KR20140004144U - A device for preparing and transferring mixture or solution - Google Patents

Abstract

The present invention relates to an apparatus for preparing and delivering a mixture or solution consisting of a container 20 having a capacity comprising a mixture or a container in which an inlet 22 is disposed at the top of the container 20, (24) is disposed on the lower portion of the vessel (20) opposite the inlet (22) and is located above the outlet (24) to regulate the flow rate of the mixture or solution exiting through the outlet A flow regulator 26 is disposed. The body of the vessel 20 includes means for maintaining the physical properties and properties of the mixture or solution contained within the vessel 20. The means comprises at least one jacket (28) surrounding at least the body portion of the container (20).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a device for preparing and transferring a mixture or solution,

The present invention relates to the field of chemistry, and more particularly to a device for manufacturing and delivering mixtures or solutions.

Conventional devices for making and delivering liquid mixtures or solutions for crystallization, precipitation, reaction, or for any other purpose are dropper, pipette or addition funnel. However, these devices can be effectively used only in a form that is sufficiently stable so that the mixture or solution is ready for use at room temperature or can be used as a homogeneous phase without precipitation or separation. However, heating and / or continuous agitation is necessary to maintain the homogeneity of the mixture or solution having the composite phase and / or to eliminate the formation of precipitation or separation. Particularly, there is a problem that a difference between the initial concentration and the final concentration occurs during the delivery when the delivery speed is low. As mentioned above, conventional devices can not meet this demand. For example, devices such as a condenser, which is capable of transferring heat from the gas to low temperature liquids, are not equipped with a mechanism to maintain the single phase of the mixture or solution so that the mixture or solution is easily separated The problem can not be solved. In particular, for example, a reflux extractor uses a technique involving condensation of vapor and return to the system of such condensate, resulting in a condensed mixture or solution from the system. Similarly, the device can not maintain the mixture or solution in its entirety in a single phase during transfer.

Therefore, the device according to the present invention can be used for the preparation and delivery of a mixture or solution so as to effectively effect the preparation and delivery of the mixture or solution, the problem of precipitation or separation being formed and the concentration of the mixture or solution In order to solve the problem in which a difference occurs between the two.

The purpose of the present design is to maintain both physical and chemical properties, to control the rate of delivery, to maintain stability, to maintain homogeneity without separation or precipitation, and to address problems related to differences between initial and final concentrations during delivery And a device for producing and delivering a mixture or solution having means for producing a solution.

In one embodiment, the present invention is directed to a method of making and delivering a mixture or solution comprising a mixture having an inlet for introducing a mixture or solution into the container and an outlet for dispensing the mixture or solution from the container, And the like. The container comprising means for maintaining the stability of the mixture or solution and means for raising the temperature of the mixture or solution contained in the container or for condensing the solvent of the mixture or solution contained in the container And temperature raising and lowering means, either integrally or separately. The vessel also includes a flow controller located in the vessel after the outlet for adjusting the flow rate of the mixture or solution.

In another embodiment, the present invention discloses an apparatus for manufacturing and delivering a mixture or solution further comprising a stirrer and a filter plate assembled in the vessel.

Figure 1 is a device for the manufacture and delivery of a conventional mixture or solution.
Figure 2 is an embodiment of an apparatus for manufacturing and delivering a mixture or solution according to the present invention in a decomposition state.
Figure 3 is an embodiment of an apparatus for manufacturing and delivering a mixture or solution according to the present invention in the manufacture of a magnesium chloride support for a Ziegler Natta catalyst.
Figure 4 is another embodiment of an apparatus for manufacturing and delivering a mixture or solution according to the present invention.
5 is a particle size distribution diagram of a magnesium chloride support prepared using the apparatus according to the present invention.
6 is a particle size distribution diagram of a magnesium chloride support prepared using a conventional apparatus.
7 is a 1.5X optical micrograph of the magnesium chloride support prepared using the apparatus according to the present invention.
8 is a 1.5X optical micrograph of a magnesium chloride support prepared using a conventional apparatus.
9 is a 2.5X optical micrograph of the magnesium chloride support prepared using the apparatus according to the present invention.
10 is a 2.5X optical micrograph of a magnesium chloride support prepared using a conventional apparatus.

The present invention discloses an apparatus for preparing and delivering a mixture or solution comprising an inlet for introducing a mixture or solution into a container and a container for containing a mixture or solution having an outlet for dispensing the mixture or solution from the container . Said container comprising means for maintaining the stability of the mixture or solution and means for raising the temperature of the mixture or solution contained in said container or for inducing condensation of the mixture or solution contained in said container And also includes both temperature raising and lowering means, either integrally or separately. The vessel also includes a flow controller located in the vessel above the outlet for controlling the flow rate of the mixture or solution.

