CN211918093U - Digital printing ink-jet control system - Google Patents

Abstract

The utility model provides a digital printing ink-jet control system relates to a digital printing ink-jet control system technical field. This digital printing inkjet control system, including drive signal, anodal, piezoceramics, negative pole, vibrations diaphragm, ink groove and crystal, drive signal's inner wall and anodal inner wall electric connection, anodal inner wall and piezoceramics's inner wall electric connection, piezoceramics's inner wall is provided with the crystal, piezoceramics's inner wall and the inner wall electric connection of negative pole, the inner wall of negative pole and the inner wall fixed connection who shakes the diaphragm, the inner wall of vibrations diaphragm and the inner wall fixed connection of ink groove. The digital printing ink-jet control system is connected with the anode through a driving signal, the anode and the cathode are connected with two sides of piezoelectric ceramics, the piezoelectric ceramics surround the outside of an ink tank, and when pulse voltage is applied to a crystal, the volume of the crystal is changed due to voltage reduction, and the volume of the crystal is increased.

Description

Digital printing ink-jet control system

Technical Field

The utility model relates to a digital printing ink-jet control system technical field specifically is a digital printing ink-jet control system.

Background

Digitalization has become a task that various industries have to complete at present, the wide application of digital technology has also pushed the continuous development of inkjet printing technology, the initial attempt of inkjet printing equipment to enter the printing industry is from digital inkjet output film, with the continuous improvement of inkjet printing resolution and production speed, an inkjet printer has begun to appear as digital camera output equipment that can directly print digital pictures, and at present, inkjet printers for outputting various digital information are generally used in many fields.

However, the inkjet digital printing systems on the market today have several disadvantages, single application, poor printing quality, poor safety and high maintenance costs, while inkjet printing is constantly trying to combine a multitude of production processes and advanced materials in order to work in more fields.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model discloses try to overcome above defect, consequently the utility model provides a digital printing ink-jet control system to the effect of digital printing ink-jet control has been reached.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the utility model provides a digital printing ink-jet control system, includes drive signal, anodal, piezoceramics, negative pole, vibrations diaphragm, ink tank and crystal, drive signal's inner wall and anodal inner wall electric connection, anodal inner wall and piezoceramics's inner wall electric connection, piezoceramics's inner wall is provided with the crystal, piezoceramics's inner wall and the inner wall electric connection of negative pole, the inner wall of negative pole and the inner wall fixed connection who shakes the diaphragm, the inner wall of vibrations diaphragm and the inner wall fixed connection of ink tank.

The outside of ink tank includes ink reservoir, panel, nozzle, ink droplet and printing material, the outer wall of ink tank and the inner wall fixed connection of ink reservoir, the bottom of ink reservoir and the inner wall fixed connection of panel, the nozzle has been seted up to the outer wall of panel, the ink droplet is followed the inner wall blowout of nozzle, there is printing material below the nozzle.

The inside of ink tank includes ink, heating base plate, metal nanoparticle, electric conductivity nanoparticle, mobility nanoparticle and ultraviolet resistance nanoparticle, the inside of ink tank has the ink, the inner wall of ink tank and the outer wall fixed connection of heating base plate, the inside of ink is provided with metal nanoparticle, the inside of ink is provided with electric conductivity nanoparticle, the inside of ink is provided with mobility nanoparticle, the inside of ink is provided with ultraviolet resistance nanoparticle.

Further, the ink is ejected through a nozzle to form an ink droplet.

Further, the inner wall of the positive electrode is electrically connected with the inner wall of the negative electrode through the inner wall of the piezoelectric ceramic.

Further, the metal nanoparticles, the conductive nanoparticles, the flowable nanoparticles, and the ultraviolet resistant nanoparticles cannot be simultaneously present in the interior of the ink.

Further, the ink drops are dropped on the outer wall of the printing material.

