KR101104421B1 - Fibroid Membrane Filter - Google Patents

Abstract

The present invention relates to a fibrous membrane filtration apparatus, and installs a fibrous membrane and a central weight inside the housing so that the position of the fibrous membrane is changed by the central weight at the stop so that the foreign matter attached to the fibrous membrane is automatically detached during operation, and the waste liquid. It is possible to reduce the occurrence of, the desorption efficiency of the foreign matter is high, and the manufacturing and maintenance costs are low.

Description

Fibrous Membrane Filter

The present invention relates to a fibrous membrane filtration apparatus, and more particularly, to install a fibrous membrane and a central weight inside the housing so that the position of the fibrous membrane is changed by the central weight at stop so that foreign substances attached to the fibrous membrane are automatically detached during operation. The present invention relates to a fiber membrane filtration apparatus which can be configured to be simple and inexpensive, easy to manufacture, and to reduce the generation of waste liquid.

In general, a variety of filters are used to remove foreign substances such as particulate matter contained in the inflow fluid in water treatment systems or industrial fluid treatment systems. Examples of filters used in conventional filtration systems include screen filters for filtering using a metal mesh, bag filters for filtering with a nonwoven bag, and the like.

3 is a cross-sectional view of a conventional screen filter, and FIG. 4 is a cross-sectional view of a conventional bag filter filter. The screen filter removes foreign substances such as particulate matter in the inflow fluid by using a screen having many small holes in the metal mesh or metal plate, and removes the foreign matter attached to the screen by backwashing to supply the processing fluid back. .

In addition, the bag filter filter using the bag of non-woven fabric inflows the fluid into the bag to filter foreign matters by the bag to remove foreign substances such as particulate matter in the inflow fluid. Remove and remove, install and use a new bag.

As such, the conventional filtration apparatus uses a method of backwashing or replacing the filtration bag itself to remove foreign substances attached to the screen. However, the screen filter using the backwashing method does not have high backwashing efficiency and requires a lot of backwashing fluid for backwashing, which generates a lot of waste liquid and the system is complicated.

In addition, the bag filter filter for replacing the filter bag is expensive to operate because the bag has to be replaced frequently, a lot of waste is generated because the bag to be replaced must be discarded.

The present invention is to provide a filtration device with high backwashing efficiency and low generation of waste liquid or waste in order to solve the above problems.

In order to achieve the above object and the object, the fiber membrane and the central weight is installed inside the housing, the position of the fiber membrane is changed by the center weight at the stop, so that the foreign matter attached to the fiber membrane during operation is configured to filter out automatically do.

The fiber membrane filtration device of the present invention has the following effects. First, it is inexpensive and easy to manufacture since it is a filtration device using a fiber membrane. Second, by changing the position of the fibrous membrane with the central weight to desorb foreign matter attached to the fibrous membrane can reduce the occurrence of waste fluid. Third, since the foreign matter attached to the fiber membrane is detached by changing the position of the fiber membrane with the central weight, the desorption efficiency of the foreign substance is high. Fourth, the operation process and the device is simple, the operation is easy, and the installation area and installation and management costs are reduced.

1 is a cross-sectional view of the operating state of the fiber membrane filtration device of the present invention,
2 is a cross-sectional view of a still state of the fiber membrane filtration apparatus of the present invention.
3 is a cross-sectional view of a conventional screen filter,
4 is a cross-sectional view of a conventional bag filter strainer.

Next, embodiments of the present invention will be described in detail with reference to the accompanying drawings. Fibrous membrane filtration apparatus of the present invention is the housing 10, the outlet 30 formed in the upper portion of the housing 10 and the air vent 90, the inlet 20 formed in the lower portion of the housing 10 and the drain 40 ) And a fiber membrane 50 provided in the housing 10 and a center weight 80 provided in the center of the fiber membrane.

In addition, the external support mesh 60 may be further provided outside the fibrous membrane 50, and the internal support mesh 70 may be further provided inside the fibrous membrane 50. The outer support mesh 60 and the inner support mesh 70 surrounding the fibrous membrane 50 are made of a flexible fibrous yarn and use a larger void than the fibrous membrane 50 and serve to protect the fibrous membrane 50.

