KR100535697B1 - Multi-potting cap, centrifugal potting equipment for membrane module, and method for preparing the same - Google Patents

Abstract

The present invention relates to a centrifugal potting apparatus for manufacturing a separator module, and more particularly, to a multi-pot cap that can be equipped with a plurality of module cases, a centrifugal potting apparatus using the same, and a method for manufacturing a separator module using the same. , Made of a body of a predetermined shape, a plurality of case coupling grooves are arranged on one side of the body and both ends penetrate and one end of the module case in which the separation membrane is accommodated, and the coupling port is connected to each other in the body. A resin dispensing passage is formed, and a potting resin injecting portion communicating with the potting resin dispensing passage is formed on an upper surface or a side of the body, thereby providing a multi-porting cap for the centrifugal membrane module. Adopting a mounting method not only improves productivity but also reduces manufacturing space In addition, the company will be able to reduce costs due to reduced manpower, which is expected to have a ripple effect in the same industry.

Description

 MULTI-POTTING CAP, CENTRIFUGAL POTTING EQUIPMENT FOR MEMBRANE MODULE, AND METHOD FOR PREPARING THE SAME}

The present invention relates to a centrifugal porting apparatus for manufacturing a membrane module, and more particularly, to a multi-porting cap capable of mounting a module case containing a plurality of hollow fiber membranes, a centrifugal porting apparatus using the same, and a membrane module using the same. It is about how to.

In general, membrane modules are used for filtration or separation of liquids or gases in industrial fields, medical fields, and cutting fields, and in particular, membrane modules have an advantage of having a large permeate flow rate, and thus are purified from raw water to high purity water, It is widely used in the field of water purification apparatus and environmental processing apparatus which removes a back.

In addition, conventionally, a membrane module using a flat membrane is generally used. However, since the area of the hollow fiber membrane is superior to that of the flat membrane in the area of the membrane per module volume, the membrane module using the hollow fiber membrane is used in recent years. to be.

The hollow fiber membrane module refers to a module in which the hollow fiber membrane is usually accommodated in a module case penetrated at both ends, and at least one end thereof is filled with a potting resin and fixed.

In addition, the method of manufacturing the hollow fiber membrane module is to bundle the hollow fiber membrane in I-shaped or U-shaped, and then stored in the module case, and to be fixed by porting at least one end between the module case and the membrane with adhesive resin, In general, the I-shaped module is used to port potting resin at both ends, and the U-shaped module is used by potting only one end portion.

Therefore, U-shaped modules are preferred because of the advantages of cost savings due to the reduction of the use of potting resins, reduction of defects that may occur during porting, and process shortening.

In the hollow fiber membrane module, one end of the module case containing the hollow fiber membrane is filled with a potting resin between the module case 12 and the hollow fiber membrane 11, as shown in FIG. The end is completely open, and when the target material enters the other end of the module, only the object filtered by the hollow fiber membrane can pass through the one end of the sealed module.

In addition, there is a rotating method of filling the potting resin into the module case using a centrifugal force and a stationary method of naturally filling the liquid by feeding a metering pump or an altitude difference depending on the potting method.

However, the rotation method is more used because it is more effective in terms of time efficiency or tightly filling the potting resin between the separator and the module case rather than the stationary method.

At this time, Figure 2 is a perspective view briefly showing the basic structure of the potting cap and the centrifugal potting device of the separator module using a conventional rotation method, cited for easy description of the manufacturing method of the conventional separator module, as shown, rotate A potting resin injection part formed on the upper layer of the potting cap by coupling the potting cap equipped with the membrane module 10 to the fixing means portion 41 fixed to the rotating plate 51 in the separator, and rotating the rotating plate 51 ( When the potting resin is supplied to the pot 25, the potting resin is discharged and filled at one end of the module case 12 through a flow path communicating with the injection part 25, and the potting resin is cured to complete the membrane module.

However, since the porting device of the conventional centrifugal membrane module can be equipped with only one module (membrane + module case), the membrane module can be mounted as many times as the number of potting jigs placed on the rotating plate in one cycle (rotation separator). There is a problem of low production efficiency because it can produce.

