KR101618990B1 - Protector mounting structure for intake manifold - Google Patents

Abstract

The present invention relates to a protector mounting structure for an intake manifold. According to the present invention, the protector mounting structure for an intake manifold comprises: an intake manifold comprising: a recirculating gas inflow pipe into which recirculating gas flows; and an external air inflow pipe into which external air flows; and a protector installed in the intake manifold, comprising connecting holes connected respectively to the recirculating gas inflow pipe and the external air inflow pipe, which is to prevent thermal damage to the intake manifold by the high-temperature recirculating gas flowing into the recirculating gas inflow pipe. One side of the protector is held on an internal wall of the external air inflow pipe. The other side of the protector is held on an internal wall of the intake manifold. According to the present invention, a protector to prevent thermal deformation of an intake manifold by high-temperature recirculating gas is held in a stable way.

Description

[0001] PROTECTOR MOUNTING STRUCTURE FOR INTAKE MANIFOLD [0002]

The present invention relates to a structure for installing an air intake manifold protector, and more particularly, to a structure for installing an air intake manifold, in which a protector for preventing thermal deformation of an intake manifold caused by a high temperature recirculating gas is stably fixed to an inner wall of an intake manifold, To a folding protector mounting structure.

Generally, an automotive engine has at least one cylinder formed by a cylinder head and a cylinder block, and kinetic energy generated by burning a mixer in which a proper ratio of fuel and air is mixed in each cylinder is used for driving the vehicle.

An intake manifold is provided on the cylinder head side of the vehicle engine, and air is supplied to the cylinder of the engine through the intake manifold.

The intake manifold has a plenum (or surge tank) provided at one side thereof and a plurality of runners communicatively connected to the plenum.

BACKGROUND ART [0002] In recent years, an exhaust gas recirculation system that reduces the generation of nitrogen oxides by recirculating a part of exhaust gas discharged through an exhaust system of an engine to an intake system has been widely used.

Thus, a recirculation pipe for introducing a part of the exhaust gas, that is, a recirculating gas, is connected to the plenum side of the intake manifold, and hot recycle gas is introduced into the plenum of the intake manifold through the recirculation pipe.

On the other hand, when the intake manifold is made of a metal such as aluminum or steel, the problem of heat damage due to the recirculating gas is not so serious.

In recent years, however, intake manifolds made of a synthetic resin material have been used for weight saving and manufacturing cost reduction. When the intake manifold is made of a synthetic resin material, heat of the recirculating gas causes thermal damage Can occur.

The intake manifold made of synthetic resin is provided with a heat protector at a portion where the recycle pipe is introduced to prevent the intake manifold from being damaged from the heat of the recycle gas.

However, the conventional intake manifold is complicated to install and assemble due to the installation of the heat protector by fastening with a plurality of screws or the like, and the fastening holes such as screws are loosened and loosened and the fixation of the heat protector is not robust , Thereby failing to perform an effective heat damage prevention function.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a structure for mounting an intake manifold protector for stably fixing a protector for preventing thermal deformation of an intake manifold caused by a high temperature recirculation gas .

In addition, it is possible to prevent the intake manifold from being thermally deformed by preventing the recirculating gas from directly contacting the inner wall of the intake manifold when the high-temperature recirculating gas enters the intake manifold, .

According to an aspect of the present invention, there is provided an intake manifold attachment structure for an intake manifold, including: an intake manifold having a recirculation gas inlet pipe through which a recirculating gas flows and an outside air inlet pipe through which external air is introduced; And a communication hole communicating with the recirculation gas inlet pipe and the outside air inlet pipe, respectively, and a protector for preventing thermal damage of the intake manifold due to the high-temperature recirculating gas introduced from the recirculating gas inlet pipe, Wherein one side of the protector is fixed to the inner wall of the outside air inlet pipe and the other side of the protector is fixed to the inside wall of the intake manifold.

The protector may further include a plurality of projections formed on an outer circumferential surface of the protector so as to form a heat insulating layer between the outer circumferential surface of the protector and the inner wall of the intake manifold.

The protector may further include a plurality of coupling brackets provided at the other side of the protector, wherein the coupling grooves for fixing the protector are provided in the intake manifold.

The plurality of coupling brackets may be formed on the upper and lower sides of the protector.

