DE102018110959A1 - Water cooled EGR (exhaust gas recirculation) cooler - Google Patents

Abstract

A water-cooled EGR cooler that cools EGR gas that flows back from an exhaust side to an intake side, comprising pipes (125) disposed in a housing (110) at a predetermined interval, ribs (120) formed in the inside of the tubes (125) are inserted, bearing plates (200) into which end portions of the tubes (125) are inserted and which are connected to the circumference of the housing (110), and a flange (135) having the circumference of one of the bearing plates (200) is connected and integrally formed thereon with a flange beam (130) having an inlet passage (210a) into which the EGR gas flows in and an exhaust passage (210b) from which the EGR gas flows out; wherein insertion protrusions (215) inserted into the tubes (125) are protruded on the flange beam (130).

Description

For the registration will be the priority of the submitted on December 13, 2017 Korean Patent Application No. 10-2017-0171142 the entire contents of which are incorporated herein by reference.

The invention relates to a water-cooled EGR cooler, which cools exhaust gas, which is returned from an exhaust pipe to an intake pipe, with a coolant to reduce pollutants of the exhaust gas.

Recently, since an environmental problem such as global warming has occurred, the regulations on exhaust gas have been tightened, and in particular, a strict standard for the emission amount of exhaust gas of a motor vehicle applies.

In particular, in the case of a diesel engine for a motor vehicle, after the EURO-6, the generated amount of NOx has to be reduced, and in this regard, automakers have new techniques such as an EGR device, an LNT (nitrogen oxide trap) device, an SCR (selective fuel cell) catalytic reduction) device, etc. used.

The EGR (exhaust gas recirculation) device may include an HP EGR (high pressure exhaust gas recirculation) device that recirculates exhaust gas at a front end of a catalyst and an LP EGR (low pressure exhaust gas recirculation) device that has exhaust gas at a rear end a diesel particulate filter (DPF) and returns the recirculated exhaust gas to a front end of a turbocharger.

In this case, in order to cool the recirculated exhaust gas, an EGR cooler is disposed in an exhaust gas recirculation line, and the EGR cooler may be made of a stainless material having high corrosion resistance in a high temperature state and in condensed water.

However, the EGR cooler made of the stainless material is heavy and has a low heat transfer efficiency and a poor molding property, and the entire components are expensive. Accordingly, research has been conducted on an EGR cooler which has a high heat transfer efficiency and an excellent molding property, and is made of aluminum, and whose components are relatively inexpensive.

Typically, the EGR cooler, which is made of aluminum, has a rib and a tube. A1100 based on pure aluminum (A1xxx) and A3003 based on aluminum-manganese (A3xxx) can be used on a fin and a pipe.

Meanwhile, the temperature of the EGR gas is about 550 ° C, and corrosive ions such as Cl, SO42 and NO3 exist as a component of condensed water, so that the rib or the aluminum-based pipe in a high-temperature environment and a corrosive environment can be damaged. In this regard, research is being conducted on an aluminum sheet having high strength and high corrosion resistance.

Specifically, in a U-type EGR cooler in which a supply passage and an exhaust passage that supply EGR gas are respectively formed on one surface, the EGR gas exits from the supply passage to the exhaust passage, so that the cooling efficiency of the EGR gas is reduced.

The state of the art is the Korean Patent Laid-Open No. 10-2014-0000406 called.

The present invention provides a water-cooled EGR cooler in which leakage of EGR gas from a supply passage to an exhaust passage is reduced or eliminated to improve the cooling efficiency of EGR gas and improves the connection structure between a rib and a flange beam will improve the durability and connection structure.

According to an exemplary embodiment of the invention, a water-cooled EGR cooler that cools EGR gas flowing back from an exhaust side to an intake side has pipes arranged in a housing at a predetermined distance from each other, ribs that are are inserted into the inside of the tubes, bearing plates (or shell plates), in which end portions of the tubes are inserted and which are connected to the circumference of the housing, and a flange which is connected to the periphery of one of the bearing plates and with which a flange bar in one piece is formed, which separates an intake passage into which the EGR gas flows in and an exhaust passage from which the EGR gas flows out, with insertion protrusions inserted into the inside of the pipes being protruded on the flange beam ,

The insertion protrusions may contact one side of the ribs.

The ribs may include a first portion contacting an inner surface of the tubes, a second portion alternately arranged with the first portion on the other inner surface of the tubes, and a third portion having one end portion of the first portion and one end portion of the second Section connects together.

One surface of the insertion protrusions may contact the first portion, and the other surface may contact the other inner surface.

A side surface of the insertion protrusions may contact the third portion.

The water-cooled EGR cooler according to an exemplary embodiment of the invention may further comprise pillars arranged between the tubes so as to keep a constant distance therebetween.

The ribs may be inserted as a curved shape in a zigzag shape in the tubes.

