JP4297707B2 - Equipment for continuous preparation of microdroplets - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to equipment for continuously preparing microdroplets for continuously producing various microdroplets (same as emulsions).
[0002]
[Prior art]
In the fields of energy, agricultural chemicals, medical care, cosmetics, and foods, the fine liquid droplets of the subject of the invention are subjected to a heat treatment in the processing unit after emulsifying a plurality of stock solutions with a disperser. Etc. to produce intermediates and products. Document 1 is an example of producing a heavy oil emulsion using the continuous preparation facility (hereinafter referred to as a production plant) shown in FIG. In this manufacturing plant, a raw solution (asphalt) 1 and a raw solution (surfactant aqueous solution) 2 are introduced and mixed into a line mixer 5 by pumps 3 and 4, respectively, and are mixed with hot water 7 introduced from the pump 6 into a static mixer 8. Emulsified while being guided and mixed, and further, a product emulsion in which coarse particles are reduced is continuously made through a cooler 9 as a processing section. On the other hand, Document 2 was previously developed by the present inventors and is an example of producing a sustained-release composite emulsion for microcapsules by the production plant of FIG. In this manufacturing plant, a plurality of vibro mixers 50A to 50D having a stirring body 42 are used. The stock solution (aqueous phase) A and the stock solution (oil phase) B are introduced into the first-stage vibromixer 50A via the pumps 51a and 51b and the valves 52a and 52b, and then mixed, and then the second and subsequent stages. In the Vibro mixer 50B, a W / O emulsion as an intermediate is prepared. The W / O type emulsion is sent to the third stage vibrator mixer 50C and mixed therewith with the stock solution (aqueous phase) C introduced through the pump 51c and the valve 52c, and then the fourth and subsequent stage vibrators. A W / O / W emulsion (D) is prepared by mixers 50D and 50E.
[0003]
[Patent Document 1]
JP-A-7-310082 (page 2-6, FIG. 1)
[Patent Document 2 ]
Japanese Patent Laid-Open No. 11-349688 (page 2-6, FIGS. 4 and 5)
[0004]
[Problems to be solved by the invention]
In the production of the above micro droplets, it is usually important to make the droplet diameter uniform in terms of quality. Considering a disperser for mass production (for example, whether to use rotary stirring or vibration stirring if mechanical) ) And the operating conditions are repeatedly tested. Manufacturing plants are constructed as optimal through such examination and testing, and subsequent changes in operating conditions are extremely limited. However, this type of microdroplet is constantly being studied for performance improvement and multi-functionalization, and changes in the combination of raw solutions, blending / concentration, etc., as well as changes in the target droplet diameter, etc. are performed relatively frequently. In a conventional manufacturing plant, if it is not possible to cope with the operating conditions of an existing disperser or the like, there is a problem that the cost of rebuilding the equipment increases and the operation stoppage is prolonged.
[0005]
The present invention has been devised from the above background. Its purpose is to make it easy to cope with changes in operating conditions and is excellent in versatility, and it can eliminate the obstacles to improving the quality of micro droplets by making it possible to avoid equipment renovation and shutdown as much as possible. Like that. Other purposes will be clarified in the following description.
