KR102200276B1 - Potting Method of Hollow Fiber Using Two or More Kinds of Port Liquid - Google Patents

Abstract

The present invention is a method of potting the ends of a bundle of hollow fibers, comprising: injecting a potting solution of first, second and third potting solutions; The first, third, and third potting solutions are related to a hollow fiber potting method that satisfies the following conditions 1 to 4, and the hollow fiber potting method can reduce fracture of the hollow fiber at the potting interface and increase production efficiency. .
[Condition 1]
D1> D2
[Condition 2]
H1> H2
[Condition 3]
D2 <D3
[Condition 4]
H2 <H3
In the above conditions, D1, D2 and D3 represent the density of the first, second and third potting solutions, respectively, and H1, H2 and H3 represent the hardness of the first, second, and third potting solutions after curing, respectively. .

Description

Potting Method of Hollow Fiber Using Two or More Kinds of Port Liquid}

The present invention relates to a method of potting a bundle of hollow fibers, and more particularly, to a method of potting a bundle of hollow fibers using two or more potting solutions.

In general, a module for water treatment has a structure in which a plurality of hollow fiber bundles are contained in a cylindrical housing. In the process of fixing the hollow fiber bundle in the housing, the process of potting the hollow fiber bundle is performed.

In the related art, potting of hollow fibers was performed using a potting solution of high hardness. However, when the hollow fiber potting is performed using only one type of high hardness potting liquid, a problem occurs in that the hollow fiber is broken at the potting interface.

To compensate for this, hollow fiber potting is sometimes performed by injecting a high-hardness potting liquid and then partially or completely curing it, and injecting a low-hardness potting liquid thereon. However, in this case, there is a problem that the interface between the two types of potting solutions is separated or the hardness of the corresponding portion is decreased. In addition, in order to supply the low hardness potting liquid, a separate potting liquid injection port must be formed on the side of the module, and thus productivity may be lowered.

Therefore, there is a need for a porting method capable of solving this problem.

Republic of Korea Patent Publication No. 2016-0039117

An object of the present invention is to reduce the breakage of the hollow fiber at the potting interface, and to provide a hollow fiber potting method excellent in production efficiency.

To achieve the above object,

The present invention in one embodiment,

In the method of potting the end of the bundle of hollow fibers,

A potting liquid injection step of injecting the first, second and third potting liquids;

The first, third and third potting solutions provide a hollow fiber potting method satisfying the following conditions 1 to 4:

[Condition 1]

D1> D2

[Condition 2]

H1> H2

[Condition 3]

D2 <D3

[Condition 4]

H2 <H3

In the above conditions, D1, D2 and D3 represent the density of the first, second and third potting solutions, respectively, and H1, H2 and H3 represent the hardness of the first, second, and third potting solutions after curing, respectively. .

The hollow fiber potting method according to the present invention can reduce fracture of the hollow fiber at the potting interface and increase production efficiency. The potted hollow fiber bundle can be applied as a hollow fiber module for water treatment.

1 is a partial cross-sectional view showing a potting process for a bundle of hollow fibers according to an embodiment of the present invention.
2 is a cross-sectional view of a bundle of hollow fibers potted by a method according to an embodiment of the present invention.
FIG. 3 is a photograph of a process of injecting a potting solution while a bundle of hollow fibers is placed in a cylindrical potted housing by a method according to an exemplary embodiment of the present invention.
4 is a photograph taken of the lower portion of the housing when the potting solution injection and curing are completed.

In the present invention, various modifications may be made and various embodiments may be provided, and specific embodiments will be illustrated in the drawings and described in detail in the detailed description.

However, this is not intended to limit the present invention to a specific embodiment, it should be understood that all changes, equivalents, and substitutes included in the spirit and scope of the present invention are included.

In the present invention, terms such as "comprises" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or a combination thereof described in the specification, but one or more other features. It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance the possibility.

The present invention relates to a hollow fiber potting method for potting the end of a hollow fiber bundle.

In one embodiment, the potting method,

A potting solution injection step of injecting the first, second and third potting solutions;

The first, second, and second potting solutions satisfy all of the following conditions 1 to 4.

[Condition 1]

D1> D2

[Condition 2]

H1> H2

[Condition 3]

D2 <D3

[Condition 4]

H2 <H3

In the above conditions, D1, D2 and D3 represent the density of the first, second and third potting solutions, respectively, and H1, H2 and H3 represent the hardness of the first, second, and third potting solutions after curing, respectively. .

