JP3999471B2 - Motorcycle front cowl support structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a front cowl support structure for a motorcycle.
[0002]
[Prior art]
In some motorcycles, a front cowl that covers a front portion of a vehicle body frame and includes a wind screen at an upper portion thereof is supported by the vehicle body frame via a stay. As such a motorcycle, for example, Japanese Utility Model Publication No. 62-36708 “Motorcycle cowling attachment device” (hereinafter referred to as “conventional technology”) is known.
[0003]
In the conventional technique, as shown in FIG. 1 of the publication, a holding piece 3 as a stay is attached and held at the front part of the frame 1 (numbers are quoted in the publication. The same applies hereinafter). The present invention relates to a cowling attachment device in which a meter 11 and a cowling 2 are attached to a piece 3 and a screen 6 is attached to an upper portion of the cowling 2.
[0004]
[Problems to be solved by the invention]
In general, the holding piece 3 is disposed in the cowling 2 in order to ensure the appearance of the motorcycle. The holding piece 3 arranged in the narrow cowling 2 is restricted by the layout of other parts such as the meter 11. Therefore, the holding piece 3 must be small so as not to interfere with other parts. Even the small holding piece 3 needs to have a certain rigidity so that the cowling 2 can be sufficiently supported. Furthermore, since the wind pressure received by the screen 6 during high-speed traveling is relatively high, it is necessary to sufficiently support the screen 6.
[0005]
SUMMARY OF THE INVENTION An object of the present invention is to provide a technique that makes it possible to more fully support a front cowl and a wind screen with a stay.
[0006]
[Means for Solving the Problems]
  In order to achieve the above object, according to a first aspect of the present invention, there is provided a front cowl support structure for a motorcycle in which a front cowl that covers a front portion of a vehicle body frame and includes a wind screen at an upper portion thereof is supported by the vehicle body frame via a stay. The stay is divided into two upper and lower stays consisting of a lower stay and an upper stay attached to the lower stay. The windscreen is supported by the upper stay, the front cowl is supported by the lower stay, and the front cowl is supported by the lower stay.The front cowl front inner surface is detachably attached to the first cowl mounting part of the lower stay, and the upper inner surface of the front cowl is detachably attached to the second cowl mounting part of the lower stay. With a mounting part, this screen mounting part was supported by the upper stayIt is characterized by that.
[0007]
  Since the stay disposed in the narrow space in the front cowl is divided into two upper and lower stays, it is easy to make the stay in an appropriate shape so as not to interfere with other parts. For this reason, in arranging the stay, the restrictions on the layout of other components are relatively relaxed. As a result, the stay can be enlarged. Since the stay is large and can be appropriately shaped, the rigidity can be easily increased and the front cowl and the wind screen can be more fully supported.
  In addition, since the upper and lower divided stays are used, the front cowl can be supported by the lower stay and the wind screen can be supported by the upper stay so that the structure can be suitably supported.
  The front inner surface of the front cowl is detachably attached to the first cowl mounting part of the lower stay, and the upper inner surface of the front cowl is detachably attached to the second cowl mounting part of the lower stay. The front cowl can be attached.
  In particular, the wind pressure received by the wind screen 31 during high speed traveling is relatively high. Therefore,Since the front cowl has screen attachment portions on the upper left and right sides, and the screen attachment portions are supported by the upper stay, the wind screen can be sufficiently supported by the upper stay.
[0008]
According to a second aspect of the present invention, a meter panel is provided on the front cowl, and an upper stay is passed inside the front cowl and in front of the meter panel.
After the meter panel is assembled to the car body, the upper stay can be passed through the empty space in front of the meter panel, the upper and lower split stays can be assembled to the car body frame, and then the front cowl can be put on the front and attached to the lower stay. . In this way, the upper stay can be easily passed through the narrow empty space in the front cowl without interfering with the meter panel. Therefore, the rigidity of the upper and lower split stays can be increased more easily. Moreover, even a large meter panel, upper and lower split stays and front cowl can be easily assembled, so that the assembling property is improved.
[0009]
  According to a third aspect of the present invention, the meter panel extends toward the handle cover that covers the handle so that the meter panel overlaps below the handle cover when viewed from the side.
  Since the meter panel is overlapped with the handle cover, the air guide port of the meter panel and the lower opening of the handle cover can be overlapped. Therefore, traveling wind from the back side of the meter panel (front of the vehicle body) can be passed through the handle cover, and the air resistance of the handle cover can be reduced. As a result, the windshield effect on the driver is enhanced.
  According to a fourth aspect of the present invention, the meter panel includes an air exhaust port, and the air exhaust port and a lower opening of the handle cover are overlapped in front, rear, left, and right. Thereby, traveling wind from the back side of the meter panel (front of the vehicle body) can be passed through the handle cover, and the air resistance of the handle cover can be reduced.
  5. The upper stay includes a rear cross member, a left cross member spanned between a left end of the front cross member and a left end of the rear cross member, a right end of the front cross member, and a right end of the rear cross member. And a right cross member spanned between the left and right, and the screen mounting portion of the front cowl is supported by the left and right cross members.
