KR101733396B1 - bell mouth for suction - Google Patents

Abstract

The present invention provides a bell mouth assembly for sucking a fluid, which comprises: a bell mouth bent to be convexly round in a bottom portion by pressing a flat plate-shaped board having a hollow ring shape; and a ring-shaped coupling flange formed to surround an internal circumference of the bell mouth, and coupled to a dead end of a suction pipe inserted into a fluid tank. Therefore, the bell mouth assembly for sucking a fluid can be conveniently manufactured, and a loss of an entrance portion is reduced to increase the whole velocity of a moving fluid.

Description

A bell mouth assembly for fluid inhalation

The present invention relates to a bellmouth mouse, and more particularly, to a bell mouth assembly for a fluid inhalation according to a novel aspect of the present invention, which can simplify manufacture and reduce the loss of an inlet portion, thereby increasing the overall flow rate.

Generally, a bell mouth is a device used to discharge fluid (oil) stored in a fluid tank (e.g., an oil tank) of a vessel (e.g., oil tanker).

The bell mouth is fixed to the lower end of the suction pipe connected to the pump and is formed in a bell shape which is expanded toward the bottom so that the fluid can be sucked smoothly. Regarding the mouse, it is known that the compound of formula (I) is a compound represented by the formula (I) as described in JP 10-1359652, registered utility model 20-0379365, registered trademark 10-1208663, registered trademark 10-1208672, registered trademark 10-1208676, 10-1390332, and 10-2013-027779.

However, since the bell mouth according to the above-described conventional technique is manufactured by bending a steel plate made of a flat plate in a multi-stage (usually 15 to 30 times) and welding both ends to each other, the overall manufacturing process is very difficult, There is a problem that it takes a long time.

In addition, since the bell mouth according to the above-described prior art is high in height and heavy, it is not only expensive to manufacture but also requires a plurality of workers to work with the bell mouth to be connected to the suction pipe, or it is inevitable to use equipment such as a crane And the stagnation region having no flow velocity development due to the high height of the bell mouth was generated, which inevitably reduced the suction performance.

Patent No. 10-1359652 Registration Utility Model No. 20-0379365 Patent No. 10-1208663 Patent No. 10-1208672 Patent No. 10-1208676 Patent No. 10-1390332 Published Japanese Patent Application No. 10-2013-027779

SUMMARY OF THE INVENTION The present invention has been made in order to solve various problems of the related art described above, and it is an object of the present invention to provide a new type of fluid inhaling apparatus, which can simplify manufacturing, A bell mouth assembly.

In order to accomplish the above object, the present invention provides a bell mouth assembly for a fluid inhaler, comprising: a bell mouth which is bent in a convex round shape to a bottom by pressing a flat plate member having a hollow ring shape; And a ring-shaped coupling flange formed to surround the inner periphery of the bell mouth and coupled to an end of a suction pipe inserted into the fluid tank.

The bell mouth includes a vertical rim formed so as to be vertically erected from the ground while forming an inner rim portion and a rounding portion formed to be rounded to extend outwardly toward the bottom while extending to the bottom of the vertical rim portion, .

The upper flange and the lower flange are welded to each other so that the upper face of the flange is located higher than the upper face of the vertical flange. And a contact portion between the outer peripheral surface of the vertical rim portion and the bottom surface of the coupling flange.

The end of the rounded portion may be formed so as to exceed a curvature point, but the entire rounded portion may be formed to warp to a degree that the shape of the rounded portion does not exceed half a circle.

In addition, at least one coupling bracket is fixedly formed on the bottom surface of the rounded portion so as to be fixed in a state of being separated from the bottom surface of the fluid tank.

As described above, the bell mouth assembly for fluid aspiration according to the present invention allows the bell mouth to be formed by pressing a flat ring-shaped plate material, thereby making it possible to simplify the manufacturing operation, thereby reducing the manufacturing cost Effect.

