KR101687511B1 - Reverse cleaning device of cleaning apparatus - Google Patents

Abstract

The present invention relates to a reverse washing discharge pipe for an automatic filtration device, which enables suction efficiency to be improved through improvement of a structure. An object of the present invention is to improve a structure of the discharge pipe, which comes into close contact with one end of a filter and allows suction force to act in an inside of the filter to thus enable a washing process of the filter to be performed, by using a flange and a blocking plate extending to a predetermined length from a lower end of the flange, and thus suction force can be stably applied to the filter and a fluid can be prevented from being sucked into a space between filters during a suction operation, thereby improving filtration efficiency. For this purpose, according to the present invention, provided is a reverse washing discharge pipe (200) for automatic filtration device, which comes into close contact with one end of a filter and allows the filter to be washed by suction force, the reverse washing discharge pipe comprising: a flange (210) through which a suction hole (212) is formed so that suction force of a suction part (50) acts in an inside of the flange (210); and a blocking plate (220) which is formed at one end of the flange (210) to a predetermined length, and which prevents a fluid from being sucked into a space between filters (20) during a suction operation, thereby improving filtration efficiency.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a backwashing and drainage pipe for an automatic filtration apparatus, and more particularly, to a backwashing and drainage pipe for an automatic filtration apparatus, By improving the blocking plate extending to the lower end of the flange by a predetermined length, it is possible to stably apply the suction force to the filter during the filter cleaning process and to prevent the inflow of the fluid into the space between the neighboring filters, To a backwash discharge pipe for an automatic filtration device.

In general, a filtration apparatus filters a fluid by a plurality of filters installed inside a filtration apparatus. The filter is used for a purpose and a material such as natural filtration, ion exchange, reverse osmosis, We are using various methods accordingly.

On the other hand, a filtration apparatus for filtering seawater or fresh water is used in order to obtain necessary water. In addition, a seawater desalination plant that obtains fresh water from seawater also uses a filtration device for the pretreatment of seawater.

The filtration apparatus filters the fluid by using a filter installed therein.

The clogging phenomenon occurs in which the pores of the filter are clogged with the lapse of use time, so that the pressure difference between the front and rear ends of the filter is increased, and the efficiency of the filter is also decreased.

Therefore, the biggest problem of the conventional filter is that the filter is frequently replaced or cleaned.

To overcome this problem, a method of backwashing a filter that can regenerate the filter without having to replace or clean the filter has been developed.

The above-described backwashing method regenerates the filter by passing water already filtered in a direction opposite to the integer direction of the filter to the filter to remove the filter material accumulated in the filter. An example of a filter used in such a backwash method is a filter published by Ramash R. Bhave in 1991 in Inorganic Membranes. The devices using these filters are widely used not only in ships but also in various industrial fields such as concentration of filtration and concentration in environmental pollution treatment, oil industry, pharmaceutical industry, food industry, liquor and beverage lesson.

As shown in FIG. 1, the filtration apparatus 100 of Korean Patent Laid-Open Publication No. 2010-121278 (Nov. 17, 2010) discloses a filtration apparatus for filtrating a fluid introduced through an inlet conduit 112, A plurality of filters 120 and 125, a discharging unit 160, a rotating unit (not shown), and a plurality of filters (not shown) 150 and a pressure regulating member 180.

The plurality of filters 120 are provided inside the housing to filter the fluid introduced into the filtration apparatus 100. The plurality of filters (120) are formed with a filtration surface for filtering the fluid and a discharge port for discharging foreign matter filtered during backwashing. A plurality of filters 120 are also installed between the inlet conduit 112 and the outlet conduit 114 since they must be installed on the flow path between the inlet conduit 112 and the outlet conduit 114.

The plurality of filters 120 are formed in a hollow cylindrical shape having a filtration surface on the outer peripheral surface. The plurality of filters 120 are installed in contact with a plurality of through holes 130a formed in the partition 130 on the downstream side of the partition 130 in the fluid flow direction. Thus, the inflow fluid flows into the plurality of filters 120 through the through holes 130a.

The discharge unit 160 includes an intake arm 165 coupled to the rotation axis 152 of the rotation unit 150 and rotating along the lower surface of the partition 130 on which the plurality of filters 120 are disposed. A suction port for sucking foreign matter is formed on the upper surface of the suction arm 165. Accordingly, when the suction arm 165 is positioned below the through-hole 130a of the partition 130 where the filter for backwashing is located by the rotation of the rotary shaft 152, the suction port and the outlet of the filter And communicates backwashing.

