CN1403698A - Sealing structure for air filter - Google Patents

Abstract

The air cleaner 10 is divided into two to be composed of a front case 11 and a rear case 12, and joined at the divided faces 30 through the case-side seal 17. One side face of the air cleaner 10 is provided with the opening 13 over the front case 11 and the rear case 12 across the divided faces 30, and the element 14 is inserted and mounted by a flange 25 of an intake duct 16 through a seal ring 15. Both end parts 32, 33 of the case-side seal 17 facing to an annular seal groove 31 are connected by adhesion to the seal ring 15 to be continuously integrated.

Description

The seal construction of air-strainer

[technical field]

The present invention relates to the seal construction of air-strainer, particularly on the parting plane of air-strainer, can be provided for the seal construction of the component openings of parts discrepancy.

[technical background]

Original air-strainer is divided into 2 to cover, by sealing gasket two covers is bonded into one on its parting plane, simultaneously, is provided for the component openings that parts are come in and gone out in the place of avoiding parting plane of any one cover.

When cover is complex-shaped, all can not guarantee the component openings of abundant area sometimes by any one cover.If component openings is set with at this moment crossing over parting plane,,, can influence the output of motor so any one cover is provided with limit area component openings with regard to the special problem of considering to guarantee sealing of needs.Therefore, hope can be provided with the component openings of crossing over parting plane, can guarantee the degrees of freedom and the sufficient component openings area that design again.Purpose of the present invention will realize above-mentioned requirements exactly.

[summary of the invention]

Solve the seal construction of the air-strainer of the present invention of above-mentioned problem, it is characterized in that, the cover of air-strainer is divided into the 1st cover and the 2nd cover, by cover side sealing pad two covers are engaged, the opening portion of crossing over parting plane is set and as being used for the component openings that parts are come in and gone out on these two covers, cover this component openings by the component side sealing gasket with lid, simultaneously, make above-mentioned cover side sealing pad discontinuous at above-mentioned component openings place, the parameatal seal groove of this discontinuous two ends adjacent component of clamping links into an integrated entity these two end part and above-mentioned component side sealing gasket.

Engage the 1st cover and the 2nd cover by cover side sealing pad, simultaneously, by linking into an integrated entity on the component side sealing gasket that bonds at the two ends of the discontinuous cover side sealing of component openings part pad in the seal groove that is configured in the formation on every side of crossing over the component openings that parting plane ground forms on the 1st cover and the 2nd cover.

Thus, when using lid coating member opening, between covering, the parting plane of the 1st cover and the 2nd cover and the lid around the component openings and the 1st cover and the 2nd sealed fully by the component side sealing gasket.Thereby, can form the component openings of crossing over parting plane.Even because cover is complex-shaped, on the cover of any side, all do not have to form the place of enough big component openings, can be formed with the component openings of enough opening areas yet, its result, can the output that improve motor be contributed, simultaneously, can increase the degrees of freedom of design.

[description of drawings]

Fig. 1 has been to use embodiment's two-wheeled side view.

Fig. 2 is the side view of air-strainer.

Fig. 3 is the sectional drawing of the 3-3 line of Fig. 2.

Fig. 4 is the exploded perspective view of air-strainer.

Fig. 5 is a side view of removing the air-strainer of air intake passage.

Fig. 6 is the front view of front shroud.

Fig. 7 is the A portion enlarged view of Fig. 5.

Fig. 8 is the 8-8 line sectional view of Fig. 5.

Fig. 9 is the figure from the B portion of inboard (air-strainer inboard) presentation graphs 6.

Figure 10 is the sectional view of the suitable portion of 10-10 line of Fig. 6 on the top of air-strainer.

Figure 11 is the figure shown in the arrow C of Figure 10.

Figure 12 is the side view of throttle valve body.

Figure 13 is the dorsal view of throttle valve body.

Figure 14 is the dorsal view of ventilator.

Figure 15 is the sectional view of the 15-15 line of Figure 14.

Figure 16 is the sectional view along the path direction of insulator.

