CN215512780U - UV printing ink polychrome printing drying all-in-one - Google Patents

Abstract

The utility model discloses a UV ink multicolor printing and drying integrated machine which comprises a machine body module, a plurality of printing modules and a plurality of UV curing modules, wherein the number of the printing modules and the number of the UV curing modules are the same, the printing modules and the UV curing modules are alternately and uniformly distributed on the machine body module, each printing module comprises a driving assembly, a moving assembly and a printing assembly, the moving assembly is arranged at the driving assembly, the printing assembly is arranged on the moving assembly, and the printing assembly is positioned at the driving assembly; according to the UV ink multicolor printing and drying all-in-one machine, the printing modules and the UV curing modules are uniformly arranged on the turntable, so that multicolor printing and curing can be rapidly and continuously carried out on a product; this dry all-in-one of UV printing ink polychrome printing can effectively save manpower resources, effectively reduces the occupation of equipment space, improves the first pass rate and the production efficiency of product, effectively saves the electric energy, effectively reduction in production cost.

Description

UV printing ink polychrome printing drying all-in-one

Technical Field

The utility model relates to the field of hardware product printing, in particular to a UV ink multicolor printing and drying integrated machine.

Background

The traditional process for printing colorful characters and patterns on hardware fittings generally comprises the steps of firstly taking a product by a worker, operating a screen printing machine or a pad printing machine to complete the first printing of the product, then putting the product on a water-flowing mesh belt, then enabling the product to enter a UV (ultraviolet) furnace through the water-flowing mesh belt to be dried and flow out to the next working procedure, and circularly operating the operations to print the colorful characters and patterns on the product.

The disadvantages of this process are:

1. the labor is consumed, the double-color printing needs at least 3 persons to finish, and one more worker is added when more than one color is printed;

2. occupying a field, and arranging equipment required by the process into a long assembly line in a straight line;

3. the first pass rate of products is low, and due to the fact that each station is operated separately, defective products cannot be found in time, the rate of finished products is low, and the products are scrapped and wasted;

4. the energy consumption is big, and this whole equipment total power is great, and assembly line idle rate is high moreover.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide the UV ink multicolor printing and drying integrated machine which is energy-saving, high in quality and high in efficiency.

In order to achieve the above purpose, the following scheme is provided: the utility model provides a dry all-in-one of UV printing ink polychrome printing, includes organism module, a plurality of printing module and a plurality of UV solidification module, printing module is the same with the quantity of UV solidification module just printing module and UV solidification module equipartition are in turn on the organism module, printing module includes drive assembly, removal subassembly and printing element, the removal subassembly is installed in drive assembly department, printing element installs on the removal subassembly and printing element is located drive assembly department, drive assembly includes mounting bracket, pillar and roof pressure cylinder, the bottom of mounting bracket one end is articulated through the pivot with the one end of pillar, the other end fixed mounting of pillar is on the organism module, the one end tip that mounting bracket and pillar are connected is articulated through the pivot with the piston rod tip of roof pressure cylinder, the other end of roof pressure cylinder is articulated through the pivot with the organism module, the moving assembly comprises a connecting frame, a first support plate, a first sliding rail sliding block assembly, a second support plate, a second sliding rail sliding block assembly, a rodless cylinder and a guide rod, the rodless cylinder and the guide rod are arranged on the mounting frame in parallel, the printing assembly is arranged on the rodless cylinder and the guide rod, the bottom of the mounting frame is connected with the first support plate through the first sliding rail sliding block assembly, the arrangement directions of the first sliding rail sliding block assembly and the rodless cylinder are the same, the first support plate and the second support plate are connected through the second sliding rail sliding block assembly, the first sliding rail sliding block assembly and the second sliding rail sliding block assembly are distributed at ninety degrees, one side of the second support plate, far away from the first support plate, is connected with the screen plate through the connecting frame, the printing assembly comprises the first cylinder, a scraper and a support table, the support table is arranged on the rodless cylinder and the guide rod, and the support table is connected with the guide rod in a sliding manner, the printing cylinder is arranged on the supporting table, a scraper is arranged at the end part of a piston rod of the printing cylinder, and the scraper is positioned between the second support plate and the screen plate.

Further, UV solidification module includes the support, drives actuating cylinder, actuating lever, connecting rod, dustcoat, outer light cover and light screen, the dustcoat passes through the support mounting on organism module, the both sides of dustcoat all are equipped with and drive actuating cylinder, drive the piston rod and the connecting rod fixed connection of actuating cylinder, the connecting rod is rushed the bottom plate and the outer light cover fixed connection of dustcoat with the one end fixed connection of actuating lever and the other end of actuating lever, one side that the dustcoat was kept away from to the outer light cover is equipped with the light screen, be equipped with the UV lamp in the dustcoat.

