CN113715537A - UV ink printing technology and printing equipment thereof - Google Patents

Abstract

The invention provides a UV ink printing process and printing equipment thereof, wherein the printing process comprises the following steps: s1, bottom layer printing: printing colorless UV ink on a printing stock through a printing silk screen; s2, first UV irradiation: irradiating the printing stock in the step S1 by using an ultraviolet lamp to cure the colorless UV ink; s3, surface layer printing: printing colored UV ink onto the colorless ink that has been cured in the S2 step through a printing screen; s4, second UV irradiation: and irradiating the printing stock in the step S3 by using an ultraviolet lamp to cure the UV ink on the surface layer. The invention has the following beneficial effects: guarantee the thickness of printing ink through printing for the first time, then guarantee the color of printing ink through printing for the second time, guaranteed the abundant solidification of UV printing ink simultaneously, it leads to UV printing ink curing time to lengthen after having solved thickening printing ink thickness that exists among the prior art, and the printing ink that is close to the stock that appears easily does not have the technical problem of solidification.

Description

UV ink printing technology and printing equipment thereof

Technical Field

The invention relates to the technical field of printing, in particular to a UV ink printing process and printing equipment thereof.

Background

The UV ink is an ultraviolet light curing ink, and is applied to vacuum electroplated products at the earliest time, and a UV coating is usually coated on a metal product subjected to vacuum coating to protect a vacuum coating which is very easy to oxidize.

To increase the aesthetic appearance of the surface, a conventional colorant powder may be added to the inherently colorless UV ink to increase the color of the coating.

However, after the pigment powder is added, the curing speed of the ink can be greatly reduced due to color blocking, and even the ink close to a printing material can not be cured, wherein the condition that the pigment powder with dark color is added is the most.

In order to show the third dimension of printing in the protruding, through thickening printing ink thickness, and again because the interpolation of colour toner powder after thickening printing ink thickness can lead to UV printing ink curing time to lengthen, the condition that the printing ink that appears being close to the stock simultaneously does not solidify more easily.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a UV ink printing process and printing equipment thereof, which solve the technical problems that the UV ink curing time is prolonged after the ink thickness is thickened and the ink close to a printing stock is not cured easily in the prior art.

According to an embodiment of the present invention, a UV ink printing process includes:

s1, bottom layer printing: printing colorless UV ink on a printing stock through a printing silk screen;

s2, first UV irradiation: irradiating the printing stock in the step S1 by using an ultraviolet lamp to cure the colorless UV ink;

s3, surface layer printing: printing colored UV ink onto the colorless ink that has been cured in the S2 step through a printing screen;

s4, second UV irradiation: and irradiating the printing stock in the step S3 by using an ultraviolet lamp to cure the UV ink on the surface layer.

Further, positioning of the printing material is required before the steps S1 and S3 are performed, and the relative positions of the printing screen and the printing material to be positioned in the steps S3 and S1 must be the same.

Further, the total power of the ultraviolet lamps in the steps S2 and S4 is 100-150W.

According to the printing equipment of the UV ink, which is provided by the embodiment of the invention, the printing equipment is used for the printing process of the UV ink, and comprises a first conveying device, a first screen printer for bottom printing, a second conveying device and a second screen printer for surface printing from bottom to top, wherein one end of the first conveying device is provided with a lifting curing device which can be communicated with the first conveying device and the second conveying device and is used for first UV irradiation and second UV irradiation, an ultraviolet lamp is arranged at the position of the lifting curing device, one end of the lifting curing device is provided with an outlet conveying device, and the outlet conveying device is parallel to the first conveying device.

Furthermore, the first conveying device, the first screen printing machine, the second conveying device, the second screen printing machine, the lifting curing device and the outlet conveying device are all installed on a supporting frame, a shielding cover wraps the supporting frame, and a baffle is arranged between the lifting curing device and the first screen printing machine as well as between the lifting curing device and the second screen printing machine.

Further, first conveyer, second conveyer and export conveyer all include the motor and with the hold-in range mechanism that the motor is connected, the motor is all installed on the support frame with hold-in range mechanism, first conveyer is located first screen printing machine and is equipped with the backup pad in the position under, second conveyer is located second screen printing machine and is equipped with the backup pad in the position under.

