KR102355565B1 - Drain Nozzle Fixture - Google Patents

Abstract

The drainage nozzle fixing device is for fixing a drainage nozzle that stirs and mixes the desulfurized wastewater discharged from the desulfurization device formed on the hull into seawater, and includes an outer wall of the hull having an opening below the waterline, and an internal space throughout the axial direction A normal outer wall side pipe having openings at both ends in the axial direction, wherein one end in the axial direction is integrally fixed to the opening edge of the outer wall of the hull, and the opening at one end communicates with the outside of the outer wall of the hull. In addition, the other end of the axial direction is provided with the outer wall side piping arrange|positioned inside the ship body outer wall, and the drain nozzle is formed inside the outer wall side piping.

Description

Drain Nozzle Fixture

The present disclosure relates to a drain nozzle fixing device for fixing a drain nozzle for mixing desulfurized wastewater discharged from a desulfurization device formed on a ship body into seawater by stirring.

With the recent strengthening of exhaust gas regulations for ships, in the emission control sea area (ECA sea area), the use of fuel oil having a sulfur content of 0.1% or less, or alternative measures having an effect equivalent to this are obligatory. In addition, in 2020, the use of fuel oil with a sulfur content of 0.5% or less, or alternative measures having an effect equivalent to this, is obligatory even in the general sea area. As an alternative measure mentioned above, it is recognized to use the desulfurization apparatus which can reduce the sulfur oxide in the exhaust gas discharged|emitted from a main engine or some power generation engine/boiler below a regulation value. Here, the low sulfur fuel oil is expensive compared to the conventional heavy oil fuel oil, and there is a background that the supply ability for future demand increase is opaque. For this reason, in order to continue using the heavy fuel fuel oil which is inexpensive and has sufficient supply capability, it is performed to install the desulfurization apparatus in a ship (refer patent documents 1, 2).

Moreover, as a regulation with respect to a ship, there exists pH regulation of the desulfurization wastewater discharged|emitted from the desulfurization apparatus formed in a ship, and at the present time, the condition that a pH value is 6.5 or more at a point 4 m away from the outboard is imposed. In order to satisfy the said regulation, the drain nozzle which accelerates|stimulates the mixing of the desulfurization wastewater and the seawater around a ship has conventionally been provided at the outlet of the drainage pipe which flows the desulfurization wastewater discharged|emitted from a desulfurization apparatus. A conventional drain nozzle has a normal outer peripheral portion and a nozzle portion formed inside the outer peripheral portion. And one end of the outer periphery is integrally joined and fixed to the hull outer wall by welding, and the other end is fixed to the drain pipe. More specifically, the drain nozzle has a flange portion protruding outward from the outer peripheral surface at the other end of the outer peripheral portion, and the flange portions are fastened to each other in a state in which the flange portion is in contact with the flange portion of the drain pipe, whereby it is fixed to the drain pipe has been

Japanese Patent Publication No. 5789321 Japanese Patent Laid-Open No. 9-239233

However, the conventional drain nozzle is a part of the drain pipe and is mounted at the outlet, and since the outer periphery directly connects the outer wall of the hull and the drain pipe, strength as a structure of the ship is required, so-called strength member. For this reason, the drain nozzle, which is a strength member, requires time-consuming inspection of the joint state of the welded portion each time it is welded. And since the conventional drainage nozzle is integrally joined to the hull outer wall by welding, it is necessary to perform welding with the hull outer wall at the time of a mounting operation|work. Moreover, in the case of a replacement|exchange operation, the conventional drain nozzle needs to weld a new drain nozzle to the ship body outer wall after removing the welding part of an old drain nozzle and hull outer wall by cutting, for example. Therefore, in the conventional fixing method of the drain nozzle, there is a problem that it takes effort and time to install and replace the drain nozzle.

Moreover, the scrubber (wet gas washing apparatus) which wash|cleans the exhaust gas discharged|emitted from the engine for ship propulsion is disclosed by patent document 1, for example. Moreover, in patent document 1, when discharging the washing|cleaning liquid used by a scrubber to the outside, it is disclosed that the pH value is adjusted by injecting|throwing-in a neutralizing agent to a washing|cleaning liquid so that discharge|emission regulation of a pH value may be satisfied. In addition, Patent Document 2 discloses an absorption step in which the flue gas and seawater are brought into gas-liquid contact to dissolve the sulfurous acid gas in the flue gas as sulfurous acid in seawater; There is disclosed a flue gas desulfurization method comprising a neutralization step of adjusting the pH value of seawater by adding an alkali agent to it, and a discharge step of discharging seawater after the neutralization step into the ocean. However, neither of Patent Documents 1 and 2 paid attention to the fixing method of the drain nozzle, and therefore, there is no mention of the above-described problem.

In view of the circumstances described above, at least one embodiment of the present invention aims to provide a drainage nozzle fixing device capable of easily performing the installation and replacement operations of the drainage nozzle.

(1) A drain nozzle fixing device according to at least one embodiment of the present invention comprises:

A drain nozzle fixing device for fixing a drain nozzle for mixing the desulfurized wastewater discharged from the desulfurization device formed on the hull into seawater by stirring,

an outer wall of the hull having an opening below the waterline;

A normal outer wall side pipe having an internal space over the entire axial direction and having openings at both ends in the axial direction, wherein one end in the axial direction is integrally fixed to an opening edge of the hull outer wall, and an outer wall side pipe in which the one end side opening communicates with the outside of the hull outer wall and the other end in the axial direction is disposed inside the hull outer wall,

The drain nozzle is formed inside the outer wall side pipe.

According to the structure of said (1), the outer wall side piping has an internal space over the whole axial direction, and has an opening communicating with the internal space at both ends in the axial direction. And the outer wall side piping is being integrally fixed to the edge part of the opening arrange|positioned below the waterline of the hull outer wall at one end of an axial direction. Moreover, as for the outer wall side piping, the other end of an axial direction is arrange|positioned inside rather than the ship body outer wall. For this reason, in the outer wall side piping, the drain nozzle inserted from any opening at both ends in the axial direction can be formed inside the internal space. And the drainage nozzle formed in the inside of the outer wall side piping can stir the desulfurization waste_water|drain flowing in from the opening of the other end side in an axial direction, and can mix it with seawater. In addition, unlike the conventional drainage nozzles mentioned above, since the drainage nozzle is not integrally joined to the hull outer wall or piping by welding, an installation operation|work and an exchange operation|work can be performed easily.

Therefore, according to the above configuration, it is possible to easily perform the installation operation and replacement operation of the drain nozzle.

In addition, according to the configuration of (1) above, the drain nozzle mounted on the drain nozzle fixing device is not integrally fixed to the outer wall of the hull unlike the conventional drain nozzle described above. There is no need to have strength. For this reason, the drainage nozzle can improve the degree of freedom in material selection and replacement frequency compared with the conventional drainage nozzle. For example, a fiber-reinforced plastic (FRP) or a polymer material can be used as the material of the drain nozzle, whereby the cost and weight of the drain nozzle can be reduced. In addition, unlike the conventional drain nozzle described above, since it is not a strength member, it is possible to respond to deterioration or wear of the drain nozzle by replacing the nozzle regularly, so that the material of the drain nozzle can be selected in consideration of this .

(2) In some embodiments, in the configuration of (1) above,

The drain nozzle is

It includes a normal outer periphery and a nozzle portion formed inside the outer periphery,

The outer peripheral surface of the outer peripheral portion is disposed without a gap with respect to the inner surface of the outer wall side pipe.

According to the configuration of (2) above, the drain nozzle has a normally formed outer peripheral surface disposed without a gap with respect to the inner surface of the outer wall side pipe. Only by doing so, positioning of the outer wall side piping can be performed. For this reason, the installation operation and replacement operation of a drain nozzle can be performed efficiently. In addition, since the outer peripheral surface of the drain nozzle is disposed without a gap with respect to the inner surface of the outer wall side pipe, a part of the desulfurized wastewater flows into the gap formed on the inner surface of the outer wall side pipe and the outer peripheral part of the outer peripheral part of the drain nozzle, and stays there It is possible to prevent the smooth flow of other desulfurization wastewater from being inhibited by some of the desulfurized wastewater.

(3) In some embodiments, in the configuration of (2) above,

The drain nozzle fixing device,

A drain nozzle blocking member that is detachably mounted in the vicinity of the opening of the outer wall of the hull and prevents the drain nozzle from escaping from the opening on the one end side of the outer wall side pipe to the outside of the outer wall side pipe do.

According to the configuration of (3) above, since the drain nozzle blocking member is detachably formed in the vicinity of the opening of the hull outer wall, by removing the drain nozzle blocking member, the drain nozzle is removed from the opening on the one end side of the outer wall side piping. Installation and replacement can be performed easily. In addition, by attaching the drain nozzle blocking member, it is possible to prevent the drain nozzle from leaking out of the outer wall side pipe from the opening on the one end side of the outer wall side pipe.

(4) In some embodiments, in the configuration of (3) above,

The outer wall side pipe includes a convex portion protruding inward from the inner surface of the other end portion,

The drain nozzle is formed inside the outer wall side pipe in a state in which one end of the outer peripheral portion abuts against the drain nozzle blocking member, and the other end of the outer peripheral portion abuts or approaches the convex portion.

