EXHAUST GAS TREATMENT DEVICE FOR CONSTRUCTION MACHINE
An exhaust gas treatment apparatus for a construction machine is provided, which is connected to a diesel particulate filter trap (DPF) to discharge exhaust gas from an engine to outside through the DPF. The exhaust gas treatment apparatus for a construction machine includes a tail pipe main body provided with a plurality of ventilation holes penetratingly formed on the tail pipe main body to allow the outside air to pass through the ventilation holes, and installed on an outlet of the DPF; an exhaust heat dissipation unit provided with a plurality of tubes which respectively communicate with the ventilation holes, and are installed in a horizontal direction of the tail pipe main body; and a plurality of exhaust holes located in a longitudinal direction of the tubes and penetratingly formed in an exhaust gas discharge direction.
Latest VOLVO CONSTRUCTION EQUIPMENT AB Patents:
The present invention relates to an exhaust gas treatment apparatus for a construction machine. More particularly, the present invention relates to an exhaust gas treatment apparatus for a construction machine, which is connected to a diesel particulate filter trap (DPF) to discharge exhaust gas from an engine to outside through the DPF, and can lower the temperature of the exhaust gas that is discharged in the air using heat exchange effects between the high-temperature exhaust gas and tubes for guiding external air, that has exhaust holes in an exhaust direction so that the tubes communicate with ventilation holes formed on a tail pipe main body.
BACKGROUND ARTA tail pipe is a pipe which is located in the rear of a heavy equipment muffler to guide exhaust gas, which has substantially stabilized pressure as passing through several partitions, to be discharged in the air.
Therefore, the present invention has been made to solve the above-mentioned problems occurring in the related art, and one subject to be achieved by the present invention is to prepare a tail pipe which can efficiently lower the maximum temperature of an exhaust gas by making the exhaust gas discharged from the tail pipe exchange heat with outside air over the whole area in the tail pipe.
Technical SolutionIn accordance with an aspect of the present invention, an exhaust gas treatment apparatus for a construction machine, which is connected to a diesel particulate filter trap (DPF) to discharge exhaust gas from an engine to outside through the DPF, includes a tail pipe main body provided with a plurality of ventilation holes penetratingly formed on the tail pipe main body to allow the outside air to pass through the ventilation holes, and installed on an outlet of the DPF; an exhaust heat dissipation unit provided with a plurality of tubes which respectively communicate with the ventilation holes, and are installed in a horizontal direction of the tail pipe main body; and a plurality of exhaust holes located in a longitudinal direction of the tubes and penetratingly formed in an exhaust gas discharge direction.
Vertical cross-sections of the tail pipe main body and the tube may be in a circular shape. It is preferable that three or five exhaust holes are provided in the longitudinal direction of the tubes and in the exhaust gas discharge direction. It is preferable that three tubes are provided in the horizontal direction on the same surface of the tail pipe main body.
Advantageous EffectAccording to the present invention, since the exhaust gas discharged from the tail pipe exchanges heat with the outside air over the whole area in the tail pipe, the maximum temperature of the exhaust gas can be efficiently lowered, and accidents, which may occur due to the high temperature of the exhaust gas during working, can be prevented from occurring.
The above objects, other features and advantages of the present invention will become more apparent by describing the preferred embodiments thereof with reference to the accompanying drawings, in which:
Now, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.
Referring to
Since the tubes 200 are installed to communicate with the ventilation hOoles 110 of the tail pipe main body 100, outside air can easily enter into the tubes 200. The air that has entered into the tubes 200 is mixed with high-temperature exhaust gas through the plurality of exhaust holes which are penetratingly formed in an exhaust direction 400 to be discharged to the outside. The ventilation holes 110 are penetratingly formed on the tail pipe main body 100 to inhale the outside air therethrough.
