JP2020112071A - Intake manifold - Google Patents

Abstract

To provide an intake manifold capable of suppressing increase of pressure loss when air passes through a surge tank.SOLUTION: An intake manifold 1 includes a surge tank 6 in which a fresh air inlet oort 6a connected with throttle body, and outlet ports 11-14 connected with an intake port of an internal combustion engine through intake pipe portions 7-10 are formed in a manner that their center lines L1, L2-L5 are extended in directions different from each other. Parts respectively between the fresh air inlet port 6a and the outlet ports 11-14 in the surge tank 6 are provided with guide walls 15-18 extended from a fresh air inlet port 6a side toward outlet ports 11-14 sides. On the guide walls 15-18, end portions 15a-18a at the fresh air inlet port 6a side are directed toward the fresh air inlet port 6a, and end portions 15c-18c of the outlet ports 11-14 side are directed toward the outlet ports 11-14, and the end portions 15a-18a, 15c-18c are connected with each other through circular arc-shaped curved portions 15b-18b.SELECTED DRAWING: Figure 3

Description

The present invention relates to an intake manifold.

An intake manifold provided in an intake system of an internal combustion engine has a center line extending in different directions from a fresh air inlet connected to a throttle body and an outlet connected to an intake port of the internal combustion engine via an intake pipe section. The surge tank is formed as described above (see Patent Documents 1 and 2). During operation of the internal combustion engine, the atmosphere (air) flows into the surge tank from the throttle body through the fresh air inlet, passes through the surge tank, and then the intake port of the internal combustion engine passes through the intake pipe through the outlet. Washed away in the port.

JP-A-3-275971 JP-A-11-117817

By the way, in the intake manifold, since the fresh air inlet and outlet are formed in the surge tank so that the center lines extend in directions different from each other, the air that flows into the surge tank from the fresh air inlet is discharged. When flowing to, you must change the direction of the air flow. If the direction of the air flow cannot be changed smoothly, the pressure loss when the air passes through the surge tank increases.

An object of the present invention is to provide an intake manifold that can suppress an increase in pressure loss when air passes through a surge tank.

Hereinafter, the means for solving the above-mentioned problems and the effects thereof will be described.
In the intake manifold for solving the above-mentioned problems, a fresh air introduction port connected to a throttle body and an outlet port connected to an intake port of an internal combustion engine via an intake pipe portion are formed so that center lines thereof extend in different directions. Equipped with a surge tank. A guide wall extending from the fresh air inlet side toward the outlet side is provided in a portion of the surge tank between the fresh air inlet and outlet. In this guide wall, the end on the fresh air inlet side is directed toward the fresh air inlet, and the end on the outlet side is directed toward the outlet, and these end portions are Are connected via an arcuate curved portion.

According to the above configuration, the air flowing into the surge tank from the fresh air introduction port flows along the guide wall, so that the flow direction of the air is smoothly changed to the direction toward the outlet port. Therefore, it is possible to prevent the pressure loss when the air passes through the surge tank from increasing without smoothly changing the direction of the air flow.

The perspective view which shows an intake manifold. The perspective view which shows the inside of the surge tank of the intake manifold. (A) And (b) is a schematic diagram which shows the position and shape of the guide wall in a surge tank, respectively.

Hereinafter, an embodiment of the intake manifold will be described with reference to FIGS. 1 to 3.
FIG. 1 shows an intake manifold 1 provided in an intake system of an internal combustion engine. The intake manifold 1 is provided with a surge tank 6 having a fresh air inlet 6a. A throttle body having a throttle valve is connected to the fresh air introduction port 6a of the surge tank 6. The fresh air inlet 6a of the surge tank 6 is connected to the atmosphere via the throttle body and the like. The intake manifold 1 is provided with a plurality of intake pipe portions 7 to 10 corresponding to each cylinder of the internal combustion engine. One end of each of the intake pipes 7 to 10 is connected to the surge tank 6, and the other end is connected to the intake port of each cylinder in the internal combustion engine.

As shown in FIG. 2, a portion of the surge tank 6 to which the intake pipe portions 7 to 10 are connected is provided with a plurality of outlet ports 11 to 14 which are connected to the intake ports of the cylinders of the internal combustion engine through the intake pipe portions 7 to 10. Are formed. In other words, the ends of the intake pipes 7 to 10 on the surge tank 6 side are connected to the outlets 11 to 14 of the surge tank 6, respectively. During operation of the internal combustion engine, the atmosphere (air) flows from the throttle body into the surge tank 6 via the fresh air inlet 6a, passes through the surge tank 6, and then the intake pipes from the plurality of outlets 11-14. It is made to flow into the intake port of each cylinder in an internal-combustion engine via parts 7-10.

