KR200480138Y1 - Exhaust Gas Pipe System Including Removable Insulation Structure - Google Patents

Abstract

An exhaust gas piping system including a removable insulation structure is disclosed. An exhaust gas pipe system of the present invention is a pipe system for exhausting exhaust gas generated from a main generator engine of a ship or an offshore facility. The exhaust system includes a pipe through which exhaust gas generated from the main generator engine is discharged; A bellows connected to the pipe; And a detachable insulating structure surrounding the pipe and the bellows.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an exhaust gas pipe system including a removable insulation structure,

The present invention relates to an exhaust gas pipe system including a detachable insulation structure, and more particularly to an exhaust gas pipe system including a removable insulation structure surrounding a bellows connected to an exhaust pipe of a main generator engine.

In marine engines, considerable vibration and heat are generated during operation. Such vibration and heat damage the structure around the engine. Therefore, vibration and heat expansion due to engine vibration must be absorbed and mitigated.

In order to discharge the exhaust gas generated during the operation of the marine engine from the exhaust valve to the engine through the exhaust pipe and the turbo charger, there is a thermal deformation due to the high temperature generated during the operation of the engine, Flexible connectors and bellows are provided to absorb vibration in a flexible manner to protect the engine from vibration and thermal deformation. Also, the exhaust pipe and the bellows are enclosed by an insulating material and cut off from the outside.

1 is a cross-sectional view schematically showing an example of a pipe section of an exhaust pipe of such a conventional bellows connecting portion.

1, a bellows 2 is flanged to a cylindrical pipe 1 through which the exhaust gas of a marine engine is discharged. The bellows 2 is connected to the outer wall of the bellows 2, Is surrounded by the insulating material (3).

A wall 4 made of a galvanized steel sheet surrounds the outside of the insulating material 3.

However, since the insulating material 3 and the wall 4 have a single structure, it is difficult to manufacture a large ring-shaped wall itself, and also to install the bellows 2 in the pipe 1 and the bellows 2 It was also tricky. In addition, the bellows can easily be deformed or cracked due to the vibration and heat generated by the engine operation. In order to check such breakage or replace the bellows, it is necessary to remove both the insulating material and the wall. Therefore, the work is troublesome, There is a problem in that it can not be reused and the cost is also increased.

The present invention has been made in order to solve such a conventional problem, and it is an object of the present invention to provide an exhaust gas purification apparatus and a method of manufacturing the same, in which even if breakage confirmation or replacement work of a bellows is required, Pipe system.

According to one aspect of the present invention, there is provided a pipe system for discharging exhaust gas generated from a main generator engine of a ship or an offshore facility,

A pipe through which exhaust gas generated in the main generator engine is discharged;

A bellows connected to the pipe; And

And a detachable insulating structure surrounding the pipe and the bellows.

The insulating structure may include a fixed insulating portion provided to surround the pipe and a detachable insulating portion connected to the fixed insulating portion to surround the bellows.

The fixed insulation part may include a pipe insulation material surrounding the outer wall surface of the pipe, and a pipe insulation material wall surrounding the outer surface of the insulation material.

The pipe insulation material wall may be provided with a coupling portion for connection of the detachable insulation portion.

The detachable insulation portion may include a bellows insulating material that surrounds and insulates the outer side of the bellows.

The bellows insulating material is made of ceramic fiber, and the surface of the bellows insulating material is made of heat-resistant ceramic fiber in the form of a wire mesh, and can be coated with tungsten or silicon.

The bellows insulating material may be provided with a connecting member for connecting to the fixed insulating portion.

The connecting member may include a plurality of hooks provided on the bellows insulating material, and wires provided on both ends of the bellows insulating material.

The wire may be connected to the coupling portion to fix the bellows insulating material to the fixed insulating portion, pass the plurality of hooks in a zigzag manner, and fix the bellows insulating material so as to surround the bellows.