2, the filtration apparatus includes an inlet conduit 112 through which a fluid flows into one side, and a housing 110 through which an outlet conduit 114 through which the filtered fluid is discharged is formed on the other side. And a plurality of filters 120 are formed on the partition 130 formed on the inner side of the housing 110.

A rotating part 150 is formed at an upper end of the housing 110 and a discharge conduit 170 is formed at an inner center of the housing 110.

Further, a suction arm 165 communicating with the discharge conduit 170 is formed at the lower end of the partition 130.

The suction arm 165 selectively moves among the plurality of filters 120 communicating with the partition wall 130 to the rotational force of the rotary part 150 to selectively suck the fluid through the discharge conduit 170 A cleaning operation is performed.

Conventional 1 is a system in which a plurality of filters are arranged in two rows, and Conventional 2 is a system arranged in a single row.

However, the conventional filtration apparatus is a backwashing method in which the surface of the filter is washed by sucking the fluid introduced into the housing by the pressure sucked at one end of the filter. In this case, the cleaning operation is uniformly performed on the entire surface of the filter .

In other words, as shown in FIG. 3, the portion of the filter which receives the suction pressure closest to the suction end of the filter is easily cleaned by suction of the strong fluid due to the maximum suction pressure, The suction pressure does not act smoothly as the pressure is moved away from the position where the pressure acts, so that the filter is not cleaned. As a result, there is a problem that the filtration efficiency of the filter decreases as the use time increases.

In addition, since the suction force is not smoothly applied between the partition and the suction arm, the suction pressure for sucking the fluid into the filter is lowered, thereby deteriorating the backwashing effect of the filter.

In order to solve the above problems, the present applicant has proposed a pre-registered patent No. 1561412 (a filtration device having a backwashing method) and a patent No. 1568635 (a filtration device having a backwashing method).

For example, as shown in FIGS. 4 and 5, the filtration apparatus of the prior art 1561412 includes a housing having an inlet pipe on one side and a discharge pipe on the other side, A first suction pipe path located at the center of the housing, and a suction pipe extending from the first suction pipe path and located at one end of the filter and acting on the first suction pipe, And a rotating part for providing a rotating force to the suction part, the suction part including a second suction pipe to perform a backwashing operation with respect to the filter by pressure, The first and second diaphragms 30 and 40 for supporting the upper and lower ends of the filter 20 and the second suction pipe 54 of the suction unit 50 are connected to the filter 20, At the top and bottom, And the upper and lower suction pipe portions 5410 and 5420 are disposed at one end of the filter 20 so as to perform a cleaning action by the suction pressure, And a blocking member 59 which is located at the other end of the filter 20 and closes the suction member 58 so that the suction pressure can easily be operated.

The suction member 58 includes a first suction pipe 582 fixed to be connected to the ends of the lower end and upper suction pipe portions 5410 and 5420 and a second suction pipe 582 spaced apart from the first suction pipe 582 by a predetermined distance A second suction pipe 584 which is partly inserted into the first suction pipe 582 and coupled to be in communication with the first suction pipe 582 and the second suction pipe 584 formed between the first and second suction pipes 582 and 584, Is always in contact with the first or second diaphragm 30 (40).

The second suction pipe 584 is in close contact with the first and second diaphragms 30 and 40 so that the fluid located inside the housing 10 is sucked into the filter 20 by the suction force of the pump 56 The filter 20 is washed by the backwashing action.

7, when the rotating suction member 58 is positioned between the filter 20 and the filter 20 during the backwashing process, the second suction pipe 584 of the suction member 58, The second suction pipes 584 overlap the adjacent filters 20 due to the suction force acting on the second suction pipes 584. However, since the suction force does not act completely, the suction force is weakened, .

In addition, since the fluid is not filtered by the filter 20 in the non-overlapping portion of the neighboring filters 20 by the second suction pipe 584 and the fluid is sucked into the second suction pipe 584 There is a problem that loss occurs.

That is, when the second suction pipe 584 is rotated and the filter 20 is washed with the backwashing method, the suction force is weakened at the overlapping portions of the adjacent filters 20, 20, the fluid is sucked into the second suction pipe 584 together with the inflow of the fluid, resulting in a loss of fluid. As a result, the efficiency of backwashing is deteriorated by the poor cleaning action of the filter 20 There is a problem.

