KR101880203B1 - Strainer for Chemicals fluid piping - Google Patents

Abstract

The present invention relates to a strainer for chemical fluid piping, and more particularly, to a strainer for chemical fluid piping, which is installed in a piping through which a chemical flows in a chemical production process, and removes foreign matter, fine iron powder, Thereby preventing malfunctions of various kinds of valves and actuators such as motors installed on the manufacturing process. In addition, when a large amount of fine iron powder adheres to the strainer for a long period of time, It is possible to prevent deterioration of the strainer performance due to fine iron powder adherence, and it is possible to prevent the direct magnetism of the magnet attaching the fine iron powder from being exposed to the chemicals, thereby weakening the magnetism or deterioration of the chemical agent due to direct contact with the magnet And the fine iron powder adhered in a large amount by the use of the strainer for a long time can be easily handled by the user The present invention relates to a strainer for chemical fluid piping,
The strainer for chemical fluid piping according to the present invention is formed in a Y shape in which three piping pipes of a rear inlet 101, a middle outlet 102 and a front outlet 103 are integrally formed, A chemical agent formed from a fluid in a chemical production process is connected to a predetermined position of a pipe through which a raw material flows and filters foreign substances contained in the chemical raw material introduced through the inlet 101 and the protrusion 102, And a plurality of inlet holes (24) having a predetermined radius are formed at the center of one side of the strainer, and an outer side surface of the strainer is connected to the center of the inlet hole (24) A coupling hole 22 is formed at a center of the other side of the coupling hole 22 so as to communicate with the coupling hole 24 and a screen 20 ); And a protrusion coupling hole 11 having a predetermined depth is formed in the center of one side of the protrusion coupling hole 11 so as to insert the protrusion hole 102. The protrusion coupling hole 11 is formed in the inner circumferential surface of the protrusion hole 102 And a predetermined length screen engaging projection 13 is formed at the center of the projecting portion engaging hole 11 so as to be inserted into the engaging hole 22 of the screen 20 The screen coupling protrusion 13 is formed on the outer surface of the screen coupling protrusion 13 so as to be screwed to correspond to a female thread formed on the inner circumferential surface of the coupling hole 22 of the screen 20, And a magnet cover engaging hole 12 having a predetermined depth to communicate with the magnet inserting hole 14 is formed at the center of the other side of the magnet inserting hole 14, (12) is provided with an internal thread Is entered into the body (10); And a magnet 32 protrudes from the rear of the magnet 31. The rear outer circumferential surface of the magnet 31 protrudes from the magnet insertion hole 14, And a magnet cover (30) inserted into the coupling hole (12) and having a male screw threadably engaged with a female screw formed on the inner peripheral surface.

Description

Strainer for Chemicals fluid piping [0001]

The present invention relates to a strainer for chemical fluid piping, and more particularly, to a strainer for chemical fluid piping, which is installed in a piping through which a chemical flows in a chemical production process, and removes foreign matter, fine iron powder, Thereby preventing malfunctions of various kinds of valves and actuators such as motors installed in the manufacturing process,

In addition, when a large amount of fine iron powder adheres to the strainer due to long time use, it informs the user that the strainer performance deterioration due to excessive fine iron powder adherence can be prevented, and the chemical In order not to be directly exposed to chemicals, magnetism is weakened, the chemical change due to direct contact with magnets is prevented, and a large amount of fine iron powder attached by the use of a long time strainer is easily removed and reused by the user To a strainer for chemical fluid piping which is easy to maintain.

Generally, a strainer, which is a filtration device for filtering foreign substances contained in tap water, is installed at any place such as a water supply pipe.

Conventionally, a strainer has an inlet through which a fluid flows, an intermediate protrusion through which a fluid introduced through the inlet passes through the screen and a foreign matter is filtered out, and an outlet through which the screen is discharged, Y 'shape. The strainer thus constructed is provided with a cylindrical screen having a plurality of through holes formed in an intermediate protrusion between the inlet and the outlet so that the fluid introduced into the inlet port passes through the through hole in the cylindrical screen in the intermediate protrusion, And then discharges the foreign matter to the discharge port side so that the fluid filtered by the foreign matter is supplied to the rear of the pipeline so as to prevent the occurrence of a failure due to the adsorption of the foreign matter of the operating device such as a valve, .

However, in the case of such a conventional scraper, fine scum or the like is easy to be removed through a screen, but in the case of fine iron powder or the like which is finer than a through hole of a screen, There has been a problem of causing a catastrophic failure in the apparatus.

