KR200456379Y1 - Screen device for agitating member of liquid material agitator - Google Patents

Abstract

In performing the function of separating the fine stirring medium from the liquid raw material before the stirred liquid raw material in the stirring chamber is discharged to the liquid outlet, the rotary centrifugal force of the liquid suction guide plate rotating with the rotating shaft without using the conventional outflow screen is applied. Disclosed is a stirring medium screen apparatus of a liquid raw material stirrer capable of separating a fine stirring medium having a specific gravity higher than that of a liquid raw material from the liquid raw material and discharging only a liquid material having a relatively low specific gravity to the liquid outlet.

The present invention is agitated by a rotor and a stirring pin installed on a rotating shaft that is rotated by the drive of a fine stirring medium and a motor, the liquid raw material flowing into the stirring chamber, by separating the fine stirring medium from the stirred liquid raw material and stirring only the liquid raw material A stirring medium screen device of a liquid raw material stirrer configured to discharge to a liquid outlet provided on one side of a chamber, the stirring medium screen device comprising: a plurality of helical protrusions installed to rotate together with a rotating shaft in the stirring chamber and generating centrifugal force during rotation; A liquid suction guide plate having a through hole connected to the liquid outlet side, and a passage between the liquid suction guide plate and the stirring chamber to form an outlet passage leading from the through hole of the liquid suction guide plate to the liquid outlet port. Primary mechanical chamber which prevents the gap, and rotation with the stirring chamber It consists of secondary mechanical chamber provided so as to seal between.

Description

Agitating medium screen device of liquid raw material stirrer {SCREEN DEVICE FOR AGITATING MEMBER OF LIQUID MATERIAL AGITATOR}

The present invention relates to a stirring medium screen device for a liquid raw material stirrer, and more particularly, in the field of precision ink, fine electronics, and chemical materials, various types of slurry containing solid particles such as various pigments, ceramics, and metal oxides. A liquid raw material stirrer which prevents the stirring medium provided in the stirring chamber from being discharged to the liquid outlet in order to supply the liquid raw material into the stirring chamber by means of a pump or the like to stir and disperse the particles in the liquid raw material. It relates to a stirring medium screen device.

Generally, a sand grind mill is mainly used as a stirrer used for stirring particles in a liquid raw material in a slurry state. The sand grind mill presses the liquid raw material in the storage container to be stirred by means of a pump or the like to enter the mill, and after stirring the inside, discharges only the liquid raw material to the outside of the mill to continuously circulate the inflow and outflow of the liquid raw material. It is supposed to be done.

In addition, the inside of the mill is agitated by installing a rotor or a pin on a rotating shaft that rotates by the rotation of the stirring medium and the drive motor, sealing the connection between the rotating shaft and the stirring chamber using a mechanical seal and the inside of the pressure under the pressure of the pump The liquid raw material introduced into is stirred by the rotational friction force and the shear force generated inside the stirring chamber, and is discharged to the outside through the liquid outlet.

At this time, the liquid outlet is provided with an outlet screen in which a plurality of fine slits are processed as a kind of filter for separating and filtering the agitation medium from the liquid raw material, and the outflow screen filters the agitation medium to prevent the liquid outlet from escaping to the liquid outlet. It has a structure to be discharged to the outside through the liquid outlet.

The outflow screen may use a metal mesh network having fine slits made by successively attaching metals in a horizontal and vertical direction, or a plate material processed by slits on a metal plate. In this case, it is preferable that the size of the slit is usually 1/2 or less with respect to the diameter of the stirring medium to be used.

With the recent industrial advancement, the necessity of gradually managing the particle size in the liquid raw material has gradually increased, and thus, the stirring medium used in the stirrer is made finer to further improve the stirring efficiency. This fact was confirmed through actual experiments that the particles of various solids in the liquid raw material were further refined as the same liquid raw material and the same stirrer were filled with the fine stirring medium inside the stirrer.

