CN115447271B - Energy-saving and environment-friendly cigarette packaging printing equipment - Google Patents

Abstract

The invention provides energy-saving and environment-friendly cigarette package printing equipment, which comprises a blanking part for placing hot stamping paper, wherein the blanking part comprises a mounting shaft rotatably mounted on a first turntable; the recycling part is used for recycling the hot stamping paper subjected to hot stamping and comprises a recycling cylinder rotatably arranged on the second turntable; the clamping assembly is used for clamping the end part of the hot stamping paper; a pulling portion for connecting the thermo-printing paper to the recycling portion; a control section for controlling the mounting shaft, the lead-out section, and the traction section; by arranging the clamping assembly, the end part of the new hot stamping paper is automatically clamped and pulled to be fixed on the recovery cylinder, so that the function of automatically installing the new hot stamping paper is realized, the hot stamping paper is not required to be manually installed, and the working efficiency is improved; and after the thermoprinting paper is installed, the clamping assembly automatically loosens the thermoprinting paper, so that the motion of the thermoprinting paper is not influenced, and the thermoprinting work is ensured to be smoothly carried out.

Description

Energy-saving and environment-friendly cigarette packaging printing equipment

Technical Field

The invention relates to the technical field of package printing, in particular to energy-saving and environment-friendly cigarette package printing equipment.

Background

The printing technology of cigarette package generally comprises the procedures of uncoiling, printing, slitting, post-printing processing, boxing and the like, wherein the post-printing processing mainly refers to die cutting, concave-convex, gold stamping and the like, and the gold stamping work is mainly operated by adopting a thermoprinting machine.

Chinese patent CN 110497688A discloses a gilding press. The automatic stamping machine comprises a discharging roller and a receiving roller which are connected with a stamping film, wherein the stamping roller for pressing the stamping film is arranged between the discharging roller and the receiving roller, the automatic stamping machine also comprises an embossing roller which is tangentially arranged with the stamping roller and used for conveying printing stock, a section from a discharge hole between the stamping roller and the embossing roller to the stamping film of the receiving roller is a common transmission section, and the common transmission section is formed by taking the discharge hole as a starting point and adhering the printing stock on the stamping film of the common transmission section; the gilding film of adhesion stock on the common transmission section can cool down, ensures that gilding pattern is fixed on the surface of stock well in the cooling process, so can ensure that gilding pattern can be complete the adhesion on the surface of stock, and separation layer on the rethread gilding film separates stock and gilding film after the cooling, and then the stock is collected again.

However, this technical solution still has some problems, the thermoprinting machine intermittently and continuously moves from the lower part of the printing head in the assembly line work engineering, the printing head intermittently moves downwards, the pattern on the thermoprinting paper is printed on the tobacco bale, the existing thermoprinting paper is generally wound on the roller, the end part of the thermoprinting paper is fixed on another recycling cylinder, the thermoprinting paper can be driven to continuously pass from the lower part of the printing head by rotating the roller, and the abandoned part of the thermoprinting paper which is finished in the thermoprinting paper is wound on the recycling cylinder, so as to recycle the thermoprinting paper, in order to avoid the scattering of the thermoprinting paper, the end part of the new thermoprinting paper is generally clung to the paper cylinder, when the new thermoprinting paper is replaced, the end part of the thermoprinting paper needs to be torn off and then fixed on the recycling cylinder, the manual operation is time-consuming and labor-consuming, the working efficiency is low, and the thermoprinting paper is not suitable for automatic production, but the structure of the mechanical hand is complex, the use and maintenance cost is high, so that most manufacturers still adopt manual operation methods and the technical solutions are not effective.

Disclosure of Invention

The invention aims at overcoming the defects of the prior art, and provides energy-saving and environment-friendly cigarette package printing equipment, which is used for automatically completing the installation work of the hot stamping paper by scraping, clamping and operating the end part of the new hot stamping paper through arranging a clamping assembly, and realizing the function of automatically replacing the hot stamping paper by matching with the rotation of a first rotating disc and a second rotating disc, thereby improving the working efficiency, and solving the problems of manual replacement of the hot stamping paper and low working efficiency when the cigarette pack is hot stamped.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides an energy-concerving and environment-protective cigarette packaging lithography apparatus, includes thermoprint machine main part, be equipped with the print head that is used for carrying out thermoprint in the thermoprint machine main part, still include:

the blanking part is used for placing the hot stamping paper and comprises a first turntable rotatably arranged on the main body of the hot stamping machine, and a mounting shaft which is uniformly distributed in a ring shape and used for mounting the hot stamping paper is rotatably arranged on the first turntable;

the recycling part is used for recycling the hot stamping paper subjected to hot stamping and comprises a second turntable rotatably arranged on the main body of the hot stamping machine, and recycling cylinders which are uniformly distributed in a ring shape and used for rolling up the hot stamping paper are rotatably arranged on the second turntable;

the guiding-out part is used for taking out the hot stamping paper in the blanking part and comprises a clamping assembly movably arranged on the hot stamping machine body and used for clamping the end part of the hot stamping paper;

a traction part for connecting the hot stamping paper in the blanking part to the recovery part, wherein the traction part comprises a rotating shaft rotatably installed on the hot stamping machine main body, and the rotating shaft is used for moving the clamping assembly from the installation shaft position to the recovery cylinder position;

a control part for controlling the mounting shaft, the lead-out part and the traction part, the control part comprising a rotatable driving shaft slidably mounted on the thermoprinting machine body, and

the fixing part is used for fixing the hot stamping paper in the recovery part and comprises an adhesive head which is arranged on the hot stamping machine body and used for fixing the end part of the hot stamping paper on the recovery cylinder.

