KR0124050Y1 - Automobile resonator for eliminating foreign matters in intake air - Google Patents

Abstract

The present invention improves the function of the filter element by separating impurities contained in the intake air from the air particles and at the same time reduces the intake noise due to rapid pressure change in the intake air, the upper case having an air intake tube (10) A housing 100 formed by joining each other with a lower case 14 having a hole 13 for discharging air; A guide vane (19) mounted in the housing (100) to allow spiral flow of the sucked air to separate large impurities contained in the air; Located in the lower side of the vane 19 and collects the air exiting from the vane 19 to pass through the guide portion 24 which gradually decreases the inner diameter to discharge to the air discharge tube (15) guide portion ( By the kinetic energy generated by the pressure difference between the air 24 and the air discharge tube 15, the pressure fluctuation of the air flow is smooth, and the automobile for removing the impurities in the intake air, including the cavity 23 to reduce the intake noise It's a resonator.

Description

Automotive Resonator Removes Impurities in Intake Air

1 is a suction system to which the present invention is applied.

Figure 2 is a perspective view of the device assembly according to an embodiment of the present invention.

3 is a side cross-sectional view of the device of the present invention.

Figure 4 is a (a), (b) is a view showing another embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

13: upper case 14: lower case

19: vane 23: cavity

24: guide part

[Industrial use]

The present invention relates to an automobile resonator, and more particularly, a change in density and a mismatched impedance due to an area ratio, and a sudden pressure change using a cavity, and at the same time a vane is used. The present invention relates to an automobile resonator capable of separating impurities contained in inhaled air, thereby reducing intake machine noise and increasing clean efficiency of intake air.

[Private Technology]

Since the noise caused by the inhaled air is a big part of the noise generated in the car, it is required to reduce it as much as possible.

This intake noise is caused by sudden pressure fluctuations in the air being sucked. To reduce this noise, it is a fundamental solution to smooth the pressure fluctuations in the air.

Resonators that do this can be divided into two types:

One is a simple expansion type, which increases the diameter of the tube instantaneously at a predetermined position in the intake pipe between the intake duct and the air cleaner, and returns the acoustic energy to the negative power source by partial reflection. It is a form that reduces the sound noise through, and the other side is called a side branch type, in contrast to the above-mentioned form, the inlet (extended inlet) in a simple expansion type at a predetermined position of the intake pipe between the intake duct and the air cleaner An outlet pipe is inserted to reduce noise by sound reflection and resonance.

[Problems of the prior art to be solved by the present invention]

However, the above resonators only act as a noise reduction effect, and cannot remove impurities inherent in the intake air.

As a result, intake air flows into the air cleaner with various impurities and accumulates in the element, causing frequent problems such as problems of frequent replacement and inability to obtain good clean efficiency.

The present invention was devised to solve such a problem, and an object of the present invention is to spirally flow the inhaled air as a vane, thereby sending impurities particles in the air to the wall of the case and separating them, thereby increasing the life of the air cleaner element. In order to extend the process and obtain a good cleaning effect.

Another object of the present invention is to reduce the intake noise due to the generation of mismatched impedance due to the negative resonance and area ratio by the cavity 23 in the complex form of the simple expansion type and the side branch type.

[Means to solve the problem]

In order to achieve the above object, the present invention provides a guide vane for guiding the air to be sucked and causing spiral flow to generate strong centrifugal force, thereby removing impurities contained in the air; As the kinetic energy is generated in the air flow due to the pressure difference, the strong turbulent air passing through the vane passes through the guide, which gradually shrinks, and the fluctuation of the intake air pressure is alleviated to remove turbulence. It provides a resonator for removing impurities in the intake air, including the cavity to be sent to the air cleaner (3).

[Action]

According to the above, the air containing the impurity and the pressure fluctuations at the same time is sucked and the swing flows through the guide vane.The centrifugal force causes the larger particles to move away from the swing center than the air particles. They are driven to the wall and descend on the wall and collect on the bottom of the case.

In addition, the air that is released from the vane is still in a state of severe pressure fluctuation, and becomes smooth as the kinetic energy is generated in the air stream due to the pressure difference caused by passing through the cavity-shaped guide part of the cavity, and the intake noise due to the pressure fluctuation Can be reduced.

EXAMPLE

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in more detail.

1 is an air intake system diagram of the present invention, FIG. 2 is an assembled perspective view of the present invention, and FIG. 3 is a side cross-sectional view of the present invention, and reference numeral 1 designates a resonator of the present invention.

To briefly describe the intake system to which the present invention is applied, the outside air enters through the suction duct 2 and passes through the air cleaner 3 through the resonator 1 of the present invention, and the airflow meter 4. The flap (5) is pushed open and enters the combustion chamber (7) of the engine through the throttle chamber (6), which is provided with an air passage (8) of another system bypassing before the throttle chamber (6) during engine idle rotation. Through this adjustment of the air regulator 9 enters the combustion chamber 7 of the engine.

However, inhaled air contains many impurities, and this dust has a profound effect on the life of the engine and also causes excessive emissions of soot.

In addition, intake air generates intake noise due to severe turbulence of air particles due to pressure fluctuations, and this intake noise occupies a large proportion among various noises generated in a vehicle.

The present invention is located between the suction duct 2 and the air cleaner 3 is a device for primarily filtering the intake air, and to reduce the intake noise of the intake air.

The upper case 13 which integrally forms the air suction tube 10 which communicates with the suction duct 2, and has the flange 12 through which two or more bolt holes 11 are drilled, is the said upper case. It is formed facing the flange 12 of the joint is joined by a joining means, such as the lower case 14 and the bolt 14, which integrally form the flange 12 'which is a plurality of bolt holes 11' To form the housing 100 of the present invention, and the bottom surface of the lower case 14 is formed with a hole 16 to allow the air discharge tube 15 to extend in communication with the air cleaner 3. .

