KR101581249B1 - Bucket Type Strainer - Google Patents

Abstract

The present invention provides a bucket type-strainer installed when a pipe is arranged to transfer a liquid and comprising: a housing, a cover, a filter, an upper locking rib, and a lower locking rib. Furthermore, the bucket type-strainer comprises: a housing inflow opening, a treatment room, and an outflow opening. The cover is detachably coupled to the housing to open and close an opening/closing hole of the housing. The filter is separately inserted into the treatment room through the opening/closing hole and comprises: a fence, a bottom surface, an entering opening, an upper flange, and a lower flange. The fence has a plurality of filtering openings and forms a filtering room through division. The bottom surface is included in the lower side of the filtering room. The entering opening is included in one side of the fence. The upper flange protrudes from the outside of the fence. The lower flange protrudes from the fence to be positioned lower than the upper flange. The upper locking rib has an upper locking part included in an inner surface of the housing to be positioned vertically to a direction that the filter is inserted to support the upper flange of the filter. The lower locking rib has a lower locking part included in the inner surface of the housing to be lower than the upper locking part and is positioned vertically to the direction that the filter is inserted to support the lower flange of the filter.

Description

A bucket type strainer (Bucket Type Strainer)

The present invention relates to a bucket type strainer, and more particularly to a bucket type strainer provided in various fluid transfer pipes for filtering foreign substances contained in a fluid contained in a fluid.

Generally, a pipe composed of a pipe is used for transferring various fluids such as water, oil, gas and steam. Various piping components are installed in the piping such as a pump for forcibly transferring the fluid, a valve for opening / closing the passage in the pipe, a valve for controlling the flow rate, and a meter for measuring the flow rate of the fluid.

Inside the piping, there are foreign substances such as dirt contained in the fluid, rust generated in the piping, and slag generated when the piping is welded to each other. Such foreign matter damages piping components such as pumps, valves, meters, etc., thereby shortening the service life. In addition, it can accumulate on the inner wall of the pipe to reduce the flow rate in the pipe, or to close the pipe when severe.

For this reason, a strainer is installed in the piping to filter foreign substances in the piping moving along the fluid, and to regularly remove the filtered foreign substances to keep the piping clean. The strainer filters the scale, foreign matter, and other impurities in the fluid flowing along the pipe to discharge only the purified fluid. In the housing of the strainer, a replaceable filter net is installed. If foreign matter accumulates in the filter net over a certain amount, it must be removed from the housing to remove foreign matter. Normally, the strainer is appropriately selected and used for a bucket type and a Y type in accordance with the type of fluid flowing in the piping, the characteristics of piping facilities, the installation place, the flow rate conditions, and the like. In particular, a bucket type strainer is generally used for medium- and large-sized pipelines.

1 is a sectional view showing a conventional bucket type strainer.

1, the conventional bucket type strainer 10 has an inlet pipe 12 and an outlet pipe 13 integrally formed horizontally on the left and right sides of an upright cylindrical housing 11 whose lower end is closed, 11), a disc-shaped cover 14 is fastened with a plurality of bolts 15 at the top. In the interior of the housing 11, a filter net 16 for filtering the foreign substances in the fluid introduced from the inflow pipe 12 and flowing the filtered fluid to the outflow pipe 13 is provided.

However, in the conventional bucket type strainer 10, since the filter net 16 is caught by the inclined latching portion 17 inside the housing 11, the filter net 16 is biased downward due to its own weight at the time of assembling, There is a problem that it is difficult to accurately align the center of the filter net 16 with the inside of the housing 11 and the assembling time is long. If the filter net 16 is not installed so as to be centered on the inside of the housing 11, it may be shaken by the flow of the fluid, which may lead to breakage of the product. The bucket type strainer 10 of the related art has a high risk of breakage at the exit of the filter net 16 due to the flow velocity and differential pressure. When foreign matter adheres immediately to the outlet of the filter net 16, ) Is likely to be damaged.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a bucket type strainer in which a filter net is easily assembled and the risk of breakage of a filter net during use is reduced.

