JP5914317B2 - Air cleaner case structure for saddle riding type vehicles - Google Patents

Description

  The present invention relates to an air cleaner case structure for a straddle-type vehicle capable of improving maintainability.

Conventionally, a saddle-ride type vehicle including an air cleaner case behind the engine, a battery disposed on the left side in the vehicle width direction, and a lid portion of the air cleaner case disposed on the right side is disclosed, for example, in Patent Document 1 below.
In the one shown in Patent Document 1, in a saddle-ride type vehicle in which an exhaust pipe and a muffler are arranged on the right side of the vehicle body, the exhaust pipe management avoids the cover of the air cleaner case in maintenance such as replacement of the cleaner element of the air cleaner. A device was required, and there was a need for an air cleaner case structure that optimizes the exhaust pipe layout and improves maintainability.

JP 2004-011558 A (FIGS. 1 to 6)

  In view of the above-described conventional technology, the present invention includes an internal combustion engine and an air cleaner case disposed behind the internal combustion engine. In a straddle-type vehicle in which an upper portion thereof is covered with an occupant seat, an increase in vehicle width in the vehicle width direction is achieved. In particular, an object of the present invention is to provide an air cleaner case structure that can optimize the exhaust pipe layout and improve the maintainability of the air cleaner.

In order to solve the above-mentioned problems, an invention according to claim 1 is provided with an internal combustion engine and an air cleaner case disposed behind the internal combustion engine, and an air cleaner case for a saddle-ride type vehicle having an upper portion thereof covered with a passenger seat. In the structure, a connecting tube extending toward the internal combustion engine is provided on the front surface of the air cleaner case, and one of the left and right sides of the air cleaner case serves as a space for an exhaust pipe. An opening lid for servicing the cleaner element is provided, an air suction port is provided at the top of the air cleaner case, and a battery for supplying ignition energy to the internal combustion engine is accommodated at the rear of the air cleaner case. battery compartment for is extended, between the internal combustion engine and its rear of the air cleaner case A rear cushion is disposed, and the connecting tube is formed to be detoured in the vehicle width direction so as to avoid the rear cushion, and the opening lid portion is in the same vehicle width direction as the vehicle width direction in which the connecting tube is detoured The connecting tube intake passage is connected to an upper portion of the air cleaner case, and a breather return chamber for receiving blow-by gas from the internal combustion engine is formed at the lower portion of the connecting tube. A return chamber (62) is formed between the recess in the connecting tube and the support plate of the cleaner element, and communicates with the inside of the air cleaner case via a gas-liquid separation passage through which blow-by gas is provided in the support plate. In the air cleaner case, the lower part of the gas-liquid separation passage Straddle-type vehicle, characterized in that communicates with the tube and further through the intake passage and communicating the second from the gas-liquid separation passage above the connecting tube provided above the gas-liquid separation passage to the support plate This is an air cleaner case structure.

According to a second aspect of the invention, the air cleaner case structure of a straddle-type vehicle according to claim 1, in the air cleaner case, the vehicle body mounting boss portions a pair of the left and right rear portion of the battery housing part is provided It is characterized by that.

According to a third aspect of the present invention, in the air cleaner case structure of the straddle-type vehicle according to the first aspect , the breather tube extending from the internal combustion engine and connected to the breather return chamber is formed at an upper portion of the crankcase of the internal combustion engine. The pipe is bent in an S-shape in plan view.

According to the intake structure of the internal combustion engine of the first aspect of the invention, since the battery is supported at the rear part of the air cleaner case, the maintenance of the battery can be facilitated by raising the passenger seat, and the intake system can be arranged efficiently without interference with the battery. Since the exhaust pipe and the opening lid of the air cleaner case are arranged on the opposite side of the air cleaner case in the vehicle width direction, the exhaust pipe layout can be optimized, and the increase in the vehicle width in the vehicle width direction can be suppressed. Maintenance of the intake system such as the cleaner element can be performed without being bothered by the exhaust pipe, etc., and the maintainability can be improved.
In addition, since the connecting tube and the cleaner element can be maintained from the same direction, the maintenance time can be shortened and the maintainability is further improved. In particular, shortening the maintenance time is more important and effective in competitions and the like.
The maintenance of the breather system, such as the breather tube and the drain cap of the drain discharge pipe, can be performed from the same direction as the maintenance of the cleaner element.
In addition, the gas-liquid separation structure is simplified, and the breather return chamber communicates with the inside of the air cleaner case through a gas-liquid separation passage through which blow-by gas is provided on the support plate of the cleaner element. Because of the structure that communicates with the drain discharge pipe below the separation passage, and further communicates with the intake passage of the upper connecting tube from the second gas-liquid separation passage provided on the support plate above the gas-liquid separation passage, Gas-liquid separation can be achieved efficiently and the influence of the breather return gas on the internal combustion engine can be reduced.

According to the invention of claim 2 , in addition to the effect of the invention of claim 1 , the air cleaner case is structured to be supported on the left and right of the battery storage portion at the rear thereof, so that the air cleaner case efficiently supports heavy batteries, The opening lid can be enlarged to improve maintainability.

According to the invention of claim 3 , in addition to the effect of the invention of claim 1 , the breather tube is bent in an S-shape and thus the length of the breather tube is secured, so that the internal combustion engine and the air cleaner case The movement between each other is absorbed, and the mixed oil that has flowed into the breather tube against the large inclination of the vehicle can be retained to limit the outflow.