However, in the case of a pipe in which a chemical fluid flows, the magnetism of the magnet which adheres the fine iron powder by chemically changing the surface of the magnet often attached to the inside of the strainer There is a problem that the efficiency of attaching iron powder is lowered and there is also a problem that it affects the chemical properties of chemicals directly contacting the magnet surface material while flowing in the strainer, Even if the filtering efficiency of the strainer deteriorates due to the fine iron powder attached to the strainer, it is difficult for the user to easily recognize the strainer from the outside unless the user disassembles the strainer.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and a method for removing foreign matter, fine iron powder, and the like contained in a chemical flowing in a pipe, , It is possible to prevent malfunction of the electronic operation devices such as the motor installed in the manufacturing process and to inform the user when a large amount of fine iron powder adheres to the strainer for a long time, To prevent the degradation of the strainer performance,

In addition, the magnets attaching the fine iron powder are prevented from being directly exposed to the flowing chemicals, so that the magnetism is weakened, or the deterioration of the chemical agent due to the direct contact with the magnet can be prevented, So that the user can easily remove and reuse the fine iron powder.

According to an aspect of the present invention for solving the above-mentioned problems, there is provided a method of manufacturing a three-dimensional pipe having a Y-shaped configuration in which three pipe lines of a rear inlet port 101, a middle protrusion port 102 and a front outlet port 103 are integrally formed And is connected to a predetermined position of a pipe through which a chemical raw material material formed as a fluid flows in the chemical production process to filter foreign substances contained in the chemical raw material introduced through the inlet 101 and the protrusion 102 And then discharged through the outlet (103), characterized in that the strainer

And an inlet hole 24 having a predetermined radius is formed at the center of one side surface of the cylindrical body. The outer side surface of the inlet hole 24 is provided with a plurality of latch holes 21 communicating with the central inlet hole 24, A screen (20) having a coupling hole (22) formed at a predetermined length at the center of the other side and having a female screw on an inner peripheral surface of the coupling hole (22);

And a protrusion coupling hole 11 having a predetermined depth is formed in the center of one side of the protrusion coupling hole 11 so as to insert the protrusion hole 102. The protrusion coupling hole 11 is formed in the inner circumferential surface of the protrusion hole 102 And a predetermined length screen engaging projection 13 is formed at the center of the projecting portion engaging hole 11 so as to be inserted into the engaging hole 22 of the screen 20 The screen coupling protrusion 13 is formed on the outer surface of the screen coupling protrusion 13 so as to be screwed to correspond to a female thread formed on the inner circumferential surface of the coupling hole 22 of the screen 20, And a magnet cover engaging hole 12 having a predetermined depth to communicate with the magnet inserting hole 14 is formed at the center of the other side of the magnet inserting hole 14, (12) is provided with an internal thread Is entered into the body (10); And

A magnet 31 protrudes in a predetermined length so as to be inserted into the magnet insertion hole 14 and a handle 32 protrudes from the rear of the magnet 31. The rear outer circumferential surface of the magnet cover engaging hole And a magnet cover (30) inserted into the inner tube (12) and having a male screw threadably engaged with a female screw formed on an inner circumferential surface of the strainer (1).

In the strainer 1 for chemical fluid piping according to an embodiment of the present invention, a steel bar 23 may be provided at a predetermined length in the center of the internal inflow hole 24 of the screen 20,

Preferably, at one side of the protrusion 102, when the amount of iron adhering to the space between the protrusion hole 11 and the screen-engaging protrusion 13 is greater than a predetermined amount, a predetermined amount of iron An iron deposition amount display unit 150 may be provided,

More preferably, the iron deposition amount display unit 150 includes: a sliding groove 110 having a predetermined length along the longitudinal direction at one side of the protrusion 102; The front end of the elastic spring 140 is coupled to the front end of the sliding groove 110. The front end of the elastic spring 140 is coupled to the front end of the sliding groove 110, And the rear bending side is coupled to the rear end of the guide rod 130 by a predetermined length protruding into the inside of the protrusion 102; And a transparent display window 120 communicating with the sliding groove 110 and moving along the sliding groove 110, the side of the indicating rod 130 being displayed on the outside.