The term "transferring " referred to herein includes, but is not limited to, transfer, exchange, transfer, export, transfer, addition, mixing or any similar situation.

The term "maintaining stability" as used herein includes, but is not limited to, one or more chemical and physical properties, including, but not limited to, temperature, state, phase, concentration, mixing, composition, homogeneity or compatibility , And also to improve one or more of said properties of the mixture or solution. In addition, certain aspects include elevating the temperature of the mixture or solution contained in the vessel either separately or simultaneously, and involves lowering the temperature to induce condensation of the mixture or solution.

In an embodiment of the present invention, an apparatus for preparing and delivering a mixture comprises an elongated cylindrical container 20 that constitutes a volume for containing the mixture or solution. The container 20 comprises an inlet 22 disposed at the top of the vessel 20 for introducing the mixture or solution and an outlet 24 for dispensing the mixture or solution. Preferably, the outlet 24 is disposed at the bottom of the cylindrical container 20. The vessel 20 also includes a flow regulator 26 disposed above the outlet 24 to regulate the flow rate of the mixture or solution dispensed through the outlet 24. The cylindrical container 20 includes temperature adjusting means for raising and / or lowering the temperature of the mixture or solution contained in the container 20. The temperature control means is configured in the form of, for example, at least one jacket 28 surrounding at least one portion of the container. The jacket 28 includes the inflow passages 30 and the outflow passages 32 separately. The jacket 28 is hollow and configured to allow liquid to flow and fill the jacket 28 surrounding the outside of the container 20 where the jacket 28 is located through the inlet passageway 30, The temperature between the liquid and the mixture or solution is exchanged to increase or decrease the temperature of the mixture or solution contained in the container 20. [ The liquid once entering the jacket 28 through the inlet passage 30 will be discharged through the outlet passage 32. To adjust the temperature of the liquid to a desired level, the liquid may be returned to a temperature regulating device (not shown), and if necessary, the temperature regulated liquid may enter the device through the inlet passageway 30 again. The temperature-adjusted mixture or solution through the temperature regulating means may be adjustably drained from the vessel 20 to enter another vessel and proceed via the outlet 24 to the next chemical reaction stage. The flow rate of the discharged mixture or solution is controlled by the flow controller 26.

Figures 2 and 4 illustrate an embodiment of the device according to the present invention. In this embodiment, the apparatus for preparing and delivering a mixture or solution comprises a container 20 configured as an elongated cylindrical shape defined by a volume comprising a mixture or solution. The vessel 20 comprises an inlet 22 disposed at the top of the vessel 20 for introducing the mixture or solution into the vessel 20 and an outlet 24 for distributing the mixture or solution. The outlet 24 is preferably disposed at the bottom of the cylindrical container 20 and opposite the inlet 22. The vessel 20 also includes a flow regulator 26 above the outlet 24 to regulate the flow rate of the mixture or solution dispensed through the outlet 24. The cylindrical body of the vessel 20 includes temperature adjusting means for raising and / or lowering the temperature of the mixture or solution contained in the vessel 20. That is, the cylindrical body of the vessel 20 includes means for adjusting the temperature of the mixture or solution in the vessel 20 by providing at least two jackets 28 on the cylindrical body of the vessel 20 . The first jacket 28a is disposed on the upper portion of the cylindrical body of the container 20 and the second jacket 28b is disposed on the lower portion of the cylindrical body of the container 20. [ The first jacket 28a and the second jacket 28b are spaced apart from each other, and each may be capable of receiving liquid entering at the same or different temperatures. As an embodiment, the second jacket 28b, which is disposed at the bottom of the cylindrical body of the container 20, receives heat from the mixture or solution to raise the temperature of the mixture or solution, Evaporates the solvent to the top of the evaporator 20 and raises the vapor. The first jacket 28a receives liquid at room temperature or lower to induce condensation of the solvent vapor. The ability to raise or lower the temperature of the jackets 28a, 28b is to regulate the temperature of the mixture or solution. The mixture or solution is adjustably vented through the outlet 24 via a flow controller 26 located above the outlet 24 of the vessel 20. In one embodiment, the flow regulator 26 is comprised of a spindle 34 that is rotatably coupled to the cylindrical body of the vessel 20. The spindle 34 includes an opening 36 in which when the spindle 24 is rotated with the opening 36 in line with the outlet 24 of the vessel 20, The solution will flow out of the vessel 20 through the opening 36 and the outlet 24. The flow rate of the mixture or solution contained in the container 20 flowing through the opening 36 and the outlet 24 will be adjusted by adjusting the position of the opening 36 in line with the outlet 24 .

