JP7241120B2 - Variable air funnel structure - Google Patents

Description

The present invention relates to variable air funnel structures used in internal combustion engines.

As a conventional technique, in a variable air funnel structure arranged in an air cleaner that supplies intake air to an internal combustion engine, a fixed funnel and a movable funnel are provided, and the movable funnel is connected to the fixed funnel to extend the funnel. There is The variable air funnel structure includes an actuator that biases the movable funnel toward the fixed funnel to move the movable funnel toward the fixed funnel connection, the extension of the funnel continuing to drive the actuator, or The actuator is intermittently driven and maintained (see Patent Document 1).

In such a variable air funnel structure, in order to maintain the extended state of the funnel, the actuator is constantly driven or intermittently driven. There is a problem that durability is required.

JP-A-2008-45535

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to solve the above-described problems, and to provide a variable air funnel structure that reduces power consumption of an actuator for maintaining the position of a movable funnel and improves the durability of the actuator. intended to

In order to achieve the above object, a variable air funnel structure according to the present invention provides an air cleaner mounted on a vehicle having an internal combustion engine;
a fixed funnel, a movable funnel that moves relative to the fixed funnel, and an actuator that moves the movable funnel;
By moving the movable funnel with the driving force of the actuator, the length of the funnel in the air cleaner is varied between an extended state and a shortened state,
In a variable air funnel structure, wherein the movable funnel is in an extended position when the funnel length is in an extended state, and the movable funnel is in a shortened position when the funnel length is in a shortened state,
comprising an elastic member that biases the movable funnel in one direction;
the actuator does not exert a driving force while the movable funnel is in the extended position or the shortened position;
The movable funnel is characterized in that it is maintained at the extended position or the shortened position only by the biasing force of the elastic member.

According to the above configuration, it is possible to prevent the actuator from being driven in order to maintain the movable funnel in the extended position or the shortened position, thereby improving the durability of the actuator.

wherein the movable funnel is connected in the extended position to a stationary funnel fixed within the air cleaner;
The movable funnel may be maintained in the extended position only by the biasing force of the elastic member.

According to the above configuration, the movable funnel is pressed against the fixed funnel by the biasing force of the elastic member, so airtightness between the movable funnel and the fixed funnel can be improved. Furthermore, the elastic member absorbs vibrations and the like, thereby suppressing excessive stress from being applied to the movable funnel and the fixed funnel.

In the above configuration, the end of the movable funnel connected to the fixed funnel may have a flange formed of the same material as the movable funnel.

According to the above configuration, since the movable funnel is urged toward the fixed funnel by the elastic member, there is no need to provide a separate member such as a seal, and airtightness can be improved with a simple structure.

In the above configuration, the fixed funnel is fixed inside the air cleaner,
the movable funnel is spaced apart from the fixed funnel in the shortened position;
The movable funnel can also be fixed at a position where the biasing force of the elastic member and the driving force of the actuator are balanced in the shortened position.

According to the above configuration, even if vibration or the like is applied while the movable funnel is maintained at the shortened position, the vibration can be absorbed by the elastic member, and excessive stress can be suppressed from occurring in the peripheral parts.

In the above configuration, the movable funnel moves along a columnar member provided on the air cleaner,
The elastic member may be a spring through which the columnar member is inserted.

According to the above configuration, there is no need for a space or structure for separately accommodating the elastic member, and the variable air funnel structure can be made compact.

In the above configuration, a plurality of movable funnels are provided,
The adjacent movable funnels are made into an integrally movable funnel by a connecting portion,
A plurality of the columnar members and the elastic members may be provided at opposite corners of the integrally movable funnel.

According to the above configuration, since the columnar members and the elastic members are provided at the opposite corners of the plurality of integrated movable funnels, the movable funnels are less likely to fall down, and the movable funnels can be moved smoothly.

In the above configuration, a holding member is provided inside the air cleaner,
The columnar member, the elastic member and the movable funnel are attached to the holding member,
The holding member may be attached to the air cleaner.

According to the above configuration, the assembling property is improved by assembling the columnar member, the elastic member, and the movable funnel to the holding member and then fixing the holding member in the air cleaner.

According to the variable air funnel structure of the present invention, it is possible to suppress the actuation of the actuator in order to maintain the movable funnel in the extended position or the shortened position, thereby improving the durability of the actuator.

