CN211031642U - Double-color roller printing machine matched with fixed-step stepping traction equipment - Google Patents

Abstract

The utility model discloses a double-color cylinder printing machine matched with fixed-step stepping traction equipment. The purpose is as follows: the double-color roller printing machine matched with the fixed-step stepping traction equipment is compact in structure and high in printing efficiency. The scheme is as follows: with the step-by-step double-color cylinder printing machine who pulls equipment of fixed step length, include: a guide device; a first printing cylinder; a second printing cylinder; a printing cylinder; the paper feeding roller moves between a first position and a second position in the stepping intermittence period of the traction equipment and drives paper to reciprocate under the guidance of the guide device.

Description

Double-color roller printing machine matched with fixed-step stepping traction equipment

Technical Field

The utility model relates to a printing machine field, specific this kind of printing machine that says so is used for accomplishing double-colored printing, printing on line with fixed step-by-step traction means equipment (like packagine machine) is supporting that the paper need not to remove with the synchronous collinear speed of traction means, independent control, compact structure, and the printing is high-efficient, and the chromatography is accurate to the version, and the application is nimble.

Background

The printing machine is widely applied to the industries of food, beverage, tobacco, medicine, health care products and cosmetics, and is particularly applied to the printing of flexible packaging materials and paper container packaging.

Along with the increasing abundance of packaging colors, some two-color printing machines are gradually appeared on the market, for example, chinese patent No. 201820221336.4 discloses an automatic two-color printing device, which comprises a device base, a bottom plate is arranged on the top of the device base, a double servo motor is arranged on the top of the bottom plate, a first driving transmission roller and a second driving transmission roller are arranged on two sides of the double servo motor, a conveyor belt is arranged on the top of the first driving transmission roller and the top of the second driving transmission roller, a front dryer is arranged on the bottom of the conveyor belt, a first printing roller and a second printing roller are arranged on the conveyor belt, a support frame is arranged inside the first printing roller and the second printing roller, a positioning block is arranged on the support frame, a rear dryer is arranged on one side of the positioning block, a second driven transmission roller is arranged on one side of the rear dryer, and a material receiving cylinder is, double driving is realized by arranging double servo motors. The Chinese invention patent with the patent number of 201820867124.3 discloses a two-color printing part, which comprises a first printing unit and a second printing unit which are arranged up and down on a printing frame, wherein the left end of the first printing unit is provided with a first guide roller and a second guide roller which guide a self-sealing film bag printed by the first printing unit upwards, then the self-sealing film bag is guided to the bottom of the first printing unit downwards by a third guide roller and a fourth guide roller, then the self-sealing film bag is guided to the right end of the second printing unit by a fifth guide roller, a sixth guide roller and a seventh guide roller, and the left end of the second printing unit is provided with an eighth guide roller and a ninth guide roller which guide the self-sealing film bag printed by the second printing unit upwards; a first oven is arranged between the second guide roller and the third guide roller, and a second oven is arranged between the eighth guide roller and the ninth guide roller; the self-sealing film bag passing through the third guide roller and the fourth guide roller and the self-sealing film bag passing through the eighth guide roller and the ninth guide roller are close to each other at a certain position, and a third oven is arranged at the close position to contain the self-sealing film bag and the eighth guide roller and the ninth guide roller.

Above-mentioned double-colored lithography apparatus is with two printing machines side by side or stack, and the space occupies great, and is with high costs, and winds the paper overlength, can cause the influence to packing chromatography register etc.. And can not complete double-color printing on line with fixed-step stepping traction mode equipment (such as a packaging machine).

Disclosure of Invention

An object of the utility model is to overcome the problem that above-mentioned exists, provide a double-color cylinder printing machine supporting with the step-by-step haulage equipment of fixed step length, compact structure, printing efficiency are high.

The purpose of the utility model is achieved by the following technical proposal,

with the step-by-step double-color cylinder printing machine who pulls equipment of fixed step length, include:

a guide device for guiding the paper to advance when the paper is drawn by the drawing device to step;

a first printing cylinder, the rotation of which is driven and controlled by a motor;

a second printing cylinder, the rotation of which is driven and controlled by a motor;

the printing cylinder is positioned between the two printing cylinders and can move relative to the two printing cylinders respectively;

the paper feeding roller moves between a first position and a second position in the stepping intermission period of the traction equipment to drive paper to do reciprocating motion. The structure is compact, and the occupied space is small; the structural design that a printing roller is arranged on each of two sides of the printing roller is adopted, and compared with a side-by-side and stacked structure, the paper winding length is small, the printing efficiency is effectively improved, and the color register printing of the same layout can be realized.

Preferably, the printing machine further comprises a printing cylinder rocker arm which is rotatably mounted on the machine frame of the printing machine, the printing cylinder is rotatably mounted at one end of the printing cylinder rocker arm, and the other end of the printing cylinder rocker arm is connected with a swing arm driving cylinder for driving the printing cylinder rocker arm to move so as to realize the swing of the printing cylinder between the two printing cylinders.

Preferably, two adjustable limit positions are respectively arranged on two sides of the end part of the rocker arm of the printing cylinder and used for controlling the swing amplitude of the rocker arm of the printing cylinder, so that paper on the printing cylinder is tightly attached to the printing cylinder in the printing process. The adjustable limit comprises a base with a threaded hole and a screw in threaded connection with the base, and the swingable amplitude of the roller rocker arm is adjusted through an adjusting screw.

