JPH1147638A - Inside disk, centrifugal separator using the same and separation - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make a vibration during operation small even if an inside disk is not fixed rigidly by specifying a specific gravity of the inside disk with respect to centrifugal settling type centrifugal separator in whose rotor the inside disk for separating a light weight component is provided. SOLUTION: The inside disk 2 is provided in a basket type rotor 1 and a waste liq. containing the lightweight component is supplied from a supply line 4 in a state that the rotor is rotated, and when an inside of the rotor 1 is filled with the waste liq. and the waste liq. begins to overflow, the inside disk stands still around an outlet of a rim part 10. At that time, the lightweight component in the waste liq. is collected at an inner side in a radial direction and a developer is discharged through a space between the inside disk 2 and the rim part 10. At this time, the specific gravity (n) of the inside disk 2 to be used is set to a value satisfying the equation (n)<ma<2> /(a<2> -b<2> ) ((m) is the specific gravity of the waste liq., (a) and (b) are an outer diameter and an inter diameter of the inside disk).

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for separating a solid substance having a lower specific gravity than a liquid dispersed in a liquid or another liquid by using a centrifugal sedimentation type centrifugal separator provided with an inside disk in a rotor. More particularly, the present invention relates to an inexpensive inside disk which is easy to be attached and detached with less vibration and mechanical trouble during operation, and a method for removing lightweight components using the same.

[0002]

2. Description of the Related Art It is widely known to install an inside disk inside a rotor of a sedimentation type centrifugal separator to remove solids and other liquids having a lower specific gravity than the liquid dispersed in the liquid. It is used to remove resin dust and sludge in oil and oil, and to separate oil and water. Since these inside disks rotate at the same time as the rotor at a high speed, they are created with high balance accuracy and are firmly fixed to the rotor. For this reason, removal and attachment of the inside disk must be performed by replacing the rotor or disassembling the rotor, and cannot be performed immediately if necessary. In particular, basket-type rotors are widely used in various fields because of their simple structure.However, inside disks are often fixed inside the rotor,
It often took time to remove the contents or clean the inside of the rotor. In order to improve this, a method using a flexible inside disk that can be easily taken in and out of the rotor opening has been proposed.In this case, the inside disk is attached to the opening with a hook, so that the hook is rotated during rotation. There has been a problem that the vibration during rotation is increased due to detachment or a failure in mounting.

[0003]

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned various problems in the conventional method, and an object of the invention is to develop an inside disk and a method for removing light components by a centrifuge. It was done.

[0004]

Means for Solving the Problems The inventors of the present invention have conducted intensive studies, studies, and studies in order to solve the above-mentioned problems. As a result, by using an inside disk having a specific gravity, the inside disk is not firmly fixed. The present inventors have also found that vibration during operation can be reduced, and as a result, there are few mechanical troubles, easy attachment and detachment, and an inside disk and a centrifugal separator can be manufactured at low cost. Finally, the present invention has been completed. That is, according to the present invention, the specific gravity (n) of the inside disk satisfies the following expression (1) by placing the inside disk in the rotor of the centrifuge of the centrifugal sedimentation type provided with an inside disk for separating light components. An inside disk, a centrifugal separator provided with the inside disk in a rotor, and a separation method using the inside disk. n <ma ² / (a ² −b ² ) (1) (In the formula (1), m is the specific gravity of the liquid to be separated, a is the outside diameter of the inside disk, and b is the inside diameter of the inside disk.)

[0005] A centrifuge using the inside disk of the present invention uses a non-porous wall rotating body (rotor).
A centrifugal sedimentation type centrifuge, in which the acceleration applied to the circumference by high-speed rotation is much greater than the gravitational acceleration, and the sedimentation and floating speed caused by the difference in specific gravity from the dispersion of the dispersed particles to the dispersion liquid are increased. It is preferably used for various types such as a mold, a tubular mold, a separation plate mold and a decanter mold. In particular, by using the inside disk of the present invention in a batch type with a simple basket type having an internal structure, it is possible to make the most of the features such as easy attachment and detachment, low cost of the apparatus, and easy maintenance.

First, a general method of separating light components by a centrifuge using an inside disk will be described. Light-weight components dispersed in the liquid to be processed float up in the radial direction by centrifugation.However, in order to prevent this from being discharged out of the rotor together with the liquid, generally, the treatment in the rotor of the centrifuge is performed. A disk or annular weir called an inside disk is installed near the liquid outlet to dampen the light components. The inside disk has an outer diameter larger than a radial liquid surface level of the processing liquid during the rotation processing, and in the case of an annular shape, an inner diameter smaller than the liquid surface level. As a result, during the rotation process, the light component that has floated and gathered in the radial direction of the radius is intercepted by the inside disk and captured inside, and the processing liquid passes from the outside of the inside disk and overflows from the outlet to the rim. Or, it is discharged from the rotor by a skimming tube.