[0006]
[Means for Solving the Problems]
The present invention for achieving the above object, when identified in the example of FIG. 1 is used for a continuous preparation of infinitesimal droplets containment functional substance in the particles, Ya stock solution containing a dispersant and a surfactant A liquid supply unit 1 provided with a plurality of storage tanks 10a to 10c for storing a stock solution containing a functional substance, dispersers 2 and 3 for introducing each stock solution A to C from the storage tank, stirring and mixing, and emulsifying, and the disperser In the continuous preparation equipment for fine droplets having a post-treatment unit 4 for introducing a more emulsified liquid into the tank body 30 and subjecting it to heat treatment, the tank body 20 is equipped with a mechanical stirring mechanism as the disperser. A second disperser 3 equipped with an ultrasonic stirring mechanism in the disperser 2 and the tank body 25, and a liquid that allows the liquid in the storage tank to be introduced into the tank body 20 of the first disperser 2 from the liquid supply unit 1. 1 piping system 11, 12, 13 and the tank body 20 of the first disperser 2 A second piping system 14 that allows liquid to be introduced into the tank body 25 of the second disperser 3, and a third piping system 15 that allows liquid to be introduced from the second disperser 3 into the post-treatment unit 4, A fourth piping system 16 that connects the first piping system 13 and the third piping system 15 and enables the liquid in the storage tank to be introduced from the liquid supply section 1 into the tank body 30 of the post-processing section 4; The fourth disperser 3 is connected to the fourth piping system 16 and the second piping system, and passes from the liquid supply unit 1 through the first and fourth piping systems and a part of the second piping system 14. And a fifth piping system 17 that enables the liquid in the storage tank to be introduced into the tank main body 25 as a unit, and a part of the fourth piping system and / or the fifth piping system is constituted by a line mixer. It is characterized by that.
[0007]
(Convention points, etc.) The above invention facilities (manufacturing plant) can be used as follows. (1) As a form in which each stock solution is stirred and mixed to emulsify, for example, a mode of emulsifying while sequentially sending to the first disperser and the second disperser and sending to the post-processing section, emulsifying with the second disperser A mode of sending to the post-processing unit, a mode of emulsifying with a line mixer of the first piping system to the fourth piping system and sending to the post-processing unit, and the like can be selected. Details will be described later.
(2) Since the first disperser and the second disperser comprising different agitation mechanisms are equipped as standard, the agitation mode is wide, thereby enabling the droplet diameter of the target fine droplets to be controlled in a wide range, It is easy to cope with changes in operating conditions that occur after the construction of a manufacturing plant.
(3) The above points are highly versatile as a production plant.For example, it is effective and convenient for setting tests for optimum operating conditions during initial operation and change, and it is possible to improve the facility remodeling or stop the operation. Costs can be reduced with less time.
[0008]
(4) Furthermore, the first disperser is a mechanical stirring mechanism that applies mechanical shearing force and vibration, and the second disperser is an ultrasonic stirring mechanism that irradiates ultrasonic waves, that is, the disperser is a machine. Therefore, the optimum emulsification conditions can be carefully tested and mass-produced. For example, pre-emulsification is performed by the mechanical stirring mechanism of the first disperser, and then the ultra-dispersion of the second disperser is performed. The sonic mechanism facilitates emulsification and makes the droplet diameter uniform.
(5) In addition, if the mechanical first disperser is constituted by a plurality as in claim 2, it is possible to use as shown in FIG. That is, as an example, the W / O emulsion of Document 2 is prepared in the first stage of the mechanical type, and the W / O type emulsion is introduced into the second stage of the next mechanical type, where it is mixed and stirred with other stock solutions. In this manner, a W / O / W type emulsion is prepared.
(6) In addition, since the above-described invention equipment has a part of the fourth piping system and / or the fifth piping system configured by a line mixer, the post-processing unit is emulsified by the line mixer as described above. Or a mode in which the stock solution is pre-emulsified with a line mixer in the process of introducing the stock solution into the second disperser.
(7) In addition, in the above invention facilities, microdroplets containing a functional substance (core substance) in the particles can be controlled and sequestered and sequestered by the appropriate selection and preparation of the core substance. Various functions can be added according to the purpose such as reduction, solidification of liquid, masking of odor and taste. In production, each stock solution (water phase, oil phase, etc.) is emulsified with a disperser, and after completion of polymerization in the post-treatment section, it is filtered and dried. To achieve high quality, the emulsification (emulsion) is uniform. It is important to refine the structure, and the present invention functions most effectively because it is tested for the selection of the type of the disperser and the optimum operating conditions together with the concentration, temperature, mixing ratio, etc. of each stock solution.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows a basic form to which the present invention is applied, FIG. 2 shows a modified example when the number of storage tanks in the liquid supply unit increases, and FIG. 3 shows another configuration example of the first disperser. Each figure is a schematic view of the main part of the equipment of the present invention. In the following description, the same reference numerals are given to the same members in terms of operation, and repeated descriptions are omitted as much as possible. Of course, this embodiment does not limit the present invention.
