KR20040082744A - Continuation breakup apparatus of basket form having plural support frame - Google Patents

Abstract

The present invention distributes a support frame each containing a cylinder structure capable of ascending and descending centering around a dispersion container containing a liquid formulation in an upper frame for storing and fixing a basket, a distributed rotating shaft, a mixer, a motor for distributing dispersion, a mixer motor, and the like. A plurality of left and right sides are provided on the side of the container so as to raise and lower the upper frame by driving the flow cylinder; Installing a wheel at the bottom of the support frame or a hoist attached to the ceiling to the center of gravity of the support frame to facilitate the movement of the entire distribution device; The upper frame and the supporting frame for raising and lowering the beam are separated into two independent parts so as to independently raise and lower the mixer and the mixer including the basket; Lifting the dispersion vessel to discharge the finished liquid by opening the valve at the bottom of the dispersion vessel; The scraper rotates along the wall of the dispensing vessel so that the wall of the dispensing vessel can be scraped off.

Description

Continuous breakup apparatus of basket form having plural support frame}

The present invention relates to a basket-type dispersing apparatus having a plurality of support frames, and more particularly, to support the upper frame with a plurality of support frames to improve the stability of the dispersing apparatus including the upper frame, as well as to the dispersing apparatus or the dispersing vessel. And it relates to a basket-type dispersing device having a plurality of support frames to move the mixer and the like up, down, front, back, left and right.

Conventional basket-type continuous dispersing apparatus is a dispersing apparatus for dispersing or pulverizing the particles of the powder material in the liquid liquid compound, which is a fluid, evenly mixed with the liquid material such as paint, ink, other chemical and electronic materials.

In the basket-type continuous dispersion device, the liquid formulation is dispersed by friction and shear force between the dispersion pin filled in the basket and the dispersion pin support and the dispersion pins inside the basket driven by the driving of the motor, and also the liquid formulation. The silver exits through the slits on the side of the basket and is discharged to the outside by the centrifugal force inside the basket generated by the rotation of the dispersion pin support and the dispersion pins. Of course, the liquid formulation discharged to the outside may be added into the basket again to obtain the atomized liquid formulation by the dispersion process is carried out repeatedly.

1 and 2 are related to the dispersing apparatus of Korean Patent Application No. 2000-35693 (June 27, 2000) already filed by the applicant, which is directed downward to enable the lowering of the upper frame 114. The basket 110 and the mixer 118 connected vertically are put directly into the dispersion container 115 in which the liquid formulation is dispersed. This is used to batch produce the liquid formulation contained in the dispersion vessel 115 in a batch method.

The above-described conventional dispersing apparatus has a strong friction force and shear force of the liquid blend with the dispersing mediums by rotation of the dispersing pin support 112 and the dispersing pins 113 connected to the dispersing medium and the distributing rotating shaft 111 in the basket 110. While being dispersed and crushed by the back, the centrifugal force moves in the direction of the slit 116 of the outer wall of the basket 110 to pass through the plurality of slits 116 formed on the sidewall of the basket 110 and exit to the outside.

In addition, the liquid phase through the liquid inlet 117 between the dispersion rotating shaft 111 and the upper portion of the basket 110 in place of the liquid mixed with the other liquid blend present in the dispersion container 115 by the stirring of the mixer 118 and exited. The blend will continue to reintroduce naturally again.

In the conventional dispersing device, a single support frame 119 having a cylinder structure 120 is positioned below the entire center of gravity of the upper frame 114. The lower left side of the upper frame 114 has a dispersion container ( The basket 110 and the distributed rotating shaft 111 that can be placed in the 115 are located, and the motor 121 and the like are positioned at the upper right side of the upper frame 114 to grasp the center of gravity.

In addition, the liquid mixture is completed the dispersion process is transported to the next process for packaging or dilution by the transfer pump, or to increase the dispersion container 115 by a forklift or a separate lift to reduce the contamination of the transfer pump and the transfer pipe. After lifting up to open the valve 122 at the bottom has been used to discharge the liquid to the packaging container or dilution vessel at the bottom under the load of the liquid compound itself.

In addition, when a relatively large amount of work of the liquid mixture is above a certain capacity (1,000 liters), it is difficult for an operator to move the dispersion container 115 as shown in FIG. The container is positioned below the center of the basket 110, and fixedly installed radially around a support frame having a lifting cylinder therein, and the upper frame is raised and rotated two or three dispersion vessels while rotating 360 degrees. The dispersion process can be performed at.

In addition, the conventional dispersing apparatus first puts the upper frame 114 for fixing the basket 110 and the mixer 118 connected to the dispersion rotating shaft 111 into the dispersing vessel 115, and then disperses the liquid material or powder material ( 115), and the mixer 118 is rotated prior to the dispersion process to perform a pre-mixing process of mixing raw materials.

In the conventional dispersion apparatus as described above, a single support frame is positioned where the center of gravity of the upper frame to which the basket and the mixer, the motor, and the like accommodated in the dispersion vessel are fixed is located. A cylinder structure for raising and lowering the upper frame is built in the support frame, and a basket, a mixer, etc. accommodating a distributed rotating shaft and a dispersion medium are fixed to the left side of the upper frame.

