1. Field of the Invention
The present invention is directed to a fluid mixing device. Specially, the present invention is directed to a fluid mixing device for optionally mixing three different fluids.
2. Description of Related Art
In the chemical reaction, the uniformity of mixing in fluids is an important factor for the completeness of the reaction. On the other hand, when two fluid phases are mixed, it is also desired to allow two fluid phases uniform or contact each other completely. U.S. Pat. No. 3,601,318 discloses an apparatus for mixing liquids comprising a pipe for flowing a process liquid. It can be observed along the direction of the flow that a bore of the pipe is narrowed to form a throat and a portion downstream of the throat is wider than the throat. Further, lots of nozzles are positioned around the periphery of the pipe and open into the pipe. The feed liquid can be mixed into the process liquid through these nozzles.
U.S. Pat. No. 4,285,367 discloses a device for mixing fluids comprising a first fluid feed tube whereas lots of channels are disposed around an outlet of the first fluid feed tube. The second fluid spouts toward the center to conduct the first mixing with the first fluid through these channels. The second mixing is conducted due to the fluid impact reflection in the concave disc positioned below the first fluid feed tube. However, although such technology may achieve a fast and uniform mixing effect, the vibration is more likely to happen because of the high second fluid spouting velocity and the huge impact against the dish. Moreover, when the second fluid is easy to condense or has high viscosity, the recourse is put off or the driving force is insufficient as a result of the pluuged channels, and then the difficulties of maintenance and cleanness works will increase.
Chinese Patent No. 102399188 discloses a method for preparing caprolactam by conducting the transposition reaction of cyclohexanone oxime in a hypergravity reactor. Compared with a conventional static mixer, it may have a better mixing efficiency and also consumes more energy.
Chinese Patent No. 103007869 discloses a three liquid phase material feeding nozzle comprising a first liquid feeding tube. The second flow spouts toward the center for mixing via a plurality of channel openings surrounding the periphery of the tube. Subsequently, the second flow flows along the original feeding direction, and be dispersed a ring type by the columnar stopper. Thereafter, the third flow spouts toward the center for mixing via a plurality of channel openings surrounding the periphery of the tube, and then conducts to mix the liquids again. However, the mixing efficiency for such mixing method still needs to be improved.
The present invention provides a fluid mixing device comprising a double pipe comprising an inner pipe body having a first inlet and an opposing first outlet, an outer pipe body surrounding the inner pipe body and having a second inlet and an opposing second outlet, and a plurality of stoppers disposed between the inner pipe body and the outer pipe body to form a plurality of channel openings between the inner pipe body and the outer pipe body; a feed hopper for housing the double pipe and having a funnel-shaped. channel, a third inlet and an opposing third outlet, wherein the third outlet is positioned at the bottom of the funnel-shaped channel and corresponding in position to the first outlet and the second outlet of the double pipe; and a mixing chamber disposed below the funnel-shaped channel and having a concave disc positioned below the third outlet, a plurality of guide plates surrounding the concave disc, wherein an included angle formed between a surface of each of the guide plates and the radial direction of the concave disc ranges from 0° to 75°.
The fluid mixing device of the present invention has three feeding manner such as inner layer, middle layer and outer layer. It makes the fluid split into two feeding streams, and can reduce a subjected impact for the concave disc to avoid vibrations via the multi-level fluid confluence and it does not reduce the mixing effects. In addition, the fluid mixing device of the present invention may optimally mix three different fluids, and meanwhile, improves the plugged channels caused by not smooth flow ,which is easy to condense or has high viscosity.
FIG: 1 is a schematic depiction of the assembled fluid mixing device of the present invention,
The following specific examples are used for illustrating the technical contents and the embodiments of the present invention. A person skilled in the art can easily conceive the advantages and effects of the present invention. The present invention can also be implemented or applied by different specific cases. The details of the present specification can also be based on different perspectives and applications in various modifications and changes without departing the spirit of the disclosure.
It should be noted that the structure, ratio, size, etc. shown in the drawings of the present specification are merely illustrative to realize and read for those of ordinarily skilled in the art and not intended to limit the scope of the present invention, and there is no substantial meaning in techniques. Various modifications and variations based on different viewpoints and applications can be made in the details of the specification without departing from the spirit of the present invention. Further, terms “upper”, “lower”, “front”, “back”, and “a/an” etc. are merely for illustrative purpose and should not be construed to limit the scope of the present invention.