This is because in order to mount two or more modules, the same amount of potting resin has to be fed to one end of each module, since there is no means thereof.

Therefore, in order to increase productivity, the conventional method of increasing the number of potting jigs located on the rotating plate was used, but there was a limit to increasing the number of the rotating plate of a limited size. In addition, when the size of the rotating plate is enlarged, the size of the rotating separator itself can be enlarged at the same time. However, even if the potting machine itself is enlarged, the size of the rotating plate will eventually encounter the limitation that productivity will be determined. As a result, manufacturing costs were increased, resulting in not much improvement in productivity.

In addition, there is a disadvantage in that the cost is increased due to the time and manpower consumed in coupling the modules to an increasing number of porting jigs one by one.

Accordingly, the present invention is recognizing the above problems, the porting device that can be innovatively improved while using the manufacturing apparatus of the existing membrane module, and can minimize the cost burden due to time and manpower consumption We wanted to develop and completed it.

Accordingly, an object of the present invention is to provide a multi-porting cap capable of mounting a plurality of module cases at once and a centrifugal porting device using the same.

In addition, another object of the present invention to provide a method for producing a membrane module using the potting device.

In order to achieve the above object, the multi-porting cap for the centrifugal membrane module of the present invention is made of a body of a predetermined shape, one side of the body is penetrated at both ends and one end of the module case in which the separation membrane is mounted A plurality of case coupling grooves are arranged, and a potting resin distribution passage is formed in the body so that a plurality of coupling grooves are in communication with each other, and a potting resin injecting portion communicating with the potting resin distribution passage is formed on an upper surface or a side of the body. It is done.

In addition, in order to achieve another object, the centrifugal potting apparatus of the present invention is a centrifugal potting apparatus for injecting the potting resin between at least one end of the separation membrane contained in the module case and the module case using a centrifugal force, the predetermined shape It is made of a body, one side of the body is passed through the both ends and the case coupling grooves are arranged a plurality of case coupling grooves are mounted to one end of the module case accommodated in the separator, the porting resin distribution flow path so that the plurality of coupling grooves communicate with each other Is formed, the fixing means portion for transmitting the centrifugal force to the potting cap is formed on the upper surface or side of the body by fixing the potting resin injecting portion in communication with the potting resin distribution passage formed on the rotating plate, the centrifugal force to the potting cap is formed; do.

In order to achieve yet another object, the centrifugal manufacturing method of the separator module of the present invention is made of a body of a predetermined shape, one side of the body is coupled to the case is fitted with one end of the module case is penetrated both ends and the separator is accommodated A plurality of grooves are arranged, the potting resin distribution passage is formed in the body so that a plurality of coupling grooves communicate with each other, the potting resin injection portion is formed on the top or side of the body in communication with the potting resin distribution passage It is characterized by using.

In the present invention, the plurality of case coupling grooves are preferably arranged such that 2 to 50 pieces are arranged. However, as long as the number of case coupling grooves is formed in the body and the potting resin can be uniformly filled in the mounted module case, the number of case coupling grooves is not limited.

Hereinafter, a preferred embodiment of the potting apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

In addition, repeated description of the same structure and operation as in the prior art is omitted.

Figure 3a is a perspective view showing an embodiment of a multi-porting cap according to the present invention, Figure 3b is a perspective view showing an embodiment of another multi-porting cap according to the present invention, Figure 4 is a multi-porting cap and porting of the present invention It is a perspective view briefly showing that both ends of the module case and the mounting to the fixed cap, Figure 5 is a simplified perspective view showing the structure mounted on the porting jig multi-fixing cap according to the present invention, Figure 6 is a potting on the rotating plate of the rotary separator A perspective view briefly showing the centrifugal potting apparatus of the present invention coupled to a jig.

When the potting resin flows in the multi-potting cap of the present invention configured as described above with reference to Figures 3a and 3b as follows.

First, when the potting resin is introduced into the potting resin injection unit 25 from the external potting resin distribution plate 31 and the injection hose 33, the potting resin injection unit 25 is connected to the plurality of case coupling grooves 22. The potting resin distribution flow path 23 is communicated with each other, and a predetermined amount of the potting resin is uniformly distributed in the plurality of case coupling grooves 22.