1 is a left side view of a motorcycle to which a variable air funnel device according to an embodiment of the invention is applied; FIG. 1 is a left side view of an internal combustion engine; FIG. Fig. 3 is a perspective view of the air cleaner 12 with the upper air cleaner box removed; 1 is a perspective view of a variable air funnel device; FIG. It is the front view which looked at the variable air funnel device from the front. FIG. 4 is a plan view of the variable air fan device as viewed from above; It is a perspective view of a holding member. It is a top view of a holding member. FIG. 7 is an enlarged cross-sectional view of the main part taken along line IX-IX in FIG. 6; FIG. 7 is a cross-sectional view taken along line XX of FIG. 6 showing the extended state of the funnels in which the movable funnels are in the extended position; FIG. 11 is a cross-sectional view showing the shortened state of the funnel in which the movable funnel is at the shortened position in FIG. 10 ;

An embodiment according to the present invention will be described below with reference to FIGS. 1 to 11. FIG.
FIG. 1 is an overall left side view of a motorcycle 100 equipped with an internal combustion engine 1 to which a variable air funnel structure according to an embodiment of the invention is applied.
In the description of this specification, the front, rear, left, and right directions are based on the normal vehicle standard, with the straight-ahead direction of the motorcycle 100 being the front. Regarding the vertical direction of the variable air funnel structure, the upstream side of the intake air on the central axis L of the funnel 21 is defined as the upper side, and the downstream side thereof is defined as the lower side.

As shown in FIG. 1, a vehicle body frame 101 of a motorcycle 100 includes a head pipe 102 that steerably supports a front fork 111 that pivotally supports a front wheel 112, and a pair of left and right main wheels that extend rearwardly downward from the head pipe 102. A frame 103, a pair of left and right engine hangers 105 connected to the head pipe 102 and the front portions of the left and right main frames 103 and extending rearwardly and downwardly below the main frames 103; A pair of left and right pivot frames 104 extending downward and a pair of left and right seat rails 106 extending rearward and upward from the rear portions of both main frames 103 are provided.

On the body frame 101, the internal combustion engine 1 is mounted under the main frame 103 and suspended by the engine hanger 105 and the pivot frame 104 in the front and rear. A rear wheel 114 is pivotally supported at its rear end, and an endless chain 117 is wound around a drive sprocket 115 fitted to the output shaft 9 of the internal combustion engine 1 and a driven sprocket 116 fitted to the rear axle.

An air cleaner 12 is arranged above the internal combustion engine 1 so as to be positioned behind a head pipe 102 in a body frame 101, and a fuel tank 17 covering the rear and upper portions of the air cleaner 12 is attached to both main frames 103 of the body frame 101. A main seat 107 and a pillion seat 108 are provided on the rear side of the fuel tank 17 and supported by seat rails 106 . A radiator 18 is arranged in front of the internal combustion engine 1 .

FIG. 2 is a left side view of the internal combustion engine 1 with the air cleaner 12 omitted. The internal combustion engine 1 constitutes a so-called power unit having a transmission 8 inside the crankcase 2 .
The internal combustion engine 1 is a water-cooled 4-stroke cycle parallel 4-cylinder internal combustion engine. It is mounted horizontally on the 101.

The crankcase 2 is vertically divided into an upper crankcase 2A and a lower crankcase 2B so as to support a crankshaft 7 oriented in the vehicle width direction (horizontal direction) from above and below.
A cylinder block 3 is formed integrally with the upper front portion of the upper crankcase 2A so as to be inclined slightly forward. A cylinder head cover 5 is covered, and an oil pan 6 is attached under the lower crankcase 2B.

A crankshaft 7 is rotatably supported in the crankcase 2 , and a transmission 8 is built in the rear of the crankshaft 7 .
Four throttle bodies 10 and four funnels 21 connected to the intake port 4a are arranged in the cylinder arrangement direction and protrude upward from the rear wall 4R of the cylinder head 4 which is inclined slightly forward. As shown in FIGS. 1 and 3, funnel 21 fits into the clean side of air cleaner 12 .

On the front wall 4F of the cylinder head 4, an exhaust pipe 15 is connected to the exhaust port 4b, extends forward, bends downward, wraps around the internal combustion engine 1, extends rearward, and then bends upward. It is connected to the exhaust muffler 16 arranged under the pillion seat 108 (see FIG. 1).

