KR200156995Y1 - Vibration absorption connection structure of air cleaner and throttle body - Google Patents

Abstract

The present invention relates to a connection structure between the air cleaner and the throttle body, which is an intake system of an automobile, and is formed in an annular shape at the connection portion between the air cleaner 10 and the throttle body 20 so that the outer and inner circumferences are elastically folded. Vibration absorbing connection structure of the air cleaner and the throttle body to minimize the vibration and noise transmitted to the air cleaner 10 through the throttle body 20 by installing the elastic rubber ring 50 is formed in a zigzag shape cut surface It is about.

Description

Vibration-absorbing connection structure between air cleaner and throttle body

The present invention relates to a connection structure between the air cleaner and the throttle body, which is an intake system of an automobile, and in particular, by installing an annular elastic rubber ring at the connection portion between the air cleaner and the throttle body to reduce vibration and noise transmitted through the throttle body. A vibration absorbing connection structure of an air cleaner and a throttle body is provided.

In general, the intake system of an automobile includes an air cleaner 10 that filters external impurities by sucking external air as shown in FIG. 1, and air that checks the amount of air that is included in the air cleaner 10 and passed through. The flowmeter 12, the throttle body 20 whose opening degree is controlled to pass only the air of the engine as much as necessary, and the surge tank for temporarily storing the air passing through the throttle body 20 to reduce the intake pulsation 30 and the intake manifold (not shown) which connects the said surge tank 30 and each combustion chamber of an engine, and the air in the said surge tank 30 passes.

Here, the vibration absorbing connection structure of the conventional air cleaner and the throttle body forms a supply port 15 extended to a predetermined degree so that purified air is supplied to the rear side of the air cleaner 10, as shown in FIG. An inlet 25 is formed at the inlet of the throttle body 20 so as to be connected to the supply port 15 of the air cleaner 10, and thus, the air inlet port 15 and the inlet port of the throttle body are formed. 25 are interconnected.

In particular, the connection portion between the supply port 15 of the air cleaner and the inlet port 25 of the throttle body, the vibration and noise transmitted through the throttle body 20 due to the explosion stroke of the engine to the air cleaner 10 Cell-shaped insulating rubber 40 is inserted to attenuate the transmission.

Here, the insulating rubber 40 is formed in a hollow cylindrical shape is inserted around the inlet 25 of the throttle body, the supply port 15 of the air cleaner outside the insulating rubber 40 is extrapolated to the throttle body ( 20 and the air cleaner 10 are interconnected.

However, the vibration absorbing structure of the conventional air cleaner and the throttle body configured and operated as described above blocks vibration and noise transmitted from the outside when the air is sucked through the air cleaner 10 and the throttle body 20. If the insulating rubber 40 is inserted between the supply port 15 and the inlet 25 as much as possible, but because the vibration is not sufficiently absorbed, there is a problem that causes the noise cleaner 10 to cause the noise.

The present invention has been made to solve the above problems, by inserting an annular elastic rubber ring between the supply port of the air cleaner and the inlet of the throttle body to minimize the vibration and noise transmitted through the throttle body due to the engine operation. It is to provide a vibration absorbing connection structure between the air cleaner and the throttle body.

1 is a block diagram showing a general intake system.

Figure 2 is a schematic perspective view showing a vibration absorbing connection structure of a conventional air cleaner and the throttle body.

3 is a cross-sectional view showing a vibration absorbing connection structure of the air cleaner and the throttle body according to the present invention.

* Explanation of symbols for main parts of the drawings

10: air cleaner 15: supply port

20: Throttle Body 25: Inlet

50: elastic rubber ring

Vibration-absorbing connection structure of the air cleaner and the throttle body of the present invention for realizing the above problems, the supply port is formed so that the air is discharged to the air cleaner, the inlet is formed to be connected to the supply port to the air inlet In the connection structure of the air cleaner and the throttle body, an elastic rubber ring having an elastic force is installed between the supply port and the inlet port to absorb the vibration transmitted through the throttle body; The elastic rubber ring is formed in an annular shape characterized in that the cutting surface is formed in a zigzag shape so that the elastic force is folded between the outer peripheral surface and the inner peripheral edge.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention.

Vibration absorption connection structure of the air cleaner and the throttle body according to the present invention is the operation of the engine between the supply port 15 of the air cleaner 10 and the inlet 25 of the throttle body 20 as shown in FIG. The elastic rubber ring 50 having an elastic force is installed so that vibration and noise transmitted through the throttle body 20 are absorbed.

Here, the elastic rubber ring 50 is formed in an annular shape, the cutting surface is formed in a zigzag shape so that the elastic force is folded between the outer and inner circumference.

In addition, the elastic rubber ring 50 is preferably inserted between the inlet port 25 and the overlapping portion of the inlet port 25 and the supply port 15 is inserted into the supply port 15 to some extent.

Referring to the operation of the vibration absorbing connection structure of the air cleaner and the throttle body of the present invention configured as described above are as follows.

When the engine equipped with the present invention is operated, a continuous explosion stroke occurs, which causes a constant vibration. The vibration generated in the engine is transmitted to the air cleaner 10 to a predetermined degree through the surge tank and the throttle body 20 in the engine body.

Here, the rubber spring 50 of the present invention is installed between the inlet 25 of the throttle body and the supply port 15 of the air cleaner to absorb the vibration transmitted through the throttle body 20 to the air cleaner 10 To minimize vibrations.

That is, when the throttle body 20 has a constant vibration by the operation of the engine, a constant vibration also occurs in the inlet 25 of the throttle body 20 connected integrally thereto. The vibration transmitted to the inlet 25 is offset by the elastic rubber ring 50 between the outside and the supply port 15 of the air cleaner so that the vibration is hardly transmitted to the air cleaner 10. .

Since the elastic rubber ring 50 is formed in an annular zigzag shape, the inlet 25 of the throttle body 20 elastically corresponds to the vibrating direction and is transmitted to the supply port 15 of the air cleaner. Minimize vibration. Therefore, when the elastic rubber ring 50 of the present invention is installed as compared to when the insulating rubber 40 is used in FIG. 2, a noise reduction effect of about 2 dB can be obtained in the air cleaner 10. have.

The vibration absorbing connection structure of the air cleaner and the throttle body according to the present invention constructed and acting as described above has an elastic rubber ring between the inlet 25 of the throttle body 20 and the supply port 15 of the air cleaner 10. Since 50 is installed, vibration transmitted through the throttle body 20 is attenuated by the elastic rubber ring 50, thereby reducing the vibration and noise generated in the air cleaner 10.

Claims (2)

In the connection structure of the air cleaner and the throttle body formed with a supply port so that the fresh air is discharged to the air cleaner, the inlet is formed to be connected to the supply port to the throttle body, through the throttle body between the supply port and the inlet An elastic rubber ring having an elastic force is installed to absorb the transmitted vibration; The elastic rubber ring is formed in an annular shape so that the cutting surface is formed in a zigzag shape so as to be folded elastically between the outer and inner circumference of the vibration cleaner and throttle body vibration absorbing structure. The vibration absorbing structure of claim 1, wherein the elastic rubber ring is installed between the inlet and the supply port by overlapping the inlet with a predetermined degree.