1 is a schematic right side view of a motorcycle including an air cleaner case structure according to an embodiment of the present invention. FIG. 2 is a right side view of the main part around the air cleaner of the motorcycle in FIG. 1. FIG. 2 is a left side view of the main part of the internal combustion engine and the air cleaner of the motorcycle in FIG. 1, and the air cleaner case is shown with its opening exposed to remove the opening lid covering the left side opening. FIG. 4 is a top view of the essential parts of the internal combustion engine and the air cleaner of the motorcycle in FIG. 1, and the connecting tube and the air cleaner case generally show a cross-section as viewed in the direction of arrows IV-IV in FIG. 3. It is an expanded view which shows typically the structure of the main member of the air cleaner which concerns on this embodiment. It is a left view of the air cleaner which concerns on this embodiment. FIG. 7 is a rear view of the air cleaner as viewed in the direction of arrows VII-VII in FIG. 6. Part (a) in the figure is a left side view of the connecting tube, and part (b) in the figure is a rear end view taken along the line bb in the part (a). FIG. 7 is a rear view of the element support plate, and generally corresponds to a view taken along the arrow IX-IX in FIG. In the figure, for the sake of explanation, the connecting tube located in the front is shown by being overlapped with a broken line.

An air cleaner case structure for a saddle riding type vehicle according to an embodiment of the present invention will be described with reference to FIGS.
Note that the directions of the front and rear, right and left, top and bottom in the description and claims of the present specification refer to the state in which the air cleaner having the air cleaner case structure of the saddle riding type vehicle according to this embodiment is mounted on the saddle riding type vehicle. Follow the direction of the vehicle. In the present embodiment, the saddle riding type vehicle is a motorcycle.
In the figure, an arrow FR indicates the front of the vehicle, LH indicates the left side of the vehicle, RH indicates the right side of the vehicle, and UP indicates the upper side of the vehicle.
In addition, the black small arrow added in the drawing schematically shows the flow of blow-by gas according to the present invention in the present embodiment, and the white small arrow schematically shows the flow of intake air.

1 to 9 relate to one embodiment of the present invention, and FIG. 1 shows an outline of a right side surface of a motorcycle according to the present embodiment.
The internal combustion engine 1 according to the present embodiment integrally includes a transmission 12 at the rear part in the crankcase 10 to constitute a so-called power unit, and the crankshaft 11 is arranged in the vehicle width direction of the motorcycle 2, that is, This is an air-cooled single-cylinder four-stroke cycle internal combustion engine mounted on the motorcycle 2 so as to be oriented in the left-right direction.

As shown in FIG. 1, the body frame 20 of the motorcycle 2 equipped with the internal combustion engine 1 according to this embodiment has a pair of left and right main frames 22 extending slightly downward from the head pipe 21 to the rear. Further, it bends downward to form a steeply inclined portion 22a and reaches the lower end.
Further, a pair of left and right down frames 23 extend downward from the head pipe 21 at an obliquely steep angle and extend substantially parallel to the steeply inclined portion 22a of the main frame 22 in a side view.

  From the upper part of the steeply inclined part 22a of the main frame 22, a pair of left and right seat rails 24 extend rearward, and a pair of left and right backstays 25 connecting the center part of the seat rail 24 and the lower part of the steeply inclined part 22a, The left and right seat rails 24 are supported.

In the vehicle body frame 20 as described above, a front fork 26 is pivotally supported on the head pipe 21, and a front wheel 27 is pivotally supported on the lower end thereof.
A rear fork 28 whose front end is rotatably supported at a lower portion of the steeply inclined portion 22a of the main frame 22 extends rearward, and a rear wheel 29 is pivotally supported at the rear end thereof. A rear cushion 31 is interposed between the gusset 30 provided on the inclined portion 22a.
A fuel tank 32 is installed at the front portion of the main frame 22, and an occupant seat 33 is supported by the seat rail 24 behind the fuel tank 32.

  The internal combustion engine 1 suspended from the main frame 22 and the down frame 23 is configured by integrally forming the transmission 12 as described above. The cylinder axis C is slightly tilted forward on the crankcase 10, and the cylinder block 13, The cylinder head 14 and a cylinder head cover (not shown) are suspended in an upright posture.

From the cylinder head 14 of the internal combustion engine 1, an intake pipe 35 extends from the intake port 16 and extends to the air cleaner 4 via the carburetor 36.
An exhaust pipe 37 extends forward from the cylinder head 14 to connect to the exhaust port 17, bends to the right and extends rearward on the right side of the cylinder block 14 of the internal combustion engine 1, and a muffler on the right side of the rear wheel 29. Connected to 38.

FIG. 2 shows a right side surface of an essential part around the air cleaner 4 of the motorcycle 1 in FIG. 1, and an air cleaner case 40 of the air cleaner 4 is disposed behind the internal combustion engine 1 and covers the upper part thereof with a passenger seat 33. It has been broken.
Further, since the exhaust pipe 37 passes to the right side of the air cleaner case 40, a recess 40a is formed on the right side surface of the air cleaner case 40 to provide a space for the exhaust pipe 37.

The air cleaner case 40 is provided with a battery housing part 43 for housing a battery 8 for supplying ignition energy to the internal combustion engine 1 at the rear, and a battery holding band 80 for holding the battery 8 in the battery housing part 43 is fixed. Band hooks 44L and R are provided on the left and right (see also FIG. 3).
Further, the air cleaner case 40 is attached to the right seat rail 24 by a front mounting boss portion 41 at the upper front portion thereof, and a right mounting boss portion provided on the right side of the battery storage portion 43 at the rear thereof (“pair of the present invention” The vehicle body mounting boss portion ") 42R and the left side mounting boss portion (" a pair of vehicle body mounting boss portions "in the present invention) 42L (refer to FIG. 3) provided on the left side of the battery storage portion 43, the right and left backstays. Installed on each 25.

FIG. 3 shows the left side of the main parts of the internal combustion engine 2 and the air cleaner 4 of the motorcycle 1. As shown in FIG. 3, the air cleaner case 40 of the air cleaner 4 is located behind the internal combustion engine 1 via the connecting tube 6. And connected to the upstream side of the vaporizer 36.
In FIG. 3, the air cleaner case 40 is shown in a state where the opening lid portion 47 (see FIGS. 5 and 6) covering the left side opening 46 is removed and the inside is exposed.
The opening lid portion 47 is provided to open the left side opening 46 and maintain the cleaner element 9 inside the air cleaner case 40.
In addition, a suction port 48 is disposed on the upper portion of the air cleaner case 40.