Next, the variable air funnel device 20 as a variable air funnel structure will be described in detail.
As shown in FIG. 1, the motorcycle 100 includes an air cleaner 12 that takes in outside air and cleans it, and a variable air funnel device 20 that is attached to the throttle body 10 of the internal combustion engine 1 .

The air cleaner 12 has an air cleaner box 13 composed of a lower air cleaner box 13a and an upper air cleaner box 13b, and a filter 14 arranged inside the air cleaner box 13 (see FIG. 3). An upper air cleaner box 13b is attached to the lower air cleaner box 13a so that the air cleaner box 13 is a space separated from the outside. The inside of the air cleaner box 13 is divided into a dirty side and a clean side with the filter 14 interposed therebetween.

FIG. 3 is a perspective view of the air cleaner 12 with the upper air cleaner box 13b removed from the lower air cleaner box 13a. A filter 14 is attached to the front side of the air cleaner box 13 in the vehicle direction, and a variable air funnel device 20 is arranged to the rear side thereof. The variable air funnel device 20 has funnels 21 corresponding to the respective cylinders of the internal combustion engine 1, and the variable air funnel device 20 of this embodiment has four funnels 21. As shown in FIG.

The variable air funnel device 20 has an actuator 40, and the driving force of the actuator 40 changes the length of the funnel 21 according to the engine speed of the internal combustion engine 1. FIG. The variable air funnel device 20 lengthens the length of the funnel 21 when the engine speed is in the low speed range, and shortens the length of the funnel 21 when the engine speed is in the high speed range. Trying to demonstrate high torque performance in the entire range.

4 is a perspective view showing the variable air funnel device 20. FIG. FIG. 5 is a front view of the variable air funnel device 20. FIG. Each funnel 21 has a fixed funnel 22 and a movable funnel 23 that moves relative to the fixed funnel 22 in the direction of the central axis L of the fixed funnel 22 .

The fixed funnel 22 has a tubular portion 22a through which the intake air passes, and the upper end of the tubular portion 22a forms a folded flange portion 22b. Referring also to FIG. 5, a fixed portion 22c is formed on the outer peripheral surface of the tubular portion 22a so as to protrude from the tubular portion 22a. A bolt (not shown) is inserted through the fixed portion 22c and screwed into the lower air cleaner box 13a to fix the fixed funnel 22 to the lower air cleaner box 13a.

Adjacent pairs of the fixed funnels 22 are connected to form an integrally fixed funnel 32 . In this embodiment, the flange portions 22b of a pair of adjacent fixed funnels 22 on the right side are connected to form an integrally fixed funnel 32. As shown in FIG. Similarly, the flange portions 22b of a pair of adjacent fixed funnels 22 on the left side are connected to form an integrally fixed funnel 32. As shown in FIG.

The movable funnel 23 has a tubular portion 23a through which the intake air passes. It is formed on the flange portion 23c. The upstream flange portion 23b and the downstream flange portion 23c are made of the same member as the tubular portion 23a of the movable funnel 23. As shown in FIG. A columnar member insertion portion 23d through which a columnar member 26, which will be described later, is inserted is formed on the outer peripheral surface of the tubular portion 23a so as to protrude from the outer peripheral surface of the tubular portion 23a.

The upstream flange portions 23b of the pair of movable funnels 23 are connected and integrated. Furthermore, as shown in FIG. 5, the tubular portions 23a of the pair of movable funnels 23 are integrated by a connecting portion 23e. In this manner, the pair of movable funnels 23 are integrated to form an integrally movable funnel 33 . In this embodiment, the pair of adjacent movable funnels 23 on the right side and the pair of adjacent movable funnels 23 on the left side are integrated to form integrally movable funnels.

As shown in FIG. 4, the variable air funnel device 20 includes a holding member 24 that supports a rotary shaft 45 that is rotated by power transmitted from the actuator 40. As shown in FIG.

