KR102620509B1 - Strainer - Google Patents

Abstract

The present invention includes a body portion formed with an inlet and an outlet through which fluid flows; and a screen unit that filters foreign substances from the fluid introduced from the inlet of the body unit and discharges them through the outlet, wherein the screen unit is made of a cylindrical shape with a hollow interior and allows the fluid inside through a plurality of perforated holes penetrating the side. It relates to a strainer that includes a filter housing that is discharged to the outside, wherein the filter housing is magnetized to adsorb metal foreign substances.

Description

Strainer {STRAINER}

The present invention relates to a strainer, and more specifically, to a strainer that can more effectively filter fine metal contaminants using a magnetic screen unit.

A strainer is a device that removes solids contained in a fluid and prevents foreign substances from entering equipment, etc., and is mainly installed in pipes to prevent sand, rust, metal waste, etc. from entering each equipment. At this time, the strainer is Y Type, T Type, Cone Type, Bucket Type, Basket Type, etc. depending on the installation purpose, type of fluid, and type of foreign matter. is used, and Y-type and T-type pipes are commonly used.

The strainer includes a screen implemented in the form of a mesh or perforation, and is configured to allow fluid to flow into the pipe and to filter foreign substances through the screen. At this time, mesh screens can produce finer pore sizes than perforated screens, allowing the filtration of finer particles than perforated screens. In the case of perforated screens, maintenance costs are reduced while handling debris from fluids inside general piping. can do.

Problems occur in pipes due to various reasons, such as foreign substances such as fine iron powder flowing into the pipes. To solve this problem, Korean Patent Publication No. 10-1195200 discloses a magnet-attached strainer for water supply as shown in FIG. 1. The magnet-attached strainer includes a case (1), a filter net (2), and a conductor collection means (3), and the conductor collection means (3) is disposed along the center line of the case (1) to remove conductors from foreign substances. It is characterized by collection by the magnetic force of a magnet.

Although there are methods to improve the filtering performance of metal foreign substances in the strainer through magnets as described above, the existing device is installed along the center line of the case, so the area affected by magnetic force is small, and only some metal foreign substances are filtered. There is a problem with this. In addition, if a magnet is installed in an area where the flow velocity flowing in from the inlet is strong, there is a problem that the filtered metal foreign substances may be separated and discharged along the fluid due to an external force stronger than the magnetic force.

KR 10-1195200 B1 (2012.10.29. Announcement)

The present invention was created to solve the problems of the prior art, and the purpose of the present invention is to provide a strainer that can more effectively filter fine metal foreign substances using a magnetic screen portion.

A strainer according to the present invention for achieving the above-described object includes a body portion formed with an inlet and an outlet through which fluid flows; and a screen unit that filters foreign substances from the fluid introduced from the inlet of the body unit and discharges them through the outlet, wherein the screen unit is made of a cylindrical shape with a hollow interior and allows the fluid inside through a plurality of perforated holes penetrating the side. It includes a filter housing that is discharged to the outside, and the filter housing can be magnetized to adsorb metal foreign substances.

Additionally, the filter housing may include a perforated body through which a plurality of perforated holes are formed and a magnetized body in which a magnet is disposed.

In addition, the strainer according to the present invention consists of a plurality of perforated bodies and a plurality of magnetized bodies, and may be alternately arranged along the circumferential direction of the filter housing.

In addition, in the strainer according to the present invention, the thickness (T1) of the perforated body is formed to be smaller than the thickness of the magnetized body (T2), and the perforated body and the magnetized body may have the same inner diameter.

In addition, the magnetized body includes a receiving hole formed at the center of the magnetized body in the thickness direction and extending along the longitudinal direction of the filter housing, and the magnet can be inserted into the receiving hole of the magnetized body.

In addition, the screen unit includes a mounting housing connected to one side in the longitudinal direction of the filter housing and coupled to the inside of the body portion; and an extension housing extending to the other longitudinal side of the filtering housing, wherein the receiving hole of the magnetized body may be closed on one longitudinal side and a side surface and open on the other longitudinal side.

In addition, the magnet includes a bar magnet inserted into the receiving hole of the magnetized body; and a ring magnet inserted into the extension housing.

In addition, a recessed groove is formed on the inner surface of the magnetized body to be recessed outward to accommodate metal foreign substances, and the space between the recessed groove and the receiving hole can be sealed through the magnetized body.

In addition, the screen unit includes a mounting housing connected to one side in the longitudinal direction of the filter housing and coupled to the inside of the body portion; and an extension housing extending to the other longitudinal side of the filtering housing, wherein the magnetized body may be formed from the longitudinal center of the filtering housing to the other longitudinal side.

In addition, a plurality of magnetized bodies may be arranged to be spaced apart from each other along the circumferential direction of the filter housing, and the perforated body through which perforated holes may be formed may be disposed between the plurality of magnetized bodies spaced apart from each other.