The connecting tube 6 is formed with an intake passage 60 connected to the carburetor 36 in its upper part, and its rear end (upstream end) 60a (see FIG. 8) is connected to the upper part of the air cleaner case 40.
A recess 6a is formed in the lower portion of the intake passage 60 of the connecting tube 6, and a partition wall 61 that defines the intake passage 60 is formed in the recess 6a, and below the partition wall 61 and in an air cleaner case 40 to be described later. A breather return chamber 62 for receiving blow-by gas from the internal combustion engine 2 is formed between the element support plate (“support plate” in the present invention) 7 (see FIGS. 5 and 9) that contacts the front opening 45 from the inside of the case. (See FIG. 8).

The upstream side of the carburetor 36 is connected to the front end (downstream end) 60 b of the intake passage 60.
The breather return chamber 62 is provided with a blow-by gas return joint 62a facing forward and connected to the downstream end 63b of the breather tube 63. The upstream end 63a is connected to an L-shaped joint 64 provided at the top of the crankcase 10. Then, it communicates with the inside of the crankcase 10.

  As shown also in FIG. 3, on the left side, the air cleaner case 40 is attached to the left backstay 25 by a left side mounting boss portion 42 </ b> L provided on the left side of the battery storage portion 43. A left battery band hook 44L is also attached to the left side of the battery storage unit 43, and the battery holding band 80 is locked together with the right battery band hook 44R on the right side to hold the battery 8. (See also Fig. 7)

3, 51A is a front buckle for fixing the opening lid portion 47 on the front edge side of the left side opening 46 of the air cleaner case 40, and 51B is a rear portion for fixing the opening lid portion 47 on the rear edge side. The front buckle 51A is attached to a holder plate 55 (see FIGS. 5 and 6) that is fastened to the connecting tube 6 as will be described later, and the rear buckle 51B is a front extension 44La of the left battery band hook 44L. The opening lid 47 is pressed from the outside and fixed so as to be removable (see FIG. 6).
That is, the peripheral edge 46a on the front edge side of the left side opening 46 is fitted and fixed to the fitting groove 47a provided on the peripheral edge of the opening lid 47 with the opening lid seal 47b interposed therebetween. The same applies to the rear edge side of the left side opening 46.

  Inside the air cleaner case 40, the cleaner element 9 having an element holder 91 is inserted from the left side opening 46 and is pressed and fixed to the front wall surface 50 side of the air cleaner case 40 by a holding metal fitting 93.

FIG. 4 shows a top view of the main parts of the internal combustion engine 2 and the air cleaner 4 of the motorcycle 1. The connecting tube 6 and the air cleaner case 40 are generally shown in section along the line IV-IV in FIG. The opening lid 47 is shown in a removed state.
As shown in FIG. 4, a rear cushion 31 is disposed at the center in the vehicle width direction between the front and rear of the internal combustion engine 1 and the air cleaner 4, and the connecting tube 6 has a vehicle width so as to avoid the rear cushion 31. The opening lid portion 47 is formed on the left side of the vehicle, which is the same as the connecting tube 6 (see FIGS. 5 and 7).

  At the rear end of the connecting tube 6, a flange portion 65 is formed in the outer circumferential direction. A fitting groove 66 (see FIG. 8) provided on the outer surface of the flange portion 65 over the entire circumference is an air cleaner. Formed along the inner peripheral edge 45a of the front opening 45 provided on the front wall surface 50 of the case 40, the inner peripheral edge 45a of the air cleaner case 40 is fitted into the fitting groove 66, and the connecting tube 6 is attached to the air cleaner case 40 It is done.

  An annular holder plate 55 is disposed through the intake passage 60 of the connecting tube 6 and the breather return chamber 62 so as to suppress the fitting portion 49 between the air cleaner case 40 and the connecting tube 6 from the front. The element support plate 7 is brought into contact with the fitting portion 49 so as to restrain the fitting portion 49 from behind, and the element support plate is aligned with six fastening holes 65a (see FIGS. 5 and 8) formed in the flange portion 65 of the connecting tube 6. Fastening bolts 71 (refer to FIGS. 5 and 9) fixed to the front 7 by welding are fixed to the connecting tube 6.

That is, a fastening hole 55a (see FIG. 5) is formed in the annular holder plate 55 in accordance with the fastening hole 65a of the flange portion 65, and the front wall surface 50 of the air cleaner case 40 is also matched with the fastening hole 65a of the flange portion 65. The fastening hole 50a (see FIG. 5) is formed, and the fastening bolt 71 of the element support plate 7 passes through the fastening hole 65a, the fastening hole 50a, and the fastening hole 55a from the rear, and the fastening nut 72 (FIG. 3, FIG. 6), the flange portion 65 of the connecting tube 6 is sandwiched between the holder plate 55 and the element support plate 7 and fixed to the front wall surface 50 of the air cleaner case 40 (see FIG. 5).
The fitting portion between the fitting groove 66 of the connecting tube 6 and the inner peripheral edge 45a of the air cleaner case 40 is bonded and airtight.

FIG. 4 shows a plan cross section of the lower part of the connecting tube 6, showing the breather return chamber 62 formed below the intake passage 60 connected to the carburetor 36.
The breather return chamber 62 is provided with a blow-by gas return joint 62a facing forward and connected to the downstream end 63b of the breather tube 63. The upstream end 63a of the breather tube 63 is provided above the crankcase 10 of the internal combustion engine 1. It is connected to the L-shaped joint, bent in a S-shape in plan view, is connected to the inside of the crankcase 10, and blow-by gas from the internal combustion engine 1 is received in the breather return chamber 62.

