CN210545978U - Low liquid volume ultrasonic spraying system - Google Patents

Abstract

The utility model relates to a liquid spraying field discloses an ultrasonic spraying system of low liquid measure, and it includes ultrasonic shower nozzle, XYZ triaxial movement module, liquid feed pump and hot plate etc. and on the ultrasonic shower nozzle was fixed in Z axle module, the liquid feed pump passed through the transfer line and is connected with ultrasonic shower nozzle, and ultrasonic shower nozzle below is arranged in to the hot plate. Wherein the liquid supply pump in the system is fixed on the Z-axis module and is positioned above the ultrasonic spray head, and the liquid conveying pipe is directly connected to the liquid inlet of the ultrasonic spray head from the outlet of the liquid supply pump and does not pass through the XYZ triaxial movement module. Therefore, the length of the infusion pipeline is greatly shortened, and the required spraying liquid amount is reduced. Meanwhile, the liquid supply pump, the liquid conveying pipe and the ultrasonic spray head do not move relatively during spraying, so that the spraying liquid supply amount is more stable.

Description

Low liquid volume ultrasonic spraying system

Technical Field

The utility model relates to a liquid spraying field, concretely relates to ultrasonic spraying system of low spraying liquid measure.

Background

With the development of nano material technology, the application of nano functional coatings becomes more extensive and is widely applied to the manufacturing fields of metal, glass, textiles, non-woven fabrics, paper and the like, and the functional coatings comprise: super-hydrophobic or super-hydrophilic coatings, thermal barrier coatings, antimicrobial coatings, antireflective coatings, and the like. The industrialization of the preparation of nanoscale films and functional coatings is also increasingly demanded. Conventional coating preparation methods for large-area continuous production type include roll coating, dip coating, blade coating, two-fluid spraying, screen printing, and the like. The coatings prepared by the traditional coating processes such as roll coating, dip coating, blade coating and the like are generally thicker, and the preparation of the nanoscale uniform coating is difficult to realize. Two-fluid spraying causes a large amount of waste of coating due to atomization based on high kinetic energy generated by high-pressure gas and liquid. Screen printing can only produce very thick coatings because of the large amount of liquid coating that can be retained on the screen. And because the atomized particles sprayed by the two-fluid spraying are uneven and the spraying flow rate is uncontrollable, and the precision of roll coating, dip coating, blade coating and screen printing is limited, the uniformity of the obtained coating is poor, and the good functionality of the nano coating is difficult to realize.

The ultrasonic spraying mode is being applied to the preparation of nano-scale films as a novel technology, the amplitude of ultrasonic waves emitted by an ultrasonic transducer is increased through an ultrasonic amplitude transformer, so that liquid or solid particle suspension with high viscosity can be atomized, and liquid mist is uniformly sprayed out by applying compressed gas in a specific trend. The ultrasonic spraying has the advantages of uniform spraying and controllable flow, and can realize the preparation of the film under the normal temperature and pressure environment, so that the large-scale production of the nano-scale film becomes possible.

An automatic ultrasonic spraying system generally moves an ultrasonic spray head through an XYZ three-axis motion module to perform reciprocating spraying on a substrate, and a liquid supply pump is fixed outside the three-axis motion module and connected with the ultrasonic spray head through a liquid conveying pipe. The liquid conveying pipe penetrates through and is fixed on the three-axis movement module, the liquid supply pump is fixed outside the movement module during working, sprayed liquid is conveyed to the ultrasonic spray head through the liquid conveying pipe, and the liquid conveying pipe and the ultrasonic spray head move along with the movement module. This type of tubing tends to be relatively long and requires a relatively large amount of coating fluid to be stored in the tubing. The larger the spraying area is, the larger the length of the three-axis movement module is, so that the larger the length of the liquid conveying pipe is, and more coating liquid is stored. For example, a 100mm by 100mm area may be sprayed, the coating fluid stored in the tubing may be more than 5ml, while the fluid required to actually spray the coating onto the substrate may need only 0.1 ml. This requires a large amount of coating liquid to be sprayed, which is difficult to spray in the case of expensive coatings or insufficient amounts of coating. In addition, the long infusion tube causes the controllability of the liquid supply pump to the liquid to be correspondingly reduced, which often causes unstable liquid supply.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model aims at providing a little play ultrasonic spraying system who spouts the volume, and avoid causing the spray solution volume unstable because transfer line overlength and motion.

(II) technical scheme

In order to solve the technical problem, the utility model provides a low liquid measure ultrasonic spraying system, it includes ultrasonic spray head, XYZ triaxial movement module, liquid feed pump and hot plate etc. and on the ultrasonic spray head was fixed in Z axle module, the liquid feed pump passed through the transfer line and is connected with ultrasonic spray head, and ultrasonic spray head below is arranged in to the hot plate. Wherein, the feed pump is also fixed on the Z axle module to be in the top position that is close to the supersound shower nozzle, the transfer line from the feed pump export lug connection to the inlet of supersound shower nozzle, not pass through XYZ triaxial movement module, no relative motion is had with supersound shower nozzle to feed pump, transfer line during spraying work.