It will be apparent to one of ordinary skill in the art that the determination of the temperature of the mixture or solution in the vessel 20 may vary depending on the type, nature, process and use of the mixture or solution in the chemical process. Thus, the principle of the temperature rise or drop by the use of the jacket 28 according to the present invention is that the jacket 28b receives the liquid that flows into the high temperature to raise the temperature of the mixture or solution, and the jacket 28a Not only are they limited to receiving liquid at low or room temperature for condensation, but they can be exchanged with one another or at another high or other low temperature. In addition, one jacket 28 may provide an embodiment with a structure capable of accommodating liquids that are higher or lower than the temperature of the mixture or solution.

As an alternative embodiment of the design according to the principles of the present invention, the device comprises a stirrer 38 having a long and elongated shaft along the length of the cylindrical body of the container 20. Of course, the shape and structure of the agitator 38 may vary depending on the shape and structure of the container 20. [ The tip of the stirrer preferably ends above the opening 36 of the flow regulator 26 and at least the agitating blade 42 at the tip of the stirrer is placed therein. The agitator 38 may be agitated manually or automatically within the container 20 as appropriate. The agitator 38 assists in dissolving the mixture or solution and reduces the precipitation of the mixture or solution in the vessel 20.

In another embodiment, in accordance with the principles of the present invention, the apparatus further comprises a stopper 40 in a structure that can be removably coupled to the inlet 22 of the vessel 20. The stopper 40 includes a hole 44 to be inserted into an upper portion of the stirrer 38. In addition, the tip end portion of the container 20 adjacent to the outlet 24, which is next to the flow controller 26, has a structure in which it can be inserted into another container. An example is described below.

In an embodiment according to the principles of the present invention the apparatus further comprises a filter plate 39 disposed inside the container 20, that is to say an opening 36 of the flow regulator 26 and an agitating blade 42 . The filter plate 39 helps prevent the entrainment of solid particles in the opening 26 of the flow regulator 26.

Preferably, all components intended to form part of, or be combined with, or intended for use in an apparatus according to the present invention should be made of a temperature and chemically resistant material.

Figure 3 illustrates an embodiment of the device according to the present invention for use in the preparation of a magnesium chloride support for a Ziegler-Natta catalyst affecting the morphology and particle size distribution of the magnesium chloride support.

The experimental examples described below are intended to illustrate the use of the device according to the present invention and are not intended to limit the scope of the present invention. The preparation of the magnesium chloride support using the apparatus according to the present invention is carried out in the following manner.

1. For example, magnesium chloride is dissolved in a solvent selected from ethanol to obtain a mixture. The mixture is heated and vigorously stirred with a high speed blade.

2. The mixture obtained from step 1 is immediately cooled to room temperature or below in a solvent such as heptane and precipitated.

3. The magnesium chloride is washed with a solvent, such as anhydrous hexane, and dried under vacuum.

An arrangement according to the present invention, for example the embodiment illustrated in Figure 2, is used to increase the efficiency in delivering the mixture in Step 1, the mixture of Figure 1, to settle as in Figure 2. [ That is, the device according to the present invention helps to reduce the precipitation of magnesium chloride in step 1 and helps to deliver the mixture by means of stirrer 38 from step 1 to step 2. Where the agitator stirs the mixture so that a chemical reaction takes place. In addition, the use of means for increasing the temperature of the mixture allows the hot fluid to flow underneath the cylindrical body of the vessel 20 and through the surrounding jacket 28b. Since the ethanol solvent has a low boiling point, it evaporates easily by increasing the temperature. Evaporation can change the concentration of the mixture. Thus, the jacket 28a uses the low temperature liquid surrounding the cylindrical body of the vessel 20 to reduce the temperature of the ethanol vapor and cause condensation of the ethanol vapor. Thus, the concentration of the mixture is maintained. The device according to the present invention then delivers the mixture obtained in step 1 through outlet 24 to a container containing the haptat solvent connected to the cylindrical body, which is more convenient and efficient.

