KR101760085B1 - Urea line cooling unit and cooling water supplying apparatus having the same - Google Patents

Abstract

The invention is directed to a cooling water supply device having a ellipses line cooling unit. The cooling water supply device with the number of elements disclosed is provided with: a number of element lines for feeding the number of elements fed from the urea water tank; and a number of elements for feeding the number of urea A cooling water supply line connected to the inlet side of the urea water line cooling unit for supplying cooling water, and a cooling water supply line connected to the discharge side of the urea water line cooling unit for supplying cooling water to the urea water line cooling unit A cooling water discharge line for discharging cooling water to the dosing injector, a cooling water discharge line for supplying cooling water to the dosing injector, a cooling water connection line for transferring the cooling water discharged from the dosing injector, a radiator connected to the cooling water connection line, And an auxiliary heat exchange member for cooling the cooled cooling water discharged from the radiator again and transferring the cooled cooling water to the cooling water supply line.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a urea water line cooling unit,

The present invention relates to a ellipsis line cooling unit and a cooling water supply apparatus having the same, and more particularly, to a cooling water supply system including a urea water line cooling unit and a cooling water supply unit including the urea water line cooling unit, 2 adapters to supply urea water to the number of urea water flowing through the urea water line, thereby preventing the hydrolysis from occurring by cooling the urea water at a high temperature, and a cooling water supply device having the same will be.

In general, diesel vehicles can contain harmful substances such as carbon monoxide, hydrocarbons, and nitrogen oxides in the exhaust gas due to incomplete combustion of light oil used as a fuel, and may be discharged to the atmosphere. However, A diesel engine in which the emission amount of carbon monoxide or hydrocarbons due to combustion is significantly reduced has been developed and used.

Nitrogen oxide (NOx), which occupies most of the exhaust gas of the diesel engine, is reduced by nitrogen gas (N2) to be discharged by a separate exhaust gas abatement device. Thus, An exhaust gas reduction apparatus using selective catalytic reduction (SCR), which has a high treatment efficiency of nitrogen oxides, has been used.

An exhaust gas reduction apparatus using such a selective reduction catalyst is generally configured to remove nitrogen oxides from exhaust gas exhausted from an engine through an exhaust gas engine by using a catalyst so as to reduce nitrogen oxides to nitrogen gas. And a urea water supply device for supplying urea water as a main component of ammonia or the like as an oxidizing agent and spraying it to smoothly reduce the urea water.

That is, in order to properly operate the exhaust gas reduction apparatus using the selective reduction catalyst and to remove the nitrogen oxide from the exhaust gas, the urea water whose main component is urea or ammonia etc. must be supplied to the exhaust gas as an oxidant and sprayed, In a diesel vehicle employing an exhaust gas reduction device, a urea tank (urea tank) for supplying urea water is mounted. Since the number of urea is consumed when the vehicle is driven and the exhaust gas is discharged, if the urea water is not periodically injected into the urea water tank, the reduction treatment is not smoothly carried out in the selective reduction catalyst device, so that the exhaust gas reduction by the exhaust gas reduction device .

The number of urea is supplied to the selective reduction catalyst device by the SCR line of the urea water supply device. This urea water supply device supplies the urea water stored in the urea water tank to the urea water heating line And injects urea water through a dosing injector to convert nitrogen oxide of the exhaust gas discharged from the DPF to nitrogen and water to reduce soot.

However, since the conventional S-series line has only a line capable of flowing the number of elements, hydrolysis can not be prevented from occurring in the urea water due to high-temperature heat. As a result, the incomplete urea water is sprayed to the exhaust gas through the dosing injector, thereby failing to effectively achieve the nitrogen oxide reduction effect.

Therefore, there is a need to improve this.

The background art of the present invention is disclosed in Korean Patent Registration No. 10-1205232 (Registered on November 21, 2012, entitled Urea water tank for diesel vehicles).

The present invention has been made in view of the above-described need, and it is an object of the present invention to provide a cooling water line which is formed by forming a cooling water line around a urea water line and installing a first inlet adapter and a second outlet adapter on both sides of a cooling water line, It is an object of the present invention to provide a urea water line cooling unit and a cooling water supply device including the urea water line cooling unit which can prevent the hydrolysis from occurring by cooling the high urea water by supplying cooling water to the urea water.