Preferably, the end part of the rocker arm of the printing cylinder is also provided with a resetting mechanism which can move relative to the rocker arm of the printing cylinder, and the resetting mechanism forces the printing cylinder to reset and is separated from the contact with the two printing cylinders.

Preferably, the first printing cylinder and the second printing cylinder are arranged on a printing machine frame through respective printing cylinder swinging mechanisms; the printing cylinder swing mechanism comprises a printing cylinder rocker arm which is rotatably arranged on the frame of the printing machine, the first printing cylinder or the second printing cylinder is rotatably arranged at one end of the printing cylinder rocker arm, and the other end of the printing cylinder rocker arm is connected with a printing cylinder rocker arm cylinder for driving the printing cylinder rocker arm to move so as to realize that the first printing cylinder or the second printing cylinder swings relative to the printing cylinder.

Preferably, two adjustable limiting mechanisms are respectively arranged on two sides of the end part of the printing roller rocker arm and used for controlling the swinging amplitude of the printing roller rocker arm, so that paper on the printing roller is tightly attached to the printing roller in the printing process. The structure of the adjustable limiting mechanism is completely the same as that of the adjustable limiting mechanism, and the details are not repeated herein.

Preferably, when the paper feeding roller moves from the first position to the second position, the printing cylinder is attached to the surface of the first printing cylinder (so that the paper loaded on the surface of the printing cylinder is attached to the surface of the first printing cylinder), the printing cylinder is driven to rotate by the movement of the paper, and the paper and the printing cylinder (the first printing cylinder) perform a rolling motion to realize first color printing; when the paper feeding roller moves from the second position to the first position, the printing cylinder is attached to the surface of the second printing cylinder (so that the paper loaded on the surface of the printing cylinder is attached to the surface of the second printing cylinder), the paper moves to drive the printing cylinder to rotate, and then the printing cylinder (the second printing cylinder) performs opposite rolling motion to realize second color printing, wherein printing layouts of the first color printing and the second color printing are completely overlapped.

When the paper feeding roller moves from a first position to a second position, the two printing rollers are simultaneously attached to the paper on the surface of the printing roller, the printing roller is driven to rotate by the movement of the paper, and then the paper and the two printing rollers perform opposite rolling motion to respectively realize first color printing and second color printing, wherein printing plates of the first color printing and the second color printing are completely overlapped; the feed roller moves from the second position to the first position when the two print cylinders throw off the sheet on the surface of the impression cylinder. And a synchronous double-color printing mode is utilized, so that the printing efficiency is high, and the register precision is high.

Preferably, the first color printing has a print length of up to

During printing, the initial printing point of the printing plate on the second printing roller is contacted with the paper loaded on the printing roller so as to ensure that the printing plates of the first color printing and the second color printing are completely overlapped. Pi is the circumferential ratio, D is the outer diameter of the printing cylinder, and theta is the central angle of the printing cylinder corresponding to the arc segment between the tangent point J, K of the two printing cylinders when performing the bicolor printing.

Preferably, the distance between the first position and the second position is

L is the length of a printing plate, pi is the circumferential ratio, D is the outer diameter of the printing cylinder, theta is the central angle corresponding to the arc segment between the printing cylinder and the tangent point J, K of the two printing cylinders when the two-color printing is carried out, because a certain paper winding length exists between the printing cylinder and the tangent point J, K of the two printing cylinders when the two-color printing is carried out, in order to ensure that the printing plates of the first color printing and the second color printing are completely overlapped, the distance between the first position and the second position is set as

When carrying out double-color printing, the central angle that the circular arc section corresponds between the mutually tangent point J, K of printing cylinder and two printing cylinder respectively indicates specifically: tangent point of printing cylinder and first printing cylinder when first color printing is carried outJ, the tangent points K of the printing cylinder and the second printing cylinder during second color printing, and the central angles corresponding to the arc sections between the two tangent points.

Preferably, in order to avoid contamination of the printing press or of the sheets by non-drying of the printing ink when the printing length is large, the printing press further comprises, as one of the sheet transport rollers, an adjustment roller which is movable relative to the printing cylinder, for adjusting the wrap length between the printing cylinder and the tangent point J, K of the two printing cylinders, respectively, in the case of two-color printing. The adjusting roller is parallel to the axis of the printing cylinder, and the two printing cylinders are symmetrically arranged by taking the plane where the adjusting roller and the swinging axis of the printing cylinder are located as a symmetrical plane.

Preferably, the paper winding length between the tangent point J, K of the printing cylinder and the two printing cylinders is nH, n is an integer greater than or equal to 1, H is the moving step length of the traction device, the distance between the first position and the second position of the paper feeding roller is L/2, L is the length of one printing surface, the paper winding length between the printing cylinder and the tangent point J, K of the two printing cylinders is the length of the paper winding between the printing cylinder and the tangent point J, K of the two printing cylinders during two-color printing, specifically, the paper winding length from J point to K point is the tangent point J of the printing cylinder and the first printing cylinder during first color printing, and the paper winding length from J point to K point is the tangent point of the printing cylinder and the second printing cylinder during second color printing according to the paper advancing direction.