It has been found from this experiment that the magnesium chloride support prepared using the apparatus according to the present invention possesses more desirable properties compared to the magnesium chloride support prepared using the conventional apparatus. That is, the magnesium chloride support prepared using the apparatus according to the present invention has a uniform particle distribution, and as shown in FIGS. 6 and 7, compared with the magnesium chloride support prepared using the conventional apparatus, As shown, a narrow particle size distribution is shown. 7 and 8 are optical microscope photographs of a 1.5X magnification of the magnesium chloride support prepared using the apparatus according to the present invention and the conventional apparatus, respectively. The magnesium chloride support prepared using the apparatus according to the present invention has a significantly smaller and uniform particle size compared to the particle size of a magnesium chloride support prepared using a conventional pipette with a large particle size and a non- . Having a small particle size and a uniform particle size distribution is essential and is a desirable property of magnesium chloride when used as a support for the Ziegler-Natta catalyst in the preparation of polyolefins. The Ziegler-Natta catalyst becomes a polymer with high activity and consequently excellent properties and polydispersity index.

9 and 10 are optical micrographs of a 2.5X magnification on the magnesium chloride support prepared using the apparatus of the present invention and the conventional apparatus, respectively. A magnesium chloride support prepared using a conventional pipette as compared to particles of a magnesium chloride support prepared using a device according to the present invention having a small particle size and a spherical shape has a large particle size and a shape that is not spherical . It is also understood that the magnesium chloride support prepared using the apparatus according to the present invention has porosity characteristics and is therefore suitable for use in the synthesis of Ziegler-Natta catalysts.

The apparatus for preparing and delivering a mixture or solution according to the present invention, as evidenced by the above-exemplified experiments, is advantageous in solving technical problems and maintaining the properties of the mixture or solution. In addition, the delivered mixture or solution may be adjusted to the delivery rate of the mixture or solution so as to have adequate physical properties and sufficient stability for use, without being separated or easily precipitated. Moreover, problems associated with differences in concentration of the mixture or solution between the initial and final concentrations during delivery can be reduced. Therefore, a product manufactured using the apparatus according to the present invention has an effect of showing superior physical properties and excellent quality.

20: container
22: Entrance
24: Exit
26 Flow regulator
28 jackets
28a: first jacket,
28b: second jacket
30: inlet passage
32: Outflow passage
34: Spindle
36: opening
38: stirrer
40: Stopper

Claims (9)

A container 20 having a capacity capable of containing a mixture or solution; An inlet (22) disposed at an upper portion of the vessel (20), an outlet (24) disposed at a lower portion of the vessel (20) and opposite the inlet (22) In a device for producing and delivering a mixture or solution comprising a container (2) comprising a flow regulator (26) configured to regulate the flow rate of the mixture or solution exiting the container (20)
The container 20 comprises means for maintaining the stability of the mixture or solution incorporated in the body of the container 20, the means comprising at least one jacket 22 surrounding at least a portion of the body of the container 20, (28). ≪ / RTI > The container according to claim 1, wherein the body of the container (20) is cylindrical in shape and has at least two jackets, a first jacket (28a) being disposed on top of the cylindrical body of the container (20) A jacket 28b is disposed on top of the cylindrical body of the container 20, wherein all of the jackets 28a, 28b are separate. The system of claim 2, wherein the first jacket (28a) and the second jacket (28b) comprise an inlet passageway (30) and an outlet passageway (32), the inlet passageway (30) And the temperature adjusting liquid in each of the jackets (28a, 28b) exchanges heat with the temperature adjusting liquid and the mixture or solution so that the temperature of the container 20) to maintain the stability of the mixture or solution within the chamber. 4. The method of claim 3, wherein the temperature adjusting liquid which flows through the inlet passage (30) to the jacket (28) and flows out of the jacket (28) through the outlet passage (32) And goes straight into the jacket (28) through the inlet passage (30). A device according to any one of the preceding claims, wherein the flow regulator (26) disposed on the outlet (24) of the container (20) is rotatably coupled to the cylindrical body of the container Characterized in that the spindle (34) comprises an opening (36) through which the mixture or solution contained in the container flows. . 6. The apparatus according to any one of claims 1 to 5, wherein the apparatus further comprises a stirrer (38), the tip of which terminates above an opening (36) of the flow controller, and at least the agitator 38) is arranged at the tip of the agitating blade (42). 7. A device according to any one of the preceding claims, wherein the device is further arranged inside the container (20), wherein the stirring blade (42) and the flow regulator (26) Wherein the first and second electrodes are disposed between the first electrode and the second electrode. 8. A device according to any one of the preceding claims, wherein the device comprises a stopper (40) detachably assembled to an inlet (22) of the container (20), the stopper (40) And a hole 44 into which the upper portion of the container 20 can be inserted and which has a structure of decreasing from the flow rate regulator 26 to the tip of the outlet 24 of the container 20. 9. A device according to any one of the preceding claims, characterized in that all the components forming part of, or associated with, or intended for use in the device are made of materials capable of withstanding high temperature and chemical resistance .

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