According to an aspect of the present invention, there is provided a ellipsometer line cooling unit comprising: a cooling water line installed around a elliptical water line for feeding cooling water for cooling the elliptic water; And a cooling water line installation part connected to the cooling water line for introducing or discharging the cooling water to the cooling water line and connecting the urea water to a dosing injector installed in the exhaust pipe, .

A first adapter having one side of the cooling water line connected to the first main body part and a cooling water supply line connected thereto to form an inflow part into which the cooling water flows; A second adapter connected to the second body portion at the other side of the cooling water line and connected to the cooling water discharge line to form a discharge portion through which the cooling water is discharged; A first overmolded mold that surrounds and fixes one side of the cooling water line and the first adapter; And a second overmolded mold that surrounds and fixes the other end of the cooling water line and the second adapter in a body.

The first body portion may further include a first support portion for supporting the outer diameter of the ellipse element line at a predetermined interval from the cooling water line, and the first support portion may be integrally molded and fixed in the first overmold And the second body portion is further provided with a second support portion for supporting the outer diameter of the ellipse element line at a predetermined interval from the cooling water line and the second support portion is integrally molded and fixed in the second overmold .

The first overmold is provided with a connection adapter to which the one of the ellipses is connected while the other of the elliptical number lines is connected to the second overmold. And a connecting connector to be connected is provided.

According to an aspect of the present invention, there is provided a cooling water supply apparatus including a urea water line cooling unit, comprising: a urea water line for transferring urea water supplied from a urea water tank; A urea water line cooling unit for cooling the number of urea water supplied to the urea water line by the cooling water installed in the urea water line and supplying the water to the dosing injector installed in the exhaust pipe; A cooling water supply line connected to an inlet side of the elliptic element line cooling unit to supply cooling water; A cooling water discharge line connected to the discharge side of the urea water line cooling unit to discharge the cooling water and supply the cooling water to the dosing injector; A cooling water connection line for transferring the cooling water discharged from the dosing injector; A radiator connected to the cooling water connection line to radiate heat to cool the heated cooling water; And an auxiliary heat exchange member for cooling the cooled cooling water discharged from the radiator again and transferring the cooled cooling water to the cooling water supply line.

Further, the elliptic number line cooling unit may include: a cooling water line installed around the elliptical water line for feeding the cooling water for cooling the urea water; And a cooling water line installation part connected to the element number line and the cooling water line so as to introduce or discharge the cooling water into the cooling water line and to connect the urea water to a dosing injector installed in the exhaust pipe, Wherein the cooling water line installation part includes: a first adapter having one side of the cooling water line connected to the first main body part and the cooling water supply line connected to form an inflow part into which the cooling water flows; A second adapter connected to the second body portion at the other side of the cooling water line and connected to the cooling water discharge line to form a discharge portion through which the cooling water is discharged; A first overmolded mold that surrounds and fixes one side of the cooling water line and the first adapter; And a second overmolded mold that surrounds and fixes the other end of the cooling water line and the second adapter in a body.

The urea water line cooling unit and the cooling water supply device having the same according to the present invention are characterized in that a cooling water line is formed around the urea water line and a first inlet adapter and a second outlet adapter are provided on both sides of the cooling water line It is possible to prevent the hydrolysis from occurring by cooling the high-temperature urea water by supplying the cooling water to the number of elements flowing in the element number line.

1 is a view showing a state where a cooling water supply device having a ellipsis line cooling unit according to an embodiment of the present invention is applied to a vehicle.
FIG. 2 is a plan view of a cooling water supply apparatus having a urea water line cooling unit according to an embodiment of the present invention. FIG.
3 is a front view of the ellipsis line cooling unit in detail, in accordance with one embodiment of the present invention.
Figure 4 is an assembled cross-sectional view of a ellipsis line cooling unit in accordance with an embodiment of the present invention.
Figure 5 is an enlarged cross-sectional side view of an inlet water side line cooling unit in accordance with an embodiment of the present invention.
Figure 6 is an enlarged cross-sectional side view at the discharge side in an ellipsis line cooling unit according to an embodiment of the present invention.

