DE102006061591A1 - Exhaust gas cooler - Google Patents

Abstract

An exhaust gas cooling apparatus for cooling recirculated exhaust gas, comprising: an exhaust passage in which the exhaust gas flows, at least a first cooling section having a coolant inlet and an exhaust inlet and cooling the exhaust gas, and at least a second cooling section having a coolant outlet and an exhaust outlet and which cools the exhaust gas cooled by the first cooling section, wherein the first cooling section and the second cooling section are made of materials different from each other. According to the invention, the weight of the exhaust gas cooling apparatus and an exhaust gas recirculation system as well as the manufacturing cost can be reduced.

Description

This application claims the priority and advantage of Korean Patent Application No. 10-2006-0110069 filed on 8 November 2006 with the Korean Intellectual Property Office, the entire contents of which are hereby incorporated by reference.

The The invention relates to an exhaust gas cooling device, and more particularly, an exhaust gas cooling apparatus which in an exhaust gas recirculation system is used.

in the Generally leads an exhaust gas recirculation system for reducing the nitrogen oxide NOx of the exhaust gas, a part of Exhaust gas discharged from an engine after intake air it was mixed with a combustion chamber.

A Exhaust gas cooler, which cools the exhaust gas, is in the exhaust gas recirculation system arranged.

According to the state The technology is the exhaust gas cooler made of a stainless steel material having excellent heat resistance performance, because high temperature exhaust gas flows therethrough.

however occurs because the stainless steel material has a high density, the problem arises that the weight of the exhaust gas recirculation system increases.

Further The problems occur because of the high cost of the material the manufacturing costs increase and because of the thermal conductivity of the stainless steel the volume of the exhaust gas cooling device increases.

The above information that reveals in this background section is only to improve the understanding of the background of the Invention and therefore may contain information that is not the state the technique used in this country to one of ordinary skill in the art already known.

Of the Invention is based on the object, an exhaust gas cooling device for cooling of recirculated exhaust gas which has the advantages that its weight, their volume and their production costs are reduced.

This is with an exhaust gas cooler according to claim 1 reached. Advantageous developments of the invention are in the dependent claims described.

A exemplary embodiment The invention provides an exhaust gas cooling device for cooling of recirculated exhaust gas ready, comprising: an exhaust passage in which the exhaust gas can flow, at least a first cooling section, the one coolant inlet and an exhaust gas inlet, for cooling the exhaust gas, and at least a second cooling section, the one coolant outlet and an exhaust outlet for cooling the exhaust gas from the first cooling section cooled Exhaust gas, wherein the first cooling section and the second cooling cut are made of materials differing from each other.

According to one embodiment the invention are the thermal conductivity of the first cooling section and the thermal conductivity the second cooling section differently.

According to one more embodiment The invention has the first cooling section a plurality of first plates that are contactable with the coolant are at least a second plate inside the first plates is arranged and within which the exhaust gas can flow, and a cooling fin on, which is made of a steel material and arranged so is that they heat of the exhaust gas can absorb.

According to one more embodiment The invention has the second cooling section a plurality of first plates that are contactable with the coolant are at least a second plate inside the first plates is arranged and within which the exhaust gas can flow, and a cooling fin on, which is made of an aluminum material and the like is arranged that they heat of the exhaust gas can absorb.

According to one more embodiment The invention is between the first cooling section and the second cooling section arranged a seal.

below becomes an exemplary embodiment of the invention with reference to the accompanying figures described in detail.

1 shows an exhaust gas cooling device according to an exemplary embodiment of the invention.

2 shows a first cooling section and a second cooling section of the exhaust gas cooling device according to the exemplary embodiment of the invention.

3 FIG. 12 is a view showing that the first cooling portion and the second cooling portion are separated according to the exemplary embodiment of the invention. FIG.

101

first cooling section

103

second cooling section

105

exhaust inlet

107

Coolant inlet

109

exhaust outlet

111

coolant outlet

113

Coolant passage

201

first plate

203

second plate

205

Steel Material fin

207

Aluminum Material fin

209

exhaust passage

1 shows the exhaust gas cooling device according to the exemplary embodiment of the invention. 2 shows the first cooling section and the second cooling section of the exhaust gas cooling device according to the exemplary embodiment of the invention. 3 shows that according to the exemplary embodiment of the invention, the first cooling section and the second cooling section are separated.

As in 1 and 2 10, according to the exemplary embodiment of the invention, the exhaust gas cooling device for cooling recirculated exhaust gas has an exhaust gas passage 209 , at least a first cooling section 101 and at least a second cooling section 103 on.

In the operating state, the exhaust gas flows in the exhaust gas passage 209 and the first cooling section 101 that has a coolant inlet 107 and an exhaust inlet 105 has, the exhaust gas cools.

The second cooling section 103 has a coolant outlet 111 and an exhaust outlet 109 and cools that from the first cooling section 101 cooled exhaust gas.

That is, the exhaust gas flows through the exhaust gas inlet 105 through and flows through the exhaust outlet 109 through (referring to the arrow with a solid line).

