JP4112818B2 - Scooter type vehicle - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a structure that prevents mud splashed by a front wheel from moving toward a steering shaft support bearing in a scooter type vehicle.
[0002]
[Prior art]
In a vehicle such as a scooter, a so-called full cowling type in which the entire body frame is covered with a body cover is common. As such a scooter type vehicle, for example, Japanese Unexamined Patent Publication No. 2000-313393 “Body frame for scooter type vehicle” (hereinafter referred to as “conventional technology {circle around (1)}”) is known.
[0003]
In the prior art {circle around (1)}, as shown in FIGS. 1 and 2 of the publication, the front portion of the vehicle body frame F (the reference is quoted in the publication is the same) is covered with the front cover. The present invention relates to a scooter type vehicle in which a leg shield 41a that covers a driver's legs is provided at the rear part of the front cover, and a lower front part of the vehicle body frame F is covered with an under cover 41c.
[0004]
In this scooter type vehicle, a front fender indicated by an imaginary line is arranged above the front wheel WF, so that mud splashed by the front wheel WF can be prevented from going upward. Furthermore, the lower half of the front cover can prevent the mud splashed by the front wheel WF from moving upward. As described above, the conventional technique {circle around (1)} employs the full cowling type body cover 41 to prevent the mud splashed by the front wheel WF from moving upward.
[0005]
However, even for a scooter type vehicle, there is an exposed type (naked type) vehicle type in which only a part of the body frame F is covered with a body cover or not covered at all. In this case, as shown in FIG. 20, the front fender prevents the mud splashed by the front wheel WF from moving upward.
[0006]
FIG. 20 is a side view of the front half portion of the conventional scooter type vehicle, and shows the front half portion of the scooter type vehicle 200 of the conventional technique (2). The scooter type vehicle 200 according to the prior art {circle over (2)} raises a front frame portion 202 upward from the front portion of the center frame portion 201, and a head pipe 203 is provided on the front frame portion 202. A two-wheeled vehicle in which a steering shaft 206 is rotatably attached via bearings 204 and 205, a front wheel 208 is rotatably attached to the steering shaft 206 via a front fork 207, and a front fender 209 is disposed above the front wheel 208. .
According to the prior art (2), the front fender 209 can prevent the mud splashed by the front wheel 208 from moving toward the bearing 205. As a result, the performance of the bearing 205 can always be ensured.
[0007]
[Problems to be solved by the invention]
However, since the conventional technique {circle around (2)} described above prevents the mud splashed by the front wheel 208 from moving upward only by the front fender 209, the front fender 209 is relatively large. . In particular, in order to prevent the splashed mud from moving toward the bearing 205, it is necessary to lower the rear end portion 209a of the front fender 209 to the vicinity of the lower end of the center frame portion 201. The rear end portion 209a of the front fender 209 enters between the center frame portion 201 and the front wheel 208. The distance L10 from the front end of the center frame portion 201 to the front wheel 208 is set to be larger by the amount of entering, and the front wheel 208 is disposed in front. As a result, the distance W10 (wheel base W10) from the front wheel 208 to the rear wheel (not shown) must be increased. For this reason, the degree of freedom in designing the scooter type vehicle 200 is reduced. In order to maintain the distance L10, simply raising the rear end 209a of the front fender 209 is not preferable because the splashed mud may face the bearing 205.
[0008]
Accordingly, an object of the present invention is to provide a technique capable of preventing mud splashed up by a front wheel from moving toward a bearing for supporting a steering shaft even when the rear end portion of a front fender is raised.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, according to the first aspect of the present invention, a front frame portion is raised upward from a front portion of a center frame portion supporting a footrest plate, a head pipe is provided on the front frame portion, and a bearing is mounted on the head pipe. In the scooter type vehicle in which the steering shaft is rotatably mounted via the steering wheel and the front wheel is steered by the steering shaft, and the front fender is disposed above the front wheel, the front portion is positioned above the rear end of the front fender. The frame portion is provided with a mudguard member that prevents mud splashed by the front wheel from moving toward the bearing.
[0010]
When the mud splashed up by the front wheel is directed to the bearing for supporting the steering shaft, the mud directed toward the bearing hits the mudguard member and rebounds downward. Also, when the mud splashed by the front wheel hits the front frame part and then heads for the bearing, the mud facing the bearing hits the mudguard member and bounces downward. Therefore, even if the rear end portion of the front fender is raised, it is possible to prevent the mud splashed by the front wheel from going to the bearing.
And the distance from the front end of a center frame part to a front wheel can be made small by raising the rear end part of a front fender. As a result, the distance between the front and rear wheels (wheel base) can be reduced. Accordingly, the degree of freedom in designing the scooter type vehicle can be increased.
[0011]
According to the first aspect of the present invention, left and right leg shields that cover the driver's legs are provided on the left and right sides of the front frame portion, and a mudguard member is stacked on the front surface of these leg shields. It is characterized by connecting shields.