Preferably, the printing press further includes a color patch reading device moving along the adjusting roller, and configured to read a positioning color patch printed on the paper during printing of the first color, so as to obtain a positioning color patch offset (the offset may be calculated in a pulse counting manner, for example, the offset is calculated after setting to read 100 pulses after the color patch, and is stopped after actually reading 150 pulses after the color patch, and the travel distance of 50 pulses is calculated as the positioning color patch offset), and correct the start point position of the second printing roller, so as to eliminate a color register error caused by a traction step error and an accumulated error of paper tension change.

Preferably, the correcting the print start point position of the second printing cylinder specifically comprises:

according to the formula

Calculating a correction angle α of the second printing cylinder, wherein α is the correction angle of the second printing cylinder, β is the offset of the positioning color block, and the offset β is the difference between the distance covered by the positioning color block when the first color is printed and the positioning color block when the paper stops moving and the set distance, for example, 3mm stops after the color block is set and 3.5mm stops when the paper actually reads the color block, β is 3.5-3 is 0.5mm, pi is the circumferential rate, and F is the outer diameter of the second printing cylinder;

the second print cylinder rotates clockwise or counterclockwise by the correction angle α.

Preferably, the guide device includes:

guiding the paper to be printed to a first guide roller group of a first color printing area, wherein a paper brake is arranged at the paper feeding end of the first guide roller group;

and guiding the paper after the second color printing to a second guide roller group of the traction equipment, wherein a paper brake is arranged at the paper outlet end of the second guide roller group. The paper feeding end and the paper discharging end are both braked by utilizing two paper braking actions, and then the paper is drawn by utilizing the paper feeding roller to reciprocate between the first position and the second position under the condition that the paper feeding end and the paper discharging end of the printing machine are not fixed; the paper feeding roller moves between the first position and the second position in the stepping intermittence period of the traction equipment to drive paper to do reciprocating motion.

Preferably, the printing press further comprises a first inking mechanism arranged in cooperation with the first printing cylinder and a second inking mechanism arranged in cooperation with the second printing cylinder; the first inking mechanism and the second inking mechanism can respectively swing relative to the first printing cylinder and the second printing cylinder, so that the first inking mechanism is close to the first printing cylinder and moves oppositely, and the second inking mechanism is close to the second printing cylinder and moves oppositely, thereby realizing inking.

Preferably, the paper sheets are drawn by the packaging machine to run synchronously.

Compared with the prior art, the utility model have following advantage and effect:

1. the printing device adopts the structural design that one printing roller is respectively arranged on two sides of the printing roller, and compared with a side-by-side and stacked structure, the printing device has the advantages of more compact structure, small occupied space, smaller paper winding length and effectively improved printing efficiency.

2. The distance between the first position and the second position of the feed roller is set to be equal to the distance between the first position and the second position when the sheet passes directly over the printing cylinder without passing through the adjustment roller

The printing layout of the first color printing and the printing layout of the second color printing are completely overlapped, the color register accuracy is high, and the paper penetrating mode and the paper winding length are simplified.

3. By arranging the adjusting roller, the distance between the adjusting roller and the printing cylinder is adjusted, and the paper winding length between the printing cylinder and the tangent point J, K of the two printing cylinders is respectively adjusted during double-color printing, so that the retention time after printing can be prolonged, the drying of ink is ensured, and the pollution to a printing machine or paper caused by the undried printing ink is avoided.

4. The color mark reading device is arranged and moves along with the adjusting roller and used for reading the position of a positioning color block printed on paper when the first color is printed, so that the offset caused by the accumulated error of the tension change of the paper and the moving step length of the packaging machine can be measured, the printing starting point position of the second printing roller can be adjusted in time, the color register error during the second color printing can be corrected, and the color register precision can be improved.

5. The printing machine adopts the swinging mode of the printing cylinder, respectively leans against the first printing cylinder and the second printing cylinder, and respectively completes the printing of the first color and the second color by utilizing the reciprocating strokes of the paper feeding roller at the first position and the second position, so that the structure of the printing machine is simple, and the interval time of the two-color printing is prolonged.

6. Two printing cylinders laminate in the paper on undertaking the printing cylinder surface simultaneously, utilize the paper motion to drive the undertaking the printing cylinder and rotate, and then realize first look printing and second look printing respectively with two printing cylinders to the rolling motion, print efficiently, effectively reduced the error that paper tension change produced, it is high to the version precision.

Drawings

Fig. 1 is a schematic structural diagram of embodiment 1 of the present invention.

Fig. 2 is a schematic structural diagram of the inking mechanism of the present invention.

Fig. 3 is a schematic structural diagram of embodiment 2 of the present invention.

Fig. 4 is a schematic structural view of an adjusting roller, a color mark reading device and a driving mechanism thereof in embodiment 2 of the present invention.