Therefore, when using a fine stirring medium having a smaller diameter than a general stirring medium, it is necessary to process the slit of the outflow screen to a finer specification. That is, it is possible to manufacture an ultra fine stirring medium having a diameter in the range of 0.03 ~ 0.3mm, and if you want to use such a fine stirring medium, the slit specification of the outflow screen for filtering the fine stirring medium attached to the inside of the stirrer is further refined. There are many problems in this case.

For example, in the case where a conventional outflow screen is installed in the outflow port and used to perform the function of separating the microstirred medium from the outflow port of the stirrer, the fine slits of the outflow screen are blocked by the microdispersion medium and the liquid raw material, and smoothly. As it is not discharged, there is a disadvantage of overheating inside the stirrer or the amount of outflow of the liquid raw material is small, and there is a lot of limitations in using the fine agitating medium because it is easy for the fine agitating medium to pass through the slit of the outflow screen. Difficult to process the slits finely, and had to be manufactured by expensive precision processing had a problem that the manufacturing cost increases.

The present invention has been made in view of the above-mentioned conventional problems, and its purpose is to discharge the conventional liquid in performing a function of separating the fine agitating medium from the liquid raw material before the agitated liquid raw material is discharged into the liquid outlet. By using the centrifugal force of the liquid suction guide plate that rotates with the rotating shaft without using a screen, the microstirring medium having a higher specific gravity than the liquid raw material can be separated from the liquid raw material and only the relatively low specific gravity raw material can be discharged to the liquid outlet. As a result, the problem that the fine agitating medium and the liquid raw material are blocked by the outflow screen and overheated in the agitator or the discharge of the liquid raw material is reduced can be prevented, and the fine agitating medium can be prevented from escaping into the liquid outlet. Slits do not need to be finely machined by expensive precision machining To provide a unit for screening a liquid medium, stirring the raw material agitator which can reduce the manufacturing cost.

The present invention for achieving the above object, agitated by a rotor and a stirring pin installed on a rotating shaft rotating by the drive of a fine stirring medium and a motor of a circular bead in a liquid form flowing into the stirring chamber, the stirred liquid raw material A stirring medium screen device of a liquid raw material stirrer configured to separate the fine stirring medium from the liquid raw material and discharge only the liquid raw material to the liquid outlet provided on one side of the stirring chamber, wherein the stirring medium is installed to rotate together with the rotating shaft in the stirring chamber and the centrifugal force at the time of rotation. A liquid suction guide plate having a plurality of spiral protrusions for generating a plurality of spiral protrusions and connected to the liquid outlet port, and installed between the liquid suction guide plate and the stirring chamber, and extending from the through hole of the liquid suction guide plate to the liquid outlet port. Between the agitation passage and the interior of the stirring chamber to form an outflow passage To prevent the primary mechanical chamber, stirred media screen of the stirring chamber and the liquid raw material composed of an agitator chamber disposed to the secondary mechanical seal between the rotary shaft device is characterized.

In addition, the liquid suction guide plate of the present invention is composed of the upper and lower first and second discs fixed in close contact with the rotation shaft, and the first and second by a plurality of spiral protrusions formed on the lower first plate. A stirring medium screen device for forming a liquid raw material flows between the disc, the through hole is formed in a position close to the rotation axis of the second guide plate, and positioned between the plurality of spiral protrusions It is characterized by.

In addition, the primary mechanical chamber of the present invention, a ring-shaped rotary friction ring fixed to the liquid suction guide plate, a ring-shaped fixed friction ring in close contact with the rotary friction ring, and the first fixed fixed to the stirring chamber The stirring medium screen device of the liquid raw material stirrer composed of a ring, a second fixing ring to which the fixed friction ring is fixed, and a bellows pipe fixed between the first and second fixing rings.