In the hollow fiber potting method according to the present invention, in the potting liquid injection step of injecting the first, second and third potting liquids, the first, second and third potting liquids are sequentially or continuously injected. For example, in the hollow fiber potting method, a potting solution having a high density and high hardness (a first potting solution) is first injected, and a potting solution having a relatively low density and a low hardness (a second potting solution) is injected thereafter. Then, a high-density and high-hardness potting solution (third potting solution) is injected again to complete the potting solution injection process.

In the present invention, the potting liquid having high or low hardness means that the hardness after curing the potting liquid is high or low.

The present invention secures high hardness, but lowers the hardness of the upper potting portion to prevent rupture of the hollow fiber, and provides a potting method with high productivity.

In one embodiment of the present invention, the first, second and third potting solutions may be sequentially injected. Injecting the potting liquids sequentially means injecting another potting liquid after a certain period of time has elapsed after the injection of each potting liquid is completed. In another embodiment, the first, second, and third potting solutions may be continuously injected. Continuously injecting the potting solutions means injecting each potting solution without time intervals. In the present invention, the case of continuously injecting the potting liquid includes a case in which injection of one potting liquid is started and then the injection of another potting liquid is started before the injection of the corresponding potting liquid is completed.

In one embodiment, in the hollow fiber potting method, in the potting liquid injection step of injecting the first, second, and third potting liquids, the injection time of the first potting liquid is faster than the injection time of the second potting liquid, and the second This includes the case where the potting solution injection end point is earlier than the third potting solution injection end point. In this case, the injection of the first potting solution is started, but before the injection of the first potting solution is completed, the injection of the second potting solution is started. In addition, the injection of the potting solution is completed through injection of the third potting solution.

In one example, the first and third potting solutions may be potting solutions having the same composition. In this case, potting is substantially performed using the first and second potting solutions. In this case, in the potting method of the present application, after injecting the first potting solution, the second potting solution is injected, and then the third potting solution is injected to perform the potting solution injection step.

In addition, in the potting method according to the present invention, when the potting liquid is injected, the first, second and third potting liquids are injected from a downward direction in a state in which the hollow fiber bundles are arranged in a vertical direction to increase the level of the potting liquid. It is performed by filling in the direction and rising. Through this, the potting liquid is filled without an empty space, and further, it is possible to prevent a phenomenon in which bubbles are generated inside the potting portion.

In the present invention, the high-density potting liquid (first potting liquid) is first filled, and then the low-density potting liquid (second potting liquid) is filled. In this case, a high-density potting liquid (first potting liquid) is uncured at the bottom of the potting area, and the supplied low-density potting liquid (second potting liquid) is already filled high-density potting liquid (first potting liquid). ) To get injured. This is due to the difference in density between the two potting solutions. If the order of filling the high-density potting liquid and the low-density potting liquid is reversed, the low-density potting liquid partially remains in a region where the housing and the potting part meet, and/or in the region where the hollow fiber and the potting liquid are in contact. This may cause a weakening of the adhesion between the housing and the potting part, or may cause a phenomenon in which the hollow fiber is separated from the potting part.

The potting solution used in the present invention is formed of a curable resin, and may further include additives as needed.

In one example, the first and second potting solutions may be a composition containing a urethane resin. In this case, the urethane resin contained in the first potting solution is a resin having high density and high hardness compared to the urethane resin contained in the second potting solution.

In another example, the first, second, and third potting solutions include urethane resins, but the urethane resin contained in the first potting solution is high density and It is a high hardness resin. In addition, the urethane resin contained in the first and third potting solutions is a resin having an equivalent range of density and hardness after curing. In this case, for example, the first and third potting liquids are substantially the same potting liquid.

In the present invention, the potting liquid injection step may be performed by injecting the potting liquid from the bottom through the potting liquid injection hole while the potting liquid injection port is formed in the lower part of the hollow fiber bundle.

For example, in the hollow fiber potting method of the present invention, the first and second potting solutions may be injected through different injection holes while two or more potting liquid injection ports are formed under the hollow fiber bundle.

In another example, in the hollow fiber potting method of the present application, in a state in which two or more potting liquid injection ports are formed in the lower part of the hollow fiber bundle, the first and third potting solutions are potting solutions of the same composition, and the first and second 2 The potting solution may be injected through different injection holes, and the first and third potting solutions may be injected through the same injection hole.

In another example, in the hollow fiber potting method of the present application, the first and second potting solutions are injected through different injection holes in a state in which two or more potting liquid injection ports are formed in the lower part of the hollow fiber bundle, and the first The potting solution may be continuously injected, and the second potting solution may be injected while the first potting solution is injected.