Further, the number of the printing modules and the number of the UV curing modules are four, so that the machine body module is uniformly divided into eight stations.

Further, the machine body module comprises a base, a driving motor, a cam divider, a turntable and a supporting plate, wherein the driving motor and the cam divider are installed on the base and connected with the cam divider, the cam divider is connected with the turntable, and the supporting plate is arranged in the middle of the turntable and fixedly connected with the base.

Furthermore, the supporting column and the jacking cylinder are arranged on the supporting plate, and the screen plate is positioned above the turntable.

Further, the support is installed on the base and the turntable is located below the light shielding plate.

Furthermore, a plurality of jigs are uniformly distributed on the rotary table, and the positions of the jigs are matched with the positions of the printing module and the UV curing module.

The working principle and the advantages of the utility model are as follows: according to the UV ink multicolor printing and drying all-in-one machine, the printing modules and the UV curing modules are uniformly arranged on the turntable, so that multicolor printing and curing can be rapidly and continuously carried out on a product; this dry all-in-one of UV printing ink polychrome printing can effectively save manpower resources, effectively reduces the occupation of equipment space, improves the first pass rate and the production efficiency of product, effectively saves the electric energy, effectively reduction in production cost.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a perspective view of the present invention;

FIG. 3 is a schematic view of the printing module of the present invention;

FIG. 4 is a front view of a printing module of the present invention;

FIG. 5 is a schematic structural view of a printed UV curing module of the present invention;

fig. 6 is a front view of a UV curing module of the present invention.

Reference numerals in the drawings of the specification include:

11. the printing device comprises a base, 12, a driving motor, 13, a cam divider, 14, a rotating disc, 15, a supporting plate, 2, a printing module, 201, a jig, 202, a screen plate, 203, a connecting frame, 204, a first supporting plate, 205, a first sliding rail sliding block assembly, 206, a second supporting plate, 207, a second sliding rail sliding block assembly, 208, a mounting plate, 209, a printing cylinder, 210, a scraper, 211, a supporting column, 212, a jacking cylinder, 213, a rodless cylinder, 214, a guide rod, 215, a supporting table, 31, a support, 32, a driving cylinder, 33, a driving rod, 34, a connecting rod, 35, a housing, 36, an outer mask and 37.

Detailed Description

The following is further detailed by the specific embodiments:

as shown in fig. 1 to 6, a UV ink multicolor printing and drying all-in-one machine comprises a machine body module, a plurality of printing modules 2 and a plurality of UV curing modules 3, the number of the printing modules 2 is the same as that of the UV curing modules 3, the printing modules 2 and the UV curing modules 3 are alternately and uniformly distributed on the machine body module, each printing module 2 comprises a driving assembly, a moving assembly and a printing assembly, the moving assembly is installed at the driving assembly, the printing assembly is installed on the moving assembly and located at the driving assembly, the driving assembly comprises a mounting frame 208, a support column 211 and a jacking cylinder 212, the bottom of one end of the mounting frame 208 is hinged to one end of the support column 211 through a rotating shaft, the other end of the support column 211 is fixedly installed on the machine body module, the end part of one end of the mounting frame 208 connected with the support column 211 is hinged to the end part of a piston rod of the jacking cylinder 212 through a rotating shaft, the other end of the jacking cylinder 212 is hinged with the machine body module through a rotating shaft, the moving assembly comprises a connecting frame 203, a first support plate 204, a first sliding rail sliding block assembly 205, a second support plate 206, a second sliding rail sliding block assembly 207, a rodless cylinder 213 and a guide rod 214, the rodless cylinder 213 and the guide rod 214 are arranged on a mounting frame 208 in parallel, the printing assembly is arranged on the rodless cylinder 213 and the guide rod 214, the bottom of the mounting frame 208 is connected with the first support plate 204 through the first sliding rail sliding block assembly 205, the arrangement directions of the first sliding rail sliding block assembly 205 and the rodless cylinder 213 are the same, the first support plate 204 is connected with the second support plate 206 through the second sliding rail sliding block assembly 207, the first sliding rail assembly 205 and the second sliding rail sliding block assembly 207 are distributed at ninety degrees, one side of the second support plate 206 far away from the first support plate 204 is connected with the screen plate 202 through the connecting frame 203, the printing assembly comprises a first air cylinder, a scraper 210 and a support table 215, the support table 215 is installed on a rodless air cylinder 213 and a guide rod 214, the support table 215 is connected with the guide rod 214 in a sliding mode, the printing air cylinder 209 is installed on the support table 215, the end of a piston rod of the printing air cylinder 209 is provided with the scraper 210, and the scraper 210 is located between the second support plate 206 and the screen plate 202.