Fig. 5 is a schematic structural diagram of embodiment 3 of the present invention.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

Example 1

As shown in fig. 1, the utility model relates to a double-color cylinder printing machine who matches with the step-by-step traction equipment of fixed step size, include:

a guide device for guiding the sheet 5 to travel when the sheet 5 is pulled by the pulling device to step;

a first printing cylinder 2, the rotation of which is driven and controlled by a motor;

a second printing cylinder 8, the rotation of which is driven and controlled by a motor;

the printing cylinder 1 is positioned between the two printing cylinders and can move relative to the two printing cylinders respectively;

the paper feeding roller 4 moves between a first position and a second position in the stepping intermission period of the traction equipment to drive the paper 5 to reciprocate;

when the paper feeding roller 4 moves from the first position to the second position, the printing cylinder 1 is attached to the surface of the first printing cylinder 2 (so that the paper loaded on the surface of the printing cylinder is attached to the surface of the first printing cylinder), the paper 5 moves to drive the printing cylinder 1 to rotate, and then the paper and the printing cylinder (the first printing cylinder) perform opposite rolling motion to realize first color printing; when the paper feeding roller 4 moves from the second position to the first position, the printing cylinder 1 is attached to the surface of the second printing cylinder 8 (so that the paper loaded on the surface of the printing cylinder is attached to the surface of the second printing cylinder), the printing cylinder 1 is driven to rotate by the movement of the paper 5, and then the printing cylinder (the second printing cylinder) performs rolling motion to realize second color printing, the printing layout of the first color printing and the printing layout of the second color printing are completely overlapped, and double color printing of the same layout is realized. The structure is compact, and the occupied space is small; the structural design that one printing roller is respectively arranged on two sides of the printing roller 1 is adopted, and compared with a side-by-side and stacked structure, the paper winding length is small, and the printing efficiency is effectively improved.

Since a certain paper winding length exists between the printing cylinder and the tangent point J, K of the two printing cylinders when the two-color printing is carried out, in order to ensure that the printing plates of the first color printing and the second color printing are completely overlapped, the distance between the first position and the second position is

L is the length of a printing page, pi is the circumferential ratio, D is the outer diameter of the printing cylinder 1, theta is the central angle corresponding to the arc segment between the printing cylinder 1 and the tangent point J, K of the two printing cylinders when the two-color printing is carried out, the central angle corresponding to the arc segment between the printing cylinder 1 and the tangent point J, K of the two printing cylinders when the two-color printing is carried out, and concretely refers to the tangent point J between the printing cylinder 1 and the first printing cylinder 2 when the first-color printing is carried out, the tangent point K between the printing cylinder 1 and the second printing cylinder 8 when the second-color printing is carried out, and the central angle corresponding to the arc segment between the two tangent points.

The guide device includes:

a first guide roller group including a first guide roller 15, a second guide roller 16, a third guide roller 17, and a fourth guide roller 18 arranged in the traveling direction of the sheet 5, which guides the sheet to be printed to a first color printing area formed by the support cylinder 1 and the first printing cylinder 2; a paper brake 6 matched with the first guide roller 15 to realize the braking of the paper feeding end is arranged on the first guide roller 15;

a second guide roller group which comprises a fifth guide roller 19, a sixth guide roller 20 and a seventh guide roller 21 which are arranged along the advancing direction of the paper 5 and guides the paper after the second color printing to the traction equipment; and a paper brake 6 which is matched with the seventh guide roller 21 to realize paper end braking is arranged on the seventh guide roller 21. The paper direction is changed by the cooperation of the guide roller group, and the compactness of the structure is ensured.

The paper feeding rollers 4 are two rollers which have the same diameter and are arranged on the same base and move along with the base, are driven by a driving mechanism to move in a reciprocating linear manner, and pull the paper 5 to move relatively in the condition that the paper in and out of the printing machine is not moved at the two ends. One of which is mounted between the first guide roller 15 and the second guide roller 16 and the other of which is mounted between the sixth guide roller 20 and the seventh guide roller 21.

The printing machine further comprises a printing cylinder rocker arm 10 (capable of rotating around a fulcrum C) which is rotatably arranged on the machine frame of the printing machine, the printing cylinder 1 is rotatably arranged at one end (capable of being arranged through a bearing) of the printing cylinder rocker arm 10, and the other end of the printing cylinder rocker arm is connected with a swing arm driving cylinder 9 for driving the printing cylinder rocker arm 10 to move, so that the printing cylinder 1 is controlled to swing between the two printing cylinders.

The two sides of the end part of the printing cylinder rocker arm 10 are respectively provided with an adjustable limit 11 for controlling the swing amplitude of the printing cylinder rocker arm 10, so that paper on the printing cylinder 1 is tightly attached to the printing cylinder in the printing process, namely, the swing working positions of the printing cylinder 1 are respectively leaned on the letterpress printing surface of the first printing cylinder 2 and leaned on the letterpress printing surface of the second printing cylinder 8. The adjustable limit 11 comprises a base 11-1 with a threaded hole and a screw 11-2 which is in threaded connection with the base, and the distance between the end of the adjustable limit 11 and the end of the printing roller rocker arm 10 is adjusted by rotating the screw 11-2, so that the swingable amplitude of the printing roller rocker arm 10 is limited.

The printing press further comprises a first inking mechanism 3 arranged in cooperation with the first printing cylinder 2 and a second inking mechanism 7 arranged in cooperation with the second printing cylinder 8; the first inking mechanism and the second inking mechanism can respectively swing relative to the first printing cylinder and the second printing cylinder, so that the first inking mechanism 3 is close to the first printing cylinder 2 and moves oppositely, and the second inking mechanism 7 is close to the second printing cylinder 8 and moves oppositely, and inking is realized.