The present invention is agitated by the rotor and the stirring pin and a plurality of fine stirring media placed in the stirring chamber, the liquid raw material introduced into the stirring chamber by the pump is rotated with the rotary shaft by the drive of the motor in the stirring chamber, The liquid raw material flows into the outflow passage through the gap and the through hole of the liquid suction guide plate by the pump pressure and is discharged to the liquid outlet. At this time, the fine stirring medium flowing into the gap of the liquid suction guide plate together with the liquid raw material induces the liquid suction. As it is separated from the liquid raw material by the centrifugal force generated by the spiral protrusion of the plate and discharged out of the gap, it can be prevented from being discharged to the liquid outlet through the through hole.

In addition, the present invention is blocked between the inside of the stirring chamber and the outflow passage by the primary mechanical chamber to prevent the fine agitating medium inside the agitating chamber from entering the outflow passage through a path outside the gap of the liquid suction guide plate to prevent the discharge into the liquid outlet. can do.

As such, the present invention is a method of separating the fine stirring medium having a higher specific gravity than the liquid raw material and discharging only the liquid raw material by the centrifugal force by the spiral protrusion of the liquid suction induction plate without using the outflow screen in which the conventional fine slit is formed. And liquid raw materials block the previous outflow screen, which eliminates the problem of overheating inside the agitator or reduces the amount of liquid raw materials, and reduces the cost of producing fine slits of the conventional outflow screen with expensive precision processing. There is an advantage that is.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. 1 is a block diagram showing a stirrer equipped with a stirring media screen device according to the present invention, as shown in the stirrer is a liquid raw material stored in the storage container 2 by the driving of the pump (1) for cooling to the outside Rotational transmission mechanism which is supplied into the stirring chamber 3 with the cooling jacket 11 through the liquid inlet port 3b, and the rotational force by the drive of the motor 5 installed in the stirring body 4 consists of a belt and a pulley. It is transmitted to the rotating shaft 7 installed through the inside of the stirring chamber 3 through 6, and the rotating shaft 7 is rotated.

In the stirring chamber 3, a plurality of fine stirring media 10 in the form of circular beads for finely stirring particles in a liquid raw material are put, and an yttria stabilized zirconium system is used as the fine stirring media 10.

Friction between the liquid raw material and the fine stirring medium (10) in order to agitate the liquid raw material supplied into the stirring chamber (3) to the rotary shaft (7). A cylindrical rotor 8 for generating a shear force is provided, and a stirring pin 9 protruding from the outer circumferential surface of the rotor 8 is provided to rotate together with the rotary shaft 7.

In addition, a liquid outlet 3a through which the stirred liquid raw material is discharged is formed at one upper side of the stirring chamber 3, and the liquid raw material discharged through the liquid outlet 3a is returned to the storage container 2 and the pump 1 ) To be repeated to carry out the stirring operation repeatedly.

FIG. 2 shows the internal configuration of the stirring chamber 3 in detail, and inside the stirring chamber 3, the fine stirring medium 10 is separated from the stirred liquid raw material and only the liquid raw material is provided at one side of the stirring chamber 3. It is provided with a stirring medium screen device for discharging to the liquid outlet 3a, the fine stirring medium 10 is not discharged to the liquid outlet 3a so as to remain in the stirring chamber (3).

The stirring medium screen device includes a liquid suction guide plate 20 which is fixed to the rotary shaft 7 inside the stirring chamber 3 and rotates together with the rotary shaft 7, and the liquid suction guide plate 20 and the stirring chamber ( It consists of a primary mechanical chamber 30 provided between 3) and a secondary mechanical chamber 40 provided for sealing between the stirring chamber 3 and the rotary shaft 7.

3 to 5, the liquid suction guide plate 20 includes a plurality of spiral protrusions 21 for generating centrifugal force when the rotary shaft 7 rotates, and a through hole connected to the liquid outlet port 3a. (22), that is, the upper and lower first and second discs (23, 24) fixed in close contact with the rotary shaft (7). A plurality of helical protrusions 21 are radially formed in the lower first disc 23 so that the liquid raw material is introduced by portions except the helical protrusions 21 between the first and second discs 23 and 24 which are in close contact with each other. The through hole 22 is formed at a position close to the rotation shaft 7 of the second disc 24, but is formed between the plurality of spiral protrusions 21. One configuration.

