CN112810305A

CN112810305A - Roller printing machine

Info

Publication number: CN112810305A
Application number: CN202011623832.0A
Authority: CN
Inventors: 金龙
Original assignee: Individual
Current assignee: Xiamen Jinpeng Artificial Flower Co ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-05-18
Anticipated expiration: 2040-12-31
Also published as: CN112810305B

Abstract

The invention discloses a roller printing machine, and relates to the technical field of printing machines. The automatic press-fit device comprises supports, a press roller and a rotating roller are rotatably arranged between the two supports, the rotating roller is positioned right below the press roller, a first gear is arranged on the end part of the press roller, which extends out of the supports, in a matched manner, a second gear is arranged on the end part of the rotating roller, which extends out of the supports, in a matched manner, and the first gear and the second gear are mutually meshed; a cavity is arranged in the compression roller, and an eccentric block which does not rotate along with the compression roller is arranged in the cavity; the circumferential side surface of the press roller is uniformly provided with a plurality of partition blocks, each partition block is internally provided with an embossing part in a matching way, the end part of the inner side of the embossing part extends into the cavity of the press roller, and the end part of the inner side of the embossing part moves along the outer side surface of the eccentric block. The rotary roller drives the compression roller to rotate, paper to be printed is rolled between the rotary roller and the compression roller, and the mounted printing part is compressed, so that the printing process is completed, and the rotary roller is simple in structure and convenient to operate.

Description

Roller printing machine

Technical Field

The invention belongs to the technical field of printing machines, and particularly relates to a roller printing machine.

Background

The technique method for printing on the fabric by using a copper roller engraved with concave patterns is also called copper roller printing. The engraved cylinder is called a cylinder for short. When printing, firstly, the surface of the tube is stained with color paste, and then the sharp and flat scraper is used for scraping the color paste on the non-engraved part of the tube, so that the color paste is left in the concave pattern. When the cylinder is pressed on the fabric, the color paste is transferred to the fabric to print patterns.

The thickness of the attached coating is different easily to appear in the use of current cylinder structure, and the deviation easily appears in the effect of stamp, and simultaneously after the in-process surface adhesion impurity that uses, the stamp effect is influenced.

Disclosure of Invention

The invention aims to provide a roller printing machine, which drives a press roller to rotate through a rotating roller, paper to be printed is rolled between the rotating roller and the press roller, and the mounted printing part is compressed, so that the printing process is completed, the structure is simple, the operation is convenient, and the related problems in the background art are solved.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a roller printing machine which comprises supports, wherein a press roller and a rotating roller are rotatably arranged between the two supports, the rotating roller is positioned under the press roller, a first gear is arranged on the end part of the press roller, which extends out of the supports, a second gear is arranged on the end part of the rotating roller, which extends out of the supports, and the first gear and the second gear are mutually meshed; a cavity is arranged in the compression roller, and an eccentric block which does not rotate along with the compression roller is arranged in the cavity; the pressing roller is characterized in that a plurality of partition blocks are uniformly distributed on the peripheral side face of the pressing roller, each partition block is internally provided with an embossing part in a matching mode, the end part of the inner side of the embossing part extends into a cavity of the pressing roller, and meanwhile the end part of the inner side of the embossing part moves along the outer side face of the eccentric block.

Furthermore, the partition block is provided with mounting grooves distributed along the radial direction of the compression roller, the end part of the mounting groove close to the outer side is provided with a limiting groove, and the end part of the mounting groove close to the inner side is provided with a corrugated groove; the limiting groove and the corrugated groove are respectively installed at two ends of the printing portion in a matched mode.

Further, the printing part comprises a top head and a pressure head; a plurality of guide holes are uniformly distributed on the peripheral side surface of the plug, limiting parts are arranged in the guide holes in a matched mode, and the limiting parts are in limiting fit with the corrugated grooves; the periphery of the pressure head is provided with an annular bulge, the annular bulge is arranged in the limiting groove in a matching mode, one side of the annular bulge is provided with a first spring for pushing the pressure head to extend out, a liquid suction part is arranged in the extending end of the pressure head in a matching mode, and the liquid suction part can be in contact with the surface of the rotating roller; two end faces of the top head opposite to the pressure head are respectively provided with an annular cylinder structure, and one cylinder structure is installed in the other cylinder structure in a matching way to form a cavity; the liquid inlet channel communicated with the cavity is formed in the ejecting head, and the pressure head is provided with a communicating groove communicated with the cavity and the liquid suction portion.