Specifically, a conveying belt for conveying the tobacco packages is arranged in the thermoprinting machine main body, and the conveying belt is positioned below the printing head; the thermoprinting machine comprises a thermoprinting machine main body, a rotary table I and a rotary table II, wherein the rotary table I and the rotary table II are both rotatably arranged on the main seat, a printing head is arranged in the main seat, a through hole corresponding to the printing head is formed in the bottom of the main seat, a support is fixedly arranged in the main seat, a driving shaft is rotatably arranged on the support, and the driving shaft can slide back and forth along a Z axis on the support;

the fixing part can adopt an automatic labeling machine device or an automatic nailing machine, namely a device capable of automatically fixing the hot stamping paper on the recovery cylinder, and correspondingly, the sticking head is a sticking head in the automatic labeling machine or a nailing gun head in the automatic nailing machine;

the method comprises the steps that a paper cylinder filled with hot stamping paper is sleeved on a mounting shaft, when new hot stamping paper is replaced, a rotary table is started to rotate, so that the mounting shaft filled with the new hot stamping paper rotates to the bottom, the hot stamping paper at the bottom is contacted with a clamping assembly, the end part of the hot stamping paper is clamped by the clamping assembly, then the rotary shaft is started to rotate, the clamping assembly is driven to rotate to the position of a recovery cylinder by the rotary shaft, the hot stamping paper on the mounting shaft at the bottom is pulled out and attached to the recovery cylinder, a sticking head is started, the end part of the hot stamping paper is fixed on the recovery cylinder, and then the recovery cylinder is started to rotate to tighten the hot stamping paper, so that the installation work of the hot stamping paper is completed;

when the cigarette packet is printed, the printing head is started to move downwards, the pattern on the hot stamping paper is hot stamped on the cigarette packet, the recovery cylinder at the bottom is started to rotate, the hot stamping paper can be pulled to move continuously, and the printing head can continuously carry out hot stamping work;

when the hot stamping paper on the bottom end installation shaft is used, the first rotary table and the second rotary table are started to rotate, the first rotary table transfers the new hot stamping paper to the bottom end for use, and meanwhile, the second rotary table transfers the new recovery cylinder to the bottom end for hot stamping paper recovery, and the continuous hot stamping work of automatically replacing the hot stamping paper can be realized by repeating the steps.

Preferably, the control unit further includes a switching unit for controlling the drive shaft to move, and the switching unit includes:

the first pinion is fixedly arranged on the mounting shaft and positioned on the back surface of the first turntable;

a second pinion gear fixedly arranged on the rotating shaft,

the main gear I and the main gear II are fixedly arranged at two ends of the driving shaft and respectively meshed with the auxiliary gear I and the auxiliary gear II for transmission, and the main gear I is staggered with the auxiliary gear I and the main gear II is staggered with the auxiliary gear II; and

and the reset piece is arranged on the driving shaft.

Specifically, the mounting shaft penetrates to the back of the first turntable; the driving shaft is positioned between the first auxiliary gear and the second auxiliary gear; in the initial state, the primary gear I is not contacted with the secondary gear I, and meanwhile, the primary gear II is not contacted with the secondary gear II; the reset piece can be a spring piece;

the second main gear and the second auxiliary gear can be driven through a speed regulation gear assembly.

As still another preferred aspect, the switching assembly further includes:

inclined plane rings respectively fixed on the first main gear and the second main gear, and the two inclined plane rings are staggered; and

two compression bars which are fixedly arranged on the thermoprinting machine main body and used for extruding the inclined plane ring to move.

Specifically, the compression bar is fixedly arranged on the bracket, inclined planes matched with the compression bar are arranged on the inclined plane rings, in an initial state, the two inclined plane rings are not contacted with the compression bar, and the driving shaft is fixed under the action of the resetting piece and is not contacted with the first auxiliary gear and the second auxiliary gear;

in the process of rotating the driving shaft, the two bevel rings are sequentially contacted with the compression bar and extruded by the compression bar to move, so that the driving shaft is driven to slide back and forth along the Z axis.

Preferably, the guiding-out part further comprises two support plates fixedly arranged on the rotating shaft; the support plate is positioned on the outer side of the hot stamping paper.

Specifically, the support plate can not touch the hot stamping paper in the process that the support plate is driven to rotate by the rotating shaft.

As still another preferred, the clamping assembly includes:

a scraping plate rotatably installed on the support plate and used for scraping the end part of the hot stamping paper;

the arc-shaped sliding rail is arranged on the supporting plate and used for guiding the scraping plate; and

and a clamping plate which is slidably arranged on the supporting plate and is used for clamping the end part of the hot stamping paper.

Specifically, the through hole corresponding to the support plate and the clamping assembly is formed in the bottom of the main seat, the scraping plate moves along the arc-shaped sliding rail, and the scraping plate and the hot stamping paper on the mounting shaft rotate relatively.