(III) advantageous effects

The utility model provides a pair of digital printing ink-jet control system. The method has the following beneficial effects:

1. the digital printing ink-jet control system is connected with a positive electrode through a driving signal, the two sides of piezoelectric ceramics are connected with the positive electrode and a negative electrode, the piezoelectric ceramics surround the outside of an ink tank, when pulse voltage is applied to the crystal, the volume of the crystal is changed and increased due to voltage drop, because the crystal is closely connected with the piezoelectric ceramic, the volume of the piezoelectric ceramic is reduced, the liquid pressure of the piezoelectric ceramic is instantly changed into a positive value, so that the ink drop is extruded out, when the voltage is kept unchanged, the volume of the crystal and the piezoelectric ceramic is unchanged, the pressure is not changed, the volume of the crystal is restored along with the rise of the voltage, the volume of the piezoelectric ceramic is also restored accordingly, when the instantaneous pressure is generated to overcome the surface tension of the liquid, the liquid drop is sucked back under the action of the pressure to break the ejected ink drop.

2. This digital printing inkjet control system, add metal nanoparticle in the ink, can make self demonstration black with the light absorption of various wavelength, add the nanoparticle that has conductivity, thereby can shield static and prepare antistatic printing ink, add the better nanoparticle of mobility and can improve the wearability on printing ink layer, and the nanoparticle that adds the ultraviolet resistance ability can obviously improve the ageing resistance of printing ink, in a word, the addition of nanoparticle makes the performance of printing ink obtain promotion by a wide margin, the addition of nanoparticle can fully embody the wide compatibility of inkjet printing to raw materials, the inkjet printing that has used the nanoparticle ink will improve the printed matter quality from two aspects of production technology and raw materials quality, thereby satisfy higher required industrial production.

Drawings

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

FIG. 2 is a schematic view of the structural piezoelectric ceramic of the present invention;

FIG. 3 is a schematic view of the ink tank of the present invention;

fig. 4 is a schematic view of the structural ink of the present invention.

In the figure: 1. a drive signal; 2. a positive electrode; 3. piezoelectric ceramics; 4. a negative electrode; 5. vibrating the diaphragm; 6. An ink; 7. an ink tank; 8. an ink reservoir; 9. a panel; 10. a nozzle; 11. an ink droplet; 12. a printing material; 13. a crystal; 14. heating the substrate; 15. metal nanoparticles; 16. conductive nanoparticles; 17. a flowable nanoparticle; 18. anti-ultraviolet nanoparticles.

Detailed Description

According to the utility model discloses a first aspect, the utility model provides a digital printing ink-jet control system, as shown in fig. 1-4, including drive signal 1, anodal 2, piezoceramics 3, negative pole 4, vibrations diaphragm 5, ink groove 7 and crystal 13, drive signal 1's inner wall and anodal 2's inner wall electric connection, anodal 2's inner wall and piezoceramics 3's inner wall electric connection, piezoceramics 3's inner wall is provided with crystal 13, there is liquid inside piezoceramics 3, piezoceramics 3's inner wall and negative pole 4's inner wall electric connection, negative pole 4's inner wall and vibrations diaphragm 5's inner wall fixed connection, vibrations diaphragm 5's inner wall and ink groove 7's inner wall fixed connection.

The exterior of the ink tank 7 comprises an ink reservoir 8, a panel 9, nozzles 10, ink drops 11 and a printing material 12, the outer wall of the ink tank 7 is fixedly connected with the inner wall of the ink reservoir 8, the bottom of the ink reservoir 8 is fixedly connected with the inner wall of the panel 9, the outer wall of the panel 9 is provided with the nozzles 10, the outer wall of the panel 9 can be provided with a plurality of nozzles 10, a vibration diaphragm 5 is arranged above each nozzle 10, the ink drops 11 are ejected from the inner wall of the nozzles 10, the printing material 12 is arranged below the nozzles 10, and the printing material 12 refers to various substances which can receive ink or absorb pigments and present pictures and texts.