Further, the limiting part comprises a second spring, a column head and a roller; a column head is slidably mounted in the guide hole, a spring II for pushing the column head to extend out is mounted on the inner side of the column head, a roller is rotatably mounted at the extending end of the column head, and the mounted roller moves along the corrugated groove.

Further, the printing part also comprises a liquid inlet component; the liquid inlet assembly comprises a valve body, a rotating rod, a bent rod, a liquid storage shell and a fixed column; the port of the liquid inlet channel is rotatably provided with a valve body which is turned to two sides and opened, two sides of the valve body are respectively abutted against a rotating rod, and the end parts of the two rotating rods rotatably arranged in the liquid inlet channel are connected through a bent rod; the top and the knee lever contact of stock solution casing, the light hole that has with the feed liquor passageway intercommunication is opened at the top of stock solution casing simultaneously, the afterbody joint of stock solution casing is on the fixed column, the fixed column is fixed on pressing the head, and stock solution casing afterbody is equipped with the passageway that communicates with the intercommunication groove simultaneously.

Further, the liquid storage shell is made of rubber materials; the top of the liquid storage shell is provided with a convex part which is of a conical structure, and a metal wire framework is arranged in the conical structure; the tail of the liquid storage shell is provided with a deep hole matched with the fixing column, and a plurality of liquid discharge ports communicated with the communicating groove are formed in the peripheral side of the deep hole.

Furthermore, the eccentric block is of a fan-shaped structure, and a balancing weight is fixed on the center line of the eccentric block.

The invention has the following beneficial effects:

1. in the use process of the paper printing machine, the rotating roller and the power device are connected through the belt to drive the rotating roller to rotate, meanwhile, the rotating roller and the press roller are in transmission connection through the first gear and the second gear, the rotating roller drives the press roller to rotate, paper to be printed is rolled between the rotating roller and the press roller, the mounted printing part is compressed, the printing process is finished, the two installed rotating rollers and the press roller rotate synchronously, and the stability of the paper moving process is guaranteed.

2. The compression roller is internally provided with a cavity for storing pigment, the stored pigment enters the cavity formed by the top head and the pressure head through a liquid inlet channel formed in the top head, when the top head passes through the outer side surface of the eccentric block, the outer side surface of the eccentric block pushes the top head to retract into the mounting groove, the volume of the cavity is reduced, the internal pressure of the cavity is increased, the pigment is pressed on paper through the pressure head, meanwhile, a limiting part mounted on the top head moves to the next groove along the corrugated groove, the limiting is realized, and the problem that the pigment is pressed on the paper for multiple times due to multiple times of expansion and contraction of the top head in the compression process is effectively solved, so that the pollution of the paper is caused; in addition, the pressing head extrudes with the surface of the rotating roller in the imprinting process, the end part of the cylinder body of the pressing head pushes the ejecting head to reset, and the pressing head is pushed by the spring to reset after the imprinting contact, so that the next work is facilitated.

3. The end face of the column head is pushed to be attached to the surface of the tight thread groove through the second installed spring, the situation that the installed ejector head shakes in the installation groove is avoided, resetting is not convenient to achieve, meanwhile, the roller is rotatably installed at the end of the column head, friction on the tight thread groove is reduced, and rapid displacement of the ejector head is convenient to achieve.

4. When the top head is contacted along the outer surface of the eccentric block, the top head is extruded and retracted into the mounting groove to drive the valve body, the rotating rods and the curved rod in the liquid inlet channel in the top head to move, the curved rod is extruded at the top of the liquid storage shell to bend the curved rod, so that the two rotating rods are driven to turn inwards, the end parts of the two rotating rods move along the inclined plane of the valve body to push the valve body to open, meanwhile, the bulge part is extruded and retracted inwards to push the liquid storage shell to expand outwards, the volume of the liquid storage shell is increased, so that the internal pressure is reduced, pigment can conveniently enter the liquid storage shell through the unthreaded hole of the bulge part, the top head moves to the next groove through the limiting part along the corrugated groove, and the limiting pigment can continuously enter the liquid storage; the pressure head takes place the extrusion with the surface of live-rollers at the in-process of impression, and the barrel tip of pressure head promotes the top and resets, is convenient for in the stock solution casing promote pigment gets into imbibition portion.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