Preferably, the control unit further includes a paper scraping unit for controlling the rotation of the blade, the paper scraping unit including:

the driven rod is arranged on the scraping plate and positioned at the outer side of the support plate;

the top plate is slidably arranged on the support plate and used for pushing the driven rod, and a first push straight key switch is arranged on the top plate;

the groove is arranged on the primary gear I and used for extruding the top plate to move, and a slope corresponding to the groove is arranged at the bottom of the top plate; and

and the elastic pressing strip is fixedly arranged on the thermoprinting machine main body and positioned below the top plate.

Specifically, the elastic pressing strip is an elastic plastic plate or an elastic metal sheet with the functions of elastic deformation and automatic recovery of deformation after being pressed; the elastic pressing strip is arranged in the main seat;

the function of pressing the straight key switch is to move downwards and lock after being pressed, and pop outwards after being pressed again; by setting the first push-button switch, the top plate can be kept fixed before and after moving.

As still another preferred aspect, the control part further includes a fastening assembly for controlling the movement of the clamping plate, the fastening assembly including:

a pressing straight key switch II arranged on the clamping plate; and

two groups of pressing plates are arranged on the thermoprinting machine main body and used for extruding the clamping plates, and the pressing plates are of a unidirectional rotation structure.

Specifically, the rotatable directions of the left and right groups of pressing plates are opposite; the clamping plate can be kept fixed before and after moving by arranging the pressing straight key switch II;

when the hot stamping paper is replaced, the driving shaft is started to rotate, in the rotating process of the driving shaft, firstly, the inclined plane ring on the second main gear is contacted with the pressing rod to drive the driving shaft to move forward along the Z axis, so that the first main gear is contacted with the first auxiliary gear and meshed with the first auxiliary gear, the driving shaft drives the mounting shaft at the bottom end to rotate through the first main gear, and meanwhile, the first main gear moving forward along the Z axis extrudes the top plate to move upwards through the groove, and the top plate drives the driven rod and the scraping plate to rotate along the arc-shaped sliding rail, so that the scraping plate stably abuts against the hot stamping paper;

in the process of rotating the hot stamping paper at the bottom end, the end part of the hot stamping paper contacts with the scraping plate and is scraped off, so that the hot stamping paper is inserted between the scraping plate and the clamping plate;

along with the continuous rotation of the driving shaft, the inclined plane ring on the second main gear is separated from the pressing rod, and the inclined plane ring on the first main gear is contacted with the pressing rod to drive the driving shaft to move along the negative direction of the Z axis, so that the second main gear is in contact engagement with the second auxiliary gear, and the driving shaft drives the rotating shaft to rotate through the second main gear;

after the rotating shaft drives the support plate to rotate, the clamping plate is extruded by the pressing plate and moves along the X-axis in the negative direction, so that the end part of the hot stamping paper is clamped together with the scraping plate;

along with the continuous rotation of the rotating shaft, the clamping assembly pulls the hot stamping paper out of the mounting shaft at the bottom end of the left side, passes through the lower part of the printing head and then is attached to the recovery cylinder at the bottom end of the right side;

starting a fixing part to fix the end part of the hot stamping paper on the recovery cylinder;

starting the driving shaft to rotate, and driving the rotating shaft and the clamping assembly to rotate; in the process that the support plate moves back to the left side, the clamping plate is extruded by the pressing plate on the right side and is far away from the scraping plate; the top plate is separated after being contacted with the elastic pressing strip, and the top plate is extruded to move downwards when being contacted with the elastic pressing strip, so that the scraping plate is driven to reset, and the reset scraping plate is far away from the hot stamping paper on the mounting shaft, so that the influence on the movement of the hot stamping paper is avoided; so, splint reset the back, scraper blade and splint also automatic re-setting have realized the clamping assembly and have kept away from the function of thermoprint paper voluntarily.

Preferably, the discharging part and the recycling part are respectively positioned at two sides above the printing head, and the rotating shaft is positioned above the printing head.

Specifically, the rotating shaft drives the support plate and the clamping assembly to rotate, and the support plate and the clamping assembly drive the hot stamping paper to pass through the lower part of the printing head smoothly in the process of pulling the hot stamping paper out of the mounting shaft onto the recovery cylinder.

As still another preferred aspect, the recovery unit further includes:

the driven gear is fixedly arranged on the recovery cylinder and positioned on the back surface of the rotary table II; and

the driving gear is arranged on the thermoprinting machine main body and used for driving the recycling bin to rotate, and the driving gear and the driven gear form a unidirectional rotation structure.

Specifically, after fixing the tip of new thermoprint paper on the recovery section of thick bamboo, when carrying out thermoprint to the tobacco bale, start driving gear rotatory, driving gear drives the recovery section of thick bamboo of bottom rotatory to with the epaxial thermoprint paper of installation of bottom continuous pull out, so as to continuously carry out thermoprint work.

Preferably, the guiding-out part further comprises two guiding wheels movably mounted on the thermoprinting machine body and used for guiding thermoprinting paper, the guiding wheels are located on the outer side of the printing head, and the guiding wheels are located in the clamping assembly.