The water-cooled EGR cooler according to an exemplary embodiment of the invention may further include a supply pipe into which a coolant is supplied, and an exhaust pipe from which the coolant is discharged, which are respectively connected to the housing.

The insertion protrusions may be integrally formed with the flange beam so as to define the position of the ribs.

The ribs, tubes or housing may be made of aluminum alloy.

According to the invention, the insertion protrusions formed on the flange bar are inserted into the inside of the ribs inserted into the tubes. Therefore, a passage gap between the flange beam and the ribs is avoided or reduced, so that the cooling efficiency of the EGR gas is improved.

Further, the insertion protrusions formed on the flange bar limit the movement of the ribs to regularly arrange the position of the ribs, whereby the connection structure and the durability can be improved.

• 1 eine perspektivische Explosionsteilansicht eines wassergekühlten EGR-Kühlers gemäß einer beispielhaften Ausführungsform der Erfindung;
• 2 einen Schnitt des wassergekühlten EGR-Kühlers gemäß einer beispielhaften Ausführungsform der Erfindung; und
• 3 eine Vorderansicht einer Verbindungsstruktur von Einsetzvorsprüngen, Rippen und Rohren des wassergekühlten EGR-Kühlers gemäß einer beispielhaften Ausführungsform der Erfindung.

The invention will be explained in more detail with reference to the drawing. In the drawing show:

• 1 an exploded partial perspective view of a water-cooled EGR cooler according to an exemplary embodiment of the invention;
• 2 a section of the water-cooled EGR cooler according to an exemplary embodiment of the invention; and
• 3 3 is a front view of a connection structure of insertion protrusions, fins and pipes of the water-cooled EGR cooler according to an exemplary embodiment of the invention.

Hereinafter, an exemplary embodiment of the invention will be described in detail with reference to the drawings.

In addition, the size and thickness of each configuration shown in the drawing are arbitrarily shown for clarity and convenience of description, but the present invention is not limited thereto, and the thicknesses of layers, films, panels, areas, etc. are exaggerated for clarity. Likewise, the drawings and description are to be considered as illustrative in nature and not restrictive. Like reference numerals refer to like elements throughout the description. The distinction of the designations of components with the first, the second, etc. in the following description is for their distinction for the same relationship of the components, and the components are not limited to Order restricted in the following description. Likewise, the exhaust gas recirculation device may be referred to as an EGR device or EGR.

Regarding 1 For example, a water-cooled EGR cooler has a housing 110 , a U-cap 122 , a holder 115 , a feed pipe 100 , an outlet pipe 105 , Support 300 , Pipes 125 , Ribs 120 , a bearing plate 200 , Tube insertion holes 205 , a flange 135 , a flange bar 130 , Insertion projections 215 , an intake passage 210a and an outlet passage 210b on.

The pipes 125 are in the case 110 arranged at a predetermined distance from each other, and the supports 300 are between the pipes 125 arranged the distance between the pipes 125 maintain. Here, the EGR gas to be cooled passes the inside of the tubes 125 , And the coolant flows on the outside of the tubes 125 ,

The feed tube 100 into which the coolant flows, and the outlet pipe 105 from which the coolant flows out are respectively connected to the upper surface of the housing 110 connected, and the holder 115 for mounting is with the bottom surface of the housing 110 connected.

The bearing plate 200 stands with an area of the housing 110 engaged, and the tube insertion holes 205 into which an end portion of the tubes 125 used and connected to it, are in the bearing plate 200 formed at a predetermined distance from each other. Here is the U-cap 122 , which has a U-shape, with the other surface of the housing 110 connected.

The circumference of the flange 135 is with the circumference of the bearing plate 200 connected, and the flange bar 130 is integral with the flange 135 educated. Here the flange bar separates 130 the intake passage 210a into which the EGR gas flows, and the exhaust passage 210b from which the EGR gas flows out.

The insertion projections 215 are integral to the inner surface of the flange beam 130 formed above. The insertion projections 215 are in the pipes 125 used and can the positions of the ribs 120 establish. Here are the ribs 120 in the pipes 125 used. In a state in which the ribs 120 are used, prevent the Einsetzvorsprünge 215 that the ribs 120 in the pipes 125 move to the left and to the right, and the positions of the ribs 120 in the pipes 125 can be maintained by brazing.

Regarding 2 are the pipes 125 , which have a flat tube structure, in the housing 110 arranged, and the supports 300 are between the pipes 125 arranged. Further, the ribs are 120 in the pipes 125 used.

The flange bar 130 is integral with the flange 135 formed, and the Einsetzvorsprünge 215 are on the inner surface of the flange bar 130 formed from an upper portion to a lower portion at a predetermined distance from each other.

The insertion projections 215 are in the pipes 125 used with the bearing plate 200 are engaged, and a side of the Einsetzvorsprünge 215 stands with the pipes 125 in contact.