[0010]
(Basic form) The continuous preparation equipment in FIG. 1 is prepared by stirring and mixing a stock solution containing a dispersant and a surfactant and the like and a stock solution containing a functional substance, followed by heat treatment and the like. A production plant that mass-produces fine droplets for microcapsules to be applied, in which a liquid supply unit 1, a mechanical disperser 2, an ultrasonic disperser 3, and a post-processing unit 4 are installed in order; The first piping system 11, 12, 13 to the fifth piping system 17 are provided. In the drawing, the filtration unit and the drying unit after the post-processing unit are omitted because they are the same as the conventional one.
[0011]
Here, the liquid supply unit 1 has a plurality of storage tanks 10a to 10c for storing the stock solutions A to C. Each of the storage tanks 10a to 10b is provided with a heating mechanism, a temperature sensor, or the like as necessary, and a corresponding stock solution is replenished from a dedicated piping system. Of the storage tanks 10a to 10b, one tank may be used for rinsing liquid such as preliminary or cleaning.
[0012]
The mechanical disperser 2 has a tank body 20 equipped with a stirring mechanism that applies mechanical shearing force and vibration. In this example, the mechanical stirring mechanism includes a vibrator 21 provided on one end side of the tank body 20 and a rotary stirrer 22 provided in the tank body 20. However, the disperser 2 may be another known stirring mechanism as long as it is a mechanical type, except for a unit incorporated in a piping system such as a line mixer. The tank body 20 is provided with doorways 20a and 20b on both ends. In contrast, the ultrasonic disperser 3 irradiates ultrasonic waves, and is equipped with an ultrasonic generator 26 on one end side of the tank body 25. This ultrasonic dispersion mechanism is described in, for example, Kagoshima University Faculty of Engineering Research Report No. 30 (1988), “Development of Droplet Preparation Devices Using an Ultrasonic Generator” (Tatsuo Imafuku, Yasuo Hirote, Tsuji) As reported, it uses cavitation and interfacial disturbance in liquid. The tank body 25 is provided with doorways 25a and 25b on both ends. The mechanical disperser 2 and the ultrasonic disperser 3 are not limited to the vertical type, and may be a horizontal type.
[0013]
The post-processing unit 4 is mainly composed of a tank body 30 for completion of polymerization, in which what is emulsified by the above-described disperser or the like is introduced and heat treatment such as heating or cooling is performed. In this example, the tank body 30 has an inlet 30a provided slightly above the lower side, an exhaust port 30b provided on the upper side, an outlet 30c provided on the lower end side, a heating mechanism (not shown), And a stirring blade type stirring mechanism 31 provided in the. And the tank main body 30 completes superposition | polymerization, heating and stirring the introduce | transduced liquid, and supplies a microdroplet (emulsion) to the following process (filtration part etc.) via the on-off valve 9a from the exit 30c. The post-processing unit 4 is provided with a plurality (4 to 7) of tank bodies 30, and those emulsified by the above-described disperser or the like are switched to the tank bodies and continuously received for post-processing. ing.
[0014]
(Piping system) The first piping systems 11, 12, and 13 are connected to each storage tank and have piping 11a to 11c (11) having hydraulic pumps P5a to 5c and valves 6a to 6c, and each piping 11a to 11c. Are connected to a common pipe 12, a pipe 13 connecting the pipe 12 and an inlet / outlet (an inlet in this example) 20 a of the mechanical disperser 2, and the like. This is a path that allows liquid to be introduced into the machine 2. The valves 6a to 6c also serve as flow rate adjustment and opening / closing. Usually, it is composed of a flow adjustment valve and an on-off valve. The pipe 13 is provided with an on-off valve 7a on the first disperser 2 side.
