KR102022187B1 - Strainer device - Google Patents

Abstract

The present invention relates to a strainer device which greatly enhances the filtration efficiency and has a configuration of convenient cleaning of a filtering net and easy separation of foreign matter to have easy maintenance and repair. The present invention relates to a strainer device which comprises: an inlet pipe having a side guide piece for introducing a fluid into an upper sidewall surface of an inlet chamber; an inlet chamber formed in a cylindrical shape and having a spiral turning guide protrusion on an inner wall thereof; a filtering unit provided with a filtering net at a lower end of a vertical pipe installed in the center of the inlet chamber; a solid discharge port formed under the inlet chamber and provided with a discharge valve; and a discharge pipe formed laterally from the upper side of the vertical pipe to allow the fluid to be discharged.

Description

Strainer unit {STRAINER DEVICE}

The present invention relates to a strainer device, and more particularly, to a strainer device that is easy to maintain and repair with a configuration that greatly increases the filtration efficiency, the cleaning of the filtering network is simple, and the separation and separation of foreign matter.

Generally, a strainer device corresponds to a filter equipped with a filter net, and a strainer device including a filter net having a predetermined pore is used to remove particulate matter from the influent in a water treatment or wastewater treatment process. These strainer devices require periodic cleaning to remove debris.

That is, one embodiment of the strainer device will be described as follows. Each device is connected to a pipe through which a fluid such as condensate flows to filter foreign matter such as sand, scale, rust, and metal waste inside the cylindrical metal mesh inside the strainer device. It prevents invasion into the building, and foreign matter is accumulated inside the strainer device. Maintenance such as cleaning is performed by separating the filter network from the pipe and removing foreign matter accumulated in the strainer, which is very cumbersome.

In addition, in the general strainer device, solids such as metal waste or sand are filtered so that they directly hit the filtering net, and thus, the filtering efficiency and durability of the filtering net are inferior, such as clogging or damaging the filtering net when such solids hit the filtering net. There has been a need for a strainer device in which a solid having such a problem can be filtered without directly hitting the filter network.

KR No. 10-0725597 KR 10-1290985 KR 10-1573682 (Patent Publication 0004) KR 10-2016-0024602

In the strainer device of the present invention, the side guide piece is formed in the inlet pipe through which the fluid is introduced into the inlet chamber, and the fluid is pivoted along the inner wall surface of the inlet chamber without directly contacting the filtration unit consisting of a filtering network and a vertical tube in the center of the inlet chamber. The solids, such as metal waste, are dropped to the solids collecting part of the lower part by centrifugal force so that the separated discharges are performed through the solids discharge valve. Is in.

The present invention is an inlet tube formed with a side guide piece for allowing fluid to flow into the upper side wall surface of the inlet chamber, an inlet chamber formed in a cylindrical shape and having a spiral turning guide protrusion on the inner wall surface, and is installed in the center of the inlet chamber The filter unit is provided with a filtering net at the lower end of the vertical pipe, the solid discharge port formed in the lower portion of the inlet chamber, the discharge valve is installed, and the discharge pipe is formed laterally from the upper side of the vertical pipe to discharge the fluid It features a strainer device.

The inlet chamber may be separated vertically in the longitudinal direction of the cylindrical, characterized in that the coupling end is provided with a fastening means is formed.

The inside of the filtering network is characterized in that the first and second filtering is performed by installing a filter having a smaller mesh size than the filtering network.

The solids collecting guide plate having a plurality of through-holes is inclined at the upper side of the solids discharge port to prevent the solids falling into the solids discharge part from rising upward.

The inner upper side of the vertical tube is formed with a locking step is characterized in that the steam trap member can be installed.

The inlet pipe and the discharge pipe is arranged on the horizontal line and the pressure gauge is disposed on the pipe line, characterized in that to check the pressure deviation of the inlet pipe and the discharge pipe.

In the strainer device of the present invention, the solid matter such as metal waste contained in the fluid by the centrifugal force is generated by the centrifugal force generated in the process of the fluid is rotated along the spiral turning guide protrusion formed on the inner wall surface of the inlet chamber and the inner wall surface of the inlet chamber by the centrifugal force Separation falls directly down to be separated, and the contact with the central filtration unit can be minimized, which greatly increases the filtration efficiency of the fluid.