In this case, fixing holes 23a and 24a which are not penetrated are formed in the opposing surfaces of the first and second original plates 23 and 24 to a predetermined depth, and fixing pins 25 are formed in both fixing holes 23a and 24a. The first and second discs 23 and 24 to be firmly coupled without flow, and the fixing of the liquid suction guide plate 20 and the rotation shaft 7 is performed by the first and second plates of the liquid suction guide plate 20. 2 The rotary shaft 7 and the rotor 8 by inserting the center holes 23b and 24b formed at the center of rotation of the discs 23 and 24 into the rotary shaft 7 and screwing the rotor 8 with the rotary shaft 7. In between the liquid suction guide plate 20 is to be fixed closely.

On the other hand, the primary mechanical chamber 30 is provided between the liquid suction guide plate 20 and the stirring chamber 3 to discharge the liquid outlet port 3a from the through hole 22 of the liquid suction guide plate 20. A ring-shaped rotary friction ring 31 which is integrally fixed to the liquid suction guide plate 20 to prevent the passage between the inside of the stirring chamber 3 and the outlet passage 26 so as to form an outlet passage 26 leading to the lower portion. ), A ring-shaped fixed friction ring 32 in close contact with the rotary friction ring 31, a first fixed ring 33 fixed to the stirring chamber 3, and the fixed friction ring 32 It is composed of a second fixing ring (34) to be fixed, and a bellows pipe (35) whose both ends are fixed to the first and second fixing rings (33, 34).

Since the rotary friction ring 31 and the fixed friction ring 32 rotate in close contact with each other, in order to give abrasion resistance during friction, a material having a high hardness generally used in mechanical structure such as silicon carbide in the form of shrink fit. Preferably, the liquid suction guide plate 20 and the second fixing ring 34 are fixed to each other.

Referring to the operation of the present invention made of such a configuration as follows. First, as shown in FIG. 1, when the rotary shaft 7 is rotated by driving the motor 5 while driving the pump 1 to supply the liquid raw material in the storage container 2 into the stirring chamber 3, the rotor 8 ) And the stirring pin 9 rotate to stir the liquid raw material, and at the same time, the fine stirring medium 10 in the form of a bead of 0.03-0.3 mm size, which is placed in the stirring chamber 3, flows to form particles in the liquid raw material. More finely stirred.

Subsequently, the stirred liquid raw material passes through the gap A and the through hole 22 of the liquid suction guide plate 20 by the supply pressure of the liquid raw material acting inside the stirring chamber 3 by the driving of the pump 1. The liquid raw material introduced into the outflow passage 26 and discharged to the liquid outlet 3a is discharged to the storage outlet 2a and is supplied back into the stirring chamber 3 to be circulated repeatedly. .

At this time, the liquid suction guide plate 20 is rotated together when the rotating shaft 7 is rotated, so that the centrifugal force is generated by the spiral protrusion 21 as shown in FIG. 6, and into the gap A by this centrifugal force. Since the fine stirring medium 10 having a high specific gravity among the introduced liquid raw material and the fine stirring medium 10 is pushed out of the gap A, the fine stirring medium 10 can be separated from the liquid raw material, and the fine stirring medium 10 ) Is separated and only the liquid material having a relatively low specific gravity is introduced into the outflow passage 26 through the through-hole 22 to be discharged to the liquid outlet port 3a.

As such, the liquid raw material flows through the fine stirring medium 10 of 0.03 to 0.3 mm, which is an essential element for ultra-microdispersion in nanometer units by the centrifugal force by the spiral protrusion 21 of the liquid suction guide plate 20. Since it is possible to efficiently separate and remain in the stirring chamber 3 before being discharged to 3a, clogging of the liquid outlet port 3a can be prevented.

