KR20050107828A - Sealing apparatus of a air flow sensor - Google Patents

Abstract

The present invention relates to a sealing structure of the air flow sensor for improving the airtightness of the site where the air flow for measuring the flow amount of the intake air is mounted on one side of the air cleaner,

Sealing of the air flow sensor between the air cleaner and the air intake hose is equipped with an air flow sensor for measuring the amount of intake air, and an O-ring for airtightness is installed during the sensor case of the air flow sensor connected to the air cleaner side. In structure,

The cross-sectional shape of the ring groove of the sensor case is formed in a quadrangular shape, and the cross-sectional shape of the O-ring fitted into the ring groove is formed on both sides of the vertical direction facing each other in a horizontal shape, and the left and right facing each other. Both sides of the direction is characterized by being formed by embossing, wherein the embossing is formed in a multi-stage, both ends are formed of a curved projection having a semi-circular cross section, the intermediate end between the curved projections is formed with a ridge It is done.

Description

Sealing apparatus of a air flow sensor

The present invention relates to a sealing structure of an air flow sensor, and more particularly, to a sealing structure of an air flow sensor for improving airtightness of a portion where an air flow for measuring the flow amount of intake air is mounted on one side of the air cleaner. .

In general, the engine's air intake system allows electrical components inside the engine room to be located in front of the engine room to prevent thermal damage from overheating of the engine.

The air intake system of the engine includes an air duct whose opening is formed toward one front side of the engine room to allow intake air to flow into the engine, and to filter foreign matter contained in the intake air passing through the air duct. Includes an air cleaner. In particular, the air cleaner is composed of a case having a predetermined internal space, and a filter accommodated inside the case to filter foreign matter contained in the intake air.

On the other hand, the air flow sensor for detecting the intake air amount of the intake air input to the combustion chamber side of the engine through the air cleaner is mounted on one side of the air cleaner as shown in FIG. That is, the air flow sensor 20 for measuring the amount of intake air flowing from the intake duct 12 and purified by the air cleaner 10 and flowing into the air intake hose 12 is the air cleaner 10 and the air intake. It is mounted between the hoses 13.

One side of the sensor case 21 for mounting the air flow sensor 20 is formed with a flange portion 22 to be bolted to the mounting portion 11 of the air cleaner 10. An annular ring groove 24 for mounting the O-ring 30 is formed inside the periphery of the flange portion 22, and the ring groove 24 has an O-ring 30 for airtight improvement. It is connected to the mounting part of the oil cleaner 10 mentioned above in this inserted state.

FIG. 6 is a cross-sectional view of a state in which the O-ring 30 for airtight improvement of the air plunger sensor 20 is mounted, wherein the O-ring 30 has a simple cross-sectional shape. It was common to form.

However, even if the sensor case of the air flow sensor is mounted in the air cleaner while the O-ring is accommodated in the ring groove, the O-ring has a circular cross section and the ring groove has a rectangular cross section. As a result, an empty space is generated between the O-ring and the ring groove, so that leakage of intake air may be issued, and the O-ring may be detached when the air flow sensor is assembled.

Accordingly, the present invention has been made to solve the above problems, to provide a sealing structure of the air flow sensor for improving the airtightness of the site where the air flow for measuring the flow amount of the intake air is mounted on one side of the air cleaner There is a purpose.

The present invention as a means for achieving the above object,

Sealing of the air flow sensor between the air cleaner and the air intake hose is equipped with an air flow sensor for measuring the amount of intake air, and an O-ring for airtightness is installed during the sensor case of the air flow sensor connected to the air cleaner side. In structure,

The cross-sectional shape of the ring groove of the sensor case is formed in a quadrangular shape, and the cross-sectional shape of the O-ring fitted into the ring groove is formed on both sides of the vertical direction facing each other in a horizontal shape, and the left and right facing each other. Both sides of the direction is characterized by being formed by embossing, wherein the embossing is formed in a multi-stage, both ends are formed of a curved projection having a semi-circular cross section, the intermediate end between the curved projections is formed with a ridge It is done.

Hereinafter, a preferred embodiment according to the configuration and operation of the oil flow sensor mounting O-ring according to the present invention will be described in detail with the accompanying drawings.

1 is a view showing a cross-sectional state of the O-ring formed by the present invention, Figures 2 and 3 are each a view showing an embodiment of the O-ring according to the present invention, Figure 4 is O according to the present invention -The ring is attached.