Korean Patent Publication No. 2006-83306 (published on July 20, 2006) Korean Patent Publication No. 2010-107636 (Published on Jun. 10, 2010) Korean Patent Publication No. 2013-40031 (published on March 23, 2013) Korean Patent Laid-Open Publication No. 2014-23680 (published Feb. 21, 2014)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a structure of a discharge pipe which is in close contact with one end of a filter and a suction force acts on the inside of the filter to perform a cleaning process of the filter, The suction force can be stably applied to the filter during the cleaning process of the filter and the flow of the fluid into the space between the neighboring filters can be prevented, And to provide a backwash outlet pipe of the filtration device.

In accordance with another aspect of the present invention, there is provided an inhaler for a backwashing type filtration device including a discharge pipe which is in close contact with one end of a filter and performs a washing process on the filter by a suction force, A flange in which a suction hole is formed so that suction force acts on the inside; And a blocking plate formed at one end of the flange to prevent a fluid from being sucked into a space between neighboring filters during a suction operation to improve filtration efficiency.

In the present invention, it is preferable that the lower end of the blocking plate includes a chamfer that induces smooth rotation when the filter is rotated along the surface of the partition during the filtration process of the filter.

In the present invention, it is preferable that the blocking plate is formed in a streamlined shape so as to have a curved line which is the same as or similar to the turning radius of the discharge pipe.

In the present invention, it is preferable that the flange includes a key groove formed at one end with a suction pipe of the suction portion and into which the key is inserted so that the lift is guided by the key.

According to the present invention, the structure of the discharge pipe, which is in close contact with one end of the filter and is acted upon by the suction force to the inside of the filter to perform the cleaning process of the filter, is improved by the flange and the shield plate extending to the lower end of the flange, The suction force can be stably applied to the filter during the cleaning process of the filter, and the fluid can be prevented from flowing into the space between the neighboring filters, thereby improving the cleaning efficiency.

1 is a cross-sectional view of a conventional filtration apparatus.
2 is a sectional view of a filtration apparatus showing another conventional example.
3 is an enlarged view showing a state in which a conventional filter is backwashed.
4 is a schematic cross-sectional view of a conventional backwashing type filtration device.
FIG. 5 is a plan sectional view of a conventional filtration apparatus having a backwashing method. FIG.
6 is a schematic perspective view showing a coupling relationship of a conventional suction unit;
7 is a partially enlarged view showing a cleaning process through a conventional suction member;
8 is a schematic perspective view showing a coupling relationship between a discharge pipe and a suction portion according to the present invention.
9 is a perspective view of a discharge tube according to the present invention.
10 is a sectional view of a discharge tube according to the present invention;
Figures 11a and 11b are schematic operational views illustrating a backwash process of a filter through a discharge line according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

8, the suction member 58 for the filtration apparatus of the backwashing type of the present invention is constituted at one side of the second suction path 54 of the suction unit 50, And performs the backwashing action of the filter 20 by the suction force acting on the pump 56. [

8, the suction unit 50 of the backwashing type filtration apparatus includes the first suction pipe 52, the second suction pipe 54, the pump 56, and the suction member 58, . In this case, the configuration and operation of the first and second suction pipes 52 and 54 and the pump 56 are described in detail in the above-referenced patent, and will not be described here.

The suction member 58 includes a first suction pipe 582 fixed to one end of a suction path formed in the second suction pipe 54 and a discharge pipe 582 spaced apart from the first suction pipe 582 200 and a spring 586 formed between the first suction pipe 582 and the discharge pipe 200.

The first suction pipe 582 and the discharge pipe 200 are inserted into the first suction pipe 582 of the discharge pipe 200 after inserting the key into the key groove 214 formed in the flange 210 of the discharge pipe 200, And the key inserted into the key groove is inserted into the first suction pipe 582. Thus, the discharge pipe 200 is guided to the first suction pipe 582 by the key.

Of course, the discharge pipe 200 may be directly connected to the suction pipe formed in the second suction pipe 54, as the case may be.

The spring 586 applies an elastic force to the discharge tube 200 so that the discharge tube 200 stably adheres to the first and second diaphragms 30 and 40 constituted by the filter 20 So that the cleaning function of the filter 20 can be stably performed by the suction force.

In this case, the suction member 58 may be configured to be connected to one end of the filter 20 so as to perform the cleaning process of the filter 20 by the backwashing method through the suction force of the pump 56 do. Accordingly, the same reference numerals are used for the same components as those in the conventional art, and a detailed description thereof will be omitted.

9 and 10, the discharge pipe 200 includes a flange 210 having a predetermined length formed with a suction hole 212 penetrating through the discharge pipe 200, and a flange 210 having a predetermined length at one end of the flange 210 And a blocking plate 220.