  In the case of a saddle-ride type vehicle such as a motorcycle, the vehicle may be greatly inclined or vibrated due to a curve or rough terrain. Even in such a case, the breather tube 63 is bent in an S shape and piped. The length is ensured, the movement between the internal combustion engine 1 and the air cleaner case 40 is absorbed, and even if the oil flows into the breather tube 63 due to a large inclination of the vehicle, the mixed oil that has flowed in is introduced into the breather tube 63. It is possible to return the mixed oil to the original state by reversing the inclination, etc., and restricting the oil outflow from the internal combustion engine 1.

FIG. 5 is a development view schematically showing the configuration of the main members of the air cleaner 4 of the present embodiment.
In the figure, reference numeral 6 denotes a connecting tube, and an air cleaner such that the inner peripheral edge 45a (see FIG. 4) of the front opening 45 of the cleaner case 40 is fitted into the fitting groove 66 (see FIG. 8) of the peripheral flange portion 65. Mounted on case 40.
A holder plate 55 is set from the front so as to pass through the intake passage 60 portion of the connecting tube 6 and the breather return chamber 62 portion.

  Reference numeral 9 denotes a cleaner element. An inner frame-shaped element holder 91 is inserted and fitted into the inner space 90 from the front element opening 9a, and the left side opening of the cleaner case 40 is released by removing the opening cover 47. From 46, it can be inserted into and removed from the cleaner case 40, that is, exchangeable.

In FIG. 5, 7 is an element support plate, which is provided with an intake opening 7a that communicates only with the intake passage 60 of the connecting tube 6, and a plurality of, in the present embodiment, six fastening bolts 71 are welded forward. It is fixed.
A wire mesh element guard 74 is provided in the intake opening 7a so as to cover the rear.
The element support plate 7 is inserted into the cleaner case 40 through the left side opening 46 of the air cleaner case 40, and the fastening bolt 71 is inserted into the fastening hole 65a of the connecting tube 6 and the fastening hole 50a of the air cleaner case 40. The connecting tube 6 is fixed to the air cleaner case 40 by inserting the fastening hole 55a of the holder plate 55 and screwing the fastening nut 72 (see FIGS. 3 and 6) from the front. At that time, the connecting portion 49 of the connecting tube 6 and the cleaner case 40 is bonded and hermetically fixed.
That is, the connecting tube 6, the air cleaner case 40, and the element support plate 7 are usually used in a fixed state.

  Further, from the cleaner element 9 in which the element holder 91 is inserted and fitted, a plurality of fixed legs 91a of the element holder 91 are projected forward through the leg holes 9b, two in this embodiment, and are inserted into the air cleaner case 40. The position of the cleaner element 9 is determined by inserting the fixed leg 91a through the leg hole 73 provided in the element support plate 7 from the rear to the front.

An air inlet 48 is provided on the upper wall of the air cleaner case 40, and an inlet duct 48a is attached to the air inlet 48.
A battery housing portion 43 is integrally formed at the rear portion of the air cleaner case 40.
Further, the left side surface of the air cleaner case 40 forms a left side opening 46 that is completely released, and is closed by attaching the opening lid portion 47 via the opening lid seal 47b.

FIG. 6 shows the left side surface of the air cleaner 4 of the present embodiment. In FIG. 6, the opening 46 on the left side surface of the air cleaner case 40 is closed by an opening lid 47, and the opening lid 47 is fixed at two front positions so as to be removable by the front buckle 51A, while the rear side is closed. Two places are fixed removably by the rear buckle 51B.
The front buckle 15A is rotatably supported by a rotation support portion 55b provided on the left edge of the holder plate 55, and the rear buckle 51B is a front extension 44La of the right battery band hook 44L (see FIG. 7). Is supported in a freely rotatable manner.
In FIG. 6, an inlet duct 48 a of the air suction port 48 is attached to the upper wall of the air cleaner case 40.
52 is a drain discharge pipe provided in communication with the bottom of the air cleaner case 40, and is normally closed with a drain cap 52a.

As schematically shown by a broken line in FIG. 6, the cleaner element 9 inserted into the air cleaner case 40 extends rearward from the center of the element holder 91 inserted and housed in the cleaner element 9, and penetrates the cleaner element 9. The support column 91b protruding rearward is pressed forward with the pressing member 93, that is, the element support plate 7 by the holding metal fitting 93 spanned between the inner surface of the air cleaner case 40 and the element support plate 7.
The holding metal fitting 93 is engaged and attached to a case side hook 94 attached to the right inner surface of the air cleaner case 40 and a support plate side hook 95 attached to the left edge of the element support plate 7.
At this time, as described above, the position of the cleaner element 9 is determined by inserting the fixed leg 91a of the element holder 91 from the rear to the front through the leg hole 73 provided in the element support plate 7 (FIG. 4). reference).

In the air cleaner 4 as described above, the intake air is drawn from the inlet duct 48a into the dirty area 4a in the rear region of the cleaner element 9 in the cleaner case 40, as indicated by the white small arrow in the figure. The intake air that has passed through the cleaner element 9 forward and has been purified enters the clean area 4 b in the front area of the cleaner element 9.
The intake air passing forward from the inner space 90 (see FIG. 5) of the cleaner element 9 through the element guard 74 (see FIGS. 5 and 9) of the intake opening 7a of the element support plate 7 passes through the intake passage 60 of the connecting tube 6. Then, it is sent to the internal combustion engine 1 via the carburetor 36.