The strainer according to the present invention with the above-described configuration can absorb metal contaminants remaining in the fluid through a magnetized filtration housing and prevent them from being discharged along the pipe, thereby improving filter performance by filtering fine metal contaminants. There is an advantage to being able to do it.

In addition, the strainer according to the present invention has the advantage of having a structure in which the magnet inserted into the filter housing is not exposed to fluid, thereby preventing deterioration in magnetization performance and reducing maintenance costs.

In addition, in the strainer according to the present invention, the perforated body and the magnetized body are alternately arranged and recessed grooves are formed in the magnetized body, thereby preventing metal foreign substances adsorbed by the flow of fluid from being discharged, and at the same time, when the magnet is separated, the recessed groove is formed. Metal foreign substances can be collected separately, so there is an advantage in that foreign substances can be sorted and collected by type.

Figure 1 is a diagram showing a magnet-attached strainer according to a prior art document.
Figure 2 is a view showing a strainer according to the present invention installed between pipes.
Figure 3 is a cross-sectional view of a strainer according to the present invention.
Figure 4 is an exploded cross-sectional view of the strainer according to the present invention.
Figure 5 is a perspective view showing the screen portion of the strainer according to the present invention.
Figure 6 is an exploded perspective view showing the screen portion of the strainer according to the present invention.
Figures 7 and 8 are cross-sectional views of the screen portion of the strainer according to the present invention.
Figure 9 is a perspective view showing the screen portion of the strainer according to the present invention.

Hereinafter, the strainer according to the present invention will be described in detail with reference to the attached drawings. The drawings introduced below are provided as examples so that the idea of the present invention can be sufficiently conveyed to those skilled in the art. Accordingly, the present invention is not limited to the drawings presented below and may be embodied in other forms. Additionally, like reference numerals refer to like elements throughout the specification.

If there is no other definition in the technical and scientific terms used here, they have meanings commonly understood by those skilled in the art to which this invention pertains, and the gist of the present invention is not required in the following description and attached drawings. Descriptions of well-known functions and configurations that may be confusing are omitted.

Additionally, the terms used in this specification are only used to describe specific embodiments and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, terms such as “comprise” or “have” are intended to designate the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, but are not intended to indicate the presence of one or more other features. It should be understood that this does not exclude in advance the possibility of the existence or addition of elements, numbers, steps, operations, components, parts, or combinations thereof.

FIGS. 2 to 4 relate to a strainer according to the present invention. FIG. 2 is a view showing a strainer installed between pipes, FIG. 3 is a cross-sectional view of the strainer, and FIG. 4 is a cross-sectional view of the strainer disassembled.

Referring to FIG. 2, the strainer 10 according to the present invention is installed between the first pipe 21 and the second pipe 22 to filter out foreign substances in the fluid flowing in the pipe, and has a Y-type (Y Type, T Type, Cone Type, Bucket Type, or Basket Type. In this embodiment, for clearer explanation, a strainer 10 implemented in a Y shape will be used as an example and will be described later.

Referring to FIG. 3, the strainer 10 according to the present invention includes a body portion 100 through which fluid flows, a guide portion 200 whose position is fixed inside the body portion 100, and the guide portion 200. ) may include a screen unit 300 that is mounted on the body unit 100 to filter out foreign substances in the fluid flowing inside the body unit 100. At this time, the body part 100 may include an inlet 101 through which fluid flows in and an outlet 102 through which fluid flows out, and the guide part 200 and the screen part 300 are connected to the inlet 101 and the screen part 300. It may be disposed between the outlet 102. And in the strainer 10 according to the present invention, the screen part 300 can be detachably coupled to the guide part 200, and when the screen part 300 is coupled to the guide part 200, the screen part 300 is detachably coupled to the guide part 200. It may further include a sealing portion 400 that secures the end of the portion 300.

Referring to FIG. 4, when the strainer 10 according to the present invention is Y-type, the body portion 100 includes a first body 110 in which an inlet 101 and an outlet 102 are formed. ) may include a second body portion 120 that is disposed between the inlet 101 and the outlet 102 and is laterally branched. At this time, the second body portion 120 may include an insertion conduit 103 with one side open to the flow path between the inlet 101 and the outlet 102 and the other side open to the outside, and the sealing portion ( 400) can be combined with the second body 120 to seal the other side of the insertion conduit 103.

The guide part 200 includes a guide body 210 fixedly disposed between the inlet 101 and the outlet 102 of the first body part 110, and is formed on the guide body 210 to form the inlet 101. ) may include an opening hole 220 that guides the fluid introduced from the insertion pipe 103. Additionally, a protruding member 230 having a threaded thread may be formed on the guide body 210 and screwed to the screen portion 300. At this time, the protruding member 230 may be cylindrical with the opening hole 220 formed in the center, and the fluid flowing into the inlet 101 flows to the screen unit 300 along the opening hole 220. The fluid that flows and is filtered in the screen unit 300 may be discharged through the outlet 102.