As shown in fig. 5 and 6, the UV curing module 3 includes a support 31, a driving cylinder 32, a driving rod 33, a connecting rod 34, an outer cover 35, an outer light cover 36 and a light shielding plate 37, the outer cover 35 is mounted on the body module through the support 31, the driving cylinder 32 is respectively disposed on two sides of the outer cover, a piston rod of the driving cylinder 32 is fixedly connected with the connecting rod 34, the connecting rod 34 is fixedly connected with one end of the driving rod 33, the other end of the driving rod 33 breaks through a bottom plate of the outer cover 35 and is fixedly connected with the outer light cover 36, the light shielding plate 37 is disposed on one side of the outer light cover 36, which is far away from the outer cover 35, and a UV lamp is disposed in the outer cover 35.

As shown in fig. 1 and 2, the number of the printing modules 2 and the UV curing modules 3 is four, so that the machine body module is uniformly divided into eight stations.

As shown in fig. 1 and 2, the machine body module includes a base 11, a driving motor 12, a cam divider 13, a rotating disc 14 and a supporting plate 15, the driving motor 12 and the cam divider 13 are mounted on the base 11, the driving motor 12 is connected with the cam divider 13, the cam divider 13 is connected with the rotating disc 14, the supporting plate 15 is arranged in the middle of the rotating disc 14, and the supporting plate 15 is fixedly connected with the base 11.

As shown in fig. 3 and 4, the supporting column 211 and the jacking cylinder 212 are mounted on the supporting plate 15, and the net plate 202 is located above the turntable 14.

As shown in fig. 6, the holder 31 is mounted on the base 11 and the turntable 14 is located below the light shielding plate 37.

As shown in fig. 1 to 6, a plurality of jigs 201 are uniformly distributed on the turntable 14, and the positions of the jigs 201 are matched with the positions of the printing module 2 and the UV curing module 3.

Wherein the UV curing module 3 is a UV curing furnace.

The specific implementation process is as follows:

the UV ink multicolor printing and drying integrated machine is used for firstly installing a product on a jig 201, pushing up a printing module 2, then placing the jig 201 on a turntable 14 and below the printing module 2, feeding left and right at a station where each printing module 2 is located, after the product to be printed is placed, starting the printing module 2, enabling a piston rod of a jacking cylinder 212 to extend out, jacking a mounting frame 208 downwards, enabling a support column 211 to support the mounting frame 208, enabling the mounting frame 208 to drive a first supporting plate 204, a first sliding rail sliding block component 205, a second supporting plate 206, a second sliding rail sliding block component 207, a connecting frame 203 and a screen plate 202 to press downwards, enabling the screen plate 202 to be pressed on the jig 201, enabling the first supporting plate 204, the first sliding rail component 205, the second supporting plate 206 and the second sliding rail sliding block component 207 to cooperate to enable the screen plate 202 to be automatically aligned with the jig 201, and then starting the printing cylinder 209, the printing cylinder 209 electric scraper 210 moves downwards, the scraper 210 is in contact with a product in the jig 201, the rodless cylinder 213 drives the support platform 215 to move, the support platform 215 drives the printing cylinder 209 and the scraper 210 to move, the scraper 210 can perform printing operation on the product, and the guide rod 214 plays a role in guiding and assisting in supporting the support platform 215; after the product in the jig 201 is completely engraved, the piston rod of the jacking cylinder 212 retracts to reset the printing module 2; the driving motor 12 installed on the base 11 is started, the driving motor 12 drives the cam divider 13 to move, the cam divider 13 drives the rotary table 14 to move, the rotary table 14 can move to the position of the UV curing station, namely below the UV curing module 3, the UV curing module 3 is started, the piston rod of the driving cylinder 32 drives the driving rod 33 to move downwards through the connecting rod 34, the driving rod 33 drives the outer photomask 36 and the light shielding plate 37 to move downwards until the outer photomask 36 is pressed on the jig 201, the light shielding plate 37 is used for shielding the light of the ultraviolet light inside the outer cover 35, then the ultraviolet lamp in the outer cover 35 emits the ultraviolet light to irradiate the printing pattern of the product on the jig 201, the UV curing operation is carried out on the printing pattern, after the curing is finished, the UV curing module 3 resets the rotary table 14 to rotate in a simplified manner, so that the product in the jig 201 passes through all the printing modules 2 and the UV curing modules 3 at one time, the mass of product can be multi-color printed and cured.