[0012]
The mudguard member can also serve as a reinforcing member that connects and reinforces the left and right leg shields. Therefore, a separate member for reinforcing the left and right leg shields is unnecessary. In addition, after the left and right leg shields are provided on the left and right sides of the front frame portion, the mudguard members are simply stacked and connected to the front surfaces of these leg shields, so that the assembly of the left and right leg shields can be improved. .
According to a second aspect of the present invention, the horizontal plate of the mudguard member is located between the hook arm portion extending upward and the presser leg portion extending downward as viewed from the front. As a result, the horizontal plate is supported from both the upper and lower directions, and even if mud or the like jumps up vigorously, mud can be prevented from moving toward the bearing.
According to a third aspect of the present invention, the mudguard member is fastened together with the front board and the leg shield that are stacked on the front surface of the mudguard member from the front. As a result, the member which fixes a mudguard member can be reduced.
According to a fourth aspect of the present invention, the front frame portion has a substantially U-shaped cross-section with a front opening and has a substantially U-shaped groove with a front opening. A horizontal plate of a mudguard member is inserted into the groove. ing. As a result, the weight of the front frame portion can be reduced.
Further, since the horizontal plate of the mudguard member is inserted into the groove, mud or the like can be efficiently prevented from moving toward the bearing.
According to a fifth aspect of the present invention, the front frame portion has a substantially U-shaped cross-section with a front opening, has a substantially U-shaped groove with a front opening, and has a plurality of vertical ribs and a plurality of vertical ribs extending forward from the groove. The lateral rib is formed integrally. As a result, it is possible to prevent the mud splashed by the front wheels from moving toward the bearing while reinforcing the front frame portion.
[0013]
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 perspective view of a scooter-type vehicle according to the present invention. A scooter-type vehicle 10 includes a handle 11, a seat 12 that can be flipped up as shown by an arrow, and a seat below that is opened and closed by the seat 12 and provided below the seat. A tray 13 and a flat step floor 14 disposed between the handle 11 and the seat 12 are provided, a rear frame 31 is extended rearward and obliquely upward from the step floor 14, and a support member 32 is erected from the rear frame 31, By placing the seat 12 over the upper end of the support member 32, an article storage space S1 surrounded by the seat 12 and the left and right support members 32 is formed, and the front, rear, left and right of the article storage space S1 are opened. It is a motorcycle.
[0014]
The step floor 14 is a footrest plate that includes a leg shield 52 that extends integrally from the front end and rises, and a storage unit bottom plate 53 that extends integrally from the rear end. The leg shield 52 is a member that covers the front of the leg of the driver sitting on the seat 12.
[0015]
FIG. 2 is a side view of the scooter type vehicle according to the present invention. The body frame 20 (vehicle body) of the scooter type vehicle 10 is bolted to the front frame 21 of the front half and the rear end of the front frame 21. This indicates that the frame is divided into two.
In such a scooter type vehicle 10, a power unit 43 including an engine 42 in which a cylinder 41 is tilted forward is swingably attached to a rear frame 31, and the rear wheel 44 is driven by the power unit 43 and a step floor 14 is a two-wheeled vehicle in which an under cover 60 is disposed below 14 and a fuel tank 70 is housed in a space surrounded by the step floor 14 and the under cover 60.
[0016]
In the figure, 81 is a head lamp support pipe also serving as a front carrier, 82 is a head lamp, 83 is an air cleaner, 84 is a silencer, 85 is a rear cushion, 86 is a rear fender, 87 is a tail lamp, and 88 is a stand.
[0017]
FIG. 3 is an exploded view of the front frame, the step floor, the under cover, and the fuel tank according to the present invention, showing the mutual relationship between the members.
The front frame 21 is an aluminum die-cast product in which an elongated columnar front frame portion 23 is raised upward from the front portion of the center frame portion 22 and a head pipe 24 is provided on the front frame portion 23.
The center frame portion 22 includes a pair of left and right side frames 25, 25 extending in the front-rear direction, a front cross member 26 spanned between the front ends of the left and right side frames 25, 25, and the rear ends of the left and right side frames 25, 25. It is a substantially U-shaped frame body in a plan view comprising a rear cross member 27 in a substantially U shape in back view that is sandwiched therebetween. Since it is a square frame, it has a space portion S2 that penetrates vertically in the center.
[0018]
The step floor 14 has a substantially U-shaped inner cover 51 that extends from the center of the vehicle width at the front end and is open at the front, and the left and right legs that are integrally extended from the left and right at the front end and are raised. The shields 52 and 52 are provided continuously. In such a step floor 14, the left and right leg shields 52, 52 extend from the rear of the vehicle body (front frame 21) to the left and right sides of the front frame portion 23, and the inner cover 51 surrounds the rear portion of the front frame portion 23. The footrest plate is supported by the front frame 21 by being superimposed on the front frame 21.
[0019]
The under cover 60 is a cover member that is supported by the front frame 21 by being disposed below the step floor 14 and overlapping the front frame 21. Such an under cover 60 is integrally formed with an upper open storage recess 61 disposed between a pair of left and right side frames 25, 25 extending in the front-rear direction, that is, in the space S2 of the front frame 21, and from the left and right of the front end. The left and right outer covers 62, 62 are integrally extended and raised.