In addition, the right side of the upper frame is designed long to prevent excessive weight bias on the left side, and the motor is installed thereon, but the length of the upper frame, which is designed to be long on the right side as the dispersion container grows, is 2.5 to the diameter of the dispersion vessel. It should be about three times.

If the long upper frame needs to be rotated, a considerable work space is required, but due to the nature of the chemical plant, various piping and wiring lines are complicatedly constructed. As a result, it is difficult to balance the dispersing apparatus including the upper frame, and there is a problem that the whole dispersing apparatus is shaken even by a small vibration or a flow of a mixer.

In addition, in the case of a dispersing device that produces relatively small and medium-sized working lots of 1,000 liters or less, when discharging the liquid after the dispersing process is completed, the discharging device is connected to a discharge pump at the bottom of the container. After discharging the liquid, the transfer pump and pipes should be cleaned.

However, in the manufacture of paints and inks, the dispersion vessels need to be cleaned every time different operations are performed depending on various colors, various types of resins, etc., resulting in significant loss in time and economy.

In some cases, in order to overcome the difficulty of washing performed after 1 to 3 hours each time the dispersion process is completed, using a forklift or the like lifts up the dispersion container containing the liquid is completed, the packaging or at the bottom of the dispersion container After the dilution vessel is placed, the valve at the bottom of the dispersion vessel is opened to allow the liquid to be discharged by its own weight, but this also causes a time or economic loss.

In addition, conventionally, the lower end of the support frame in which the cylinder structure is built is fixed by a fixing bolt, regardless of a small / medium dispersion device having a movable dispersion container or a fixed dispersion device having a large dispersion container. Two to three dispersion vessels are arranged radially so that the upper frame can be rotated around the frame to match the position of the dispersion vessel.

However, in the case of distributing two or more large lots of dispersing vessels in two or three layers, disposing them in a row is advantageous in the use of space in a factory or in various pipe management, but dispersing apparatuses cannot be moved in a row. It is not possible to arrange them, and only two or three dispersion vessels can be disposed radially.

In addition, in the conventional dispersing device, when the liquid material and the powder material, which are the first raw materials, are introduced into the dispersing container, the upper frame is lowered and the basket is simultaneously lowered to feed the large amount of powder material. At this time, the powder material is adsorbed to the basket of a rather complicated shape. If it is not removed, it will be discharged undispersed later and cause the defect. Therefore, after the powder material is put in, the basket is lifted again and the worker is manually adsorbed. Powder chunks must be forcibly removed from the basket.

In addition, in the premixing process where a large basket is located near the mixer blade at the center lower part of the entire dispersing container and evenly mixes the liquid material and the powder material, the basket in the center block the flow of fluid by the rotation of the mixer blade. In the pre-mixing process where the powder and liquid are mixed evenly before the dispersion process, the working time is delayed considerably or the liquidity is poor, so the powder material is adsorbed on the wall of the dispersion container. Must be removed manually.

In addition, when dispersing a high-viscosity product using a conventional dispersing device, if the raw material of the liquid does not flow well and adheres to the wall of the dispersion container, it cannot be naturally introduced into the basket, resulting in a dispersion defect, thereby limiting its use. This can be solved by using a scraper to rotate and scrape the inner wall of the dispersion container, but in the conventional dispersing device having the above structure, the support frame is composed of a single frame with a fairly unstable structure, so that only the front of the upper frame It is almost impossible to attach a scraper that requires considerable force.

The present invention for solving a variety of problems in the conventional dispersing device as described above, unlike the conventional dispersing device to support the upper frame with a plurality of support frames to accommodate the basket, distributed rotary shaft mixer and motor (motor) And the overall length of the upper frame to be fixed can be greatly reduced to about half of the existing size, to create a dispersion device with excellent space utilization, and there is less flow during the ascending and descending device of the dispersing device much more stable lifting and lowering premixing and dispersion It is an object of the present invention to provide a basket-type dispersing apparatus having a plurality of support frames, which makes it possible to manufacture a dispersing apparatus having a stable structure without time flow.

In addition, the present invention after the dispersion of the liquid material contained in the dispersing vessel is finished so that the dispersing device itself lifts the dispensing vessel together with the upper frame to open and close the valve at the bottom of the dispersing vessel so that the liquid can be discharged by the liquid weight. It is an object of the present invention to provide a basket-type dispersing apparatus having a plurality of support frames, which does not require washing of pumps and pipes, and thus increases work efficiency.

In addition, the present invention can be distributed by moving a plurality of dispersion vessels arranged in a line along a randomly set dispersing device, it is very advantageous for the use of space and can easily move and work a plurality of dispersion vessels dedicated to each product It is an object of the present invention to provide a basket-type dispersing apparatus having a plurality of support frames that can be dispersed by dispersing the dispensing vessel, thereby reducing the loss of washing the dispersing vessel.

In addition, the present invention can be directly applied to the dispersion device according to the present invention even in the field where the existing distribution vessels are arranged in a line, having a plurality of support frames to minimize the introduction cost of the dispersion device according to the present invention It is an object of the present invention to provide a basket disperser.