On the other hand, the blow-by gas passes through the breather tube 63 (see FIGS. 3 and 4) from the crankcase 10 of the internal combustion engine 1 and passes through the blow-by gas return joint 62a, as shown by the black small arrow in the figure, to the breather return chamber. It is sent to 62.
A partition wall 61 that partitions the intake passage 60 of the connecting tube 6 and the breather return chamber 62 forms a ceiling surface of the breather return chamber 62, but a communication passage 67 that connects the intake passage 60 and the breather return chamber 62 (see FIG. 11). ) Is provided, and blow-by gas is drawn into the intake passage 60 upward from the breather return chamber 62. The sucked-by blow-by gas is sent to the internal combustion engine 1 together with the intake air, and is subjected to combustion processing.
Since the communication passage 67 is provided upward, it is difficult to accompany liquid components such as oil mixed in the blow-by gas, and also plays a role as a gas-liquid separation passage.

Further, as will be described later with reference to FIG. 9, the element support plate 7 that partitions the rear portion of the breather return chamber 62 is provided with a blow-by gas passage hole (“gas-liquid separation passage” in the present invention) 75, above that. A portion of the element support plate 7 that faces the intake passage 60 is provided with a blow-by gas return hole 76. The blow-by gas that has once entered the air cleaner case 40 from the blow-by gas passage hole 75 is contained in a liquid such as lubricating oil. The components (black arrows in FIGS. 6 and 9) are separated downward, and the gas components are sucked into the intake passage 60 from the upper blow-by gas return hole (“ second gas-liquid separation passage” in the present invention) 76. Then, gas-liquid separation of blow-by gas is performed.
The liquid component flowing down to the lower part of the air cleaner case 40 flows into the drain discharge pipe 52 and is stored, and is discharged by removing the drain cap 52a.

  At the connecting portion between the connecting tube 6 and the air cleaner case 4, as shown in FIG. 4, the inner peripheral edge 45a of the front opening 45 of the air cleaner case 40 is fitted into the fitting groove 66 on the outer surface of the flange portion 65 of the connecting tube 6. From the inside of the air cleaner case 40, the fastening bolt 71 fixed to the element support plate is inserted into the fastening hole 65a of the connecting tube 6 and the fastening hole 50a of the air cleaner case 40, and the holder plate 55 The connecting tube 6 is fastened together with the air cleaner case 40 by being inserted into the fastening hole 55a and screwed into the fastening nut 72 from the front. At that time, the connecting portion 49 of the connecting tube 6 and the air cleaner case 40 is bonded and hermetically fixed.

Further, as shown in FIG. 6, in the state where the opening lid portion 47 is attached to the left side opening 46 and closed, the peripheral edge portion 46 a on the front edge side of the left side opening 46 is the peripheral edge of the opening lid portion 47. It is fixed by being fitted into a fitting groove 47a provided in the portion with an opening lid seal 47a interposed therebetween. (See Figure 5)
At the position of the front buckle 51A shown in FIG. 7, the front buckle 51A supported by the rotation support portion 55b provided on the left edge portion of the holder plate 55 rotates, and the peripheral portion of the opening lid portion 47 The opening lid 47 is detachably fixed to the vehicle center direction, that is, in the right direction.
Similarly, the rear cover 51B fixes the opening lid 47 so as to be removable.

  In addition, an air inlet opening 7a (see FIGS. 5 and 9) of the element support plate 7 is fixed to the rear surface side by a sub-number layer and welded in a shape in which a wire mesh-like element guard 74 bulges backward. The element 9 enters the element opening 9a (see FIG. 5) to prevent the scattered matter from the cleaner element 9 from being sucked into the internal combustion engine 1 together with the intake air.

  FIG. 7 is a rear view of the air cleaner 4 as viewed in the direction of arrows VII-VII in FIG. 6 and shows the positions of the battery storage portion 43, the left and right battery band hooks 44L, 44R, the opening lid portion 47, and the rear buckle 51B. . The battery storage unit 43 is horizontally disposed to hold the battery electrolyte.

  The holder plate 55 includes six fastening holes 55a (see FIG. 5) and two rotation support portions 55b (see FIG. 6) for the front buckle portion 51A, and an opening 55c (see FIG. 5) at the center thereof. For reference), the intake passage 60 portion of the connecting tube 6 and the breather return chamber 62 portion are inserted.

FIG. 8 shows the connecting tube 6, in which (a) part is a left side view thereof, and (b) part in the figure is a rear end view taken along line bb in (a) part. .
The connecting tube 6 is formed with a recessed portion 6a recessed rearward between the upper portion and the lower portion in a side view, and an intake passage 60 connected to the carburetor 36 is formed inside the recessed portion 6a.
The rear end (upstream end) 60a is near the upper portion of the air cleaner case 40 and is connected to the internal space 90 of the cleaner element 9, that is, the clean area 4a of the air cleaner 4 through the front opening 45 and the intake opening 7a of the element support plate 7. The front end (downstream end) 60 b forms a connection with the vaporizer 36 and is connected to the vaporizer 36.

A partition wall 61 partitioning from the intake passage 60 is formed inside the recess 6a of the intake passage 60 of the connecting tube 6, and a blow-by from the internal combustion engine 2 is provided between the element support plate 7 (see FIGS. 5 and 9). A breather return chamber 62 for receiving gas is formed.
The breather return chamber 62 is provided with a blow-by gas return joint 62a at the front, and communicates with the crankcase 10 by a breather tube 63 (see FIG. 4).

The rear of the breather return chamber 62 is closed by the element support plate 7, and the element support plate 7 has a blow-by gas passage hole 75 as a “gas-liquid separation passage” of the present invention, which will be described later, and a “second” A blow-by gas return hole 76 as a “gas-liquid separation passage” is provided (see FIG. 9).
The partition wall 61 is provided with a communication passage 67 that allows the intake passage 60 and the breather return chamber 62 to communicate with each other, and blow-by gas is sucked upward from the breather return chamber 62 into the intake passage 60.
A flange portion 65 is formed around the intake passage 60 and the breather return chamber 62, a fitting groove 66 is provided over the entire outer periphery thereof, and a plurality of fastening holes 65a in this embodiment are provided. Yes.