In addition, since the overall size of the bell mouth assembly for fluid suction according to the present invention is extremely small as compared with the bellmouth of the prior art, the weight of the product can be reduced, which is advantageous in reducing the weight of the ship.

In addition, since the flow of the fluid sucked into the bell mouth is performed on the curved surface of the bell mouth of the bell mouth, the suction force loss is reduced and the suction flow velocity can be further increased, Since the rounded portion of the bell mouth is formed in a structure not exceeding a semicircle, the fluid around the bell mouth can be smoothly flowed toward the inside of the bell mouth.

Further, the bell mouth assembly for fluid aspiration according to the present invention can be always kept at a constant distance from the bottom surface of the fluid tank through the provision of the coupling plate, and vibration due to vibration or external impact can also be prevented .

In addition, the bell mouth assembly for fluid aspiration according to the present invention can form a drain hole at a curved point portion of a rounded portion to prevent the fluid from accumulating at the corresponding portion, and at the same time, It is possible to pass through the drain hole and flow into the bell mouth.

1 is an exploded perspective view illustrating a bellmouth assembly for fluid aspiration according to an embodiment of the present invention;
FIG. 2 is a perspective view of a combined mouthpiece according to an embodiment of the present invention,
3 is a front view of a bellmouth assembly for fluid aspiration according to an embodiment of the present invention.
4 is a plan view illustrating a bellmouth assembly for a suction fluid according to an embodiment of the present invention.
5 is a cross-sectional view illustrating a bellmouth assembly for a suction fluid according to an embodiment of the present invention;
6 is a state diagram illustrating an installation state of a bellmouth assembly for a suction fluid according to an embodiment of the present invention.
Figure 7 is a graph of the state graphs < RTI ID = 0.0 >
Figure 8 is a graph of the state graphs < RTI ID = 0.0 >
Figure 9 is a graph of the state graphs < RTI ID = 0.0 >
Figure 10 is a graph of the state graphs < RTI ID = 0.0 >

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a bell mouth assembly according to the present invention; FIG.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view illustrating a bellmouth assembly for fluid aspiration according to an embodiment of the present invention. FIG. 2 is an exploded perspective view illustrating a bellmouth assembly for fluid aspiration according to an embodiment of the present invention. FIG. 3 is a front view illustrating a bellmouth assembly for fluid suction according to an embodiment of the present invention, and FIG. 4 is a plan view illustrating a bellmouth assembly for a suction fluid according to an embodiment of the present invention.

As shown in these figures, the bell mouth assembly for fluid aspiration according to the embodiment of the present invention includes a bell mouth 100 and a coupling flange 200, and in particular, the bell mouth 100 has a low height So that the weight can be reduced while making it easy to manufacture.

This will be described in more detail below for each configuration.

First, the bell mouth 100 is a portion for sucking the fluid stored in the fluid tank 10 (see FIG. 5 attached).

The bell mouth 100 is formed so as to be bent in a convex round shape to the bottom. Through this, it is possible to easily manufacture the bell mouth 100 by simply pressing a flat plate material having a hollow ring shape.

The bell mouth 100 includes a vertical rim 110 and a rounding part 120.

The vertical rim 110 is formed to be vertically erected from the ground surface while forming an inner rim portion of the bell mouth 100. The vertical rim portion 110 is a portion fixed to a coupling flange 200 to be described later, It has a function to make it have straightness.

The rounded portion 120 is formed as a rounded portion extending toward the bottom of the vertical frame portion 110 while gradually expanding toward the bottom. The rounded portion 120 is formed along the curved surface of the rounded portion, So that the fluid stored in the reservoir can be sucked more smoothly.

At this time, the end of the rounding part 120 is formed to exceed the curved point, and the entire rounding part 120 is formed to warp to a degree not exceeding a half circle, so that the suction force, which is provided through the bell mouth 100, So that the fluid sucked into the bell mouth 100 can be smoothly sucked into the bell mouth 100 while flowing along the bottom surface of the round portion 120. That is, when the end of the round portion 120 is formed so as not to exceed the curved point, the suction force provided through the bell mouth 100 is horizontally provided along the bottom of the fluid tank 10, The suction flow of the fluid may not be performed smoothly and turbulence may be generated. When the rounding part 120 is formed in a structure having more than half a circle, due to the direction of the suction force generated from the end part, May flow along the upper surface of the rounded portion 120 and generate a vortex at the corresponding portion.