  According to a sixth aspect of the present invention, the lower stay is formed by combining an upper stay portion having a substantially B-shape in plan view on a lower stay portion having a substantially U-shape in front view in plan view.
  According to a seventh aspect of the present invention, a rubber mount is provided by attaching a lower portion of the wind screen to the upper portion of the front cowl with a bolt via a rubber bush.
  According to an eighth aspect of the present invention, an attachment portion for attaching a spare wind screen is provided on the upper portion of the upper stay.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the accompanying drawings. Note that “front”, “rear”, “left”, “right”, “upper”, and “lower” follow the direction seen from the driver. The drawings are to be viewed in the direction of the reference numerals.
FIG. 1 is a left external view of a motorcycle according to the present invention, and shows that the motorcycle 10 is a scooter type vehicle having a low floor type floor 25.
[0011]
A body cover 20 that covers the entire body frame of the motorcycle 10 includes a front cowl 21 that covers a front portion of the body frame and an upper portion of the front wheel, which will be described later, an upper cover 22 that covers an upper opening of the front cowl 21, and a rear portion of the front cowl 21. An inner cover 23 that covers the vehicle body, a center cover 24 that extends rearward from the rear end of the inner cover 23 to cover the longitudinal center of the vehicle body frame, and a low-floor type that extends outward from the lower edge of the center cover 24 and rests the driver's feet. A floor 25, a floor skirt 26 extending downward from the outer edge of the low floor type floor 25, a rear side cover 27 extending rearward from the center cover 24 and covering the rear side portion of the vehicle body frame, and rearward from the rear end of the rear side cover 27 And a rear cover 28 covering the rear part of the extended body frame.
[0012]
The front cowl 21 includes a transparent wind screen 31 at the top. The inner cover 23 includes a leg shield 91 that covers the front part of the driver's legs.
The motorcycle 10 further includes a handle 203 at the front of the vehicle body and a seat 208 and a step holder 300 at the rear of the vehicle body.
[0013]
The seat 208 is a double seat composed of a seat front portion 208a where a driver sits and a seat rear portion 208b where an occupant sits. The step holder 300 is disposed adjacent to the rear portion of the center cover 24, and is provided with a pillion step (passenger step) 310 on which a rider puts his / her foot so as to be stored and exposed.
In the figure, 261 is a head lamp, 262 is a blinker, 263 and 263 are mirrors, 264 is a front fender, 265 is a seat lock lock, 266 is a rear air spoiler, 267 is a tail lamp, 268 is a rear fender, 269 is a sub stand, 320 Is the main stand.
Reference numerals 271 and 272 denote master cylinders, which generate braking hydraulic pressure by operating the brake levers 273 and 274.
[0014]
FIG. 2 is a right external view of the motorcycle according to the present invention, and shows that a meter panel 92 is provided at the upper part of the front cowl 21 and at the rear of the wind screen 31. As is clear from the above description, the wind screen 31, the leg shield 91, and the meter panel 92 can be provided at the front of the vehicle body.
Furthermore, this figure shows that the step holder 300 including the pillion step 310 is also arranged on the left side of the motorcycle 10. Reference numeral 275 denotes an exhaust silencer.
[0015]
FIG. 3 is a side sectional view of the motorcycle according to the present invention, and the motorcycle 10 is viewed from the left side.
The motorcycle 10 includes a body frame 110, a front fork 201 attached to the head pipe 111 of the body frame 110 so as to be able to swing left and right, a front wheel 202 attached to the front fork 201, the handle 203 connected to the front fork 201, An engine 211 attached to the rear part of the body frame 110, a power transmission mechanism 212 that can swing up and down around the crankshaft of the engine 211 independently of the engine 211, and a rear wheel 205 attached to the rear part of the power transmission mechanism 212, The rear cushion unit 206 in which the rear end portion of the power transmission mechanism 212 is suspended from the vehicle body frame 110, the storage box 207 attached to the rear upper part of the vehicle body frame 110, and the above-described arrangement that is disposed on the storage box 207 and can be opened and closed. The seat 208 is a main component. Over a data-type vehicle.
[0016]
The body frame 110 has a pair of left and right upper frames 113 suspended downward from the head pipe 111 and a pair of left and right down tubes 114 suspended downward from the head pipe 111 below the pair of upper frames 113. .
[0017]
The front fork 201 is a gate-type fork arranged below the head pipe 111. The upper portion of the front fork 201 and the head pipe 111 are covered with the front cowl 21.
The engine 211 is a water-cooled two-cylinder engine in which the two left and right cylinder heads 215 are slightly inclined toward the front upper direction and are arranged substantially horizontally.
The power transmission mechanism 212 is a belt converter continuously variable transmission with a centrifugal clutch that transmits the power of the engine 211 to the rear wheel 205.
[0018]
The storage box 207 is a box elongated in the front-rear direction of the vehicle body so that two helmets Hf and Hr can be stored in the front and rear, and the upper box 207b superimposed on the rear upper part of the lower box 207a and the lower box 207a. It consists of.