In the exhaust pipe system of the present invention, when the bellows breakage confirmation or replacement work is required, only the detachable insulation portion is removed, and the detachable insulation portion can be connected again after the completion of the operation. Therefore, the exhaust gas pipe system of the present invention does not require re-work of the insulating material and the wall, so that the replacement of the bellows becomes easy and it is economical because it can be used semi-permanently.

1 is a cross-sectional view schematically showing a pipe section of a conventional bellows connecting portion.
2 is a cross-sectional view schematically illustrating a cross-section of an exhaust pipe system including a removable insulation structure, according to one embodiment of the present invention.
3 is an enlarged view of a portion A shown in Fig.
Figure 4 schematically illustrates the appearance of a detachable insulation secured by hooks and wires in an exhaust pipe system including a detachable insulation structure according to one embodiment of the present invention.
5 is an exterior photograph of an exhaust pipe system including a removable insulation structure according to one embodiment of the present invention.
Figure 6 schematically illustrates a main generator engine system with an exhaust gas pipe system including a removable insulation structure according to one embodiment of the present invention.

In order to fully understand the advantages of the present invention, its operational advantages, and the objects attained by the practice of the present invention, reference should be made to the accompanying drawings, which illustrate preferred embodiments of the present invention, and to the description in the accompanying drawings.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

2 is a cross-sectional view schematically illustrating a cross-section of an exhaust pipe system 300 including a removable insulation structure, according to one embodiment of the present invention.

According to one embodiment of the present invention, the exhaust gas pipe system 300 is a pipe system for exhausting exhaust gas generated in the main engine 100 of a marine or marine facility, A bellows 320 connected to the pipe 310 and a detachable insulating structure 330 surrounding the pipe 310 and the bellows 320 to exhaust the exhaust gas generated in the bellows 200 .

The engine 200 is connected to a bellows 320 between the pipes 310 at the upper portion of the engine 200. The bellows 320 is connected to the engine 200, The engine 200 can be protected from vibration and thermal deformation by allowing the engine 200 to elastically absorb thermal deformation and vibration due to the high temperature generated during operation.

In this embodiment, the pipe 310 and the bellows 320 are enclosed by a detachable insulating structure 330.

The insulating structure 330 may include a fixed insulating portion 331 that surrounds the pipe 310 and a removable insulating portion 332 that is connected to the fixed insulating portion 331 and surrounds the bellows 320.

The fixed insulation portion 331 may include a pipe insulation material 331a surrounding the outer wall surface of the pipe 310 and a pipe insulation material wall 331b surrounding the outer surface of the insulation material.

The fixed insulating portion 331 is composed of a pipe insulating material 331a in a fixed state and a pipe insulating material wall body 331b surrounding the pipe in a manner similar to a conventional pipe and bellows insulating structure.

The pipe insulation 331a may be selected from known insulation materials considering the insulation effect and the installation cost. For example, a mineral wool may be used.

The pipe insulation material wall (331b) can also be selected in consideration of insulation effect, installation cost, and durability. For example, it can be made of galvanized steel sheet.

The pipe insulation member wall 331b may be provided with a coupling portion 331c for connection of the detachable insulation portion 332. [

In this embodiment, the coupling portion 331c may have a structure in which the wire of the detachable insulation portion 332 is hooked on the coupling portion 331c in the form of a ring as shown in FIG. 3, 331c.

The detachable insulating portion 332 includes a bellows insulating material 332a that surrounds and insulates the outside of the bellows.

The bellows insulating material 332a is made of ceramic fiber, and the surface thereof is made of heat-resistant ceramic fiber in the form of a wire mesh and coated with tungsten or silicon.

In other words, the outer surface of the insulating material made of the ceramic fiber is coated with the heat-resistant ceramic fiber in the form of a wire mesh. An external view of the bellows insulating material 332a can be seen in the photograph of FIG.

The expansion of the bellows insulating material 332a may be a rectangular or thick mat or duvet.