As shown in fig. 2, the first inking mechanism 3 and the second inking mechanism 7 have the same structure, and include an ink tank swing arm 22 rotatably mounted on the printer frame, an ink tank 23 located on the ink tank swing arm, an ink scraper 24 disposed on the ink tank, an anilox roller 25 located in the ink tank, an ink tank driving cylinder 26 rotatably connected to one end (end far from the ink tank) of the ink tank swing arm 22, and an adjustable limiting member 27 (the structure of which is the same as that of the adjustable limiting member 11) located at one end (end far from the ink tank) of the ink tank swing arm 22; the anilox roller 25 is driven by a motor to rotate, ink in the ink pool 23 is brought up, ink on the surface of the anilox roller 25 is scraped off by the ink scraper 24, and a certain amount of ink is stored in an anilox groove of the anilox roller 25. When inking is needed, the ink pool driving cylinder 26 drives the ink pool swing arm 22 to swing, and the adjustable limiting piece 27 is used for positioning, so that the anilox roller 25 abuts against a printing cylinder (a first printing cylinder or a second printing cylinder) and carries out rolling motion to realize inking; after the inking is finished, the ink pool driving cylinder 26 drives the ink pool swing arm 22 to swing in the opposite direction, so that the anilox roller 25 is separated from the printing cylinder (the first printing cylinder or the second printing cylinder).

The first printing cylinder 2 and the second printing cylinder 8 are symmetrically arranged by taking a vertical line of the swing axis of the printing cylinder 1 as a symmetry axis.

The paper 5 is drawn by the packaging machine to run synchronously.

The letterpress printing surfaces on the first printing roller 2 and the second printing roller 8 are adsorbed on the printing rollers in a magnetic adsorption mode, fine adjustment scale marks are arranged on the printing rollers, and the positions of the two times of printing in the width direction of the paper can be conveniently fine adjusted in a manual adjustment mode.

When the operation of the traction mechanism of the packaging machine is finished, the paper 5 with certain tension is pulled forwards by a step length, and the two paper brakes 6 act to brake the two ends of the paper 5 entering and exiting the printing machine. When the paper feeding roller 4 is at the lower position A, the printing cylinder 1 drives the paper 5 with the swing arm driving cylinder 9, rotates around a pivot C through the printing cylinder swing arm 10, leans against the first printing cylinder 2, and ensures that the paper to be printed is tightly attached to the letterpress printing surface on the first printing cylinder 2 through the adjustable limit 11. When the paper feeding roller 4 moves upwards from the lower position a, the first printing cylinder 2 rotates clockwise synchronously (the speed of the paper feeding roller and the first printing cylinder is set to make the linear velocity of the paper be the same as the linear velocity of the letterpress printing surface), and the printing cylinder 1 is driven by the paper 5 to rotate counterclockwise at the same linear velocity, so that the letterpress printing surface and the paper 5 roll only. When the feed roller 4 moves to the upper position B, the sheet movesThe actual length should be:

wherein L is the length of a printing plate, pi is the circumferential ratio, D is the outer diameter of the printing cylinder 1, and theta is the central angle corresponding to the arc segment between the printing cylinder 1 and the tangent point J, K of the two printing cylinders when the two-color printing is carried out, thereby completing the first-color printing.

Subsequently, the printing cylinder 1 is driven by the swing arm driving cylinder 9, rotates around a pivot point C through the printing cylinder swing arm 10, leans against the second side printing cylinder 8, and ensures that the paper to be printed wound on the printing cylinder is tightly attached to the letterpress printing surface on the second printing cylinder 8 through the adjustable limit 11, when the paper feeding roller 4 moves downwards from the upper position B of the paper feeding roller, the second side printing cylinder 8 rotates anticlockwise and synchronously (the speed of the paper feeding roller and the second printing cylinder is set to enable the linear speed of the paper to be the same as that of the letterpress printing surface), the printing cylinder 1 rotates clockwise and at the same linear speed by the action of the paper sheet, and ensures that the letterpress surface and the paper 5 roll purely. When the feed roller 4 moves to the feed roller lower position a, the second color printing is completed. The paper brake 6 is then released and the wrapping machine can pull the paper 5 forward one step.

When the printing cylinder 1 is close to the second printing cylinder 8, the first printing cylinder 2 rotates in coordination with the action of the first inking mechanism 3, and inking work on the first printing cylinder 2 is completed. The linear velocity of the letterpress printing surface on the first printing cylinder 2 is the same as the linear velocity of the anilox roller on the first inking mechanism 3. When the printing cylinder 1 is close to the first printing cylinder 2, the second printing cylinder 8 rotates in coordination with the action of the second inking mechanism 7, and inking work on the second printing cylinder 8 is completed. The linear velocity of the letterpress printing surface on the second printing cylinder 8 is the same as the linear velocity of the anilox roller on the second inking mechanism 7.

The online double-color printing of the paper when the traction mechanism of the packaging machine stops can be realized by repeating the above actions.

