KR20180026264A - Pre-cooler for cooler of lp-egr and cooler assembly for lp-egr - Google Patents

Abstract

The present invention relates to an auxiliary cooler for an LP-EGR cooler, capable of preventing heat damage to an LP-EGR cooler and boiling of a coolant by cooling exhaust gas in advance before the exhaust gas is introduced into the LP-EGR cooler, and to an LP-EGR cooler assembly having the same. The auxiliary cooler for an LP-EGR cooler, which heat-exchanges a coolant with exhaust gas in an LP-EGR device for recirculating a portion of the exhaust gas that has passed through an exhaust gas purification device to an engine, comprises a body (18a) installed at a front end of a housing (11) of the LP-EGR cooler and formed in a tubular shape having a double wall consisting of an outer wall and an inner wall that are formed at regular intervals in a direction where the exhaust gas flows. According to the present invention, an auxiliary cooler (18) for an LP-EGR cooler according to any one of claims 1 to 5 is installed at an end of the housing (11) of the LP-EGR cooler, through which exhaust gas is introduced.

Description

PRE-COOLER FOR COOLER OF LP-EGR AND COOLER ASSEMBLY FOR LP-EGR BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a pre-cooler for an LP-

The present invention relates to a LP-EGR cooler applied to a LP-EGR (Low Pressure Exhaust Gas Recirculation) system of a vehicle, and more particularly to a cooler for LP- And an LP-EGR cooler assembly having the spare cooler for preventing an EGR cooler from being heated and preventing boiling of cooling water.

Various systems are installed in the vehicle in order to reduce various harmful substances contained in the exhaust gas discharged from the engine.

Among them, an exhaust gas recirculation (EGR) system in which a part of the exhaust gas of the engine is recirculated back to the inside of the engine so as to lower the combustion temperature of the engine in order to reduce the nitrogen oxide (NOx) contained in the exhaust gas has become popular .

In recent years, in addition to the HP-EGR (High Pressure Exhaust Gas Recirculation) system which directly recirculates the exhaust gas from the engine, the LP-EGR system that recirculates the exhaust gas that has passed through the exhaust gas purifying apparatus is also increasing.

The LP-EGR system is installed downstream of a DPF (Diesel Particulate Filter), and exhaust gas having harmful substances reduced through the DPF is introduced into the engine.

In the LP-EGR system, a cooler 110 for cooling recirculated exhaust gas is applied. As shown in FIG. 1, the LP-EGR system is provided with an LP-EGR cooler 110 for lowering the temperature of the exhaust gas flowing into the LP-EGR cooler.

The LP-EGR cooler 110 lowers the temperature of the exhaust gas by exchanging heat between the exhaust gas and the cooling water in the housing 111. A cone 112 through which the exhaust gas discharged from the exhaust gas purifier such as the DPF apparatus is introduced is installed at one side of the housing 111 and a part of the cone 112 flows into the engine through the recirculation outlet 114, And is discharged to the outside through the outlet 113. On the other hand, cooling water flows from the outside into the housing 111 through the cooling water inlet 116 and then flows through the inside of the housing 111 while being discharged to the cooling water outlet 117, And the exhaust gas is cooled by heat exchange with the gas. The housing 111 promotes heat exchange between the cooling water and the exhaust gas.

However, the LP-EGR cooler 110 according to the related art has a problem in that a portion to which the exhaust gas flows is exposed to a high temperature exhaust gas. As the high-temperature exhaust gas is introduced into the LP-EGR cooler 110, the cooling fin 115 installed in the LP-EGR cooler 110 is thermally damaged. Also, as the high-temperature exhaust gas is introduced, a problem of cooling water boiling that exceeds the boiling point of the cooling water circulating in the LP-EGR cooler 110 is also accompanied.

On the other hand, the following prior art documents disclose a technique relating to a low-pressure easy system and a low-pressure easy-cooler efficiency diagnosis method.

KR 10-2012-0137879A

SUMMARY OF THE INVENTION It is an object of the present invention to provide an LP-EGR cooler which can prevent the LP-EGR cooler from being damaged by heat by preliminarily coming into contact with exhaust gas flowing into the LP- And an LP-EGR cooler assembly having the spare cooler for the LP-EGR cooler.