In addition, a seal 17 having both sides corresponding to the flanges 12 and 12 'is inserted between the junction of the upper case 13 and the lower case 14, which is a suction tube 10. This is to prevent the air entering into the housing 100 through the leak through the seams of the upper, lower cases (13, 14).

The air entering the housing 100 through the suction duct 2 and the suction tube 10 is a guide vane 19 for removing impurities contained therein.

The guide vanes 19 are formed in a spiral shape with a flat blade 21 around a pillar 20 having a sharp cone in the upward direction.

The installation of the guide vanes 19 is located at the inner end of the suction tube 10 so that a sharp cone is placed, and is mounted by the coupling piece 22 formed inside the upper case 13, thereby inducing the suction tube 10. The air coming in through is guided to the edge by the cone of the column 20 to generate a centrifugal force as it rotates down the feather (21), the large dust is going to go further away from the center of rotation Tends to separate from air particles.

(A) and (b) of FIG. 4 show other embodiments of the present invention, the same parts as in the first embodiment are given the same reference numerals, and the parts different from the first embodiment will be described in detail.

(a) is a guide vane (19) of the first embodiment by mounting the guide blade 41 formed by giving an angular shape deformation to the flat plate bent at the same curvature as the inner diameter of the suction tube (10) inside the suction tube (10) It plays the same role as.

And, (b) is a guide vane 51 formed by giving an angle deformation to the flat plate bent at the same curvature as the inner diameter of the upper case 13 to the inside of the upper case 13 to guide the vane of the first embodiment Instead.

Therefore, the sucked air flows along the guide feathers 41 and 51, and the air particles themselves form a small vortex and flow out by spiral flow. In this process, particles of impurities larger than the air particles are separated from the air particles. To be collected.

The impurities thus separated are collected on the bottom surface of the inner wall of the housing 100.

As described above, the air coming down while turning turns to generate intake noise because it still undergoes coarse flow due to pressure fluctuations even though impurities are removed.

Therefore, a cavity 23 is required as a device for smoothing pressure fluctuations to reduce intake noise, which is located under the guide vanes 19.

The cavity 23 has a large diameter toward the vanes 19 and has a guide portion 24 in the shape of a paddle gradually decreasing in diameter downward, and an air discharge tube 15 is integrally formed under the proper diameter. The housing 100 is formed by the fixing protrusion 26 formed inside the flange 12 forming part of the upper case 13 and the boundary 27 between the guide face 24 of the cavity 23 and the air discharge tube 15. It can be easily fixedly mounted within.

The cavity 23 captures the air exiting the vanes 19 and induces a flow, so that a large amount of air continuously flows through the guide portion 24 whose inner diameter gradually decreases, thereby maintaining a constant inner diameter at a proper inner diameter. It passes through the tube 15, at which time the air flow by the pressure difference between the guide portion 24 and the tube 15 eliminates turbulence by supplying kinetic energy.

Therefore, the irregularly flowing air is slowly calmed to form a laminar flow and flows toward the air cleaner 2.

The present invention having the configuration as described above is to damp the surging phenomena of the intake air and to first filter impurities before the intake air enters the air cleaner, and the air introduced through the air duct 1 is air. It enters into the housing 100 through the suction tube 12 and moves the dust of particles larger than air particles to the outer edge of the centrifugal motion due to the centrifugal force formed by the helical motion caused by the guide vane 19. Ride down to the bottom to be collected on the bottom of the lower case (14).

In order to generate the sound resonance and mismatch impedance, it is composed of tubes of different diameter elements, and the acoustic energy is returned to the sound source by the partial reflection to attenuate the noise of the sound source through the continuous reflection of the sound, and guide vanes. Air from 19 is still a severe turbulence due to pressure fluctuations, the intake noise can be reduced by canceling the pressure fluctuations of the air flow by the cavity (23).

[effect]

While filtering the intake air into the air cleaner 3, the first, the large particles of dust is filtered to increase the clean efficiency of the air cleaner 3, while at the same time economical by extending the life of the elements of the air cleaner 3, The pressure fluctuations of the intake air are moderated to reduce the intake noise such as surging phenomena caused by severe pressure fluctuations.

Claims (4)

A housing 100 in which an upper case 113 having an air intake tube 10 and a lower case 14 having holes 16 for discharging air are joined to each other; A guide vane (19) mounted in the housing (100) to allow spiral flow of the sucked air to separate large impurities contained in the air; Located at the bottom of the vanes 19 to collect the air exiting from the vanes 19 to perform a dense flow to remove impurities in the intake air, including the cavity 23 to smooth the pressure fluctuations. Automotive Resonator. According to claim 1, The guide vane (19) and the pillar 20 which is a cone for guiding the air flowing into one side to the edge; Resonator for automobile is formed in the spiral direction to the center of the pillar 20 to remove impurities in the intake air made of a flat guide collar 21 for flowing the air guided by the pillar (20). The automobile resonator according to claim 1, wherein the guide vanes (19) are characterized in that the guide vanes (41, 51) are formed by giving an angle change to the flat plate. According to claim 1, The cavity 23 has a large diameter in the direction in which air is introduced and the guide portion 24 to increase the density of the air is introduced to gradually reduce the diameter in the outflow direction; Resonator for automobile to remove impurities in the intake air formed integrally with the end of the guide portion 24, including an air discharge tube (15) for discharging air to the air cleaner (3).