In addition, the present invention can be used as a pure mixer by separating the upper frame for the dispersing device and the upper frame for the mixer device, so that the rising and lowering of the distribution basket and the mixer shaft, respectively, can be used as a pure mixer, the dispersing device is designed to be mobile In this case, after the preliminary premixing, even if the dispersion process is in progress, the basket has a plurality of supporting frames that can improve the efficiency of work, such as moving to another dispersion container for a while, mixing, and returning to the position again to continue the dispersion. It is an object of the present invention to provide a dispersing device of the type.

In addition, in the present invention, only the mixer can be lowered in the premixing process in which the powder material and the liquid material are added together, and thus, the basket needs to be lifted again to remove the lumps of powder adhered to the upper and wall surfaces. If the same mixer is used, the flow capacity of the mixer is doubled, which greatly reduces the defects caused by agglomerates of powder adhering to the wall or bottom of the dispersion container. It is an object of the present invention to provide a basket-type dispersing apparatus having a plurality of support frames that can be designed to reduce manufacturing costs.

In addition, in the present invention, the support frame for fixing the upper frame is a plurality of left and right, so that the center of the upper frame is the center of the dispersion container and the upper frame is fixed, so that there is no flow in the overall structure to scratch the adhesive compound on the inner surface of the dispersion container. It is an object of the present invention to provide a basket-type dispersing device having a plurality of support frames that can be easily attached to the rotating scraper by a simple and low-cost dispersing device, so that even high-viscosity products can be dispersed.

1 is a view showing a conventional dispersion container fixed dispersion device.

Figure 2 is a view showing a conventional dispersion container mobile dispersing device.

Figure 3 is a view showing a dispersion device each having a cylinder flow portion in a plurality of support frames according to the present invention.

4 and 5 is a view showing a dispersion device having a cylinder flow only in one of the support frame of the plurality of support frame according to the present invention.

Figure 6 is a view showing a dispersion device having a reduction motor drive device on one of the plurality of support frames according to the present invention.

FIG. 7 is a diagram showing a dispersing apparatus in which a moving unit is added so that the dispersing apparatus is movable in the dispersing apparatus shown in FIGS.

8 and 9 are views for explaining a method of moving the dispersing apparatus of FIG.

10 and 11 are detailed views illustrating a guide rail structure, wheels, and the like in the dispersing apparatus having the moving means of FIG.

12 is a view showing a structure in which the upper frame of the dispersing device can lift the dispersing container containing the processed liquid formulation in the dispersing device shown in FIGS.

FIG. 13 is a view showing that a scraper for rotating the inner surface of the dispersion container is attached to the upper frame in the dispersion apparatus shown in FIGS.

14 and 15 are divided shafts and mixers in which the supporting frame and the upper frame of the distributed rotating shaft and the mixer shaft are separated, respectively, and a plurality of independent cylinders are designed in the supporting frame to connect the distributed rotating shaft and the mixer. The figure shows that each axis can be freely raised and lowered.

※ Explanation of code about main part of drawing ※

110,208,902: Basket 111,206,901: Distributed rotating shaft

112: dispersion pin support 113: dispersion pin

114,305,702: Upper frame 115,203: Dispersion container

116: slit 117: liquid inlet

118 mixer 119 support frame

120,202,302 Cylinder structure 121,204,205,903 Motor

201,301,908: Support frame 207,905: Mixer

209,210: Motor pulley 211: Distributed shaft pulley

212: stirring shaft pulley 213,214: belt

215: connecting structure 217: head

303,605,807: Reduction Motor 304,705: Metal Wire

306: pulley 307: guide bar

308: connecting frame 309: center of gravity of the upper frame

401: wheels 402: guide rail

501 hoist 502 lower end of the support frame

601: key of the guide rail 602: groove

603: friction surface 604: wheel support

606: reciprocating chain 607: friction preventing wheels

701: mobile dispersion container 703,704: metal ring

801: drum structure 802: drum lower portion

803: drum side 804: ball transfer bearing

805: second round metal drum 806: bevel gear

808: Resin Material 809: Scraper

811: metal bar 904: upper frame for the dispersion device

906: mixer motor 907: upper frame for the mixer device

909 mixer blade 910 bending

In the basket-type dispersing apparatus having a plurality of support frames according to the present invention for achieving the above object, a single support frame with a built-in flow cylinder is installed in the center of the upper frame to enable the lowering, the upper In front of the frame, a dispersion rotating shaft, a dispersion basket and mixer interlocked with the dispersion shaft, and one or more motors are installed in the rear, and the dispersion medium is formed by the rotation of the dispersion pin support and the dispersion pins in the center of the basket in which the dispersion medium is filled. In the basket-type dispersing device having a plurality of support frames for dispersing the liquid compound in the basket by the frictional force and shear force of the, and the support frame for raising and lowering the upper frame is the left and right of the dispersion container around the dispersion container Multiple sides are installed on the side with a certain distance from the outer side of the dispersion container. And a cylinder structure capable of vertically moving in each of the plurality of support frames, and an upper head portion of each cylinder structure embedded in the plurality of support frames, wherein the distributed rotating shaft, the mixer, the basket, and the like. An upper frame for accommodating and fixing the drive motor is seated so that the upper frame for fixing the basket and the mixer can be raised and lowered in conjunction with the flow cylinders in the plurality of support frames.