According to another aspect of the present invention, there is provided a pre-cooler for an LP-EGR cooler, wherein a part of exhaust gas passing through an exhaust gas purifier is recirculated to an engine. An LP-EGR cooler, which is formed at a front end of a housing of the LP-EGR cooler, is formed into a tubular shape having an outer wall and an inner wall formed at intervals in the flow direction of the exhaust gas, And a body which is made of a synthetic resin.

The body is filled with cooling water between the outer wall and the inner wall, cooling water flows along the circumferential direction of the body inside the double wall of the body, and exhaust gas flows through the body along the axial direction of the body .

The body may further include a plurality of auxiliary fins extending from the inner wall to two mutually spaced apart portions and extending along the longitudinal direction of the body.

And the auxiliary pin is radially arranged to pass through the center of the body.

And the auxiliary pins are disposed at the same angular interval from each other.

Meanwhile, in the LP-EGR cooler assembly having the spare cooler for the LP-EGR cooler according to the present invention, in the LP-EGR apparatus in which a part of the exhaust gas passed through the exhaust gas purifier is recirculated to the engine, In the LP-EGR cooler for heat exchange, a spare cooler for the LP-EGR cooler is installed at an end of the housing of the LP-EGR cooler through which exhaust gas flows.

The pre-cooler for the LP-EGR cooler is accommodated in a cone for guiding the exhaust gas discharged from the exhaust gas purifier to the housing of the LP-EGR cooler.

And the inner surface of the cone is spaced apart from the outer surface of the housing or the outer surface of the body of the spare cooler for the LP-EGR cooler.

The outer surface of the housing is provided with a flange whose inner diameter is fixed to the housing and whose front end of the cone is engaged with the inner diameter at a position radially distant from the housing.

And the flange is formed with a slot along the circumferential direction of the housing.

And the outer diameter of the housing and the outer diameter of the body are substantially the same.

And a seal for hermetically sealing the LP-EGR precooler and the cone is provided between an end of the LP-EGR precooler on the side where the exhaust gas flows and the cone.

According to the pre-cooler for the LP-EGR cooler and the LP-EGR cooler assembly having the LP cooler, the temperature of the exhaust gas flowing into the LP-EGR cooler is previously cooled, It is possible to prevent the EGR cooler from being deteriorated by the high temperature exhaust gas.

The exhaust gas is first cooled by the preliminary cooler and then cooled by the LP-EGR cooler, so that the cooling performance of the LG-EGR cooler is improved.

1 is a perspective view of a conventional LP-EGR cooler.
FIG. 2 is a perspective view illustrating a pre-cooler for an LP-EGR cooler and an LP-EGR cooler assembly having the same according to the present invention. FIG.
3 is a cross-sectional view illustrating a spare cooler for an LP-EGR cooler and an LP-EGR cooler assembly having the spare cooler according to the present invention.
4 is a side view of a spare cooler for an LP-EGR cooler according to the present invention;
FIG. 5 is a front view showing a flange of the LP-EGR cooler assembly with the spare cooler for the LP-EGR cooler according to the present invention. FIG.

Hereinafter, a spare cooler for an LP-EGR cooler and an LP-EGR cooler assembly having the same according to the present invention will be described in detail with reference to the accompanying drawings.

The preliminary cooler 18 for the LP-EGR cooler according to the present invention includes a body 18a installed at an end of the LP-EGR cooler housing 11 and through which cooling water flows, and a body 18a of the preliminary cooler 18 And an auxiliary pin 18b which is formed to cross the inside of the second pin 18b.

The body 18a is formed in a cylindrical shape so that exhaust gas flows through the body 18a.

The body 18a of the spare cooler 18 is installed at an end of the LP-EGR cooler assembly 10, that is, at an end of the LP-EGR cooler assembly 10 on the exhaust gas inlet side. The body 18a of the preliminary cooler 18 is formed in a double wall shape having a gap between the outer wall 18aa and the inner wall 18ab. Between the outer wall 18aa and the inner wall 18ab in the body 18a, cooling water for cooling the exhaust gas is filled. The cooling water filled between the outer wall 18aa and the inner wall 18ab flows along the circumferential direction of the body 18a inside the body 18a.

