KR20170004029U - Strainer - Google Patents

Abstract

The present invention relates to a strainer device installed in a ship or an offshore structure for filtering a fluid, wherein the strainer device comprises: a horizontal pipe through which a passage is formed and a guide hole is formed in the vertical direction; A strainer which is vertically operated while mounted on a guide hole of the horizontal pipe, an oil transfer passage is formed on a side surface corresponding to the passage, the lower portion is closed and the upper portion is opened; A filter mounted inside the strainer corresponding to the oil feed passage and filtering the fluid; And an upper cover which opens or closes the upper portion of the strainer.
According to the embodiment of the present invention, it is possible to easily block the passage of the horizontal pipe through the fluid blocking wall while easily changing the filter through the strainer operating perpendicular to the guide hole of the horizontal pipe, There is an effect that can be saved.

Description

Strainer device {Strainer}

The present invention relates to a strainer device installed on a ship or an offshore structure to filter fluid, and more particularly, to a strainer device that can reduce the installation cost and maintenance cost of a strainer and peripheral components, .

BACKGROUND ART Generally, a fluid strainer for removing scum or sludge contained in a fluid is used for various apparatuses such as a ship or an ocean structure in which a large amount of fluid is used, such as a large-sized transportation means and a power generation facility.

In the case of a ship or an offshore structure, a treatment route of an oil such as a lubricating oil or a fuel oil and a treatment route of a seawater are separately constructed, and a seawater strainer is installed on the route for treating the strainer and seawater for treating the oil.

In addition, a valve is mounted on the front end of the case where the strainer is installed to block the flow of fluid when the filter is replaced, and a gauge is mounted on the front and rear of the strainer to check the pressure.

However, in the conventional strainer, when the filter is to be replaced, the valve mounted on the front end of the strainer always needs to be replaced after closing the valve, thereby increasing the operation cost and the working time.

In addition, there is a problem in that a lot of material and time are required due to insufficient installation space in consideration of welding of a plurality of transmitters, branch lines installed between a conventional pump and a strainer, and straight lines due to pump suction.

Korean Patent Publication No. 2012-0124216 Korean Registered Patent No. 10-1189571

It is an object of the present invention to provide a strainer device capable of easily blocking a passage of a horizontal pipe through a fluid blocking wall while easily changing a filter through a strainer operating vertically to a guide hole of a horizontal pipe, The purpose is to provide.

It is also an object of the present invention to provide a strainer device capable of selectively mounting at least one transmitter and a measurement gauge to a horizontal tube.

According to an embodiment of the present invention, there is provided a strainer mounted on a ship or an offshore structure, the strainer including: a horizontal pipe through which a passage is formed and a guide hole is formed in the vertical direction; A strainer which is vertically operated while mounted on a guide hole of the horizontal tube, an oil transfer passage is formed on a side surface corresponding to the passage, and the lower portion is closed and the upper portion is opened; A filter mounted inside the strainer corresponding to the oil feed passage and filtering the fluid; And an upper cover which opens or closes the upper portion of the strainer.

A sealing ring is mounted around the guide hole of the horizontal tube, and at least one transmitter and a measurement gauge may be mounted on the horizontal tube.

Further, a bent portion having a handle may be formed on the lower portion of the strainer so as to be recessed toward the upper portion.

A corrosion detecting member may be mounted on the upper cover so as to check whether the horizontal pipe is corroded by the fluid passing through the horizontal pipe.

According to the embodiment of the present invention, it is possible to easily block the passage of the horizontal pipe through the fluid blocking wall while easily changing the filter through the strainer operating perpendicular to the guide hole of the horizontal pipe, There is an effect that can be saved.

In addition, since at least one transmitter and a measurement gauge can be selectively mounted on the horizontal pipe and a space can be ensured, the installation space can be reduced while the operation is easy.

1 is a front view showing a strainer device according to the present invention;
2 and 3 are cross-sectional views showing the use state of the strainer device according to the present invention;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. However, the present invention may be embodied in many different forms and is not limited to the embodiments described herein. Like parts are designated with like reference numerals throughout the specification.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view of a strainer device according to the present invention; and FIGS. 2 and 3 are cross-sectional views illustrating a use state of the strainer device according to the present invention.

The strainer apparatus 10 according to the present invention includes a horizontal tube 20, a strainer 30, a filter 40, and an upper cover 50.

The horizontal pipe 20 has a predetermined diameter and a predetermined length. A passage 22 is formed in the horizontal pipe 20 for movement of the fluid. A guide hole 24 is formed through the horizontal pipe 20 in the vertical direction.

Here, the shape, the length, and the size of the horizontal tube 20 are not limited to those shown in the drawings. In the present invention, the horizontal tube 20 has a circular tube shape and an example in which the guide hole 24 is formed in the vertical direction I will explain it.

A sealing ring 60 is mounted around the outer circumference of the guide hole 22 so as to prevent the fluid moving along the passage 22 from leaking to the outside while closely contacting the strainer 30.

That is, the seal 60 is in close contact with the strainer 30 to prevent the fluid passing through the horizontal pipe 20 and the strainer 30 from leaking to the outside, And guides.

At least one transmitter and a measurement gauge 60 may be selectively mounted on the horizontal tube 20.

That is, since the transmitter and the measurement gauge 70 are installed in the horizontal pipe 20, it is possible to reduce the component installation cost and the maintenance cost, and to increase the space utilization.

The strainer 30 is mounted on the guide hole 24 of the horizontal tube 20 and operates in the vertical direction.

The strainer 30 is formed with a receiving space 31 therein and an oil transfer path 32 is formed on a side surface of the horizontal pipe 20 corresponding to the passage 22, 33 are extended, and an opening 34 is formed in the upper part for attaching or detaching the filter 40.