[0015]
The second piping system 14 connects the inlet / outlet (exit in this example) 20b of the first disperser 2 and the inlet / outlet (inlet in this example) 25a of the second disperser 3, and the tank of the first disperser 2 This is a path that allows the liquid to be introduced into the tank body 25 of the second disperser 3 from the main body 20 side. The pipe is provided with an on-off valve 7c on the first disperser 2 side. In addition, you may attach an on-off valve in the location of the code | symbol X1 of FIG. On the other hand, the third piping system 15 connects the inlet / outlet (the outlet in this example) 25b of the second disperser 3 and the inlet 30a of the tank body 30 of the post-processing unit 4. This is a path that allows the liquid to be introduced into the tank body 30 of the post-processing unit 4 from the tank body 25 side. The pipe is provided with an on-off valve 7d on the second disperser 3 side.
[0016]
The fourth piping system 16 connects the piping 13 configuring the first piping system and the piping configuring the third piping system 15, and the post-processing unit 4 is connected to each storage tank of the liquid supply unit 1. This is a path that allows the liquid to be introduced into the tank body 30. The upstream end of the fourth piping system 16 is connected to the upstream side of the opening / closing valve 7 a in the piping 13, and the downstream end of the fourth piping system 16 is downstream of the opening / closing valve 7 d in the piping constituting the third piping system 15. Connected to the side. In addition, the piping forming the fourth piping system 16 is provided on the way with an on-off valve 7b attached near the piping 13 and an on-off valve 8b attached near the third piping system 15. An on-off valve 8a is interposed, and a pipe portion between the on-off valve 7b side and the on-off valve 8a side and a pipe portion between the on-off valve 8a side and the on-off valve 8b side are respectively line mixers 18a, 18b. It is comprised by. Moreover, you may attach an on-off valve to the location of the code | symbol X2 of FIG.
[0017]
The fifth piping system 17 connects the fourth piping system 16 and the second piping system 14, and a part of the first piping systems 11 to 13, the fourth piping system 16, and the second piping system 14 from the liquid supply unit 1. This is a path through which the liquid in the storage tank can be introduced to the inlet 25a of the tank main body 25 of the second disperser 3. That is, the upstream end of the fifth piping system 17 is connected between the line mixer 18a and the on-off valve 8a in the piping constituting the fourth piping system 16, and the downstream end of the fifth piping system 17 is the second piping. The piping which comprises the system | strain 14 is connected downstream from the on-off valve 7c. In addition, an opening / closing valve 8c is interposed in the piping forming the fifth piping system 17 in the vicinity of the second piping system 14, and an intermediate piping portion is constituted by a line mixer 18c. Moreover, you may attach an on-off valve in the location of the code | symbol X3 of FIG.
[0018]
(Usage example) In the above continuous preparation equipment, the following four methods are possible as a form in which each stock solution is stirred and mixed to emulsify, and the versatility of emulsification conditions or operation conditions is rich. That is,
A) First, the first disperser 2 and the second disperser 3 emulsify exclusively. In this operation, the on-off valves 7b, 8b, 8c are switched to the closed state and the on-off valves 7a, 7c, 7d are switched to the open state. And in the liquid supply part 1, if the use undiluted | stock solution is 3 liquor, the undiluted | stock solution of each storage tank 10a-10c will be 1st disperse | distributed through the piping 11-13 respectively by the predetermined flow rate ratio via the pumps 5a-5c and the valves 6a-6c. Introduced into the tank body 20 of the machine 2 and emulsified, guided to the second disperser 3 via the second piping system 14 and emulsified in the tank body 25 and refined of the droplets, It is introduced into the post-processing unit 30 via the third piping system 15. These are performed continuously. In addition, what is necessary is just to supply similarly from a corresponding storage tank, if a use undiluted | stock solution is 2 liquids. The same applies to the following operations.