[0019]
In such a motorcycle 10, the engine 211 is disposed at the rear part of the low floor type floor 25 (see FIG. 1), the engine cooling radiator 221 is disposed at the front part of the floor 25, and between the engine 211 and the radiator 221. The fuel tank 230 is arranged on the front.
This figure shows that the front of the radiator 221 is covered with the front lower cover 93 and the underside of the radiator 221 and the fuel tank 230 is covered with the under cover 94, and is opened when fuel is supplied to the fuel tank 230 through the fuel filler port 234. This shows that the vehicle body cover 20 is provided with an inspection lid 360 that is opened when checking the fuel supply lid 330 and the ignition plug (not shown) of the engine 211.
[0020]
In the figure, 281 is an air cleaner disposed on the side of the storage box 207, 282 is a connecting tube, 283 is an air chamber disposed in front of the storage box 207, 284 is a throttle valve, 285 is an inlet pipe, and 286 is a battery. is there.
[0021]
FIG. 4 is a side sectional view of the front upper part of the motorcycle according to the present invention, and the front upper part of the motorcycle 10 is viewed from the left side.
In this figure, two air guide holes 21 a are provided on the left and right sides of the front surface of the front cowl 21, the periphery of the portion where the wind screen 31 is attached to the front cowl 21 is covered with a garnish 32, and the air guide holes 32 a are provided in the center of the front surface of the garnish 32. It shows that the wind guide port 96 is provided at least on the front surface of the vehicle body between the wind screen 31 and the meter panel 92. The air guide 32 a communicates with the air guide 96.
[0022]
Specifically, the air guide opening 21 a of the front cowl 21 is a hole penetrating through the front cowl 21 for introducing traveling wind. The air guide port 32 a of the garnish 32 is a hole penetrating in the front and rear directions for introducing the traveling wind to the back surface of the wind screen 31. The meter cover 95 is a cover member that extends from the upper part of the meter panel 92 toward the lower part of the wind screen 31 along the inner surface of the wind screen 31. The wind guide port 96 between the wind screen 31 and the meter panel 92 is configured such that the traveling wind introduced from the air guide port 32 a of the garnish 32 is introduced to the back surface of the wind screen 31 between the back surface of the wind screen 31 and the upper surface of the meter cover 95. It is an air guide for guiding.
[0023]
Incidentally, the handle 203 has a shape that is pulled rearward when the grips 203a, 203a are relatively high. The handle 203 was covered with the handle cover 101. The detailed structure of the handle cover 101 will be described later.
[0024]
Further, this figure shows that the upper stay (cowl stay) 40 is passed in front of the meter panel 92 inside the front cowl 21. The stay 40 is a vertically divided stay composed of a lower stay 41 that is detachably attached to the cowl stay bracket 111 a of the head pipe 111 and an upper stay 51 that is detachably attached to the lower stay 41. The lower and upper stays 41 and 51 are combined structures of round bars and pipes.
[0025]
The front inner surface of the front cowl 21 is detachably attached to the first cowl mounting portion 42 of the lower stay 41 and the upper inner surface of the front cowl 21 is detachably attached to the second cowl mounting portion 43 of the lower stay 41. The front cowl 21 can be attached to the vehicle body frame 110 via the stay 40.
[0026]
The present invention is characterized in that the inside of the front cowl 21 is divided into upper and lower portions by a partition plate 60 that extends horizontally on the fork bridge 201 a of the front fork 201. In the front cowl 21, the space below the partition plate 60 is an open space, and the space above the partition plate 60 is a generally closed space and communicates with the air guide port 21a.
In addition, the reserve part 52 ... (... shows a plurality. The same applies hereafter) is provided in the upper part of the upper stay 51, and it was made to use when attaching the wind screen 31 from which a dimension differs.
[0027]
FIG. 5 is an exploded view around the front cowl according to the present invention. The front cowl 21, the wind screen 31, the garnish 32, the garnish seal 33, the meter panel 92, the meter cover 95, the front lower cover 93, the lower stay 41, the upper portion. The stay 51 is shown.
[0028]
The front cowl 21 includes screen mounting portions 21b. The wind screen 31 includes attachment portions 31 a for attaching to the screen attachment portions 21 b of the front cowl 21. The front lower cover 93 includes a plurality of radiator air inlets 93a.
[0029]
The stay 40 bolts the front coupling portion 53 of the upper stay 51 to the front coupling portion 44 of the lower stay 41 and also bolts the rear coupling portion 54 of the upper stay 51 to the rear coupling portion 45 of the lower stay 41. Thus, it can be integrated.
The lower stay 41 is a three-dimensional structure of a pipe formed by combining an upper stay portion 47 having a substantially rectangular shape in plan view on a lower stay portion 46 having a substantially open U shape in plan view. The lower stay portion 46 is an integrally formed product of left and right side members 48, 48 and a cross member 49 spanned between the rear end of the left side member 48 and the rear end of the right side member 48.