In the basket-type dispersing apparatus having a plurality of supporting frames according to the present invention, a single supporting frame having a built-in flow cylinder is installed at the center of the upper frame so that the lowering can be carried out, and the front side of the upper frame is interlocked with a distributed rotating shaft. Dispersion baskets and mixers at the rear and one or more motors are installed in the rear, and in the basket by friction and shear forces between the dispersion pin support and the dispersion medium due to the rotation of the dispersion pins located in the center of the basket filled with the dispersion medium. In the basket-type dispersing device having a plurality of support frames for dispersing the liquid formulation in the form, the support frame for raising and lowering the upper frame is constant with the outer surface of the dispersion container on the left and right sides of the dispersion container around the dispersion container Installed in a plurality at intervals, one of the plurality of support frames Each of the support frame of the cylinder structure or the reduction motor is capable of vertical flow, each of the one or more pulleys or chain gears with a bearing for converting the direction of the force in the connection frame coupled to the upper end of the plurality of support frames Is installed, the metal chain or metal wire connected to the center of gravity of the upper frame is connected to the cylinder structure or the reduction motor of the support frame via the pulley or chain gear, the upper frame of the rising of the upper frame A plurality of induction guide bar (guide bar) for inducing the lowering is installed, characterized in that the upper frame is raised and lowered in conjunction with the flow cylinder or the reduction motor of the cylinder structure.

In addition, in the basket-type dispersing apparatus having a plurality of supporting frames according to the present invention, the upper frame is a dispersing upper frame, a mixer and a mixer motor, which can accommodate and fix the distributed rotating shaft, the basket and the distributing motor The upper frame for the mixer device and the upper frame for the mixer device is separated into a top frame for the mixer device that can be stored and fixed, the support frame of a plurality of cylinder structures or a plurality of support frames built in a plurality of support frames It is preferable to be independently raised and lowered in conjunction with a cylinder structure or a reduction motor installed in the.

In addition, in the basket-type dispersing apparatus having a plurality of support frames according to the present invention, a plurality of wheels for movement are attached to the lower ends of the plurality of left and right support frames, respectively, and hypothesized along the arrangement direction of the dispersing containers arranged in a line. A guide pulley is installed at one side of the guide rail, and a guide pulley is installed at the other side of the guide rail, and a chain or metal wire wound around the reduction motor and the pulley is connected to the front and rear of the bottom of the support frame, and the support frame is rotated according to the rotation of the reduction motor. It is preferable to allow the dispersing apparatus including a movable unit to move back and forth along an arrangement direction of the dispersing vessels arranged in a line.

In addition, in the basket-type dispersing apparatus having a plurality of support frames according to the present invention, the grooves formed on one side of the guide rail is coupled to the friction preventing wheel rotatably around the key, the wheel at the bottom of the support frame It is preferable that a high-strength or wear-resistant polymer plastic is applied or adhered to the friction surface that is in contact with the wheel for preventing friction among the wheel supports for fixing the wheels.

In addition, in the basket-type dispersing apparatus having a plurality of support frames according to the present invention, the hoist (hoist) is fixed to the ceiling on which the dispersing apparatus is located so as to be movable along the arrangement direction of the dispersing vessel arranged in a line, It is preferable to connect the hoist to the lower end of the plurality of support frames, so that the dispersing device including the support frame is linked to the hoist to move back and forth along the arrangement direction of the dispersing vessel arranged in a line.

In addition, in the basket-type dispersing apparatus having a plurality of support frames according to the present invention, four or more metal rings are formed on the upper end of the movable dispensing container at a predetermined interval, and the first and second metal rings corresponding to the metal rings of the dispersing container. A circular metal plate on which the metal ring of 2 is processed is fixedly installed at the lower end of the upper frame, and the metal ring of the metal plate and the metal ring of the dispersion container are connected by a metal chain or a metal wire, and interlocked with the upper frame to distribute the container. It is desirable to be able to raise and lower.

In addition, in the basket-type dispersing apparatus having a plurality of support frames according to the present invention, a drum structure having a plurality of ball transfer bearings formed on the side and the lower end is installed at the lower end of the upper frame, the ball transfer bearing of the drum structure Bevel gears or helical gears are formed along the outer circumferential surface of the second circular metal drum seated on the bevel gears or helical gears connected to the rotating shaft of the reduction motor fixed to the upper frame. Geared with the helical gear, the lower end of the second circular metal drum is preferably provided with a scraper made of a metal bar and a resin material facing downward to the wall surface of the dispersion vessel.

Hereinafter, the present invention will be described in detail.

As shown in Fig. 3, the basket-type dispersing apparatus having a plurality of support frames according to the present invention is divided into left and right sides of the dispersing container 203 with the dispersing container 203 as the center. A plurality of support frames 201 having a quadrangular or circular structure are supported at both sides of the upper frame 114 so as to withstand the weight of the dispersing device at small intervals.