The screen unit 300 may include a filtration housing 310 in which a plurality of perforated holes (H) are formed. The filtration housing 310 is cylindrical and has a hollow interior, and the perforated holes (H) are hollow. The inside and outside can be communicated with each other. And the screen unit 300 may further include a mounting housing 320 connected to the tip of the filter housing 310, and the mounting housing 320 is connected to the protruding member 230 of the guide part 200. and can be screwed together and detachably fastened.

The sealing portion 400 may include a cap 410 that seals the other side of the insertion conduit 103 of the second body 120 and a coupling member 420 that secures the distal end of the screen portion 300. You can. In addition, the sealing part 400 may include a drain member 430 to communicate with the second body 120 and the outside to discharge fluid. And the strainer 10 according to the present invention may further include a sealing part 500 interposed between the cap 410 and the second body 120 to seal the fluid to prevent leakage, and the sealing part ( 500) may be implemented as a gasket, for example.

Figures 5 and 6 relate to a strainer according to the present invention, with Figure 5 showing a perspective view showing the screen part of the strainer, and Figure 6 showing an exploded perspective view showing the screen part of the strainer, respectively.

Referring to FIG. 5, the screen unit 300 includes a filtration housing 310 that is made of a cylindrical shape with a hollow interior and includes a plurality of perforated holes (H) penetrating the side, and a longitudinal direction of the filtration housing 310. It may include a mounting housing 320 connected to one end and an extension housing 330 connected to the other longitudinal end of the filtering housing 310. Here, the screen part 300 may be hollow at the center of the diameter and penetrated upward and downward, and the mounting housing 320 is connected to the guide part 200 described above to receive fluid, and the extension housing ( 330 can be sealed through the sealing part 400 described above. Here, the opening of the extension housing 330 and the outside may be communicated through the drain member 430 of the sealing portion 400.

Referring to FIG. 6, the filter housing 310 is magnetized and can adsorb metal foreign substances remaining in the fluid, and has a perforated body 311 through which a plurality of perforated holes (H) are formed and a magnet inside. It may include a magnetized body 312 that is disposed. At this time, the perforated body 311 and the magnetized body 312 may each be composed of a plurality and arranged to alternate with each other along the circumferential direction of the cylindrical filter housing 310.

The screen unit 300 may further include a magnet 340 inserted into the filtering housing 310 and the extension housing 330. At this time, the magnet 340 may include a bar magnet 341 inserted into the filtering housing 310 and a ring magnet 342 inserted into the extension housing 330. At this time, the bar magnet 341 can be introduced into the magnetized body 312, and the magnetized body 312 can become a magnetic material through the bar magnet 341 and adsorb the metal foreign substances. Accordingly, the fluid flowing into the center of the filtering housing 310 can be discharged through the perforated hole (H) of the perforated body 311, and the present invention provides a method for discharging the metal into the magnetized body 312 before the fluid is discharged. It is formed to adsorb foreign substances, thereby further improving filtration performance.

The mounting housing 320 includes a fixing body 321 to which the end of the filtering housing 310 is fixed, and a fastening body 322 that protrudes from the fixing body 321 and is fastened to the guide part 200 described above. It can be included. When the perforated body 311 and the magnetized body 312 are alternately arranged, the end of the perforated body 311 and the end of the magnetized body 312 may be connected to the fixed body 321.

The perforated body 311 and the magnetized body 312 may be formed of different materials. More preferably, the magnetized body 312 may be made of a material that has a higher response to the magnet 340 than the perforated body 311, that is, a material with a large magnetic moment or magnetizing power. For example, the magnetized body 312 may be made of a weakly magnetic polymer material, and the perforated body 311 may be made of a non-magnetic material or a weakly magnetic stainless steel material.

FIGS. 7 to 9 relate to a strainer according to the present invention. FIGS. 7 and 8 each show a cross-sectional view of the screen portion taken along line A-A′ in FIG. 5, and FIG. 9 shows a perspective view showing the screen portion of the strainer.

Referring to FIG. 7, the perforated body 311 and the magnetized body 312 have the same inner diameter and may have a cylindrical hollow of the filter housing 310, and the perforated body 311 and the magnetized body 312 have the same inner diameter. (312) may be formed with different outer diameters. At this time, the thickness T1 of the perforated body 311 between the inner diameter and the outer diameter may be smaller than the thickness T2 of the magnetized body. Additionally, a separate mesh network may be installed on the inner surface of the perforated body 311 or the inner surfaces of the perforated body 311 and the magnetized body 312.