In this embodiment, the paper feed roller 4 reciprocates up and down within one cycle, and the paper 5 completes two printing operations, thereby achieving high working efficiency. And through the setting of the upper position B of the paper feeding roller and the lower position A of the paper feeding roller, the two times of printing are all directed at the same packaging page, the positions of the two times of printing in the length direction of the paper can be conveniently finely adjusted, and the color register and the plate aligning precision are high.

According to different printing conditions, the working cycle of the paper feeding roller 4 can also be started from the upper position B of the paper feeding roller, and the action steps and the movement directions of the associated pieces are correspondingly adjusted.

In the embodiment, the printing cylinders 1 can move relative to the two printing cylinders respectively; the printing device can also be realized by the structure of the embodiment 3, namely, the position of the printing cylinder 1 is fixed, the first printing cylinder 2 and the second printing cylinder 8 are arranged on the frame of the printing machine through the printing cylinder swinging mechanism, and the two printing cylinders swing relative to the printing cylinder 1; for details, please refer to embodiment 3, which is not described herein.

Example 2

As shown in fig. 3, this embodiment is substantially the same as embodiment 1 except that:

the printing machine also comprises an adjusting roller 13 as one of the conveying rollers of the paper 5, the adjusting roller can move relative to the printing cylinder 1, the distance between the adjusting roller and the printing cylinder 1 is adjusted, the paper winding length between the printing cylinder and the tangent points J, K of the two printing cylinders during double-color printing is adjusted, the retention time after printing can be increased, the ink drying is ensured, and the pollution to the printing machine or the paper caused by the undried printing ink is avoided.

The paper winding length between the tangent points J, K of the printing cylinder 1 and the two printing cylinders is nH, n is an integer which is more than or equal to 1, H is the moving step length of the traction equipment, the distance between the A position and the B position of the paper feeding roller 4 is L/2 (namely, the distance between the first position and the second position is L/2), L is the length of one printing layout, the paper winding length between the tangent points J, K of the printing cylinder 1 and the two printing cylinders is specifically the tangent point J of the printing cylinder 1 and the first printing cylinder 2 when the first color printing is performed, the tangent point K of the printing cylinder 1 and the second printing cylinder 8 when the second color printing is performed, and the paper winding length from the J point to the K point according to the paper advancing direction.

In order to improve the color register accuracy, the printing press further includes a color patch reading device 14 moving along with the adjusting roller 13, and configured to read a positioning color patch printed on the paper 5 during printing of the first color, so as to obtain a positioning color patch offset β (i.e., the positioning color patch during printing of the first color is read by the color patch reading device, a distance covered by the positioning color patch when the paper stops moving and is equal to a set distance difference, for example, 3mm stops after the color patch is set, 3.5mm stops when the paper actually reads the color patch, and β -3.5-3-0.5 mm), and correct the start point position of the second printing cylinder 8, so as to eliminate the color register error caused by the traction step error and the accumulated error of the paper tension change.

The correcting of the print start point position of the second printing cylinder 8 specifically includes:

according to the formula

Calculating a correction angle α of the second printing cylinder 8, wherein α is the correction angle of the second printing cylinder 8, β is the positioning color block offset, pi is the circumferential rate, and F is the outer diameter of the second printing cylinder 8;

the second print cylinder 8 rotates clockwise or counter-clockwise by the correction angle α.

As shown in fig. 4, the adjusting roller 13 and the color mark reader 14 are both mounted on a slider 28 that is movable relative to the printing cylinder 1, and the slider is connected to a power mechanism through a screw nut mechanism 29 and a conveyor belt 30 in order to move the adjusting roller 13 and the color mark reader 14 relative to the printing cylinder 1.

The end of the printing cylinder swing arm 10 is also provided with a reset mechanism 12 which can move relative to the printing cylinder swing arm 10. The reset mechanism comprises a reset block 12-1 and a power device 12-2 (a cylinder and a transmission mechanism, which are only shown schematically in the figure) for driving the reset block 12-1 to do reciprocating motion, wherein a limit arm 12-3 is integrally processed on the reset block 12-1, and the limit arm 12-3 and the reset block 12-1 jointly act on the end part of the printing roller rocker arm 10 to realize that the printing roller 1 is reset to the middle position and is separated from the contact with two printing rollers.

The printing cylinder 1 can be set to the middle stop position through the reset mechanism 12, after the printing machine finishes printing twice (at the moment, the printing cylinder 1 leans against the second printing cylinder on the left side), the reset mechanism 12 moves towards the end part of the printing cylinder rocker arm 10, the limit arm 12-3 and the reset block 12-1 jointly act on the end part of the printing cylinder rocker arm 10, and when the paper brake mechanism 6 is released, the printing cylinder 1 resets to the middle position and is not in contact with the printing cylinders on the two sides. Therefore, the first printing roller 2 and the second printing roller 8 can perform inking work, and the running efficiency of the whole machine can be improved.

In the embodiment, the printing cylinders 1 can move relative to the two printing cylinders respectively; the printing device can also be realized by the structure of the embodiment 3, namely, the position of the printing cylinder 1 is fixed, the first printing cylinder 2 and the second printing cylinder 8 are arranged on the frame of the printing machine through the printing cylinder swinging mechanism, and the two printing cylinders swing relative to the printing cylinder 1; for details, please refer to embodiment 3, which is not described herein.