Specifically, in the initial state, the two guide wheels are in an inward contracted state so as to avoid blocking the rotation of the clamping assembly;

after the clamping assembly installs new thermoprint paper on the recovery cylinder and resets, start two leading wheels and outwards remove, support thermoprint paper through the leading wheel for thermoprint paper is taut, can improve thermoprint paper's roughness, also can make thermoprint paper stable pass through below the printhead, helps improving thermoprint effect.

The invention has the beneficial effects that:

(1) According to the invention, the clamping assembly is arranged, so that the end part of the new hot stamping paper is automatically clamped and pulled to the recovery cylinder to be fixed, the function of automatically installing the new hot stamping paper is realized, the hot stamping paper is not required to be installed manually, and the working efficiency is improved; and after the thermoprinting paper is installed, the clamping assembly automatically loosens the thermoprinting paper, so that the motion of the thermoprinting paper is not influenced, and the thermoprinting work is ensured to be smoothly carried out.

(2) According to the invention, the paper cylinders for receiving the waste thermoprinting paper are correspondingly arranged on the first turntable, the second turntable and the first turntable are rotated after the use of one group of thermoprinting paper is finished, so that the next new thermoprinting paper can be automatically installed, the thermoprinting paper can be automatically replaced under the condition of no shutdown, and the working efficiency is high.

(3) According to the invention, the driving shaft and the switching assembly are arranged, so that the driving shaft automatically and sequentially drives the paper cylinder and the rotating shaft of the hot stamping paper to rotate in the rotating process, the end part of the hot stamping paper can be inserted into the clamping assembly to be clamped after the paper cylinder rotates, and the rotating shaft rotates to drive the end part of the hot stamping paper to move to the position of the recovery cylinder, so that the hot stamping paper recycling device is simple in structure and convenient to use.

(4) According to the invention, the paper scraping assembly and the fastening assembly are arranged, the clamping assembly automatically scrapes and clamps the end part of the hot stamping paper in the rotation process of the driving shaft, and after the hot stamping paper is installed, the clamping assembly can automatically loosen the hot stamping paper, so that the structure is simple, and the use is convenient.

(5) According to the invention, by arranging the single driving shaft, the end part scraping, end part clamping and end part operation of the hot stamping paper to the recovery cylinder can be automatically completed, so that the hot stamping paper recycling device is suitable for automatic assembly line production, improves the working efficiency, and omits the trouble of installing too many electric driving mechanisms, and has the advantages of simple structure, energy conservation, environmental protection and low use cost.

In conclusion, the automatic hot stamping paper mounting and replacing device has the advantages of being high in automation degree, simple in structure, low in use cost and the like.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the mounting structure of the discharging part, the recycling part and the main seat of the present invention;

FIG. 3 is a schematic diagram of the cooperation structure of the discharging part and the recycling part of the present invention;

FIG. 4 is a schematic diagram of a switching assembly according to the present invention;

FIG. 5 is a schematic diagram of the clamping assembly of the present invention;

FIG. 6 is a schematic view of a clamping assembly and a stamping paper in an initial state of the present invention;

FIG. 7 is a schematic view of a clamping plate and fastening assembly of the present invention;

FIG. 8 is a schematic diagram of a switching assembly and a spindle according to the present invention;

FIG. 9 is a schematic view of a beveled ring and a plunger of the present invention;

FIG. 10 is a schematic view of a clamping assembly and a stamping paper in a clamped state according to the present invention;

FIG. 11 is a schematic rear view of the recovery section of the present invention;

fig. 12 is a bottom view schematically showing the structure of the main seat of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Example 1

As shown in fig. 1-12, the embodiment provides an energy-saving and environment-friendly cigarette package printing apparatus, which comprises a thermoprinting machine main body 1, wherein a printing head 101 for thermoprinting is arranged in the thermoprinting machine main body 1, and the apparatus further comprises:

the blanking part 2 for placing the hot stamping paper comprises a first turntable 21 rotatably arranged on the main body 1 of the hot stamping machine, and a mounting shaft 22 which is uniformly distributed in a ring shape and used for mounting the hot stamping paper is rotatably arranged on the first turntable 21;

the recycling part 3 is used for recycling the hot stamping paper subjected to hot stamping, the recycling part 3 comprises a second turntable 31 rotatably arranged on the main body 1 of the hot stamping machine, and recycling drums 32 which are uniformly distributed in a ring shape and used for rolling up the hot stamping paper are rotatably arranged on the second turntable 31;

a guiding-out part 4 for taking out the hot stamping paper in the blanking part 2, wherein the guiding-out part 4 comprises a clamping component 41 movably installed on the hot stamping machine main body 1 and used for clamping the end part of the hot stamping paper;

a traction part 5 for connecting the hot stamping paper in the blanking part 2 to the recovery part 3, wherein the traction part 5 comprises a rotating shaft 51 rotatably installed on the hot stamping machine main body 1, and the rotating shaft 51 is used for moving the clamping assembly 41 from the installation shaft 22 position to the recovery cylinder 32 position;

a control part 6 for controlling the mounting shaft 22, the lead-out part 4 and the drawing part 5, the control part 6 including a driving shaft 61 slidably mounted on the thermoprinting machine body 1 and rotatable, and

a fixing part 7 for fixing the thermal printing paper in the recovery part 3, the fixing part 7 including an adhesive head 71 mounted on the thermal printer body 1 for fixing an end of the thermal printing paper on the recovery cylinder 32.