The left and right outer covers 62, 62 can be integrated with the leg shields 52, 52 by overlapping the front surfaces of the left and right leg shields 52, 52 and stopping with screws 63, 63.
[0020]
In this figure, a fuel tank 70 as a container is disposed between a pair of left and right side frames 25, 25 extending in the front-rear direction, the bottom of the fuel tank 70 is covered with an under cover 60, and the top of the fuel tank 70 is step floor 14. It shows that it was covered with.
Specifically, the scooter type vehicle 10 inserts the under cover 60 from above between the left and right side frames 25, 25 and places the edges 64, 64 of the under cover 60 on the left and right side frames 25, 25. The fuel tank 70 is inserted into the storage recess 61 of the 60 from above and stored, and the edges 71 and 71 of the fuel tank 70 are placed on the edges 64 and 64 of the under cover 60 and placed on the edges 71 and 71 of the fuel tank 70 on the step floor. 14, the undercover 60, the fuel tank 70, and the step floor 14 are configured to be superposed and supported by the left and right side frames 25, 25.
[0021]
FIG. 4 is a perspective view of a main part of the scooter type vehicle according to the present invention, and shows the relationship among the step floor 14, the vehicle body frame 20, the undercover 60, and the electrical component box 111 in the scooter type vehicle 10. It is.
Further, in this figure, the front end of the rear frame 31 is coupled to the rear ends of the left and right side frames 25, 25 in the front frame 21 with bolts 33 (... indicates a plurality, the same applies hereinafter). Indicates. Note that some parts are omitted for easy understanding of the drawing.
[0022]
FIG. 5 is a side view of the front half of the scooter type vehicle according to the present invention. A steering shaft 93 is rotatably attached to the head pipe 24 via upper and lower bearings 91 and 92, and the steering wheel 11 ( 1), the front wheel 96 is rotatably attached to the lower end of the steering shaft 93 via the bridge 94 and the front fork 95, and the front fender 97 is attached to the front fork 95. The front wheel 96 can be steered by the steering shaft 93, and the upper portion of the front wheel 96 can be covered with the front fender 97.
[0023]
The front fender 97 is a relatively small cover member with the rear end 97a raised upward. Specifically, the rear end 97b (that is, the rear lower end) of the front fender 97 is approximately 概 ね from the bottom with respect to the height from the center frame portion 22 to the head pipe 24, that is, the entire length of the front frame portion 23. Set to height.
Since the rear end portion 97 a of the front fender 97 is not lowered to the center frame portion 22, the rear end portion 97 a does not enter between the center frame portion 22 and the front wheel 96. The front wheel 96 can be shifted rearward by setting the distance L1 from the front end of the center frame portion 22 to the front wheel 96 small so as not to enter. As a result, the distance W1 from the front wheel 96 to the rear wheel 44 (see FIG. 2), that is, the wheel base W1 can be reduced. Accordingly, the degree of freedom in designing the scooter type vehicle 10 is increased.
[0024]
The present invention is characterized in that the mudguard member 100 is disposed above the rear end 97 b of the front fender 97 and in the front frame portion 23. Specifically, the mudguard member 100 is disposed on the front surface of the front frame portion 23. The mudguard member 100 is a member that prevents mud splashed by the front wheel 96 from moving toward the lower bearing 92 for supporting the steering shaft.
[0025]
Furthermore, this figure shows that an electrical component box 111 is attached to the head pipe 24, and electrical components (not shown) such as a battery and an engine control unit are accommodated in the electrical component box 111.
The electrical component box 111 includes a front board 112 attached to the front part of the head pipe 24 and a dedicated cover 113 attached to the rear part of the front board 112 so as to surround the head pipe 24. A headlamp support pipe 81 can be attached to the front surface of the front board 112.
[0026]
FIG. 6 is an exploded view of the leg shield, the mudguard member and the front board according to the present invention, and shows the relationship between the members.
The left and right leg shields 52, 52 form flanges 52a, 52a extending left and right at the upper front end, and have screw holes 52b, 52b penetrating in the front-rear direction.
[0027]
The mudguard member 100 includes a substantially horizontal plate 101 and a vertical plate 102 extending downward from the front end of the horizontal plate 101 to form an inverted L-shaped mudguard portion 103 in side view, and further The hook arms 104, 104 having a substantially inverted U-shape when viewed from the front are extended upward from the upper left and upper right portions of the plate 102, and the presser foot portions 105 are pressed downward from the lower left portion and the lower right portion of the vertical plate 102. , 105 is a steel plate folded integrally formed product. The hook arm portions 104 and 104 have screw holes 107 and 107 penetrating front and rear in the hook portions 106 and 106 that hang down at positions outside the left and right sides.
[0028]
In the present invention, leg shields 52 and 52 are provided on the left and right sides of the front frame portion 23 indicated by an imaginary line, and the mudguard member 100 is overlapped on the front surfaces of the leg shields 52 and 52. The left and right leg shields 52, 52 are connected to each other.