That is, the dispersion apparatus according to the present invention is a basket in which the dispersion medium is filled in a state in which it is connected to the dispersion rotating shaft 206 at the lower end of the upper frame 114 that can be raised and lowered by the driving of the plurality of support frames 201 ( The mixer 207 in the dispersion container 203 in which the liquid formulation is dispersed by friction and shear forces with the dispersion medium due to the rotation of the dispersion pin support 112 and the dispersion pin 113 in the 208, and the liquid formulation is contained. The liquid in the dispersion vessel 203 is agitated by the driving of the dispersion vessel, and the liquid flows out through the plurality of slits 116 formed on the side surface of the basket 208 by the centrifugal force in the basket 208. It is configured to be mixed with the other liquid in the interior of the basket 208 through the liquid inlet 117 above the basket 208 again.

The plurality of support frames 201 located at both ends of the upper frame 114 are each equipped with a cylinder structure 202 capable of driving up and down, and the head portion 217 of each cylinder structure 202 is Between the upper frame 114 is horizontally supported so as to have a 'C' shape of the central form is low.

In order to make a space for accommodating two motors 204 and 205 on the upper part of the upper frame 114, the middle part of the upper frame 114 is designed to be lower than the upper height of the supporting frame 201, Only the two sides of the upper frame 114 directly connected to the cylinder structure 202 of the frame 201 is designed to be higher than the support frame 201 by the extension by the vertical connecting structure 215, the cylinder structure 202 Can be combined with the top.

The lower portion of the upper frame 114 is connected to the dispersion shaft 206 and the mixer 207 and the basket 208 downward to accommodate in the dispersion container 203, the upper frame 114 of the Motor pulleys 209 and 210 of each motor 203 and 204 located therein are distributed shaft pulleys 211 and mixers 207 of the distributed rotating shaft 206 by belts 213 and 214 for power transmission. It is connected to the stirring shaft pulley 212 of the shaft.

Another method for raising and lowering the upper frame as described above is as shown in Figure 4, 5 or 6.

Unlike in FIG. 3, the cylinder structures 302 are installed only in one of the supporting frames 301 as shown in FIGS. 4 and 5 without installing the cylinder structures in each of the plurality of supporting frames, or as shown in FIG. 6. The reduction motor 303 is installed only on the support frame 301, so that the chain or metal wire 304 connected to the upper frame 305 can be pulled or wound. The cylinder structure embedded in the support frame 301, that is, the head portion of the flow cylinder and the reduction motor 303 and the upper weight center 309 of the upper frame 305 flow by connecting the chain or metal wire 304. The upper frame 305 is raised or lowered according to the rising and falling of the cylinder or the forward and reverse rotation of the reduction motor 303.

4, 5 or 6, in the manner of lifting the upper frame 305 with the metal wire 304 in conjunction with the flow cylinder or the reduction motor 303, located on the left and right sides of the upper frame 305 A connection frame 308 is fixedly installed at the upper end of each support frame 301, and a pulley 306 or a gear gear with a bearing embedded therein is installed at two or more places in the connection frame 308, thereby providing a flow cylinder. And not only can be converted in the direction of the force of the reduction motor 303 can also induce smooth forward and backward movement of the chain or metal wire (304).

In addition, in the dispersing apparatus according to the present invention, which raises and lowers the upper frame 305 by the metal wire 304, one or two guide guide bars respectively on the left and right sides of the upper frame 305 separately from the support frame 301. A guide bar 307 is provided so that the upper frame 305 flows up and down on the induction guide bar 307 without being shaken, and when the upper frame 305 is raised and lowered or in a dispersion container, stirring and dispersing work are performed. When this is done, the dispersion device including the support frame 301 or the upper frame 305 is not shaken.

7 to 11 show a dispersing apparatus in which the dispersing apparatus mentioned in FIGS. 3 to 6 is added with a moving means to move the dispersing apparatus, which is arranged in a dispersing apparatus in which dispersing containers are arranged side by side. It is applied to the structure that allows the entire dispersing device including a plurality of support frames to move horizontally.

To this end, as shown in FIG. 7, a small wheel 401 is attached to the lower end of each support frame 403, and the guide rail 402 of the double track is disposed in the dispersion container so that the whole dispersing device to be moved is not separated from the moving direction. It is installed long according to the arrangement direction.

In particular, as shown in FIG. 10, a groove 602 into which a key 601 enters is formed at an upper end of one side of the guide rail 402 abutting the wheel support 604 of the support frame 403, and in the groove 602. The small friction wheels 607 for preventing friction are coupled to the key 601, so that the entire dispersing device does not deviate from the orbit when the dispersing device moves horizontally after completing the dispersing process for each dispersing container. The friction with the guide rail 402 is minimized so that the whole dispersing device is not shaken even in the dispersion and premixing process.