As shown in FIG. 5, the front wall surface 50 of the air cleaner case 40 is provided with a front opening 45 and a surrounding fastening hole 50a. The inner peripheral edge 45 a of the front opening 45 is fitted into the fitting groove 66 (see FIG. 8) of the flange portion 65 of the connecting tube 6 and connected to the connecting tube 6.
Both the intake passage 60 and the breather return chamber 62 of the connecting tube 6 fitted to the front opening 45 from the front open to the rear in the air cleaner case 40.

  Both the intake passage 60 and the breather return chamber 62 of the connecting tube 6 fitted in the air cleaner case 40 open rearward in the air cleaner case 40. As shown in FIG. 9, the flange portion 65 of the connecting tube 6 The element support plate 7 fastened to the rear end portion is provided with an intake opening 7a communicating only with the intake passage 60, while the breather return chamber 62 is closed.

Around the element support plate 7, a fastening bolt 71 is welded and fixed forward, and a screw portion 71a projects forward. In the present embodiment, six fastening bolts 71 are fixed by welding.
The intake opening 7a is provided with a plurality of layers of wire mesh element guards 74 welded on the rear side so as to bulge rearward. The element guard 74 is supported by the cleaner element 9 as an element. When pressed against the rear surface of the plate 7, it is located in the inner space 90 from the element opening 9 a of the cleaner element 9 (see FIGS. 5 and 6), and foreign matter is mixed into the intake air that has passed through the cleaner element 9. prevent.

  FIG. 9 is a rear view of the element support plate 7. As shown in FIG. 9, there are fixed legs 91a of the element holder 91 at the center upper part of the air intake opening 7a of the element support plate 7 and the lower part of the left side (right side in the figure). When the cleaner element 9 is pressed against the element support plate 7 from behind with the holding metal fitting 93 (see FIG. 6) together with the element holder 91 inserted and inserted, the pressure contact portion is provided. The cleaner element 9 is partially compressed, the fixed leg 91a freely passes through the leg hole 73, and the position of the element holder 91 and the element holder 91 in the plane direction of the element support plate 7 by the two fixed legs 91a. Is restrained.

The element support plate 7 is provided with three blow-by gas passage holes 75 in the portion corresponding to the lower portion of the breather return chamber 62, and one blow-by gas in the portion corresponding to the lower portion of the intake passage 60. A gas return hole 76 is provided.
In the blow-by gas passage hole 75, blow-by gas passes from the breather return chamber 62 defined on the front side to the rear side, and in the blow-by gas return hole 76, the blow-by gas passes from the rear side to the intake passage 60 located on the front side. Gas passes through.
Note that a support plate side hook 95 of the presser fitting 93 is attached to the left edge portion (the left side in the figure) of the element support plate 7.

In FIG. 9, it is a rear view of the element support plate 7, and the connecting tube 6 that is brought into contact with and fastened to the front side of the element support plate 7 is overlapped with a broken line.
On the rear surface side of the element support plate 7, a plurality of layers of wire mesh element guards 74 are welded to the periphery of the intake opening 7 a.
Further, the heads 71b of the six fastening bolts 71 fixed to the front by welding are shown in the periphery.

On the rear surface of the element support plate 7, a cleaner element 9 in which an element holder 91 is inserted and fitted (see FIG. 5) is pressed from behind so as to cover substantially the entire rear surface of the element support plate 7. Is applied to the grease application area 77 shown by hatching in FIG. 14 between the outer peripheral area and the inner peripheral area. Gas flow is prevented.
That is, the outer peripheral area is the outer side (upstream side) of the cleaner element 9 and leads to the dirty area 4a (see FIG. 6) in the air cleaner case 40, and the inner peripheral area is the inner side (downstream side) of the cleaner element 9. The air cleaner case 40 leads to the clean area 4b, but the grease application area 77 to which the grease is applied prevents the intake air from flowing directly from the dirty area 4a to the clean area 4b.

On the rear side of the element support plate 7, blow-by gas in the breather return chamber 62 flows from the blow-by gas passage hole 75 corresponding to the lower portion of the breather return chamber 62, but inside the support plate surrounding area 77 as shown in the figure. In the clean area 4b.
On the other hand, a blow-by gas return hole 76 provided above the blow-by gas passage hole 75 and corresponding to the lower portion of the intake passage 60 is also in the clean area 4b.
Therefore, the blow-by gas that has flowed into the rear surface side of the element support plate 7 from the blow-by gas passage hole 75 is not mixed with the intake air in the dirty area 4a and is connected from the intake opening 7a of the element support plate 7 in the clean area 4b. 6 is sucked into the intake air flowing into the intake passage 60, flows into the intake passage 60 from the blow-by gas return hole 76, and is sent to the internal combustion engine 1 together with the intake air via the carburetor 36 for combustion processing.

At this time, the blow-by gas that has once entered the air cleaner case 40 from the blow-by gas passage hole 75 is separated from the liquid component such as lubricating oil (indicated by a thick black arrow in FIG. 9) downward, and the lower part of the cleaner element 9 The gas component flows down to the lower part of the air cleaner case 40 and the gas component is sucked into the intake passage 60 from the upper blow-by gas return hole 76, so that gas-liquid separation is efficiently achieved and blow-by gas to the internal combustion engine 1 is obtained. The influence of the liquid component can be reduced.
As indicated by thick black arrows in FIG. 6, the liquid component in the blow-by gas that has flowed down to the lower portion of the air cleaner case 40 flows into the drain discharge pipe 52 and is stored, and is discharged by removing the drain cap 52a. The

  That is, the blow-by gas passage hole 75 and the blow-by gas return hole 76 provided in the element support plate 7 are connected in the upward direction from the breather return chamber 62 together with the communication passage 67 provided in the partition wall 61 of the connecting tube 6 described above. An efficient gas-liquid separation passage is configured to be connected to the intake passage 60 of the tube 6.