The strainer for chemical fluid piping according to the present invention is installed in a pipe through which a chemical flows in a chemical production process, and removes foreign matter and fine iron powder contained in the chemical flowing in the pipe, When a large amount of fine iron powder adheres to the strainer due to a long period of time, it is necessary to inform the user that the strainer has deteriorated in performance due to excessive fine iron powder adhered to the strainer. Can be prevented in advance,

In addition, it is possible to prevent the magnet attaching the fine iron powder from being directly exposed to the flowing chemicals, thereby preventing the magnetism from being weakened, preventing the deterioration of the chemical agent due to the direct contact with the magnet, The fine iron powder adhered to a large amount by the use can be easily reused after the cleaning by the user, and the maintenance can be made convenient.

1 is an exploded perspective view showing a strainer for a chemical fluid piping according to the present invention;
2 is a sectional view showing a strainer for chemical fluid piping according to the present invention;
FIGS. 3A and 3B are operating states showing the operation of the iron deposition amount indicator in the strainer for chemical fluid piping according to the present invention; FIG. And
4 is a cross-sectional view of a strainer for chemical fluid piping according to the present invention, wherein a bar is provided at the center of the screen;

Hereinafter, embodiments of the present invention in which the above object can be specifically realized will be described with reference to the accompanying drawings. In describing the embodiments, the same names are denoted by the same reference numerals, and further description thereof will be omitted below.

Fig. 1 is an exploded perspective view showing a strainer 1 for a chemical fluid pipe according to the present invention, Fig. 2 is a sectional view showing a strainer 1 for a chemical fluid pipe according to the present invention, Fig. 3a and Fig. 1 is an operating state view showing the operation of the iron deposition amount display unit 150 in the strainer 1 for the chemical fluid piping according to the invention. 4 is a cross-sectional view showing that in the strainer 1 for the chemical fluid piping according to the present invention, the iron rod 23 is provided at the center of the screen 20.

1 and 2, the strainer 1 for a chemical fluid piping according to the present invention is provided with a rear inlet 101, a middle outlet 102, and a front outlet 103, And is connected to a predetermined position of a pipe through which a chemical raw material material formed from a fluid flows during the chemical production process and is introduced into the inlet 101 and the protrusion 102 A strainer (1) for chemical fluid piping for filtering out foreign substances contained in a chemical raw material and discharging the same through an outlet (103), characterized in that the strainer (1) The screen 20 is detachably coupled to the screen 20 and inserted into the protrusion 102 so as to remove the magnet 20 and the magnet 31. The magnet 20 is inserted into the protrusion 102, ) And the magnet (31) And a magnet body 31 provided at a front side of the main body 10 to be inserted into the main body 10 and detachably coupled to the main body 10 of the main body 10, And a magnet cover (30).

As shown in FIGS. 1 and 2, the screen 20 is formed in a cylindrical shape having one side opened, and an inlet hole 24 having a predetermined radius in a longitudinal direction of one opened side is connected to the outside And a plurality of locking holes 21 are formed on the outer circumferential surface to communicate with the central inlet hole 24 so as to filter the suspended substances contained in the fluid introduced through the inlet hole 24, So that the inflow fluid is discharged to the outside through the engagement hole 21 of the valve body 21. A coupling hole 22 is formed in the center of the other side of the screen 20 so as to have a predetermined length and a female screw is provided on the inner peripheral surface of the coupling hole 22, And is screwed to the projection 13. [

As shown in FIGS. 1 and 2, the fastening body 10 is formed in a cylindrical shape, and a protrusion coupling hole 11 having a predetermined depth is formed at the center of one side of the fastening body 10 to insert the protrusion 102 A female screw is formed on an inner circumferential surface of the protrusion hole 11 so as to correspond to a male screw formed on an outer circumferential surface of the protrusion 102 to be inserted and is detachably screwed to serve as a cover for opening and closing the protrusion 102 . A predetermined length of screen protrusion 13 protrudes from the center of the protrusion fitting hole 11 so as to be inserted into the fitting hole 22 of the screen 20, And a screw insertion hole 14 is formed in the screen coupling protrusion 13 so as to correspond to a female thread formed on the inner surface of the coupling hole 22 of the screen 20, Thereby sealing the magnet 31 inserted therein to prevent direct contact with the flowing chemicals.

A magnetic cover coupling hole 12 is formed at a center of the other side of the coupling body 10 to have a predetermined depth to communicate with the magnet insertion hole 14. An inner peripheral surface of the magnet cover coupling hole 12 A female screw is provided so that the magnet cover 30 is detachably coupled.

1 and 2, the magnet cover 30 is formed in a cylindrical shape, and a magnet 31 inserted into the magnet insertion hole 14 is coupled to the front of the magnet cover 30 so as to protrude with a predetermined length, A handle 32 is protruded from the outer circumferential surface of the magnet body 10 and is coupled to the other side of the engaging body 10 so as to be detachably attached to the magnet cover engaging hole 12, do.