Furthermore, lift solidification equipment includes transfer portion and lift part, the lift part includes the support fence and sets up the electric push rod in support fence four corners, the electric push rod is installed on the support frame, the transfer portion is installed on the support fence, the transfer portion include the motor and with the hold-in range mechanism that the motor is connected.

Furthermore, a frame is arranged on the supporting fence, and the ultraviolet lamps are uniformly distributed on the inner side of the frame.

Further, the ultraviolet lamps are uniformly distributed on the inner side of the shielding cover surrounding the lifting curing device.

Furthermore, first conveyer is located first screen printing machine and all is equipped with electric push rod on the support frame that second conveyer is located the both sides position of second screen printing machine, electric push rod top still is equipped with the ejector pad, hold-in range mechanism is pressed close to the ejector pad, be equipped with the camera on first screen printing machine and the second screen printing machine.

The technical principle of the invention is as follows: the colorless UV ink is printed on the printing material by the first printing, which has a large thickness but does not decrease in curing speed because it is colorless and is easily completely cured, and then a thin layer of colored UV ink is printed on the surface of the colorless ink by the second printing, which is easily completely cured because it has a small thickness and is also printed on the colorless UV ink, and forms an integrated film layer with the colorless UV ink.

Compared with the prior art, the invention has the following beneficial effects: guarantee the thickness of printing ink through printing for the first time, then guarantee the color of printing ink through printing for the second time, guaranteed the abundant solidification of UV printing ink simultaneously, it leads to UV printing ink curing time to lengthen after having solved thickening printing ink thickness that exists among the prior art, and the printing ink that is close to the stock that appears easily does not have the technical problem of solidification.

Drawings

FIG. 1 is a flow chart of a UV ink printing process according to examples 1-2 of the present invention.

Fig. 2 is a schematic structural view of a printing apparatus for UV ink of embodiment 2 of the present invention.

Fig. 3 is a cross-sectional view a-a of fig. 2.

Fig. 4 is a front view of the lifting and curing device in embodiment 1 of the present invention.

Fig. 5 is a side view of the lifting and curing device of embodiment 1 of the present invention.

In the above drawings: 100. a support frame; 101. a first conveying device; 102. a second conveying device; 103. an outlet transfer device; 110. a first screen printer; 120. a second screen printer; 130. a shield cover; 131. a baffle plate; 140. a motor; 150. a synchronous belt mechanism; 151. a support plate; 160. a push block; 170. a camera; 200. lifting and lowering the curing device; 201. an ultraviolet lamp; 210. a transfer section; 220. a lifting part; 221. a support fence; 222. an electric push rod; 223. a frame.

Detailed Description

The technical solution of the present invention is further explained with reference to the drawings and the embodiments.

The UV ink printing process as shown in fig. 1, comprising:

s1, bottom layer printing: the colourless UV ink is printed onto the substrate through a printing screen and the substrate is positioned prior to printing and the positioning positions are remembered.

S2, first UV irradiation: and (3) irradiating the printing material in the step S1 by using an ultraviolet lamp 201 to cure the colorless UV ink, wherein the total power of the ultraviolet lamp is 100-150W to cure the colorless UV ink.

S3, surface layer printing: and (4) printing the colored UV ink on the colorless ink which is solidified in the step S2 through a printing screen, positioning the printing stock before printing, wherein the positioning position is the same as that in the step S1, so as to ensure that the position of the ink printed for the second time is right above the ink printed for the first time.

S4, second UV irradiation: and (3) irradiating the printing material in the step S3 by using an ultraviolet lamp 201 to cure the UV ink on the surface layer, wherein the total power of the ultraviolet lamp is 100-150W to cure the colored UV ink.

Example 1

The printing equipment for the UV ink shown in fig. 2 is used for a UV ink printing process, and specifically comprises a first conveying device 101, a first screen printer 110 for bottom printing, a second conveying device 102 and a second screen printer 120 for top printing from bottom to top, wherein one end of the first conveying device 101 is provided with a lifting curing device 200 which can be connected with the first conveying device 101 and the second conveying device 102 and is used for first UV irradiation and second UV irradiation, an ultraviolet lamp 201 is arranged at the position of the lifting curing device 200, one end of the lifting curing device 200 is provided with an outlet conveying device 103, the outlet conveying device 103 is parallel to the first conveying device 101, and the first conveying device 101 can convey a new printing material into the lifting curing device 200 while the lifting curing device 200 conveys the completed printing material to the outlet conveying device 103.