According to the configuration of (4) above, in the drain nozzle, one end of the outer periphery is in contact with the drain nozzle blocking member, and the other end of the outer periphery is in contact with or close to the convex portion of the outer wall, inside the outer wall side piping. , so that the operator inserts the drain nozzle from the opening on the one end side of the outer wall side pipe into the outer wall side pipe and attaches the drain nozzle blocking member, so that positioning of the drain nozzle in the axial direction is performed. Therefore, the installation operation and replacement operation of the drain nozzle can be easily performed.

(5) In some embodiments, in the configuration of (2) above,

The drain nozzle fixing device,

Further comprising an inner pipe connected to the other end of the outer wall side pipe,

The drain nozzle is

a first flange portion protruding outward from the outer circumferential surface at the other end of the outer circumferential portion opposite to one end of the hull outer wall side;

In a state where the first flange portion is sandwiched between the other end of the outer wall side pipe and one end of the inner pipe on the hull outer wall side, the outer wall side pipe and the inner pipe are fastened to thereby the outer wall side pipe is removably fixed to the

According to the configuration of (5) above, the positioning of the drain nozzle in the axial direction is achieved only by fixing the first flange portion of the drain nozzle to the outer wall side pipe, so that the installation and replacement of the drain nozzle are facilitated. can be carried out. In addition, only by fixing the first flange portion of the drain nozzle to the outer wall side pipe, rotational movement about the axis of the drain nozzle is restricted, positioning of the drain nozzle in the circumferential direction is performed, so that the desulfurized wastewater is stirred Since the drain nozzle itself does not rotate when mixing with seawater, the desulfurization wastewater can be stirred efficiently. Moreover, the drain nozzle can be easily removed from the outer wall side piping by releasing the fastening of the outer wall side piping and the inner side piping. In addition, since the drain nozzle fixing device does not need to include the drain nozzle blocking member, the number of parts can be reduced.

(6) In some embodiments, in the configuration of (5) above,

The outer wall side pipe includes a second flange portion protruding outward from the outer surface of the other end portion,

The inner pipe includes a third flange portion protruding outward from the outer surface of the one end portion,

The drain nozzle is

In a state in which the first flange portion is fitted between the second flange portion and the third flange portion, the second flange portion and the third flange portion are fastened to be detachably fixed to the outer wall side pipe.

According to the configuration of (6) above, in the drain nozzle, the second flange portion and the third flange portion are sandwiched by the second flange portion of the outer wall side piping and the third flange portion of the inner piping. By fastening the flange portion, it is fixed to the outer wall side pipe. For this reason, since the 1st flange part is fixed in the state which made surface contact with the 2nd and 3rd flange part, the drain nozzle can be fixed firmly to the outer wall side piping.

(7) In some embodiments, in the configuration of (5) or (6),

The inner pipe is

a first inner pipe connected to the outer wall side pipe;

and a second inner pipe connected to the first inner pipe,

The first inner pipe is formed to have a longer length in the axial direction than the drain nozzle.

According to the configuration of (7) above, since the first inner pipe is formed to have a longer length in the axial direction than the drain nozzle, it is only necessary to remove the first inner pipe from the outer wall side pipe or the second inner pipe, and the drain nozzle can be removed from the outer wall side piping. For this reason, the installation operation|work of a drainage nozzle and an exchange operation|work can be performed easily.

(8) In some embodiments, in the configuration of (4) above,

The drain nozzle fixing device further includes at least one desulfurization wastewater rectifying member for rectifying the desulfurized wastewater before being stirred by the drain nozzle,

The desulfurization drainage rectifying member is fixed by being sandwiched between the outer peripheral portion of the drain nozzle, the other end opposite to the one end on the hull outer wall side, and the convex portion of the outer wall side pipe.

According to the configuration of (8) above, since the desulfurized wastewater rectifying member rectifies the desulfurized wastewater before being stirred by the drain nozzle, the efficiency of the drain nozzle can be improved. Further, the desulfurization drainage rectifying member is fixed by being sandwiched between the other end of the outer periphery of the drain nozzle and the convex portion of the outer wall side piping only by inserting it into the outer wall side pipe prior to the drain nozzle. For this reason, the installation operation|work of a desulfurization wastewater rectification|straightening member and an exchange operation|work can be performed easily.

(9) In some embodiments, in the configuration of (5) to (7) above,

The drain nozzle fixing device further includes at least one desulfurization wastewater rectifying member for rectifying the desulfurized wastewater before being stirred by the drain nozzle,

The desulfurization drainage rectifying member is fixed by being sandwiched between the other end of the outer periphery of the drain nozzle and the one end of the inner pipe.

According to the configuration of (9) above, since the desulfurized wastewater rectifying member rectifies the desulfurized wastewater before being stirred by the drain nozzle, the efficiency of the drain nozzle can be improved. In addition, the desulfurization drainage rectifying member is fixed between the other end of the outer periphery of the drain nozzle and one end of the inner pipe only by sandwiching it between the drain nozzle and the inner pipe when the outer wall side pipe and the inner pipe are fastened. For this reason, the installation operation|work of a desulfurization wastewater rectification|straightening member and an exchange operation|work can be performed easily.

(10) In some embodiments, in the configuration of (3), (4), (8) above,

The drain nozzle fixing device,

and an anti-rotation mechanism having a rotation preventing member inserted along the axial direction into a hole or groove formed at one end of the outer peripheral portion of the drain nozzle on the side of the hull outer wall.

According to the configuration of (10) above, the drain nozzle fixing device includes a rotation preventing mechanism having a rotation preventing member inserted along the axial direction into a hole or groove formed at one end of the outer periphery of the drain nozzle on the hull outer wall side, have. For this reason, since the rotational movement about the axis is limited and the positioning of the drainage nozzle in the circumferential direction is made, the drainage nozzle does not rotate itself when stirring and mixing the desulfurized drainage with seawater. can be stirred efficiently.

(11) In some embodiments, in the configuration of (1) to (10) above,

The drainage nozzle fixing device further includes at least one reinforcing member that is integrally fixed to the inner wall of the hull outer wall and is integrally fixed to the outer surface of the outer wall side pipe.

According to the structure of said (11), the hull outer wall and outer wall side piping can be reinforced with a reinforcement member. Moreover, since the outer wall side piping is reinforced by the reinforcing member, the thickness of the outer wall side piping can be made thin by that much, and weight increase and cost increase of the outer wall side piping can be prevented.

(12) In some embodiments, in the configuration of (1) to (11) above,

In the drain nozzle fixing device, an acid-resistant film is formed on the inner surface of the outer wall side pipe.

According to the configuration of (12) above, in the drain nozzle fixing device, since the acid-resistant film is formed on the inner surface of the outer-wall-side piping, a material with low acid-resistance can be used for the outer-wall-side piping.

(13) In some embodiments, in the configuration of (1) to (12) above,

The drain nozzle is formed of a material having a lower strength than that of the outer wall side pipe.

According to the configuration of (13) above, since the drain nozzle is made of a material having a lower strength than that of the outer wall side piping, a lightweight and inexpensive material can be used for the drain nozzle, and the weight and cost of the drain nozzle can be reduced. have.

(14) In some embodiments, in the configuration of (1) to (13) above,

The said one end part of the said outer wall side pipe is integrally fixed by welding to the said opening edge part of the said hull outer wall.

According to the structure of said (14), since the one end of the outer wall side piping is integrally fixed to the opening edge part of the ship body outer wall by welding, the outer wall side pipe and the ship body outer wall can be fixed firmly.

According to at least one embodiment of the present invention, there is provided a drain nozzle fixing device capable of easily performing an installation operation and a replacement operation of the drain nozzle.

1 is a schematic diagram schematically showing a drainage nozzle fixing device according to an embodiment of the present invention, and a ship including the drainage nozzle fixing device.
Fig. 2 is a schematic cross-sectional view showing an enlarged portion A shown in Fig. 1 .
FIG. 3 is a cross-sectional view of the drain nozzle shown in FIG. 2 .
FIG. 4 is a front view of the drain nozzle shown in FIG. 2 .
FIG. 5 is a front view of the drain nozzle blocking member shown in FIG. 2 .
Fig. 6 is a schematic cross-sectional view showing an enlarged portion A shown in Fig. 1 as a view showing a drain nozzle fixing device according to another embodiment of the present invention.
7 is a cross-sectional view showing a drainage nozzle fixing device according to another embodiment of the present invention, and is a view showing a state in which a desulfurization drainage rectifying member is formed between the other end of the outer peripheral portion of the drainage nozzle and a convex portion of the outer wall side pipe.
Fig. 8 is a cross-sectional view showing a drainage nozzle fixing device according to another embodiment of the present invention, showing a state in which a desulfurization drainage rectifying member is formed between the other end of the outer periphery of the drainage nozzle and one end of the inner pipe.
Fig. 9 is a cross-sectional view showing a drain nozzle fixing device according to another embodiment of the present invention, showing a state in which a key is inserted into a key groove formed in an outer periphery of the drain nozzle and an outer wall side pipe.
Fig. 10 is a cross-sectional view showing a drain nozzle fixing device according to another embodiment of the present invention, in which the outer periphery of the drain nozzle and the drain nozzle blocking member are bolted to each other.
11 is a front view of the drain nozzle shown in FIG. 10 .
Fig. 12 is a cross-sectional view showing a drain nozzle fixing device according to another embodiment of the present invention, and is a view showing a state in which a film is formed on the inner surface of an outer wall side pipe.
Fig. 13 is a cross-sectional view showing a drain nozzle fixing device according to another embodiment of the present invention, and is a view showing a state in which a film is formed on the inner surface and the other end surface of the outer wall side pipe.