To achieve the above object, a bucket type strainer according to the present invention is installed in a pipe for transferring a fluid, and includes a housing, a cover, a filter net, an upper latching rib and a lower latching rib. The housing has an inlet for introducing fluid flowing along the pipe, a treatment chamber through which the fluid flows through the inlet, an outlet through which the fluid passing through the treatment chamber is discharged, and an opening and closing port connected to the treatment chamber. The cover is detachably coupled to the housing so as to open and close a door of the housing. The filtration net is provided with a plurality of filtration holes which are detachably inserted into the processing chamber through the opening and closing port so as to filter foreign substances in the fluid flowing into the processing chamber of the housing and through which the fluid can pass, A bottom surface provided on the lower side of the filter chamber so as to support foreign matters filtered by the fence in the filtration chamber; and a flow path for introducing the fluid introduced into the process chamber into the filtration chamber An upper flange protruding outwardly from the fence, and a lower flange protruding downward from the upper flange of the fence. The upper latching rib has an upper latching part provided on the inner surface of the housing perpendicularly to the inserting direction of the filter net so as to hold the upper flange of the filter net when the filter net is inserted into the treatment chamber. The lower latching rib is provided on the inner surface of the housing perpendicularly to the inserting direction of the filter net so as to hold the lower flange of the filter net when the filter net is inserted into the treatment chamber, .

The bucket type strainer according to the present invention stably supports the inner side of the housing by the upper and lower latching ribs provided on the inner surface of the housing in a stepped manner perpendicular to the insertion direction of the filter net when the filter net is inserted into the housing. Therefore, it is easy to assemble the filter net in the center of the housing.

1 is a sectional view showing a conventional bucket type strainer.
2 is a sectional view showing a bucket type strainer according to an embodiment of the present invention.
3 is a sectional view showing a part of a housing of a bucket type strainer according to an embodiment of the present invention.
4 is a plan view showing a housing of a bucket type strainer according to an embodiment of the present invention.
5 is a cross-sectional view showing a filtration filter of a bucket type strainer according to an embodiment of the present invention.
6 is a plan view showing a filtering filter of a bucket type strainer according to an embodiment of the present invention.

Hereinafter, a bucket type strainer according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a cross-sectional view showing a bucket type strainer according to an embodiment of the present invention, FIG. 3 is a sectional view showing a part of a housing of a bucket type strainer according to an embodiment of the present invention, FIG. 5 is a cross-sectional view showing a filtration filter of a bucket type strainer according to an embodiment of the present invention, and FIG. 6 is a cross-sectional view of a bucket type strainer according to an embodiment of the present invention, Fig.

As shown in FIGS. 2 to 6, the bucket type strainer 100 according to the embodiment of the present invention is installed in a pipe for filtering foreign matter in the pipe for transporting the fluid, and includes a housing 110 And a filtering net 130 detachably coupled to the housing 110.

2 to 4, the housing 110 is formed in the shape of a hollow hollow tube with its lower end clogged. The housing 110 has an inlet 111 for the inflow of fluid flowing along the piping, a processing chamber 112 through which the fluid flows through the inlet 111, an outlet through which the fluid passing through the processing chamber 112 is discharged 113 and an opening / closing port 114 connected to the process chamber 112. The inlet port 111 and the outlet port 113 are provided on the fence of the housing 110 and the opening and closing port 114 is provided on the upper end of the housing 110.

The opening / closing port 114 of the housing 110 is opened / closed by a cover 115 detachably coupled to the upper end of the housing 110. The cover 115 is fixed to the housing 110 by a fixing mechanism 116. As the fixing mechanism 116, a bolt-nut structure as shown, or various other structures other than that shown may be used. A sealing member may be interposed between the housing 110 and the cover 115 to prevent leakage of the fluid.

An inlet pipe 117 and an outlet pipe 118 are coupled to the outer surface of the housing 110. The inlet pipe 117 is connected to another pipe in the pipe to guide the fluid flowing along the pipe to the inlet 111 of the housing 110. The outlet pipe 118 is connected to another pipe in the pipe to guide the fluid exiting the housing 110 through the outlet 113.

An upper latching rib 120 and a lower latching rib 124 for supporting the filter net 130 are provided on the inner surface of the housing 110 so as to be stepped up and down. That is, when the filter net 130 is inserted into the process chamber 112 of the housing 110, the filter net 130 is held in a horizontal posture by the upper latching rib 120 and the lower latching rib 124, And can be stably mounted in the process chamber 112 so as to be aligned with the process chamber 112.

The upper latching rib 120 is formed in an arc shape and is provided on the inner surface of the housing 110 so as to protrude perpendicularly to the inserting direction of the screening net 130. The upper engagement rib 120 includes an upper support portion 121 disposed on the inner surface side of the housing 110 and an upper engagement portion 122 positioned on the inner side of the upper support portion 121. The upper support part 122 of the upper engagement rib 120 substantially supports the filter net 130 and the upper support part 121 is a part of the filter support 130 which is supported on the upper engagement part 122, (121).