In yet another example, the hollow fiber potting method of the present application includes injecting the first, second and third potting solutions through the same injection hole while two or more potting liquid injection ports are formed at the lower part of the hollow fiber bundle. Hollow fiber potting method characterized by.

Hereinafter, a hollow fiber potting method according to the present invention will be described in more detail through the drawings.

1 is a partial cross-sectional view showing a potting process for a bundle of hollow fibers according to an embodiment of the present invention. Referring to FIG. 1, a bundle of hollow fibers 20 is potted in a hollow fiber membrane module housing including a cylindrical housing 11 and a lower housing cap 12. Potting liquids 31 and 32 are filled under the bundle of the hollow fiber 20, and these potting liquids are supplied through holes formed in the housing cap 12. Specifically, the potting liquid injection device 41 is inserted into two holes formed in the lower housing cap 12, and the potting liquid is supplied through the hose 42 connected to the potting liquid injection device 41.

2 is a cross-sectional view of a bundle of hollow fibers potted by a method according to an embodiment of the present invention. Referring to FIG. 2, it can be seen that among the potting regions of the hollow bundle, there is a slight difference in color of the potting liquid filled in the upper third region and the potting liquid filled in the lower region.

FIG. 3 is a photograph of a process of injecting a potting solution while a bundle of hollow fibers is placed in a cylindrical potted housing by a method according to an exemplary embodiment of the present invention. In addition, FIG. 4 is a photograph taken of a lower portion of the housing at a point in time when the injected potting solution is cured after completion of the injection of the potting solution in FIG.

11: cylindrical housing
12: housing cap
20: hollow fiber
31, 32: potting liquid
41: potting liquid injection device
42: hose

Claims (11)

In the method of potting the end of the bundle of hollow fibers,
A potting solution injection step of injecting the first, second and third potting solutions;
The potting solution injection step,
In the state where the hollow fiber bundles are arranged in the vertical direction, it is carried out by injecting from the downward direction and filling the water level of the potting liquid upwardly,
Injecting the first, second, and third potting solutions sequentially or continuously, but injecting the second potting solution while the first potting solution is uncured and filled,
The first, second, and third potting solutions are hollow fiber potting methods that satisfy the following conditions 1 to 4:
[Condition 1]
D1> D2
[Condition 2]
H1> H2
[Condition 3]
D2 <D3
[Condition 4]
H2 <H3
In the above conditions, D1, D2 and D3 represent the density of the first, second and third potting solutions, respectively, and H1, H2 and H3 represent the hardness of the first, second, and third potting solutions after curing, respectively. .
The method of claim 1,
The potting solution injection step of injecting the first, second and third potting solutions,
The first potting solution injection point is faster than the second potting solution injection point,
Hollow fiber potting method, characterized in that the second potting liquid injection end point is faster than the third potting liquid injection end point.
The method of claim 1,
The first and third potting liquid is a hollow fiber potting method, characterized in that the potting liquid of the same composition.
The method of claim 1,
The first and second potting solutions contain a urethane resin,
Hollow fiber potting method, characterized in that the urethane resin contained in the first potting solution is a high density and high hardness resin compared to the urethane resin contained in the second potting solution.
The method of claim 1,
The first, second and third potting solutions contain urethane resin,
The urethane resin contained in the first potting solution is a high density and high hardness resin, compared to the urethane resin contained in the second potting solution,
A hollow fiber potting method, characterized in that the urethane resin contained in the first and third potting solutions is a resin having an equivalent range of density and hardness after curing.
The method of claim 1,
In the potting liquid injection step,
In the state that two or more potting liquid injection ports are formed in the lower part of the hollow fiber bundle,
Hollow fiber potting method, characterized in that injecting the first and second potting solutions through different injection holes.
The method of claim 6,
In the potting liquid injection step,
In the state that two or more potting liquid injection ports are formed in the lower part of the hollow fiber bundle,
The first and third potting solutions are potting solutions of the same composition,
A hollow fiber potting method, characterized in that the first and second potting solutions are injected through different injection holes, and the first and third potting solutions are injected through the same injection hole.
The method of claim 6,
In the potting liquid injection step,
In the state that two or more potting liquid injection ports are formed in the lower part of the hollow fiber bundle,
Injecting the first and second potting solutions through different injection holes,
The first potting solution is continuously injected,
Hollow fiber potting method, characterized in that injecting the second potting liquid during the injection of the first potting liquid.
The method of claim 1,
In the potting liquid injection step,
In the state that two or more potting liquid injection ports are formed in the lower part of the hollow fiber bundle,
Hollow fiber potting method, characterized in that the first, second and third potting solutions are injected through the same injection hole. delete delete

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