Further, coolant flows through the coolant inlet 107 through and flows through the coolant outlet 111 through out.

The first cooling section 101 and the second cooling section 103 can be made of different materials.

The coolant and the exhaust flow through the first cooling section 101 through and flow through the second cooling section 103 through out.

The thermal conductivity of the first cooling section 101 and the thermal conductivity of the second cooling section 103 can be set or configured differently.

More specifically, according to the exemplary embodiment of the invention, the thermal conductivity of the first cooling section 101 be set or configured to be lower than that of the second cooling section 103 is.

That is, the exhaust gas having a relatively high temperature becomes in the first cooling section 101 cooled and that in the first cooling section 101 cooled exhaust gas is in the second cooling section 103 cooled.

Referring to 2 has the first cooling section 101 a plurality of first plates 201 , at least a second plate 203 (in the example two second plates 203 ) and a cooling fin 205 on.

In operation, the first plates are available 201 with the coolant in contact, wherein the at least one second plate 203 (as in the example the two second plates 203 ) within the first plates 201 is arranged and the exhaust gas flows between them. In other words, the plurality of first plates 201 designed so that, if any two of the first plates 201 are fitted together to a plate, between a space is formed, in which the at least one second plate 203 and the cooling fin 205 are absorbed and through which the exhaust gas can flow.

The cooling fin 205 of the first cooling section 101 is arranged so that it with the second plate 203 Heat of the exhaust gas absorbed and is made of a steel material.

As in 1 and 3 10, according to the exemplary embodiment of the invention, the exhaust gas cooling apparatus has a plurality of first cooling sections 101 and a plurality of second cooling sections 103 on.

Since the coolant between the first cooling sections 101 flows through and the exhaust gas in the respective first cooling sections 101 flows, a heat exchange between the exhaust gas and the coolant is realized.

Referring to 2 the coolant flows outside on the first plates 201 along and flows, as in the example, the exhaust gas between the two second plates 203 therethrough.

The heat exchange between the exhaust gas and the coolant is through the cooling fin 205 realized.

The cooling fin 205 of the first cooling section 101 can be made of steel material and a cooling fin 207 the second cooling section 103 can be made of aluminum material.

That is, according to the exemplary embodiment of the invention, the first cooling section 101 and the second cooling section 103 the same structure, but with the material of their cooling fins 205 respectively. 207 different.

That is, the high-temperature exhaust gas is in the first cooling section 101 , which has the excellent heat resistance cooling fin 205 made of steel material, cooled to a temperature equal to the aluminum material of the cooling fin 207 the second cooling section 103 can be applied.

Then, the exhaust gas becomes in the second cooling section 103 , the cooling fin made of aluminum material 207 has cooled again or further.

There the aluminum material has better thermal conductivity, a lower price and a lesser one. Having weight as the stainless steel material, can according to the exemplary embodiment the invention, the volume and weight of the exhaust gas cooling device be reduced and can the manufacturing costs are reduced.

Referring to 3 is it because the first cooling section 101 and the second cooling section 103 made with different materials, impossible for the first cooling section 101 and the second cooling section 103 using a method such as welding or brazing.

Therefore, according to the exemplary embodiment of the invention, the first cooling portion 101 and the second cooling section 103 by means of screws (not shown) coupled together.

Further, to prevent leakage of exhaust gas or coolant is a seal 301 between the first cooling section 101 and the second cooling section 103 arranged.

According to the exemplary embodiment the invention, the exhaust gas cooling device Advantages on that are their volume and their weight as well as their manufacturing costs are reduced compared to the prior art.

Claims (5)

An exhaust gas cooling device for cooling recirculated exhaust gas, comprising: an exhaust gas passage ( 209 ), in which the exhaust gas flows, at least a first cooling section ( 101 ), which has a coolant inlet ( 107 ) and an exhaust inlet ( 105 ) and which cools the exhaust gas, and at least one second cooling section ( 103 ), which has a coolant outlet ( 111 ) and an exhaust outlet ( 109 ) and that of the first cooling section ( 101 cooled cooled exhaust gas, wherein the first cooling section ( 101 ) and the second cooling section ( 103 ) are made of mutually different materials. Apparatus according to claim 1, wherein the thermal conductivity of the first cooling section ( 101 ) of the thermal conductivity of the second cooling section ( 103 ) is different. Apparatus according to claim 2, wherein the first cooling section ( 101 ) a plurality of first plates ( 201 ) in contact with a coolant, at least one second plate ( 203 ) in the first plate ( 201 ) is arranged and within which the exhaust gas flows, and a cooling fin ( 205 ) made of a steel material and arranged to absorb heat of the exhaust gas. Device according to claim 2, wherein the second cooling section ( 103 ) a plurality of first plates ( 201 ) in contact with a coolant, at least one second plate ( 203 ) in the first plate ( 201 ) is arranged and within which the exhaust gas flows, and a cooling fin ( 207 ) made of a steel material and arranged to absorb heat of the exhaust gas. Device according to claim 1, wherein between the first cooling section ( 101 ) and the second cooling section ( 103 ) a seal ( 301 ) is arranged.