40 indicated in the drawings indicates an O-ring according to the present invention, and some reference numerals are used as they are in the description of the prior art.

The O-ring 40 has a rectangular cross-sectional shape so as to fill the ring groove 24 having a rectangular cross-sectional shape provided in the air flow sensor 20. That is, as shown in Fig. 1 facing each other, both side surfaces in the vertical direction facing each other are formed in a horizontal shape, and both side surfaces in the horizontal direction facing each other are formed in a wave shaped embossing 41 surface.

The embossing 41 formed on the O-ring 40 may be formed on the outer circumferential and inner circumferences of the O-ring 40, as shown in FIGS. 2 and 3. It may be formed on the upper and lower surfaces in the width direction of (40).

In particular, the embossing 41 formed on the O-ring 40 is formed in three stages in the drawing, but may be formed in multiple stages, and the embossing positioned at both ends is a semi-circular curved protrusion 42. It is formed, the cross-sectional shape of the intermediate end located between the curved projections 42 inside is formed of a mountain-shaped projection 43. Therefore, a valley 44 having a predetermined depth is formed between the curved protrusion 42 and the ridge protrusion 43.

In addition, although the embossing 41 is preferably formed in an annular shape along the circumferential direction of the O-ring 40, the embossing 41 is a predetermined angular interval in the form of droplets when viewed from the outside in some cases. A large number may be formed.

As described above, the overall cross-sectional shape is quadrangular, and the state in which the O-ring 40 having the embossing 41 formed on both sides thereof is inserted into the mounting portion of the air flow sensor 20 is illustrated in FIG. 4.

When the O-ring 40 according to the present invention is interposed with the connection portion of the air flow sensor 20, the cross-sectional shape of the prior art will be described in comparison with the case where the circular O-ring is mounted. -The ring 40 has an advantageous amount of sealing property of the O-ring 40 since the amount of space formed in the relationship with the ring groove 24 is smaller than in the case of the prior art.

In the state where the O-ring 40 is mounted with the ring groove 24 as described above, the bolt is fastened to the fastening hole in the state in which the mounting portion 11 of the air cleaner 10 is brought into contact with the flange portion 22 of the air flow sensor 20. The filling of 50 completes the mounting of the O-ring 40 and the air flow sensor 20 described above.

According to the present invention constituted as described above, the overall cross-sectional shape is not only rectangular in shape so that the O-ring for airtightness of the air flow sensor is filled in the ring groove, but also multi-stage embossing protrudes on both sides thereof. By being formed, the empty space between the O-ring and the ring groove is reduced so that the mounting state of the air flow sensor according to the present invention is relatively airtight than the mounting state of the air flow sensor according to the prior art. .

1 is a cross-sectional view of an O-ring formed by the present invention.

2 and 3 each show an embodiment of an O-ring in accordance with the present invention.

Figure 4 is a state attached to the O-ring according to the present invention.

5 to 6 are views for explaining the conventional technology.

※ Explanation of code for main part of drawing

10: air cleaner 11: mounting portion

20: air flow sensor 21: sensor case

22 flange portion 24 ring groove

40: O-ring 41: Embossing

42: curved protrusion 43: ridge protrusion

44: Goal

Claims (4)

Sealing of the air flow sensor between the air cleaner and the air intake hose is equipped with an air flow sensor for measuring the amount of intake air, and an O-ring for airtightness is installed during the sensor case of the air flow sensor connected to the air cleaner side. In structure, The ring groove 24 of the sensor case 21 is formed in a rectangular cross section, and the cross-sectional shapes of the O-rings 40 fitted in the ring groove 24 are located on the upper and lower sides facing each other. Both sides are formed horizontally, both sides in the left and right direction facing each other is formed with an embossing (41) sealing structure of the air flow sensor. The method of claim 1, The embossing 41 is formed in a plurality of stages, both ends are formed of a curved protrusion 42 having a semicircular cross section, and the intermediate end between the curved protrusions 42 is formed of a mountain-shaped ridge protrusion 43. Sealing structure of air flow sensor characterized by the above-mentioned. The method according to claim 1 or 2, The embossing (41) is a sealing structure of the air flow sensor, characterized in that formed continuously in an annular shape along the periphery of the O-ring (40). The method according to claim 1 or 2, The embossing (41) is a sealing structure of the air flow sensor, characterized in that formed on the outer periphery and the inner periphery of the O-ring (40).