CN106379036B - A kind of mechanism for axial adjusting of glue, soft hybrid printing press - Google Patents

Abstract

The invention discloses a kind of glue, the axial registration mechanism of soft hybrid printing press, bearing and bearing block, driving motor, driving gear, intermediate gear, adjustment seat and adjusting nut on the both ends spindle nose including plate cylinder；Motor is mounted in one piece of fixed plate and positioned at the below or above of plate cylinder；Driving gear is mounted on driving motor；Intermediate gear is mounted on the external end head of a fixing axle and is engaged with driving gear；Adjustment seat is slideably sleeved on the head of plate cylinder, and the inner end of the adjustment seat is connected on square bearing block, and the periphery of the adjustment seat is equipped with screw thread；The middle part of the periphery of adjusting nut is equipped with an annular groove, and the outside of the periphery of the adjusting nut is equipped with the teeth engaged with intermediate gear；The adjusting nut is connected in a manner that the two side of its annular groove is installed in fixed plate on the periphery of adjustment seat so that the adjusting nut is only capable of rotating and cannot moving axially.The axial registration mechanism of the present invention, was not only conveniently operated, but also can be cost-effective.

Description

Axial adjusting mechanism of glue and soft mixed printing machine

Technical Field

The invention relates to an axial adjusting mechanism of a glue and soft mixed printing machine

Background

The difference between the offset printing mode and the flexographic printing mode can be seen from fig. 1a and 1 b. In the offset printing method, the plate cylinder 10 is located above the blanket cylinder 20, the impression cylinder 30 is located below the blanket cylinder 20, the printing paper 40 passes between the blanket cylinder 20 and the impression cylinder 30, and the printing surface is on the upper surface of the printing paper 40, and it is the plate cylinder 10 that needs to be axially adjusted. In a flexographic printing mode, however, the impression sleeve 60 is positioned above the flexographic cylinder 50 and the anilox roller 70 is positioned below the flexographic cylinder 50 and in contact with the enclosed ink fountain 80. The sheet 40 passes between the impression sleeve 60 and the flexographic cylinder 50, with the printing surface on the lower surface of the sheet 40, and it is the flexographic cylinder 50 that needs to be adjusted axially.

The cylinder of the printing machine adopts helical gear transmission as the basic requirement of the modern printing machine, and a component force is necessarily generated in the axial direction in the transmission process, and the component force can cause the cylinder to generate a small displacement in the axial direction, namely, axial cross motion. During printing, the printed matter is adversely affected by too much or too little axial displacement of the cylinder. The axial adjusting mechanism in the existing printing machine can only complete the axial adjustment of one roller or one roller mechanism. In a hybrid offset and flexo printing press, a mechanism is required for axial adjustment of the printing cylinders to achieve both offset and flexo printing.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide an axial registration mechanism of a glue and soft mixed printing machine, which realizes the axial registration of a double-roller mechanism through one mechanism, is convenient to operate and can save the cost.

One technical scheme for achieving the purpose of the invention is as follows: an axial registration mechanism of a glue and soft mixed printing machine is used for axial registration of a single roller and comprises a plate roller and bearings, wherein the plate roller is bridged on an operation side wall plate and a driving side wall plate of the printing machine, the bearings are sleeved on shaft heads at two ends of the plate roller and are installed in a hole of the operation side wall plate and a hole of the driving side wall plate through bearing seats, and the axial registration mechanism further comprises a driving motor, a driving gear, an intermediate gear, an adjusting seat and an adjusting nut; wherein,

the motor is positioned below or above the plate roller in parallel and is arranged on a fixed plate which is arranged on the driving side wall plate and is positioned outside the driving side wall plate in parallel;

the driving gear is arranged on an output shaft of the driving motor;

the middle gear is arranged on the outer end head of a fixed shaft through two rotating bearings and is meshed with the driving gear, and the inner end head of the fixed shaft is arranged on the fixed plate;

the adjusting seat is slidably sleeved at the head of the plate roller, the inner end of the adjusting seat is connected to the bearing seat, and the outer circular surface of the adjusting seat is provided with threads;

the middle part of the outer circular surface of the adjusting nut is provided with an annular groove, and the outer part of the outer circular surface of the adjusting nut is provided with teeth meshed with the intermediate gear; the adjusting nut is connected to the outer circular surface of the adjusting seat in a mode that two side walls of the ring groove of the adjusting nut are clamped on the fixing plate, so that the adjusting nut can only rotate but cannot move axially;

the cross section of the shape of the bearing seat is square.