More specifically, the left and right leg shields 52, 52 are extended from the rear of the vehicle body to the left and right sides of the front frame part 23, and the mudguard member 100 is lowered from the front upper part of the front frame part 23, so that the hooking part 106. 106 are inserted into the rear side of the flange portions 52a, 52a, and the presser leg portions 105, 105 are inserted into the front side of the leg shields 52, 52.
[0029]
Then, the front board 112 is overlapped from the front on the front surface of the mudguard member 100, the screw holes 112a and 112a of the front board 112, the screw holes 52b and 52b of the flange parts 52a and 52a, and the screw holes of the hook parts 106 and 106. 107 and 107 are aligned and fastened together with screws 114 and 114.
Thus, the mudguard member 100 can be attached to the leg shields 52 and 52 by detachably connecting the front end portions of the left and right leg shields 52 and 52 with the mudguard member 100.
[0030]
By connecting the left leg shield 52 and the right leg shield 52, the left and right leg shields 52 and 52 can be reinforced to increase the rigidity. Since the mudguard member 100 also serves as a reinforcing member for the left and right leg shields 52, 52, a separate member for reinforcing the leg shields 52, 52 is not necessary. Moreover, the assemblability of the left and right leg shields 52, 52 is improved.
[0031]
FIG. 7 is a perspective view showing a structure for attaching the mudguard member according to the present invention, and is a view showing the structure in which the mudguard member 100 is attached to the left and right leg shields 52, 52 as viewed from the front upper side. Note that some parts are omitted for easy understanding of the drawing.
[0032]
The rear surfaces of the flange portions 52a and 52a are supported by the hook portions 106 and 106, and the front surfaces of the leg shields 52 and 52 are supported by the presser leg portions 105 and 105 through the outer covers 62 and 62, whereby the leg shields 52 and 52 are supported. It can be pinched by the mudguard member 100 and temporarily fixed before bolting.
[0033]
FIG. 8 is a perspective view showing the mounting structure of the mudguard member and the front board according to the present invention. The mudguard member 100 and the front board 112 are fastened together with screws 114 and 114 to the left and right leg shields 52 and 52. By doing this, it is shown that the front end portions of the left and right leg shields 52, 52 are connected by the mudguard member 100. Note that some parts are omitted for easy understanding of the drawing.
[0034]
FIG. 9 is a perspective view of the main part of the front upper part of the scooter type vehicle according to the present invention. The front frame part 23, left and right leg shields 52 and 52, under cover 60, front fender 97, mudguard member 100, and It is the figure which showed the relationship of the front board 112 from the front lower direction. Note that some parts are omitted for easy understanding of the drawing. 121 is a front brake cable, and 122 is a speedometer cable.
[0035]
FIG. 10 is a cross-sectional view taken along line 10-10 in FIG. 5, and the front frame portion 23 is a substantially U-shaped cross-section with a front opening, and the mudguard member 100 is placed in the groove 23a of the front frame portion 23. The horizontal plate 101 is inserted.
The front frame portion 23 integrally includes four vertical ribs 23c... And a plurality of horizontal ribs 23d (see FIG. 5) extending forward (leftward in the drawing) from the bottom 23b of the groove 23a. Formed. The length of the four vertical ribs 23c is approximately ½ of the groove depth. The front ends of the horizontal ribs 23d... Extend forward from the front ends of the vertical ribs 23c.
[0036]
On the other hand, the horizontal width of the horizontal plate 101 is slightly smaller than the width of the groove 23a, and the depth of the horizontal plate 101 is such that the front end portion 101a inserted into the groove 23a extends to the vicinity of the front ends of the vertical ribs 23c. By inserting such a horizontal plate 101 into the groove 23a, the front half of the groove 23a can be partitioned vertically (front and back in the figure). Furthermore, the front end of the horizontal plate 101 overlaps with the front end portion 101a of the horizontal rib 23d.
[0037]
By the way, the inner cover 51 is a substantially U-shaped cross section that surrounds the left and right side portions and the rear portion of the front frame portion 23 with a space. The throttle cable 123 and the rear brake cable 124 can be passed through the space S3 between the left side wall of the front frame portion 23 and the left side wall of the inner cover 51, and the right side wall of the front frame portion 23 and the inner cover 51 can be passed. The wire harness 125 can be passed through the space S4 between the right side wall and the right side wall. Therefore, by passing the throttle cable 123, the rear brake cable 124 and the wire harness 125 through the inner cover 51, these wire rods 123 to 125 can be protected.
[0038]
FIG. 11 is an operational view of the mudguard member according to the present invention. Here, the straight line Ta in contact with the rear end 97b of the front fender 97 and in contact with the rear outer peripheral surface of the front wheel 96 is referred to as a “mud splash boundary line Ta”.
In the area A1 ahead of the mud splash boundary Ta, the mud splashed by the front wheel 96 is blocked by the front fender 97, and therefore cannot be directed to the lower bearing 92 for supporting the steering shaft.
On the other hand, in the area A <b> 2 behind the mud splash boundary line Ta, the mud splashed by the front wheel 96 hits the front part of the front frame part 23 and can bounce back toward the bearing 92.