DESCRIPTION OF EMBODIMENTS Hereinafter, some embodiments of the present invention will be described with reference to the accompanying drawings. However, the dimensions, materials, shapes, relative arrangements, and the like of constituent parts described as embodiments or shown in the drawings are not intended to limit the scope of the present invention thereto, and are merely illustrative examples.

For example, expressions indicating a relative or absolute arrangement such as “in any direction”, “along any direction”, “parallel”, “orthogonal”, “center”, “concentric” or “coaxial” are strictly In addition to indicating such an arrangement, tolerance, or a state of relative displacement with an angle or distance sufficient to obtain the same function shall also be indicated.

For example, expressions indicating that things are in an equivalent state, such as "same", "equivalent" and "homogeneous", not only indicate a strictly equivalent state, but also have tolerances or differences in the degree to which the same function is obtained. It is supposed to indicate the state as well.

For example, an expression representing a shape such as a square shape or a cylindrical shape not only represents a shape such as a square shape or a cylindrical shape in a geometrically strict sense, but also includes irregularities or chamfers within the range where the same effect is obtained. It is assumed that the shape including the shape is also shown.

On the other hand, the expression "having", "having", "having", "including", or "having" one component is not an exclusive expression excluding the existence of another component.

In addition, in the following description, the same code|symbol is attached|subjected to the same structure, and the detailed description may be abbreviate|omitted.

Hereinafter, each configuration included in the drain nozzle fixing device 1 will be described.

1 is a schematic diagram schematically showing a drainage nozzle fixing device according to an embodiment of the present invention, and a ship including the drainage nozzle fixing device. As shown in FIG. 1, the ship 2 is the ship body 21, the desulfurization apparatus 3 formed in the ship body 21, and the drainage pipe which flows the desulfurization waste water Wd discharged|emitted from the desulfurization apparatus 3. (5), a drain nozzle (4) disposed on the outlet side of the drain pipe (5), and a drain nozzle fixing device (1) for fixing the drain nozzle (4).

The hull 21 is, as shown in FIG. 1, the hull outer wall 12 extended so that the up-down direction in the same figure, the deck 21a formed in the upper end side of the hull outer wall 12, and the hull outer wall ( It is comprised by the ship bottom (not shown) formed in the lower end part side of 12), It has the inboard space 21b partitioned by these. And as for the ship body 21, the main engine and several power generation engine/boilers are provided in the inboard space 21b.

The desulfurization apparatus 3 is provided on the deck 21a of the ship body 21, as shown in FIG. The desulfurization device 3 desulfurizes the exhaust gas generated from the main engine or a plurality of power generation engines/boilers, and generates the exhaust gas after the desulfurization process in which sulfur oxides are reduced to below the regulation value. And the desulfurization apparatus 3 produces desulfurization waste water Wd at the time of a desulfurization process. As shown in FIG. 1, the desulfurization apparatus 3 has the waste water storage tank 3a for storing the desulfurization waste water Wd. In addition, the desulfurization wastewater (Wd) in the present invention refers to wastewater subjected to other treatment after desulfurization treatment, such as, for example, a pH adjuster is added, as well as wastewater to which no other treatment has been performed after the desulfurization treatment. will include

The drainage pipe 5 is formed in the inboard space 21b of the ship body 21, and extends so that an axial direction may follow the up-down direction in FIG. 1 is formed normally. And the upper end of the drainage pipe 5 protrudes outward from the deck 21a of the hull 21 so that the desulfurization wastewater Wd overflowing from the drainage storage tank 3a of the desulfurization device 3 flows in the pipe. Consists of. Further, the lower end of the drain pipe 5 is bent at a substantially right angle in the middle of the length so that the front end extends along the horizontal direction (right direction in Fig. 1). And the tip end of the drain pipe 5 is connected to the drain nozzle fixing device 1 .

It is a schematic sectional drawing which enlarges and shows part A shown in FIG. FIG. 3 is a cross-sectional view of the drain nozzle shown in FIG. 2 . FIG. 4 is a front view of the drain nozzle shown in FIG. 2 . FIG. 6 is a schematic cross-sectional view showing a drainage nozzle fixing device according to another embodiment of the present invention, on an enlarged scale of portion A shown in FIG. 1 .

The drainage nozzle 4 stirs the desulfurization wastewater Wd discharged from the desulfurization device 3 formed in the hull 21 to promote mixing with the seawater Ws around the hull 21 . And the drain nozzle 4 contains the normal outer peripheral part 41 as shown in FIGS. 2 and 6, and the nozzle part 42 formed in the inside of the outer peripheral part 41. As shown in FIG. More specifically, the drain nozzle 4 has, as shown in FIGS. 3 and 4 , a normally formed outer periphery 41 and at least one blade 42a formed inside the outer periphery 41 . The nozzle part 42 and the shaft part 43 formed in the inside of the nozzle part 42 are provided. Moreover, the drain nozzle 4 is arranged so that its axis line is collinear with the axis line 1a of the drain nozzle fixing device 1 .

The drainage nozzle fixing device 1 is provided with the outer wall side piping 11 and the ship body outer wall 12 as shown in FIGS. 2 and 6 .

The hull outer wall 12 constitutes a part of the hull 21 mentioned above, and as shown in FIGS. 1, 2, 6, the position below the waterline Lw, the circular shape which penetrates along the thickness direction. An opening 12a of The opening 12a of the hull outer wall 12 is formed so that the axis line is collinear with the axis line 1a of the drain nozzle fixing device 1 .

The outer wall-side pipe 11 is arranged so that its axis line is collinear with the axis line 1a of the drain nozzle fixing device 1 as shown in FIGS. 2 and 6 . And the outer wall side piping 11 has the internal space 11a over the whole axial direction as shown to FIGS. 2 and 6, and has an opening in both ends of the axial direction. More specifically, as for the outer wall side piping 11, the one end side opening 11f is formed in the one end part 11b located in the ship body outer wall 12 side in the axial direction, and the ship body in an axial direction. The other end side opening 11g is formed in the other end part 11c located inside the inner side surface 12c of the hull outer wall 12 as a side away from the outer wall 12. As shown in FIG.

Moreover, as for the outer wall side piping 11, the one end 11b is integrally fixed to the edge part of the opening 12a of the hull outer wall 12, and the one end side opening 11f is the exterior of the hull outer wall 12. , that is, to be connected to the outer side than the outer surface (12b) of the hull outer wall (12).

More specifically, in some embodiments, as shown in FIG. 2 , the cross section on the one end 11b side of the outer wall side pipe 11 is the inner surface 12c of the hull outer wall 12 . In the state in contact with each other, the portion on the one end 11b side of the outer surface 11d of the outer wall side pipe 11 positioned around the abutting portion and the inner surface 12c of the hull outer wall 12 abut It is integrally fixed by joining the part adjacent to a contact part by welding.

And as for the outer wall side piping 11, the inner side surface 11e containing the one end side opening 11f has a diameter dimension substantially the same as the opening 12a of the hull outer wall 12, The one end side opening 11f ) is continuous to the opening 12a of the hull outer wall 12 without a step. Moreover, as for the outer wall side piping 11, the one end side opening 11f is connected with the outer side rather than the outer side surface 12b of the hull outer wall 12 through the opening 12a of the hull outer wall 12.

7 is a cross-sectional view showing a drainage nozzle fixing device according to another embodiment of the present invention, and is a view showing a state in which a desulfurization drainage rectifying member is formed between the other end of the outer peripheral portion of the drainage nozzle and a convex portion of the outer wall side pipe. Fig. 12 is a cross-sectional view showing a drain nozzle fixing device according to another embodiment of the present invention, and is a view showing a state in which a film is formed on the inner surface of an outer wall side pipe.

As shown in FIGS. 2, 7, and 12 , the drain nozzle 4 is formed inside the outer wall side pipe 11 , and the outer peripheral surface 41a of the outer peripheral part 41 is the inner surface of the outer wall side pipe 11 . It is arrange|positioned with respect to the circumferential surface of 11e and the opening 12a of the hull outer wall 12 without a clearance gap. More specifically, in some embodiments, as shown in FIGS. 2 and 7 , as for the drain nozzle 4 , the outer peripheral surface 41a of the outer peripheral portion 41 is the inner surface 11e of the outer wall side pipe 11 . ) and the circumferential surface of the opening 12a of the hull outer wall 12, without a gap with respect to the inner surface 11e of the outer wall side pipe 11 and the circumferential surface of the opening 12a of the hull outer wall 12 is placed. Moreover, in some other embodiment, as shown in FIG. 12, the covering member which directly contacts the inner surface 11e of the outer wall side piping 11, and the peripheral surface of the opening 12a of the hull outer wall 12 ( 18) is formed. The drain nozzle 4 is formed with the outer peripheral surface 41a of the outer peripheral portion 41 in contact with the covering member 18, so that the covering member 18 is interposed therebetween, and the inner surface 11e of the outer wall side pipe 11 and It is arrange|positioned with respect to the peripheral surface of the opening 12a of the hull outer wall 12 without a clearance gap.