1 and 2, the strainer 1 for a chemical fluid piping according to the present invention having the above-described structure will be described in more detail as follows. As shown in FIGS. 1 and 2, The protrusion 13 is inserted into the coupling hole 22 of the screen 20 in a screwed manner and the magnet cover 30 is inserted into the magnet cover coupling hole 12 located on the other side of the coupling body 10 And the front magnet 31 is inserted and sealed in the magnet insertion hole 14 while being screwed. The fastening body portion 10 in which the screen 20 and the magnet cover 30 are detachably coupled to each other is fitted to the projecting portion 102 and screwed to the front and the rear of the fastening body portion 10, And is fastened to the piping body 100. The screen 20 located inside the protrusion 102 through the engagement of the fastening body 10 and the protrusion 102 is included in the fluid chemistry introduced into the front inflow hole 24 through the inlet 101 And the fine iron powder 160 contained in the fluid chemical introduced into the vicinity of the screen coupling protrusion 13 is discharged through the plurality of catching holes 21 to the discharge port 103, And is adhered to the periphery of the screen-engaging projection (13) through the magnetic force of the magnet (31) sealed inside the screen-engaging projection (13). Particularly, in the case of the strainer 1 for chemical fluid piping according to the present invention, the magnet 31 for filtering the fine iron powder 160 does not directly contact the fluid chemicals, It is possible to prevent weakening of magnetism due to direct contact between the conventional fluid and the magnet 31 and to prevent deterioration of the fluid chemical agent due to direct contact with the magnet 31 .

4, a predetermined length of iron bar 23 is provided at the center of the inner inflow hole 24 of the screen 20 so that a magnet (not shown) The iron rod 23 is magnetized by the magnetic force of the iron rod 31 and the fine iron powder 160 in the fluid chemical agent can be effectively attached and removed in a wider range through the magnetized iron rod 23. [

As shown in FIGS. 3A and 3B, the protrusion coupling hole 11 and the screen coupling protrusion (not shown) in which the fine iron powder 160 contained in the fluid chemical is adhered and accumulated are formed on one side of the protrusion 102 13, the iron deposition amount display unit 150 for displaying the iron deposition amount on the outside can be checked by the user so that the iron deposition amount can be checked from time to time. When the iron deposition amount is excessive, The magnet body 31 is removed from the magnet insertion hole 14 while the body 10 is separated from the protrusion 102 and the magnet cover 30 is detached from the fastening body 10 separated from the protrusion 102, The fine iron powder 160 attached by the magnetic force of the magnet 31 to the space between the protrusion hole 11 and the screen coupling protrusion 13 is separated by the magnetic force of the magnet 31 The protruding portion engaging hole 11, So that the fine iron powder 160 adhered thereto can be easily removed, washed, and reused.

3A and 3B, a slide groove 110 is formed along one side of the protrusion 102 along the length of the protrusion 102, and an L And a front end side of the indicating rod 130 is provided with a front end of the front end of the indicating rod 130 in front of the sliding groove 110, And the rearward bent portion of the indicating rod 130 protrudes to the inside of the protrusion 102 by a predetermined length and is connected to the rear end of the resilient spring 140 connected to the end portion Thereby forming a transparent display window 120 in which one side of the indicating rod 130 is displayed to the outside.

 3A, at the initial stage of mounting the protrusion 102 of the fastening body 10, the indicator rod 130 is moved toward the front dart side And the indication rod 130 of a predetermined color can be confirmed on the transparent display window 120. The indicator rod 130 is fixed to a predetermined position by receiving the elastic force of the elastic spring 140 coupled to the transparent display window 120. [ The fine iron powder 160 that is filtered by the magnetic force of the magnet 31 adheres to the space between the protrusion hole 11 and the screen coupling protrusion 13 and gradually accumulates, The indicator rod 130 is magnetized by the magnetic force of the magnet 31 and the rearward bent portion of the indicator rod 130 formed of iron is pulled by the magnetized magnetic force, The magnetic force generated by the magnetization of the accumulated fine iron powder 160 causes the magnetic force to be greater than the elastic force of the elastic spring 140 to slide backward. It is possible to check the accumulation amount of the fine iron powder 160 through the color change which is displayed differently according to the change of the color of the fine iron powder 160 and prevent the deterioration of the performance of the strainer 1 due to the excessive fine iron powder 160 Become .