The lower latching ribs 124 are formed in an arc shape and protrude from the inner surface of the housing 110 perpendicularly to the inserting direction of the filtering net 130. The lower engagement rib 124 includes a lower support portion 125 disposed on the inner surface side of the housing 110 and a lower engagement portion 126 positioned on the inner side of the lower support portion 125. The lower supporting part 125 of the lower supporting part 124 is a part that substantially supports the filtering net 130 and the lower supporting part 125 is a part of the lower supporting part 126 which is supported by the lower supporting part 126, Lt; RTI ID = 0.0 > 125 < / RTI >

4, when the housing 110 is viewed from the inserting direction of the filter net 130, the upper engagement rib 120 and the lower engagement rib 124 are not overlapped with each other, And are arranged to form two arcs. Of course, the structures of the upper latching rib 120 and the lower latching rib 124, respectively, and their respective arrangement structures can be variously changed.

3 and 4, in addition to the upper latching rib 120 and the lower latching rib 124, a pair of shielding ribs 128 are provided on the inner surface of the housing 110 so as to face each other. The pair of shielding ribs 128 extend in the vertical direction to connect both ends of the upper engagement rib 120 and both ends of the lower engagement rib 124. The pair of shielding ribs 128 are disposed on both sides of the filter net 130 in a state where the filter net 130 is installed on the housing 110 so that the fluid flowing into the process chamber 112 of the housing 110 passes through the housing 110, And the outer surface of the filter net 130.

The fluid flowing into the processing chamber 112 of the housing 110 flows into the inlet 136 of the filter net 130 without flowing outside the filter net 130 and flows into the housing 110 through the filter net 130, To the outlet (113) of the outlet. The shielding rib 128 is disposed on both sides of the filter net 130 so that the fluid flowing into the process chamber 112 of the housing 110 is sucked into the inner surface of the housing 110 and the outer surface of the filter net 130 It can be changed to various other structures that prevent it from going out.

2, 5, and 6, the filter net 130 is connected to the processing chamber 112 through the opening / closing port 114 of the housing 110 to filter foreign substances in the fluid flowing into the processing chamber 112 of the housing 110. [ ). The filter net 130 includes a fence 132 defining a filter chamber 131 through which a fluid flows, a bottom surface 135 provided at a lower end of the fence 132, An upper flange 137 and a lower flange 138 protruding outward from the fence 132. The upper flange 137 and the lower flange 138 protrude outwardly from the fence 132. [

The bottom surface 135 is formed in a disk shape to support a foreign matter filtered by the fence 132 in the filter chamber 131 inside the fence 132. The fence 132 is formed in a cylindrical shape extending upward from the bottom surface 135 to surround the periphery of the bottom surface 135 and having a predetermined upper portion cut off. More specifically, the fence 132 has a lower cylindrical portion 133 and an upper semi-cylindrical portion 134.

An inlet 136 for introducing the fluid into the filter chamber 131 is provided on the flat surface of the semicircular tube portion 134. The inlet 136 of the filter net 130 faces the inlet 111 of the housing 110 when the filter net 130 is mounted inside the housing 110. [ The fence 132 is formed with a plurality of filtration holes for filtering the foreign matter contained in the fluid. The fluid introduced into the filtration chamber 131 through the inlet 136 is discharged to the outside of the filter net 130 through the filtration holes of the fence 132 and is separated from the filtration holes of the fins 132 contained in the fluid. Is filtered by the fence 132 and accumulated on the bottom surface 135.

An upper flange 137 is provided at an upper end of the semi-cylindrical portion 134 of the filter net 130. The upper flange 137 has an arc shape corresponding to the upper engagement portion 122 of the upper engagement rib 120 and protrudes outwardly of the semicircular cylindrical portion 134 perpendicularly to the inserting direction of the filter net 130 . A lower flange 138 is provided at the upper end of the cylindrical portion 133 of the filter net 130. The lower flange 138 is connected to the lower end of the semi- The lower flange 138 has an arcuate shape corresponding to the lower engaging portion 126 of the lower engaging rib 124 and protrudes outwardly of the cylindrical portion 133 perpendicularly to the inserting direction of the filtering net 130 .

When the filter net 130 is mounted on the processing chamber 112 of the housing 110, the upper flange 137 is formed so that a portion protruding from the semicircular cylindrical portion 134 is engaged with the upper surface of the upper engaging portion 122 of the upper engaging rib 120 The portion of the lower flange 138 protruding from the cylindrical portion 133 is abutted against the upper surface of the lower engaging portion 126 of the lower engaging rib 124 so that the lower engaging portion 126 ).