In some other embodiments, the outer wall side pipe 11 has one end 11b as shown in FIG. 6 so that the one end 11b can be inserted into the opening 12a of the hull outer wall 12. The included outer surface 11d has substantially the same diameter dimension as the opening 12a. And, as for the outer wall side piping 11, the one end 11b is inserted into the opening 12a of the hull outer wall 12 from the inner side surface 12c side of the hull outer wall 12, and the one end 11b side In a state where the cross section is flush with the outer surface 12b of the hull outer wall 12, the adjacent portions of the outer surface 11d and the inner surface 12c of the hull outer wall 12 are welded to each other By joining by , it is integrally fixed to the hull outer wall 12. Moreover, as for the outer wall side piping 11, the one end side opening 11f is connected directly, without interposing a member other than the outer side surface 12b of the hull outer wall 12 outside.

Fig. 8 is a cross-sectional view showing a drainage nozzle fixing device according to another embodiment of the present invention, showing a state in which a desulfurization drainage rectifying member is formed between the other end of the outer periphery of the drainage nozzle and one end of the inner pipe. Fig. 13 is a cross-sectional view showing a drain nozzle fixing device according to another embodiment of the present invention, and is a view showing a state in which a film is formed on the inner surface and the other end surface of the outer wall side pipe.

6 , 8 , and 13 , the drain nozzle 4 is formed inside the outer wall side pipe 11 , and the outer peripheral surface 41a of the outer peripheral part 41 is the inner surface of the outer wall side pipe 11 . It is arranged without a gap with respect to the circumferential surface of (11e). More specifically, in some embodiments, as shown in FIGS. 6 and 8 , in the drain nozzle 4 , the outer peripheral surface 41a of the outer peripheral portion 41 is the inner surface 11e of the outer wall side pipe 11 . ), it is arrange|positioned without a clearance gap with respect to the inner side surface 11e of the outer wall side piping 11 by direct contact. Moreover, in some other embodiment, as shown in FIG. 13, the covering member 18 which directly contacts the inner side surface 11e of the outer wall side piping 11 is provided. As for the drain nozzle 4, when the outer peripheral surface 41a of the outer peripheral part 41 comes into contact with the covering member 18, the covering member 18 is interposed therebetween to be disposed on the inner surface 11e of the outer wall side pipe 11. placed without gaps.

In addition, in some other embodiments, the drain nozzle fixing device 1 further includes an inner pipe 14 as shown in FIGS. 2 and 6 . The inner pipe 14 constitutes a part of the drain pipe 5 . In addition, the inner pipe 14 includes a first inner pipe 141 connected to the outer wall side pipe 11 and a second inner pipe 142 connected to the first inner pipe 141 . As shown in FIG. 6, the 1st inner side pipe 141 is formed normally, and the flange part 141d protruding outward from the outer peripheral surface of the one end 141a on the side of the outer wall side pipe 11 side in the axial direction. And the flange part 141e which protrudes outward from the outer peripheral surface of the other end part 141b on the side away from the outer wall side piping 11 in the axial direction is formed. As shown in FIG. 6 , the second inner pipe 142 is formed normally and protrudes outward from the outer peripheral surface of at least one end 142a on the side of the first inner pipe 141 among both ends in the axial direction. A flange portion 142c is formed. The first inner pipe 141 and the second inner pipe 142 have inner peripheral surfaces 141c and 142b approximately the same diameter as the inner peripheral surface 41b of the outer peripheral portion 41 of the drain nozzle 4, and the inner peripheral surface ( 41b) is continuous without a step. Further, the first inner pipe 141 and the second inner pipe 142 are arranged so that their axes are on the same straight line with respect to the axis 1a of the drain nozzle fixing device 1 .

In addition, in some other embodiments, the drainage nozzle fixing device 1 further includes a desulfurization drainage rectifying member 15 as shown in FIGS. 7 and 8 . The desulfurization wastewater rectifying member 15 is for rectifying the desulfurization wastewater Wd before being stirred by the drain nozzle 4, and has a circular shape having an outer circumferential surface 15a, and one end face 15b and the other end face ( 15c) is formed in a plate shape. Moreover, the desulfurization wastewater rectifying member 15 is provided with a plurality of circular through-holes 15d penetrating in the plate thickness direction over the entire surface except for the outer peripheral edge of the one end surface 15b. The desulfurization wastewater Wd is rectified by passing through the through hole 15d of the desulfurization wastewater rectifying member 15 . Moreover, the desulfurization wastewater rectifying member 15 is arranged so that its axis line is collinear with the axis line 1a of the drain nozzle fixing device 1 .

In some embodiments, the drainage nozzle fixing device 1 includes the above-described hull outer wall 12 and the above-described outer wall side pipe 11 as shown in FIGS. 2 and 6 . And the drain nozzle 4 mentioned above is formed in the inside of the outer wall side piping 11. As shown in FIG.

According to the above configuration, the outer wall side pipe 11 has an internal space 11a over the entire axial direction, and is inside both ends in the axial direction (one end 11b, the other end 11c). It is formed normally having an opening (one end side opening 11f, the other end side opening 11g) communicating with the space 11a. And the outer wall side piping 11 is being integrally fixed to the edge part of the opening 12a whose one end 11b is formed below the waterline Lw of the hull outer wall 12. As shown in FIG. Moreover, as for the outer wall side piping 11, the other end part 11c is arrange|positioned rather than the ship body outer wall 12 inside. For this reason, the outer wall side piping 11 can form the drain nozzle 4 inserted from any opening of both ends in the axial direction in the inside of the internal space 11a.

And the drain nozzle 4 formed inside the outer wall side piping 11 can stir the desulfurization waste water Wd flowing in from the other end side opening 11g, and mix it with seawater Ws. In addition, the drain nozzle 4 is integrally joined to the hull outer wall 12 and piping (outer wall side piping 11, inner piping 14) by welding, unlike the conventional drainage nozzle mentioned above. Since it is not carried out, an installation operation|work and an exchange operation|work can be performed easily.

In addition, unlike the conventional drain nozzle described above, the drain nozzle 4 mounted on the drain nozzle fixing device 1 is not integrally fixed to the hull outer wall 12, and is similar to the conventional drain nozzle. There is no need to have strength. For this reason, the drainage nozzle 4 can improve the degree of freedom in material selection and replacement frequency compared with the conventional drainage nozzle. For example, a fiber-reinforced plastic (FRP) or a polymer material can be used as the material of the drain nozzle 4, whereby the cost and weight reduction of the drain nozzle can be achieved. In addition, unlike the conventional drain nozzle described above, since it is not a strength member, it is possible to respond to deterioration or abrasion of the drain nozzle 4 by regular nozzle replacement. material selection is possible.

In some other embodiments, the drain nozzle 4 described above is formed of a material having a lower strength than that of the outer wall side pipe 11 . Here, as a material of the outer wall side piping 11, rolled steel materials for general structures (SS material), stainless steel (SUS material), etc. are mentioned, for example. Moreover, as a material of the drain nozzle 4, fiber reinforced plastics (FRP), a polymeric material, etc. are mentioned, for example. In this case, a lightweight and inexpensive material can be used for the drain nozzle 4, so that the weight and cost of the drain nozzle 4 can be reduced.

In some other embodiment, as for the outer wall side piping 11 mentioned above, the one end part 11b is being integrally fixed to the edge part of the opening 12a of the hull outer wall 12 by welding. In this case, the outer wall side piping 11 and the hull outer wall 12 can be fixed firmly.

In some other embodiments, the drain nozzle 4 described above includes the outer peripheral portion 41 and the nozzle portion 42 described above. And, as for the drain nozzle 4, the outer peripheral surface 41a of the outer peripheral part 41 is arrange|positioned with respect to the inner surface 11e of the outer wall side piping 11 without a clearance gap.

According to the above configuration, as for the drain nozzle 4, since the outer peripheral surface 41a of the outer peripheral portion 41 is disposed without a gap with respect to the inner surface 11e of the outer wall side pipe 11, in the installation operation or replacement operation, Positioning in the direction perpendicular to the axial direction with respect to the outer wall side piping 11 can be performed only by inserting into the inside of the outer wall side piping 11. For this reason, the installation operation and replacement operation of the drain nozzle 4 can be performed efficiently. In addition, in the drainage nozzle 4, since the outer peripheral surface 41a is disposed without a gap with respect to the inner surface 11e of the outer wall side pipe 11, a part of the desulfurized wastewater Wd is removed from the outer peripheral surface 41a of the outer peripheral portion 41. It flows and stays in the gap formed between the inner surface 11e of the outer wall side pipe 11 and the desulfurization wastewater Wd of the retained part of the desulfurization wastewater Wd to prevent the smooth flow of the other desulfurization wastewater Wd from being inhibited. can

In some other embodiments, the drainage nozzle fixing device 1 is detachably mounted in the vicinity of the opening 12a of the hull outer wall 12 as shown in FIG. 2 , and the drainage nozzle 4 is disposed on the outer wall side A drain nozzle blocking member 13 is further provided for preventing the pipe 11 from leaking out from the one end side opening 11f of the pipe 11 to the outside of the outer wall side pipe 11 .