[0030]
The upper stay 51 is hung between the left and right standing parts 55, 55, the front cross member 56 spanned between the front ends of the left and right standing parts 55, 55, and the rear ends of the left and right standing parts 55, 55. The rear cross member 57 passed, the left cross member 58 spanned between the left end of the front cross member 56 and the left end of the rear cross member 57, the right end of the front cross member 56 and the right end of the rear cross member 57 And a right cross member 59 spanned between the two.
[0031]
FIG. 6 is a side cross-sectional view around the garnish according to the present invention. The lower part of the wind screen 31 is attached to the upper part of the front cowl 21 by a bolt 35 via a rubber bush 34, and the mounting part is mounted. It shows that the front was covered with garnish 32. 35a is an insert nut.
[0032]
The wind screen 31 can be supported by the upper stay 51 by supporting the upper portion of the front cowl 21, that is, the screen attachment portion 21 b by the left and right cross members 58 and 59 of the upper stay 51 on the back surface of the mount portion. In particular, the wind pressure received by the wind screen 31 during high speed traveling is relatively high. On the other hand, the wind screen 31 can be sufficiently supported by the upper stay 51.
In addition, the presence or absence of the clearance gap between the upper part of the front cowl 21 and the upper stay 51 is arbitrary, and what is necessary is just to provide it as needed.
[0033]
FIG. 7 is a front view of a meter panel according to the present invention and shows a structure viewed from the driver side.
The meter panel 92 includes a central panel portion 92a having various meters 85 to 88, side extension portions 92b and 92b extending left and right from the panel portion 92a, and rearward from the panel portion 92a (to the front side in the figure). ) An integrally molded product made of resin, which includes an extended rear portion 92c.
The left and right side extension portions 92b and 92b include first air outlets 92d and 92d. The first air outlet 92d includes a number of louvers (rectifying plates) 92e.
[0034]
The rear extension 92c is a portion extending toward the upper cover 22 indicated by an imaginary line, and includes a second air outlet 92f at the base at the center of the vehicle width. 3 exhaust vents 92g, 92g, and an arcuate opening recess 92h at the center of the vehicle width. The third air outlet 92g includes a number of louvers 92i. In this manner, the air outlets 92d, 92f, and 92g can be provided around the meters 85 to 88 of the meter panel 92.
[0035]
Furthermore, the rear extension 92c of the meter panel 92 is extended rearward, that is, toward the handle cover 101 shown by an imaginary line, and the handle cover 101 is overlaid on the rear extension 92c of the meter panel 92. The third air outlets 92g, 92g of the meter panel 92 and the lower opening 105 of the handle cover 101 can be overlapped in the front, rear, left, and right.
That is, since the meter panel 92 is overlapped below the handle cover 101, the third air outlets 92g, 92g of the meter panel 92 and the lower opening 105 of the handle cover 101 can be overlapped. Therefore, traveling wind from the back side (front of the vehicle body) of the meter panel 92 can pass through the handle cover 101, and the air resistance of the handle cover 101 can be reduced. For this reason, the windshield effect for the driver is enhanced.
[0036]
The upper cover 22 indicated by an imaginary line is a cover member extending rearward from the meter panel 92 and includes an arcuate opening recess 22a at the front end of the vehicle width center. By combining the opening recess 92 h of the meter panel 92 and the opening recess 22 a of the upper cover 22, the upper opening 97 can be formed.
In the figure, reference numerals 92j, 92k, 92m, and 92n denote meter display openings, and reference numerals 92o and 92o denote attachment portions to which the front end of the upper cover 22 is attached.
[0037]
The traveling wind generated during traveling of the motorcycle 10 is introduced into the front cowl 21 (see FIG. 4) and flows to the back side of the meter panel 92. The traveling wind from the back side of the meter panel 92 can be blown rearward from the first left and right first exhaust ports 92d and 92d, the second second exhaust port 92f and the third right and left third exhaust ports 92g and 92g as a rear flow Rw. it can.
[0038]
FIG. 8 is a cross-sectional view taken along the line 8-8 in FIG. 7. In the meter panel 92, a rear extension 92c is extended rearward from the lower end of the panel 92a, and a second exhaust vertically passing through the base of the rear extension 92c. It shows that the air vent 92f is opened.
[0039]
FIG. 9 is a view taken in the direction of arrow 9 in FIG. 8 so that the second exhaust vent 92f is a hole that is elongated in the vehicle width direction, and crosses the second exhaust vent 92f in the front-rear direction on the lower surface of the rear extension 92c. It is shown that a plurality of louvers 92p.
[0040]
FIG. 10 is an exploded view of the handle cover according to the present invention.
The handle cover 101 includes left and right lower handle covers 102 and 102 that cover the left and right lower portions of the handle 203, and an upper handle cover 103 that is substantially V-shaped in front view and covers the upper portion of the handle 203.
[0041]
Specifically, the left and right standing portions 203 b and 203 b of the handle 203 are covered with the left and right lower handle covers 102 and 102 and the side plate portions 103 a and 103 a of the upper handle cover 103. By attaching the left and right lower handle covers 102, 102 to the upper handle cover 103 in a detachable manner, the two can be integrated. Furthermore, the handle cover 101 can be detachably attached to the handle 203 by bolting the upper handle cover 103 to the handle 203.