Particularly, it is preferable that the diameter D1 of the round portion 120 (see FIG. 5) is 0.4 to 0.6 times the diameter D of the vertical rim portion 110. This is because as the diameter D1 of the rounded portion 120 is smaller than the diameter D of the vertical rim portion 110 by 0.4 times the suction force transmitted through the vertical rim portion 110 is transmitted to the fluid tank When the diameter D1 of the round portion 120 exceeds 0.6 times the diameter D of the vertical rim portion 110 because the region to be transferred into the vertical rim portion 110 is shortened, The diameter D1 of the rounded portion 120 is 0.4 to 0.6 times the diameter D of the vertical rim portion 110 because the weight is increased and the weight is difficult to be lighter than the increase in the flow velocity uniformity. It is most preferred to form the size of a double.

In addition, it is further provided that at least one coupling bracket 130 is fixedly formed on the bottom surface of the round portion 120. The coupling bracket 130 may be fixed to the bottom surface of the fluid tank 10 so as to be separated from the bottom surface of the fluid tank 10, (See Fig. 4 attached) provided on the bottom surface of the main body of the vehicle.

In addition, it is further provided that at least one drain hole 121 is formed in the curved point of the rounding part 120 of the bell mouth 100. That is, when the level of the fluid stored in the fluid tank 10 is lower than the height of the bell mouth 100, a part of the fluid may be accumulated on the upper surface of the rounding part 120 Therefore, it is possible to prevent the fluid from sticking to the upper surface of the rounded portion 120 through the additional formation of the drain hole 121.

Next, the coupling flange 200 is a structure for coupling the bell mouth 100 to the suction pipe 20.

The coupling flange 200 is formed in a ring shape so as to surround the inner periphery of the bell mouth 120 and includes a suction pipe 20 inserted into the fluid tank 10 while passing through a plurality of coupling holes 210, To another flange (21) present at the end of the flange (21).

Particularly, the upper surface of the coupling flange 200 is formed so as to be positioned higher than the upper surface of the vertical rim 110, and they are welded to each other. The welded portions of the coupling flange 200 and the vertical rim portion 110 may be formed as a contact portion between the upper surface of the vertical rim portion 110 and the inner peripheral surface of the coupling flange 200 and the outer peripheral surface of the vertical rim portion 110, The connection flange 200 is set as a contact portion between the bottom surface of the coupling flange 200 to minimize the resistance of the fluid flow due to the edge portion and to securely fix the coupling flange 200 and the vertical flange portion 110.

Hereinafter, the operation of the bellmouth assembly for fluid aspiration according to the embodiment of the present invention described above will be described in more detail.

First, a bell mouth assembly for fluid suction according to an embodiment of the present invention is inserted into a fluid tank 10 in a state of being bolted to a flange 21 provided in a suction pipe 20, The fixing bracket 130 of the fluid suction bell mouth assembly is fastened to the fixing plate 11.

This completes the installation of the bell mouth assembly for fluid aspiration, wherein the bell mouth assembly for fluid aspiration is maintained at a constant spacing from the bottom surface in the fluid tank 10 at a specific location in the fluid tank 10 do.

In this state, when a fluid suction force is provided through the suction pipe 20, the suction force is transmitted into the fluid tank 10 through the fluid suction bell mouth assembly, whereby the fluid present in the periphery of the fluid suction bellmouth assembly And sucked into the bell mouth 100 by the suction force.