Example 3

As shown in fig. 5, this embodiment is substantially the same as embodiment 2 except that:

in example 2, the relative movement between the printing cylinder 1 and the two printing cylinders (first printing cylinder and second printing cylinder) is achieved by the oscillation of the printing cylinder 1 (both printing cylinders are stationary); in this embodiment, the printing cylinder 1 is fixed in position, and the first printing cylinder 2 and the second printing cylinder 8 are arranged on the printing machine frame through the printing cylinder swinging mechanism, so that the two printing cylinders swing relative to the printing cylinder 1. Except the function that can realize embodiment 2 (certainly, because the printing cylinder is fixed, need not to realize the printing cylinder reset function), this embodiment can also realize that first printing cylinder 2 and second printing cylinder 8 laminate with printing cylinder 1 simultaneously, realizes synchronous double-colored printing, improves printing efficiency greatly, has effectively reduced the error that paper tension change produced simultaneously, and the register precision is high.

The first printing cylinder 2 and the second printing cylinder 8 are respectively arranged on a printing machine frame through respective printing cylinder swinging mechanisms; the printing cylinder swing mechanism comprises a printing cylinder rocker arm 31 which is rotatably arranged on the frame of the printing machine, the first printing cylinder 2 or the second printing cylinder 8 is rotatably arranged at one end (can be arranged through a bearing) of the printing cylinder rocker arm 31, and the other end of the printing cylinder rocker arm is connected with a printing cylinder rocker arm cylinder 33 which is used for driving the printing cylinder rocker arm 31 to move so as to realize the swing of the first printing cylinder 2 or the second printing cylinder 8 relative to the printing cylinder 1.

Two adjustable limiting mechanisms 32 are respectively arranged on two sides of the end part of the printing roller rocker arm 31 and used for controlling the swinging amplitude of the printing roller rocker arm 31, so that paper on the printing roller 1 is tightly attached to character plates on the surfaces of the two printing rollers in the printing process. The structure of the adjustable limiting mechanism 32 is completely the same as that of the adjustable limiting mechanism 11, and is not described in detail herein.

When the paper feeding roller 4 moves from the first position to the second position, the first printing roller 2 and the second printing roller 8 are simultaneously attached to the paper on the surface of the printing cylinder 1, the printing cylinder 1 is driven to rotate by the movement of the paper 5, and then the first printing roller 2 and the second printing roller 8 perform opposite rolling movement to respectively realize first color printing and second color printing, wherein printing layouts of the first color printing and the second color printing are completely overlapped; when the two printing cylinders release the paper on the surface of the printing cylinder 1, the paper feeding roller 4 moves from the second position to the first position and resets; the first printing roller 2 rotates by matching with the action of the first inking mechanism 3 to finish the inking work of the first printing roller 2; the second printing roller 8 rotates by matching with the action of the second inking mechanism 7, and inking work on the second printing roller 8 is completed; the linear velocities of the letterpress printing surfaces on the two printing cylinders are respectively the same as the linear velocities of the anilox rollers on the corresponding inking mechanisms.

Example 4

The structure of the present embodiment is basically the same as that of embodiment 3, except that:

the adjusting roller 13, the color code reading device 14, the slide block 28, the screw and nut mechanism 29, the conveyor belt 30 and the power mechanism are omitted; the printing length of the first color printing reaches

At the same time, the initial printing point of the printing plate on the second printing cylinder 8 is in contact with the sheet 5 carried on the printing cylinder 1, so as to ensure the printing of the first colour andthe printing plates of the second color printing are completely overlapped; where pi is the circumferential ratio, D is the outer diameter of the printing cylinder 1, and θ is the central angle corresponding to the arc segment between the printing cylinder 1 and the point J, K of tangency between the two printing cylinders, respectively, when performing the two-color printing.

Claims (14)

1. The utility model provides a with step-by-step pulling equipment supporting double-colored cylinder printing machine of fixed step length which characterized in that includes:

a guiding device for guiding the paper (5) to move when the paper (5) is drawn by the drawing device to step;

a first printing cylinder (2);

a second printing cylinder (8);

the printing cylinder (1) is positioned between the two printing cylinders and can move relative to the two printing cylinders respectively;

the paper feeding roller (4) moves between a first position and a second position in the stepping intermittence period of the traction equipment to drive the paper (5) to do reciprocating motion.

2. The double-color cylinder printing machine matched with the step-by-step traction equipment with fixed step length according to claim 1, characterized in that: the printing machine further comprises a printing cylinder rocker arm (10) which is rotatably arranged on the machine frame of the printing machine, the printing cylinder (1) is rotatably arranged at one end of the printing cylinder rocker arm (10), and the other end of the printing cylinder rocker arm is connected with a swing arm driving cylinder (9) which is used for driving the printing cylinder to move so as to realize the swinging of the printing cylinder (1) between the two printing cylinders.

3. The double-color cylinder printing machine matched with the step-by-step traction device with fixed step size according to claim 2, characterized in that: two adjustable limit positions (11) are respectively arranged on two sides of the end part of the printing roller rocker arm (10).

4. The double-color cylinder printing machine matched with the step-by-step traction device with fixed step size according to claim 2, characterized in that: the end part of the printing cylinder rocker arm (10) is also provided with a resetting mechanism (12) which can move relative to the printing cylinder rocker arm (10) to force the printing cylinder rocker arm to reset and is separated from the two printing cylinders.