[0042]
11A and 11B are configuration diagrams of the handle cover according to the present invention, FIG. 11A shows a left side structure of the handle cover 101, and FIG. 11B is a sectional view taken along the line bb of FIG. It is.
(A) is that the inside of the handle cover 101 covering the handle 203 is a cavity 104, the lower opening 105 is provided by opening the lower end of the handle cover 101, and the left and right standing parts of the handle cover 101. Fig. 4 shows that a vertically long exhaust port 102a is provided. That is, the vertically long vent holes 102a are provided in the standing portions of the left and right lower handle covers 102, 102.
The lower opening 105 is larger than the upper opening 97 provided at the mating portion of the meter panel 92 and the upper cover 22 shown in FIG. The air exhaust port 102a is formed in the lower handle cover 102 so as to open outward in the vehicle width direction.
[0043]
(B) shows that the upright portion 203b of the handle 203 is covered with the upright portion of the handle cover 101, and that the louver 102b facing obliquely rearward is provided in the air exhaust port 102a.
[0044]
Driving wind generated during traveling of the motorcycle 10 is introduced into the front cowl 21 (see FIG. 4), flows upward through the upper opening 97, and enters the cavity 104 through the lower opening 105. The flow of the traveling wind in the cavity 104 can be adjusted by the louver 102b, and can be blown out as a rear flow Rw obliquely rearward from the exhaust port 102a.
[0045]
FIG. 12 is a front view around the front fork, stay, and partition plate according to the present invention. The partition plate 60 is passed over the fork bridge 201a of the gate-shaped front fork 201, and the partition plate 60 is divided into left and right parts. It shows that two hydraulic brake hoses 81 and 82 are passed through the opening 60b provided in the divided portion 60a. The hydraulic brake hoses 81 and 82 are hoses connected between the master cylinders 271 and 272 and the brakes of the front and rear wheels 202 and 205 shown in FIG.
[0046]
FIG. 13 is an exploded view of the partition plate according to the present invention, and the partition plate 60 is viewed from the back.
The partition plate 60 is a combined structure of a left partition plate 61 disposed on the left side and a right partition plate 71 disposed on the right side. These left and right partition plates 61 and 71 are resin molded products in which openings 62 and 72 facing the dividing portion 60a are formed.
[0047]
In the dividing part 60a, the connecting parts 73 and 74 before and after the right partition plate 71 are connected to the connecting parts 63 and 64 before and after the left partition plate 61 so as to be split by screws 83 and 83, thereby integrating the partition plate. 60 can be obtained. By combining the left and right partition plates 61 and 71, the left and right openings 62 and 72 provided in the dividing portion 60a communicate with each other, and a long and narrow opening 60b is formed on the left and right.
The left and right partition plates 61 and 71 are integrally formed with latch hooks 65 and 75 on the back surface, respectively, and these latch hooks 65 and 75 can be hooked on the cross member 49 of the lower stay 41. .
[0048]
FIG. 14 is a side sectional view around the meter panel according to the present invention. The meter box 84 is attached to the rear surface of the meter panel 92, and the front of the meter panel 92 inside the front cowl 21 (see FIG. 4). The front and rear cross members 56 and 57 of the upper stay 51 are shown. The meter box 84 incorporates meters 85 to 88 (see FIG. 7).
Further, this figure shows that the left and right rear ends of the meter panel 92 are attached to the front end of the upper cover 22 with screws 98, and the left and right upper ends of the meter panel 92 are attached to the rear end of the meter cover 95 with screws 98. Indicates installation.
[0049]
Next, the assembly procedure of the front cowl support structure having the above configuration will be described with reference to FIGS. 1, 3, 4 and 14. FIG.
(1) First, as shown in FIGS. 1 and 3, the front fork 201 and the handle 203 are assembled to the vehicle body frame 110, and the brake levers 273, 274, master cylinders 271, 272 and hydraulic brake hoses 81, 82 ( As shown in FIG. 12, the handle cover 101 is assembled.
[0050]
(2) Next, as shown in FIG. 14, the meter box 84 (meters 85 to 88) is assembled to the meter panel 92.
(3) Next, as shown in FIG. 4, the lower stay 41 is attached to the cowl stay bracket 111 a of the head pipe 111.
(4) Next, as shown in FIGS. 4 and 14, the upper cover 22 is assembled to the vehicle body frame 110, and the meter panel 92 is assembled to the upper cover 22 (vehicle body side) by inserting the meter panel 92 from the front lower side. .
[0051]
(5) Thereafter, as shown in FIG. 14, the front cross member 56 is passed over the front of the meter panel 92 by passing the upper stay 51 through the empty space in front of the meter panel 92, and the front of the meter box 84. Pass the rear cross member 57 upward. (6) Next, as shown in FIG. 4, the upper stay 51 is attached to the lower stay 41. (7) Next, a meter cover 95 is attached to the meter panel 92 as shown in FIG.