A) A mode of emulsification exclusively by the first disperser 2. In this operation, on-off valves are attached to the above-mentioned locations X1, X2, and the on-off valves and on-off valves 7b, 7d are closed and the on-off valves 7a, 7c, 8a, 8c, 8b are switched to the open state. . In the liquid supply unit 1, the stock solution used is introduced into the tank body 20 of the first disperser 2 through the pipes 11 to 13 at a predetermined flow rate ratio and emulsified, and then the second pipe system 14, The fifth piping system 17 and the corresponding piping portion of the fourth piping system 16 and the third piping system 15 are introduced into the post-processing unit 30. The line mixers 18c and 18b supplement emulsification in the transfer process and prevent sedimentation and the like.
C) A mode of emulsification exclusively by the second disperser 3. In this operation, the on-off valves 7a, 7c, 8a, 8b are switched to the closed state and the on-off valves 7b, 7d, 8c are switched to the open state. In the liquid supply unit 1, the undiluted solution used is the pipes 11 to 13, the corresponding piping parts of the fourth piping system 16, the corresponding piping parts of the fifth piping system 17, and the second piping system 14, respectively, at a predetermined flow rate ratio as described above. Is introduced into the tank body 25 of the second disperser 3 and emulsified, and then introduced into the post-processing unit 30 via the third piping system 15. The line mixers 18a and 18c promote initial emulsification during the transfer process.
D) In this embodiment, the emulsification is performed exclusively by the line mixers 18a and 18b of the fourth piping system 16. In this operation, an opening / closing valve is attached to the above-mentioned location X3, and the opening / closing valve 7a, 7d is closed and the opening / closing valves 7b, 8a, 8b are switched to the open state. In the liquid supply unit 1, the stock solution to be used is emulsified by the mechanical stirring mechanism of the line mixers 18 a and 18 b in the process of being pumped through the pipes 11 to 13 and the fourth pipe system 16 at a predetermined flow rate ratio as described above. However, it is introduced into the post-processing unit 30 via the corresponding piping portion of the third piping system 15.
[0019]
As described above, this continuous preparation equipment is equipped with the mechanical first disperser 2 and the ultrasonic second disperser 3 as standard equipment, so that the stirring mode is wide, and the target fine liquid can be obtained only by opening / closing control of the valve. Since the droplet diameter can be adjusted in a wide range, it is very convenient for setting tests for optimum operating conditions during initial operation and design changes at a later date. it can.
[0020]
(Variation 1) The continuous preparation facility of FIG. 2 has four storage tanks of the liquid supply unit 1 with respect to the facility of FIG. 1, the tank body 20 and the first piping system of the mechanical disperser 2 Is different, and the third piping system 15 is different in that it has a liquid draining pipe 19, and is otherwise substantially the same. For this reason, only the changes will be described in detail in this description.
[0021]
The liquid supply unit 1 in FIG. 2 has storage tanks 10a to 10d that store the stock solutions A to C, the rinse solution for cleaning, and other stock solutions D. Each of the storage tanks 10a to 10d is provided with a heating mechanism, a temperature sensor, or the like as necessary, and is replenished with a corresponding stock solution or rinse solution from a dedicated piping system. The tank body 20 of the mechanical disperser 2 has two inlets 20a and 20c provided on one end side, and one outlet 20b provided on the other end side. For this reason, the following connections are made as the first piping systems 11, 12, and 13. That is, pipes 11a to 11d (11) connected to the respective storage tanks and having hydraulic pumps P5a to 5d and valves 6a to 6d, a common pipe 12a connecting the pipe 11a and the pipe 11b, a pipe 11c and a pipe 11d. A common pipe 12b connecting the pipe 12a, a pipe 13a connecting the pipe 12a and the inlet 20c of the mechanical disperser 2, and a pipe 12b and the other inlet 20a of the mechanical disperser (first disperser) 2 The pipe 13 b is connected to the pipe 13 b and the pipe 13 c is connected to the fourth pipe system 16. An opening / closing valve 7e is interposed in the pipe 13a on the inlet 20c side of the first disperser 2. The upstream side of the pipe 13c is connected before the on-off valve 7e in the pipe 13a, and the downstream side of the pipe 13c is connected to a portion of the fourth piping system 16 past the on-off valve 7b.