That is, the strainer 30 has a receiving space 31 formed therein, an oil transfer path 32 and a fluid blocking wall 33 formed on the side surface thereof, and an opening 34 is formed in the upper part while the lower part is closed .

The oil feed passage 32 and the fluid shutoff wall 33 constitute the strainer 30. The oil feed passage 32 communicates with the passage 22 of the first horizontal pipe 20, And the fluid blocking wall 33 communicates with the passage 22 of the horizontal pipe 20 when the strainer 30 is lifted due to the replacement of the filter 40 mounted in the accommodation space 31 It will play a role of blocking.

Next, a bent portion 35 having a handle 36 is formed at a lower portion of the strainer 30 to be recessed upward.

That is, the bent portion 35 of the strainer 30 can reinforce the strength of the fluid blocking wall 33 through the smooth vertical operation through the handle 36 and the double side structure through bending.

In addition, a known stopper is provided on the outer surface of the strainer 30 to restrict the position of the strainer 30 when the strainer 30 is vertically operated, and a detailed description thereof will be omitted.

The filter 40 is mounted in the accommodation space 31 of the strainer 30 to filter the fluid passing through the oil transfer path 32.

The filter 40 may be formed in various shapes and known configurations. In the present invention, it is effective that the filter 40 is formed in a right angle or a multi-folded shape for effective filtering of the fluid.

The upper cover 50 is mounted on the opening 34 of the strainer 30 to open or close the accommodation space 31. [

The upper cover 50 has a predetermined thickness, and is formed of a transparent or semitransparent material according to environment, purpose, and the like.

Here, the opening 34 and the upper cover 50 are constructed by assembling well-known structures such as a screw, a bolt, a bracket, and a fitting, and a detailed description thereof will be omitted.

A corrosion sensing member 52 may be mounted on the upper cover 50 to check whether the horizontal pipe 20 is corroded by the fluid passing through the horizontal pipe 20.

That is, the upper cover 50 can confirm whether or not the horizontal pipe 20 is corroded through the corrosion sensing member 52 during the replacement operation of the filter 40 installed in the strainer 30.

Hereinafter, an embodiment of the strainer device constructed as above will be described with reference to the drawings.

First, a passage 22 is formed for movement of the fluid, and a horizontal pipe 20 is formed through which a guide hole 24 is vertically inserted.

A sealing ring 60 is mounted around the guide hole 24 and at least one transmitter and a measurement gauge 70 are selectively mounted on the outer surface of the horizontal tube 20.

An accommodating space 31 is formed in the guide hole 24 of the horizontal pipe 20 and an oil feed passage 32 is formed in a side surface of the horizontal pipe 20 corresponding to the passageway 22 A fluid shutoff wall 33 is extended downward and an opening 34 is formed for mounting or dismounting the filter 40 and a bent portion 35 Is mounted on the strainer 30 which is formed to be recessed toward the upper side.

When the filter 40 is mounted on the accommodating space 31 of the strainer 30 and the upper cover 50 having a predetermined thickness is mounted on the opening 34 of the strainer 30, Is completed.

Here, the assembling sequence of the strainer device may be configured differently from the above.

The use state of the strainer device constructed as above will be described below.

The fluid is supplied to the passage 22 of the horizontal pipe 20 and the passage 22 of the horizontal pipe 20 after the strainer device 10 is mounted on the ship or an offshore structure, 30 to the designated place via the oil feed passage 32. [

At this time, the fluid passing through the strainer 30 is filtered through the filter 40 installed between the oil transfer passages 32 and then discharged to a designated place.

When the filter 40 to be installed in the accommodation space 31 of the strainer 30 is to be replaced, the handle 36 located at the lower portion is operated upward, After the upper cover 50 to be mounted is removed, the replacement operation of the filter 40 is performed.

At this time, the passage (22) of the horizontal pipe (20) is cut off through the fluid blocking wall (33) formed in the lower part of the oil transfer passage (32).

That is, the passage 22 of the horizontal pipe 20 normally communicates with the oil feed passage 32 of the strainer 30, and when the strainer 30 is lifted due to the replacement of the filter 40, 33).

After the filter 40 is replaced, the upper cover 50 is attached to the opening 34 and then the knob 36 is lowered to open the passageway 22 of the horizontal tube 20 So that the oil feed passage 32 of the strainer 30 is communicated.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it should be understood that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. Should be interpreted as being included in.

10: strainer device, 20: horizontal tube,
22: passage, 24: guide ball,
30: strainer, 31: accommodation space,
32: oil feed passage, 33: fluid barrier wall,
34: open portion, 35: bent portion,
36: handle, 40: filter,
50: upper cover, 60: sealing,
70: Measuring gauge.

Claims (5)

In a strainer mounted on a ship or an offshore structure,
A horizontal pipe through which a passageway is formed and a guide hole is formed in the vertical direction;
A strainer which is vertically operated while mounted on a guide hole of the horizontal pipe, an oil transfer passage is formed on a side surface corresponding to the passage, the lower portion is closed and the upper portion is opened;
A filter mounted inside the strainer corresponding to the oil feed passage and filtering the fluid;
And an upper cover which opens or closes an upper portion of the strainer.
The method according to claim 1,
And a sealing ring is mounted around the guide hole of the horizontal tube.
The method according to claim 1,
Wherein at least one transmitter and a measurement gauge are selectively mounted on the horizontal tube.
The method according to claim 1,
And a bent portion provided with a handle is formed at a lower portion of the strainer so as to be recessed toward an upper portion thereof.
The method according to claim 1,
Wherein a corrosion detecting member is mounted on the upper cover so as to confirm whether the horizontal pipe is corroded by fluid passing through the horizontal pipe.

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