In the inside disk of the present invention, when the specific gravity of the liquid to be separated is m, the outside diameter of the inside disk is a, and the inside diameter of the inside disk is b, the specific gravity (n) satisfies the following equation (1). This is the biggest feature. n <ma ² / (a ² −b ² ) (1) (In the formula (1), m is the specific gravity of the liquid to be separated, a is the outside diameter of the inside disk, and b is the inside diameter of the inside disk.) Usually, the inside disk is often a disk shape with a perfect circle outer circumference or an annular shape with a perfect circle outer circumference and inner circumference, but when there is no complete outer or inner circumference like this , A represents the distance of the longest part from the center of rotation to the outer periphery, and b represents the distance of the shortest part from the center of rotation to the inner periphery. When the inside disk has a disk shape, b is 0.

In the present invention, when the specific gravity of the inside disk satisfies the above equation (1), the inside disk automatically balances the center of rotation during rotation of the centrifuge, and stands still while rotating to a predetermined position. Have the nature to try. Therefore, the inside disk of the present invention does not need to be firmly fixed to the rotor portion, and even if it is lightly held, the inside disk does not shift or come off, and stable operation with little vibration is possible. In some cases, it is not necessary to fix the inside disk to the rotor, and even when the vehicle is operated without fixing the inside disk at all, the inside disk rotates and stops at a predetermined position during rotation, thereby exhibiting the effect as the inside disk. be able to.

The inside disk according to the present invention may have a structure in which the apparent specific gravity of the inside disk as a whole satisfies the formula (1), and a structure in which a layer of a substance having a large specific gravity and a layer of a substance having a small specific gravity are laminated. A structure combining substances with different specific gravities in the inner and outer parts of the
A structure in which a substance with a small specific gravity is partially attached to an inside disk made of a substance with a large specific gravity, a structure in which a substance with a large specific gravity is partially attached to an inside disk made of a substance with a small specific gravity, or a material with a large specific gravity Even if it is an inside disk, it can take a free structure such as making the inside hollow. However, from the viewpoint of simplicity of processing, it is desirable to use a single material having a specific gravity satisfying the formula (1). Such a material is not particularly limited as long as it can be processed as an inside disk, such as metal, ceramic, resin, wood, paper, and a composite thereof.

Further, in order to use a basket-type centrifugal separator so that the inside disk can be removed without removing the basket-type rotor and its rim, the inside disk is preferably flexible, and the inside disk is preferably flexible. A thin plate or a resin plate is desirable. Specifically, as a metal thin plate, a thin plate of copper, aluminum, iron, stainless steel, zinc, tinplate, brass, etc., and as a resin plate, polyethylene, polypropylene, polyamides, polyesters,
Polyacrylonitrile, poly (meth) acrylates,
Vinyl chloride, vinylidene chloride, polystyrene, polyisobutylene, polybutadiene, polychloroprene, polyisoprene, polyoxymethylene, phenolic resin, melamine resin, polycarbonate, polyurethane, epoxy resin, celluloid, tetrafluoroethylene (PFTE), etc. Blended resins such as fluorine-containing resins, silicone resins, copolymer resins such as ethylene propylene copolymer, ethylene vinyl acetate copolymer and styrene-isoprene-styrene block copolymer, and polyacrylonitrile-polybutadiene-polystyrene (ABS) resin; Various general-purpose resins such as fibers of these resins and reinforced bodies with powder are used.

The thickness of the inside disk used in the present invention is desirably a thickness capable of capturing and retaining a light component and having flexibility. The thickness depends on the material and size of the inside disk, but is 0.01 mm or more. 20m
m or less. The shape of the inside disk can be any shape such as a disk or an annular shape.Protrusions and holes for fixing the inside disk and liquid to pass between the inside disk and the rotor rim from inside the rotor Are provided as necessary. Also, protrusions, holes, and spacers may be provided on the rotor side, and the inside disk may be a smooth disk or ring shape.