FIG. 5 is a front view of the drain nozzle blocking member shown in FIG. 2 .

The drain nozzle blocking member 13 has an annular shape having an outer circumferential surface 13a and an inner circumferential surface 13b as shown in Figs. is formed In addition, as shown in FIGS. 5 and 11 , the drain nozzle blocking member 13 is provided with a plurality of through holes 13e penetrating along the thickness direction at positions near the outer peripheral surface 13a. The plurality of through holes 13e are arranged at equal intervals from each other so that the shaft center is positioned on a circle having a predetermined diameter dimension. In addition, in some embodiments, as shown in FIG. 11 , the drain nozzle blocking member 13 has a plurality of through holes 13f penetrating along the thickness direction at a position near the inner surface 13d. . The plurality of through-holes 13f are arranged at equal intervals from each other so that the axial center of the above-described through-hole 13e is located on a circle having a smaller diameter than the predetermined circle located on the circle. In addition, the drain nozzle blocking member 13 is arranged so that its axis line is collinear with the axis line 1a of the drain nozzle fixing device 1 .

As shown in FIG. 2, the hull outer wall 12 is concave from the outer surface 12b to the inner surface 11e, and has a depth dimension approximately equal to the plate thickness dimension of the drain nozzle blocking member 13. A portion 12d is formed. The annular recessed portion 12d has the same axis as the axis of the opening 12a and has a larger diameter than the diameter of the opening 12a. In addition, the annular recessed portion 12d has a diameter dimension that is substantially the same as the outer diameter dimension of the drain nozzle blocking member 13 .

As shown in FIG. 2, the drain nozzle blocking member 13 inserts the through-hole 13e from the outer surface 12b side of the hull outer wall 12 into the inside of the annular recessed part 12d. The external screw member 6 passing through is being removably fixed to the hull outer wall 12 by screwing to the female screw part 12g formed in the bottom face 12e of the annular recessed part 12d. And, the drain nozzle blocking member 13 has an inner surface 13d in contact with the bottom surface 12e of the annular recessed portion 12d, and an outer surface 13c in the outer surface of the hull outer wall 12 ( 12b) is roughly consistent with . In addition, the drain nozzle blocking member 13 has an inner peripheral surface 13b having substantially the same diameter dimension as the inner peripheral surface 41b of the outer peripheral portion 41 of the drain nozzle 4 .

According to the above configuration, since the drain nozzle blocking member 13 is detachably formed in the vicinity of the opening 12a included in the hull outer wall 12, by removing the drain nozzle blocking member 13, the outer wall side piping The installation and replacement of the drain nozzle 4 from the one end side opening 11f of (11) can be performed easily. In addition, by attaching the drain nozzle blocking member 13, one end face 41c of the outer peripheral portion 41 of the drain nozzle 4 is caught on the inner surface 13d of the drain nozzle blocking member 13, so that the drain nozzle ( 4) It can be prevented from leaking out of the outer wall side piping 11 from the one end side opening 11f of this outer wall side piping 11 to the outside.

In addition, in the embodiment mentioned above, although the annular recessed part 12d and the female threaded part 12g were formed in the hull outer wall 12, you may provide the annular recessed part and the female threaded part in the outer wall side piping 11. In this case, the drain nozzle blocking member 13 is inserted into the annular recess formed in the outer wall side pipe 11 and is fixed to the outer wall side pipe 11 . Moreover, it is not necessary to form an annular recessed part in the outer wall side piping 11 or the ship body outer wall 12. In this case, as for the drain nozzle blocking member 13, the inner side face 13d is in contact with the end face on the one end 11b side of the outer wall side pipe 11 or the outer side face 12b of the hull outer wall 12. In this state, it is fixed to the outer wall side piping 11 or the hull outer wall 12.

In some other embodiments, the drainage nozzle fixing device 1 includes the above-described outer wall side pipe 11 , the above-mentioned hull outer wall 12 , and the above-mentioned drainage nozzle blocking member 13 , have. And the outer wall side piping 11 is provided with the convex part 11h which protrudes inward from the inner side surface 11e of the other end part 11c as shown to FIGS. 2, 7, 12. In addition, as for the drain nozzle 4, one end face 41c of the outer peripheral portion 41 abuts against the drain nozzle blocking member 13, and the other end surface 41d of the outer peripheral portion 41 abuts against the convex portion 11h, or Or it is formed in the inside of the outer wall side piping 11 in the adjacent state.

More specifically, in some embodiments, when the drain nozzle 4 is inserted from the one end side opening 11f of the outer wall side pipe 11 as shown in FIGS. 2 and 7 , the The other end surface 41d abuts against a stepped surface 11k formed between the inner surface 11e of the convex portion 11h of the outer wall side piping 11 and the inner surface 11e. As for the drainage nozzle 4, the axial length dimension of the outer peripheral part 41 is the axial length dimension which does not include the convex part 11h of the outer wall side pipe 11, and the annular concave of the hull outer wall 12. The portion 12d is formed to have a length approximately equal to the sum of the thickness dimensions. For this reason, when the drain nozzle 4 is arrange|positioned inside the opening 12a of the inner space 11a of the outer wall side piping 11 and the hull outer wall 12, the one end surface 41c of the hull outer wall 12 ) is substantially flush with the bottom surface 12e of the annular recessed portion 12d. And when the drain nozzle blocking member 13 is attached to the hull outer wall 12, the one end surface 41c of the outer peripheral part 41 abuts against the inner surface 13d of the drain nozzle blocking member 13.

Moreover, in some other embodiment, the covering member 18 mentioned later as shown in FIG. 12 is adhere|attached to the step surface 11k of the piping 11 on the outer wall side. For this reason, in the drain nozzle 4 , the other end face 41d of the outer peripheral portion 41 approaches the stepped face 11k of the outer wall side pipe 11 . The drain nozzle 4 is configured such that the other end face 41d of the outer peripheral portion 41 abuts against the covering member 18 formed on the step surface 11k of the outer wall side pipe 11 . Moreover, as for the drainage nozzle 4, the axial length dimension of the outer peripheral part 41 is the axial length dimension which does not include the convex part 11h of the outer wall side piping 11, and the hull outer wall 12 The annular recessed portion 12d is formed to have a length shorter by the thickness dimension of the covering member 18 than the sum of the thickness dimensions. For this reason, when the drain nozzle 4 is arrange|positioned inside the opening 12a of the inner space 11a of the outer wall side piping 11 and the hull outer wall 12, the one end surface 41c of the hull outer wall 12 ) is substantially flush with the bottom surface 12e of the annular recessed portion 12d. And when the drain nozzle blocking member 13 is attached to the hull outer wall 12, the one end surface 41c of the outer peripheral part 41 abuts against the inner side surface 13d of the drain nozzle blocking member 13.

According to the above configuration, in the drainage nozzle 4, one end face 41c of the outer peripheral portion 41 abuts against the drain nozzle blocking member 13, and the other end surface 41d of the outer peripheral portion 41 is connected to the outer wall side pipe ( Since it is formed inside the outer wall side pipe 11 in a state in contact with or close to the convex portion 11h of 11), the operator removes the drain nozzle 4 from the one end side opening 11f of the outer wall side pipe 11. Since positioning of the drain nozzle 4 in the axial direction is achieved only by inserting it inside the outer wall side pipe 11 and attaching the drain nozzle blocking member 13 , the drain nozzle 4 is mounted Work and exchange work can be performed easily.

In some embodiments described above, the drain nozzle fixing device 1 includes the first inner pipe 141 connected to the other end 11c of the outer wall side pipe 11 as shown in FIG. 2 . (Inside piping 14) is further provided. And the outer wall side pipe 11 is provided with the flange part 11i which protrudes outward from the outer side surface 11d of the other end part 11c. In the outer wall side pipe 11, the flange sections 11i and 141d are fastened in a state in which the end face of the flange section 11i is in contact with the end face of the flange section 141d of the first inner pipe 141. , being fixed to the first inner pipe 141 . Here, the outer wall side pipe 11 and the first inner pipe 141 are a male screw member 7 and a nut member ( 8) By screwing together, the flange portions 11i and 141d are fastened to each other.

In some other embodiments, the drain nozzle fixing device 1 includes the outer wall side pipe 11 having the above-described convex portion 11h, the above-mentioned hull outer wall 12, and the above-mentioned drain nozzle blocking device. The member 13 and the at least one desulfurization drainage rectifying member 15 described above are provided, and the drainage nozzle 4 is formed inside the outer wall side pipe 11 . And, as shown in FIG. 7, the desulfurization wastewater rectifying member 15 has the other end 42f on the opposite side to the one end 42e on the side of the hull outer wall 12 of the outer peripheral part 41 of the drain nozzle 4, , is sandwiched between the convex portions 11h of the outer wall side pipe 11 and is fixed.