Since the plurality of ventilation holes 110 are provided as shown in
The tubes 200 located inside the tail pipe main body 100 are designed so that the tubes 200 can be installed to communicate with the ventilation holes 110 of the tail pipe main body 100 and the outside air can pass through the tubes 200. Since the tubes 200 have the plurality of exhaust holes 210, the air inhaled from the outside can be discharged through the exhaust holes 210 penetratingly formed in the exhaust direction 400. In this case, the air inhaled from the outside is mixed with the high-temperature exhaust gas to reduce the temperature of the exhaust has.
Long arrows in a direction that is vertical to the tube 200 indicate high-temperature exhaust gas that flows at high speed, and arrows that come into the tube 200 indicate low-temperature outside air that flows at low speed. Since the tubes 200 are installed to communicate with the tail pipe main body 100 that is provided with the plurality of ventilation holes 110, the high-temperature exhaust gas is not discharged to the outside as it is, but is mixed with the outside air to lower the temperature of the exhaust gas. The outside air, which is inhaled into the tubes 200, is mixed with the exhaust gas through the exhaust holes 210 which are penetratingly formed in the exhaust gas discharge direction 400 that is the longitudinal direction of the tubes 200, and the mixed gas is discharged in the air. If the high-temperature exhaust gas, which is discharged from the DPF, passes through the tubes 200 at high speed, minimum pressure is formed in the exhaust holes 210 which are penetratingly formed on the tubes 200, and due to this, negative pressure is formed to inhale the outside air. The air that comes from the outside not only is mixed with the high-temperature exhaust gas that is discharged from the DPF but also transfers heat to the tubes 200, and thus the temperature of the exhaust gas is reduced.
Vertical cross-sections of the tail pipe main body 100 and the tube 200 may be in various shapes and may not be specially limited. However, they are normally in a circular shape. It is preferable that three or five exhaust holes 210 are provided in the longitudinal direction of the tubes 200 that is the exhaust gas discharge direction. If the number of exhaust holes is too small or too large, it may be inappropriate to inhale the outside air and to mix the inhaled air with the exhaust gas. It is preferable that three tubes 200 are provided in the horizontal direction on the same surface of the tail pipe main body 100. If the number of the tubes 200 is smaller than or larger than three, it may be inappropriate to inhale the outside air and to mix the inhaled air with the exhaust gas.
Although preferred embodiments of the present invention have been described for illustrative purposes, the present invention is not limited to the above-described embodiments, and those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. Accordingly, the scope of the present invention is defined by the appended claims, and it will be understood that all technical features in the equivalent range fall within the scope of the present invention.
INDUSTRIAL APPLICABILITYAs apparent from the above description, the present invention can be used in the exhaust gas treatment apparatus for a construction machine that is installed in the DPF to discharge the exhaust gas, which flows from the engine to the DPF, to the outside.
Claims
1. An exhaust gas treatment apparatus for a construction machine, which is connected to a diesel particulate filter trap (DPF) to discharge exhaust gas from an engine to outside through the DPF, comprising:
- a tail pipe main body provided with a plurality of ventilation holes penetratingly formed on the tail pipe main body to allow the outside air to pass through the ventilation holes, and installed on an outlet of the DPF;
- an exhaust heat dissipation unit provided with a plurality of tubes which respectively communicate with the ventilation holes, and are installed in a horizontal direction of the tail pipe main body; and
- a plurality of exhaust holes located in a longitudinal direction of the tubes and penetratingly formed in an exhaust gas discharge direction.
2. The exhaust gas treatment apparatus for a construction machine according to claim 1, wherein vertical cross-sections of the tail pipe main body and the tube are in a circular shape.
3. The exhaust gas treatment apparatus for a construction machine according to claim 1, wherein three or five exhaust holes are provided in the longitudinal direction of the tubes and in the exhaust gas discharge direction.
4. The exhaust gas treatment apparatus for a construction machine according to claim 2, wherein three tubes are provided in the horizontal direction on the same surface of the tail pipe main body.
Type: Application
Filed: Dec 27, 2010
Publication Date: Nov 14, 2013
Applicant: VOLVO CONSTRUCTION EQUIPMENT AB (Eskilstuna)
Inventor: Jin-Ho Jang (Changwon-si)
Application Number: 13/996,228
International Classification: F01N 13/08 (20060101);