As shown in FIGS. 7 and 8, the holding member 24 has a bar-shaped body portion 24a extending in the left-right direction and a frontwardly extending portion 24b formed from the center in the left-right direction. The tip of the extending portion 24b is a bifurcated branch portion 24c, one of which is directed diagonally forward right and the other diagonally forward left. Columnar member holding portions 24d for holding columnar members 26 project upward from the left and right ends of the body portion 24a and the ends of the respective branch portions 24c (see FIG. 4). A bolt hole 24e through which a bolt 30 is inserted is formed at the branch between the left and right sides of the body portion 24a and the branch portion 24c of the extension portion 24b. As shown in FIG. 4, the holding member 24 is attached to the lower air cleaner box 13a by inserting the bolts 30 through the respective bolt holes 24e of the holding member 24 and fastening them to the bolt fixing portions _13a1 of the lower air cleaner box 13a. Fixed.

As shown in FIGS. 7 and 8, on both left and right sides of the body portion 24a of the holding member 24, rotating shaft holding portions 24f for supporting a rotating shaft 45, which will be described later, are formed so as to protrude upward. A concave portion 24g for supporting the rotary shaft 45 is formed on the upper surface of the rotary shaft holding portion 24f. After covering the upper surface of the holding portion 24f with the plate-like member 24h, the plate-like member 24h is fixed to the rotating shaft holding portion 24f with the bolt 24i, and the rotating shaft 45 is rotatably held.

9 is an enlarged cross-sectional view taken along line IX-IX of FIG. 6. FIG. As shown in FIG. 9, columnar members 26 are erected on columnar member holding portions 24d provided at both the left and right ends of the holding member 24 shown in FIG. 7 and at the tips of branch portions 24c. As shown in FIG. 4, the columnar members 26 are arranged diagonally to an integral movable funnel 33 in which the pair of movable funnels 23 are integrated. That is, the columnar members 26 are arranged in front of the integrally movable funnel 33 on the inside of the vehicle body and on the rear side on the outside of the vehicle body.

As shown in FIG. 9, the cylindrical member insertion portion 23d of the movable funnel 23 is fitted with a bushing 25 having a cylindrical portion 25a and a collar portion 25b formed thereon. A columnar member 26 erected on the columnar member holding portion 24d of the holding member 24 is inserted through the bush 25 fitted in the columnar member insertion portion 23d of the movable funnel 23. 26 so as to be vertically movable. The bush 25 reduces friction when the integrally movable funnel 33 moves along the columnar member 26, and improves durability.

A spring 27 as an elastic member is arranged in contact with the flange portion 25b of the bush 25. As shown in FIG. The spring 27 is attached to the columnar member 26 so that the columnar member 26 is inserted through the interior of the spring 27 . Referring also to FIG. 4, a connecting member 28 for connecting a pair of diagonally arranged columnar members 26 is attached so that the upper end of a spring 27 abuts thereon. Both ends of the connecting member 28 are fastened and fixed to the ends of the columnar member 26 with bolts 29 . The spring 27 is attached in a compressed state between the brim portion 25b of the bush 25 and the connecting member 28, and the movable funnel 23 is always biased toward the fixed funnel 22. As shown in FIG.

As shown in FIGS. 4 and 10, the actuator 40 has an output shaft 40a to which one end of a first link member 41 is attached so as not to rotate relative to it. One end of a second link member 42 is rotatably connected to the other end of the first link member 41, and one end of a third link member 43 is rotatably connected to the other end of the second link member.

A rotating shaft 45 rotatably supported by the holding member 24 is attached to the other end of the third link member so as not to rotate relative to it. The rotational force of the actuator 40 is transmitted to the rotation shaft 45 via the first link member 41, the second link member 42 and the third link member 43 which are rotatably connected to each other.

As shown in FIG. 6, two rotating levers 46 are attached to the rotating shaft 45 so as to be positioned on the left and right sides. Each rotating lever 46 is attached so as to correspond to the position of the connecting portion 23 e of the integrally movable funnel 33 . As shown in FIG. 10, one end 46a of the rotating lever 46 is fixed to the rotating shaft 45 so as to rotate integrally therewith. A roller 46c is rotatably attached to the other end 46b of the rotating lever 46. As shown in FIG.

As shown in FIG. 10, a connecting portion 23e that connects the pair of movable funnels 23 is formed with a U-shaped concave portion 23f that is open to the rear on a cut surface in the front-rear direction. A metal member 23g having a corresponding shape is fitted into the recess 23f and fixed to the connecting portion 23e with a screw 23h. The inner side of the metal member 23g of the connecting portion 23e serves as a roller insertion portion 23i into which the roller 46c attached to the other end 46b of the rotating lever 46 is inserted.