In the above axial registration mechanism of the glue and flexible mixed printing machine, the adjusting nut includes an inner adjusting nut having a first step on the outer surface and an outer adjusting nut having a first step on the inner surface; the ring groove is composed of steps of an inner adjusting nut and steps of an outer adjusting nut, and the inner adjusting nut and the outer adjusting nut are clamped on the fixing plate through a plurality of connecting bolts; the teeth are arranged outside the outer circular surface of the outer adjusting nut.

The axial registration mechanism of the glue and flexible mixed printing machine is characterized in that a plane bearing is respectively arranged between the two side walls of the annular groove and the fixing plate.

The other technical scheme for realizing the purpose of the invention is as follows: an axial registration mechanism of a glue and soft mixed printing machine is used for axial registration of double rollers and comprises two plate rollers which are parallelly connected across an operation side wall plate and a driving side wall plate of the printing machine, and bearings which are sleeved on shaft heads at two ends of the two plate rollers and are arranged in holes of the operation side wall plate and holes of the driving side wall plate through bearing seats, wherein the axial registration mechanism further comprises a driving motor, a driving gear, two cylinders, two intermediate gears, two adjusting seats and two adjusting nuts; wherein,

the driving motor is parallelly positioned in the middle between the two plate rollers and is arranged on a fixing plate, and the fixing plate is arranged on the driving side wall plate and is parallelly positioned on the outer side of the driving side wall plate;

the driving gear is arranged on an output shaft of the driving motor;

the two cylinders are positioned on two sides of the driving motor in parallel and symmetrically and are arranged on the inner side of the driving side wall plate;

the two intermediate gears are correspondingly arranged on the outer end heads of the two fixed shafts one by one through two rotating bearings and are meshed with the driving gear, and the inner end heads of the two fixed shafts penetrate through the fixed plate and are correspondingly connected with the outer end heads of the piston rods of the two cylinders one by one;

the two adjusting seats are sleeved on the heads of the two plate rollers in a sliding manner in a one-to-one correspondence manner, and the inner end of each adjusting seat is connected to the bearing seat; the outer circular surface of each adjusting seat is provided with a thread;

the middle part of the outer circular surface of each adjusting nut is provided with an annular groove, and the outer part of the outer circular surface of each adjusting nut is provided with teeth meshed with the intermediate gear; the two adjusting nuts are connected to the outer circular surfaces of the two adjusting seats in a mode that two side walls of the ring grooves of the two adjusting nuts are clamped on the fixing plate, so that the two adjusting nuts can only rotate but cannot move axially;

the cross section of the shape of the bearing seat is square.

In the above axial registration mechanism of the glue and flexible mixed printing machine, the adjusting nut is composed of an inner adjusting nut with a first-stage step arranged outside the outer circular surface and an outer adjusting nut with a first-stage step arranged inside the outer circular surface; the ring groove is formed by combining the steps of the inner adjusting nut and the steps of the outer adjusting nut, and the inner adjusting nut and the outer adjusting nut are clamped on the fixing plate through a plurality of connecting bolts; the teeth are arranged outside the outer circular surface of the outer adjusting nut.

The axial registration mechanism of the glue and flexible mixed printing machine is characterized in that a plane bearing is respectively arranged between the two side walls of the annular groove and the fixing plate.

The axial registration mechanism of the glue and flexible mixed printing machine can realize the axial registration of the offset printing cylinder and the axial registration of the flexible printing cylinder through one mechanism, so that the axial registration mechanism in the glue and flexible mixed printing machine is simple and convenient, the functions which can be realized by two or more mechanisms originally can be realized through one mechanism, the operation is convenient, the cost is saved, and the universality is strong.

Drawings

FIG. 1a is a schematic diagram of the structure of the main cylinder arrangement of an offset printing press;

FIG. 1b is a schematic diagram of the main cylinder arrangement of a flexographic printing press;

FIG. 2 is a schematic view of the axial registration mechanism of a flexographic printing press according to the present invention;

fig. 3 is a schematic structural view of an axial registration mechanism of another glue and flexible mixing printer according to the present invention.

Detailed Description

The invention will be further explained with reference to the drawings.