Specifically, a conveying belt for conveying the tobacco packages is arranged in the thermoprinting machine main body 1, and the conveying belt is positioned below the printing head 101; the thermoprinting machine comprises a thermoprinting machine main body 1, a main seat 102, a rotary table I21 and a rotary table II 31, wherein the rotary table I21 and the rotary table II 31 are both rotatably arranged on the main seat 102, a printing head 101 is arranged in the main seat 102, a through hole corresponding to the printing head 101 is formed in the bottom of the main seat 102, a support 103 is fixedly arranged in the main seat 102, a driving shaft 61 is rotatably arranged on the support 103, and the driving shaft 61 can slide back and forth along a Z axis on the support 103;

the fixing part 7 can adopt a device capable of automatically fixing the hot stamping paper on the recovery cylinder 32, such as an automatic labeling machine device or an automatic nailing machine, and correspondingly, the sticking head 71 is a labeling head in the automatic labeling machine or a nailing gun head in the automatic nailing machine;

the paper cylinder filled with the hot stamping paper is sleeved on the installation shaft 22, when the new hot stamping paper is replaced, the first rotary table 21 is started to rotate, so that the installation shaft 22 filled with the new hot stamping paper is rotated to the bottom, the hot stamping paper at the bottom end is contacted with the clamping component 41, the end part of the hot stamping paper is clamped by the clamping component 41, then the rotary shaft 51 is started to rotate, the rotary shaft 51 drives the clamping component 41 to rotate to the position of the recovery cylinder 32, the hot stamping paper on the installation shaft 22 at the bottom end is pulled out and stuck on the recovery cylinder 32, then the sticking head 71 is started to fix the end part of the hot stamping paper on the recovery cylinder 32, and then the recovery cylinder 32 is started to rotate to tighten the hot stamping paper, so that the installation work of the hot stamping paper is completed;

when the cigarette packet is printed, the printing head 101 is started to move downwards, patterns on the hot stamping paper are hot stamped on the cigarette packet, the recovery cylinder 32 at the bottom is started to rotate, the hot stamping paper can be pulled to move continuously, and the printing head 101 can continuously carry out hot stamping work;

when the hot stamping paper on the bottom end mounting shaft 22 is used, the first rotary table 21 and the second rotary table 31 are started to rotate, the first rotary table 21 transfers new hot stamping paper to the bottom end for use, and meanwhile, the second rotary table 31 transfers the new recycling bin 32 to the bottom end for hot stamping paper recycling, and the continuous hot stamping work of automatically replacing the hot stamping paper can be realized by repeating the steps.

As shown in fig. 3 to 8, the control part 6 further includes a switching assembly 62 for controlling the driving shaft 61 to move, and the switching assembly 62 includes:

a first pinion 621 fixedly provided on the mounting shaft 22 and positioned on the back of the first turntable 21;

a second pinion 622 fixedly provided on the rotating shaft 51,

a first main gear 623 and a second main gear 624 which are fixedly arranged at two ends of the driving shaft 61 and respectively meshed with the first auxiliary gear 621 and the second auxiliary gear 622 for transmission, wherein the first main gear 623 and the first auxiliary gear 621 and the second main gear 624 and the second auxiliary gear 622 are staggered; and

a reset member 625 provided on the drive shaft 61.

Specifically, the mounting shaft 22 penetrates to the back of the first turntable 21; the drive shaft 61 is located between the first 621 and second 622 pinions; in the initial state, the primary gear 623 is not in contact with the secondary gear 621, and the primary gear 624 is not in contact with the secondary gear 622; the reset element 625 may be a spring element;

the transmission between the primary gear two 624 and the secondary gear two 622 can be performed by a speed-adjusting gear assembly 626.

As shown in fig. 9, further, the switching component 62 further includes:

bevel rings 627 which are respectively and fixedly arranged on the first 623 and the second 624 main gears, and the two bevel rings 627 are staggered; and

two pressing rods 628 fixedly arranged on the thermoprinting machine main body 1 and used for pressing the inclined plane ring 627 to move.

Specifically, the compression bar 628 is fixedly installed on the support 103, the inclined plane ring 627 is provided with an inclined plane matched with the compression bar 628, in an initial state, both inclined plane rings 627 are not contacted with the compression bar 628, and the driving shaft 61 is fixed under the action of the reset piece 625 and is not contacted with the first 621 and the second 622 side gears;

during the rotation of the driving shaft 61, the two bevel rings 627 are sequentially contacted with the pressing rod 628 and pressed by the pressing rod 628 to move, so as to drive the driving shaft 61 to slide back and forth along the Z axis.

As shown in fig. 3, the guiding-out part 4 further includes two support plates 42 fixedly provided on the rotating shaft 51; the support plate 42 is positioned outside the hot stamping paper.

Specifically, the support plate 42 will not touch the hot stamping paper in the process of rotating the support plate 42 by the rotating shaft 51.

As shown in fig. 4-10, further, the clamping assembly 41 includes:

a scraper 411 rotatably installed on the support plate 42 for scraping off an end of the thermoprinting paper;

an arc-shaped slide rail 412 provided on the support plate 42 for guiding the scraper 411; and

a clamping plate 413 slidably mounted on the support plate 42 for clamping the end of the thermal printing paper.