Hereinafter, a urea water line cooling unit and a cooling water supply unit including the urea water line cooling unit according to an embodiment of the present invention will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a view showing a state where a cooling water supply apparatus having a ellipsis line cooling unit according to an embodiment of the present invention is applied to a vehicle, and FIG. 2 is a sectional view 3 is a front view of a ellipsemal line cooling unit in detail according to an embodiment of the present invention, and Fig. 4 is a plan view of a urea water line cooling unit according to an embodiment of the present invention. Fig. FIG. 5 is an enlarged sectional view of the inlet side in the elliptical line cooling unit according to an embodiment of the present invention, and FIG. 6 is a enlarged sectional view of the outlet side in the elliptical line cooling unit according to an embodiment of the present invention.

1 to 6, a cooling water supply apparatus 10 having an ellipsis line cooling unit according to an embodiment of the present invention includes a ellipsis line 100, a ellipsis line cooling unit 200, A cooling water discharge line 400, a cooling water connection line 500, a radiator 600, and an auxiliary heat exchange member 700.

 Generally, the vehicle feeds the exhaust gas discharged from the engine 20 to filter the soot in the diesel particulate filter 10 first, and injects urea water from the dosing injector 60 of the urea water supply device installed in the exhaust pipe 50 (SCR) 70 to decompose into water and nitrogen and discharge it to the muffler 80, so that the smoke can be remarkably reduced.

Thus, the urea water supply device transfers the urea water stored in the urea water storage tank 20 to the urea water heating line through the feed pump (not shown) and supplies it to the dosing injector 60. Accordingly, Conversion to water reduces smoke. At this time, there may be a problem that the number of urea to be transferred is hydrolyzed due to high temperature heat. In order to solve this problem, a cooling water supply device 10 for lowering the temperature of the urea water is required.

The cooling water supply device 10 having the ellipsometer line cooling unit 200 according to the embodiment of the present invention lowers the temperature of the element number moving to the element number line 100 of the urea water supply device, To prevent the hydrolysis from occurring.

The element number line 100 is a conduit for transferring the number of urea supplied from the urea water tank 100. The element number line 100 is made of a circular pipe.

The ellipsis line cooling unit 200 is installed in the urea water line 100 to cool the urea water to be transferred to the urea water line 100 by the supplied cooling water and supplies it to the dosing injector 50 provided in the exhaust pipe 50 .

The number of ellipses line cooling unit 200 is installed around the elliptical water line 100 to supply the cooling water in the longitudinal direction so as to take the heat of the elliptical water conveyed into the elliptical water line 100 to lower the temperature, Prevents hydrolysis of urea water.

The cooling water supply line 300 is connected to the inlet side of the urea water line cooling unit 200 to supply cooling water. The cooling water supply line 300 applies a circular pipe. At the end of the cooling water supply line 300, a connector is provided for connection to the inlet side of the urea water line cooling unit 200.

The cooling water discharge line 400 is connected to the discharge side of the urea water line cooling unit 200 to discharge the cooling water and supply the cooling water to the dosing injector 60.

The cooling water supply line 400 allows circular pipes to be applied.

The cooling water discharge line (400) supplies cooling water to the dosing injector (60). Since the cooling water supplied to the dosing injector 60 is circulated, it can absorb the heat generated in or around the dosing injector 60, thereby cooling the dosing injector 60.

The cooling water connection line 500 is a conduit for transferring the heated cooling water discharged from the dosing injector 60. The cooling water connection line (500) allows the circular pipe to be applied.

The radiator 600 is connected to the cooling water connection line 500 and radiates heat from the heated cooling water to cool it. The radiator 500 may be a radiator provided on the front side of the vehicle engine 30, or may be provided with a separate radiator. On the other hand, in the present embodiment, it is assumed that the radiator 600 applies automotive radiators.

The cooling water discharged from the radiator 600 is transferred to the auxiliary heat exchange member 700 through the cooling water transfer line 650.

The auxiliary heat exchange member 700 is configured to cool the cooled cooling water discharged from the radiator 600 again and transfer it to the cooling water supply line 300.