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

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic view of the eccentric block and the printing portion of the present invention;

FIG. 4 is a schematic cross-sectional view of a printing part according to the present invention;

FIG. 5 is an enlarged partial schematic view of FIG. 4 in accordance with the present invention;

in the drawings, the components represented by the respective reference numerals are listed below:

1-press roll, 101-partition block, 102-mounting groove, 1021-limit groove, 1022-corrugated groove, 2-rotating roll, 3-support, 4-gear I, 5-gear II, 6-eccentric block, 601-counterweight block, 7-printing part, 701-top, 7011-liquid inlet channel, 7012-guide hole, 702-press head, 7021-communication groove, 703-spring I, 704-valve body, 705-rotating rod, 706-curved rod, 707-limit part, 7071-spring II, 7072-column cap, 7073-roller, 708-liquid storage shell, 7081-bulge, 7082-deep hole, 7083-liquid outlet, 709-fixed column, 710-liquid suction part.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.

Referring to fig. 1-5, the invention is a rotary printing machine, which comprises two brackets 3, wherein a press roller 1 and a rotating roller 2 are rotatably mounted between the two brackets 3, the rotating roller 2 is positioned right below the press roller 1, a first gear 4 is cooperatively mounted on the end part of the press roller 1, which extends out of the bracket 3, a second gear 5 is cooperatively mounted on the end part of the rotating roller 2, which extends out of the bracket 3, and the first gear 4 and the second gear 5 are mutually meshed;

a cavity is arranged in the compression roller 1, and an eccentric block 6 which does not rotate along with the compression roller 1 is arranged in the cavity;

a plurality of partition blocks 101 are uniformly distributed on the circumferential side surface of the press roller 1, an embossing part 7 is arranged in each partition block 101 in a matching mode, the end part of the inner side of the embossing part 7 extends into the cavity of the press roller 1, and meanwhile, the end part of the inner side of the embossing part 7 moves along the outer side surface of the eccentric block 6.

In the in-process that uses, through being connected rotor 2 and power device through the belt and driving its rotation, rotor 2 realizes the transmission through gear 4 and two 5 realization gears that are equipped with compression roller 1 simultaneously and is connected, pivoted rotor 2 drives compression roller 1 and rotates, the paper that needs the stamp rolls between rotor 2 and compression roller 1, the completion compresses the stamp portion 7 of installation, thereby accomplish the process of stamp, two rotor 2 of installation rotate with compression roller 1 is synchronous, guarantee the stationarity of paper motion process.

The partition block 101 is provided with mounting grooves 102 distributed along the radial direction of the compression roller 1, the end part of the mounting groove 102 close to the outer side is provided with a limiting groove 1021, and the end part of the mounting groove 102 close to the inner side is provided with a corrugated groove 1022;

the limiting groove 1021 and the corrugated groove 1022 are respectively installed at two ends of the printing part 7 in a matching way.

The embossing portion 7 includes a plug 701 and a head 702; a plurality of guide holes 7012 are uniformly distributed on the peripheral side surface of the top head 701, a limiting part 707 is fittingly installed in each guide hole 7012, and the limiting part 707 is in limiting fit with the corrugated groove 1022;

the periphery of the pressure head 702 is provided with an annular bulge, the annular bulge is arranged in the limiting groove 1021 in a matching way, one side of the annular bulge is provided with a first spring 703 for pushing the pressure head 702 to extend out, the extending end of the pressure head 702 is internally provided with a liquid absorbing part 710 in a matching way, and the liquid absorbing part 710 can be contacted with the surface of the rotating roller 2;

two end faces of the top head 701 opposite to the pressure head 702 are respectively provided with an annular cylinder structure, and one cylinder structure is arranged in the other cylinder structure in a matching way to form a cavity;

the top head 701 is provided with a liquid inlet channel 7011 communicated with the cavity, and the pressure head 702 is provided with a communicating groove 7021 for communicating the cavity with the liquid suction part 710.