[0022]
In the above piping configuration, for example, the stock solution and the like can be supplied in the following manner as compared with FIG. In the mode of emulsification by the first disperser 2 and the second disperser 3, when the on-off valves 7b, 7f are switched to the closed state and the on-off valves 7a, 7e are switched to the open state, the stock solution in the storage tank 10a and / or the storage tank 10b From the inlet 20c of the first disperser 2, and the stock solution of the storage tank 10c and / or the storage tank 10d can be introduced into the tank body 20 from the inlet 20a of the first disperser 2 at a determined flow rate ratio. Of course, only the stock solution of the storage tank 10a and the storage tank 10b is introduced into the tank body 20 from the inlet 20c of the first disperser 2, or the stock solution of the storage tank 10c and the storage tank 10d is introduced into the tank body 20 from the inlet 20a of the first disperser 2. May be. Further, in this configuration, after preparing the W / O type emulsion in the first disperser 2 as in Reference 2, the W / O type emulsion is added to the second disperser 3 together with other stock solutions (for example, aqueous phase). It can be introduced to prepare a W / O / W type emulsion. In this case, for example, the on-off valves 7b, 7e, 8a are switched to the closed state and the on-off valves 7a, 7f, 7c, 8c are switched to the open state, and the stock solution in the storage tank 10c and / or the storage tank 10d is transferred to the first disperser 2. It introduce | transduces into the tank main body 20 from the inlet 20a, and prepares a W / O type | mold emulsion. Then, in the middle of sending the W / O type emulsion from the second piping system 14 to the second disperser 3 side, the W / O type emulsion in the piping of the second piping system 14 is transferred to the storage tank 10a and / or the storage tank 10b. The stock solution is introduced into the tank body 25 from the inlet 25a of the second disperser 3 while being merged through the pipes 13a and 13c, the pipe parts constituting the fourth pipe system 16, and the line mixers 18a and 18c. The above usage is only an example, and various emulsification modes are possible. Further, the liquid draining pipe 19 functions as a liquid drain at the time of abnormality or discharge of the rinse liquid, and is an example attached to a necessary part.
[0023]
(Modification 2) FIGS. 3A to 3C show three examples in which a plurality of the above mechanical dispersers (first dispersers) are configured. Here, the form (a) is an example in which the tank main bodies 20 of the mechanical dispersers 2A and 2A corresponding to the first disperser 2 of FIG. 1 are connected in series via a pipe 14a. On the other hand, in the embodiments (b) and (c), the tank bodies 20 of the mechanical dispersers 2A and 2B corresponding to the first dispersers 2 in FIGS. 1 and 2 are connected in series via the pipe 14a. It is a form. Among them, in (b), the disperser 2B corresponding to FIG. 2 is provided on the upstream side, and the disperser 2A corresponding to FIG. 1 is provided on the downstream side (side connected to the second disperser 3). In (c), the disperser 2A corresponding to FIG. 1 is provided on the upstream side, and the disperser 2B corresponding to FIG. 2 is provided on the downstream side (side connected to the second disperser 3). In the latter case, for example, it is possible to prepare a W / O type emulsion with the upstream disperser 2A and prepare a W / O / W type emulsion with the raw material introduced from the pipe 13b or the like with the downstream disperser 2B. Become.