As shown in FIG. 3A, the outlets 11 to 14 are arranged in parallel in the inflow direction of air from the fresh air inlet 6a in the surge tank 6 (direction of arrow Y1 in FIG. 3A). Has been formed. The center lines L2 to L5 of the outlet ports 11 to 14 are parallel to each other and extend in a direction different from the direction in which the center line L1 of the fresh air inlet port 6a extends. That is, the outlets 11 to 14 and the fresh air inlet 6a are formed in the surge tank 6 so that the center lines L2 to L5 and the center line L1 have the above-described relationship.

A plurality of guide walls 15 to 18 are provided in a portion of the inner wall of the surge tank 6 between the fresh air introduction port 6a and the discharge ports 11 to 14 so as to correspond to the discharge ports 11 to 14. Note that FIG. 3B shows the surge tank 6 of FIG. 3A as viewed from the direction of arrow AA. As can be seen from FIG. 3B, the guide walls 15 to 18 (only the guide wall 15 is shown in FIG. 3B) are formed so as to protrude from the inner wall of the surge tank 6.

As shown in FIG. 3A, the guide wall 15 extends from the fresh air introduction port 6a side of the surge tank 6 toward the discharge port 11 side. In the guide wall 15, the end portion 15a on the side of the fresh air introduction port 6a is directed toward the fresh air introduction port 6a, while the end portion 15c on the side of the outlet port 11 is directed toward the outlet port 11. The end portions 15a and 15c are connected to each other via an arcuate curved portion 15b. The end portion 15c of the guide wall 15 on the outlet 11 side is formed so as to be located on the center line L2 of the outlet 11.

The guide wall 16 extends from the fresh air inlet 6a side of the surge tank 6 toward the outlet 12 side. In the guide wall 16, the end portion 16a on the side of the fresh air introduction port 6a is directed toward the fresh air introduction port 6a, while the end portion 16c on the side of the outlet port 12 is directed toward the outlet port 12. The end portions 16a and 16c are connected to each other via a curved portion 16b having an arc shape. The end portion 16c of the guide wall 16 on the outlet 12 side is formed so as to be located on the center line L3 of the outlet 12.

The guide wall 17 extends from the fresh air inlet 6a side of the surge tank 6 toward the outlet 13 side. In the guide wall 17, the end portion 17a on the fresh air introduction port 6a side is directed toward the fresh air introduction port 6a, while the end portion 17c on the outlet port 13 side is directed toward the outlet port 13. The end portions 17a and 17c are connected to each other via an arcuate curved portion 17b. The end portion 17c of the guide wall 17 on the outlet 13 side is formed so as to be located on the center line L4 of the outlet 13.

The guide wall 18 extends from the fresh air inlet 6a side of the surge tank 6 toward the outlet 14 side. In the guide wall 18, the end portion 18a on the side of the fresh air introduction port 6a is directed toward the fresh air introduction port 6a, while the end portion 18c on the side of the outlet port 14 is directed toward the outlet port 14. The end portions 18a and 18c are connected to each other via a curved portion 18b having an arc shape. The end portion 18c of the guide wall 18 on the outlet 14 side is formed so as to be located on the center line L5 of the outlet 14.

Next, the function and effect of the intake manifold 1 of this embodiment will be described.
(1) The air that has flowed into the surge tank 6 from the fresh air introduction port 6a via the throttle body is from the fresh air introduction port 6a side to the discharge ports 11 to 14 side as shown by an arrow Y1 in FIG. 3(a). Flowing toward. Then, since a part of the air flowing in this way flows along the guide walls 15 to 18, specifically, the end portions 15a to 18a, the curved portions 15b to 18b, and the end portion 15c to each of the guide walls 15 to 18. By flowing along 18c, the direction of the flow of the air is smoothly changed to the direction toward the outlets 11 to 14. Therefore, it is possible to suppress the increase in pressure loss when the air passes through the surge tank 6 without smoothly changing the direction of the air flow.