As shown in fig. 2 to 3, the first conveyor 101, the first screen printer 110, the second conveyor 102, the second screen printer 120, the lifting curing device 200 and the outlet conveyor 103 are all mounted on a support frame 100, a shielding cover 130 is wrapped around the support frame 100, a baffle 131 is disposed between the lifting curing device 200 and the first screen printer 110 and the second screen printer 120, and the baffle 131 is welded to the shielding cover 130 for shielding light of the ultraviolet lamp 201.

As shown in fig. 2-3, each of the first conveyor 101, the second conveyor 102, and the exit conveyor 103 includes a motor 140 and a synchronous belt mechanism 150 connected to the motor 140, i.e., the motor 140 is keyed to a driving roller of the synchronous belt mechanism 150, the synchronous belt mechanism 150 is mounted on the support frame 100 by using a belt bearing, the motor 140 is bolted to the support frame 100, a support plate 151 is bolted to a position of the first conveyor 101 directly below the first screen printer 110, and a support plate 151 is also bolted to a position of the second conveyor 102 directly below the second screen printer 120.

As shown in fig. 4-5, the lifting curing device 200 includes a conveying part 210 and a lifting part 220, the lifting part 220 includes a supporting column 221 and electric push rods 222 disposed at four corners of the supporting column 221, so that the electric push rods 222 can push the supporting column 221 to move up and down, the electric push rods 222 are bolted on the supporting frame 100, the conveying part 210 is mounted on the supporting column 221, the conveying part 210 includes a motor 140 and a timing belt mechanism 150 connected with the motor 140, i.e., the motor 140 is keyed with a driving roller of the timing belt mechanism 150, the timing belt mechanism 150 is mounted on the supporting column 221 by using a belt seat bearing, and the motor 140 is bolted on the supporting column 221.

As shown in fig. 4-5, a frame 223 is welded on the support column 221, and ultraviolet lamps 201 are uniformly distributed on the inner side of the frame 223, so that the UV ink can be rapidly cured.

As shown in fig. 3, the electric push rods 222 are fixed on the support frames 100 of the first conveying device 101, which are located at the positions of the first screen printer 110 and the second conveying device 102, which are located at the positions of the two sides of the second screen printer 120, by bolts, the push blocks 160 are further fixed at the tops of the electric push rods 222 by screws, the push blocks 160 are close to the synchronous belt mechanisms 150, and the positions of the printing stock can be adjusted by the push blocks 160, the cameras 170 are arranged on the first screen printer 110 and the second screen printer 120, the positions of the printing stock are captured by the cameras 170, the positions of the left and right directions are adjusted by the electric push rods 222 at the two sides of the first conveying device 101 or the second conveying device 102, and the positions of the printing stock in the front-back direction and the left-back direction and the right direction are adjusted by the motors 140 of the first conveying device 101 or the second conveying device 102, so that the accurate positioning of the printing stock in the front-back direction and the left-right direction is realized.

Example 2

As shown in fig. 2, the present embodiment is different from embodiment 1 in that: the ultraviolet lamps 201 are evenly distributed on the inner side of the shielding cover 130 surrounding the lifting curing device 200.

When the device is used, a printing stock is placed on the first conveying device 101 and then conveyed to the position below the first screen printer 110, the camera 170 of the first screen printer 110 captures an image of the printing stock, the printing stock is positioned by the electric push rods 222 on the two sides of the first conveying device 101 and the motor 140 of the first conveying device 101, then the first screen printer 110 prints, the printing stock is conveyed to the lifting curing device 200 after printing is completed, curing is carried out by the ultraviolet lamp 201, and the electric push rods 222 of the lifting curing device 200 push the conveying part 210 to ascend and stop when the printing stock reaches the position parallel to the second conveying device 102.