Specifically, through holes corresponding to the support plate 42 and the clamping assembly 41 are formed in the bottom of the main seat 102, and the scraping plate 411 moves along the arc-shaped sliding rail 412 to rotate relative to the hot stamping paper on the mounting shaft 22.

As shown in fig. 3 to 5, the control part 6 further includes a paper scraping assembly 63 for controlling the rotation of the scraper 411, and the paper scraping assembly 63 includes:

a driven lever 631 provided on the scraper 411 and located outside the support plate 42;

a top plate 632 slidably mounted on the support plate 42 for pushing the driven lever 631, wherein the top plate 632 is provided with a push-button switch 633;

a groove 634 arranged on the first main gear 623 for pressing the top plate 632 to move, wherein a slope corresponding to the groove 634 is arranged at the bottom of the top plate 632; and

an elastic pressing bar 635 fixedly installed on the thermoprinting machine body 1 and located below the top plate 632.

Specifically, the elastic pressing strip 635 is an elastic plastic plate or an elastic metal sheet with the functions of elastic deformation and automatic recovery of deformation after being pressed; the elastic pressing strip 635 is arranged inside the main seat 102;

the function of pressing the straight key switch is to move downwards and lock after being pressed, and pop outwards after being pressed again; by providing the push-button switch 633, the top plate 632 can be kept stationary both before and after movement.

As shown in fig. 4 to 7, the control part 6 further includes a fastening assembly 64 for controlling the movement of the clamping plate 413, and the fastening assembly 64 includes:

a pressing straight key switch two 641 provided on the clamping plate 413; and

two sets of pressing plates 642 are arranged on the thermoprinting machine main body 1 and used for pressing the clamping plates 413, and the pressing plates 642 are of a unidirectional rotation structure.

Specifically, the rotatable directions of the left and right sets of pressing plates 642 are opposite; by arranging the pressing straight key switch two 641, the clamping plate 413 can be kept fixed before and after moving;

when the hot stamping paper is replaced, the driving shaft 61 is started to rotate, in the process of rotating the driving shaft 61, firstly, the inclined surface ring 627 on the second main gear 624 is contacted with the pressing rod 628 to drive the driving shaft 61 to move forward along the Z axis, so that the first main gear 623 is contacted with the first auxiliary gear 621 and meshed with the first auxiliary gear 621, the driving shaft 61 drives the mounting shaft 22 at the bottom end to rotate through the first main gear 623, meanwhile, the first main gear 623 moving forward along the Z axis extrudes the top plate 632 to move upwards through the groove 634, and the top plate 632 drives the driven rod 631 and the scraping plate 411 to rotate along the arc-shaped sliding rail 412, so that the scraping plate 411 stably abuts against the hot stamping paper;

in the process of rotating the bottom end of the hot stamping paper, the end part of the hot stamping paper is scraped away by contacting with the scraping plate 411, so that the hot stamping paper is inserted between the scraping plate 411 and the clamping plate 413;

as the drive shaft 61 continues to rotate, the bevel ring 627 on the second main gear 624 is separated from the pressing rod 628, and the bevel ring 627 on the first main gear 623 contacts with the pressing rod 628 to drive the drive shaft 61 to move in the negative direction along the Z axis, so that the second main gear 624 is in contact with the second auxiliary gear 622, and the drive shaft 61 drives the rotating shaft 51 to rotate through the second main gear 624, and in fig. 3, the rotating shaft 51 rotates clockwise;

after the rotating shaft 51 drives the support plate 42 to rotate, the clamping plate 413 is pressed by the pressing plate 642 and moves along the X axis in the negative direction, so that the end part of the hot stamping paper is clamped together with the scraping plate 411;

as the rotation shaft 51 continues to rotate, for example, the rotation shaft 51 rotates one hundred eighty degrees, the clamping assembly 41 pulls the thermal printing paper out of the mounting shaft 22 at the bottom end of the left side and passes under the print head 101, and then sticks to the recovery cylinder 32 at the bottom end of the right side;

starting the fixing part 7 to fix the end part of the hot stamping paper on the recovery cylinder 32;

starting the driving shaft 61 to rotate, and driving the rotating shaft 51 and the clamping assembly 41 to rotate; during the back-moving of the support plate 42 to the left, the clamping plate 413 is pressed by the right pressing plate 642 and is far away from the scraping plate 411; the top plate 632 is separated after being contacted with the elastic pressing strip 635, and the top plate 632 is extruded to move downwards when being contacted with the elastic pressing strip 635, so that the scraping plate 411 is driven to reset, and the reset scraping plate 411 is far away from the hot stamping paper on the mounting shaft 22, so that the influence on the motion of the hot stamping paper is avoided; in this way, after the clamping plate 413 is reset, the scraping plate 411 and the clamping plate 413 are also automatically reset, so that the function that the clamping assembly 41 is automatically away from the hot stamping paper is realized.

As shown in fig. 3, the blanking portion 2 and the recovery portion 3 are respectively located at two sides above the print head 101, and the rotating shaft 51 is located above the print head 101.

Specifically, the rotating shaft 51 drives the support plate 42 and the clamping component 41 to rotate, and the support plate 42 and the clamping component 41 drive the hot stamping paper to pass through the lower part of the printing head 101 smoothly in the process of pulling the hot stamping paper out of the mounting shaft 22 onto the recovery cylinder 32.