In addition, an element holder 91 for preventing the cleaner element from being crushed by intake air and attaching the cleaner element 9 to a predetermined position is inserted and fitted into the internal space 90 of the cleaner element 9.
The element holder 91 is composed of a bowl-shaped frame, and has a column 91b extending rearward at the center thereof, a peripheral frame 91c forming the periphery thereof, and a fixed leg 91a protruding forward from the peripheral frame 91c. (See FIG. 5).

  As shown in FIG. 5, the cleaner element 9 includes a plate-like back member 9d made of a sponge-like, mesh-like or non-woven-like material and swelled in a cross-sectional arch shape toward the rear, and a side filling the arch-like side portion. The member 9e and the flat bottom member 9f that closes the front are bonded to each other to form an octopus box having an internal space 90.

  An element opening 9a is provided at the center of the bottom member 9f, and a leg hole 9b through which the fixed leg 91a of the element holder 91 is inserted is provided at the upper center of the bottom member 9 and at the lower left (lower right in the figure).

The element holder 91 is inserted and fitted into the internal space 90 of the cleaner element 9, the fixed leg 91a of the element holder 91 is inserted and protrudes forward from the leg hole 9b, and the column 91b of the element holder 91 is rearward from the top hole 9g. Positioned by passing the fixed leg 91a of the element holder 91 through the leg hole 73 of the element support plate 7 which is inserted through the left side opening 46 of the air cleaner case 40 and fixed and fixed in advance. When the holding metal fitting 93 is engaged with the top of the column 91b of the element holder 91 and the holding metal fitting 93 is attached to the case side hook 94 and the support plate side hook 95, the element support plate 7 is pressed against the element support plate 7 at a predetermined position. Is done.
Removal is the reverse.

As shown in FIG. 6, in the air cleaner case 40, both ends are connected to a case side hook 94 provided on the right inner surface of the air cleaner case 4 n and a support plate side hook 95 provided on the left edge of the element support plate 7. The holding metal fitting 93 to be attached engages with the top of the column 91 b of the element holder 91 protruding from the center of the rear part of the cleaner element 9, and the cleaner element 9 is directed forward through the element holder 91 and pressed against the element support plate 7. doing.
The position of the cleaner element 9 on the plane of the element support plate 7 is determined by the leg hole 73 of the element support plate 7 and the fixed leg 91a of the element holder 91, and the position in the front-rear direction is the direction of pressure contact with the element support plate 7 It is determined by the extent to which the peripheral frame 91c of the holder 90 compresses the bottom member 9f of the cleaner element 9.

The characteristics of the air cleaner case structure of the saddle riding type vehicle of the present embodiment will be described below.
That is, in the air cleaner case structure of the motorcycle 2 that includes the internal combustion engine 1 and an air cleaner case 40 disposed behind the internal combustion engine 1 and that is covered with an occupant seat 33, the internal combustion engine 1 is disposed in front of the air cleaner case 40. A connecting tube 6 extending toward the right side, the right side of the air cleaner case 40 serves as a space for the exhaust pipe 37, and the left side of the air cleaner case 40 is provided with an opening lid 47 for maintaining the internal cleaner element 9. A battery housing portion 43 that houses a battery 8 that supplies ignition energy to the internal combustion engine 1 is extended at the rear portion of the air cleaner case 40, and an air suction port 48 is disposed above the air cleaner case 40.

  Therefore, since the battery 8 is supported at the rear part of the air cleaner case 40, the maintenance of the battery 88 can be facilitated by raising the occupant seat 33, the intake system can be arranged efficiently without interference with the battery 8, and the exhaust pipe 37 and the air cleaner Since the opening lid portion 47 of the case 40 is disposed on the opposite side of the air cleaner case 40 in the vehicle width direction, the layout of the exhaust pipe 37 can be optimized, and an increase in the vehicle width in the vehicle width direction can be suppressed, and the cleaner Maintenance of the intake system such as the element 9 can be performed without being troubled by the exhaust pipe 37 and the like, and the maintainability can be improved.

Further, a rear cushion 31 is disposed between the internal combustion engine 1 and the air cleaner case 40 behind the internal combustion engine 1, and the connecting tube 6 is formed around the vehicle width direction so as to avoid the rear cushion 31. Is arranged on the left side of the vehicle in the same vehicle width direction as the vehicle width direction around which the connecting tube 6 bypasses , so that the maintenance of the connecting tube 6 and the cleaner element 9 can be performed from the same direction, so that the maintenance time can be shortened. It becomes possible and the maintainability is further improved. In particular, shortening the maintenance time is more important and effective in competitions and the like.

  Further, the intake passage 60 of the connecting tube 6 is connected to the upper portion of the air cleaner case 40, and the breather return chamber 62 for receiving blow-by gas from the internal combustion engine 1 is formed at the lower portion of the connecting tube 6, so that the breather tube 63, The maintenance of the breather system such as the drain cap 52a of the drain discharge pipe 52 can be performed from the same direction as the maintenance of the cleaner element 9, and the maintainability is further improved.

  Further, since the air cleaner case 40 is provided with a pair of left side mounting boss portions 42L and right side mounting boss portions 42R on the left and right sides of the rear battery storage portion 43, the air cleaner case 40 is connected to the rear battery storage portion 43. The air cleaner case 40 can support the heavy battery 8 efficiently and the opening cover 47 can be enlarged while improving the maintainability.

  Also, the breather tube 63 extending from the internal combustion engine 1 and connected to the breather return chamber 62 is bent and formed in an S shape in plan view at the upper part of the crankcase 10 of the internal combustion engine 1, so that it is bent in an S shape. As a result, the length of the breather tube 63 is secured, the movement between the internal combustion engine 1 and the air cleaner case 40 is absorbed, and the mixed oil that has flowed into the breather tube 63 with respect to the large inclination of the vehicle And can limit the outflow.