(8) Next, as shown in FIG.
(9) Then, as shown in FIG. 4, the front cowl 21 provided with the wind screen 31 is covered from the front and attached to the lower stay 41.
[0052]
In this way, the upper stay 51 can be easily passed through the narrow empty space in the front cowl 21 without interfering with the meter panel 92. Therefore, the rigidity of the upper and lower divided stays 40 can be increased more easily. Moreover, even the large meter panel 92, the upper and lower split stays 40 and the front cowl 21 can be easily assembled, so that the assembling property is improved.
[0053]
Since the stay 40 arranged in the narrow space in the front cowl 21 is an upper and lower divided stay, it is easy to make the stay 40 an appropriate shape so as not to interfere with other parts. For this reason, in arranging the stay 40, the restrictions on the layout of other components are relatively relaxed. As a result, the stay 40 can be enlarged. Since the stay 40 is large and can be appropriately shaped, the rigidity can be easily increased and the front cowl 21 and the wind screen 31 can be more fully supported. And the influence by the vibration etc. at the time of driving | running | working can be reduced as much as possible.
Moreover, since the upper and lower divided stays 40 are used, the front cowl 21 is supported by the lower stay 41, and the roles are divided so that the wind screen 31 is supported by the upper stay 51. can do.
[0054]
Furthermore, since the partition plate 60 is divided into left and right parts and the hydraulic brake hoses 81 and 82 are passed through the openings 60b provided in the split part 60a, the partition plate 60 is installed after piping the hydraulic brake hoses 81 and 82. Can be installed. Therefore, the assembling property of the hydraulic brake hoses 81 and 82 is improved.
[0055]
Next, the operation of the motorcycle 10 configured as described above will be described with reference to FIGS. 7 and 15 to 17.
FIG. 15 is an operational view around the front cowl according to the present invention.
While traveling on the motorcycle 10, the traveling wind (front flow) Fw directed to the front surface of the front cowl 21 enters the air guide port 21 a and flows above the partition plate 60 in the front cowl 21, and a part of the meter panel 92. Each of the air outlets 92d, 92f, and 92g is blown out as a rear flow Rw to the rear of the periphery of the handle cover 101, and the other is blown out rearward from the air outlet 102a of the handle cover 101 as a rear flow Rw. On the other hand, the traveling wind Fw flowing below the front cowl 21 is blocked by the partition plate 60.
[0056]
Further, the traveling wind (front flow) Fw directed to the front surface of the garnish 32 enters the air guide port 32a and flows from the air guide port 96 on the back surface of the wind screen 31 as a rear surface flow Rw to the upper side of the back surface of the wind screen 31. . A large amount of traveling wind Rw from the back surface of the wind screen 31 merges with the front surface flow Fw beyond the wind screen 31. As a result, the negative pressure generated on the back surface of the wind screen 31 becomes smaller. For this reason, since the force which winds the front surface flow Fw to the back side of the wind screen 31 becomes weak, the front surface flow Fw does not wrap around the edge of the wind screen 31 and flows rearward as it is. Therefore, the windshield effect for the driver is enhanced.
[0057]
On the other hand, when the traveling wind Fw blows on the lower part of the front cowl 21, the traveling wind Fw can be blocked by the partition plate 60. For this reason, the traveling wind Fw does not pass through the front cowl 21. In this way, even when the opening area of the lower portion of the front cowl 21 is increased, the traveling wind Fw can be prevented from entering the front cowl 21. As a result, the influence of the traveling wind Fw sprayed on the lower portion of the front cowl 21 can be reduced as much as possible with a simple structure.
[0058]
Further, as shown in FIG. 15, since the upper part and the front part of the front cowl 21 are attached to the vehicle body frame 110 via the stay (cowl stay) 40, when the traveling wind Fw blows to the lower part of the front cowl 21, The front cowl 21 can be firmly supported by the stay 40.
[0059]
FIG. 16 is an operation diagram (No. 1) around the front cowl according to the present invention.
While traveling on the motorcycle 10, the traveling wind Fw directed toward the front surface of the front cowl 21 enters the air guide port 21a and blows out rearward from the exhaust port 102a of the handle cover 101 as a rear surface flow Rw.
A large amount of the traveling wind Rw from the exhaust port 102 a merges with the front flow Fw beyond the left and right upper rear ends of the front cowl 21, that is, the upper side end of the leg shield 91. As a result, the negative pressure generated on the upper back surface of the leg shield 91 becomes smaller. For this reason, since the force which winds the front surface flow Fw to the upper back side of the leg shield 91 becomes weak, the front surface flow Fw does not go around from the upper edge of the leg shield 91 and flows rearward as it is. Therefore, the windshield effect for the driver is enhanced.
[0060]
FIG. 17 is an operation diagram (No. 2) around the front cowl according to the present invention.
During traveling of the motorcycle 10, the traveling wind Fw directed to the front surface of the front cowl 21 enters the air guide port 21a (see FIG. 16) of the front cowl 21, and rearward from the air exhaust ports 92d, 92f, 92g of the meter panel 92. It blows out as a flow Rw.