A cavity is formed in the compression roller 1 and used for storing pigment, the stored pigment enters a cavity formed by the top 701 and the pressure head 702 through a liquid inlet channel 7011 formed in the top 701, when the top 701 passes through the outer side surface of the eccentric block 6, the outer side surface of the eccentric block 6 pushes the top 701 to retract into the mounting groove 102, the volume of the cavity is reduced, the internal pressure of the cavity is increased, the pigment is stamped on paper through the pressure head 702, meanwhile, a limiting part 707 arranged on the top 701 moves to the next groove along a corrugated groove 1022, limiting is achieved, and the problem that the top 701 stretches and retracts for multiple times in the compression process, so that the pigment is stamped on the paper for multiple times and the paper is polluted is effectively solved; in addition, the pressing head 702 is pressed with the surface of the rotating roller 3 in the embossing process, the end part of the cylinder body of the pressing head 702 pushes the top head 701 to reset, and meanwhile, the first spring 703 pushes the pressing head 702 to reset after embossing contact, so that the next work is facilitated.

The limiting part 707 comprises a second spring 7071, a column head 7072 and a roller 7073; a column head 7072 is slidably mounted in a guide hole 7012, a second spring 7071 for pushing the column head 7072 to extend is mounted on the inner side of the column head 7072, a roller 7073 is rotatably mounted on the extending end of the column head 7072, and the mounted roller 7073 moves along the corrugated groove 1022.

The end face of the column cap 7072 is pushed to be attached to the surface of the tight thread groove 1022 through the second installed spring 7071, the situation that the installed plug 701 shakes in the installation groove 102 is avoided, resetting is not convenient to achieve, meanwhile, the roller 7073 is rotatably installed at the end of the column cap 7072, friction on the tight thread groove 1022 is reduced, and quick displacement of the plug 701 is facilitated.

The printing part 7 also comprises a liquid inlet component; the liquid inlet assembly comprises a valve body 704, a rotating rod 705, a curved rod 706, a liquid storage shell 708 and a fixed column 709;

a valve body 704 which is turned to two sides and opened is rotatably arranged at the port of the liquid inlet channel 7011, two sides of the valve body 704 are respectively abutted against a rotating rod 705, and the ends of the two rotating rods 705 which are rotatably arranged in the liquid inlet channel 7011 are connected through a bent rod 706;

the top of the liquid storage shell 708 is in contact with the curved bar 706, the top of the liquid storage shell 708 is provided with a light hole communicated with the liquid inlet channel 7011, the tail of the liquid storage shell 708 is clamped on a fixing column 709, the fixing column 709 is fixed on the pressure head 702, and the tail of the liquid storage shell 708 is provided with a channel communicated with the communicating groove 7021.

When the installed plug 701 contacts with the outer surface of the eccentric block 6, the plug 701 is squeezed and retracted into the installation groove 102 to drive the valve body 704, the rotating rods 705 and the curved rod 706 in the liquid inlet channel 7011 in the plug 701 to move, the curved rod 706 is squeezed by the top of the liquid storage shell 708 to bend the curved rod 706, so that the two rotating rods 705 are driven to turn inwards, the end portions of the two rotating rods 705 move along the inclined plane of the valve body 704 to push the valve body 704 to be opened, meanwhile, the protruding portion 7081 is squeezed and retracted inwards to push the liquid storage shell 708 to expand outwards, the volume of the liquid storage shell 708 is increased, the internal pressure of the liquid storage shell 708 is reduced, pigments conveniently enter the liquid storage shell 708 through the unthreaded hole of the protruding portion 7081, the plug 701 moves to the next groove along the corrugated groove 1022 through the limiting portion 707, and limiting pigments continuously enter the liquid storage shell; the pressing head 702 is pressed against the surface of the rotating roller 3 in the embossing process, the end part of the cylinder body of the pressing head 702 pushes the top head 701 to reset, and the pigment is conveniently pushed into the liquid suction part 710 in the liquid storage shell 708.

The liquid storage shell 708 is made of rubber material; the top of the liquid storage shell 708 is provided with a convex part 7081, the convex part 7081 is of a conical structure, and a metal wire framework is arranged in the conical structure; the tail of the liquid storage shell 708 is provided with a deep hole 7082 matched with the fixed column 709, and the peripheral side of the deep hole 7082 is provided with a plurality of liquid discharge ports 7083 communicated with the communicating groove 7021. The eccentric block 6 is a fan-shaped structure, and a balancing weight 601 is fixed on the center line of the eccentric block 6.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The utility model provides a rotary printing machine, includes support (3), its characterized in that:

a compression roller (1) and a rotating roller (2) are rotatably mounted between the two supports (3), the rotating roller (2) is located under the compression roller (1), a first gear (4) is mounted on the end portion, extending out of the supports (3), of the compression roller (1) in a matched mode, a second gear (5) is mounted on the end portion, extending out of the supports (3), of the rotating roller (2) in a matched mode, and the first gear (4) and the second gear (5) are meshed with each other;

