KR102642484B1 - Two way strainer - Google Patents

Abstract

The present invention relates to a strainer capable of filtering foreign substances even when water flows in from one side as well as the other side.
The present invention induces the water flowing into the housing from the first direction due to water pressure to flow only into the inside of the filter unit and not into the outside of the filter unit, so that foreign substances are filtered and then pass through the outside of the filter unit. It is discharged in two directions, and the water flowing into the housing from the second direction due to water pressure is guided to flow only into the inside of the filter unit and not into the outside of the filter unit, so that foreign substances are filtered and treated, and then the water flowing into the housing from the second direction is guided to the outside of the filter unit. It is characterized in that it passes through and is discharged in the second direction.
The present invention has the effect of filtering out foreign substances contained in the water even if the water flowing in the pipe through a single strainer flows in one direction or the opposite direction.

Description

Two way strainer

The present invention relates to a strainer for removing foreign substances contained in water that can be applied to the midway part of various pipes as well as water supply. More specifically, it relates to a strainer that can filter foreign substances even when water flows in from one side as well as the other side. It is an invention about

In general, most of the water pipes that supply water to each home are cast iron pipes, so as they age, they lose rust and impurities, causing foreign substances to be included in the water. In addition, when water pipes are replaced or repaired, impurities may contaminate the water and be supplied.

Therefore, when water containing foreign substances is supplied to each home or office without going through a separate filtration process, red water containing rust or other foreign substances mixed in that is unfit for drinking comes out of the faucet. In addition, not only is it impossible to drink, but the meter installed in the middle of the water supply pipe to measure the amount of water supplied may break down or the boiler may become blocked. Therefore, to prevent this, a strainer is installed in the middle of the pipe to remove foreign substances contained in the water.

However, as the water in some water pipes is branched in various directions and is used by a certain user, water may not flow in only one direction but may also flow in the opposite direction.

Therefore, a general strainer can filter out foreign substances contained in the water when the water flows in one direction, but when the water flows in the opposite direction, a problem may occur where the filtered foreign substances flow back into the user. It was not possible to use it in places where there was a flow of water.

Therefore, by branching the pipe into two and installing check valves, etc., water can flow in only different directions. However, this also takes up a lot of space, making it difficult to apply in places where space is limited. In addition, foreign substances caught by the strainer must be cleaned periodically. To do this, the pipe valve must be closed and each strainer must be cleaned. Therefore, there is a problem in that it takes a lot of time for cleaning and inconveniences the user due to water outage.

Republic of Korea Patent Publication No. 10-2022-0074269, 'Two-way strainer with rotatable mesh screen', allows filtration in response to water flow in both directions with a single strainer.

In other words, when water flows to one side, filtration is carried out by the foreign matter collection surface of the mesh screen, but when the water flow changes, the valve is closed and the foreign matter collection surface of the mesh screen is rotated in the opposite direction to prevent water flow in the opposite direction. This is a technology that can collect foreign substances.

However, in order to change the direction of the mesh screen, you still have to close the pipe valve and rotate the mesh screen, and cleaning the mesh screen also requires opening the lid and cleaning the mesh screen. There was a problem that the inconvenience could not be resolved.

Republic of Korea Patent Publication No. 10-2022-0074269

The present invention has a problem to solve in that it allows foreign substances contained in water to be filtered by a single strainer even if the water flowing in the pipe flows in one direction or the opposite direction.

In addition, the present invention eliminates the risk of foreign substances filtered by the filtration unit flowing into the pipe even if the direction of water flow changes.

In addition, the present invention has another problem in that it allows cleaning of foreign substances caught in the filter net without removing the filter net of the strainer.

In order to solve the above problems, the present invention induces the water flowing into the housing from the first direction by hydraulic pressure to flow only into the inside of the filter unit and not into the outside of the filter unit, so that foreign substances are filtered, It passes through the outside of the filter unit and is discharged in the second direction, and the water flowing into the housing from the second direction due to water pressure is guided to flow only into the inside of the filter unit and not into the outside of the filter unit, thereby filtering out foreign substances. After doing so, it is characterized in that it passes through the outside of the filter unit and is discharged in the first direction.

According to one embodiment of the present invention, a housing is hollow on the inside and has a first outlet formed through one side and a second outlet inlet formed through it on the other side; a filtering unit that is inserted and coupled to be spaced apart from the inner wall of the housing to filter foreign substances; a flow space formed between the inner wall of the housing and the outer side of the filtering unit; a first filtration orifice formed to communicate with the filtration unit at the first outlet inlet side and a first filtration opening/closing ball to open and close the first filtration orifice; a second filtration orifice formed to communicate with the filtration unit at the second outlet inlet side and a second filtration opening/closing ball to open and close the second filtration orifice; A first discharge orifice and a first discharge opening/closing ring formed to communicate with the flow space at the first discharge inlet side; And a second discharge orifice and a second discharge opening/closing ring formed at the second discharge inlet side to communicate with the flow space portion.