Thereafter, the potting resin distributed in the case coupling groove 22 is filled by the centrifugal force to the penetration portion of the module case mounted at the inlet of the case coupling groove 22, thereby porting between the separator and the module case.

At this time, in order to evenly fill the potting resin in the plurality of case coupling grooves and the potting resin distribution flow path, the potting resin is supplied while the centrifugal force is maintained.

In addition, in order to communicate the case coupling groove 22 and the potting resin dispensing passage, a discharge passage 24 having a predetermined width and depth inside the case coupling groove may communicate with the potting resin dispensing passage 23. It is preferable to use.

It is difficult to accurately distribute the potting resin in one case coupling groove by distributing the potting resin to the other case coupling groove quickly through the potting resin distribution channel 23, so that a large number of cases in one potting cap This is because it is impossible to form a coupling groove and it is difficult to control the amount of potting resin to be filled.

In addition, the case coupling groove 22 of the potting cap can be arranged in a selection of one in series, parallel, series and parallel, diagonal, zigzag and diamond shape, using a centrifugal force, once in one potting cap Any arrangement may be made as long as the arrangement for filling the potting resin into a plurality of module cases in a cycle.

In addition, the potting resin distribution flow passage communicating with the plurality of case coupling grooves may vary the shape of the flow passage or change the angle between the flow passages as occasion demands. Through 24, the charging effect on one end of the module case can be maximized.

And, as shown in Figure 4, when the potting fixing cap 26 for sealing the other end of the module case mounted on the multi potting cap 20 according to the present invention, the coupling with the potting jig It is easier and more secures the module case.

At this time, one side surface of the potting fixing cap 26 is formed so that the case fixing portion 27 that can be mounted on the other end of the module case mounted on the potting cap.

The case fixing part 27 protrudes or forms a groove to further fix the module case.

Then, as shown in Figure 5, the multi-porting cap 20, the module is mounted is fixed to the fixed potting jig 41a to face in the centrifugal force direction.

 And, the potting jig that can be combined with the potting device is made of a fixed potting jig 41a and a variable potting jig 41b, as shown in Figure 6, the fixed potting jig 41a is rotated to adjust the position Fixing pins are fixed to the fixing grooves 52 formed at predetermined intervals on the 51 and the variable potting jig 41b is used by connecting the elastic members 42 to be variably moved.

The potting resin injector 25 communicates with the potting resin distribution plate 31 and the injection hose 33 connected to the distribution plate nozzle 32 so that a certain amount of potting resin can be injected.

At this time, the potting resin injection portion 25 is connected to the injection hose 33 by inserting or using the injection cap formed through the inlet or the injection hole formed so as to protrude.

On the other hand, the potting resin used in the present invention may be epoxy, polyurethane, silicone and composites thereof, and any number of adhesive resins that can maintain the filtration performance of the separator while being sealed by filling between the separator and the module case. It can be used, mainly select adhesive resin that does not react with the material of the separator.

In addition, the separation membrane used in the module of the present invention is a total of the separation membrane used for water treatment, gas separation, hemodialysis and the like, it is preferable that the hollow fiber membrane in the form.

In addition, the material of the potting apparatus according to the present invention uses polyethylene, polypropylene, and teflon, but any material may be used as long as the potting resin and the component having releasability are filled.

As described above, in the present invention, by providing a multi-porting cap capable of mounting at least two or more module cases, the productivity can be proportionally improved by increasing the number of module cases that can be mounted on the porting cap.

In addition, in the present invention, the number of case coupling grooves of the multi-porting cap can be adjusted, which is advantageous for the application of new equipment considering productivity and manufacturing space, and only replacing the potting jig which can fix the potting device to the existing rotary separator. When the membrane module can be produced, there is an advantage in that it is easy to apply to complement existing equipment.

Therefore, by adopting a method of mounting a plurality of module cases at once, the present invention can not only improve the productivity, but also reduce the manufacturing space and reduce the cost due to the reduction of manpower. do.