[embodiment]

An embodiment is described below with reference to the accompanying drawings.Fig. 1 has been to use embodiment's two-wheeled side view, and Fig. 2 is the side view of air-strainer, and Fig. 3 is the 3-3 line sectional view of Fig. 2, and Fig. 4 is the exploded perspective view of air-strainer.At first, in Fig. 1, symbol 1 is a front-wheel, the 2nd, and front fork, the 3rd, head pipe, the 4th, vehicle body frame, the 5th, fuel tank, the 6th, vehicle seat, the 7th, motor, 8a is the cover body of fuel injection system, the 8th, and the throttle valve body of formation fuel injection system, the 9th, insulator, the 10th, air-strainer.

Extremely shown in Figure 4 as Fig. 2, the opening portion 13 of front shroud 11 that air-strainer 10 is separated by front and back, back cover 12 and the circle that forms in their a certain side of connecting part constitutes, columnar filter 14 is accommodated in the air-strainer 10, and (Fig. 4) is installed with air intake passage 16 by seal ring 15.Symbol 17 among Fig. 4 is arranged on the cover side sealing pad between front shroud 11 and the back cover 12.

Form bellying 18 forwards below front shroud 11, see that from the side the below of front shroud 11 is stepped, throttle valve body is installed on the longitudinal wall part 19 of top, is positioned at the top of bellying 18 and is communicated with air-strainer 10.

As shown in Figure 4, air intake passage 16 is divided into the fixed access 21 of top and the variable passage 22 of below by the next door 20 of extending to length direction.As shown in Figure 3, air intake passage 16 is made of outer member 23 of dividing right and left to length direction and inner member 24, is integral by the joining portion is chimeric.

In the inner member 24, with air-strainer 10 superposed part are the flange plate 25 that are made of one, be installed on the air-strainer 10 by screw 26.Have again, a portion 27 is set integratedly, in the built in items 14 on the part of flange plate 25.The inboard of parts 14 is a heavy oil side 28, and the outside of the parts 14 in the air-strainer 10 is a clean side 29, and clean side 29 is communicated with throttle valve body 8 by longitudinal wall 19.

Fig. 5 is a side view of removing the air-strainer 10 of air intake passage from Fig. 2, Fig. 6 is the front view of front shroud 11, Fig. 7 is the A portion enlarged view of Fig. 5, Fig. 8 is the 8-8 line sectional view of Fig. 5, Fig. 9 is that Figure 10 is the section in the suitable portion of the 10-10 of the Fig. 6 on the top of air-strainer line from the figure of the B portion of inboard (air-strainer inboard) presentation graphs 6.

As Fig. 5 and shown in Figure 7, opening 13 is crossed over parting plane 30 ground and is formed on front shroud 11 and back cover 12 both sides, before and after being divided into by parting plane 30.Around opening 13, form annular seal groove 31, its bottom near the parting plane 30 with the end 31b of end 31a that is clipped in front shroud 11 and back cover 12 between an end 32 of cover side sealing pad 17 face mutually.

The scope that cover side sealing pad 17 overlaps with opening 13 is discontinuous on above-below direction, and the end 33 (Fig. 4) of below is also faced with the bottom of annular seal groove 31 mutually with same structure.Seal ring 15 at these annular seal groove 31 embedded cyclization shapes.As shown in Figure 8, a seal ring 15 and an end 32 link into an integrated entity with suitable adhering method in annular seal groove 31, and end 33 too.

The inner face that is entrenched in flange plate 25 in annular seal groove 31 on the seal ring 15 protrudes the protuberance 34 of the ring-type that forms, to flange plate 25 and opening 13 on every side front shroud 11 and the side of back cover 12 between seal.Have, air intake passage 16 is examples of the lid among the present invention again.In addition, seal ring 15 and cover side sealing pad 17 also can be made of one from the beginning 3 the dimension structures.

As shown in figure 10, around the parting plane 30 of front shroud 11, form the seal groove 35 of chimeric cover side sealing pad 17, protuberance 36 (Fig. 3) by chimeric cover side sealing pad 17 and chimeric back cover 12 formation around parting plane 30 therein makes front shroud 11 and back cover 12 be engaged airtightly by cover side sealing pad 17 at parting plane 30 places.