As shown in FIG. 7 , the desulfurization drain rectifying member 15 has a diameter dimension of the outer circumferential surface 15a such that it can be inserted inside the inner surface 11e of the outer wall side pipe 11 , the drain nozzle 4 . It is formed with a diameter dimension substantially the same as the diameter dimension of the outer peripheral surface 41a of the outer peripheral part 41 of. And, as for the desulfurization drainage rectifying member 15, one end surface 15b is in contact with the other end surface 41d of the outer peripheral part 41 of the drain nozzle 4, and the other end surface 15c is the outer wall side pipe 11 ) in contact with the stepped surface 11k of the convex portion 11h.

According to the above configuration, since the desulfurization wastewater rectifying member 15 rectifies the desulfurization wastewater Wd before being stirred by the drain nozzle 4 , the efficiency of the drain nozzle 4 can be improved. In addition, the desulfurization drainage rectifying member 15 is only inserted into the outer wall side piping 11 before the drainage nozzle 4, and the other end 41f of the outer peripheral portion 41 of the drainage nozzle 4 and the outer wall side piping It is sandwiched between the convex portions 11h of (11) and fixed. For this reason, the attachment operation|work of the desulfurization waste_water|drain rectification|straightening member 15 and replacement|exchange operation can be performed easily.

Fig. 9 is a cross-sectional view showing a drain nozzle fixing device according to another embodiment of the present invention, showing a state in which a key is inserted into a key groove formed in an outer peripheral portion of the drain nozzle and an outer wall side pipe. Fig. 10 is a cross-sectional view showing a drain nozzle fixing device according to another embodiment of the present invention, showing a state in which an outer periphery of the drain nozzle and a drain nozzle blocking member are bolted to each other. 11 is a front view of the drain nozzle shown in FIG. 10 .

In some other embodiments, the drainage nozzle fixing device 1 includes the above-described outer wall side pipe 11 , the above-mentioned hull outer wall 12 , and the above-mentioned drainage nozzle blocking member 13 , , a drain nozzle 4 is formed inside the outer wall side pipe 11 . And the drainage nozzle fixing device 1 is a hole (female threaded part) formed in the one end 41e of the hull outer wall 12 side of the outer peripheral part 41 of the drainage nozzle 4, as shown in FIGS. 9-11. Further provided with an anti-rotation mechanism 16 having an anti-rotation member 160 (key 161, male screw member 162) inserted in the axial direction into (41j)) or a groove (key groove 41i). are doing

First, the rotation preventing mechanism 16 having the key 161 will be described.

As shown in FIG. 9 , the drain nozzle 4 is provided with a key groove 41i extending from one end surface 41c along the axial direction on the outer peripheral surface 41a of the outer peripheral portion 41 . And as for the outer wall side piping 11, as shown in FIG. 9, the key groove 11m extended along the axial direction from the end surface of the one end part 11b is formed in the inner side surface 11e. Moreover, the hull outer wall 12 is provided with the key groove 12f extending over the inner side surface 12c from the outer side surface 12b along the axial direction on the inner peripheral surface of the opening 12a. Each of the keyway 41i of the drain nozzle 4, the keyway 11m of the outer wall side pipe 11, and the keyway 12f of the hull outer wall 12 is an axis ( The shape of the cross-section perpendicular to 1a) is formed in a U-shape. Moreover, the depth dimension of 11 m of the key grooves of the outer wall side piping 11 and the key groove 12f of the ship body outer wall 12 are formed substantially equal to each other. For this reason, when the keyway 41i of the drain nozzle 4 faces the keyway 11m of the outer wall side piping 11 and the keyway 12f of the hull outer wall 12, the rectangular-shaped internal space 16a ) is defined.

The key 161 is formed in a rectangular parallelepiped shape, and has a thickness dimension larger than the respective depth dimensions of the keyway 41i of the drain nozzle 4 and the keyway 11m of the outer wall side pipe 11 . In addition, the thickness dimension of the key 161 is substantially equal to the sum of the depth dimensions of the keyway 41i and the keyway 11m, or the sum of the depth dimensions of the keyway 41i and the keyway 11m. it will be smaller The key 161 is inserted into the inner space 16a along the axial direction of the key groove 41i from the one end 41e side of the outer peripheral portion 41 of the drain nozzle 4 . Even if the drain nozzle 4 is going to rotate about its axis, since the key 161 is caught on the side surface of the keyway 41i, the rotational movement about the axis is limited.

Next, the rotation preventing mechanism 16 having the external screw member 162 will be described.

As shown in FIG. 10 , the drain nozzle 4 is fixed to the drain nozzle blocking member 13 by bolting with an external screw member 162 (bolt). More specifically, the drain nozzle 4 has a female threaded portion 41j formed along the axial direction from one end face 41c of the outer peripheral portion 41 . And the drain nozzle blocking member 13 is inserted into the inside of the annular recessed part 12d from the outer side surface 12b side of the hull outer wall 12, as shown in FIG. 10, The through-hole 13f A male screw member 162 inserted through the drain nozzle 4 is inserted into the female screw portion 41j along the axial direction from the one end 41e side of the outer peripheral portion 41 of the drain nozzle 4 and is screwed thereinto, whereby the drain nozzle 4 is It is removably fixed to the In addition, since the drain nozzle blocking member 13 is detachably fixed to the hull outer wall 12 as described above, even if the drain nozzle 4 is going to rotate about an axis, the drain nozzle blocking member Since it is fixed to (13), rotational motion about the axis is limited.

According to the above configuration, the drain nozzle fixing device 1 includes a hole (female threaded portion 41j) formed in one end 41e of the outer peripheral portion 41 of the drain nozzle 4 on the hull outer wall 12 side or A rotation preventing mechanism 16 having a rotation preventing member 160 inserted in the groove (key groove 41i) along the axial direction is provided. For this reason, the rotational movement about the axis of the drainage nozzle 4 is restricted, and the positioning of the drainage nozzle 4 in the circumferential direction is performed. Since it does not rotate itself when mixing, the desulfurization wastewater (Wd) can be stirred efficiently.

In some other embodiments, the drainage nozzle fixing device 1 is provided with the above-mentioned outer wall side pipe 11 and the above-mentioned hull outer wall 12 . And the drain nozzle fixing device 1 is the above-mentioned first inner pipe 141 (inner pipe 14) connected to the other end 11c of the outer wall side pipe 11 as shown in FIG. 6 . is additionally provided.

The drain nozzle 4 is provided with a flange portion 41g (first flange portion) protruding outward from the outer peripheral surface 41a at the other end 41f of the outer peripheral portion 41 as shown in FIG. 6 , have. The drain nozzle 4 has a flange portion 41g sandwiched between the other end 11c of the outer wall side pipe 11 and one end 141a of the first inner pipe 141 on the hull outer wall 12 side. In the inserted state, the outer wall side pipe 11 and the first inner pipe 141 are fastened to be detachably fixed to the outer wall side pipe 11 .

According to the above configuration, the positioning of the drain nozzle 4 in the axial direction is achieved only by fixing the flange portion 41g of the drain nozzle 4 to the outer wall side pipe 11, so that the drain nozzle ( 4) Installation work and replacement work can be carried out easily. In addition, only the flange portion 41g of the drain nozzle 4 is fixed to the outer wall side pipe 11 , the rotational motion about the axis of the drain nozzle 4 is restricted, and the circumferential direction of the drain nozzle 4 is limited. Since the positioning in , the drain nozzle 4 itself does not rotate when stirring and mixing the desulfurized wastewater Wd with seawater, the desulfurized wastewater Wd can be stirred efficiently. Moreover, the drain nozzle 4 can be easily removed from the outer wall side piping 11 by releasing the fastening of the outer wall side piping 11 and the inner side piping 14. Further, since the drain nozzle fixing device 1 does not need to include the drain nozzle blocking member 13 described above, the number of parts can be reduced.

In some other embodiments, the drain nozzle fixing device 1 includes an outer wall-side pipe 11 having the above-described flange portion 11i (second flange portion) as shown in FIG. 6 , and the above-described The hull outer wall 12 and the 1st inner side pipe 141 which has the above-mentioned flange part 141d (3rd flange part) are provided, and the flange part 41g inside the outer wall side pipe 11 (the first) A drain nozzle 4 having one flange portion) is formed. Then, the drain nozzle 4 is disposed on the outer wall side in a state where the flange portion 41g is fitted between the flange portion 11i of the outer wall side pipe 11 and the flange portion 141d of the first inner pipe 141 . When the flange portion 11i of the pipe 11 and the flange portion 141d of the first inner pipe 141 are fastened, it is detachably fixed to the outer wall side pipe 11 . Here, the outer wall side pipe 11 and the first inner pipe 141 are formed in the respective flange portions 11i and 141d and the through-holes 11j and 41h formed in the flange portion 41g of the drain nozzle 4, By screwing the male screw member 7 and the nut member 8 through 141f), the flange portion 11i of the outer wall side pipe 11 and the flange portion 141d of the first inner pipe 141 are fastened. has been

According to the above configuration, in the drain nozzle 4, the flange portion 41g is sandwiched by the flange portion 11i of the outer wall side pipe 11 and the flange portion 141d of the first inner pipe 141. In the inserted state, the flange part 11i of the outer wall side pipe 11 and the flange part 141d of the 1st inner side pipe 141 are fastened, so that it is detachably fixed to the outer wall side pipe 11. For this reason, since the flange part 41g of the drain nozzle 4 is fixed in a state in surface contact with the flange part 11i of the outer wall side pipe 11 or the flange part 141d of the first inner pipe 141, The drain nozzle 4 can be firmly fixed to the outer wall side pipe 11 .