The auxiliary pin 18b is formed so as to intersect the two parts spaced apart from each other on the inner wall 18ab when viewed in a direction perpendicular to the axial direction of the body 18a of the spare cooler 18. [ The auxiliary pin 18b is formed to extend along the axial direction of the body 18a of the preliminary cooler 18.

It is preferable that a plurality of the auxiliary pins 18b are formed. As shown in FIG. 4, the auxiliary pin 18b may be radially arranged to pass through the center of the body 18a. The plurality of auxiliary fins 18b may be disposed at regular intervals from each other, and may be disposed at equal intervals from each other. For example, the auxiliary pins 18b may be arranged in a circumferential direction at regular intervals.

The pre-cooler 18 for the LP-EGR cooler according to the present invention having the above-described structure is configured to cool the coolant circulating the body 18a of the pre-cooler 18 and the coolant circulating in the direction passing through the body 18a The exhaust gas is heat-exchanged.

The cooling water flows inside the double wall of the body 18a in the circumferential direction of the body 18a in the preliminary cooler 18. Part of the cooling water flowing in the LP-EGR cooler may flow into the body 18a from the outside by forming a flow path separately from the cooling water, and then the cooling water may be discharged to the outside.

The exhaust gas flows in the axial direction (direction perpendicular to the paper surface in FIG. 4) so as to pass through the body 18a of the preliminary cooler 18, and the inner wall of the body 18a and the auxiliary pin 18b Lt; / RTI >

While the exhaust gas passes through the spare cooler 18 for the LP-EGR cooler, it is cooled before being introduced into the LP-EGR cooler.

2 and 3, the LP-EGR cooler assembly having the spare cooler for the LP-EGR cooler according to the present invention is configured such that the end of the exhaust gas inlet side of the LP-EGR cooler assembly 10 The LP-EGR preliminary cooler 18 is installed.

The LP-EGR cooler assembly 10 cools the exhaust gas while the cooling water and the exhaust gas exchange heat with each other inside the housing 11.

A plurality of pipes are provided inside the housing 11 so that the exhaust gas can flow along the axial direction of the housing 11 of the LP-EGR cooler assembly 10. [ And the cooling water is circulated to heat exchange with the cooling water in the housing 11 to cool the exhaust gas. A baffle 14 is formed in the housing 11 to increase the flow distance of the cooling water and a cooling fin 15 for promoting heat exchange between the cooling water and the exhaust gas. A discharge outlet 13 through which the exhaust gas passed through the housing 11 is discharged to the outside and a recirculation outlet (not shown) through which the exhaust gas is recirculated to the exhaust gas engine are formed on one side of the housing 11, A cooling water inlet 16 and a cooling water outlet 17 for introducing and discharging the cooling water into the inside of the cooling water outlet 16 are formed respectively.

The LP-EGR cooler assembly 10 has an LP-EGR precooler 18 installed at an end of the housing 11 through which the exhaust gas flows into the housing 11.

The LP-EGR pre-cooler 18 is accommodated in the cone 12 for guiding exhaust gas into the LP-EGR cooler assembly 10. The LP-EGR cooler 18 is positioned at an end of the housing 11 of the LP-EGR cooler assembly 10, which is located at a portion of the cone 12 that overlaps with the housing 11.

 The inner surface of the cone 12 may be spaced apart from the outer surface of the housing 11 or the outer surface of the body 18a of the air cleaner 18. A gap is formed between the inner surface of the cone 12 and the body 18a so that heat is transferred from the cone 12 heated by the exhaust gas to the housing 11 or the body 18a .

The outer diameter of the housing 11 in the LP-EGR cooler assembly 10 and the outer diameter of the body 18a in the LP-EGR preliminary cooler 18 may be substantially the same.