Regarding 3 becomes the connection structure between the insertion protrusions 215 , the ribs 120 and the pipes 125 described in detail.

As in 3 shown are the pipes 125 in the case 110 from the lower portion to the upper portion at a predetermined distance from each other, and the pillars 300 are between the pipes 125 arranged. Furthermore, the supports 300 between the pipes 125 and the housing 110 arranged to maintain a distance between them.

The pillars 300 may have a zigzag shape, and a passage in which the coolant flows from one surface to the other surface may be formed, and a detailed description thereof will be omitted.

Ribs 120 in the pipes 125 are inserted, have a zigzag shape, and one side is with the inside of a surface of the tubes 125 connected while the other side with the inside of the other surface of the tubes 125 connected is.

In particular, the ribs have 120 a first section 120a , a second section 120b and a third section 120c on, and the ribs 120 may be integrally bent to include the first, second and third sections 120a . 120b and 120c form.

The first paragraph 120a is with the inner bottom surface of the tubes 125 connected, the second section 120b is with the inner top surface of the tubes 125 connected, and the third section 120c integrally connects the end portion of the second section 120b with the end portion of the first section 120a ,

The first paragraph 120a is in a width direction of the tubes 125 arranged at a predetermined distance, and the second section 120b is alternating with the first section 120a in a width direction of the pipe 125 arranged at a predetermined distance.

In addition, the third section connects 120c the second section 120b with the first section 120a to the ribs 120 to form with a zigzag shape.

A portion of the lower surface of the insertion protrusions 215 is with the first section 120a connected, a portion of the upper surface of the Einsetzvorsprünge 215 is with the inside of a surface of the pipes 125 connected, and a portion of the side surface of the Einsetzvorsprünge 215 is with the side surface of the third section 120c connected.

In an exemplary embodiment of the invention, they prevent the flange beam 130 trained insertion projections 215 in that the EGR gas is from the intake passage 210a to the outlet passage 210b exit, so that the overall cooling efficiency is improved.

Further, the insertion projections stop 215 attached to the flange bar 130 are formed, the position of the ribs 120 that in the pipes 125 are arranged so that the mounting stability, the strength and the durability are improved.

LIST OF REFERENCE NUMBERS

100: feed 105: outlet pipe 110: casing 115: holder 120: rib 120a: first section 120b: second part 120c: third section 122: U-cap 125: pipe 130: flange beams 135: flange 200: bearing plate 205: tube insertion hole 210a: intake passage 210b: outlet passage 215: insertion projection 300: support

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• KR 1020170171142 [0001]
• KR 1020140000406 [0011]

Claims (9)

A water cooled EGR cooler that cools EGR gas that flows back from an exhaust side to an intake side, the EGR cooler comprising: Tubes (125) disposed in a housing (110) at a predetermined distance; Ribs (120) inserted in the inside of the tubes (125); Bearing plates (200) into which end portions of the tubes (125) are inserted and which are connected to the periphery of the housing (110); and a flange (135) connected to the circumference of one of the bearing plates (200) and integrally formed with a flange beam (130) having an inlet passage (210a) into which the EGR gas flows and an exhaust passage (210); 210b) from which the EGR gas flows out, separating, wherein insertion protrusions (215) inserted into the tubes (125) are protruded on the flange beam (130). Water-cooled EGR cooler after Claim 1 wherein the insertion protrusions (215) contact one side of the ribs (120). Water-cooled EGR cooler after Claim 1 or 2 wherein the ribs (120) include: a first portion (120a) contacting an inner surface of the tubes (125); a second portion (120b) disposed alternately with the first portion (120a) on the other inner surface of the tubes (125); and a third portion (120c) connecting an end portion of the first portion (120a) to an end portion of the second portion (120b). Water-cooled EGR cooler after Claim 3 wherein one surface of the insertion protrusions (215) contacts the first portion (120a) and the other surface contacts the other inner surface. Water-cooled EGR cooler after Claim 3 or 4 wherein a side surface of the insertion protrusions (215) contacts the third portion (120c). Water-cooled EGR cooler after one of the Claims 1 to 5 , further comprising: supports (300) disposed between the tubes (125) so as to maintain a constant distance therebetween. Water-cooled EGR cooler after one of the Claims 1 to 6 wherein the ribs (120) are inserted as a curved shape in a zigzag shape in the tubes (125). Water-cooled EGR cooler after one of the Claims 1 to 7 , further comprising: a supply pipe (100) into which a coolant is supplied; and an exhaust pipe (105) from which the coolant is discharged, wherein the supply pipe (100) and the exhaust pipe (105) are respectively connected to the housing (110). Water-cooled EGR cooler after one of the Claims 1 to 8th wherein the ribs (120), the tubes (125) or the housing (110) are made of an aluminum alloy.

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