Further, the friction surface 603 of the wheel support 604 and the friction surface 603 of the wheel support 604 by using a polymer plastic material having strong strength or wear resistance as a material of the friction preventing wheel 607 in contact therewith. Metal friction sparks that may occur between the friction preventing wheels 607 can be prevented in advance. At this time, the wheel 401 located at the bottom of the support frame 403 has four or more for each support frame, as shown in Figure 11 to distribute and balance the load of the dispersing apparatus including the support frame 403 Preferably, the wheel support 604 connecting the support frame 403 and the wheel 401 is preferably attached long along the moving direction of the dispersing device.

Of course, unlike in the example of FIG. 10 described above, the same effect as the friction preventing wheel 607 is configured to face the inner surface of the guide rail 402 on one side of the wheel support 604 instead of the guide rail 402. Can be obtained.

As shown in FIGS. 8 and 11, the dispersing device in which the wheel 401 is located at the bottom of the support frame 403 as shown above is moved on the guide rail 402 as described above. With the 605, the reciprocating chain 606 connected to the lower end of the plurality of support frames 403, that is, the front and rear of the wheel support 604, respectively, is connected to the reduction motor 605 to rotate the motor forward or reverse to distribute the entire dispersing apparatus. May move back and forth on the guide rail 402.

However, in the case where it is difficult to install the reduction motor 605 in which the reciprocating chain is caught due to the installation location, as shown in FIG. 9, in the arrangement direction of the plurality of dispersion vessels arranged in a row on the ceiling 503 of the upper part of the dispersion apparatus. A hoist 501 is installed to move horizontally, and the hoist 501 is connected to the lower end portions 502 of the plurality of support frames 403 of the dispersing device, thereby driving forward and backward movement of the hoist 501. As a result, it is possible to disperse the liquid formulations in each of the dispersing vessels arranged in a row while moving the dispersing apparatus having completed the dispersing process in the specific dispersing vessel.

In this case, unlike in the case of FIG. 8, a separate space for accommodating the moving chain, a space for installing the reduction motor 605, and the like may be omitted.

Figure 12 shows a structure to lift the dispersion vessel containing the liquid formulation processed by the dispersion apparatus described in Figures 3 to 6 to the upper frame, which is capable of receiving a liquid formulation of less than 1,000 liters It is suitable for a dispersion apparatus employing the dispersion vessel 701.

Upper outer diameter 4 of the mobile dispersion container 701 to lift the mobile dispersion container 701 to the upper frame 702 after the dispersion process is completed by a dispersion device using a mobile dispersion container 701 of 1,000 liters or less. The metal ring 703 is formed at predetermined intervals, and the metal plate 706 having an area corresponding to the four metal rings 703 is fixed to the lower end of the upper frame 702, and the metal plate 706 is provided. Four metal rings 704 are formed at the outer circumference of the upper part), and four metal rings 703 and 704 are connected between the upper and lower parts by a chain or metal wire 705, which is easily removable, and then the upper frame of the dispersing device ( In accordance with the rise or fall of the 702, the mobile dispersion container 701 also rises or falls.

FIG. 13 shows that a scraper capable of rotating the inner surface of the dispersing vessel is attached to the upper frame in the dispersing apparatus shown in FIGS. 3 to 6, and below the upper frame 812, and a plurality of mixers. A circular metal drum structure 801 fixed to the outside of the shaft 810 is processed.

In addition, at least three ball transfer bearings 804 are radially fixed to the lower end portion 802 and the side surface 803 of the drum structure 801, and the second drum is further reattached to the outside of the circular drum structure 801. Bearing flow portion of the ball transfer bearing 804 in which the circular metal drum 805 of the second circular metal drum 805 is disposed on the lower end 802 of the drum structure 801. Put it on to touch it.

In addition, the bevel is engaged with the bevel gear of the reduction motor 807 along the upper outer circumferential surface of the second circular metal drum 805 which is in contact with the inner surface of the bearing transfer portion of the ball transfer bearing 804 on the side of the drum structure 801. The gear 806 is formed so that the second circular metal drum 805 can rotate 360 degrees horizontally and balanced. The reduction motor 807 is fixed to the upper frame 809 and the bevel gear 806 of the second circular metal drum 805 at the end is a bevel gear of the same specification is the second circular metal drum 805 It is preferable to have predetermined rotation speed so that it may rotate at a low speed of about 2-3 rpm.

The metal bar 811 of the second circular metal drum 805 is rotated by forming a long rectangular metal bar 811 in a vertical direction free to rotate on the lower side of the second circular metal drum 805. 811 can be rotated while scraping along the inner circumferential wall of the dispersion vessel.

In this case, the long rectangular metal bar 811 is connected to the metal bar 811 with a bar of the resin material 808 long on the sliding surface of the dispersion container so that no spark occurs when friction with the metal dispersion container. It is preferable to use as the fur 809.

In addition, when the scraper 809 itself of metal material rotates along the inner surface of the dispersion container at a predetermined angle with the dispersion container, the scraper 809 is formed even if the distance between the inner surface of the dispersion container and the scraper 809 is slightly different. It is desirable to be able to adhere to the inner surface of the dispersion vessel while rotating by itself.