1 is a cross-sectional view showing a cut surface of a conventional hollow fiber membrane module,

Figure 2 is a perspective view briefly showing the basic structure of the potting cap and centrifugal potting device of the membrane module using a conventional rotating method,

Figure 3a is a perspective view showing an embodiment of a multi potting cap according to the present invention,

Figure 3b is a perspective view showing an embodiment of another multi-porting cap according to the present invention,

Figure 4 is a perspective view briefly showing that both ends of the module case and the mounting pot and the potting fixing cap of the present invention,

Figure 5 is a perspective view briefly showing the structure mounted on the multi-fixing cap porting jig according to the present invention,

Figure 6 is a simplified perspective view of the centrifugal potting apparatus of the present invention coupled to the potting jig in the rotary plate of the rotary separator.

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

10: hollow fiber membrane module 11: hollow fiber membrane

12: module case 13: potting resin

20: potting cap 21: body

22: case coupling groove 23: potting resin distribution flow path

24: discharge passage 25: potting resin injection portion

26: potting fixing cap 27: case fixing part

31: potting resin distribution plate 32: distribution plate nozzle

33: injection hose 41: potting jig

41a: Fixed Pot Jig 41b: Variable Pot Jig

42: elastic member 51: the rotating plate

52: fixing groove 61: the rotating shaft

62: rotation driving unit 63: rotation control unit

Claims (8)

It is made of a body 21 of a predetermined shape, a plurality of case coupling groove 22 is mounted on one side of the body 21, one end portion of the module case in which both ends penetrate and the separator is accommodated, and the body 21 The potting resin dispensing passage 23 is formed in the coupling groove 22 to communicate with each other, and the potting resin injecting portion communicating with the potting resin dispensing passage 23 on the upper or side surface of the body 21. 25) Multi-porting cap for membrane module, characterized in that formed. The method of claim 1, The module coupling groove 22 is a multi-porting cap for the membrane module, characterized in that arranged in one form selected in series, parallel, linear force and parallel, diagonal, zigzag, and diamond form on the body (21). The method of claim 1, The inside of the case coupling groove 22 is a multi-porting cap for the membrane module, characterized in that the discharge passage 24 having a predetermined width and depth is in communication with the potting resin distribution passage (23). The method of claim 1, The potting fixing cap 26 for sealing the other end of the module case mounted on the multi-porting cap is characterized in that the multi-porting cap for the centrifugal separator module. The method of claim 4, wherein Separating module multi-porting caps, characterized in that the case fixing portion 27 that can be mounted to the other end of the module case mounted to the porting cap is formed on one side of the potting fixing cap (26). In the centrifugal potting apparatus for injecting the potting resin between at least one end of the separation membrane accommodated in the module case and the module case using centrifugal force, It is made of a body 21 of a predetermined shape, a plurality of case coupling groove 22 is mounted on one side of the body 21, one end portion of the module case in which both ends penetrate and the separator is accommodated, and the body 21 The potting resin dispensing passage 23 is formed in the coupling groove 22 to communicate with each other, and the potting resin injecting portion communicating with the potting resin dispensing passage 23 on the upper or side surface of the body 21. Centrifugal potting device, characterized in that the fixing means portion 41 is fixed to the multi-potting cap 20 formed on the rotating plate 51 to transfer the centrifugal force to the potting cap during rotation. The method of claim 6, The fixing means portion 41 It consists of a fixed potting jig 41a and a variable potting jig (41b), the fixed potting jig 41a is fixed by inserting a fixing pin in a fixing groove 52 formed at a predetermined interval on the rotating plate to adjust the position, the variable Potting jig (41b) is a centrifugal potting device, characterized in that the elastic member 42 is connected to be moved variably. It is made of a body 21 of a predetermined shape, a plurality of case coupling groove 22 is mounted on one side of the body 21, one end portion of the module case in which both ends penetrate and the separator is accommodated, and the body 21 The potting resin dispensing passage 23 is formed in the coupling groove 22 to communicate with each other, and the potting resin injecting portion communicating with the potting resin dispensing passage 23 on the upper or side surface of the body 21. 25) is a centrifugal manufacturing method of the membrane module, characterized in that using a multi-pot cap.