The auxiliary heat exchanging member 700 may include a cooling water conveying pipe connected to the discharge side of the radiator 600 and a plurality of heat radiating fins provided on the outer peripheral surface of the cooling water conveying pipe to promote the discharge of the heat. A plurality of radiating fins may be arranged at predetermined intervals in the longitudinal direction of the cooling water conveying pipe to radiate heat radially.

Referring to the drawings, a ellipsis line cooling unit 200 according to an embodiment of the present invention includes a cooling water line 210 and a cooling water line installation unit 220.

The cooling water line 210 is installed around the urea water line 100 and is a conduit for transferring the cooling water for cooling the urea water.

The cooling water line 210 is formed to have a diameter larger than the diameter of the elliptical water line 100. The cooling water line 210 is disposed so as to surround the element number line 100 so as to have an outer diameter and a spacing space of the element number line 100.

The cooling water line installation part 220 is provided to install the urea water line 100 and the cooling water line 210 and to connect or discharge the cooling water to the cooling water line 210, To the injector (60).

The cooling water line installation part 220 is connected to the first main body part 232 at one side of the cooling water line 210 and connected to the cooling water supply line 300 to form the first inlet part 234, And a second adapter 242 connected to the second main body 242 and connected to the cooling water discharge line 400 to discharge the cooling water, A first overmold 250 which integrally molds and fixes one side of the cooling water line 210 and the first adapter 230 and a second overmold 250 which is connected to the other side of the cooling water line 210 and the second adapter 240 And a second overmold 260 for molding and fixing the first overmold 260.

The first adapter 230 is formed in a T-shape as a whole.

The inlet 234 is provided at a position orthogonal to the first body 232 to allow the cooling water to flow. A cooling water supply line 300 is provided around the inflow portion 234 so that the cooling water supply line 300 is hooked.

The cooling water line 210 may be sealed by laser welding or the like after one end thereof is connected to the first main body 232.

The second adapter 240 is formed in a T-shape as a whole.

The discharge portion 244 is provided at a position orthogonal to the second body portion 242, and the cooling water flows in. The discharge portion 234 is provided with a latching jaw which is hooked when the cooling water discharge line 400 is connected.

The other end of the cooling water line 210 may be connected to the second main body 242, and then sealed by laser welding or the like.

The first adapter 230 and the second adapter 240 are symmetrically opposed to each other with respect to the center of the cooling water line 210.

The first overmold 250 surrounds the outer circumferential surface of the first body portion 232 and a part of the inlet portion 234 and a part of the cooling water line 210 and a part of the connection adapter 270 .

The first overmold 250 is formed with a first narrow portion 252 which becomes gradually narrower toward the direction end where the cooling water line 210 is joined.

The second overmold 260 covers the outer circumferential surface of the second main body portion 242 and a part of the discharge portion 244 and a part of the other side of the cooling water line 210 and a connection connector 280 .

The second overmold 260 is formed with a second narrow portion 262 that gradually becomes narrower toward the direction end where the cooling water line 210 is joined.

The first body part 232 is provided with a first support part 236 for supporting the elliptical water line 100 at a predetermined distance from the cooling water line 210.

The first support portion 236 is integrally molded in the first overmold 250.

The first support portion 236 may be sealed with the ellipticity line 100 by laser welding or the like.

The second body portion 232 is provided with a second support portion 246 for supporting the elliptical water line 100 at a predetermined distance from the cooling water line 210.

The second support portion 246 is integrally molded and fixed in the second overmold 260.

The second support 246 may be sealed with the ellipticity line 100 and laser welding or the like.

The first overmold 250 is provided with a connection adapter 270 which is molded and fixed in a state where one side of the ellipsis line 100 is connected.

The connection adapter 270 may be formed with a latching jaw which is hooked when one end of the element number line 100 is connected.

The second overmold 260 has a fitting portion 282 to which the other side of the ellipse number line 100 is connected and has a connection connector 280 to which the dosing injector 600 is coupled.

The fitting portion 282 of the connection connector 280 may be formed with a latching portion to which the other end of the elliptical line 100 may be connected.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand.

Accordingly, the true scope of protection of the present invention should be defined by the following claims.