The bellows insulating member 332a may be provided with a connecting member for connecting to the fixed insulating member 331. [

The connecting member may include a plurality of hooks 332b provided in the bellows insulating material 332a and wires 332c provided at both ends of the bellows insulating material 332a.

The wire 332c is connected to the coupling portion so that the bellows insulating material 332a is fixed to the fixed insulating portion and the plurality of hooks 332b pass through the zigzag and the bellows insulating material 332a is fixed so as to surround the bellows.

That is, the wire 332c is wound around the coupling portion 331c of the fixed insulating portion to fix the bellows insulating material 332a in a primary direction, and the wires 332c cross each other to wind the plurality of hooks 332b in a zigzag shape, 332a are completely fixed. The appearance of the detachable insulation portion 332 fixed by the wire 332c and the hook 332b is schematically shown in Fig.

If it is necessary to confirm the crack of the bellows or replace the bellows, it is possible to work with the detachable insulation part 332 removed by simply unscrewing the wire 332c. When the operation is completed, the detachable insulation part 332, Can be attached.

The bellows insulating material 332a may be selected from other suitable insulating materials known in addition to the ceramic fibers.

As described above, in the exhaust pipe system 300 of the present embodiment, the bellows can easily be fatigued and deformed or cracked due to vibration and heat due to engine operation. Even when bellows damage confirmation or replacement work is required, 332c to remove only the detachable insulation portion 332, and then the detachable insulation portion 332 can be reconnected after the completion of the operation.

The exhaust pipe system of the present invention therefore simplifies the bellows replacement process since it does not require the removal of the insulating material and walls needed to replace the bellows and the rework of the insulation and the walls after replacement of the bellows. Also, since the detachable insulating part can be used semi-permanently, the cost can be reduced, which is economical.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the appended claims. Accordingly, such modifications or variations should fall within the scope of claims for utility model registration of the present invention.

100: Main generator
200: engine
300: Exhaust gas piping system including a removable insulation structure
310: pipe
320: Bellows
330: Insulation structure
331: Fixed insulation part
331a: pipe insulation
331b: Pipe insulation wall
331c:
332: Detachable insulation part
332a: bellows insulating material
332b: Hook
332c: wire

Claims (9)

A piping system for discharging exhaust gas generated from a main generator engine of a marine or marine facility,
A pipe through which exhaust gas generated in the main generator engine is discharged;
A bellows connected to the pipe; And
And a detachable insulating structure surrounding the pipe and the bellows,
Wherein the insulating structure comprises:
A stationary insulating part constituting a part of the insulating structure and enclosing the pipe; And
A detachable insulation part constituting another part of the insulation structure and connected to the fixed insulation part to surround the bellows; / RTI >
The fixed-
A pipe insulation surrounding the outer wall of the pipe; And
A pipe insulator wall surrounding the outside of the pipe insulator; / RTI >
Wherein the pipe insulation material wall is provided with a coupling portion for connection of the detachable insulation portion,
Wherein the coupling portion has a ring shape so that the stationary insulation portion is connected to the detachable insulation portion,
Exhaust gas piping system. delete delete delete The method according to claim 1,
Wherein the detachable insulation portion includes a bellows insulating material that surrounds and insulates the outer side of the bellows. 6. The method of claim 5,
Wherein the bellows insulating material is made of ceramic fiber, and the surface of the bellows insulating material is made of a heat-resistant ceramic fiber in the form of a wire mesh and coated with tungsten or silicon. 6. The method of claim 5,
Wherein the bellows insulating material is provided with a connecting member for connecting to the fixed insulating portion. 8. The connector according to claim 7, wherein the connecting member
A plurality of hooks provided on the bellows insulating material; And
And a wire provided at both ends of the bellows insulating material. 9. The method of claim 8,
Wherein the wire is provided on a wall of a pipe insulation material surrounding an outer side of the pipe insulation material surrounding the outer wall of the pipe and is connected to a coupling part for connection of the detachable insulation part to fix the bellows insulation material to the fixed insulation part, And the bellows insulating material is fixed so as to surround the bellows.

Images