The upper and lower surfaces of the metal member 23g and the outer peripheral surface of the roller 46c are set so as to be in contact with each other. Sliding with the funnel 23 is reduced, and durability is improved.

The integrally movable funnel 33 moves vertically along the columnar member 26 by the driving force of the actuator 40 and the biasing force of the spring 27 .

The actuator 40 is provided with an arm position detection sensor 50 . The arm position detection sensor 50 detects the rotation angle of the output shaft 40a and performs feedback control on the position of the movable funnel 23 when the length of the funnel is shortened. The arm position detection sensor 50 can continuously control the movement of the movable funnel 23 and control the movement speed.

Next, the operation of the variable air funnel device 20 will be explained.
As shown in FIGS. 5 and 10, when the actuator 40 is not activated, the movable funnel 23 is biased toward the stationary funnel 22 only by the biasing force of the spring 27. As shown in FIGS. The movable funnel 23 moves until the downstream flange portion 23c of the movable funnel 23 contacts the flange portion 22b of the fixed funnel 22, and is positioned at the extended position. In the funnel 21, the fixed funnel 22 and the movable funnel 23 are connected, and the funnel length is extended.

When the funnel length is extended, the movable funnel 23 is always pressed against the fixed funnel 22 only by the biasing force of the spring 27 .

When the actuator 40 is actuated, the output shaft 40a of the actuator 40 rotates clockwise as shown in FIGS. , the rotating shaft 45 is rotated clockwise in the drawing, and the rotating lever 46 is rotated integrally with the rotating shaft 45 .

When the rotating lever 46 rotates, the roller 46c at the tip of the rotating lever 46 moves obliquely upward, and the roller 46c rotates forward in the metal member 23g of the connecting portion 23e of the movable funnel 23. Move while moving.

The movable funnel 23 moves upward along the columnar member 26 against the urging force of the spring 27 by the driving force of the actuator 40, and the downstream flange portion 23c of the movable funnel 23 moves toward the flange portion 22b of the fixed funnel 22. away from The movable funnel 23 is fixed at a position where the biasing force of the spring 27 and the driving force of the actuator 40 are balanced, and the funnel length is shortened, and the movable funnel 23 maintains the shortened position. At this time, feedback control is performed by the arm position detection sensor 50 so that the position of the movable funnel 23 is at a predetermined shortened position.

Since the variable air funnel device 20 of the present embodiment is configured as described above, it has the following effects.

The variable air funnel device 20 includes an air cleaner 12 mounted on a motorcycle 100 having an internal combustion engine 1, a fixed funnel 22, a movable funnel 23 that moves relative to the fixed funnel 22, and an actuator 40 that moves the movable funnel 23. I have. By moving the movable funnel 23 by the driving force of the actuator 40, the length of the funnel inside the air cleaner 12 can be varied between an extended state and a shortened state. When the funnel length is extended, the movable funnel 23 is in the extended position, and when the funnel length is shortened, the movable funnel 23 is in the shortened position. The variable air funnel device 20 includes a spring 27 that biases the movable funnel 23 in one direction. Since the state in the extended position is maintained only by the biasing force of , the power consumption of the actuator 40 that drives the movable funnel 23 can be reduced. Furthermore, since the actuator 40 does not need to be operated all the time, the durability of the actuator 40 can be improved.

Further, since the movable funnels 23 are pressed against the fixed funnels 22 by the biasing force of the springs 27 in the extended position, the airtightness between the movable funnels 23 and the fixed funnels 22 can be enhanced. In addition, the spring 27 absorbs vibrations and the like, so that the movable funnel 23 and the fixed funnel 22 can be prevented from being subjected to excessive stress.

Furthermore, the end of the movable funnel 23 connected to the fixed funnel 22 is a downstream side flange portion 23c formed of the same material as the movable funnel 23, and the movable funnel 23 is pushed toward the fixed funnel 22 by a spring 27. Since it is biased, it is not necessary to provide a separate seal or the like, and the airtightness can be improved with a simple structure.