[0039]
Therefore, the present invention is arranged such that the mudguard member 100 that prevents the mud splashed up by the front wheel 96 from moving toward the bearing 92 is disposed above the rear end 97b of the front fender 97 and in the front frame portion 23. Features.
More specifically, the mud that is higher than the rear end 97b of the front fender 97 and on the line of the mud splash boundary line Ta and that is splashed by the front wheel 96 hits the front part of the front frame part 23. In some cases, the horizontal plate 101 of the mudguard member 100 is disposed at a position where it can rebound and face the bearing 92.
[0040]
Further, the front frame portion 23 is formed by vertically arranging a plurality of lateral ribs 23d extending from the bottom 23b of the groove 23a toward the front lower side. The mudguard member 100 is disposed so that the tip of the horizontal plate 101 overlaps the top and bottom with a slight gap at the tip of at least one of the horizontal ribs 23d. By laminating the horizontal ribs 23d and the horizontal plate 101, a labyrinth effect can be expected. That is, there is no fear that mud passes through a slight gap between the horizontal rib 23d and the horizontal plate 101. Note that the size of the gap and the presence or absence of the gap are arbitrary.
[0041]
When the mud splashed by the front wheel 96 hits the lower surface of the horizontal plate 101, the mud that hits bounces downward. Further, when the splashed mud hits the front part of the front frame part 23, for example, the groove 23a or the vertical rib 23c, the mud hits the lower surface of the horizontal plate 101, the back surface of the vertical plate 102, or the horizontal rib 23d. Hit the bottom and bounce downwards. Further, when the splashed mud hits the horizontal rib 23d, the hit mud hits the lower surface of the horizontal plate 101, the back surface of the vertical plate 102, the lower surface of the other horizontal ribs 23d.
In this way, even if the rear end 97a of the front fender 97 is raised, mud splashed by the front wheel 96 can be prevented from heading toward the steering shaft support bearing 92.
[0042]
FIG. 12 is a left side sectional view around the vehicle body frame, step floor, under cover and fuel tank according to the present invention. A storage recess 61 is disposed in the space S2 of the front frame 21, and the step floor 14 is disposed in the storage recess 61. It is shown that the fuel tank 70 is disposed in a space surrounded by the step floor 14 and the storage recess 61.
Since the storage recess 61 is disposed below the step floor 14, a container such as the fuel tank 70 can be easily disposed by effectively using the empty space below the step floor 14.
[0043]
Furthermore, this figure is provided with a refueling lid 55 that opens and closes the opening portion 54 in the step floor 14 and opens the opening portion 54 that vertically penetrates the rear portion of the step floor 14, and the opening portion 54 when the refueling lid 55 is opened. Fig. 6 shows that the fuel cap 72 of the fuel tank 70 is faced.
The fuel supply cap 72 in a state where the fuel supply port of the fuel tank 70 is closed protrudes upward from the upper surface of the step floor 14. For this reason, the lid 55 for oil supply exhibits the shape bulged upward.
[0044]
By the way, the fuel system 130 including the fuel filter 132 and the fuel pump 134 includes the engine 42 shown in FIG. 2 in a space S5 surrounded by the under cover 60 and the step floor 14 that covers and protects the bottom of the fuel tank 70. This is disposed at a position close to the cylinder 41. For this reason, the fuel system 130 including the fuel filter 132 and the fuel pump 134 is covered with the heat shielding plate 140 so as not to be affected by the heat of the engine 42 having a relatively high temperature. Details of the heat shielding plate 140 will be described later.
[0045]
13 is a cross-sectional view taken along line 13-13 of FIG. The left and right side frames 25, 25 are substantially U-shaped cross-sectional members in rear view provided with upper open grooves 25e, 25e extending in the front-rear direction (front-back direction in the figure).
Specifically, the left side frame 25 includes an inner standing wall 25a that is closer to the inside of the vehicle body, a horizontal wall 25b that extends outward from the lower end of the inner standing wall 25a, and an outside of the vehicle body that rises upward from the outer end of the horizontal wall 25b. This is an integrally molded member comprising a near outer standing wall 25c and an edge 25d (flange 25d) extending horizontally from the upper end of the outer standing wall 25c to the outside of the vehicle body. The upper end of the inner standing wall 25a is lower than the edge 25d. A space surrounded by the inner standing wall 25a, the horizontal wall 25b, and the outer standing wall 25c is a groove 25e.
The right side frame 25 is a member that is symmetrical to the left side frame 25 with respect to the vehicle body center line CL that passes through the vehicle body center.
[0046]
The under cover 60 is integrally formed with edges 64 and 64 (flanges 64 and 64) extending horizontally from the upper opening end of the storage recess 61 to the left and right, that is, outward of the vehicle body. The bulging parts 65 and 65 of the substantially U shape seen from the back surface extended in the (front-back direction of a figure) are integrally provided.