Referring to fig. 2, the axial register mechanism of a glue and flexible mixing printing press according to the present invention is used for the axial register of a single cylinder, and includes a plate cylinder 2, a driving motor 3, a driving gear 4, an intermediate gear 5, an adjusting seat 6 and an adjusting nut 7, which are bridged on an operation side wall plate (not shown) and a driving side wall plate 1 of the printing press, wherein:

a fixing plate 8 is arranged on the outer side of the driving side wall plate 1 in parallel, and a driving motor shaft through hole, a gear shaft through hole and an adjusting nut through hole are formed in the fixing plate 8;

the plate cylinder 2 coaxially passes through the adjusting nut through-hole of the fixing plate 8; the two end shaft heads of the plate roller 2 are respectively sleeved with a bearing 21, the outer circular surface of the bearing 21 is sleeved with a bearing seat 22 with a square cross section, and the bearing seats 22 are positioned in the holes of the operation side wall plate and the driving side wall plate 1;

the driving motor 3 is positioned below or above the plate cylinder 2 in parallel and is arranged on a fixed plate 8, and an output shaft of the driving motor 3 penetrates through a driving motor shaft through hole of the fixed plate 8;

the driving gear 4 is arranged on an output shaft of the driving motor 3;

the intermediate gear 5 is mounted on the outer end of a gear shaft 50 through a pair of rotary bearings 51 and engaged with the driving gear 4, the inner end and the outer end of the gear shaft 50 are both provided with external threads, the inner end of the gear shaft 50 passes through a gear shaft through hole of the fixed plate 8 and is mounted on the fixed plate 8 through a fastening nut 52; the inner ends of the pair of rotating bearings 51 are provided with bearing stoppers 53, and the outer ends of the pair of rotating bearings 51 are provided with bearing baffles 54 and baffle fastening nuts 55;

the adjusting seat 6 can be sleeved on the head of the plate roller 2 in a sliding way, the inner end of the adjusting seat 6 is connected on the bearing seat 22, and the outer circular surface of the adjusting seat 6 is provided with threads;

the middle part of the outer circle surface of the adjusting nut 7 is provided with a ring groove 70, and the outer part of the outer circle surface of the adjusting nut 7 is provided with teeth meshed with the intermediate gear 5; the adjusting nut 7 is connected to the outer circumferential surface of the adjusting seat 6 in a manner that two side walls of the ring groove 70 are clamped in the through hole of the driving motor shaft of the fixing plate 8, a plane bearing 74 is respectively arranged between the two side walls of the ring groove 70 and the fixing plate 8, and a limiting plate is embedded at the outer end of the outer circumferential surface of the adjusting seat 6, so that the adjusting nut 7 can only rotate but can not move axially.

In one embodiment, the adjusting nut 7 is composed of an inner adjusting nut 71 and an outer adjusting nut 72, and the outer part of the outer circular surface of the inner adjusting nut 71 is provided with a step; a first-stage step is arranged inside the outer circular surface of the outer adjusting nut 72, and teeth meshed with the intermediate gear 5 are arranged outside the outer circular surface of the outer adjusting nut 72; the step of the inner adjusting nut 71 and the step of the outer adjusting nut 72 are combined to form the ring groove 70, and the inner adjusting nut 71 and the outer adjusting nut 72 are clamped on the fixing plate 8 through a plurality of connecting bolts 73.

The working principle of the axial registration mechanism of the glue and soft mixed printing machine is as follows: after the driving gear 4 is driven by the driving motor 3 to rotate, the driving gear is transmitted to the adjusting nut 7 through the intermediate gear 5, so that the adjusting nut 7 rotates, the adjusting nut 7 rotates to drive the adjusting seat 6 to axially move, and because the adjusting nut 7 can only rotate, the adjusting seat 6 is fixed on the bearing block 22 and can only axially slide, the adjusting seat 6 is changed from the rotation of the adjusting nut 7 into the axial movement; the axial movement of the adjusting seat 6 drives the bearing seat 22 and the bearing 21 in the bearing seat 22 to move axially, and the movement of the bearing 21 drives the plate cylinder 2 to move, thereby realizing the purpose of axial registration of the plate cylinder 2.

Referring to fig. 3, another axial registration mechanism of a glue and soft mixing printing machine according to the present invention is used for axial registration of double cylinders, and includes two plate cylinders 2, 2 ' parallelly straddling over an operation side wall plate (not shown) and a driving side wall plate 1 of the printing machine, a driving motor 3, a driving gear 4, two cylinders 9, 9 ', two intermediate gears 5, 5 ', two adjusting seats 6, 6 ' and two adjusting nuts 7, 7 '; wherein:

a fixing plate 8 'is arranged on the outer side of the driving side wall plate 1 in parallel, and a driving motor shaft through hole, two gear shaft through holes and two adjusting nut through holes are formed in the fixing plate 8';

the two plate cylinders 2 and 2 'are correspondingly and coaxially penetrated through two adjusting nut through holes of the fixing plate 8'; two end shaft heads of the two plate cylinders 2 and 2' are respectively sleeved with a bearing 21, the outer circular surface of the bearing 21 is sleeved with a bearing seat 22 with a square cross section, and the bearing seat 22 is positioned in holes of the operation side wall plate and the driving side wall plate 1;