A centrifuge equipped with such an inside disk can remove resin dust and sludge in water or oil,
It can be widely used for oil-water separation, etc., especially when the photosensitive resin is cured by light, and the uncured portion is developed by dispersing it in an aqueous developer. It can be suitably used for removing dispersed resin components. A method for removing a resin component dispersed in a developer of a water-developable photosensitive resin plate is described in JP-A-4-185.
The method can be carried out in the same manner as described in JP-A-63-63.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION Next, a preferred embodiment of the inside disk of the present invention and the centrifugal separator of the present invention will be specifically described with reference to the drawings. 1 and 2 are a plan view and a side view, respectively, of an embodiment of the inside disk of the present invention. FIG. 3 is a side view showing a state in which the centrifuge equipped with the inside disk shown in FIG. 1 is in operation. FIG. In FIG. 3, an inside disk 2 of the present invention is provided in a basket-type rotor 1 having a non-porous wall of a centrifugal separator. First, the rotor 1 is rotated, and a liquid containing a lightweight component such as a resin dispersion waste liquid (hereinafter referred to as a liquid). It is called waste liquid for convenience)
Is supplied into the rotor 1 through the supply line 4, and when the inside of the rotor 1 is full of waste liquid and starts overflowing from the rim portion 10, the inside disk 2 rotates and stops near the outlet of the rim portion 10. Next, the light component having a lower specific gravity than the liquid gathers radially inward due to the generated acceleration. The developer overflows from the rim on the upper part of the rotor from the outside of the inside disk 2 to the space between the inside disk 2 and the rim portion 10 formed by the spacer 3 attached to the rim portion. Blocked and retained inside. When the solid material, which is a light component, is fully stored in the rotor 1, the supply and rotation of the waste liquid are stopped, and the inside disk 2 is stopped.
To remove the trapped solids. Also in this case, since the inside disk 2 is not fixed and is flexible, it can be easily taken out of the rotor. In addition, the protrusion in FIG. 2 can play the same role as the spacer 3 in FIG.

[0014]

EXAMPLES The present invention will be specifically described below with reference to examples, but the present invention is not limited to these examples. Examples 1 to 9 and Comparative Examples 1 and 2 Toyobo Co., Ltd. was manufactured by using the centrifuge shown in FIG. 3 having the shapes shown in FIG. 1 and the inside disks of various materials and sizes shown in Table 1. Resin dispersion waste liquid (resin concentration 1%) was developed by developing a photosensitive resin plate (trade name: Cosmolite CLH) from a 0.5% aqueous solution of sodium laurate (specific gravity: 1.0). The rotor of the centrifuge has a diameter of 200 mm, a depth of 140 mm, an opening diameter of the rim of 120 mm, and a spacer having a height of 3 mm inside the rim.
I used the one that was installed at different places. The rotation speed of the centrifuge was 3000 rpm. Table 1 shows the results.

[0015]

[Table 1] In Table 1, ○ indicates a light component (dispersed resin) without any problem.
Indicates that the inside disk did not stop at a predetermined position during rotation and could not be separated.

[0016]

As is clear from the embodiments, the inside disk of the present invention can be easily attached and detached, and the contents in the rotor can be easily removed and the rotor can be easily cleaned. In addition, vibration during operation is small, and even if the inside disk is not fixed to the rotor, the effect as the inside disk can be exhibited without coming off, which greatly contributes to the industry.

[Brief description of the drawings]

FIG. 1 is a plan view and a side view of an embodiment of an inside disk according to the present invention.

FIG. 2 is a plan view and a side view of an embodiment of the inside disk of the present invention.

FIG. 3 is a side view of an embodiment of a centrifuge provided with the inside disk of the present invention.

[Explanation of symbols]

 1: Basket type rotor 2: Inside disk 3: Spacer 4: Supply line 5: Centrifuge case 6: Rotor rotation motor 7: Take-out port 8: Light component (dispersion resin with small specific gravity) 9: Waste liquid 10: Rim section

Claims (4)

[Claims] 1. A specific gravity (n) of an inside disk satisfies the following expression (1) in a centrifuge provided with an inside disk for separating light components in a rotor of a centrifugal sedimentation type centrifuge. An inside disk characterized by: n <ma ² / (a ² −b ² ) (1) (In the formula (1), m is the specific gravity of the liquid to be separated, a is the outside diameter of the inside disk, and b is the inside diameter of the inside disk.) 2. The inside disk according to claim 1, wherein the inside disk is not fixed to a rotor. 3. A centrifugal separator, wherein the inside disk according to claim 1 is provided in a rotor. 4. A method for separating light components, comprising using a centrifuge in which the inside disk according to claim 1 is installed in a rotor of a centrifugal sedimentation type centrifuge.