[0047]
Since the bulging portions 65 and 65 are substantially U-shaped, the bulging portions 65 and 65 have upper and lower elongated recessed portions 66 and 66 extending in the front-rear direction (front and back in the drawing). Wires such as the throttle cable 123 and the wire harness 125 can be passed through the concave portions 66 and 66.
[0048]
The step floor 14 extends the bosses 56... From the left and right sides on the lower surface and forms edges 57 and 57 extending downward from the left and right ends. The edges 57 and 57 are formed as the edges 64 and 64 of the undercover 60. 64 is a generally flat member.
[0049]
In this figure, the edges 64 and 64 of the under cover 60 are placed on the edges 25d and 25d of the left and right side frames 25 and 25, and the edges 71 and 71 of the fuel tank 70 are placed on the edges 64 and 64 of the under cover 60. The step floor 14 is placed on the edges 71, 71 of the 70, and the bosses 56 ... of the step floor 14 are applied to the edges 71, 71 of the side frames 25, 25, the edges 64, 64 of the under cover 60, and the fuel tank. 70 edges 71, 71 and step floor 14 are overlapped and further joined together by tightening up and down with bolts 151 ... and nuts 152 ... passing through bosses 56 ... Indicates. In this way, the under cover 60, the fuel tank 70, and the step floor 14 can be supported by the left and right side frames 25, 25 to sufficiently receive the load.
[0050]
Moreover, the under cover 60, the fuel tank 70, and the step floor 14 can be assembled in this order on the left and right side frames 25, 25 in order to assemble these three parts 60, 70, 14. The assembling structure can be simplified, the number of assembling parts can be reduced, and the assembling property can be improved. For example, as shown in FIG. 3, it is only necessary to fasten the three parts 60, 70, 14 to the left and right side frames 25, 25 with four sets of bolts 151,.
Since the three parts 60, 70, and 14 can be integrated with each other by simply overlapping the left and right side frames 25, 25 from above, they are optimal for module assembly and have good assemblability.
For this reason, the cost of the scooter type vehicle 10 can be reduced.
[0051]
Further, as described above, the under cover 60 has the substantially horizontal edges 64 and 64 overlapped with the left and right side frames 25 and 25 together with other parts from above, and the bolts 151. It is the structure which joins with. Therefore, the under cover 60 can be made thinner as compared with the conventional connecting structure in which the side frames 25 and 25 are bolted to the side frames 25 and 25 as in the prior art. For this reason, when the circumference | surroundings of the step floor 14 are seen from the side, it is a slim external appearance, and the external appearance property of the scooter type vehicle 10 can be improved.
[0052]
Furthermore, the front and rear bulging portions 65 and 65 provided on the edges 64 and 64 of the under cover 60 are only fitted into the front and rear grooves 25e and 25e provided on the left and right side frames 25 and 25, respectively. Thus, the under cover 60 can be easily positioned with respect to the left and right side frames 25, 25. Therefore, the assembling property can be further improved. In addition, a separate member for positioning is not necessary.
[0053]
Furthermore, the nut 152 can be positioned on the step floor 14 by inserting the clip 153 to which the nut 152 is attached into the edge 25d of the step floor 14. Note that the presence or absence of the clip 153 is arbitrary.
[0054]
By the way, the storage recess 61 is arranged close to the right or left shown in the figure from the vehicle body center line CL. By disposing the storage recess 61 on the right side or the left side, a gap S6 is formed between the side frame 25 and the side portion of the storage recess 61, and thus a wire such as the rear brake cable 124 can be passed through the gap S6.
[0055]
14 is a cross-sectional view taken along the line 14-14 in FIG. 12, and shows that the bosses 58 are extended from the lower surface of the step floor 14 toward the edges 71, 71 of the fuel tank 70. FIG. The bosses 58 can prevent the edges 64 and 64 of the under cover 60 and the edges 71 and 71 of the fuel tank 70 from being lifted.
[0056]
FIG. 15 is a perspective view showing the mounting structure of the front frame and the under cover according to the present invention, and shows that the under cover 60 is superimposed on the front frame 21. Note that some parts are omitted for easy understanding of the drawing.
[0057]
FIG. 16 is a perspective view showing the mounting structure of the front frame, the under cover, and the fuel tank according to the present invention, and shows that the under cover 60 and the fuel tank 70 are superposed on the front frame 21.
The left and right positioning projections 64a and 64a are provided above the edges 64 and 64 of the under cover 60, and the rear ends of the edges 71 and 71 in the fuel tank 70 are applied to these positioning projections 64a and 64a. The tank 70 can be positioned in the front-rear direction.
Note that some parts are omitted for easy understanding of the drawing. 73 is a fuel level gauge.
[0058]
FIG. 17 is a diagram showing the relationship between the undercover and the wire according to the present invention, and shows a configuration of the undercover 60 viewed from the upper right.
This figure shows that in the under cover 60, (1) the throttle cable 123 is passed through the left concave portion 66 and the guide cable 66a... (2) The wire harness 125 is passed through the right concave portion 66 and the wire harness 125 is prevented from being lifted by the guide pieces 66b protruding from the concave portion 66. (3) The left inner standing wall 25a It is shown that the rear brake cable 124 passed along is held by the clamper 67 provided on the inner standing wall 25a.