The ink tank 7 comprises ink 6, a heating substrate 14, metal nanoparticles 15, conductive nanoparticles 16, flowable nanoparticles 17 and ultraviolet-resistant nanoparticles 18 inside, the ink 6 is arranged inside the ink tank 7, the inner wall of the ink tank 7 is fixedly connected with the outer wall of the heating substrate 14, the heating substrate 14 is a high-heat-conductivity substrate formed by combining a high-heat-conductivity medium circuit composed of noble metals and an insulating material with high heat conductivity coefficient, the metal nanoparticles 15 are arranged inside the ink 6, the conductive nanoparticles 16 are arranged inside the ink 6, the flowable nanoparticles 17 are arranged inside the ink 6, and the ultraviolet-resistant nanoparticles 18 are arranged inside the ink 6.

The ink 6 is ejected through the nozzle 10 to form an ink droplet 11.

The inner wall of the anode 2 is electrically connected with the inner wall of the cathode 4 through the inner wall of the piezoelectric ceramic 3.

The crystal 13 is deformed by the positive electrode 2 and the negative electrode 4.

The metal nanoparticles 15, the conductive nanoparticles 16, the flowable nanoparticles 17, and the ultraviolet-resistant nanoparticles 18 cannot be present simultaneously inside the ink 6.

The ink droplets 11 land on the outer wall of the print substrate 12.

The working principle is as follows: the piezoelectric ceramic is connected with the anode 2 through the driving signal 1, the anode 2 and the cathode 4 are connected with two sides of the piezoelectric ceramic 3, the cathode 4 is connected with the vibration diaphragm 5, the vibration diaphragm 5 is connected with the ink tank 7, voltage is generated through the anode 2 and the cathode 4, when pulse voltage is applied to the crystal 13, the volume of the crystal 13 is changed due to voltage reduction, the volume of the crystal 13 is increased, the internal volume of the piezoelectric ceramic 3 is reduced due to the tight connection of the crystal 13 and the piezoelectric ceramic 3, the liquid pressure in the piezoelectric ceramic 3 is instantly changed into a positive value, so that ink drops 11 are extruded out, when the voltage is kept unchanged, the volumes of the crystal 13 and the piezoelectric ceramic 3 are unchanged, so that the pressure is not changed, crystal 13 volume is reset along with the rise of the voltage, the volume of the piezoelectric ceramic 3 is also returned to the original position, a negative pressure is given to the liquid, when the generated instant pressure is enough to overcome the surface tension, the droplet is subjected to a pressure to cause a suck-back phenomenon, thereby breaking the ejected ink droplet 11.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a digital printing inkjet control system, includes drive signal (1), anodal (2), piezoceramics (3), negative pole (4), vibrations diaphragm (5), ink tank (7) and crystal (13), its characterized in that: the inner wall of the driving signal (1) is electrically connected with the inner wall of the anode (2), the inner wall of the anode (2) is electrically connected with the inner wall of the piezoelectric ceramic (3), the inner wall of the piezoelectric ceramic (3) is provided with a crystal (13), the inner wall of the piezoelectric ceramic (3) is electrically connected with the inner wall of the cathode (4), the inner wall of the cathode (4) is fixedly connected with the inner wall of the vibration diaphragm (5), and the inner wall of the vibration diaphragm (5) is fixedly connected with the inner wall of the ink tank (7);

the outside of ink tank (7) includes ink reservoir (8), panel (9), nozzle (10), ink droplet (11) and bears printing material (12), the outer wall of ink tank (7) and the inner wall fixed connection of ink reservoir (8), the bottom of ink reservoir (8) and the inner wall fixed connection of panel (9), nozzle (10) have been seted up to the outer wall of panel (9), ink droplet (11) are from the inner wall blowout of nozzle (10), there is bearing printing material (12) below nozzle (10).

2. A digital printing ink jet control system according to claim 1 wherein: the ink (6) is ejected through a nozzle (10) to form an ink droplet (11).

3. A digital printing ink jet control system according to claim 1 wherein: the inner wall of the positive electrode (2) is electrically connected with the inner wall of the negative electrode (4) through the inner wall of the piezoelectric ceramic (3).

4. A digital printing ink jet control system according to claim 1 wherein: the ink drops (11) are dropped on the outer wall of the printing material (12).

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