The central weight 80 is used to have a weight such that the fiber membrane 50 is lowered by gravity when the fiber membrane filtration device is stopped. The outlet 30 and the air vent 90, the inlet 20 and the drain 40 is configured to open and close.

The upper and lower portions or both sides of the housing 10 are fastened by fastening means, such as bolt nuts, to the structure and the like, and the fiber membrane 50 installed in the housing 10, the external support mesh 60, the internal support mesh ( 70) If the lamp is damaged, replace it.

Next, the operation of the fiber membrane filtration device of the present invention will be described. When the operation of the fiber membrane filtration device of the present invention is stopped, as shown in FIG. 2, the fiber membrane 50 is positioned under the weight of the central weight 80, and the operation is started to supply the fluid to be treated through the inlet 20. Then, the fiber membrane 50 is pushed upward by the flow of the fluid as shown in FIG. Foreign matter such as particulate matter contained in the fluid to be supplied is filtered by the fibrous membrane 50. Fluid from which foreign matter such as particulate matter is removed is discharged through the outlet port 30.

Filtration efficiency can be increased by using several layers of the fibrous membrane 50. However, when using several layers of the fibrous membrane, the differential pressure may be excessively formed, and thus, the fibrous membrane 50 should be used properly according to the characteristics of the fluid to be treated.

When the operation is stopped, the fiber membrane 50 is lowered by the weight of the central weight 80, and foreign matter attached to the fiber membrane is detached and collected at the lower portion of the housing 10 during operation. However, at this time, some of the foreign matter attached to the fiber membrane 50 may remain as it is.

In this state, when the drain opening 40 is opened, foreign substances such as particulate matter that have been detached and gathered under the housing are discharged to the drain opening 40. In addition, when the upper air vent 90 is opened, the fluid remaining in the housing is discharged to the drain port 40, and the fluid located in the upper part of the fibrous membrane 50 passes through the fibrous membrane 50 and the fibrous membrane 50 is maintained until then. Since the remaining foreign matter adhering to the desorption is removed, almost all the foreign matter adhering to the fiber membrane 50 during operation is detached. In this way, the fibrous membrane 50 from which foreign matters are detached serves as a filtration membrane during the next operation.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but is capable of various changes and modifications within the technical scope of the invention. Therefore, the scope of the present invention is not limited by the above description.

In addition, the reference numerals described in the detailed description and the claims of the present invention are added by reference for easy understanding of the present invention, the present invention is not limited to the drawings.

The fiber membrane filtration apparatus of the present invention can be widely used in a fluid treatment system such as water treatment.

10 housing 20 inlet
30: outlet 40: drain
50: fiber membrane 60: external support mesh
70: internal support mesh 80: center weight
90: air vent 100: screen filter
200: screen 300: bag filter strainer
400: Bag Filter

Claims (5)

In the filtration device of the fluid,
The housing 10,
Outlet 30 and the air vent 90 formed on the housing 10,
Inlet 20 and drain 40 formed in the lower portion of the housing 10,
The fiber membrane 50 installed in the housing 10 and
Consists of a central weight 80 provided in the center of the fiber membrane 50,
The fiber membrane filtration device, characterized in that configured to change the position of the fiber membrane (50) at the stop by the center weight (80) so that the foreign matter attached to the fiber membrane (50) is detached during operation.
The method of claim 1,
The fiber membrane filtration device, characterized in that the fiber membrane 50 is made of a nonwoven fabric.
The method of claim 1,
Fibrous membrane filtration device, characterized in that the fiber membrane 50 is made of a flexible woven fiber.
4. The method according to any one of claims 1 to 3,
Fiber membrane filtration device, characterized in that the outer support mesh 60 is further provided on the outside of the fiber membrane (50).
4. The method according to any one of claims 1 to 3,
Fiber membrane filtering device, characterized in that the inner support mesh 70 is further installed inside the fiber membrane (50).

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