[0059]
Here, returning to FIG. 13 and continuing the description, since the wire rods such as the throttle cable 123 and the wire harness 125 are passed through the concave portions 66 and 66 of the bulging portions 65 and 65, the step floor 14 and the undercover The wire rod can be easily passed between the step floor 14 and the under cover 60 while securing the capacity of the space S5 surrounded by 60.
[0060]
Moreover, between the step floor 14 and the under cover 60, guide portions for guiding the wire rods 123 and 125, that is, recess portions 66 and 66 can be easily provided. And since the wire rods 123 and 125 can be guided over a sufficient length by the concave portions 66 and 66, these wire rods 123 and 125 are not rubbed against other members such as the vehicle body frame 20 (see FIG. 1). It can be easily routed.
[0061]
FIG. 18 is a perspective view showing the mounting structure of the front frame, the under cover, and the fuel system according to the present invention when the fuel system 130 is viewed from the upper right of the rear part, and the fuel filter 132 is arranged on the left side of the vehicle body. The fuel pump 134 is arranged on the right side, the check valve (check valve) 136 is arranged on the upper right side of the fuel pump 134, and the fuel pump 134 is attached to the rear cross member 27 of the front frame 21 via the stay 138. .
[0062]
The fuel system 130 connects the inlet of the fuel filter 132 to the outlet 74 (see FIG. 12) of the fuel tank 70 via the hose 131, and connects the suction port of the fuel pump 134 to the outlet of the fuel filter 132 via the hose 133. The inlet of the check valve 136 is connected to the discharge port of the fuel pump 134 via a hose 135, and the outlet of the check valve 136 is connected to an unillustrated engine fuel injection system via a hose 137.
[0063]
The heat shielding plate 140 is formed integrally with the under cover 60 made of a resin material, and includes a left shielding portion 141 that covers the periphery of the fuel filter 132, a right shielding portion 142 that covers the periphery of the fuel pump 134, and left and right It consists of a central shielding part 143 between the shielding parts 141 and 142.
The lower end of the central shielding part 143 is formed by integrally forming a thin hinge part 144 on the under cover 60. For this reason, the central shielding part 143 can be opened and closed in the front-rear direction with the hinge part 144 as a base end. The central shielding part 143 is opened as shown by an arrow, so that the connecting part between the fuel filter 132 and the fuel pump 134 can be maintained and inspected.
[0064]
FIG. 19 is a perspective view showing the mounting structure of the front frame, the under cover, and the fuel system according to the present invention. The fuel system 130 is viewed from the lower left of the rear part, and is attached to the right side frame 25 of the under cover 60. It shows that the heat shielding part 147 covering the check valve 136 is extended from the covered part 146.
[0065]
In the embodiment of the present invention described above, the scooter type vehicle 10 is not limited to the scooter type motorcycle, and may be, for example, a scooter type motorcycle or a scooter type automobile.
The container accommodated in the under cover 60 is not limited to the fuel tank 70, and includes, for example, various containers such as a container for storing a battery, electrical components, etc., and a reserve tank for a radiator.
[0066]
【The invention's effect】
The present invention exhibits the following effects by the above configuration.
Since the mudguard member which prevents the mud splashed up by the front wheel from moving toward the steering shaft support bearing is disposed in the front frame portion at a position higher than the rear end of the front fender, Even if the rear end of the front fender is raised, mud splashed up by the front wheels can be prevented from going to the bearing.
And the distance from the front end of a center frame part to a front wheel can be made small by raising the rear end part of a front fender. As a result, the distance between the front and rear wheels (wheel base) can be reduced. Accordingly, the degree of freedom in designing the scooter type vehicle can be increased.
[0067]
According to the first aspect of the present invention, left and right leg shields that cover the driver's legs are provided on the left and right sides of the front frame portion, and a mudguard member is stacked on the front surface of these leg shields. The shield is connected, and the mudguard member is a substantially horizontal horizontal plate extending to the vicinity of the front frame portion, a vertical plate extending downward from the front end of the horizontal plate, and an upper left portion and an upper right portion of the vertical plate. Extends in a generally U-shape when viewed from the front, is inserted into the rear side of the upper part of the leg shield, and supports the rear surface of the leg shield, and extends downward from the lower left and lower right parts of the vertical plate. comprising a pressing leg portion is inserted into the front of the shield support the front of the leg shield, a, since sandwich the front and rear of the leg shield, the role of the reinforcing member for reinforcing by connecting between the left and right leg shields, mud It can also serve as a protection member Kill. Therefore, a separate member for reinforcing the left and right leg shields is unnecessary.
In addition, after installing the left and right leg shields on the left and right of the front frame part, the mudguard members are simply stacked and connected to the front of these leg shields. Can be increased.
Further, since the mudguard member sandwiches the front and rear of the leg shield, the mudguard member can be fixed with increased rigidity, and even if mud or the like jumps up vigorously, it can be prevented from facing the bearing.