In some other embodiments, the drainage nozzle fixing device 1 includes the above-described outer wall-side pipe 11, the above-described hull outer wall 12, and the above-described flange portion ( The first inner pipe 141 having a 141e) and the second inner pipe 142 having the above-described flange portion 142c are provided, and a flange portion 41g is provided inside the outer wall side pipe 11, , the drain nozzle 4 removably fixed to the outer wall side pipe 11 by fastening the outer wall side pipe 11 and the first inner side pipe 141 is formed. The first inner pipe 141 is formed to have a longer length in the axial direction than the drain nozzle 4 .

The first inner pipe 141 is a state in which the end face of the flange portion 141e is brought into contact with the end face of the flange portion 142c of the second inner pipe 142, and the flange portions 141e and 142c are fastened to each other, It is detachably fixed to the 2nd inner side pipe (142). Here, the first inner pipe 141 and the second inner pipe 142 are a male screw member 7 and a nut that are inserted through the through holes 141g and 142d formed in the flange portions 141e and 142c of each other. When the member 8 is screwed together, the flange portions 141e and 142c are fastened to each other.

According to the above configuration, since the first inner pipe 141 is formed to have a longer length in the axial direction than the drain nozzle 4, the first inner pipe 141 is connected to the outer wall side pipe 11 or the second inner side pipe. It becomes possible to remove the drain nozzle 4 from the outer wall side piping 11 only by removing it from the piping 142. As shown in FIG. For this reason, the installation operation and replacement operation of the drain nozzle 4 can be performed easily.

Further, in the above configuration, when the first inner pipe 141 is formed to have a shorter length in the axial direction than the second inner pipe 142, the first inner pipe 141 is connected to the outer wall side pipe 11 ) or the second inner pipe 142 can be easily removed.

In some other embodiments, the drainage nozzle fixing device 1 includes the above-mentioned outer wall side pipe 11, the above-mentioned hull outer wall 12, and the above-mentioned desulfurization drainage rectification, as shown in Fig. 8 . The member 15 and the first inner pipe 141 described above are provided, and the drain nozzle 4 is formed inside the outer wall side pipe 11 . And as shown in FIG. 8, the desulfurization wastewater rectifying member 15 is between the other end 41f of the outer peripheral part 41 of the drain nozzle 4, and the one end 141a of the 1st inner side pipe 141. inserted and fixed in

As for the desulfurization drainage rectifying member 15, as shown in FIG. 8, the diameter of the outer peripheral surface 15a is the diameter dimension of the outer peripheral surface of the flange part 11i of the outer wall side pipe 11, The outer peripheral part of the drainage nozzle 4 The diameter dimension of the outer peripheral surface of the flange part 41g of 41, and the diameter dimension of the outer peripheral surface of the flange part 141d of the 1st inner side pipe 141 are formed to have substantially the same diameter dimension. Further, as for the desulfurization drainage rectifying member 15, one end surface 15b is in contact with the end face of the above-described flange portion 41g, and the other end surface 15c is the flange portion of the first inner pipe 141 ( 141d).

And the desulfurization drainage rectifying member 15, together with the flange part 41g of the drain nozzle 4, the flange part 11i of the outer wall side pipe 11, and the flange part 141d of the 1st inner side pipe 141 ), the flange portion 11i of the outer wall side pipe 11 and the flange portion 141d of the first inner side pipe 141 are fastened to be detachably fixed to the outer wall side pipe 11 . . Here, the outer wall side pipe 11 and the first inner pipe 141 are formed in the respective flange portions 11i and 141d, the flange portion 41g of the drain nozzle 4 and the desulfurization drainage rectifying member 15, By screwing the male screw member 7 and the nut member 8 through the through-holes 11j, 41h, 15e, 141f, the flange portion 11i of the outer wall side pipe 11 and the first inner pipe ( The flange portion 141d of the 141 is fastened.

According to the above configuration, since the desulfurization wastewater rectifying member 15 rectifies the desulfurization wastewater Wd before being stirred by the drain nozzle 4 , the efficiency of the drain nozzle 4 can be improved. In addition, the desulfurization drainage rectifying member 15 is only sandwiched between the drain nozzle 4 and the first inner pipe 141 when the outer wall side pipe 11 and the first inner pipe 141 are fastened, It is fitted between the other end 41f of the outer peripheral portion 41 of the drain nozzle 4 and the one end 141a of the first inner pipe 141 . For this reason, the installation operation|work and replacement operation|work of the desulfurization wastewater rectification|straightening member 15 can be performed easily.

In addition, although the desulfurization wastewater rectification|straightening member 15 mentioned above is provided with a plurality of circular through-holes 15d, the respective opening diameters may be different. In addition, the through hole 15d is not limited to a circular shape, It may be formed in the shape of an elongate hole, a polygonal shape, etc. Moreover, the drainage nozzle fixing device 1 may be configured to include a plurality of desulfurization drainage rectifying members 15 .

In some other embodiments, the drainage nozzle fixing device 1 includes the above-described outer wall-side piping 11 and the above-mentioned hull outer wall 12 , and includes a drainage nozzle inside the outer-wall side piping 11 . (4) is formed. And the drainage nozzle fixing device 1 is integrally fixed to the inner surface 12c (ship inner wall surface) of the hull outer wall 12 as shown in FIGS. 12 and 13, and the outer wall side piping 11 and at least one reinforcing member 17 integrally fixed to the outer surface 11d of the .

As shown in Figs. 12 and 13, the reinforcing member 17 has one surface 17a in contact with the outer surface 11d of the outer wall side pipe 11, and adjacent to the one surface 17a and one surface 17a. It is formed in the shape of a triangular prism which has the other surface 17b which abuts the inner side surface 12c of the hull outer wall 12 as a right-angled surface. Then, the reinforcing member 17 is formed on the outer wall side by joining portions adjacent to each other abutting portions by welding in a state in which one surface 17a is in contact with the outer surface 11d of the outer wall side pipe 11 . It is integrally fixed to the outer surface 11d of the pipe 11. As shown in FIG. In addition, the reinforcing member 17 is a hull outer wall ( 12) is integrally fixed to the inner surface 12c.

According to said structure, the ship body outer wall 12 and the outer wall side piping 11 can be reinforced with the reinforcement member 17. As shown in FIG. In addition, since the outer wall side pipe 11 is reinforced by the reinforcing member 17, the thickness of the outer wall side pipe 11 can be made thin by that much, and the weight and cost increase of the outer wall side pipe 11 can be prevented. have.

In addition, in embodiment mentioned above, although the reinforcement member 17 was formed in the shape of a triangular prism, it may be formed in other shapes, such as a triangular pyramid shape, for example.

In some other embodiments, the drainage nozzle fixing device 1 includes the above-described outer wall-side piping 11 and the above-mentioned hull outer wall 12 , and includes a drainage nozzle inside the outer-wall side piping 11 . (4) is formed. In the drain nozzle fixing device 1, as shown in Figs. 12 and 13, an acid-resistant film is formed on the inner surface 11e of the outer wall-side pipe 11. As shown in Figs. Here, as an example of an acid-resistant film, there exists a rubber lining which adhere|attaches the sheet-like covering member 18, such as acid-resistant rubber, to the target surface.

More specifically, in some embodiments, as shown in FIG. 12 , the inner surface 11e of the outer wall side pipe 11 having the convex portion 11h described above, and the inner surface of the convex portion 11h and a covering member 18 is adhered to the step surface 11k. Moreover, the inner peripheral surface of the opening 12a of the hull outer wall 12, the inner peripheral surface and the bottom surface 12e of the annular recessed part 12d, and the inner peripheral surface 141c of the 1st inner side pipe 141 also cover member 18. is glued For this reason, in the drainage nozzle 4, the outer peripheral surface 41a of the outer peripheral portion 41 sandwiches the covering member 18 between the inner surface 11e of the outer wall side pipe 11 and the opening ( 12a) is arranged without a gap with respect to the inner circumferential surface. In addition, in the drain nozzle 4, the other end face 41d of the outer peripheral portion 41 abuts against the covering member 18 formed on the step surface 11k of the outer wall side pipe 11 described above. The drain nozzle blocking member 13 has an inner surface 13d interposed with the covering member 18 therebetween and is disposed without a gap with respect to the bottom surface 12e of the annular recessed portion 12d, and the outer surface (13c) is substantially flush with the outer surface 12b of the hull outer wall 12.