  The breather return chamber 62 is formed between the recess 6 a in the connecting tube 6 and the element support plate 7 that supports the air cleaner element 9, and passes through a blow-by gas that forms a gas-liquid separation passage provided in the element support plate 7. Since it is communicated with the intake passage 60 of the upper connecting tube 6 via the hole 75 and the blow-by gas return hole 76, the gas-liquid separation structure is simplified, and the blow-by gas passage hole 75 and the blow-by gas return hole through which the blow-by gas is passed. Since 76 is connected to the intake passage 60 of the connecting tube 6 in the upward direction, gas-liquid separation can be achieved efficiently and the influence of blow-by gas on the internal combustion engine 1 can be reduced.

As mentioned above, although the air cleaner case structure of the saddle riding type vehicle of the present invention has been described based on one embodiment, the present invention is not limited to the above-described embodiment, and includes those implemented in various modes within the scope of the gist. Of course.
For example, the straddle-type vehicle is not limited to the motorcycle according to the embodiment, but may be a small three-wheel or four-wheel buggy, and the internal combustion engine may have any number of cylinders.
In addition, for convenience of explanation, the present invention has been described with the left and right arrangements specified and illustrated in the drawings, but includes an arrangement in which an internal combustion engine, an air cleaner, and the like are reversed from the illustrated ones.

DESCRIPTION OF SYMBOLS 1 ... Internal combustion engine, 2 ... Motorcycle ("saddle-type vehicle" in this invention), 4 ... Air cleaner, 6 ... Connecting tube, 6a ... Recess, 7 ... Element support plate ("support plate" in this invention), 7a ... intake opening, 8 ... battery, 9 ... cleaner element, 9a ... element opening, 9b ... leg hole, 20 ... body frame, 22 ... main frame, 22a ... steep slope, 25 ... backstay, 31 ... rear cushion, 33 Occupant seat, 35 ... intake pipe, 36 ... carburetor, 37 ... exhaust pipe, 38 ... muffler, 40 ... air cleaner case, 40a ... recess, 42L ... left side mounting boss ("a pair of body mounting bosses in the present invention" 42R ... right side mounting boss part ("a pair of vehicle body mounting boss parts" in the present invention), 43 ... battery storage part, 45 ... front opening, 47 ... opening lid part, 48 ... air inlet, 50 ... front wall surface , 50a ... fastening holes, 52 ... Drain discharge pipe, 52a ... Drain cap, 52 ... Drain discharge pipe, 52a ... Drain cap, 55 ... Holder plate, 55a ... Fastening hole, 60 ... Intake passage, 61 ... Partition wall, 62 ... Breather return chamber, 62a ... Blow-by gas return joint, 63 ... Breather tube, 64 ... L-shaped joint, 65 ... Flange, 65a ... Fastening hole, 67 ... Communication passage, 71 ... Fastening bolt, 72 ... Fastening nut, 73 ... Leg hole, 75 ... Blow-by Gas passage hole ("gas-liquid separation passage" in the present invention), 76 ... blow-by gas return hole (" second gas-liquid separation passage" in the present invention), 77 ... grease application area, 80 ... battery holding band, 91 ... Element holder, 91a ... fixed leg, 91b ... post, 93 ... holding bracket, 94 ... case side hook, 95 ... support plate side hook

Claims (3)

In an air cleaner case structure of a saddle-ride type vehicle (2) comprising an internal combustion engine (1) and an air cleaner case (40) disposed behind the internal combustion engine (1) and covered above with an occupant seat (33),
A connecting tube (6) extending toward the internal combustion engine (1) is provided on the front surface of the air cleaner case (40),
The left and right sides of the air cleaner case (40) are the space for the exhaust pipe (37)
The air cleaner case (40) is provided with an opening lid (47) for servicing the internal cleaner element (9) on the other of the left and right sides of the air cleaner case (40). Arranged,
A battery housing part (43) for housing a battery (8) for supplying ignition energy to the internal combustion engine (1) is extended at the rear part of the air cleaner case (40) ,
A rear cushion (31) is disposed between the internal combustion engine (1) and the air cleaner case (40) behind the internal combustion engine (1), and the connecting tube (6) has a vehicle width so as to avoid the rear cushion (31). Formed around the direction,
The opening lid portion (47) is disposed on the side surface of the vehicle in the same vehicle width direction as the bypassing direction of the connecting tube (6),
The intake passage (60) of the connecting tube (6) is connected to the upper portion of the air cleaner case (40), and a breather return chamber for receiving blow-by gas from the internal combustion engine (1) at the lower portion of the connecting tube (6). (62) is formed,
The breather return chamber (62) is formed between the recess (6a) in the connecting tube (6) and the support plate (7) of the cleaner element (9), and is provided on the support plate (7). The air cleaner case (40) communicates with the inside of the air cleaner case (40) through a gas-liquid separation passage (75) through which blow-by gas passes, and a drain discharge pipe (52) is below the gas-liquid separation passage (75) in the air cleaner case (40). And the intake passage (60) of the upper connecting tube (6) from the second gas-liquid separation passage (76) provided in the support plate (7) above the gas-liquid separation passage (75). ) and the air cleaner case structure of a saddle-ride type vehicle characterized in that it communicates. The saddle riding type according to claim 1, wherein the air cleaner case (40) is provided with a pair of vehicle body mounting boss portions (42L, 42R) on the left and right sides of the rear battery storage portion (43). Vehicle air cleaner case structure. A breather tube (63) extending from the internal combustion engine (1) and connected to the breather return chamber (62) is bent into an S-shape in a plan view at the upper part of the crankcase (10) of the internal combustion engine (1). air cleaner case structure of a straddle-type vehicle according to claim 1, wherein the to be.

Images