As described above, the strainer 1 for a chemical fluid pipe according to the present invention is installed in a pipe through which a chemical flows in the chemical product production process, so that the foreign substances and the fine iron powder 160, etc. contained in the chemicals flowing in the pipe It is possible to prevent the electronic operation devices such as the various valves and the motor installed in the manufacturing process from being broken and to prevent a large amount of fine iron powder 160 from being attached to the strainer 1 for a long time The iron deposit amount display unit 150 can be used by the user to confirm and clean the iron deposit amount display unit 150 in a timely manner so as to prevent the deterioration of the performance of the strainer 1 due to the excessive fine iron powder 160,

The magnet 31 for attaching the fine iron powder 160 is not directly exposed to the flowing chemicals but is removed from the fine iron powder 160 by magnetic force in a state of being closed inside the screen coupling protrusion 13 The magnetic force of the magnet 31 can be prevented from being weakened and the deterioration of the chemical agent due to the direct contact with the magnet 31 can be prevented and the use of the strainer 1 in a long time It is possible for the user to easily clean and remove the attached fine iron powder 160 through the separation of the magnet cover 30, and to reuse the same, which makes maintenance easier.

It is to be understood by those skilled in the art that the present invention may be embodied in many other forms without departing from the spirit and scope of the invention,

Accordingly, the above-described embodiments are to be considered illustrative and not restrictive, and all embodiments within the scope of the appended claims and their equivalents are intended to be included within the scope of the present invention.

1: Strainer for chemical fluid piping
10: fastening body part 11: protruding part engaging hole
12: magnet cover engaging hole 13: screen engaging projection
14: Magnet insertion hole
20: Screen 21:
22: coupling hole 23: iron bar
24: inlet hole
30: magnet cover 31: magnet
32: Handle
100: piping body part 101: inlet
102: protrusion 103: outlet
110: sliding groove 120: transparent window
130: Indicator rod 131: Large amount of iron powder attached mark color
132: a trace amount of iron powder attached Display color 140: elastic spring
150: iron deposition amount display section 160: fine iron powder

Claims (4)

Y "shape in which a rear inlet 101, a middle outlet 102, and a front outlet 103 are integrally formed, and the chemical raw material A strainer for a chemical fluid pipe connected to a flowing pipe to filter out foreign substances contained in the chemical raw material introduced through the inlet port 101 and the protrusion port 102 and then discharge the foreign substances through the outlet port 103 As a result,
A plurality of engagement holes 21 are formed in the outer side surface of the outer side surface so as to communicate with the inlet hole 24 in the center, A screen (20) having a hole (22) formed therein and having an internal thread on the inner peripheral surface of the coupling hole (22);
And a protrusion hole 11 is formed in the center of one side of the protrusion hole 11 so that the protrusion 102 is inserted into the protrusion hole 102. The protrusion hole 11 is formed in the inner circumferential surface of the protrusion hole 102, A screw coupling protrusion 13 is provided at the center of the protrusion fitting hole 11 so as to be inserted into the fitting hole 22 of the screen 20, A male screw is formed on the outer surface of the engaging projection 13 so as to be screwed corresponding to a female screw formed on the inner circumferential surface of the engaging hole 22 of the screen 20, A magnet cover engaging hole 12 is formed at the center of the other side of the magnet engaging hole 14 so as to communicate with the magnet inserting hole 14, A body portion 10; And
A magnet 31 is projected to be inserted into the magnet insertion hole 14 at the front and a handle 32 is projected at the rear of the magnet insertion hole 14. A rear outer peripheral surface of the magnet insertion hole 14 And a magnet cover (30) inserted and screwed with a female screw formed on an inner circumferential surface,

At the center of the inner inflow hole 24 of the screen 20, a bar 23 is provided,

When the iron is attached to the space between the projecting portion coupling hole 11 and the screen coupling protrusion 13 at one side of the projecting portion 102, an iron deposition amount display portion 150 for displaying the amount of the iron attached to the outside is provided ,

The iron deposition amount display unit 150 displays,
A sliding groove 110 provided at one side of the protrusion 102 along the longitudinal direction;
The front end of the elastic spring 140 is coupled to the front end of the sliding groove 110. The front end of the elastic spring 140 is coupled to the front end of the sliding groove 110, And the rear bending side includes an indicating rod (130) protruding into the inside of the protrusion (102); And
And a transparent display window (120) communicating with the sliding groove (110) and having a side surface of the indicating rod (130) moving along the sliding groove (110) Strainers for piping (1).
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