At this time, the upper support portion 121 of the upper engagement rib 120 contacts the outer edge of the upper flange 137, thereby supporting the upper flange 137 on the upper engagement portion 122 in a non-movable manner. The lower supporting portion 125 of the lower engaging rib 124 contacts the outer edge of the lower flange 138 to support the lower flange 138 on the lower engaging portion 126 so as not to move.

The filter net 130 can be stably held by the upper latching rib 120 and the lower latching rib 124 so that the center of the filter net 130 can be attached to the processing chamber 112 so as to be aligned with the center of the housing 110.

A fluid guide 140 is provided on the semi-cylindrical portion 134 of the filter net 130 so as to cross the inlet 136 in the left-right direction.

The fluid guide 140 protrudes outward of the inlet 136 toward the inlet 111 of the housing 110 to guide the fluid passing through the inlet 136 into the filter chamber 131 while flowing.

The fluid guide 140 includes a first ramp 141 disposed at an inlet 136 of the housing 110 and an inclined downward slope toward the inlet 111 of the housing 110, As shown in Fig. The fluid guide 140 is formed in an angle shape protruding forward of the inlet 136 by connecting the end of the first inclined portion 141 and the end of the second inclined portion 142 at the front of the inlet 136.

The first inclined portion 141 guides the fluid horizontally flowing toward the inlet 136 to be introduced into the filter chamber 131 obliquely upward and rearward. The second inclined portion 142 guides the fluid horizontally flowing toward the inlet 136 to be introduced into the filter chamber 131 obliquely toward the rear lower side.

The fluid that horizontally flows from the inlet port 111 of the housing 110 toward the inlet port 136 of the filter net 130 spreads obliquely upward and downward while passing through the inlet 136, And flows into the fruit (131). Therefore, the pressure of the fluid applied to the fence 132 can be dispersed so as not to be concentrated at the portion facing the inlet 136, and the risk of breakage of the fence 132 due to the pressure of the fluid can be reduced.

A push bar 144 protrudes upward from an upper end of the semi-cylindrical portion 134 of the filter net 130. The push bar 144 is in contact with the lower surface of the cover 115 when the cover 115 is coupled to the housing 110 in a state where the filter net 130 is mounted on the processing chamber 112 of the housing 110, ) In the downward direction.

The upper flange 137 of the filter net 130 stably contacts the upper engagement rib 120 of the housing 110 by the action of the push bar 144 and the lower flange 138 of the filter net 130 is connected to the housing 110 to the lower engaging ribs 124 of the lower side.

Therefore, even if the pressure of the fluid flowing into the processing chamber of the housing 110 is received, the filter net 130 is stably fixed to the upper engagement ribs 120 and the lower engagement ribs 124 in a state where the center thereof is aligned with the center of the housing 110 It can be maintained in a supported state.

As described above, the bucket type strainer 100 according to the embodiment of the present invention is configured such that when the filtering net 130 is inserted into the housing 110, the bucket type strainer 100 is inserted into the inner surface of the housing 110 in the inserting direction of the filtering net 130 The upper latching rib 120 and the lower latching rib 124, which are provided so as to be stepped vertically with respect to each other. Therefore, it is easy to assemble the filter net 130 by aligning the center of the filter net 130 inside the housing 110.

In the bucket type strainer 100 according to an embodiment of the present invention, the fluid guide 140 disposed in front of the inlet 136 of the filter net 130 spreads fluid passing through the inlet 136 obliquely, The pressure of the fluid applied to the fence 132 of the filter net 130 can be dispersed so as not to concentrate on a specific portion. Therefore, the risk of breakage of the fence 132 due to the pressure of the fluid is small.

In the present invention, the structures of the housing 110 and the filter net 130 constituting the bucket type strainer 100 are not limited to those shown in the drawings.

For example, although the housing 110 and the filtering net 130 are illustrated as having a cylindrical shape, the housing or the filtering net may have various other shapes than the cylindrical shape.

The filter network 130 also has a cylindrical portion 133 and a semicircular cylindrical portion 134 thereon. The filter net 130 has its inlet 136 facing the inlet 111 of the housing 110, 110, the specific structure of the filter net or the mounting structure in the housing can be variously changed.

Although the fluid guide 140 is illustrated as being disposed to cross the inlet 136 of the filtering net 130 in the drawing, the fluid guide 140 may be formed by vertically moving the inlet 136 of the filtering net 130, Or may be installed so as to cross in an oblique direction. The fluid guide 140 may have various angled configurations including a first angled portion 141 and a second angled portion 142 that are planar and may include various other angled configurations that can guide the fluid passing through the inlet 136 to flow and spread. Structure can be taken.