The flange 210 is formed at one side of the suction unit 50 and sucked into the suction hole 212 by the suction force provided through the suction unit 50, Is performed.

A key groove 214 having a predetermined depth is formed on one side of the flange 210. A key is formed in the key groove 214, and the key is composed of a fixed key or a sliding key.

The blocking plate 220 is formed at one end of the flange 210 to prevent the filtered fluid from being sucked when the filter 20 is cleaned through the suction hole 212 of the flange 210 , Thereby improving the cleaning efficiency by preventing the suction of the filtration fluid without losing the cleaning pressure.

The blocking plate 220 is formed to extend a predetermined length from one end of the flange 210.

In addition, the blocking plate 220 is preferably integrally formed with the flange 210.

In addition, the blocking plate 220 is preferably formed in a streamlined shape having a curved line that is the same as or similar to the radius of rotation of the suction unit 50. That is, when the blocking plate 220 is formed in a straight line, a portion of the blocking plate 220, which is formed in a straight line with a predetermined length when rotating along the radius of rotation of the suction unit 50, So that the cleaning process or the filtration process can be interfered with.

The lower end of the blocking plate 220 is smoothly rotated on the surface of the diaphragms 30 and 40 when it is rotated by the rotation force provided by the rotation unit 60 in a state of being in tight contact with the diaphragms 30 and 40 A chamfer 222 for guiding the chamfer 222 to be formed is formed.
11A and FIG. 11B, the blocking plate 220 is configured to extend a predetermined length at both ends with respect to the flange 210. The blocking plate 220 includes a suction hole 212 formed in the flange 210, A suction operation is performed at a position where the suction hole 212 communicates with the suction hole 212 and a sealed state blocked by the length of the blocking plate 220 which is not communicated with the suction hole 212, The suction force of the pump 56 stably acts on the filter 20 so that the cleaning efficiency is improved.

The operation state of the backwash discharge pipe of the automatic filtration apparatus constructed as above will be described below.

11A, when the discharge tube 200 is positioned in the center of the filter 20, the suction force acting on the suction hole 212 formed in the flange 210 of the discharge tube 200 causes the The fluid is sucked into the inside of the filter 20, whereby the cleaning process of the filter 20 is performed.

Then, the discharge tube 200 is continuously rotated along the radius of rotation by the rotation unit 60, and is rotated by the neighboring filter 20 as shown in FIG. 11B.

At this time, the blocking plate 220 of the discharge pipe 200 may block one end of the neighboring filter 20. In this case, since the suction force is not applied to the blocking plate 220, Since the suction of the fluid flowing into the filter 20 is not generated, the loss of the fluid is prevented.

11B, when the flange 210 is positioned so as to interfere with the neighboring filters 20, the blocking plate 220 extending outwardly of the flange 210 is positioned on the side of the adjacent filters 20 The suction force provided through the suction hole 212 of the flange 210 acts on the interference position of the neighboring filters 20 without loss of the suction force, .

The above description is only an example for carrying out the backwashing discharge pipe of the automatic filtration apparatus, and the present invention is not limited to the above embodiment. It will be understood by those skilled in the art that various changes may be made without departing from the spirit of the invention.

200: discharge pipe
210: flange 212: suction hole
214: key groove 220: shield plate
222: Chamfer

Claims (4)

A backwashing outlet pipe of an automatic filtration apparatus which is closely attached to one end of a filter and performs a washing process in the filter by a suction force,
The discharge pipe (200) has a flange (210) through which the suction hole (212) penetrates so that the suction force of the suction part (50) acts on the inside. And
A sucking action is performed in each of both ends of the flange 210 by a filter having a predetermined length in the rotating direction of the flange 210 and positioned to communicate with the suction hole 212 of the flange 210 , And a blocking plate (220) for preventing the fluid from being sucked into a space between adjacent filters (20) having the same rotation radius as the filter (20) to improve filtration efficiency;
The blocking plate 220 is formed in a streamlined shape so as to have the same or similar curved line as the turning radius of the discharge tube 200;
The flange 210 is formed at one end with a suction pipe of the suction unit 50 and includes a key groove 214 into which the key is inserted to be guided by a key.
Wherein the backwash outlet pipe of the automatic filtration apparatus comprises:
[3] The apparatus according to claim 1,
A chamfer 222 for guiding smooth rotation when rotating along the surface of the diaphragm 30 (40) during the filtration process of the filter 20;
And the backwash outlet pipe of the automatic filtration apparatus.
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