Moreover, in some other embodiment, as shown in FIG. 13, the flange part 41g of the outer peripheral part 41 of the drain nozzle 4 mentioned above is pinched|interposed between the 1st inner side pipe 141 and the A covering member 18 is adhered to the inner surface 11e of the outer wall side pipe 11 to be fastened. Moreover, the covering member 18 is adhere|attached also to the inner peripheral surface 141c of the 1st inner side pipe 141, and the inner peripheral surface 142b of the 2nd inner side pipe 142. As shown in FIG. For this reason, as for the drain nozzle 4, the outer peripheral surface 41a of the outer peripheral part 41 is arrange|positioned with respect to the inner surface 11e of the outer wall side piping 11 with the covering member 18 interposed therebetween|gap.

In the drain nozzle fixing device 1 described above, since the acid-resistant film is formed on the inner surface 11e of the outer-wall-side pipe 11 , a material with low acid resistance can be used for the outer-wall-side pipe 11 .

In the above-described embodiment, as an example of the acid-resistant film, a rubber lining in which the sheet-like coating member 18 such as acid-resistant rubber is adhered to the target surface is mentioned. Applying to the surface used as this is mentioned.

This invention is not limited to embodiment mentioned above, The form which added deformation|transformation to the above-mentioned embodiment, and the form which combined these forms suitably are also included.

In addition, in some of the above-described embodiments, each of the first inner pipe 141 and the second inner pipe 142 has an axis line on the same straight line as that of the axis line 1a of the drain nozzle fixing device 1 . Although it has arrange|positioned so that it may become possible, you may arrange|position so that an axis line may not be collinear with respect to the axis line 1a of the drain nozzle fixing device 1 . In addition, in some embodiments described above, in the outer wall side pipe 11, the diameter dimension of the inner surface 12c of the portion excluding the convex portion 11h was formed constant, but it is not limited thereto, As it approaches the one end 11b side, the diameter dimension may gradually become larger than the other end 11c side, or you may become small gradually. In this case, the outer peripheral portion 41 of the drain nozzle 4 may be changed to a shape corresponding to the shape of the outer wall side pipe 11 .

Moreover, the drain nozzle 4 in some embodiment mentioned above was equipped with the outer peripheral part 41, the nozzle part 42 which has at least one blade|wing 42a, and the shaft part 43, but , but not limited thereto, by stirring the desulfurization wastewater (Wd) treated by the desulfurization device (3) formed in the hull (21) to promote mixing with the seawater (Ws) around the hull (21), and , as long as it is formed inside the outer wall side pipe 11, it may be of any kind.

1: Drain nozzle fixture
1a: axis
11: outer wall side piping
11a: interior space
11b: one end
11c: the other end
11d: outer side
11e: inner side
11f: one end side opening
11g: opening at the other end
11h: convex
11i: flange part
11j: through hole
11k: step surface
11m: keyway
12: hull outer wall
12a: opening
12b: outer side
12c: inner side
12d: annular recess
12e: bottom
12f : keyway
12g: female thread part
13: drain nozzle blocking member
13a: outer circumferential surface
13b: If I give it to you
13c: outer surface
13d: inner side
13e, 13f: through hole
14: inner pipe
141: first inner pipe
141a: one end
141b: the other end
141c : If I give it to you
141d, 141e: flange part
141f, 141g: through hole
142: second inner pipe
142a: one end
142b: inner side
142c: flange part
142d: through hole
15: desulfurization drainage rectification member
15a: outer circumferential surface
15b: one side
15c: the other section
15d, 15e: through hole
16: rotation prevention mechanism
16a: interior space
160: anti-rotation member
161: key
162: male thread absence
17: reinforcing member
17a: one side
17b: ride
18: covering member
2: Ship
21 : Hull
21a: deck
21b: Inside space
3: Desulfurization device
3a: drainage reservoir
4: drain nozzle
41: outer periphery
41a: outer circumferential surface
41b : If I give it to you
41c: one side
41d: other section
41e: one end
41f: the other end
41g: Flange
41h: through hole
41i : keyway
41j : female thread part
42: nozzle part
42a: wing
43: shaft
5: drain pipe
6, 7: Absence of male thread
8: No nut
Lw: waterline
Wd: desulfurization drainage
Ws: sea water

Claims (14)

A drain nozzle fixing device for fixing a drain nozzle for mixing the desulfurized wastewater discharged from the desulfurization device formed on the hull into seawater by stirring,
an outer wall of the hull having an opening below the waterline;
A normal outer wall side pipe having an internal space over the entire axial direction and having openings at both ends in the axial direction, wherein one end in the axial direction is integrally fixed to an opening edge of the hull outer wall, and an outer wall side pipe in which the one end side opening communicates with the outside of the hull outer wall and the other end in the axial direction is disposed inside the hull outer wall,
The drain nozzle includes a normal outer peripheral portion and a nozzle portion formed inside the outer peripheral portion, and is formed inside the outer wall side pipe,
The outer peripheral surface of the outer peripheral portion is disposed without a gap with respect to the inner surface of the outer wall side pipe,
The drain nozzle fixing device,
A drain nozzle blocking member that is detachably mounted in the vicinity of the opening of the outer wall of the hull and prevents the drain nozzle from escaping from the opening on the one end side of the outer wall side pipe to the outside of the outer wall side pipe do,
The outer wall side pipe includes a convex portion protruding inward from the inner surface of the other end portion,
The drain nozzle is formed inside the outer wall side pipe in a state in which one end surface of the outer peripheral portion abuts against the drain nozzle blocking member, and the other end surface of the outer peripheral portion abuts or approaches the convex portion. Drain nozzle fixture. A drain nozzle fixing device for fixing a drain nozzle for mixing the desulfurized wastewater discharged from the desulfurization device formed on the hull into seawater by stirring,
an outer wall of the hull having an opening below the waterline;
A normal outer wall side pipe having an internal space over the entire axial direction and having openings at both ends in the axial direction, wherein one end in the axial direction is integrally fixed to an opening edge of the hull outer wall, and an outer wall side pipe in which the one end side opening communicates with the outside of the hull outer wall and the other end in the axial direction is disposed inside the hull outer wall,
The drain nozzle includes a normal outer peripheral portion and a nozzle portion formed inside the outer peripheral portion, and is formed inside the outer wall side pipe,
The outer peripheral surface of the outer peripheral portion is disposed without a gap with respect to the inner surface of the outer wall side pipe,
The drain nozzle fixing device,
Further comprising an inner pipe connected to the other end of the outer wall side pipe,
The drain nozzle is
a first flange portion protruding outward from the outer circumferential surface at the other end of the outer circumferential portion opposite to one end of the hull outer wall side;
In a state where the first flange portion is sandwiched between the other end of the outer wall side pipe and one end of the inner pipe on the hull outer wall side, the outer wall side pipe and the inner pipe are fastened to thereby the outer wall side pipe Drain nozzle fixing device, characterized in that detachably fixed to the. 3. The method of claim 2,
The outer wall side pipe includes a second flange portion protruding outward from the outer surface of the other end portion,
The inner pipe includes a third flange portion protruding outward from the outer surface of the one end portion,
The drain nozzle is
In a state in which the first flange portion is fitted between the second flange portion and the third flange portion, the second flange portion and the third flange portion are fastened to be detachably fixed to the outer wall side pipe. Drain nozzle fixture. 4. The method of claim 2 or 3,
The inner pipe is
a first inner pipe connected to the outer wall side pipe;
and a second inner pipe connected to the first inner pipe,
The drain nozzle fixing device according to claim 1, wherein the first inner pipe has a length in an axial direction longer than that of the drain nozzle. The method of claim 1,
The drain nozzle fixing device further includes at least one desulfurization wastewater rectifying member for rectifying the desulfurized wastewater before being stirred by the drain nozzle,
wherein the desulfurization drainage rectifying member is fixed by being sandwiched between the outer peripheral portion of the drain nozzle and the other end opposite to the one end on the hull outer wall side and the convex portion of the outer wall side pipe. . 4. The method of claim 2 or 3,
The drain nozzle fixing device further includes at least one desulfurization wastewater rectifying member for rectifying the desulfurized wastewater before being stirred by the drain nozzle,
and the desulfurization drainage rectifying member is fixed by being sandwiched between the other end of the outer periphery of the drain nozzle and the one end of the inner pipe. 6. The method of claim 1 or 5,
The drain nozzle fixing device,
and a rotation preventing mechanism having a rotation preventing member inserted along the axial direction into a hole or groove formed at one end of the outer periphery of the drain nozzle on the outer wall side of the hull. 6. The method according to any one of claims 1 to 3 and 5,
The drain nozzle fixing device further includes at least one reinforcing member that is integrally fixed to the inner wall of the hull outer wall and is integrally fixed to the outer surface of the outer wall side pipe. Nozzle fixture. 6. The method according to any one of claims 1 to 3 and 5,
The drain nozzle fixing device is characterized in that an acid-resistant film is formed on an inner surface of the outer wall side pipe. 6. The method according to any one of claims 1 to 3 and 5,
The drain nozzle fixing device, wherein the drain nozzle is formed of a material having a lower strength than that of the outer wall side pipe. 6. The method according to any one of claims 1 to 3 and 5,
The drain nozzle fixing device according to claim 1, wherein the one end portion of the outer wall side pipe is integrally fixed to the opening edge portion of the hull outer wall by welding. delete delete delete

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