a cavity is arranged in the compression roller (1), and an eccentric block (6) which does not rotate along with the compression roller (1) is arranged in the cavity;

the utility model discloses a press roller, including compression roller (1), the equipartition has a plurality of district's piece (101) on the week side of compression roller (1), each the cooperation is installed in district's piece (101) and is printed portion (7), the medial extremity of printed portion (7) stretches into in the cavity of compression roller (1), simultaneously the medial extremity of printed portion (7) removes along the lateral surface of eccentric block (6).

2. The rotary drum printing machine according to claim 1, characterized in that the partition block (101) is provided with mounting grooves (102) distributed along the radial direction of the press roller (1), the end part of the mounting groove (102) close to the outer side is provided with a limiting groove (1021), and the end part of the mounting groove (102) close to the inner side is provided with a corrugated groove (1022);

the limiting groove (1021) and the corrugated groove (1022) are respectively installed at two ends of the printing part (7) in a matched mode.

3. A roller printing machine as claimed in claim 1, characterised in that said printing section (7) comprises a head (701) and a head (702);

a plurality of guide holes (7012) are uniformly distributed on the peripheral side surface of the plug (701), a limiting part (707) is arranged in the guide holes (7012) in a matched mode, and the limiting part (707) is in limiting fit with the corrugated groove (1022);

an annular bulge is arranged on the peripheral side face of the pressure head (702), the annular bulge is installed in a limiting groove (1021) in a matched mode, meanwhile, a first spring (703) for pushing the pressure head (702) to stretch out is installed on one side of the annular bulge, a liquid suction part (710) is installed in the stretching end of the pressure head (702) in a matched mode, and the liquid suction part (710) can be in surface contact with the rotating roller (2);

two end faces of the top head (701) opposite to the pressure head (702) are respectively provided with an annular cylinder structure, and one cylinder structure is installed in the other cylinder structure in a matching way to form a cavity;

the top head (701) is provided with a liquid inlet channel (7011) communicated with the cavity, and the pressure head (702) is provided with a communicating groove (7021) for communicating the cavity with the liquid suction part (710).

4. The rotary printing machine according to claim 3, wherein the limiting part (707) comprises a second spring (7071), a column head (7072) and a roller (7073);

a column head (7072) is arranged in the guide hole (7012) in a sliding mode, a second spring (7071) for pushing the column head (7072) to extend is arranged on the inner side of the column head (7072), a roller (7073) is rotatably arranged at the extending end of the column head (7072), and the mounted roller (7073) moves along the corrugated groove (1022).

5. A roller printing machine as claimed in claim 3, characterised in that said printing portion (7) further comprises an intake assembly; the liquid inlet assembly comprises a valve body (704), a rotating rod (705), a curved rod (706), a liquid storage shell (708) and a fixed column (709);

a valve body (704) which is turned to two sides and opened is rotatably arranged at the port of the liquid inlet channel (7011), two sides of the valve body (704) are respectively abutted against a rotating rod (705), and the end parts of the two rotating rods (705) rotatably arranged in the liquid inlet channel (7011) are connected through a curved rod (706);

the top of the liquid storage shell (708) is in contact with the curved rod (706), meanwhile, the top of the liquid storage shell (708) is provided with a light hole communicated with the liquid inlet channel (7011), the tail of the liquid storage shell (708) is clamped on a fixing column (709), the fixing column (709) is fixed on the pressure head (702), and meanwhile, the tail of the liquid storage shell (708) is provided with a channel communicated with the communicating groove (7021).

6. The rotary printing machine according to claim 5, wherein the reservoir housing (708) is made of a rubber material;

a bulge (7081) is arranged at the top of the liquid storage shell (708), the bulge (7081) is of a conical structure, and a metal wire framework is arranged in the conical structure;

the tail of the liquid storage shell (708) is provided with a deep hole (7082) matched with the fixed column (709), and the peripheral side of the deep hole (7082) is provided with a plurality of liquid discharge ports (7083) communicated with the communicating groove (7021).

7. A rotary printing machine according to claim 1, wherein the eccentric mass (6) is of a fan-shaped configuration, and a weight (601) is fixed to the center line of the eccentric mass (6).