The liquid supply pump is a micro-injection pump and comprises a driving motor, an injector, a sliding block, a lead screw and a fixed clamp; the injector is fixed above the screw rod by a fixing clamp, and the driving motor drives the screw rod to push the sliding block and the injector, so that the injector conveys liquid into the infusion tube.

The liquid supply pump may be one or a combination of a plurality of pumps.

(III) advantageous effects

The utility model provides a low liquid measure supersound spraying system, the feed pump in the system is fixed on Z axle module wherein to be in the top position that is close to the ultrasonic spray head, the transfer line is from the inlet of feed pump export lug connection to ultrasonic spray head, not through XYZ triaxial movement module. Therefore, the length of the infusion pipeline is greatly shortened, and the required spraying liquid amount is reduced. Meanwhile, the liquid supply pump, the liquid conveying pipe and the ultrasonic spray head do not move relatively during spraying, so that the spraying liquid supply amount is more stable.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of a low liquid volume ultrasonic spray system according to the present invention.

Fig. 2 is a schematic diagram of a liquid supply pump of the low-liquid-volume ultrasonic spraying system in fig. 1.

In the figure, 1: a liquid supply pump; 1-1: a drive motor; 1-2: an injector; 1-3: a slider; 1-4: a lead screw; 1-5: fixing the clamp; 2: an ultrasonic spray head; 3: an XYZ three-axis motion module; 4: heating plates; 5: a transfusion tube; 6: and fixing the Z-axis plate.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

Fig. 1-2 show a preferred embodiment of a low liquid volume ultrasonic spray system according to the present invention. As shown in fig. 1, the low-liquid-volume ultrasonic spraying system comprises an ultrasonic spray head 2, an XYZ three-axis motion module 3, a liquid supply pump 1, a heating plate 4 and the like, wherein the ultrasonic spray head 2 is fixed on a Z-axis module fixing plate 6, the liquid supply pump 1 is connected with the ultrasonic spray head 2 through a liquid conveying pipe 5, and the heating plate 4 is arranged below the ultrasonic spray head 2. Wherein, the liquid feed pump 1 is also fixed on the Z-axis module fixing plate 6 and is positioned above the ultrasonic spray head 2, the liquid conveying pipe 5 is directly connected to the liquid inlet of the ultrasonic spray head 2 from the outlet of the liquid feed pump 1 and does not pass through the XYZ three-axis movement module 3, and the liquid feed pump 1, the liquid conveying pipe 5 and the ultrasonic spray head 2 do not have relative movement during spraying. In this embodiment, the liquid supply pumps 1 are two side-by-side combinations.

As shown in fig. 1 and 2, a liquid supply pump 1 is a micro-syringe pump, which includes a driving motor 1-1, an injector 1-2, a slider 1-3, a lead screw 1-4, and a fixing clip 1-5. The sprayed liquid is filled in an injector 1-2, the injector 1-2 is fixed above a lead screw 1-4 by a fixing clamp 1-5, and a driving motor 1-1 drives the lead screw 1-4 to push a slide block 1-3, so that the injector 1-2 is pushed to convey the liquid into an infusion tube 5.

According to the utility model discloses a low liquid measure ultrasonic spraying system, accessible feed pump 1 will want the liquid of spraying to carry to ultrasonic spray head 2 through transfer line 5, and ultrasonic spray head 2 will want the liquid atomizing of spraying after spraying to form even fine and close coating on the substrate of hot plate 4 tops. The XYZ three-axis motion module 3 drives the ultrasonic nozzle 2 to move according to a preset track in the spraying process. Because the liquid feed pump 1 in the low-liquid-volume ultrasonic spraying system is fixed on the Z-axis module fixing plate 6 and is positioned above the ultrasonic spray head 2, the liquid conveying pipe 5 is directly connected to the liquid inlet of the ultrasonic spray head 2 from the outlet of the liquid feed pump 1 and does not pass through the XYZ three-axis movement module 3. Thereby greatly shortening the length of the transfusion pipeline 5 and reducing the required spraying liquid amount. Meanwhile, the liquid supply pump 1, the liquid conveying pipe 5 and the ultrasonic spray head 2 do not move relatively during spraying, so that the spraying liquid supply amount is more stable.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (3)

1. The utility model provides a low liquid measure supersound spraying system, including the supersound shower nozzle, XYZ triaxial movement module, liquid feed pump and hot plate etc, the supersound shower nozzle is fixed in on the Z axle module, the liquid feed pump passes through the transfer line and is connected with the supersound shower nozzle, supersound shower nozzle below is arranged in to the hot plate, a serial communication port, the liquid feed pump is also fixed on the Z axle module, and be in the top position near the supersound shower nozzle, the transfer line is from the inlet of liquid feed pump export lug connection to supersound shower nozzle, do not pass through XYZ triaxial movement module, the spraying during operation liquid feed pump, the transfer line.

2. The low-liquid-volume ultrasonic spraying system according to claim 1, wherein the liquid supply pump is a micro-injection pump which comprises a driving motor, an injector, a slide block, a lead screw and a fixed clamp; the injector is fixed above the screw rod by a fixing clamp, and the driving motor drives the screw rod to push the sliding block and the injector, so that the injector conveys liquid into the infusion tube.

3. The low volume ultrasonic spray system of claim 1, wherein the fluid supply pump is a plurality of combinations.

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