A large amount of the traveling wind Rw from these air exhaust ports 92 d, 92 f, 92 g merges with the front flow Fw beyond the left and right upper rear ends of the front cowl 21, that is, the upper side end of the leg shield 91. As a result, the negative pressure generated on the upper back surface of the leg shield 91 becomes smaller. For this reason, since the force which winds the front surface flow Fw to the upper back side of the leg shield 91 becomes weak, the front surface flow Fw does not go around from the upper edge of the leg shield 91 and flows rearward as it is. Therefore, the windshield effect for the driver is enhanced.
[0061]
As is clear from the above description, since the wind guide port 96 is provided between the wind screen 31 and the meter panel 92, the front flow Fw that circulates from the periphery of the wind screen 31 is relaxed by the rear flow Rw from the wind guide port 96. Can be made.
In addition, since the vent holes 92d, 92f, and 92g are provided around the meters 85 to 88 of the meter panel 92, the front flow Fw that circulates from the front of the vehicle body including the front cowl 21 and the leg shield 91 is also removed from the vent holes 92d and 92f. , 92g, the rear flow Rw can be generally alleviated.
Therefore, the windshield effect for the driver is further enhanced.
[0062]
Furthermore, since the exhaust cover 102a is also provided in the handle cover 101 arranged near the driver, the front flow Fw that circulates from the front of the vehicle body including the front cowl 21 and the leg shield 91 is discharged from the exhaust panel 92d of the meter panel 92. , 92f, 92g and the rear flow Rw from the exhaust port 102a of the handle cover 101 to the rear flow Rw from the handle cover 101 can be relaxed by the rear flow that is blown out from an appropriate amount. Accordingly, the windshield effect on the driver is further enhanced.
[0063]
Further, as shown in FIG. 7 above, the third vent holes 92g, 92g of the meter panel 92 and the lower opening 105 of the handle cover 101 are overlapped in the front / rear and left / right directions. , That is, the traveling wind introduced into the front cowl 21 (see FIG. 15) is efficiently blown out by passing the exhaust from the exhaust ports 92 g and 92 g of the meter panel 92 and the upper opening 97 into the handle cover 101. Can do. That is, the traveling wind passing through the handle cover 101 can be efficiently blown out from the air exhaust port 102a shown in FIG. Accordingly, the windshield effect on the driver is further enhanced.
[0064]
Thus, since the windshield effect is high, it is not necessary to provide a windshield device protruding from the motorcycle 10. Since there is no projecting windproof device, the external shape and dimensions of the motorcycle 10 do not change, and therefore the size of the motorcycle 10 can be suppressed and the appearance can be improved.
[0065]
In the above embodiment of the present invention, the motorcycle 10 is not limited to a scooter type vehicle.
Further, as shown in FIG. 2 described above, if the air outlets 99... Are provided at appropriate positions on the upper cover 22 and the inner cover 23, the rear flow Rw is blown out from these air outlets 99. The windshield effect is further enhanced.
Further, a horn hole (not shown) and a water amount confirmation hole of a radiator reserve tank (not shown) may be formed in the partition plate 60.
[0066]
【The invention's effect】
  The present invention exhibits the following effects by the above configuration.
  According to the first aspect of the present invention, since the stay arranged in the narrow space in the front cowl is the upper and lower divided stay, it is easy to make the stay in an appropriate shape so as not to interfere with other parts. For this reason, in arranging the stay, the restrictions on the layout of other components are relatively relaxed. As a result, the stay can be enlarged. Since the stay is large and can be appropriately shaped, the rigidity can be easily increased and the front cowl and the wind screen can be more fully supported.
  In addition, since the upper and lower divided stays are used, the front cowl can be supported by the lower stay and the wind screen can be supported by the upper stay so that the structure can be suitably supported.
  The front inner surface of the front cowl is detachably attached to the first cowl mounting part of the lower stay, and the upper inner surface of the front cowl is detachably attached to the second cowl mounting part of the lower stay. The front cowl can be attached.
  In particular, the wind pressure received by the wind screen 31 during high speed traveling is relatively high. Therefore,Since the front cowl has screen attachment portions on the upper left and right sides, and the screen attachment portions are supported by the upper stay, the wind screen can be sufficiently supported by the upper stay.
[0067]
Since the upper stay is passed inside the front cowl and in front of the meter panel, the upper stay is passed through the empty space in front of the meter panel after the meter panel is assembled to the vehicle body. Can be attached to the vehicle body frame, and then attached to the lower stay by covering the front cowl from the front. In this way, the upper stay can be easily passed through the narrow empty space in the front cowl without interfering with the meter panel. Therefore, the rigidity of the upper and lower split stays can be increased more easily. Moreover, even a large meter panel, upper and lower split stays, and front cowl can be easily assembled, so that the assembling property can be improved.
[0068]
  Since the meter panel extends to the handle cover side that covers the handle so that the meter panel overlaps the handle cover when viewed from the side, the meter panel air inlet and the lower portion of the handle cover The opening can be overlapped. Therefore, traveling wind from the back side of the meter panel (front of the vehicle body) can be passed through the handle cover, and the air resistance of the handle cover can be reduced. As a result, the windshield effect on the driver is enhanced.