As shown in fig. 11, the recovery unit 3 further includes:

a driven gear 33 fixedly arranged on the recovery cylinder 32 and positioned on the back surface of the second turntable 31; and

a driving gear 34 provided on the thermoprinting machine main body 1 for driving the recovery cylinder 32 to rotate, the driving gear 34 and the driven gear form a unidirectional rotation structure.

Specifically, after fixing the end of the new thermal printing paper on the recovery cylinder 32, when the tobacco bale is thermally printed, the driving gear 34 is started to rotate, and the driving gear 34 drives the recovery cylinder 32 at the bottom to rotate, so that the thermal printing paper on the installation shaft 22 at the bottom is continuously pulled out, and the thermal printing work is continuously performed.

Example two

As shown in fig. 3, wherein the same or corresponding parts as those in the first embodiment are denoted by the corresponding reference numerals as in the first embodiment, only the points of distinction from the first embodiment will be described below for the sake of brevity. The second embodiment is different from the first embodiment in that:

in this embodiment, the guiding-out portion 4 further includes two guiding wheels 43 movably mounted on the thermoprinting machine body 1 for guiding the thermoprinting paper, the guiding wheels 43 are located at the outer side of the print head 101, and the guiding wheels 43 are located inside the clamping assembly 41.

Specifically, in the initial state, the two guide wheels 43 are in an inwardly contracted state so as not to hinder the rotation of the clamping assembly 41;

after the clamping assembly 41 installs new hot stamping paper on the recovery cylinder 32 and resets, two guide wheels 43 are started to move outwards, the hot stamping paper is supported by the guide wheels 43, so that the hot stamping paper is tensioned, the flatness of the hot stamping paper can be improved, the hot stamping paper can also be enabled to stably pass under the printing head 101, and the hot stamping effect can be improved.

Working procedure

Firstly, placing a cigarette packet on a conveying belt below a printing head 101, and sleeving paper cylinders of hot stamping paper on the mounting shafts 22 of the first rotary table 21; the position of the paper cylinder can be adjusted during installation, so that the end parts of the hot stamping paper are all in fixed positions on the installation shaft 22; ,

step two, starting the rotation of the driving shaft 61, wherein in the process of the rotation of the driving shaft 61, firstly, the inclined surface ring 627 on the main gear II 624 is contacted with the pressing rod 628 to drive the driving shaft 61 to move forward along the Z axis, and in the process, the groove 634 on the main gear I623 is contacted with the top plate 632 and drives the scraping plate 411 to move, so that the top end of the scraping plate 411 is propped against the outer side of the hot stamping paper at the bottom end, and then, the moving main gear I623 is contacted with the auxiliary gear I621 at the bottom end to drive the installation shaft 22 at the bottom end to rotate;

third, after the bottom end of the hot stamping paper rotates along with the installation shaft 22, the end of the hot stamping paper contacts with the scraping plate 411 and is scraped by the scraping plate 411, and the scraped end of the hot stamping paper is inserted between the scraping plate 411 and the clamping plate 413 and extends downwards below the scraping plate 411 and the clamping plate 413;

step four, as the driving shaft 61 continues to rotate, the bevel ring 627 on the second main gear 624 is separated from the pressing rod 628, and the bevel ring 627 on the first main gear 623 contacts with the pressing rod 628 to drive the driving shaft 61 to move negatively along the Z axis, so that the second main gear 624 contacts with the second auxiliary gear 622 to be engaged, and the second gear drives the rotating shaft 51 to rotate clockwise;

fifthly, the support plate 42 contacts with the left pressing plate 642 after rotating along with the rotating shaft 51, and the pressing plate 413 is extruded by the pressing plate 642 and moves along the X axis in the negative direction, so that the end part of the hot stamping paper is clamped together with the scraping plate 411;

step six, along with the continuous rotation of the rotating shaft 51, the end part of the hot stamping paper is pulled out from the mounting shaft 22 at the bottom end of the left side by the clamping component 41, passes through the lower part of the printing head 101, and then is attached to the recovery cylinder 32 at the bottom end of the right side;

step seven, starting a fixing part 7 to fix the end part of the hot stamping paper on the recovery cylinder 32;

step eight, starting the driving shaft 61 to rotate, wherein the driving shaft 61 drives the rotating shaft 51 to rotate and reset, and in the process, the scraping plate 411 and the clamping plate 413 are reset and far away from the hot stamping paper;

step nine, starting the two guide wheels 43 to move outwards, and supporting the hot stamping paper through the guide wheels 43 so as to tighten the hot stamping paper;

step ten, the recycling bin 32 is started to rotate, the hot stamping paper is tensioned, and the step ten and the step nine can be carried out simultaneously, so that the installation work of the new hot stamping paper is completed;

step eleven, starting the recovery cylinder 32 and the printing head 101, wherein the rotation frequency of the recovery cylinder 32 is matched with the movement frequency of the printing head 101, and the printing head 101 can continuously carry out thermoprinting work on the cigarette packet;

step twelve, after the use of the hot stamping paper on the bottom mounting shaft 22 is finished, starting the turntable I21 and the turntable II 31 to rotate by a fixed amplitude, repeating the steps II to tenth, and automatically replacing the hot stamping paper, wherein the used paper cylinder on the mounting shaft 22 can be removed and replaced by a new paper cylinder in the process of replacing the hot stamping paper, and meanwhile, the recycling cylinder 32 rib on the turntable II 31 is replaced, so that the replacement of the hot stamping paper is completed under the condition of no shutdown.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (7)