In addition, in the case of a long-term use of the strainer device according to the present invention, if the filtration function, such as clogging of the filter network is deteriorated by the foreign matter, which is caused by the pressure difference by the pressure gauge provided in each of the inlet and outlet pipes, such a pressure deviation occurs There is a filtration function through the cleaning and replacement of the filter net can be performed smoothly.

1 is a cross-sectional view showing the configuration of a strainer device according to the present invention.
Figure 2 is an exemplary cross-sectional view showing that the coupling end for separating the inlet chamber up and down in the strainer device according to the present invention.
Figure 3 is a cross-sectional view showing that the steam trap member is installed inside the vertical tube in the strainer device according to the present invention.
Figure 4 is a cross-sectional view showing a process in which the steam trap member is installed inside the vertical tube in the strainer device according to the present invention.
Figure 5 is an enlarged cross-sectional view of the vertical pipe portion is installed steam trap member in the strainer device according to the present invention.
6 is a cross-sectional view showing still another embodiment of the strainer device of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In the strainer device of the present invention, the side guide piece 16 is formed at the inner end of the inlet pipe 10 so that the fluid flowing into the inlet chamber 20 from the inlet pipe 10 is the upper sidewall surface of the inlet chamber 20. To be introduced into
The inflow chamber 20 is as shown in Figure 1,
The cylindrical body is connected to the lower portion of the straight horizontal tube having a 'T' shaped cross-sectional structure, the spiral guide guide portion 22 is formed on the inner wall surface of the cylindrical body, the fluid flowing into the inlet chamber 20 is the pivot guide protrusion It is designed to be able to turn along (22).

In addition, in the center of the inflow chamber 20, a vertical pipe 32 is formed in which one side wall is integrally connected downward from the upper end surface of the horizontal pipe.
The other side wall of the vertical pipe 32 is connected to the lower surface of the horizontal pipe has a structure in which the vertical pipe 32 and the horizontal pipe penetrates vertically,
The upper side of the vertical pipe 32 is connected to the discharge pipe 50 formed in the lateral direction of the fluid overflows from the lower portion of the vertical pipe 32 to the upper side through the inlet chamber 20 so that the fluid can be discharged, The lower end of the vertical tube 32 is provided with a filtering net (34).

A solid discharge port 40 having a discharge valve 42 is formed in the lower direction of the inflow chamber 20 to collect solids falling into the lower portion of the inflow chamber 20 and to separate and discharge the collected solids. have.

One end of the inlet pipe 10 is connected to the fluid supply line (not shown) by screwing, the other end is connected through the upper side of the inlet chamber 20, the fluid is introduced into the inlet chamber 20 It is supposed to be.

And the side guide piece 16 is formed at the boundary between the inlet pipe 10 and the inlet chamber 20, the side guide piece 16 is the fluid flowing through the inlet pipe 10 is the inlet chamber 20 The fluid flowing into the upper wall of the inflow chamber 20 from the inflow pipe 10 is formed to be introduced at an upward inclination angle of about 45 degrees and the inner wall surface of the inflow chamber 20 is rotated along the upper inner wall surface of the inflow chamber 20. It is supposed to be.

The fluid flowing in the inlet pipe 10 is rotated downward along the inner wall surface from the upper side of the inlet chamber 20 while the solid matter such as metal waste contained in the fluid is the inner wall surface of the inlet chamber 20 by centrifugal force. And the fluid is brought into contact with the filtration unit 30 provided with a filtration net 34 at the lower end of the vertical pipe 32 installed at the center of the inflow chamber 20 while being dropped downwardly while being hit by the water. To minimize this.

The fluid flowing into the inlet chamber 20 through the inlet pipe 10 is provided in a cylindrical shape that can be turned in the upper space of the inlet chamber 20 to the lower space and can be pivoted on the inner wall of the cylinder, A spiral turning guide protrusion 22 is provided on the inner wall surface of the cylindrical inlet chamber 20 so that the fluid can improve the vortex action of turning along the turning guide protrusion 22 of the inlet chamber 20. .