the driving motor 3 is positioned in the middle between the two plate cylinders 2 and 2 'in parallel and is arranged on a fixing plate 8, and the output shaft of the driving motor 3 passes through the through hole of the driving motor shaft of the fixing plate 8';

the driving gear 4 is arranged on an output shaft of the driving motor 3;

the two cylinders 9 and 9' are positioned at two sides of the driving motor 3 in parallel and symmetrically and are arranged at the inner side of the driving side wall plate 1;

the two intermediate gears 5 and 5 'are respectively arranged on the outer ends of the two gear shafts 50 and 50' through a pair of rotating bearings 51 in a one-to-one correspondence manner and are meshed with the driving gear 4, and the inner ends of the two gear shafts 50 and 50 'penetrate through the two gear shaft through holes of the fixed plate and are connected with the outer ends of the piston rods of the two cylinders 9 and 9' in a one-to-one correspondence manner; the inner end of each pair of the rotating bearings 51 is provided with a bearing stop 53, and the outer end of each pair of the rotating bearings 51 is provided with a bearing baffle 54 and a baffle fastening nut 55;

the two adjusting seats 6 and 6 'are slidably sleeved at the heads of the two plate cylinders 2 and 2' in a one-to-one correspondence manner, and the inner end of each adjusting seat 6 is connected to a bearing seat 22; the outer circular surface of each adjusting seat 6 is provided with a thread;

the middle part of the outer circular surface of each adjusting nut 7 is provided with a ring groove 70, and the outer part of the outer circular surface of each adjusting nut 7 is provided with teeth meshed with the intermediate gear 5; the two adjusting nuts 7, 7 ' are connected to the outer circular surfaces of the two adjusting seats 6, 6 ' in a manner that the two side walls of the ring groove 70 are clamped on the fixing plate 8 ', a plane bearing 74 is further respectively arranged between the two side walls of the ring groove 70 and the fixing plate 8 ', and a limiting plate is further embedded at the outer end of the outer circular surface of the adjusting seat 6, so that the two adjusting nuts 7, 7 ' can only rotate but can not axially move.

In one embodiment, both adjusting nuts 7, 7' are composed of an inner adjusting nut 71 and an outer adjusting nut 72, and the outer part of the outer circular surface of the inner adjusting nut 71 is provided with a step; a first-stage step is arranged inside the outer circular surface of the outer adjusting nut 72, and teeth meshed with the intermediate gear 5 are arranged outside the outer circular surface of the outer adjusting nut 72; the step of the inner adjusting nut 71 and the step of the outer adjusting nut 72 are combined to form the ring groove 70, and the inner adjusting nut 71 and the outer adjusting nut 72 are clamped on the fixing plate 8 through a plurality of connecting bolts 73.

The working principle of the axial registration mechanism of the glue and soft mixed printing machine is as follows: after the driving gear 4 is driven by the driving motor 3 to rotate, the driving gear is transmitted to the adjusting nut 7 through the intermediate gear 5, so that the adjusting nut 7 rotates, the adjusting nut 7 rotates to drive the adjusting seat 6 to axially move, and because the adjusting nut 7 can only rotate, the adjusting seat 6 is fixed on the bearing block 22 and can only axially slide, the adjusting seat 6 is changed from the rotation of the adjusting nut 7 into the axial movement; the axial movement of the adjusting seat 6 drives the bearing seat 22 and the bearing 21 in the bearing seat 22 to move axially, and the movement of the bearing 21 drives the plate cylinder 2 to move, so that the adjustment of axial registration of two plate cylinders 2 and 2' or one plate cylinder 2 alone is realized. The two intermediate transmission gears 5, 5 'are adjusted in axial position in a one-to-one correspondence by means of two cylinders 9, 9'. The cylinder is actuated when adjustment is required.

The axial registration mechanism of the glue and flexible mixed printing machine can realize the axial registration of the offset printing cylinder and the axial registration of the flexible printing cylinder through one mechanism, so that the axial registration mechanism in the glue and flexible mixed printing machine is simple and convenient, the functions which can be realized by two or more mechanisms originally can be realized through one mechanism, the operation is convenient, the cost is saved, and the universality is strong.

The above embodiments are provided only for illustrating the present invention and not for limiting the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, and therefore all equivalent technical solutions should also fall within the scope of the present invention, and should be defined by the claims.