[0024]
As described above, the present invention can be variously modified or developed as long as the requirements specified in the claims are satisfied. As an example, microdroplets (emulsions) for microcapsules are prepared in water-in-oil type (W / O type) from an aqueous solution of a core material and a hydrophobic polymer, and from an aqueous solution of a core material and a hydrophilic polymer in water. Preparation of oil type (O / W type), preparation of water-in-oil-in-water type (W / O / W type) in which water-in-oil emulsion is further emulsified in aqueous solution, oil-in-water type emulsion is further emulsified in oil solution Preparation of oil-in-water oil type (O / W / O type) can be used.
[0025]
【The invention's effect】
As described above, in the present invention, it is possible to satisfy a wide range of equipment operating conditions by having the first and second dispersers with different stirring mechanisms as a set and devising the piping system. Therefore, it is possible to easily cope with changes in operating conditions that are performed in order to achieve high quality and the like, thereby solving the problems of equipment renovation costs and operation stoppages, which are problems, and improving reliability. Further, the present invention is, for example, to allow testing over a wide range the optimum operating condition on to satisfy the target droplet diameters, droplet size using of different stirring mechanism as disperser large, small In addition, there are advantages such as making it easy to realize various production such as inside.
[Brief description of the drawings]
FIG. 1 is a configuration diagram schematically showing a continuous preparation facility according to the present invention.
FIG. 2 is a configuration diagram showing a modification of the continuous preparation facility corresponding to FIG.
FIG. 3 is a diagram showing a modification in which a plurality of first dispersers of FIGS. 1 and 2 are provided.
FIG. 4 is a reference diagram for explaining a conventional technique and problems.
[Explanation of symbols]
1 ... Liquid supply part (10a-10d is a storage tank)
2, 2A, 2B ... 1st disperser (mechanical disperser)
3. Second disperser (ultrasonic disperser)
4 ... Post-processing part (30 is the tank body )
DESCRIPTION OF SYMBOLS 11-13 ... 1st piping system 14 ... 2nd piping system 15 ... 3rd piping system 16 ... 4th piping system 17 ... 5th piping system 18a-18c ... Line mixer 5a-5d ... Pump 6a-6d ... Valve (opening and closing) Combined flow valve)
7a-7f: Open / close valve 8a-8d ... Open / close valve AD: Liquid (stock solution, etc.)

Claims (2)

Intended for use in the continuous preparation of infinitesimal droplets containment functional substance in the particles, and the liquid supply portion provided with a plurality of reservoirs contain a stock solution containing the stock solution and functional material containing a dispersant and a surfactant , Continuous preparation equipment for fine droplets having a disperser that introduces each stock solution from the storage tank and stirs, mixes and emulsifies, and a post-treatment unit that introduces the liquid emulsified from the disperser into the tank body and performs heat treatment In
A first disperser equipped with a mechanical stirring mechanism in the tank body as the disperser and a second disperser equipped with an ultrasonic stirring mechanism in the tank body;
A first piping system that enables introduction of the liquid in the storage tank from the liquid supply unit to the tank body of the first disperser;
A second piping system that allows liquid to be introduced from the tank body of the first disperser into the tank body of the second disperser;
A third piping system capable of introducing a liquid from the tank body of the second disperser to the tank body of the post-processing unit;
A fourth piping system that connects the first piping system and the third piping system, and allows the liquid in the storage tank to be introduced into the tank body of the post-processing section from the liquid supply section;
The tank body of the second disperser is connected to the fourth piping system and the second piping system, and passes through a part of the first and fourth piping systems and the second piping system from the liquid supply unit. And a fifth piping system that enables introduction of the liquid in the storage tank as a unit,
Furthermore, a part of the fourth piping system and / or the fifth piping system is constituted by a line mixer.   The equipment for continuously preparing microdroplets according to claim 1, wherein the first disperser comprises a plurality.

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