Further, the intake manifold may further include an insertion portion into which the engagement bracket is inserted, and a coupling protrusion protruded from the insertion portion and inserted into the engagement groove.

According to the present invention as described above, the protector for preventing the thermal deformation of the intake manifold caused by the high-temperature recycle gas is stably fixed.

Also, when the high-temperature recirculating gas enters the intake manifold, the recirculating gas is prevented from directly contacting the inner wall of the intake manifold, thereby preventing the intake manifold from being thermally deformed.

1 is an exploded bottom perspective view of a structure for mounting a protector for an intake manifold according to the present invention.
2 is a perspective view showing a protector of a structure for mounting an intake manifold according to the present invention installed on an intake manifold.
3 is a perspective view of a protector according to the present invention.
4 is a front view of the protector according to the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. The same reference numerals shown in the drawings denote the same members. In describing the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

2 is a perspective view showing a protector of a structure for mounting an intake manifold according to the present invention installed on an intake manifold, FIG. 3 is a sectional view of the intake manifold according to the present invention, and FIG. FIG. 4 is a front view of a protector according to the present invention. FIG.

The structure for mounting an intake manifold protector according to the present invention includes an intake manifold 100 and a protector 200.

The intake manifold 100 is a member for supplying air into the cylinders of the multi-cylinder engine. The intake manifold 100 is recently made of a lightweight synthetic resin material in accordance with the weight reduction of the vehicle.

The intake manifold 100 of the present invention to be described later is involved in the combustion of the fuel by introducing outside air entering through a general intake filter (not shown) and part of the exhaust gas of the vehicle.

As described above, when the exhaust gas is recirculated into the intake manifold 100, the filling rate of the new mixer is lowered, and the recirculated exhaust gas contains a large amount of CO ₂ having a larger heat capacity than N ₂ , The temperature rise rate is lowered when the fuel of the combustion chamber is burned.

In addition, since the exhaust gas having a lower oxygen content than the air is involved in the combustion, the burning rate is decreased, and the maximum combustion temperature is lowered, so that the amount of NOx is significantly reduced (up to about 60%). However, the amount of HC and CO in the exhaust gas is not reduced.

Exhaust gas recirculation is effective as a countermeasure for reducing NOx, and when the exhaust gas is cooled and recirculated, the effect is greater, while the ignitability of the mixture is deteriorated and the power of the engine is decreased.

Also, the CO, HC and fuel consumption rate in the exhaust gas increase as the recirculation rate increases. In addition, if the recirculation rate is too high, the operating stability of the engine becomes poor. Therefore, it is preferable to selectively recycle an appropriate amount of exhaust gas only in an operation region where NOx emissions are large.

The intake manifold 100 is provided with an outside air inlet pipe 10 through which outside air flows and a recirculating gas inlet pipe 20 into which a recirculating gas flows. The outside air inlet pipe 10 and the recirculating gas inlet pipe 20, Can be moved to the cylinder through the runner 30 provided at one side of the intake manifold 100. [

The protector 200 is a member installed inside the intake manifold 100. The protector 200 is made of a metal material and has an outer air inlet pipe 10 and a recirculating gas And communicating holes 201 and 202 communicating with the inlet pipe 20, respectively.

The portion of the protector 200 facing the communication hole 202 communicating with the recycle gas inlet pipe 20 is closed so that the high temperature recycle gas is prevented from directly contacting the inner wall of the intake manifold 100.

Since the recycle gas is at the highest temperature in the vicinity of the recycle gas inlet pipe 20, the protector 200 is preferably installed adjacent to the recycle gas inlet pipe 20.

That is, as the inner wall of the intake manifold 100 adjacent to the recirculating gas inlet pipe 20 is the highest, and as it gets farther from the recirculating gas inlet pipe 20, it gets mixed with the outside air and gets farther from the recirculating gas inlet pipe 20 The temperature drops.

Accordingly, the protector 200 extends from the inner wall of the recirculation gas inlet pipe 20 to the interior of the intake manifold 100.

As shown in FIGS. 3 to 4, one side of the protector 200 is formed in a generally tubular shape and includes communication holes 201 and 202 communicating with the outside air inlet pipe 10 and the recycle gas inlet pipe 200, Are generally bored in mutually perpendicular directions, but are fixed to the inner wall of the outside air inflow pipe.