In addition, since the primary mechanical chamber 30 blocks the inside of the stirring chamber 3 and the outflow passage 26, the secondary mechanical chamber 40 seals between the rotary shaft 7 and the stirring chamber 3. The liquid raw material may flow into the outlet passage 26 only through the gap A and the through hole 22 of the liquid suction guide plate 20 and be discharged to the liquid outlet 3a, and the liquid raw material may be discharged to the liquid suction guide plate ( In the process of flowing only into the gap A of 20) and flowing into the outflow passage 26 through the through hole 22, the fine stirring medium 10 mixed with the liquid raw material is separated as described above, and is separated from the gap A. Since the fine agitating medium 10 is not discharged to the liquid outlet port 3a, friction wear occurs between the rotary friction ring 31 and the fixed friction ring 32 of the primary mechanical chamber 30. Also, the sealing life can be extended by the vertical spring action of the bellows pipe 35.

The embodiments described so far are merely illustrative of the preferred embodiments of the present invention, and the scope of the present invention is not limited to the described embodiments, and the technical idea of the present invention and utility model registration claims Various changes, modifications, or substitutions will be made by those skilled in the art, and such embodiments should be understood as falling within the scope of the present invention.

1 is a cross-sectional view showing a liquid raw material stirrer to which a stirring media screen device according to the present invention is applied.

Figure 2 is an internal cross-sectional view of the stirring chamber showing the installation state of the stirring media screen device according to the present invention.

Figure 3 is an enlarged cross-sectional view of the main part showing a stirring media screen device according to the present invention.

Figure 4 is a perspective view showing a liquid suction guide plate in the stirring media screen device according to the present invention.

5 is an exploded perspective view showing the liquid suction guide plate in the stirring media screen device according to the present invention.

Figure 6 is a plan view showing the operating state of the liquid suction guide plate in the stirring media screen device according to the present invention.

<Description of the symbols for the main parts of the drawings>

1: pump 3: stirring chamber

3a: liquid outlet 5: motor

7: rotating shaft 8: rotor

9: stirring pin 10: fine stirring medium

20: liquid suction guide plate 21: spiral protrusion

22: through hole 23, 24: first and second disc

26: outflow passage 30: primary mechanical chamber

31: rotating friction ring 32: fixed friction ring

33,34: first and second fixing ring 35: bellows pipe

40: secondary mechanical chamber A: gap

Claims (3)

The liquid raw material flowing into the stirring chamber is stirred by a circular bead-shaped fine stirring medium and a rotor and a stirring pin installed on a rotating shaft driven by a motor, and the liquid raw material is separated from the stirred liquid raw material to stir only the liquid raw material. In the stirring medium screen device of the liquid raw material stirrer configured to discharge to the liquid outlet provided on one side of the chamber, A liquid suction guide plate having a plurality of helical protrusions installed to rotate together with a rotating shaft in the stirring chamber and generating centrifugal force during rotation, and having a through hole connected to the liquid outlet side; A primary mechanical chamber installed between the liquid suction guide plate and the stirring chamber to block an inside of the stirring chamber and the discharge passage so as to form an outlet passage leading from the through hole of the liquid suction guide plate to the liquid outlet; It consists of a secondary mechanical chamber installed to seal between the stirring chamber and the rotating shaft, The primary mechanical chamber may include a ring-shaped rotary friction ring integrally fixed to the liquid suction guide plate, a ring-shaped fixed friction ring in close contact with the rotary friction ring, and a first fixed ring fixed to the stirring chamber. And a second fixing ring to which the fixed friction ring is fixed, and a bellows pipe fixed between the first and second fixing rings. 2. The liquid suction guide plate according to claim 1, wherein the liquid suction guide plate is composed of upper and lower first and second disks fixed to and in close contact with a rotating shaft, and includes a plurality of spiral protrusions formed on a lower first disk. A liquid raw material is formed between the second disc to form a gap in which the liquid raw material flows, and the through hole is formed at a position close to the rotation axis of the second guide plate, and is formed between the plurality of spiral protrusions. Stirring medium screen device of the stirrer. delete

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