100: bucket type strainer 110: housing
111: inlet 112: processing chamber
113: outlet 114:
115: Cover 116: Fixture
117: inlet pipe 118: outlet pipe
120: upper latching rib 121: upper support
122: upper latching part 124: lower latching rib
125: lower side support part 126: lower side engaging part
128: shielding rib 130:
131: fruit room 132: fence
133: Cylinder part 134: Semicircular cylinder
135: bottom surface 136: entrance
137: upper flange 138: lower flange
140: fluid guide 141, 142: first and second inclined portions
144: Push bar

Claims (7)

A bucket type strainer installed in a piping for transferring fluids,
A treatment chamber 112 through which the fluid flows through the inlet 111 and an outlet 113 through which the fluid passing through the treatment chamber 112 is discharged. A housing 110 having an opening 114 connected to the processing chamber 112;
A plurality of filtration holes (110) detachably inserted into the processing chamber (112) through the opening and closing port (114) so as to filter foreign substances in the fluid flowing into the processing chamber (112) of the housing (110) A fence 132 having a lower cylindrical portion 133 and an upper semicircular cylindrical portion 134 defining a filter chamber 131 through which the fluid flowing into the process chamber 112 flows, A bottom surface 135 provided below the filter chamber 131 to support a foreign substance filtered by the fence 132 in the filtration chamber 131 and a bottom surface 135 provided below the filtration chamber 131 An inlet 136 provided on the flat surface of the semicircular cylindrical portion 134 of the fence 132 for introducing the fence 132 into the fence 132, an upper flange 137 protruding outwardly from the fence 132, And a lower flange 138 projecting downward from the upper flange 137 of the lower flange 137 Filtering net 130;
When the filter 110 is inserted into the processing chamber 112, the housing 110 is vertically disposed with respect to the insertion direction of the filter 130 so that the upper flange 137 of the filter 130 can be horizontally supported. An upper engagement rib 120 having an upper engagement portion 122 provided on an inner surface of the upper engagement rib 120; And
The housing 110 may be vertically disposed with respect to the insertion direction of the filtering net 130 so that the lower flange 138 of the filtering net 130 may be horizontally supported when the filtering net 130 is inserted into the processing chamber 112. [ And a lower latching rib 124 having a lower latching part 126 provided on the inner surface of the lower latching part 122 below the upper latching part 122,
Is formed in the semicircular tube portion (134) of the filter net (130) so as to protrude outside the inlet (136) while crossing the inlet (136), and the fluid passing through the inlet (136) A first inclined portion 141 for guiding a fluid flowing toward the inlet 136 to be introduced into the filtration chamber 131 so that the fluid passing through the inlet 136 flows into the filtration chamber 131 at an angle, And a second slope part (142) connected to the first slope part (141) in front of the inlet (136) to guide a fluid flowing toward the first slope part Bucket type strainer.
delete The method according to claim 1,
Wherein the fluid guide (140) crosses the inlet (136) in the left and right direction.
The method according to claim 1,
Further comprising a cover (115) detachably coupled to the housing (110) so as to open and close a door (114) of the housing (110)
And is protruded upward from the upper end of the filter net 130 so as to be in contact with the lower surface of the cover 115 and press the filter net 130 toward the upper latching rib 120 and the lower latching rib 124, Further comprising a push bar (144).
The method according to claim 1,
The upper latching rib 120 supports the upper flange 137 in contact with the outer edge of the upper flange 137 to prevent the upper flange 137 of the filter net 130 from moving on the upper latching part 122. [ And an upper supporting portion 121 for supporting the upper supporting portion 121,
The lower latching rib 124 contacts the outer edge of the lower flange 138 to prevent the lower flange 138 of the filter net 130 from moving on the lower latching portion 126, And a lower support portion (125) which is provided at the lower end of the bucket.
6. The method of claim 5,
The upper flange 137 of the filter net 130 is formed in an arc shape and the upper engagement portion 122 and the upper support portion 121 of the upper engagement rib 120 are formed in an arc shape corresponding to the upper flange 137 Lt; / RTI >
The lower flange 138 of the filtering net 130 has an arc shape and the lower engaging portion 126 and the lower supporting portion 125 of the lower engaging rib 124 are formed into a circular arc shape corresponding to the lower flange 138 And a bucket-type strainer.
The method according to claim 1,
In order to prevent the fluid flowing into the processing chamber 112 of the housing 110 from escaping between the inner surface of the housing 110 and the outer surface of the filter net 130, Further comprising a pair of shielding ribs (128) disposed on the inner surface of the housing (110) so as to connect the both ends of the latching rib (124) with each other in the vertical direction.

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