection shell (1).

6. A drive control apparatus for a letterpress printing machine according to claims 1 and 2, wherein: and a rubber gasket is arranged between the side clamping plate (5) and the motor (4), and the rubber gasket is fixed on the side surface of the side clamping plate (5) through an adhesive.

7. A drive control apparatus for a letterpress printing machine according to claims 1 and 2, wherein: a plurality of circles of electromagnetic coils are uniformly arranged inside the electromagnetic ring (7), and the electromagnetic ring (7) is magnetically connected with the magnetic filling block (15).

8. A drive control apparatus for a letterpress printing machine according to claim 1, wherein: the outer side of the inner end of the connecting guide rod (12) is provided with a limiting ring, one side of the limiting ring is provided with a damping spring (13), and the damping spring (13) is in a compression state.