1. The utility model provides an energy-concerving and environment-protective cigarette packaging lithography apparatus, includes thermoprint machine main part, be equipped with the print head that is used for carrying out thermoprint in the thermoprint machine main part, its characterized in that still includes:

the blanking part is used for placing the hot stamping paper and comprises a first turntable rotatably arranged on the main body of the hot stamping machine, and a mounting shaft which is uniformly distributed in a ring shape and used for mounting the hot stamping paper is rotatably arranged on the first turntable;

the recycling part is used for recycling the hot stamping paper subjected to hot stamping and comprises a second turntable rotatably arranged on the main body of the hot stamping machine, and recycling cylinders which are uniformly distributed in a ring shape and used for rolling up the hot stamping paper are rotatably arranged on the second turntable;

the guiding-out part is used for taking out the hot stamping paper in the blanking part and comprises a clamping assembly movably arranged on the hot stamping machine body and used for clamping the end part of the hot stamping paper;

a traction part for connecting the hot stamping paper in the blanking part to the recovery part, wherein the traction part comprises a rotating shaft rotatably installed on the hot stamping machine main body, and the rotating shaft is used for moving the clamping assembly from the installation shaft position to the recovery cylinder position;

a control part for controlling the mounting shaft, the lead-out part and the traction part, the control part comprising a rotatable driving shaft slidably mounted on the thermoprinting machine body, and

a fixing portion for fixing the thermal paper in the recovery portion, the fixing portion including an attaching head mounted on the thermal printer body for fixing an end of the thermal paper on the recovery cylinder;

the control part also comprises a switching assembly for controlling the driving shaft to move, and the switching assembly comprises:

the first pinion is fixedly arranged on the mounting shaft and positioned on the back surface of the first turntable;

a second pinion gear fixedly arranged on the rotating shaft,

the main gear I and the main gear II are fixedly arranged at two ends of the driving shaft and respectively meshed with the auxiliary gear I and the auxiliary gear II for transmission, and the main gear I is staggered with the auxiliary gear I and the main gear II is staggered with the auxiliary gear II; and

a reset piece arranged on the driving shaft;

the guiding-out part also comprises two support plates fixedly arranged on the rotating shaft; the support plate is positioned on the outer side of the hot stamping paper;

the guiding-out part further comprises two guide wheels movably mounted on the thermoprinting machine body and used for guiding thermoprinting paper, the guide wheels are located on the outer sides of the printing heads, and the guide wheels are located in the clamping assemblies.

2. The energy-saving and environment-friendly cigarette package printing equipment as claimed in claim 1, wherein,

the switching assembly further comprises:

inclined plane rings respectively fixed on the first main gear and the second main gear, and the two inclined plane rings are staggered; and

two compression bars which are fixedly arranged on the thermoprinting machine main body and used for extruding the inclined plane ring to move.

3. The energy-saving and environment-friendly cigarette package printing equipment as claimed in claim 2, wherein,

the clamping assembly includes:

a scraping plate rotatably installed on the support plate and used for scraping the end part of the hot stamping paper;

the arc-shaped sliding rail is arranged on the supporting plate and used for guiding the scraping plate; and

and a clamping plate which is slidably arranged on the supporting plate and is used for clamping the end part of the hot stamping paper.

4. The energy-saving and environment-friendly cigarette package printing equipment as claimed in claim 3, wherein,

the control part also comprises a paper scraping assembly for controlling the scraping plate to rotate, and the paper scraping assembly comprises:

the driven rod is arranged on the scraping plate and positioned at the outer side of the support plate;

the top plate is slidably arranged on the support plate and used for pushing the driven rod, and a first push straight key switch is arranged on the top plate;

the groove is arranged on the primary gear I and used for extruding the top plate to move, and a slope corresponding to the groove is arranged at the bottom of the top plate; and

and the elastic pressing strip is fixedly arranged on the thermoprinting machine main body and positioned below the top plate.

5. The energy-saving and environment-friendly cigarette package printing equipment as claimed in claim 3, wherein,

the control portion further includes a fastening assembly for controlling movement of the clamping plate, the fastening assembly including:

a pressing straight key switch II arranged on the clamping plate; and

two groups of pressing plates are arranged on the thermoprinting machine main body and used for extruding the clamping plates, and the pressing plates are of a unidirectional rotation structure.

6. The energy-saving and environment-friendly cigarette package printing equipment as claimed in claim 1, wherein,

the blanking part and the recycling part are respectively positioned at two sides above the printing head, and the rotating shaft is positioned above the printing head.

7. The energy-saving and environment-friendly cigarette package printing equipment as claimed in claim 1, wherein,

the recovery section further includes:

the driven gear is fixedly arranged on the recovery cylinder and positioned on the back surface of the rotary table II; and

the driving gear is arranged on the thermoprinting machine main body and used for driving the recycling bin to rotate, and the driving gear and the driven gear form a unidirectional rotation structure.