According to one embodiment of the present invention, the first filtration orifice is tapered so that the width gradually becomes narrower from the second outlet inlet side to the first outlet inlet side, and the second filtration orifice is formed from the first outlet inlet side to the second outflow inlet side. It is characterized by being tapered so that the width gradually becomes narrower toward the inlet side.

According to one embodiment of the present invention, the first discharge orifice and the second discharge orifice are tapered so that the width gradually becomes narrower toward the flow space.

According to one embodiment of the present invention, the filter part is formed so that the width of the central part is wider than the ends of both sides, so that the foreign substances filtered by the filter part are formed toward the central part of the filter part.

According to one embodiment of the present invention, a foreign matter removal unit is further provided to remove foreign matter attached to the inner wall of the filter unit.

According to one embodiment of the present invention, the foreign matter removal unit includes a rotating body rotatably inserted and coupled to the inside of the filtering unit, and a brush unit coupled to the end of the rotating body so as to contact the inner wall of the filtering unit. Do it as

According to one embodiment of the present invention, a foreign matter discharge port is further provided on one side of the filtering unit so as to penetrate the housing.

According to one embodiment of the present invention, the first outlet and the second outlet of the housing are further provided with connection sockets for connecting pipes having an inner diameter different from that of the housing.

The present invention has the effect of filtering out foreign substances contained in the water even if the water flowing in the pipe through a single strainer flows in one direction or the opposite direction.

Additionally, the present invention has the advantage of being able to wash foreign substances caught in the filter net without removing the filter net of the strainer.

Figure 1 is an exploded illustration of a conventional two-way strainer.
Figure 2 is a conceptual illustration of a bidirectional strainer according to an embodiment of the present invention.
Figure 3 is an illustration of a longitudinal cross-section of a bidirectional strainer according to an embodiment of the present invention.
Figure 4 is an illustration of a longitudinal cut in a state in which the housing is removed from a bidirectional strainer according to an embodiment of the present invention.
Figure 5 is an illustration of a longitudinal cross-section of a bidirectional strainer according to another embodiment of the present invention.
Figure 6 is an illustration of a longitudinal cut in a bidirectional strainer according to another embodiment of the present invention with the housing removed.
Figures 7 and 8 are longitudinal cross-sectional illustrations showing a state in which water flows in from the first direction of the two-way strainer according to the present invention and is discharged from the second direction.
Figures 9 and 10 are longitudinal cross-sectional examples showing a state in which water flows in from the second direction of the bidirectional strainer according to the present invention and is discharged from the first direction.

Specific structural and functional descriptions of the embodiments of the present invention disclosed in the present specification or application are merely illustrative for the purpose of explaining the embodiments according to the present invention, and the embodiments according to the present invention may be implemented in various forms. and should not be construed as limited to the embodiments described in this specification or application.

Since the embodiments according to the present invention can make various changes and have various forms, specific embodiments will be illustrated in the drawings and described in detail in the specification or application. However, this is not intended to limit the embodiments according to the concept of the present invention to a specific disclosed form, and should be understood to include all changes, equivalents, and substitutes included in the spirit and technical scope of the present invention.

When a component is said to be "connected" or "connected" to another component, it is understood that it may be directly connected to or connected to the other component, but that other components may exist in between. It should be. On the other hand, when it is mentioned that a component is “directly connected” or “directly connected” to another component, it should be understood that there are no other components in between. Other expressions that describe the relationship between components, such as "between" and "immediately between" or "neighboring" and "directly adjacent to" should be interpreted similarly.

The terms used herein are only used to describe specific embodiments and are not intended to limit the invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, terms such as “include” or “have” are intended to indicate the existence of a described feature, number, step, operation, component, part, or combination thereof, but are not intended to indicate the presence of one or more other features or numbers. It should be understood that this does not preclude the existence or addition of steps, operations, components, parts, or combinations thereof.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by a person of ordinary skill in the technical field to which the present invention pertains. Terms as defined in commonly used dictionaries should be interpreted as having meanings consistent with the meanings they have in the context of the related technology, and unless clearly defined in this specification, should not be interpreted in an idealized or overly formal sense. No.