It is preferable that the other side of the protector 200 has a half-cut shape compared to one side, and it is preferable that the upper side is cut accurately, because the recirculating gas flows in the upper side of the protector 200, The mixer in which the recycle gas and the outside air are mixed moves from the inside of the intake manifold 100 toward the lower side wall.

A plurality of coupling brackets 210 are provided on the other side of the protector 200 so as to be fixed to the inside of the intake manifold 100. The coupling brackets 210 are provided on upper and lower sides of the other side of the protector 200, But is not limited thereto.

The coupling bracket 210 is provided with a coupling groove 211. The coupling groove 211 is engaged with the coupling projection 111 provided on the inner wall of the intake manifold 100 so that the protector 200 stably .

The coupling protrusion 111 may protrude into the intake manifold 100 from the insertion portion 110 formed in the inner wall of the intake manifold 100 so that the coupling bracket 210 is inserted.

2, the pair of coupling brackets 210 are stably fixed to the insertion portion 110 and the coupling protrusion 111 so that the protector 200 is stably fixed to the intake manifold 100 In the present invention.

Particularly, the intake manifold 100 is produced by vibration welding so that no gap is formed between the upper bracket 101 and the lower bracket 102 in a state where the protector 200 is positioned inside.

When the protector 200 moves finely in the process of vibration welding, the protector 200 is not fixed at a predetermined position, and the intake manifold 100 may be thermally damaged due to the high temperature of the recirculating gas. However, The present invention is characterized in that the protector 200 is stably fixed in the intake manifold 100, and thus can maintain a constant quality during vibration welding.

A plurality of protrusions 220 are formed on an outer circumferential surface of one side of the protector 200 (a portion fixed to the inner wall of the outside air inflow pipe 10). The protrusions 220 protrude from the inner wall of the outside air inflow pipe 10 So that one side of the protector 200 is stably fixed in the outside air inlet pipe 10.

Accordingly, one side of the protector 200 is in point contact with the inner wall of the outside-air inflow pipe 10, not by surface contact, by the protrusions 220, so that the number of high-temperature points can be minimized. At the same time, 200 and the inner wall of the intake manifold 100 and the outer air inlet pipe 10.

Since the position of the heat insulating layer formed by the projections as described above is an initial position where the high-temperature recycle gas enters the intake manifold 100, the heat insulating layer prevents the thermal deformation of the intake manifold 100 have.

Optimal embodiments have been disclosed in the drawings and specification. Although specific terms are used herein, they are used for the purpose of describing the present invention only and are not used to limit the scope of the present invention described in the claims or the claims. Therefore, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10- Inflow pipe
20-Recirculating gas inlet pipe
30-Runner
100-Intake manifold 101-Upper bracket
102-lower bracket 110-
111-
200-Protector 201, 202-
210-engagement bracket 211-engagement groove
220-

Claims (5)

An intake manifold in which a recirculating gas inlet pipe through which the recirculating gas flows and an outside air inlet pipe through which the outside air flows are formed,
And a communicating hole communicating with the recycle gas inlet pipe and the outside air inlet pipe are formed in the intake manifold, respectively, and thermal damage of the intake manifold due to the high-temperature recycle gas introduced from the recycle gas inlet pipe A protector is provided to prevent the above-
One end of the protector is fixed to the inner wall of the outside air inlet pipe with reference to a moving direction of the recycle gas and the outside air,
And the other end of the protector is fixed to the inner wall of the intake manifold with reference to the moving direction of the recirculating gas and the ambient air,
And a plurality of engaging brackets formed on the other end of the protector,
And an engaging protrusion protruding from the inserting portion in a direction opposite to a depression direction of the inserting portion is provided on an inner wall of the intake manifold,
Wherein the coupling bracket is inserted into the insertion portion, and the coupling protrusion is inserted into the coupling groove to fix the protector. The method according to claim 1,
On one outer circumferential surface of the protector,
Further comprising a plurality of protrusions protruded to form a heat insulating layer between an outer circumferential surface of the protector and an inner wall of the intake manifold. delete The method according to claim 1,
The plurality of engagement brackets
Wherein the protector is formed at an upper portion and a lower portion of the other side of the protector.
delete

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