In the dispersion apparatus according to the present invention, a dispersion apparatus upper frame 904 for storing and fixing a dispersion rotating shaft 901, a basket 902, a motor 903 for rotating the dispersion rotating shaft 901, and a mixer ( The upper frame 907 for the mixer device for storing and fixing the shaft and the mixer motor 906, etc. can be independently raised and lowered to two upper frames as shown in FIGS. 14 and 15. Can be separated.

To this end, the support frame 908 located on the left and right sides has a wide rectangular structure so that two cylinder structures 910 can be built therein, and are distributed to the head of the cylinder structure 910 in the support frame 908. The upper frame 904 for the device and the upper frame 907 for the mixer device are seated so that each of the upper frames 904 and 907 can be raised and lowered independently.

In other words, as shown in Figs. 14 and 15, in the case of dividing the upper frame 904 for the dispersing device and the upper frame 907 for the mixer device into two upper frames, a total of four flows are provided in the two support frames 908. You can put a cylinder. Of course, in the case of using the metal wire 304 as in Figs. 4 to 6, by installing two flow cylinders or reduction motor 303 in the support frame 908, the dispersing device and the mixer 905 are independently raised and lowered. You can.

When the upper frame is separated for the dispersion apparatus and the mixer as described above, the two upper frames do not have the same shape or structure, but each have some different shape or structure so as to be easily driven independently.

First, the stirring mixer blades 909 are disposed to be positioned substantially at the center of the dispersion container 911, and the basket 902 is disposed at a position eccentrically slightly from the center of the dispersion container 911. Of course, the mixer blade 909 for stirring is preferably disposed in the dispersion container 911 of a large space among the remaining space occupied by the basket 902.

In addition, the motor 903 for rotating the distributed rotation shaft 901 is disposed on one side of the upper frame 904 for the dispersing device, that is, the closest to the support frame 908 of the upper frame 904 to The weight is not limited to the frame 904 for the dispersing device but also to the support frame 908.

In addition, by transforming the middle portion of the upper frame 907 for the mixer device into a form having a bend 910 to form a left-right symmetry, when the upper frame 907 for the mixer device independently rises and falls, the upper frame for the dispersion device ( 904 is not interfered with each other, the mixer motor 906 is located in the center of the upper frame 907 for the mixer device, it is easy to connect the shaft of the mixer 905 located on both sides at a certain interval, The rotational force of the mixer motor 906 transmitted to the mixer 905 may be maintained the same.

As described above, the basket 902 is in a slightly eccentric position in the center of the dispersion vessel 911 in order to secure a space for positioning the axis of the mixer 905 in the center of the dispersion vessel 911. That is, the basket 902 for dispersing does not have a large difference in the dispersing capacity even if the position is eccentric to some extent, while the mixer 905 shaft is effective to stir the liquid in a balanced and precise manner at the center of the dispersing vessel 911. Because it is very important to increase.

Therefore, according to the basket-type dispersion device having a plurality of support frames according to the present invention,

1. Unlike the conventional dispersing device, the overall length of the upper frame for accommodating and fixing the basket, the distributed rotating shaft mixer and the motors can be greatly reduced, so that the dispersing device with excellent space utilization can be made, There is less flow, so there is an effect to manufacture a stable dispersion structure of the stable structure without the flow during the lifting and lowering premixing and dispersion.

2. After the dispersing of the liquid material contained in the dispersing vessel is finished, the dispersing device itself raises the dispersing vessel together with the upper frame to open and close the valve at the bottom of the dispersing vessel so that the liquid can be discharged by the liquid weight. There is no need to wash the pipe, there is an effect that can increase the efficiency of the work.

3. It is possible to move and disperse a plurality of dispensing containers arranged in a line, which is very advantageous for space utilization, and it is also possible to easily move and disperse a plurality of dispensing containers. The effect is to reduce the loss. In particular, the dispersion device according to the present invention can be directly applied to the existing sites in which the dispersion containers are arranged in a line, thereby minimizing the introduction cost of the dispersion device according to the present invention.

4. It can be used as a pure mixer by separating the upper frame for the dispersing device and the upper frame for the mixer device, so that the rising and lowering of the dispersing basket and the mixer shaft can be operated independently. In this case, even after the first pre-mixing process, even if the dispersion process is in progress, it is possible to move to another dispersion container for a short time, to mix, and to return to the position again and continue the dispersion.

5. In the premixing process, where the powder and liquid materials are added together, only the mixer can be lowered, so that the basket does not need to be lifted again to remove the lumps of powder adhered to the upper and wall surfaces. When the same mixer is used, the flow capacity of the mixer is doubled, which greatly reduces the defects caused by agglomerates of powder adhering to the wall or bottom of the dispersion container, and reduces the size of the stirring blades and allows the design of a smaller mixer motor. Thus, the manufacturing cost can be reduced.

6. The support frame for fixing the upper frame is plural left and right, so the center of the upper frame becomes the center of the dispersion container, and the upper frame is fixed so that it becomes a stable form without flow in the whole structure. The scraper can be easily attached to a simple and low-cost dispersing device, and the high viscosity product can be dispersed.

As described above, the present invention has been described for only one preferred embodiment, but it is apparent to those skilled in the art that various modifications and variations are possible within the scope of the present invention based on the above embodiments. And modifications belong to the appended claims.