10: cooling water supply device 20: urea water tank 30: engine
40: Smoke reduction device 50: Exhaust pipe
60: dosing injector 70: selective reduction catalyst
80: muffler 100: number of elements line:
200: number of ellipses line cooling unit 210: cooling water line
220: Cooling water line installation part 230: First adapter
232: first main body portion 234:
236: first support portion 240: second adapter
242: second main body part 244:
246: second support part 250: first overmold
260: second overmold 270: connection adapter
280: connection connector 282:
300: Cooling water supply line 400: Cooling water discharge line
500: Cooling water connection line 600: Radiator
650: cooling water transfer line 700: auxiliary heat exchange member

Claims (6)

A cooling water line installed around the ellipse number line for feeding the cooling water to cool the urea water; And
And a cooling water line connected to the cooling water line so as to flow the cooling water through the cooling water supply line or through the cooling water discharge line and connect the urea water to the dosing injector installed in the exhaust pipe, And a mounting portion,
Wherein the dosing injector draws the cooling water through the cooling water discharge line,
The cooling water flowing into the dosing injector is circulated to absorb heat generated in the dosing injector to cool the dosing injector,
Wherein the cooling water line installation part includes: a first adapter having one side of the cooling water line connected to the first main body part and a cooling water supply line connected thereto to form an inflow part into which the cooling water flows;
A second adapter connected to the second body portion at the other side of the cooling water line and connected to the cooling water discharge line to form a discharge portion through which the cooling water is discharged;
A first overmolded mold that surrounds and fixes one side of the cooling water line and the first adapter; And
And a second overmolded mold that surrounds the other end of the cooling water line and integrally encapsulates and secures the second adapter,
Wherein the first overmold is provided with a connection adapter which is mold-fixed with one side of the element number line connected,
Wherein the second overmold has a fitting portion to which the other side of the ellipse number line is connected, and a connection connector to which the dosing injector is coupled is provided.
delete The method according to claim 1,
Wherein the first main body further comprises a first support portion for supporting the outer diameter of the ellipsis line at a predetermined interval from the cooling water line,
Wherein the first support portion is integrally molded and fixed in the first overmold,
The second body portion further includes a second support portion for supporting the outer diameter of the ellipse element line at a predetermined interval from the cooling water line,
And said second support portion is integrally molded and fixed in said second overmold.
delete An element number line for feeding the number of elements supplied from the urea water tank;
A urea water line cooling unit for cooling the number of urea water supplied to the urea water line by the cooling water installed in the urea water line and supplying the water to the dosing injector installed in the exhaust pipe;
A cooling water supply line connected to an inlet side of the elliptic element line cooling unit to supply cooling water;
A cooling water discharge line connected to the discharge side of the urea water line cooling unit to discharge the cooling water and supply the cooling water to the dosing injector;
A cooling water connection line for transferring the cooling water discharged from the dosing injector;
A radiator connected to the cooling water connection line to radiate heat to cool the heated cooling water; And
And an auxiliary heat exchange member for cooling the cooled cooling water discharged from the radiator again and transferring the cooled cooling water to the cooling water supply line,
Wherein the dosing injector draws the cooling water through the cooling water discharge line,
The cooling water flowing into the dosing injector is circulated to absorb heat generated in the dosing injector to cool the dosing injector,
Wherein the elliptic number line cooling unit comprises: a cooling water line installed around the ellipse number line for feeding the cooling water for cooling the urea water; And
And a cooling water line installation part connected to the cooling water line for introducing or discharging the cooling water to the cooling water line and connecting the urea water to a dosing injector installed in the exhaust pipe,
Wherein the cooling water line installation part includes: a first adapter having one side of the cooling water line connected to the first main body part and connected to the cooling water supply line to form an inflow part into which the cooling water flows;
A second adapter connected to the second body portion at the other side of the cooling water line and connected to the cooling water discharge line to form a discharge portion through which the cooling water is discharged;
A first overmolded mold that surrounds and fixes one side of the cooling water line and the first adapter; And
And a second overmolded mold that surrounds the other end of the cooling water line and integrally encapsulates and secures the second adapter,
Wherein the first overmold is provided with a connection adapter which is mold-fixed with one side of the element number line connected,
Wherein the second overmold has a fitting portion to which the other side of the ellipsis line is connected and has a connection connector to which the dosing injector is coupled.
delete

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