According to the UV ink multicolor printing and drying all-in-one machine, the printing modules 2 and the UV curing modules 3 are uniformly arranged on the turntable 14, so that multicolor printing and curing can be rapidly and continuously performed on a product; this dry all-in-one of UV printing ink polychrome printing can effectively save manpower resources, effectively reduces the occupation of equipment space, improves the first pass rate and the production efficiency of product, effectively saves the electric energy, effectively reduction in production cost.

The foregoing is merely an example of the present invention, and common general knowledge in the field of known specific structures and characteristics of the embodiments is not described herein in any greater extent than that known to persons of ordinary skill in the art at the filing date or before the priority date of the present application, so that all of the prior art in this field can be known and can be applied with the ability of conventional experimental means before this date. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the applicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (7)

1. The utility model provides a dry all-in-one of UV printing ink polychrome printing which characterized in that: including organism module, a plurality of printing module and a plurality of UV solidification module, the printing module is the same just with the quantity of UV solidification module equipartition alternately on the organism module with UV solidification module, the printing module includes drive assembly, removal subassembly and printing module, removal unit mount is in drive assembly department, printing module installs on removal unit and printing module is located drive assembly department, drive assembly includes mounting bracket, pillar and roof pressure cylinder, the bottom of mounting bracket one end is articulated through the pivot with the one end of pillar, the other end fixed mounting of pillar is on the organism module, the one end tip that mounting bracket and pillar are connected is articulated through the pivot with the piston rod tip of roof pressure cylinder, the other end of roof pressure cylinder is articulated through the pivot with the organism module, removal unit is including connecting frame, the printing module is connected with the UV solidification module, The printing device comprises a first support plate, a first sliding rail sliding block component, a second support plate, a second sliding rail sliding block component, a rodless cylinder and a guide rod, wherein the rodless cylinder and the guide rod are arranged on a mounting frame in parallel, the printing component is arranged on the rodless cylinder and the guide rod, the bottom of the mounting frame is connected with the first support plate through the first sliding rail sliding block component, the arrangement direction of the first sliding rail sliding block component is the same as that of the rodless cylinder, the first support plate and the second support plate are connected through the second sliding rail sliding block component, the first sliding rail sliding block component and the second sliding rail sliding block component are distributed at ninety degrees, one side of the second support plate, far away from the first support plate, is connected with a screen plate through a connecting frame, the printing component comprises a first cylinder, a scraper and a support table, the support table is arranged on the rodless cylinder and the guide rod, the support table is connected with the guide rod in a sliding manner, and the printing cylinder is arranged on the support table, and a scraper is arranged at the end part of the piston rod of the printing cylinder and is positioned between the second support plate and the screen plate.

2. The UV ink multicolor printing and drying all-in-one machine according to claim 1, wherein: UV solidification module includes the support, drives actuating cylinder, actuating lever, connecting rod, dustcoat, outer light cover and light screen, the dustcoat passes through the support mounting on organism module, the both sides of dustcoat all are equipped with and drive actuating cylinder, drive actuating cylinder's piston rod and connecting rod fixed connection, the bottom plate and the outer light cover fixed connection that the dustcoat was rushed through to the connecting rod and the other end of the one end fixed connection of actuating lever and actuating lever, one side that the dustcoat was kept away from to the outer light cover is equipped with the light screen, be equipped with the UV lamp in the dustcoat.

3. The UV ink multicolor printing and drying all-in-one machine according to claim 1, wherein: the number of the printing modules and the number of the UV curing modules are four, so that the machine body module is uniformly divided into eight stations.

4. The UV ink multicolor printing and drying all-in-one machine according to claim 1, wherein: the machine body module comprises a base, a driving motor, a cam divider, a rotary table and a supporting plate, wherein the driving motor and the cam divider are installed on the base and connected with the cam divider, the cam divider is connected with the rotary table, and the supporting plate is arranged in the middle of the rotary table and fixedly connected with the base.

5. The UV ink multicolor printing and drying all-in-one machine according to claim 1, wherein: the supporting columns and the jacking air cylinders are arranged on the supporting plate, and the screen plate is located above the rotary table.

6. The UV ink multicolor printing and drying all-in-one machine according to claim 2, characterized in that: the support is installed on the base and the turntable is located below the shading plate.

7. The UV ink multicolor printing and drying all-in-one machine according to claim 4, characterized in that: the rotary table is uniformly provided with a plurality of jigs, and the positions of the jigs are matched with the positions of the printing module and the UV curing module.

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