In addition, in the above-described process, the fluid flows along the curved bottom surface of the rounded portion 120 provided by the bell mouth 100 by the coanda effect, whereby the fluid flow passes through the rounded portion 120 ) So that the average flow velocity at the fluid inlet side of the fluid intake bellmouth assembly is much faster than the bell-shaped bellmouth of the prior art (see Figures 7 and 9 of the accompanying drawings) . That is, in the prior art, the fluid present around the bell mouth reflects the bottom surface of the fluid tank 10, flows into the bell mouth through the bell mouth, and then rapidly flows into the bell mouth As a part of the flow force is lost while expanding, a stagnant region having no flow velocity development is inevitably generated. In this regard, it can be confirmed through the graphs of FIGS. 7 to 10 attached hereto.

FIG. 11 is a graph showing the comparison of the entrance loss coefficient according to the shape of a conventional bell mouth and the bell mouth of the present invention. As can be seen from the figure, the bell mouth 100 of the present invention is a conventional bell mouth The pressure loss is small (up to 28% difference).

Particularly, as described above, since the average flow velocity on the fluid inlet side of the fluid inlet bellmouth assembly is further increased and the position of the suction tube 20 is positioned closer to the bottom of the fluid tank 10 than the conventional suction pipe Even the fluid remaining on the floor in the fluid tank 10 can be smoothly discharged into the bell mouth 100.

As a result, the bell mouth assembly for fluid aspiration according to the present invention allows the bell mouth 100 to be formed by pressing a ring-shaped flat plate member, whereby the manufacturing operation can be extremely simplified, thereby reducing the manufacturing cost .

In addition, since the overall size of the bell mouth assembly for fluid suction according to the present invention is extremely small as compared with the bell mouth of the prior art, the weight of the product can be reduced, which is advantageous in reducing the weight of the ship.

In addition, since the flow of the fluid sucked into the bell mouth 100 is performed by the curved surface formed by the rounding part 120 of the bell mouth 100, the suction force of the bell mouth assembly of the present invention is reduced And the rounding portion 120 of the bell mouth 100 is formed in a structure that does not exceed a half circle so that the fluid around the bell mouth 100 smoothly flows toward the inside of the bell mouth 100 So that it can flow.

Further, the bell mouth assembly for fluid aspiration according to the present invention can be always kept at a constant distance from the bottom surface of the fluid tank 10 through the provision of the coupling plate 130, Shaking can also be prevented.

In addition, the bell mouth assembly for fluid aspiration according to the present invention can form a drain hole 121 at the curved point of the rounding part 120 to prevent the fluid from sticking to the corresponding part, It is possible to flow into the bell mouth 100 through the drain hole 121 when the suction force is transmitted through the suction pipe 20.

10. Fluid tank 11. Fixing bracket
20. Suction pipe 21. Flange
100. Bell mouth 110. Vertical rim
120. Rounding part 121. Drain hole
130. Coupling bracket 200. Coupling flange
210. Fasteners

Claims (5)

A bellmouth assembly for sucking fluid in a fluid tank of a ship,
The bellmouth assembly
A vertical rim portion formed to be vertically and vertically installed in the fluid tank while being formed into a round shape convex to the bottom by pressing a flat plate material having a hollow ring shape and being vertically erected from the ground to form an inner rim portion; A bellmouth including a rounding portion extending from the bottom of the vertical rim portion and being rounded so as to be widened toward the bottom gradually toward the bottom portion and having at least one drain hole formed at the bending point thereof;
And a ring-shaped coupling flange formed to surround the inner periphery of the bell mouth and coupled to an end of a suction pipe inserted into the fluid tank,
Wherein an end of the rounding part of the bell mouth is formed so as to exceed a curvature point, and the shape of the entire rounding part is formed to warp to an extent not exceeding a half circle,
Wherein the upper flange is welded to the upper flange and the upper flange is welded to the upper flange and the upper flange is welded to the upper flange, And a contact portion between the outer circumferential surface of the vertical rim and the bottom surface of the coupling flange. delete delete delete The method according to claim 1,
Wherein at least one engaging bracket is fixedly formed on a bottom surface of the rounded portion so as to be fixed in a state of being spaced apart from a bottom surface of the fluid tank.

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