Claims (6)

1. An axial registration mechanism of a glue and soft mixed printing machine is used for axial registration of a single roller and comprises a plate roller and bearings, wherein the plate roller is bridged on an operation side wall plate and a driving side wall plate of the printing machine, the bearings are sleeved on shaft heads at two ends of the plate roller and are arranged in a hole of the operation side wall plate and a hole of the driving side wall plate through bearing seats; wherein,

the motor is positioned below or above the plate roller in parallel and is arranged on a fixed plate which is arranged on the driving side wall plate and is positioned outside the driving side wall plate in parallel;

the driving gear is arranged on an output shaft of the driving motor;

the middle gear is arranged on the outer end head of a fixed shaft through two rotating bearings and is meshed with the driving gear, and the inner end head of the fixed shaft is arranged on the fixed plate;

the adjusting seat is slidably sleeved at the head of the plate roller, the inner end of the adjusting seat is connected to the bearing seat, and the outer circular surface of the adjusting seat is provided with threads;

the middle part of the outer circular surface of the adjusting nut is provided with an annular groove, and the outer part of the outer circular surface of the adjusting nut is provided with teeth meshed with the intermediate gear; the adjusting nut is connected to the outer circular surface of the adjusting seat in a mode that two side walls of the ring groove of the adjusting nut are clamped on the fixing plate, so that the adjusting nut can only rotate but cannot move axially;

the cross section of the shape of the bearing seat is square.

2. The axial registration mechanism of a flexographic printing machine according to claim 1, wherein said adjustment nut comprises an inner adjustment nut having a step on the outside of the outer circumferential surface and an outer adjustment nut having a step on the inside of the outer circumferential surface; the ring groove is composed of steps of an inner adjusting nut and steps of an outer adjusting nut, and the inner adjusting nut and the outer adjusting nut are clamped on the fixing plate through a plurality of connecting bolts; the teeth are arranged outside the outer circular surface of the outer adjusting nut.

3. The axial alignment mechanism of a paste and mix printer according to claim 1 or 2, wherein a plane bearing is further disposed between each of the two side walls of the ring groove and the fixing plate.

4. An axial registration mechanism of a glue and soft mixed printing machine is used for the axial registration of double rollers and comprises two plate rollers which are parallelly connected across an operation side wall plate and a driving side wall plate of the printing machine and bearings which are sleeved on shaft heads at two ends of the two plate rollers and are arranged in holes of the operation side wall plate and holes of the driving side wall plate through bearing seats, and is characterized in that the axial registration mechanism further comprises a driving motor, a driving gear, two cylinders, two intermediate gears, two adjusting seats and two adjusting nuts; wherein,

the driving motor is parallelly positioned in the middle between the two plate rollers and is arranged on a fixing plate, and the fixing plate is arranged on the driving side wall plate and is parallelly positioned on the outer side of the driving side wall plate;

the driving gear is arranged on an output shaft of the driving motor;

the two cylinders are positioned on two sides of the driving motor in parallel and symmetrically and are arranged on the inner side of the driving side wall plate;

the two intermediate gears are correspondingly arranged on the outer end heads of the two fixed shafts one by one through two rotating bearings and are meshed with the driving gear, and the inner end heads of the two fixed shafts penetrate through the fixed plate and are correspondingly connected with the outer end heads of the piston rods of the two cylinders one by one;

the two adjusting seats are sleeved on the heads of the two plate rollers in a sliding manner in a one-to-one correspondence manner, and the inner end of each adjusting seat is connected to the bearing seat; the outer circular surface of each adjusting seat is provided with a thread;

the middle part of the outer circular surface of each adjusting nut is provided with an annular groove, and the outer part of the outer circular surface of each adjusting nut is provided with teeth meshed with the intermediate gear; the two adjusting nuts are connected to the outer circular surfaces of the two adjusting seats in a mode that two side walls of the ring grooves of the two adjusting nuts are clamped on the fixing plate, so that the two adjusting nuts can only rotate but cannot move axially;

the cross section of the shape of the bearing seat is square.

5. The axial registration mechanism of a flexographic printing machine according to claim 4, wherein said adjusting nut is composed of an inner adjusting nut having a step formed on the outer portion of the outer circumferential surface and an outer adjusting nut having a step formed on the inner portion of the outer circumferential surface; the ring groove is formed by combining the steps of the inner adjusting nut and the steps of the outer adjusting nut, and the inner adjusting nut and the outer adjusting nut are clamped on the fixing plate through a plurality of connecting bolts; the teeth are arranged outside the outer circular surface of the outer adjusting nut.

6. The axial alignment mechanism of a paste and mix printer according to claim 4 or 5, wherein a plane bearing is further disposed between each of the two side walls of the ring groove and the fixing plate.