As shown in
Further referring to the partially enlarged schematic depiction of the double pipe 1 shown in
The number of the channel openings 15 divided by the stopper 13 can be any suitable quantity, such as 2 to 20, preferably 4 to 10. The width of the channel opening can be any suitable width, and the suggested width is more than 1 mm, preferably ranges from 2 to 6 mm. The suggested thickness is more than 5 mm, preferably ranges from 1 to 4 mm. The channel openings having the above width and thickness can reduce the risk of the plug.
The retaining rings 14a, 14b are optically used to support the inner pipe body 11 so that the inner pipe body 11 and the outer pipe body 12 can be kept at a fixed distance. The number of the retaining rings can be any suitable quantity, preferably at least 2, so as to help the stopper 13 supporting the inner pipe body 11.
Moreover, as shown in
Further referring to
Referring to
The size of each inlet and outlet of the pipe of the present invention can he designed based on the diameter of the third outlet. For example, if the diameter of the third outlet is set as D, the diameter of the second inlet of the double pipe is about 0.9 D to 1.5 D, preferably 1 D to 1.3 D; the diameter of the second outlet 12a is about 0.3 D to 0.9 D, preferably 0.4 D to 0.6 D; the diameter of the first inlet is 0.2 D to 0.8 D, preferably 0.3 D to 0.6 D.
In addition, the suitable diameter of the concave disc 31 positioned below the third outlet 22 is 0.6 D to 3 D. The suitable distance from the third outlet 22 to the center of the concave surface of the concave disc 31 is 0.2 D to 2 D.
Each inlet and outlet may have different fluid velocity. For example, the fluid velocity through the first outlet 11a is set as 5 to 20 m/s, preferably 8 to 11.4 m/s; the fluid velocity through the second outlet 12a is 5 to 20 m/s, preferably 8 to 12.41 m/s; the fluid velocity through the third outlet 22 is 5 to 20 m/s, preferably 8 to 11.55 m/s.
Meanwhile, each pipe may have different temperature. When a fluid with a high temperature is introduced to the inner pipe body, the plugged channels caused by the condensation of the fluid flowing in the interval between the pipes can be avoided. For example, if the solidifying point of the fluid flowing in the interval between the pipes is 90°, the temperature of the fluid flowing in the inner pipe body can be 100°.
The fluid mixing device can optically mix two or three fluids. When the different fluids are introduced to the outside or outside of the double pipe, respectively, the fluid of the interval is dispersed into multiple columnar fluids by the stoppers at the spouting port. Meanwhile, because of the structure design about the inward adjusting angle, the first mixing is generated at the place where another fluid spout from the inner pipe body is mixed with the fluid. Later, the first mixing fluid lashes the concave disc positioned at the bottom of the mixing chamber to provide a reflecting fluid. The reflecting fluid encounters the follow-up first mixing fluid to generate the second mixing. The third fluid (or one of above two fluids) flows down from the feed hopper along the hopper wall in a rotating manner and forms a circular fluid at the periphery of the disc. Subsequently, the third fluid encounters the dispersed fluid after lashing the disc to provide the third mixing. After that, all of fluids after lashing and mixing are radially dispersed from the guide plates. By this device, the various fluids can be mixed many times to achieve the effects that each fluid mix sufficiently and evenly so that the vibration is reduced and the lifespan of this device is increased.
Further, when this device is applied in the reaction, it can remove the reaction heat quickly. In addition, when the fluid with a high temperature is introduced to the inner pipe body, the plugged channel caused by the condensation of the fluid flowing in the interval between the inner pipe body and outer pipe body can he avoided.
Although the device of the present invention has three pipe layers, it can also mix only two fluids. When the device mixes two fluids, the second fluid can be split into two feeding streams, such as the first inlet and the third inlet. Such two feeding streams s can be the same fluid, such as the second fluid, so as to reduce the impact of the disc and the vibration.
The above-described descriptions of the detailed embodiments are only to illustrate the principle and efficacy of the present invention, and it is not to limit the present invention. it is possible for one person skilled in the art to modify the above embodiments without departing from the spirit and scope of the present invention. The scope of present invention, therefore, should be defined by the appended claims.
Number | Date | Country | Kind |
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102223698 | Dec 2013 | TW | national |