The two-way strainer 100 of the present invention includes a housing 110, a filtration unit 120, a flow space 130, first and second filtration orifices 140 and 141, and first and second filtration opening and closing balls ( It may include 150) (151), first and second discharge orifices (160) (161), first and second discharge opening and closing rings (170) (171), and a foreign matter removal unit (180).

Here, the housing 110 is formed to a predetermined diameter so that the inside is hollow, and a first outlet 111 is formed through one end, and a second outlet 112 is formed through the other end.

The filtering unit 120 is inserted and coupled to the inside of the housing 110. The filtration unit 120 is in the form of a fine mesh, and any one of various meshes can be selected and applied depending on the purpose of water use. The filter unit 120 serves to filter out foreign substances contained in the water through the inner wall, and the filtered water in which foreign substances have been filtered out by the filter unit 120 passes to the outside of the filter unit 120.

For this purpose, the filtering unit 120 preferably has a diameter smaller than the diameter of the housing 110. Therefore, the outer surface of the filtering unit 120 inserted into the housing 110 and the inner wall surface of the housing 110 A flow space 130 is formed with a predetermined width between the filtration units 120 so that the filtered water can move.

A first filtration orifice 140 and a first discharge orifice 160 are formed on the first outflow inlet 111 side of the housing 110, and a first filtration opening/closing ball 150 for opening and closing the first filtration orifice 140. ) and a first discharge opening and closing ring 170 for opening and closing the first discharge orifice 160 are further provided.

In addition, a second filtration orifice 141 and a second discharge orifice 161 are formed on the second outlet inlet 112 side, and a second filtration opening/closing ball 151 and a second filtration orifice 151 are formed to open and close the second filtration orifice 141. A second discharge opening/closing ring (171) is further provided to open and close the second discharge orifice (161).

Here, the first and second filtering opening and closing balls (150) (151) and the first and second discharge opening and closing rings (170) (171) are preferably in a form that has a certain strength and elasticity so as not to be easily broken. The second discharge orifices 160 and 161 surround the outside of the first and second filtration orifices 140 and 141 and may be formed in a ring shape.

Here, the first filtration orifice 140 is preferably formed to be tapered so that the width gradually narrows from the second outlet 112 side to the first outlet inlet 111 side. Conversely, the second filtration orifice 141 is preferably formed so that its width becomes gradually narrower from the first outlet 111 side to the second outlet inlet 112 side.

In addition, the first discharge orifice 160 moves from the first outlet inlet 111 toward the flow space 130, and the second discharge orifice 161 moves from the second outlet inlet 112 to the flow space 130. ) It is preferable that it is formed tapered so that the width becomes gradually narrower toward the side.

In addition, between the first filtration orifice 140 and the filtration unit 120, between the second filtration orifice 141 and the filtration unit 120, between the first discharge orifice 160 and the first outlet inlet 111, The shape may be different between the second discharge orifice 161 and the second outlet inlet 112, but it is preferable that a support net 121 is further provided to allow water to pass through each.

The foreign matter removal unit 180 is inserted into the filter unit 120 to remove foreign substances attached to the inner wall of the filter unit 120, and includes a rotating body 181, a brush unit 182, and a rotating body. It may include a driving unit 183 for rotating the entire 181.

The rotating body 181 is installed side by side on the inside of the filtering unit 120, and supports 184 are provided in at least two directions from the rotating body 181 toward the inner wall of the filtering unit 120, and the supporting rod ( A brush unit 182 may be coupled to the end of 184) so as to contact the inner wall surface of the filter unit 120.

Additionally, the driving unit 183 is used to rotate the rotating body 181 and may be applied in various ways. That is, it is provided on the outside of the housing 110 and is configured to be axial with the axis of the rotating body 181, and the drive unit 183 can be configured to be driven manually or driven by a motor, etc.

In addition, a foreign matter outlet 122 may be further provided on one side of the longitudinal center of the filter unit 120 to discharge foreign substances inside the filter unit 120 to the outside, and the foreign matter outlet 122 may be connected to the housing 110. It is preferable that it is provided through.

In addition, when connecting the two-way strainer 100 of the present invention with the pipe (P), the connection socket 190 is provided to enable connection with the pipe (P) having a smaller inner diameter or a larger inner diameter than the inner diameter of the housing 110. More may be provided. The connection socket 190 for this purpose is formed so that the connection flange 191 on one side can be coupled with the connection flange of the housing 110, and the connection flange 192 on the other side is formed so as to be coupled with the connection flange of the pipe (P). It can be.