At this moment, cover side sealing pad 17, seal groove 35 and protuberance 36 are as shown in Figure 9, and be discontinuous in annular seal groove 31 parts.But the two end part 32,33 of cover side sealing pad 17 connect to one at this and seal ring 15 as described above.

Like this, even seal ring 15 and cover side sealing pad 17 plane under respectively is in orthogonal state, between front shroud 11 and the back cover 12 and also can be positively sealed between the opening 13 formation faces of air intake passage 16 and front shroud 11 and back cover 12.

As shown in Figure 6, form 4 air draught tube holes 40 in the top of front shroud 11 broad ways.Wherein 2 is one group, and sealing gasket 41 is set around it.As shown in figure 10, sealing gasket 41 is fitted in the surperficial integrally formed seal groove 42 with front shroud 11.In addition, around seal groove 42, form mounting hole 43 with proper spacing.Figure 11 is the figure shown in the arrow C of Figure 10, and forming in couples on the inner face side of front shroud 11 with two air draught tube holes 40 is one group fitting seat 44.

Figure 12 is the side view of throttle valve body 8, and Figure 13 is its dorsal view.Throttle valve body 8 has 4 air-strainer connection mouths 45 at air-breathing upstream side, and per two one group ground forms the ring 46 of ring-type around it, be entrenched in the seal groove 42.The through hole 47 that usefulness is installed is set on the position corresponding with mounting hole 43.Throttle valve 48 is set, simultaneously from nozzle 49 burner oils on each air suction way.At air-breathing downstream side insulator is set in addition and inserts mouth 50.

Figure 14 is the dorsal view of ventilator, Figure 15 is the 15-15 line sectional view of Figure 14, ventilator 51 even constitutes by 2, has the tube portion 52 in the air draught tube hole 40 that is fitted to front shroud 11 separately, simultaneously, make public flange plate 53 and fitting seat 44 overlap and make joining hole 54 consistent with mounting hole 43, also consistent with the through hole 47 of throttle valve body 8 on the outside that is installed in front shroud 11, and from the outside with combination member 3 members are combined into one.

Figure 16 is the sectional drawing along the path direction of insulator 9, and the insulator insertion mouth 50 of throttle valve body 8 is fitted on the connection mouth 55 of the upstream side formation of insulator 9 and links into an integrated entity.Be connected at the connection mouth 56 that the downstream side of insulator 9 forms on the intakeport (diagram is omitted) of motor.

So, although used throttle valve body 8, can provide just like the such outward appearance of the intake structure of vaporizer formula.And by insulator 9, can the vibrationproof twelve Earthly Branches serve as a diplomatic envoy stream valve body 8 and air-strainer 10.

The following describes the effect of present embodiment.Extremely shown in Figure 9 as Fig. 5 and Fig. 7, engage front shroud 11 and back cover 12 by cover side sealing pad 17, simultaneously, by crossing over parting plane 30 ground and on the component side sealing gasket 15 around the component openings 13 that forms on front shroud 11 and the back cover 12, link into an integrated entity bonding at the two ends 32,33 of the discontinuous cover side sealing of component openings part pad 17 to be configured in.

Thus, when passing through the flange plate 25 coating member openings 13 of component side sealing gasket 15 usefulness air intake passages 16, sealed fully between the flange plate 25 around the parting plane 30 of front shroud 11 and back cover 12, the component openings 13 and front shroud 11 and the back cover 12.Thereby, can form the component openings 13 of crossing over parting plane 30.Even because cover is complex-shaped, on the cover of any side, all do not have to form the place of enough big component openings, can be formed with the component openings 13 of enough opening areas yet, its result, can the output that improve motor be contributed, simultaneously, can increase the degrees of freedom of design.

Claims (1)

1. the seal construction of an air-strainer, it is characterized in that, the cover of air-strainer is divided into the 1st cover and the 2nd cover, by cover side sealing pad two covers are engaged, the opening portion of crossing over parting plane is set on these two covers and makes the component openings that is used for parts discrepancy, cover this component openings by the component side sealing gasket with lid, simultaneously, make above-mentioned cover side sealing pad discontinuous at above-mentioned component openings place, clip these discontinuous two ends and face component openings seal groove on every side, two end part and above-mentioned component side sealing gasket are linked into an integrated entity.

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