A seal 12a for sealing the LP-EGR preliminary cooler 18 and the cone 12 is provided between the end of the LP-EGR precooler 18 on the side where the exhaust gas is introduced and the cone 12 . The seal 12a is formed in such a manner that a portion of the exhaust gas flowing from the cone 12 to the LP-EGR preliminary cooler 18 is supplied to the outer surface of the housing 11 or the body 18a, Thereby preventing the liquid from flowing into the space formed between the inner side surfaces.

A flange 19 having a shape as shown in FIG. 5 is provided to fix the front end of the cone 12 to the housing 11. As shown in FIG. The flange 19 is fastened to the front end of the cone 12 at a position spaced from the inner diameter in the radial direction of the housing 11 by fixing the inner diameter of the flange 19 to the housing 11, So that the front end of the housing 11 is spaced apart from the housing 11.

At this time, a plurality of long holes 19a are formed in the flange 19 along the circumferential direction at intervals. The cooling air can be promoted by flowing air into the space between the cone 12 and the housing 11 or the body 18a through the elongated hole 19a formed in the flange 19. [

10: LP-EGR cooler assembly 11: housing
12: Cone 12a: Seal
13: discharge outlet 14:
15: cooling pin 16: cooling water inlet
17: cooling water outlet 18: spare cooler
18a: Body 18aa: Outer wall
18ab: inner wall 18b: auxiliary pin
19: Flange 19a: Long hole
100: LP-EGR cooler 111: housing
112: cone 113: discharge outlet
114: recirculation outlet 115: cooling pin
116: cooling water inlet 117: cooling water outlet

Claims (12)

An LP-EGR cooler in which a coolant and an exhaust gas are heat-exchanged in an LP-EGR apparatus for recirculating a part of exhaust gas passed through an exhaust gas purifier to an engine,
And a tubular body having an outer wall and an inner wall formed at the front end of the housing of the LP-EGR cooler and spaced apart from each other along the flow direction of the exhaust gas. Pre-cooler for LP-EGR cooler. The method according to claim 1,
Wherein the body is filled with cooling water between the outer wall and the inner wall,
The cooling water flows along the circumferential direction of the body between the outer wall and the inner wall of the body and the exhaust gas flows through the body along the axial direction of the body. . 3. The method of claim 2,
Wherein the body further comprises a plurality of auxiliary fins extending from the inner wall to two portions spaced apart from each other and extending along the longitudinal direction of the body. The method of claim 3,
Wherein the auxiliary pin is radially disposed to pass through the center of the body. 5. The method of claim 4,
Wherein the auxiliary fins are disposed at equal angular intervals from each other. An LP-EGR cooler in which a coolant and an exhaust gas are heat-exchanged in an LP-EGR apparatus for recirculating a part of exhaust gas passed through an exhaust gas purifier to an engine,
Characterized in that a spare cooler for the LP-EGR cooler according to any one of claims 1 to 5 is installed at an end of the housing of the LP-EGR cooler where the exhaust gas flows, Equipped LP-EGR cooler assembly. The method according to claim 6,
Wherein the pre-cooler for the LP-EGR cooler is accommodated in a cone for guiding the exhaust gas discharged from the exhaust gas purifier to the housing of the LP-EGR cooler. -EGR cooler assembly. 8. The method of claim 7,
Wherein the inner surface of the cone is spaced apart from the outer surface of the housing or the outer surface of the body of the spare cooler for the LP-EGR cooler. . 9. The method of claim 8,
Wherein the outer surface of the housing is provided with a flange whose inner diameter is fixed to the housing and whose front end of the cone is fastened at a position spaced apart from the inner diameter in the radial direction of the housing. Equipped LP-EGR cooler assembly. 10. The method of claim 9,
The LP-EGR cooler assembly according to claim 1, wherein the flange has a long hole formed along a circumferential direction of the housing. 9. The method of claim 8,
Wherein the outer diameter of the housing is substantially equal to the outer diameter of the body. The LP-EGR cooler assembly of claim 1, wherein the outer diameter of the housing is substantially equal to the outer diameter of the body. 8. The method of claim 7,
And a seal for sealing the LP-EGR pre-cooler and the cone between an end of the LP-EGR pre-cooler and an end of the LP-EGR cooler for introducing exhaust gas. -EGR cooler assembly.

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