And the inlet chamber 20 can be separated vertically in the longitudinal direction and the coupling end portion 24 is provided with a fastening means 26 such as bolts are formed to separate the inlet chamber 20 up and down inside the inlet chamber 20 It is possible to easily clean the filter or replace the filter net 34.

The filter net 34 is screwed to the lower end of the vertical pipe 32 constituting the filtration unit 30, and the filter filtration 36 made of a fine nonwoven fabric or the like is installed inside the filter net 34, which is preferably The primary filtering by the filtering net 34 and then the secondary filtering by the filtering filter 36, which is provided with a non-woven fabric having a smaller mesh size than the filtering net 34, to increase the filtration efficiency of the foreign matter. Make sure

In addition, the vertical pipe 32 is the fluid flowing through the lower filter net 34 is discharged in the form of overflow to the upper side to be discharged to the discharge pipe 50 is formed on the side, but the vertical pipe 32 up and down The length may be formed long as shown in FIGS. 1 to 5, or may be variously provided in a short length as shown in FIG. 6.

And, as shown in Figure 3,
A locking step 33 is formed in the upper portion of the inner wall where the other side wall of the vertical pipe 32 meets the lower surface of the horizontal pipe 32 to insert and insert a steam trap member 38 having an orifice outlet hole 39 from below. In order to be able to be used as a steam trap function so that the steam trap member 38 installed inside the vertical tube 32 is a multi-stage steam trap member 38 is arranged in multiple stages as shown in FIG. The trap member 38 may be disposed.

The solid discharge port 40 is formed in a portion forming a downward slope to the center of the bottom surface of the inlet chamber 20 is to be opened and closed by the discharge valve 42, a plurality of the upper portion of the solid discharge port 40 The solids collection guide plate 44 having the through-hole 46 is installed to be inclined so that the solids fall through the tip of the collection guides 44, and the solids dropped by the collection guides 44 are not injured upwards. It is preferable to ensure that the next discharge is collected stably at the solid discharge port (40).

And in the present invention, as shown in Figures 1, 2, 3,
The inlet tube 10 and the outlet tube 50 of the strainer device are arranged on the horizontal line, and the straight horizontal tube is connected to both ends of the inlet chamber 20 formed on the upper portion of the inlet tube 10 and the outlet tube 50, respectively. On / off valves 12 and 52 are installed on the pipeline to allow the replacement of the filter net and the like, and a pressure gauge for checking the flow pressure of the fluid through the inlet pipe 10 and the discharge pipe 50 ( 14) and 54 are respectively installed so that clogging of the filtering net of the filtering net due to the pressure deviation can be easily confirmed.

That is, when a pressure deviation occurs in which the fluid flow pressure of the discharge pipe 50 is lower than a predetermined range, compared to the inlet pipe 10 of the strainer device, this mainly causes the filtration network 34 to be clogged by foreign substances, resulting in poor filtration and fluid flow. Because it interferes with the cleaning to clean or replace the filter net 34 to increase the filtration efficiency.

The strainer device of the present invention as described above is the inlet chamber (by the side guide piece 16 formed in the inlet tube 10 in the process of fluid inflow into the inlet chamber 20 through the inlet tube 10 in the fluid supply line ( The fluid flows in the direction of the upper sidewall of 20 and swirls along the spiral turning guide protrusion 22 formed on the inner wall of the inflow chamber 20.

As described above, the fluid flowing into the inflow chamber 20 from the inflow pipe 10 is a metal waste contained in the fluid by centrifugal force generated in the process of turning along the spiral turning guide protrusion 22 of the inflow chamber 20. The solid material of the dropping is directly downward while hitting the inner wall surface of the inlet chamber 20 by the centrifugal force to minimize contact with the central filtration unit 30.

In addition, the solids falling directly below are dropped from the tip of the collecting guide plate 44, and the solids falling from the collecting guide plate 44 can be stably collected by the solid discharge port 40 without being injured, and the solids are periodically By means of the discharge valve 42 it is possible to simplify the separation process of the solids by the means for opening the solids discharge port 40.