After the solidification is finished, the conveying part 210 conveys the printing stock to the second conveying device 102, the second conveying device 102 conveys the printing stock to the position below the second screen printer 120, the camera 170 of the second screen printer 120 captures an image of the printing stock, the electric push rods 222 on two sides of the second conveying device 102 are matched with the motor 140 of the second conveying device 102 to position the printing stock, then the second screen printer 120 performs printing, the printing stock is conveyed to the lifting and curing device 200 after the printing stock is finished, the solidification is performed through the ultraviolet lamp 201, and the electric push rods 222 of the lifting and curing device 200 push the conveying part 210 to descend at the same time of the solidification, and the parallel position of the first conveying device 101 is reached and stopped.

At the same time, new printing material can be placed on the first transport 101, so that the first transport 101 and the first screen printing machine 110 print simultaneously with the second transport 102 and the second screen printing machine 120.

Finally the transport section 210 transports the substrate to the exit conveyor 103, the exit conveyor 103 transports the substrate out of the printing apparatus, and the first conveyor 101 transports a new substrate that has completed the first print to the lifting and curing device 200.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims (10)

1. A UV ink printing process is characterized in that: the method comprises the following steps:

s1, bottom layer printing: printing colorless UV ink on a printing stock through a printing silk screen;

s2, first UV irradiation: irradiating the printing stock in the step S1 by using an ultraviolet lamp to cure the colorless UV ink;

s3, surface layer printing: printing colored UV ink onto the colorless ink that has been cured in the S2 step through a printing screen;

s4, second UV irradiation: and irradiating the printing stock in the step S3 by using an ultraviolet lamp to cure the UV ink on the surface layer.

2. A UV ink printing process according to claim 1 wherein: positioning of the printing material is required before the steps of S1 and S3 are carried out, and the relative positions of the printing screen and the printing material in the positioning of the steps of S3 and S1 are required to be the same.

3. A UV ink printing process according to claim 1 wherein: the total power of the ultraviolet lamps in the steps S2 and S4 is 100-150W.

4. A printing apparatus for UV ink, comprising: the UV ink printing process as claimed in claim 1, wherein the printing apparatus comprises, from bottom to top, a first conveyor, a first screen printer for bottom printing, a second conveyor, and a second screen printer for top printing, wherein the first conveyor is provided at one end with a lifting and curing device for first UV irradiation and second UV irradiation, the lifting and curing device is provided at a position with an ultraviolet lamp, the lifting and curing device is provided at one end with an outlet conveyor, and the outlet conveyor is parallel to the first conveyor.

5. Printing apparatus for UV ink as claimed in claim 4, characterised in that: the first conveying device, the first screen printing machine, the second conveying device, the second screen printing machine, the lifting curing device and the outlet conveying device are all installed on a supporting frame, a shielding cover wraps the supporting frame, and a baffle is arranged between the lifting curing device and the first screen printing machine as well as between the lifting curing device and the second screen printing machine.

6. Printing apparatus for UV ink as claimed in claim 5, characterised in that: first conveyer, second conveyer and export conveyer all include the motor and with the hold-in range mechanism that the motor is connected, the motor is all installed on the support frame with hold-in range mechanism, first conveyer is located first screen printing machine under the position be equipped with the backup pad, second conveyer is located second screen printing machine under the position be equipped with the backup pad.

7. Printing apparatus for UV ink as claimed in claim 5, characterised in that: the lifting curing device comprises a conveying part and a lifting part, wherein the lifting part comprises a supporting fence and electric push rods arranged at four corners of the supporting fence, the electric push rods are arranged on a supporting frame, the conveying part is arranged on the supporting fence, and the conveying part comprises a motor and a synchronous belt mechanism connected with the motor.

8. Printing apparatus for UV ink as claimed in claim 7, characterised in that: the support fence is provided with a frame, and the ultraviolet lamps are uniformly distributed on the inner side of the frame.

9. Printing apparatus for UV ink as claimed in claim 5, characterised in that: the ultraviolet lamps are uniformly distributed on the inner side of the shielding cover surrounding the lifting curing device.

10. Printing apparatus for UV ink as claimed in claim 6, characterised in that: the first conveying device is located first screen printing machine and all is equipped with electric push rod on the support frame that second conveying device is located second screen printing machine's both sides position, electric push rod top still is equipped with the ejector pad, hold-in range mechanism is pressed close to the ejector pad, be equipped with the camera on first screen printing machine and the second screen printing machine.

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