Claims (7)

A single support frame with a built-in flow cylinder is installed in the center of the upper frame to enable the ascending and descending, and the front side of the upper frame is equipped with a dispersion rotating shaft, a dispersion basket and mixer interworked with it, and one or more motors in the rear. Dispersion in the form of a basket having a plurality of support frames to disperse the liquid formulation in the basket by friction and shear forces between the dispersion pin support located in the center of the basket and the dispersion medium due to the rotational action of the dispersion pins In the apparatus, A plurality of support frames for ascending and descending the upper frame are installed on the right and left sides of the dispersion container at regular intervals with the outer surface of the dispersion container, and each of the plurality of support frames can be vertically flown. The cylinder structure is built-in, and the upper head portion of each cylinder structure inherent in the plurality of support frames is seated on the upper frame for storing and fixing the distributed rotating shaft, the mixer, the basket and the drive motor, to secure the basket and the mixer Dispersion apparatus in the form of a basket having a plurality of support frames, characterized in that the upper frame can be raised and lowered in conjunction with the flow cylinder in the plurality of support frames. A single support frame with a built-in flow cylinder is installed in the center of the upper frame to enable the ascending and descending, and the front side of the upper frame is equipped with a dispersion rotating shaft, a dispersion basket and mixer interworked with it, and one or more motors in the rear. Dispersion in the form of a basket having a plurality of support frames to disperse the liquid formulation in the basket by friction and shear forces between the dispersion pin support located in the center of the basket and the dispersion medium due to the rotational action of the dispersion pins In the apparatus, A plurality of support frames for raising and lowering the upper frame are installed on the left and right sides of the dispersion container with a predetermined distance from the outer surface of the dispersion container, and each of the support frames of the plurality of support frames is vertically up and down. One or more pulleys or chain gears are provided, in which a cylinder structure or a reduction motor is movable, and a bearing for converting a direction of force is installed in the connection frame coupled to the plurality of support frames. A metal chain or a metal wire connected to the center of gravity of the upper end of the frame is connected to the cylinder structure or the reduction motor of the support frame via the pulley or the chain gear, and a plurality of side surfaces of the upper frame to induce the rising and lowering of the upper frame. Induction guide bar of the cylinder structure Copper cylinder or deceleration is linked to the motor frame, an upper balancer is of the basket type having a plurality of supporting frames, characterized in that such that rise and fall. The method according to claim 1 or 2, The upper frame is divided into an upper frame for a dispersing device for storing and fixing a distributed rotating shaft, a basket, and a distributing motor, and an upper frame for a mixer device for storing and fixing a mixer and a mixer motor. The frame and the upper frame for the mixer device are independently raised and lowered in conjunction with a cylinder structure or a reduction motor installed in one of the plurality of cylinder structures or a plurality of support frames built in the plurality of support frames. A basket-type dispersing device having the plurality of support frames. The method according to any one of claims 1 to 3, A plurality of wheels for movement are attached to lower ends of the left and right support frames, respectively, and a guide pulley is installed on one side of the guide rail, which is hypothesized along the arrangement direction of the dispersing vessel, arranged in a line. Ends of the chain or metal wire wound around the reduction motor and the pulley are connected to the front and rear of the lower end of the support frame, and the front and rear sides of the dispersion container in which the dispersing device including the support frame is arranged in a line according to the rotation of the reduction motor. Basket-type dispersing device having a plurality of support frames, characterized in that to enable movement. The method according to any one of claims 1 to 3, A hoist is fixedly installed on the ceiling on which the dispersing device is located so as to be movable along an arrangement direction of the dispersing containers arranged in a line, and the hoist is connected to the lower ends of the plurality of support frames, and is linked to the hoist to support frames. Dispersion apparatus of the basket-type having a plurality of support frames, characterized in that the dispersing apparatus comprising a; to be moved back and forth along the arrangement direction of the dispersing vessel arranged in a line. The method according to claim 1 or 2, Four or more metal rings are formed at a predetermined interval on the upper end of the movable dispersion container, and a circular metal plate on which the second metal ring corresponding to the metal rings of the dispersion container is processed is fixedly installed at the lower end of the upper frame. , The metal ring of the metal plate and the metal ring of the dispersion vessel is connected to the metal chain or metal wire, the basket shape having the plurality of support frames, characterized in that to enable the lower and lower the dispersion vessel in conjunction with the upper frame Of disperser. The method according to any one of claims 1 to 3, A drum structure having a plurality of ball transfer bearings formed at the side and the bottom thereof is installed at the lower end of the upper frame, and a bevel gear or a helical gear is formed along the outer circumferential surface of the second circular metal drum seated at the ball transfer bearing of the drum structure. Bevel gears or helical gears connected to the rotating shaft of the reduction motor fixed to the upper frame are engaged with the bevel gears or helical gears of the second circular metal drum, and a metal bar and a lower end of the second circular metal drum. The basket-type dispersion device having the plurality of support frames, characterized in that the scraper made of a resin material is installed downward to abut the wall surface of the dispersion container.