This application claims the priority benefit of Taiwan application serial no. 103120563, filed on Jun. 13, 2014. The entirety of the above-mentioned patent application is hereby incorporated by reference herein and made a part of this specification.
The disclosure relates to an extrusion device and a coating system; more particularly, the disclosure relates to a quantitative and circulatory extrusion system, which is used particularly for quantitatively controlling a liquid solution that contains particles or is easy to be deposited or layered after standing for a long time in a coating system.
Currently, various kinds of spraying systems are greatly adopted in different types of thin-film manufacturing process. However, in the various kinds of spraying systems currently adopted in the market, the issue most commonly seen is poor evenness presented in discharges from a solution containing suspended particles. Particularly, the spraying system currently adopted in the market is gradually applied on techniques of processing optical films and other ultra-thin films. Accordingly, standards for controlling flow amounts and desired flow amounts of a liquid solution delivery system have become more stringent. In addition, a coating process is only processed after a liquid solution having fine particles, such as a fluorescent paint and a colored paint, is mixed by blending or by an internal circulation. However, the following defect still exists regardless of applications of a blending drum or an internal circulation. For example, an issue of deposition and layering has existing in a process of delivering a liquid solution which is blended and mixed evenly to an exit. Besides, considerations cannot be given to functions of accurately measuring and monitoring amounts of the liquid solution which is discharged from the exit when the internal circulation device is applied.
The disclosure provides an extrusion device, which contains components and structures for quantitative extrusion and internal circulation, and is configured for extruding a fluid quantitatively and has functions of circulating and blending the fluid.
The disclosure provides a coating system having the aforementioned extrusion device for quantitatively spraying a fluid on a target workpiece.
An embodiment of the disclosure provides an extrusion device including a container, a pump, a plurality of pipes, and an adjustment device. The container has a chamber, and a first inlet/outlet and a second inlet/outlet connected to the chamber, wherein the chamber is adapted to contain a fluid. The plurality of pipes are connected between the pump and the first and second inlet/outlets of the container, so as to form a fluid loop. The pump is adapted to drive the fluid to flow inside the fluid loop. The adjustment device is coupled to the container for adjusting a volume of the chamber.
An embodiment of the disclosure provides a coating system, which includes a container, a pump, a nozzle, a plurality of pipes, and an adjustment device. The container has a chamber, and a first inlet/outlet and a second inlet/outlet connected to the chamber, wherein the chamber is adapted to contain a fluid. The plurality of pipes are connected among the pump, the nozzle, the first inlet/outlet, and second inlet/outlet of the container, so as to form a fluid loop. The pump is adapted to drive the fluid to flow inside the fluid loop. The adjustment device coupled to the container is adapted to adjust a volume of the chamber to eject the fluid from the nozzle.
In view of the above, the extrusion device of the disclosure contains a container having volumes to be changeable, and is adapted to contain a liquid. The container has a chamber and at least two or more inlet/outlets connecting to the chamber, wherein pipes and a pump are connected to the plurality of inlet/outlets to form a fluid loop. The extrusion device includes an adjustment device which is capable of adjusting volumes of the chamber, so as to push out the fluid quantitatively.
In addition, the container of the disclosure may include an outer feeder and a push rod. The push rod has a channel and a second inlet/outlet. The second inlet/outlet is connected to the chamber via the channel, and the second inlet/outlet may also be connected to the pipes which deliver the fluid. Accordingly, in the disclosure, the container and the pump may form a fluid circulation loop via the plurality of pipes. The fluid may enter the container via the channel of the push rod. The fluid, such as a liquid solution is extruded from the inlet/outlets of the container quantitatively and delivered in a circulated manner through the pipes by pushing the push rod in the outer feeder, and being pumped by the pumping force (extracting force and pushing force) from the pump. On another aspect, the extrusion device of the disclosure may also be connected to a nozzle via the delivery pipes to form a coating system. By controlling the adjustment device, the extrusion device is driven to extrude the fluid quantitatively and then the fluid can be ejected from the nozzle via the pipes, while another portion of the fluid is returned to the container by the pumping force. Thus, the fluid can be circulated and blended to avoid particles in the fluid from being deposited or layered. In summary, the coating system of the disclosure can provide quantitative extrusion by the extrusion device, and have the function of circulation and blending for preventing deposition or layering of the fluid.
Several exemplary embodiments accompanied with figures are described in detail below to further describe the disclosure in details.
The accompanying drawings are included to provide a further understanding of the disclosure, and are incorporated in and constitute a part of this specification. The drawings illustrate embodiments of the disclosure and, together with the description, serve to explain the principles of the disclosure.
Reference will now be made in detail to the present preferred embodiments of the disclosure, examples of which are illustrated in the accompanying drawings. Wherever possible, the same reference numbers are used in the drawings and the description to refer to the same or like parts.