  According to a fourth aspect of the present invention, the meter panel includes an air exhaust port, and the air exhaust port and a lower opening of the handle cover are overlapped in front, rear, left, and right. Thereby, traveling wind from the back side of the meter panel (front of the vehicle body) can be passed through the handle cover, and the air resistance of the handle cover can be reduced.
  5. The upper stay includes a rear cross member, a left cross member spanned between a left end of the front cross member and a left end of the rear cross member, a right end of the front cross member, and a right end of the rear cross member. And a right cross member spanned between the left and right, and the screen mounting portion of the front cowl is supported by the left and right cross members.
  According to a sixth aspect of the present invention, the lower stay is formed by combining an upper stay portion having a substantially B-shape in plan view on a lower stay portion having a substantially U-shape in front view in plan view.
  According to a seventh aspect of the present invention, a rubber mount is provided by attaching a lower portion of the wind screen to the upper portion of the front cowl with a bolt via a rubber bush.
  According to an eighth aspect of the present invention, an attachment portion for attaching a spare wind screen is provided on the upper portion of the upper stay.
[Brief description of the drawings]
FIG. 1 is a left external view of a motorcycle according to the present invention.
FIG. 2 is a right external view of a motorcycle according to the present invention.
FIG. 3 is a side sectional view of a motorcycle according to the present invention.
FIG. 4 is a side sectional view of the upper front part of the motorcycle according to the present invention.
FIG. 5 is an exploded view around a front cowl according to the present invention.
FIG. 6 is a side sectional view around the garnish according to the present invention.
FIG. 7 is a front view of a meter panel according to the present invention.
8 is a sectional view taken along line 8-8 in FIG.
9 is a view taken along arrow 9 in FIG.
FIG. 10 is an exploded view of the handle cover according to the present invention.
FIG. 11 is a configuration diagram of a handle cover according to the present invention.
FIG. 12 is a front view around the front fork, stay and partition plate according to the present invention.
FIG. 13 is an exploded view of the partition plate according to the present invention.
FIG. 14 is a side sectional view around the meter panel according to the present invention.
FIG. 15 is an operation diagram around a front cowl according to the present invention.
FIG. 16 is an operation diagram around a front cowl according to the present invention (part 1);
FIG. 17 is an operation diagram around a front cowl according to the present invention (part 2).
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Scooter type vehicle (motorcycle), 21 ... Front cowl, 31 ... Wind screen, 40 ... Stay (upper and lower split stay), 41 ... Lower stay, 51 ... Upper stay, 85-88 ... Meter, 92 ... Meter panel , 92d, 92f, 92g ... vent of the meter panel, 101 ... handle cover, 105 ... lower opening of the handle cover, 110 ... body frame, 203 ... handle.

Claims (8)

In a motorcycle front cowl support structure that covers a front cowl that covers a front portion of a vehicle body frame and has a windscreen on the upper portion thereof by a vehicle body frame via a stay, the stay is attached to the lower stay and the lower stay. It is an upper and lower split stay composed of an upper stay to be attached, the windscreen is supported by the upper stay, the front cowl is supported by the lower stay ,
The front inner surface of the front cowl is detachably attached to the first cowl mounting portion of the lower stay, and the upper inner surface of the front cowl is detachably attached to the second cowl mounting portion of the lower stay,
A front cowl support structure for a motorcycle, wherein the front cowl includes screen mounting portions on the upper left and right sides, and the screen mounting portions are supported by an upper stay .   2. The front cowl support structure for a motorcycle according to claim 1, wherein the front cowl includes a meter panel, and the upper stay is passed through the front cowl and in front of the meter panel. .   3. The motorcycle according to claim 2, wherein the meter panel is configured to extend toward a handle cover that covers the handle so that the meter panel overlaps the lower side of the handle cover when viewed from the side. Front cowl support structure. 4. The front cowl support structure for a motorcycle according to claim 3, wherein the meter panel includes an air exhaust port, and the air exhaust port and a lower opening of the handle cover are overlapped in front, rear, left and right. The upper stay includes a rear cross member, a left cross member spanned between the left end of the front cross member and the left end of the rear cross member, and between the right end of the front cross member and the right end of the rear cross member. The front cowl of a motorcycle according to any one of claims 1 to 4, wherein the front cowl screen mounting portion is supported by the left and right cross members. Support structure. 6. The lower stay is formed by combining a substantially staying U-shaped upper stay portion in plan view on a substantially U-shaped lower stay portion in front plan view. A front cowl support structure for a motorcycle according to claim 1. The front of the motorcycle according to any one of claims 1 to 6, wherein the lower part of the wind screen is rubber-mounted on the upper part of the front cowl by a bolt through a rubber bush. Cowl support structure. The motorcycle front cowl support structure according to any one of claims 1 to 7, wherein a mounting portion for attaching a spare wind screen is provided on an upper portion of the upper stay.

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