The fixed funnel 22 is fixed inside the air cleaner 12, the movable funnel 23 is separated from the fixed funnel 22 at the shortened position, and the movable funnel 23 is fixed at the position where the biasing force of the spring 27 and the driving force of the actuator 40 are balanced at the extended position. Therefore, even if vibration or the like is applied while the movable funnel 23 is maintained at the shortened position, the vibration can be absorbed by the spring 27, and the generation of excessive stress on the peripheral parts can be suppressed.

In addition, since the movable funnel 23 moves along the columnar member 26 provided in the air cleaner 12, and the columnar member 26 is inserted through the spring 27, there is no need for a space or structure for accommodating the elastic member separately, and the variable air funnel device can be used. 20 can be compacted.

A plurality of movable funnels 23 are provided, and adjacent movable funnels 23 are integrated into an integrally movable funnel 33 by a connecting portion 23e. Since a plurality of the movable funnels 23 are provided, it is difficult for the movable funnels 23 to fall down, and the movable funnels 23 can be moved smoothly.

A holding member 24 is provided inside the air cleaner 12. A columnar member 26, a spring 27 and a movable funnel 23 are attached to the holding member 24. Since the holding member 24 is attached to the air cleaner 12, the holding member 24 is After assembling the columnar member 26, the elastic member 27 and the movable funnel 23 into a small assembly, the holding member 24 can be fixed in the air cleaner 12, thereby improving the ease of assembly.

Although the embodiments of the present invention have been described above, it goes without saying that the aspects of the present invention are not limited to the above-described embodiments, and include those implemented in various aspects within the scope of the gist of the present invention.

Reference Signs List 1 Internal combustion engine 12 Air cleaner 20 Variable air funnel device 22 Fixed funnel 23 Movable funnel 23b Upstream flange 23c Downstream flange 23e Connection 24 Holding member 26...columnar member, 27...spring, 33...integrally movable funnel, 40...actuator, 100...motorcycle.

Claims (6)

an air cleaner (12) mounted on a vehicle (100) having an internal combustion engine (1);
A fixed funnel (22), a movable funnel (23) that moves relative to the fixed funnel (22), and an actuator (40) that moves the movable funnel (23),
By moving the movable funnel (23) by the driving force of the actuator (40), the length of the funnel in the air cleaner (12) is changed between an extended state and a shortened state,
In the variable air funnel structure, wherein the movable funnel (23) is in the extended position when the funnel length is extended, and the movable funnel (23) is in the shortened position when the funnel length is shortened. ,
An elastic member (27) that biases the movable funnel (23) in one direction,
When the movable funnel (23) is in the extended position or the shortened position, the actuator (40) does not exert a driving force,
The movable funnel (23) is maintained at the extended position or the shortened position only by the biasing force of the elastic member (27) ,
The movable funnel (23) moves along a columnar member (26) provided on the air cleaner (12),
A holding member (24) is provided inside the air cleaner (12),
The columnar member (26), the elastic member (27), the movable funnel (23), and a rotating lever (46) for moving the movable funnel (23) are rotatable with respect to the holding member (24). mounted pivot shaft (45),
A variable air funnel structure , wherein the holding member (24) is attached to the air cleaner (12) . The movable funnel (23) is connected in the extended position to a fixed funnel (22) fixed within the air cleaner (12),
2. The variable air funnel structure according to claim 1, wherein the movable funnel (23) maintains the state of the extended position only by the biasing force of the elastic member (27). The end of the movable funnel (23) connected to the fixed funnel (22) has a flange (23c) made of the same material as the movable funnel (23). 3. The variable air funnel structure according to 2. The fixed funnel (22) is fixed inside the air cleaner (12),
The movable funnel (23) is separated from the fixed funnel (22) at the shortened position,
4. The movable funnel (23) is fixed at a position where the urging force of the elastic member (27) and the driving force of the actuator (40) are balanced in the shortened position. A variable air funnel structure according to any one of . The variable air funnel structure according to any one of claims 1 to 4, wherein the elastic member (27) is a spring (27) through which the columnar member (26) is inserted. A plurality of the movable funnels (23) are provided,
The adjacent movable funnels (23) are integrated into an integrally movable funnel (33) by a connecting portion (23e),
6. The variable air funnel structure according to claim 5, wherein a plurality of said columnar members (26) and said elastic members (27) are provided at diagonal positions of said integrally movable funnel (33).

Images