In the present embodiment, the container 120 of the extrusion device 100, for example, is an injection pump, which has an outer feeder 126 and a push rod 140 provided with a piston 130 disposed thereon. The outer feeder 126 has the first inlet/outlet 122 for extruding the fluid 150 from the container 120 to the fluid loop 190. The push rod 140 is slidably disposed inside the chamber 124, and a size of the volume of the chamber 124 is defined by the outer feeder 126 and the push rod 140 together, such that the size of the volume of the chamber 124 can be changed by the adjustment device 180 when driving push rod 140 to move in relative to the outer feeder 126. Specifically, referring to
In the previous embodiment of the disclosure, the extrusion device 100 is illustrated by taking an injection pump as an example, but the disclosure is not limited thereto.
With reference to
The container 310 of the present embodiment includes a push rod 312 and an outer feeder 314. The fluid 350 contained by the container 310 may flow out through the first inlet/outlet 317 of the outer feeder 314. And, the fluid 350 driven by the pump 330 returns back to the chamber 316 through the fluid loop 345 formed of the plurality of the components, the second inlet/outlet 318 of the push rod 312, and a channel 319. Accordingly, in a coating process of the disclosure, the fluid 350 flowing through the pipe 340 connected to the nozzle 320 but not ejected by the nozzle 320 is driving by the pump 330 and returns back to the chamber 316 of the container 310 in circulation manner. Since the unused fluid 350 returns back to the chamber 316 of the container 310 in circulation manner, the fluid 350 (e.g. liquid solution) can be prevented from being deposited and layered. Furthermore, the adjustment device 380 comprising a driving device 382 and a transmission element 384 (e.g. a screw) drives the push rod 312 to move at a constant speed in the outer feeder 314 from, for example, the first height hl to the second height h2 in a vertical direction, so as to change the volume of the chamber 316. When the volume of the chamber 316 is changed at the constant speed by the push rod 312, the fluid 350 in the container 310 is extruded to the nozzle 320 at the constant speed to perform a coating process. Accordingly, amounts of the fluid 350 ejected from the nozzle 320 within a specific time period can be controlled, such that coating on each part of the coated workpiece is uniform and precise. Moreover, the nozzle 320 in the present embodiment may be, such as, but not limited to, a single fluid nozzle, a two stream nozzle, an ultrasonic nozzle, a slit die nozzle, a piezo nozzle, or a thermo-compression nozzle and so on.
The coating system 300 of the present embodiment may further include a liquid solution feeder 390 and a liquid supply pipe 360 connected to the liquid solution feeder 390. The liquid solution feeder 390 delivers the fluid 350 to the fluid loop 345 via the liquid supply pipe 360. In addition, an on-off valve 372 for extraction may be arranged between the liquid solution feeder 390 and the fluid loop 345 for controlling open and close of the liquid supply pipe 360. Furthermore, the liquid solution feeder 390 of the present embodiment may further include a blender (not shown) for properly and evenly blend a liquid solution, so as to prevent the liquid solution from be deposited and layered due to difference of density among components of the liquid solution. On another aspect, a blending speed or a blending manner of the blender may be adjusted and varied along with varieties or viscosity of the liquid solution.
With reference to
In summary, the disclosure discloses an extrusion device and a coating system containing the extrusion device. The extrusion device includes a first inlet/outlet and a second inlet/outlet, and may contain a fluid inside a container of the extrusion device, wherein the first inlet/outlet is adapted to allow the fluid inside the container to flow out, and the second inlet/outlet is adapted to allow the fluid circulated inside a fluid loop to flow back to the container via the second inlet/outlet. In addition, the container disclosed in the disclosure has a chamber, and a size of the chamber may be changed by adjusting an adjustment device. The adjustment device may change the size of the chamber for a fixed quantity at a constant speed, and at the same time, quantitative extrusion and quantitative supplying of the liquid solution in a process may be achieved with changes of volume inside the chamber. Furthermore, components of the coating system of the present embodiment includes the container, a nozzle and a pump, and so on, for connecting and forming a circulated fluid loop, such that an unused liquid solution passing through the nozzle and pipes in a coating process may quickly be circulated back to the container by a driving of dynamic force of the pump and delivering pipes to avoid generations of deposition or layering due to unevenness of the liquid solution in the process. On another aspect, the coating system of the disclosure further includes a liquid solution feeder and a liquid supply pipe, such that the coating system may supply the liquid solution from the liquid solution feeder to the container with a level change of the fluid in the container. Moreover, the liquid solution feeder of the disclosure may further include a blending device for blending a liquid solution with a proper blending speed and method so as to prevent the liquid solution from deposition and layering due to different component densities and uneven distributions of the liquid solution. Accordingly, the coating process presents more even spraying effects and quality thereof is further improved.
Although the disclosure has been disclosed with reference to the aforesaid embodiments, they are not intended to limit the disclosure. It will be apparent to those skilled in the art that various modifications and variations can be made to the structure of the disclosed embodiments without departing from the scope or spirit of the disclosure. In view of the foregoing, it is intended that the disclosure cover modifications and variations of the specification provided they fall within the scope of the following claims and their equivalents.
Number | Date | Country | Kind |
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103120563 | Jun 2014 | TW | national |