KR20110129510A - Exhaust air duct for containerized diesel generator - Google Patents

Abstract

PURPOSE: An air of the high temperature exhausted through duct to the outside of container can prevent from again flowing in into the inside of the radiator installed at the outside top end portion of container or container. CONSTITUTION: An exhaust air duct for containerized diesel generator comprises a power generator(3), a container(1), a metal duct(5-2), and a canvas duct(5-1). The duct of the metal material is expnded from the exhausting unit of generator as the outside of the container. The air which is used for the cooling of generator and grows warm is discharged to the outside of the container. The metal duct is connected by the medium of the canvas duct to the generator. The damage of the air escape can be prevented in the movement of the exhaust air duct for containerized diesel generator. The metal duct is formed to be expanded to the location higher than the installation height of the radiator formed in the outside top end portion of the container duct. It prevents from the air of the high temperature exhausted through the air escape to outside again flowing into the radiator or the container.

Description

Exhaust Air Duct for Containerized Generators

The present invention relates to an exhaust device of a container built-in power generation equipment, in particular to prevent the exhaust gas discharged through the duct to be introduced into the container or radiator again while preventing damage to the duct caused by the vibration generated when moving the container built-in power plant. The present invention relates to an exhaust device of a container built-in power generation facility having an improved structure to enable more efficient temperature management.

The biggest feature of the container built-in power generation facility is that the main facilities such as diesel engine and generator are provided inside the container for easy movement. Since these diesel engines and generators, which generate a lot of heat during operation, are installed in a limited space within the container, discharging the heat generated from diesel engines or generators to the outside is the life of parts and efficiency of diesel engines and generators. It will act as an important factor in determining.

In particular, the internal temperature of the container refers to the turbocharger inlet temperature of the diesel engine, which is the most important factor in determining the main performance such as fuel consumption. Must be prepared.

1 is a structural diagram showing the structure of a conventional container built-in power generation facility.

On the other hand, in the case of the engine jacket for controlling the temperature of the diesel engine 2, a radiator 4 for discharging the heat absorbed by the coolant to the outside in a manner using the coolant is required, the radiator 4 is a container (1) It is installed on the outer upper end of the.

On the other hand, in the case of the generator 3, the air cooling system is often applied due to the limited container space. The air heated by absorbing the heat inside the generator 3 is transferred to the container 1 through the duct 5. Is discharged to the outside.

However, in the case of the conventional container built-in power generation equipment, hot air discharged through the duct is frequently introduced back into the container or the radiator, which adversely affects the performance of the generator and shortens the life of components. Have

In addition, the duct made of metal material (galvanized steel sheet) is crushed or dislodged by vibration or shock generated when moving the container-generated power generation equipment. This problem is frequently caused at the part where the exhaust part of the generator is connected to the duct. It is occurring.

The present invention has been made in consideration of the above problems, and an object of the present invention is to provide an exhaust device of a container-type power generation equipment that can prevent damage or detachment of the duct during the movement of the container-type power generation equipment.

Another object of the present invention is to provide an exhaust device of a container-type power generation equipment to prevent the hot air discharged to the outside of the container through the duct to be introduced back into the inside of the container or the radiator installed on the outer upper end of the container. have.

Exhaust system of a container built-in power generation equipment of the present invention that achieves the object as described above and to remove the drawbacks of the prior art discharges the heated air to the outside of the container used for cooling the generator in a container built power generation equipment In the exhaust device of the container-type power generation equipment consisting of a metal duct extending from the exhaust of the generator to the outside of the container, the metal duct is connected to the exhaust through the canvas duct to the It is characterized in that to prevent damage to the exhaust device during movement.

On the other hand, the metal duct is formed to extend to a position higher than the installation height of the radiator provided in the outer upper end of the container is configured to prevent the high-temperature air discharged to the outside through the exhaust device to the radiator or container again It is preferable to be.

According to the present invention having the characteristics as described above, it is possible to prevent damage or detachment of the duct that may occur during the movement of the container built-in power plant.

In addition, it is possible to prevent the high temperature air discharged to the outside of the container through the duct back to the radiator or the container to prevent the performance or damage of components such as radiator or generator.

1 is a structural diagram showing the structure of a conventional container built-in power generation equipment,
2 is an internal structural view showing a structure of a container built-in power generation equipment according to an embodiment of the present invention,
Figure 3 is an external structure showing the structure of another container built-in power plant in the preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is an internal structural view showing the structure of a container built-in power generation equipment according to a preferred embodiment of the present invention, Figure 3 is an external structure showing a structure of a container built-in power generation equipment according to a preferred embodiment of the present invention.

The present invention is based on a well-known container built-in power generation equipment installed in the container (1), such as the diesel engine (2) and the generator (3) required for power generation, is used for cooling the generator (3) is hot Improved structure of the duct 5 for discharging the exhausted air to the outside of the container 1 prevents damage to the duct when the container built-in power generation equipment moves, and effectively discharges hot air from the generator to the outside of the container. This is to prevent the performance degradation of the generator and damage to the components.

On the other hand, the well-known container built-in power generation equipment is provided with a diesel engine (2) and a generator (3) inside the container (1), the coolant used for cooling the diesel engine (2) on the outer upper end of the container (1) The radiator 4 is provided for cooling, and the hot air used for cooling the generator 3 is discharged to the side of the container through the duct 5 of the metal material (galvanized steel sheet).

In contrast, the exhaust device of the container-type power generation equipment of the present invention comprises a canvas duct 5-1 and a metal material in forming the duct 5 extending from the exhaust part of the generator 3 to the outside of the container 1. The ducts 5-2 were combined to form a duct for exhausting hot air.

On the other hand, the canvas duct (5-1) is composed of asbestos woven asbestos as known, is installed in the exhaust portion of the generator (3) connecting the metal duct (5-2) and the generator (3) By acting as a medium, the vibration and shock generated during the movement of the container-type power generation equipment is absorbed to prevent damage or departure of the duct.

The metal duct 5-2 is formed to extend from the canvas duct 5-1 to the outside of the container 1 to guide the hot air discharged from the generator 3 to the outside of the container 1. Preferably, it is formed to extend to a position higher than the installation height (h) of the radiator (4).

According to the structure of the metal duct 5-2, the hot air discharged to the atmosphere through the metal duct 5-2 is piggybacked by the hot air flow released from the radiator 4 to rise. By doing so, it is possible to prevent the hot air discharged through the duct to be introduced back into the radiator or container.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

<Explanation of symbols for the main parts of the drawings>
(1): container (2): diesel engine
(3): generator (4): radiator
(5): Duct (5-1): Canvas Duct
(5-2): Metal Duct

Claims (2)

Metal ducts (5) extending from the exhaust of the generator (3) to the outside of the container (1) to discharge hot air used for cooling the generator (3) in a container built-in power generation facility (5). In the exhaust device of the container built-in power generation equipment consisting of -2),
The metal duct 5-2 is connected to the generator 3 via a canvas duct 5-1 to prevent the damage of the exhaust system during movement of the container-type power generation facility. Exhaust system of built-in power generation equipment. The method of claim 1,
The metal duct 5-2 is formed to extend to a position higher than the installation height h of the radiator 4 provided at the outer upper end of the container 1, and is discharged to the outside through the exhaust device. Exhaust device of a container-type power generation equipment, characterized in that is prevented from flowing back to the radiator or container.

Images