(2) Ends 15c to 18c of the guide walls 15 to 18 on the side of the outlets 11 to 14 are located on the center lines L2 to L5 of the outlets 11 to 14. Therefore, as described above, the air that has flowed along the guide walls 15 to 18 is led out from the end portions 15c to 18c of the guide walls 15 to 18 on the outlet ports 11 to 14 side as shown by an arrow Y2. When flowing toward 11 to 14, they are in a state of being positioned corresponding to the centers of the outlets 11 to 14. For this reason, even if the above-mentioned air is separated from the guide walls 15 to 18 and slightly diffuses when flowing toward the outlet ports 11 to 14, the air can easily flow smoothly into the outlet ports 11 to 14.

(3) Among the air flowing into the surge tank 6 from the fresh air introduction port 6a and flowing as shown by the arrow Y1, some air does not flow into each of the outlet ports 11-14. The air that does not flow into the outlets 11 to 14 is the inner wall of the surge tank 6 at the tip in the inflow direction from the fresh air inlet 6a into the surge tank 6, that is, the left end portion of the surge tank 6 in FIG. It is reflected by the inner wall as shown by arrow Y3. If the air thus reflected collides with the air that has flowed into the surge tank from the fresh air introduction port 6a, a swirl of air is generated in the surge tank 6 accordingly, and the pressure when the air passes through the surge tank 6 is increased. The loss will increase. However, the collision of the reflected air with the air flowing into the surge tank 6 from the fresh air introduction port 6a is suppressed by the guide walls 15 to 18 provided corresponding to the respective outflow ports 11 to 14. Therefore, it is possible to suppress the increase in pressure loss when the air passes through the surge tank due to the generation of the vortex of the air in the surge tank 6 as described above.

The above embodiment can be modified as follows, for example.
The height of the guide walls 15 to 18 with respect to the inner wall of the surge tank 6 gradually increases from the end portions 15a to 18a on the fresh air inlet 6a side toward the curved portions 15b to 18b, and from the curved portions 15b to 18b. It may be gradually lowered toward the end portions 15c to 18c on the side of the outlets 11 to 14. In this case, the air flowing along the guide walls 15 to 18 can be made smoother.

The connecting portions between the side surfaces of the guide walls 15 to 18 and the inner wall surface of the surge tank 6 may be arcuate so that the side surfaces and the inner wall surface are smoothly connected. Also in this case, the air flowing along the guide walls 15 to 18 can be made smoother.

The end portions 15c to 18c of the guide walls 15 to 18 on the outlet 11 to 14 side need not necessarily be located on the center lines L2 to L5 of the outlets 11 to 14.
All of the outlets 11 to 14 do not necessarily have to be in parallel, and only a part of them may be in parallel. It is also possible to adopt a configuration in which none of the outlets 11 to 14 are parallel.

Although the guide walls 15 to 18 are provided so as to correspond to the plurality of outlets 11 to 14, a configuration is adopted in which the number of guide walls is smaller than the number of outlets so that outlets that do not correspond to the guide walls occur. You may.

-If the surge tank has only one outlet, only one guide wall may be provided.

DESCRIPTION OF SYMBOLS 1... Intake manifold, 6a... Fresh air introduction port, 6... Surge tank, 7... Intake pipe part, 8... Intake pipe part, 9... Intake pipe part, 10... Intake pipe part, 11... Outlet port, 12... Outlet port , 13... Outlet port, 14... Outlet port, 15... Guide wall, 16... Guide wall, 17... Guide wall, 18... Guide wall.

Claims (3)

In an intake manifold including a fresh air introduction port connected to a throttle body, and a surge tank in which an outlet port connected to an intake port of an internal combustion engine via an intake pipe portion is formed such that center lines thereof extend in mutually different directions,
A portion of the surge tank between the fresh air inlet and the outlet is provided with a guide wall extending from the fresh air inlet side toward the outlet side.
The guide wall has an end on the side of the fresh air inlet directed toward the fresh air inlet, and an end on the side of the outlet directed toward the outlet, and these ends. An intake manifold, wherein the parts are connected to each other via an arcuate curved part. The intake manifold according to claim 1, wherein an end portion of the guide wall on the side of the outlet is formed so as to be located on a center line of the outlet. A plurality of the outlets are formed in parallel in the inflow direction of air from the fresh air inlet in the surge tank, and the guide wall is provided in a plurality corresponding to the plurality of outlets. The intake manifold according to claim 1 or 2.