The magnetized body 312 may include a receiving hole 312a extending along the longitudinal direction of the filtering housing 310, and the magnet 340 may be inserted into the receiving hole 312a. At this time, one end and a side surface of the receiving hole 312a may be sealed.

Referring to FIG. 8, a recessed groove 312b may be formed on the inner surface of the magnetized body 312, which is recessed outward to accommodate metal foreign substances. At this time, the inner direction may be a direction toward the center of the hollow in the cross-sectional view, and the outer direction may be a direction oriented with the inner direction. In addition, the recessed groove 312b is disposed on the inner surface of the receiving hole 312a, so that the hollow space between the receiving hole 312a and the filter housing 310 has a smaller thickness, thereby improving the magnetic force against metal foreign substances. Filter performance can be improved.

Referring to FIG. 9, the perforated body 311 is formed on one side of the filtration housing 310 to increase the flow rate of discharged fluid, and the perforated body 311 is formed on the other side of the filtration housing 310. and magnetized bodies 312 may be arranged alternately to filter out metal foreign substances. Accordingly, when fluid flows in through the mounting housing 320, the fluid may flow to the other side of the filtration housing 320 and then flow to one side of the filtration housing 320, and the inflow fluid may flow to the filtration housing 320. When it flows to the other side of 320, metal foreign substances remaining in the fluid can be filtered out by the magnetized body 312 magnetized through the magnet 340.

As described above, the present invention has been described with reference to specific details such as specific components and limited embodiment drawings, but this is only provided to facilitate a more general understanding of the present invention, and the present invention is not limited to the above-mentioned embodiment. No, those skilled in the art can make various modifications and variations from this description.

Accordingly, the spirit of the present invention should not be limited to the described embodiments, and all matters that are equivalent or equivalent to the claims of this patent, as well as the claims described later, are said to fall within the scope of the spirit of the present invention. will be.

10: Strainer
21: 1st pipe
22: 2nd pipe
100: body part
101: inlet
102: outlet
103: Insertion pipe
110: first body
120: second body
200: Guide part
210: Guide body
220: opening hole
230: Protruding member
300: Screen unit
310: Filtration housing
311: perforated body
312: magnetized body
312a: receiving hall
312b: depression groove
320: Mounting housing
321: fixed body
322: fastening body
330: Extension housing
331: extension body
340: magnet
341: Bar magnet
342: Ring magnet
400: sealed part
410: cap
420: Coupling member
430: drain member
500: Sealing part

Claims (10)

A body portion formed with an inlet and an outlet through which fluid flows; and
a screen unit that filters foreign substances from the fluid drawn in from the inlet of the body unit and discharges them through the outlet;
Including,
The screen part,
It includes a filtration housing that is made of a hollow cylindrical interior and the fluid inside is discharged to the outside through a plurality of perforated holes penetrating the side,
The filter housing is magnetized to adsorb metal foreign substances,
The filter housing is,
It includes a perforated body through which a plurality of perforated holes are formed and a magnetized body in which a magnet is disposed,
The perforated body and the magnetized body are comprised of a plurality,
Arranged alternately along the circumferential direction of the filter housing,
The thickness (T1) of the perforated body is smaller than the thickness (T2) of the magnetized body, and the perforated body and the magnetized body have the same inner diameter,
The magnetized body is,
It includes a receiving hole formed at the center of the magnetized body in the thickness direction and extending along the longitudinal direction of the filter housing, and the magnet is inserted into the receiving hole of the magnetized body,
The screen part,
A mounting housing connected to one longitudinal side of the filter housing and coupled to the inside of the body portion; And an extension housing extending to the other side in the longitudinal direction of the filter housing,
The receiving hole of the magnetized body is sealed on one side and side in the longitudinal direction and is open on the other side in the longitudinal direction,
The magnet is,
A bar magnet inserted into the receiving hole of the magnetized body; And a ring magnet inserted into the extension housing,
A recessed groove is formed on the inner surface of the magnetized body, which is recessed outward to accommodate metal foreign substances. The space between the recessed groove and the receiving hole is sealed through the magnetized body, and when the magnet is separated, the metal foreign material is collected along the recessed groove. A strainer characterized by being
delete delete delete delete delete delete delete According to paragraph 1,
The screen part,
A mounting housing connected to one longitudinal side of the filter housing and coupled to the inside of the body portion; and
an extension housing extending to the other side in the longitudinal direction of the filter housing;
Including,
The magnetized body is,
A strainer, characterized in that formed from the longitudinal center of the filter housing to the other longitudinal side.
According to clause 9,
The magnetized body is,
A plurality of units are spaced apart from each other along the circumferential direction of the filter housing,
A strainer, characterized in that the perforated body through which perforated holes are formed is disposed between the plurality of magnetized bodies spaced apart from each other.