On the other hand, the filtering unit 120 may be coupled to the inside of the housing 110 in parallel with the housing 110, but as shown in FIG. 5, the width of the central part of the filtering unit 120 is wider than both ends. It may be formed so that it is formed overall into a diamond shape. This is to make it easier for foreign substances filtered by the filtering unit 120 to gather toward the central part of the filtering unit 120.

Therefore, the foreign matter outlet 122 is also formed by bending the central part of the brush part 182 outward so that it can rotate while contacting the inner wall surface of the diamond-shaped filter part 120, or is divided into two and each filter part ( 120), it is desirable to combine it so that the width gradually widens toward the center and spreads outward.

Hereinafter, the operating relationship of the two-way strainer 100 of the present invention configured as described above will be described.

The two-way strainer 100 of the present invention is coupled to the middle part of the pipe (P) to remove foreign substances contained in the water. If the diameter of the two-way strainer 100 of the present invention and the diameter of the pipe (P) are different It is connected and combined by the connection socket 190.

When the valve of the pipe (P) is opened and the water flows from the first direction to the first outlet inlet 111, which is one side of the housing 110 of the two-way strainer 100 of the present invention, the filter unit 120 ) is blocked from flowing into the outside and is guided to flow only into the inside of the filter unit 120. The water guided inside the filter unit 120 is not immediately discharged in the second direction, but passes through the outside of the filter unit 120 after foreign substances are filtered by the filter unit 120 and is discharged in the second direction.

Likewise, when water flows from the second direction into the second outlet inlet 112, which is the other side of the housing 110 of the two-way strainer 100 of the present invention, it does not flow into the outside of the filtering unit 120. It is blocked and guided to flow only into the inside of the filtering unit 120. The water guided inside the filter unit 120 is not immediately discharged in the first direction, but after foreign substances are filtered by the filter unit 120, it passes through the outside of the filter unit 120 and is discharged in the first direction.

Looking at this in more detail, the first filtration ball 150, which opens and closes the first filtration orifice 140, is pushed by the pressure of the water flowing in the first direction and is caught in the support net 121, and the first filtration orifice 140 is pushed. (140) becomes open. In addition, the first discharge opening and closing ring 170 that opens and closes the first discharge orifice 160 is pushed and blocks the first discharge orifice 160.

Accordingly, the water flowing into the first outlet inlet 111 does not flow into the blocked first discharge orifice 160, but flows into the filtration unit 120 through the first filtration orifice 140.

The water flowing into the filtration unit 120 passes from the inner wall of the filtration unit 120 to the outside, and then flows toward the second outlet inlet 112 through the flow space 130. At this time, if the water contains any foreign substances, the foreign substances are filtered out by the filter unit 120 having micropores, and only high-quality filtered water passes through.

And, when the filtrated water flows from the flow space 130 toward the second outlet inlet 112, the second filtration ball 151, which opens and closes the second filtration orifice 141, is pushed by the pressure of the water, causing the second filtration opening and closing ball 151 to open and close the second filtration orifice 141. The filtration orifice (141) is blocked. Additionally, the second discharge opening/closing ring 171 that opens and closes the second discharge orifice 161 is pushed and caught on the support net 121, thereby opening the second discharge orifice 161.

Therefore, the water flowing into the flow space 130 through the filtration unit 120 does not flow into the blocked second filtration orifice 141, but through the second discharge orifice 161 to the second outlet inlet 112. ) flows only to the side.

Meanwhile, the water flowing in the pipe (P) may flow in the opposite direction as needed or depending on the situation, and the water flows into the second outlet 112 on the other side of the housing 110 from the second direction. In this case, the second filtration ball 151 that opens and closes the second filtration orifice 141 is pushed by the pressure of the water and is caught in the support net 121, thereby opening the second filtration orifice 141. In addition, the second discharge opening and closing ring 171 that opens and closes the second discharge orifice 161 is pushed and blocks the second discharge orifice 161.

Accordingly, the water flowing into the second outlet inlet 112 does not flow into the blocked second discharge orifice 161, but flows into the filtration unit 120 through the second filtration orifice 141.

Likewise, the filtrated water filtered through the filtration unit 120 flows from the flow space 130 to the first outlet inlet 111, and the first filtration orifice 140 is opened and closed by the pressure of the water. As the ball 150 is pushed, the first filtration orifice 140 is blocked. In addition, the first discharge opening and closing ring 170 that opens and closes the first discharge orifice 160 is pushed and caught on the support net 121, and the first discharge orifice 160 is opened.

Therefore, the water flowing into the flow space 130 through the filtration unit 120 does not flow into the blocked first filtration orifice 140, but through the first discharge orifice 160 to the first outlet inlet 111. ) flows to the side.