As described above, the solids contained in the fluid flowing into the inlet chamber 20 from the inlet pipe 10 are dropped down to be collected by the solid outlet 40, and the filtration net 34 is provided at the bottom of the vertical pipe 32. The portion 30 minimizes solids contact to increase the filtration efficiency, and the fluid passing through the filtering net 34 is discharged to the discharge pipe 50 formed on the side of the vertical pipe 32.

On the other hand, in the case of using the strainer device according to the present invention for a long time the filtration function degradation, such as clogging of the filter net 34 by foreign matter occurs in the inlet pipe 10 and the discharge pipe 50 are respectively installed in the fluid flow The pressure gauge 14 and 54 to check the pressure, the pressure deviation of the discharge pipe pressure is lower than the predetermined range compared to the inlet pipe 10 is generated, and the filter pressure 34 due to the flow pressure deviation of the fluid Degradation of the filtration function can be confirmed.

When the filtering function of the filtering net 34 is reduced, the filtering net 34 performs a normal filtering function by means of separating and cleaning or replacing the filtering net 34.

At this time, when the internal cleaning of the inflow chamber 20 or the replacement, cleaning, or maintenance of the filtering net 34 due to long-term use of the strainer device is necessary, the inflow chamber 20 can be easily separated by the coupling end 24 up and down. It can be replaced and cleaned quickly.

In the above, the present invention has been described with reference to the above embodiment, but various modifications can be made within the technical scope of the present invention.

10: inlet tube 12: on-off valve
14: pressure gauge 16: side guide
20: inflow chamber 22: turning guide protrusion
24: coupling end 26: fastening means
30: filtration unit 32: vertical tube
33: hanging step 34: filtering network
36: filtration filter 38: steam trap member
39: orifice outlet hole 40: solids outlet
42: discharge valve 44: collection guide
46: through hole 50: discharge pipe
52: on-off valve 54: pressure gauge

Claims (6)

An inlet pipe 10 having a side guide piece 16 to allow fluid to flow into the upper sidewall surface of the inlet chamber 20,
An inlet chamber 20 having a cross-sectional structure of a 'T' shape in which a cylindrical body is connected to a lower portion of the horizontal horizontal tube, and having a spiral turning guide protrusion 22 formed on an inner wall of the cylindrical body;
A filter unit 30 having a vertical pipe 32 installed at the center of the inflow chamber 20 and having a filtering net 34 at a lower end of the vertical pipe 32;
A solid discharge port 40 formed at a lower portion of the inflow chamber 20 and provided with a discharge valve 42;
Is formed of a discharge pipe 50 is formed in the lateral direction from the upper side of the vertical pipe 32 to discharge the fluid,
The vertical tube 32,
One side wall is formed integrally connected downward from the top surface of the horizontal pipe, the other side wall is connected to the bottom surface of the horizontal pipe so that between the vertical pipe 32 and the horizontal pipe vertically penetrate the inlet chamber A fluid overflowing from the lower portion of the vertical tube 32 to the upper side through the 20 is connected to the discharge pipe 50 formed in the lateral direction so that the fluid can be discharged.
The inflow chamber 20 is formed so that the coupling end portion 24 is provided with a fastening means 26 can be separated vertically in the longitudinal direction,
A locking step 33 is formed in the upper portion of the inner wall where the other side wall of the vertical pipe 32 meets the lower surface of the horizontal pipe 32 to insert a steam trap member 38 having an orifice outlet hole 39 from below. To install it,
The inflow pipe 10 and the discharge pipe 50 are disposed on the horizontal line, and the straight horizontal pipe is connected to both ends of the inflow chamber 20 formed on the upper portion, and the pressure gauges 14 and 64 are disposed on the pipeline, respectively. It is characterized in that the opening and closing valves 12 and 52 are installed so that the pressure deviation between the inlet pipe 10 and the discharge pipe 50 can be checked, and the fluid flow can be blocked to replace the filter network. Strainer device.
delete The method of claim 1,
Strainer device, characterized in that the first and second filtering is performed by the filtration filter 36 having a smaller mesh size than the filtration net 34 is installed inside the filtration net (34).
The method of claim 1,
Strainer device, characterized in that the solids collecting guide plate 44 having a plurality of holes 46 in the upper side of the solids outlet 40 is inclined so that the solids falling to the solids outlet does not rise to the upper side.



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