In claim 2, since the horizontal plate of the mudguard member is located between the hook arm portion extending upward and the presser leg portion extending downward, the horizontal plate is supported from both the upper and lower directions and vigorously. Even if mud is splashed up, mud can be prevented from going to the bearing.
In the third aspect, since the mudguard member is fastened together with the front board and the leg shield that are overlapped from the front on the front surface of the mudguard member, the member for fixing the mudguard member can be reduced.
According to a fourth aspect of the present invention, the front frame portion has a substantially U-shaped cross-section with a front opening and has a substantially U-shaped groove with a front opening. A horizontal plate of a mudguard member is inserted into the groove. Therefore, the weight of the front frame portion can be reduced.
Further, since the horizontal plate of the mudguard member is inserted into the groove, mud or the like can be efficiently prevented from moving toward the bearing.
According to a fifth aspect of the present invention, the front frame portion has a substantially U-shaped cross-section with a front opening, has a substantially U-shaped groove with a front opening, and has a plurality of vertical ribs and a plurality of vertical ribs extending forward from the groove. Since the lateral ribs are integrally formed, it is possible to prevent the mud splashed by the front wheels from moving toward the bearing while reinforcing the front frame portion.
[Brief description of the drawings]
1 is a perspective view of a scooter type vehicle according to the present invention. FIG. 2 is a side view of a scooter type vehicle according to the present invention. FIG. 3 is an exploded view of a front frame, a step floor, an under cover, and a fuel tank according to the present invention. FIG. 4 is a perspective view of a main part of a scooter type vehicle according to the present invention. FIG. 5 is a side view of a front half portion of the scooter type vehicle according to the present invention. FIG. 7 is a perspective view showing the mounting structure of the mudguard member according to the present invention. FIG. 8 is a perspective view showing the mounting structure of the mudguard member and the front board according to the present invention. FIG. 10 is a sectional view taken along the line 10-10 in FIG. 5; FIG. 11 is an operational view of a mudguard member according to the present invention; Body frame, step floor, under cover and fuel tank FIG. 13 is a sectional view taken along the line 13-13 in FIG. 12. FIG. 14 is a sectional view taken along the line 14-14 in FIG. 12. FIG. 15 shows the mounting structure of the front frame and under cover according to the present invention. FIG. 16 is a perspective view showing a mounting structure of a front frame, an under cover, and a fuel tank according to the present invention. FIG. 17 is a relationship diagram between an under cover and a wire rod according to the present invention. FIG. 19 is a perspective view showing the mounting structure of the frame, the under cover, and the fuel system. FIG. 19 is a perspective view showing the mounting structure of the front frame, the under cover, and the fuel system according to the present invention. Side view [Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Scooter type vehicle, 14 ... Footrest board (step floor), 22 ... Center frame part, 23 ... Front frame part, 24 ... Head pipe, 52 ... Leg shield, 91, 92 ... Bearing, 93 ... Steering shaft, 96 ... Front wheel, 97 ... Front fender, 97b ... Rear end of front fender, 100 ... Mudguard member.

Claims (5)

A front frame is raised upward from the front of the center frame that supports the footrest plate, a head pipe is provided on the front frame, and a steering shaft is rotatably attached to the head pipe via a bearing. In the scooter type vehicle in which the front wheel is steered by the steering shaft and the front fender is arranged above the front wheel,
A mudguard member that prevents mud splashed up by the front wheel from moving toward the bearing is disposed in the front frame portion at a position higher than the rear end of the front fender ,
Left and right leg shields that cover the driver's legs are provided on the left and right of the front frame, and the mudguard members are stacked on the front of these leg shields, and the left and right leg shields are connected by the mudguard members. ,
The mudguard member includes a substantially horizontal horizontal plate extending to the vicinity of the front frame portion under the head pipe, a vertical plate extending downward from a front end of the horizontal plate, an upper left portion of the vertical plate, and A hook arm that extends in a substantially inverted U shape when viewed from the upper right and is inserted into the rear side of the upper part of the leg shield to support the back of the leg shield, and a lower left part and a lower right part of the vertical plate A scooter-type vehicle , comprising a presser leg portion extending downward from the front side of the leg shield and supporting the front surface of the leg shield, and sandwiching the front and rear of the leg shield . 2. The scooter type vehicle according to claim 1 , wherein the horizontal plate of the mudguard member is located between the hook arm portion extending upward and the presser foot portion extending downward when viewed from the front . The scooter type vehicle according to claim 1, wherein the mudguard member is fastened together with a front board and a leg shield that are stacked on the front surface of the mudguard member from the front. The front frame portion has a substantially U-shaped cross-section with a front opening and has a substantially U-shaped groove with a front opening, and a horizontal plate of the mudguard member is inserted into the groove. The scooter type vehicle according to claim 1. The front frame portion has a substantially U-shaped cross-section with a front opening, a front U-shaped substantially U-shaped groove, and a plurality of vertical ribs and a plurality of horizontal ribs extending forward from the groove. The scooter type vehicle according to claim 1, wherein the scooter type vehicle is integrally formed.

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