Therefore, the two-way strainer 100 of the present invention filters foreign substances contained in the water to prevent them from flowing into the user side of each end through the pipe (P) even when the flow direction of water flowing in the pipe (P) flows not only to one side but also to the other side. You can give.

The two-way strainer 100 of the present invention can remove foreign substances filtered inside the filtration unit 120 by operating the foreign matter removal unit 180 without being separated from the pipe (P).

That is, when the driving unit 183 of the foreign matter removal unit 180 is driven by a motor or manually, the rotating body 181 rotates and the brush unit 182 coupled to the end of the support 184 is connected to the filtering unit 120. It rotates as it touches the inner wall of . Accordingly, as the brush unit 182 rotates, foreign substances attached to the inner wall of the filter unit 120 are washed and removed, thereby allowing the filter unit 120 to regain its filtration performance.

Foreign matter dropped by the foreign matter removal unit 180 falls on the bottom of the filtering unit 120 and is then discharged to the outside of the housing 110 through the foreign matter outlet 122, which is opened by a separate valve.

In addition, when the width of the central part of the filter unit 120 is wider than the ends of both sides and has a diamond shape, the brush unit 182 of the foreign matter removal unit 180 is also shaped like a diamond similar to the shape of the filter unit 120. As it rotates, foreign substances attached to the inner wall of the filter unit 120 are dropped.

In addition, since the shape of the filter unit 120 is diamond-shaped, foreign substances that have fallen from the inner wall of the filter unit 120 are easily collected toward the center of the filter unit 120, and are easily discharged toward the foreign material outlet 122. It becomes possible.

100: two-way strainer 110: housing
120: filtration unit 130: flow space
140,141: 1st and 2nd filtration orifices 150,151: 1st and 2nd filtration opening and closing balls
160,161: 1st and 2nd discharge orifices 170,171: 1st and 2nd discharge opening and closing rings
180: Foreign matter removal unit

Claims (9)

After directing the water flowing into the housing from the first direction due to water pressure to flow only into the inside of the filter unit and not into the outside of the filter unit, foreign substances are filtered,
Pass through the outside of the filter unit and be discharged in the second direction,
After the water flowing into the housing from the second direction due to water pressure is guided to flow only into the inside of the filter unit and not into the outside of the filter unit, foreign substances are filtered,
A two-way strainer, characterized in that it passes through the outside of the filtering unit and is discharged in a first direction.
A housing that is hollow on the inside and has a first outlet formed through one side and a second outlet inlet formed through it on the other side;
a filtering unit that is inserted and coupled to be spaced apart from the inner wall of the housing to filter foreign substances;
a flow space formed between the inner wall of the housing and the outer side of the filtering unit;
a first filtration orifice formed to communicate with the filtration unit at the first outlet inlet side and a first filtration opening/closing ball to open and close the first filtration orifice;
a second filtration orifice formed to communicate with the filtration unit at the second outlet inlet side and a second filtration opening/closing ball to open and close the second filtration orifice;
A first discharge orifice and a first discharge opening/closing ring formed to communicate with the flow space at the first discharge inlet side; and
A two-way strainer comprising a second discharge orifice and a second discharge opening/closing ring formed to communicate with the flow space at the second discharge inlet side.
According to clause 2,
The first filtration orifice is tapered so that the width gradually becomes narrower from the second outlet side to the first outlet inlet side,
A two-way strainer, wherein the second filtration orifice is tapered so that its width gradually becomes narrower from the first outlet side to the second outlet side.
According to clause 2,
A two-way strainer, wherein the first discharge orifice and the second discharge orifice are tapered so that the width gradually becomes narrower toward the flow space.
According to clause 2,
A two-way strainer, wherein the filter part is formed so that the width of the central part is wider than that of both ends, so that foreign matter filtered by the filter part is formed to collect toward the central part of the filter part.
According to claim 2 or 5,
A two-way strainer further comprising a foreign matter removal unit for removing foreign matter attached to the inner wall of the filtration unit.
According to clause 6,
The foreign matter removal unit,
A rotating body rotatably inserted and coupled to the inside of the filtering unit,
A two-way strainer comprising a brush part coupled to the end of the rotating body so as to contact the inner wall of the filtering part.
According to claim 2 or 5,
A two-way strainer, characterized in that one side of the filtering unit is further provided with a foreign matter outlet to penetrate the housing.
According to clause 2,
A two-way strainer, characterized in that a connection socket is further coupled to the first outlet and the second outlet of the housing to connect a pipe having an inner diameter different from that of the housing.