5. The double-color cylinder printing machine matched with the step-by-step traction equipment with fixed step length according to claim 1, characterized in that: the first printing roller (2) and the second printing roller (8) are both arranged on a printing machine frame through a printing roller swinging mechanism; the printing cylinder swing mechanism comprises a printing cylinder rocker arm (31) which is rotatably arranged on a machine frame of the printing machine, the first printing cylinder (2) or the second printing cylinder (8) is rotatably arranged at one end of the printing cylinder rocker arm (31), and the other end of the printing cylinder rocker arm is connected with a printing cylinder rocker arm cylinder (33) which is used for driving the first printing cylinder (2) or the second printing cylinder (8) to swing relative to the printing cylinder (1).

6. The double-color cylinder printing press matched with the step-by-step traction equipment with fixed step length according to claim 5, wherein: and two adjustable limiting mechanisms (32) are respectively arranged on two sides of the end part of the printing roller rocker arm (31).

7. The double-color cylinder printing machine matched with the step-by-step traction equipment with fixed step length according to claim 1, characterized in that: when the paper feeding roller (4) moves from the first position to the second position, the printing cylinder (1) is attached to the surface of the first printing cylinder (2), the printing cylinder (1) is driven to rotate by the movement of the paper (5), and then the paper feeding roller and the first printing cylinder (2) perform opposite rolling movement to realize first color printing; when the paper feeding roller (4) moves from the second position to the first position, the printing cylinder (1) is attached to the surface of the second printing cylinder (8), the paper (5) is used for driving the printing cylinder (1) to rotate, and then the printing cylinder and the second printing cylinder (8) perform opposite rolling movement to realize second color printing, and printing layouts of the first color printing and the second color printing are completely overlapped.

8. The double-color cylinder printing machine matched with the step-by-step traction equipment with fixed step length according to claim 1, characterized in that: when the paper feeding roller (4) moves from the first position to the second position, the two printing rollers are simultaneously attached to the paper on the surface of the printing roller (1), the printing roller (1) is driven to rotate by the movement of the paper (5), and then the paper and the two printing rollers are in opposite rolling movement to respectively realize first color printing and second color printing, wherein the printing layouts of the first color printing and the second color printing are completely overlapped; when the two printing cylinders throw off the paper on the surface of the printing cylinder (1), the paper feeding roller (4) moves from the second position to the first position.

9. The double-color cylinder printing press matched with the step-by-step traction device with fixed step size according to claim 8, wherein: the printing length of the first color printing reaches

When the double-color printing is carried out, the initial printing point of the printing plate on the second printing cylinder (8) is in contact with the paper (5) borne on the printing cylinder (1), pi is the circumferential ratio, D is the outer diameter of the printing cylinder (1), and theta is the central angle corresponding to the arc segment between the printing cylinder (1) and the tangent point J, K of the two printing cylinders respectively when the double-color printing is carried out.

10. The double-color cylinder printing machine matched with the step-by-step traction equipment with fixed step length according to claim 1, characterized in that: the distance between the first position and the second position is

L is the length of a printing plate, pi is the circumferential ratio, D is the outer diameter of the printing cylinder (1), and theta is the central angle corresponding to the arc segment between the printing cylinder (1) and the tangent point J, K of the two printing cylinders when the bicolor printing is carried out.

11. The double-color cylinder printing machine matched with the step-by-step traction equipment with fixed step length according to claim 1, characterized in that: the printing press also comprises an adjusting roller (13) as one of the transport rollers of the sheets (5), which adjusting roller is movable relative to the printing cylinder (1).

12. The double-color cylinder printing machine matched with the step-by-step tractor with the fixed step length is characterized in that the paper winding length between the printing cylinder (1) and the tangent point J, K of the two printing cylinders is nH when double-color printing is carried out, n is an integer which is greater than or equal to 1, H is the moving step length of the tractor, the distance between the first position and the second position of the paper feeding roller (4) is L/2, and L is the length of one printing page.

13. The double-color cylinder printing press with a fixed step size stepping traction device according to claim 11, wherein: the machine also comprises a patch reading device (14) moving with the adjustment roller (13) for reading the positioning patches printed on the sheet (5) during printing of the first colour.

14. The double-color cylinder printing machine matched with the step-by-step traction equipment with fixed step length according to claim 1, characterized in that: the printing press further comprises a first inking mechanism (3) arranged in cooperation with the first printing cylinder (2) and a second inking mechanism (7) arranged in cooperation with the second printing cylinder (8); the first inking mechanism and the second inking mechanism can respectively swing relative to the first printing cylinder and the second printing cylinder, so that the first inking mechanism (3) abuts against the first printing cylinder (2) and moves in a rolling manner, and the second inking mechanism (7) abuts against the second printing cylinder (8) and moves in a rolling manner, so that inking is realized;

the guide device includes: a first guide roller group for guiding the paper to be printed to the first color printing area, wherein a paper brake (6) is arranged at the paper feeding end of the first guide roller group; guiding the paper after the second color printing to a second guide roller group of the traction equipment, wherein a paper brake (6) is arranged at the paper outlet end of the second guide roller group;

the paper (5) is drawn by the packaging machine to run synchronously.

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