JP3791897B2 - Wind guide structure at the front of the vehicle body in a scooter type vehicle - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wind guide structure for a front part of a vehicle body in a scooter type vehicle, and more particularly to a structure capable of increasing the cooling efficiency of a radiator disposed inside a front cover while reducing the size of a front cover.
[0002]
[Prior art]
In Japanese Utility Model Laid-Open No. 61-10236, a space surrounded by a front cover and a rear cover (leg shield) is provided above the front wheel of the front of the vehicle body of the scooter type vehicle, and a radiator and a cooling fan overlapping on the rear side are provided therein. A structure is shown in which outside air is taken in from an introduction duct provided in front of the front cover, forcedly cooled by a cooling fan, and then exhausted from the exhaust duct provided in the rear cover. The vertical dimension of the air intake is shorter than the vertical dimension of the radiator, and the air exhaust port is guided sideways by the air guide member.
[0003]
[Problems to be solved by the invention]
By the way, there is a case where it is desired to make the front cover as compact as possible by reducing the front protrusion amount of the front cover from the viewpoint of slimming the vehicle body. However, in the above-described conventional structure, since the radiator is in front of the cooling fan and the lateral width of the radiator is larger than the outer diameter of the cooling fan, the front protrusion amount of the front cover cannot be reduced. In addition, since the vertical dimension of the air intake is smaller than the vertical length of the radiator, the cooling efficiency is lowered when the distance between the radiator and the air intake is reduced. In addition, since the structure on the exhaust side has to be provided with a hole in the back cover and a separate air guide member attached thereto, the number of parts increases and the design process for improving the appearance becomes difficult. Therefore, the present invention aims to solve such problems.
[0004]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the invention relating to the wind guide structure of the front part of the vehicle body in the scooter type vehicle according to the present application has a radiator and a fan accommodated in a front cover disposed above the front wheel of the scooter type vehicle, and is provided on the front cover. In the case of cooling the radiator from the air intake port, a fan is disposed between the air intake port and the radiator.
[0005]
At this time, the air intake Up and down Is provided with a length substantially equal to the vertical length of the radiator. In addition, the rear cover that covers the front cover from the rear side of the vehicle body is provided with an air exhaust port, and the exhaust port is provided on both sides of the rear cover. Diagonally behind It is provided on the exhaust surface that faces the side, and the exhaust port is formed longer in the vertical direction than the air intake port.
[0006]
Furthermore, a louver extending in a substantially horizontal direction may be provided at the air intake port, and the tip of the louver may protrude from the front line of the front cover. Further, a radiator reservoir tank can be disposed at the front lower portion of the radiator in the front cover.
[0007]
Furthermore, a horn may be disposed in the space above the radiator in the front cover, and a headlight may be provided on the front surface of the handle cover disposed above the front cover.
[0008]
【The invention's effect】
In the present invention, since the cooling fan is disposed between the air intake and the radiator, the outside air taken in from the air intake by the cooling fan cools the radiator. At this time, since the cooling fan having a narrower width than the radiator is located in front of the radiator, the front protrusion amount of the front cover can be reduced, and the radiator is disposed away from the air intake port, so that the cooling efficiency is not impaired. Therefore, it is possible to maintain a good cooling efficiency of the radiator while reducing the size of the front cover.
[0009]
At this time, if the air intake port is provided with a length substantially equal to the vertical length of the radiator, a sufficient amount of air intake can be ensured and the cooling efficiency of the radiator can be increased. In addition, when the back cover is provided with an air exhaust port, and the air exhaust ports are provided on the surfaces facing the rear side at both sides of the back cover, the warm exhaust air that has cooled the radiator is guided to the air exhaust surface from the air exhaust port. It is discharged smoothly rearward and outward. Therefore, since the air is guided using the surface of the back cover which is a design part without providing a separate air guide member, the number of parts is not increased and the appearance can be improved. Moreover, if the air outlet is made longer in the vertical direction than the air intake, the exhaust air can be improved and the cooling efficiency can be further increased.
[0010]
Furthermore, since a louver extending in the substantially horizontal direction is provided at the air intake port and the tip of the louver is protruded from the front line of the front cover, the efficiency of taking in outside air is improved. In addition, if a radiator reservoir tank, which is a relatively large part, is arranged at the front lower part of the radiator in the front cover, the front cover can be stored efficiently in the space inside the front cover. it can.
[0011]
Furthermore, if a relatively large headlight is provided on the front face of the handle cover and a horn, which is a small component, is placed in a narrow space above the radiator in the front cover, the radiator, cooling fan, reserve tank, and horn can be placed in space. While being able to be accommodated in the front cover efficiently, these parts including the headlight can be arranged in the front part of the vehicle body in a space efficient manner.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments will be described below with reference to the drawings. 1 is an external side view of a motorcycle to which this embodiment is applied, FIG. 2 is a plan view thereof, FIG. 3 is a side view of the front half of a vehicle body showing a layout of main components inside a vehicle body cover, and FIG. 5 is a side view of the rear half of the vehicle body, FIG. 5 is a plan view of the front half of the vehicle body showing the layout of the main parts inside the vehicle body cover, FIG. 6 is a plan view of the rear half of the vehicle body following FIG. FIG. 8 is a perspective view showing a schematic configuration of a vehicle body frame, FIG. 9 is a plan view thereof, and FIG. 10 is a perspective view of a floor tray provided under the floor.
[0013]
First, the overall structure of a motorcycle to which this embodiment is applied will be outlined. As shown in FIG. 1, this motorcycle is a scooter type vehicle that employs large-diameter front wheels 1 and rear wheels 2, and the upper portion of the front fork 3 is covered from the front and back by a front cover 4 and a leg shield 5. The front cover 4 is provided with an air intake 6 for taking in the cooling air from the radiator, and blinkers 7 at the left and right sides of the front cover 4. The left and right sides of the leg shield 5 discharge the warm exhaust air from the radiator to the outside. An air exhaust port 8 is provided for this purpose.
[0014]
The front cover 4 is composed of a main body portion 4a located above the front wheel 1 and a front side cover 4b that is connected to the lower portion thereof and obliquely descends the rear of the front wheel 1 and extends rearward. A handle cover 10 that covers the handle 9 is provided above the front cover 4 and the leg shield 5, and a headlight 11 is provided on the front surface of the handle cover 10. A meter panel 10a is provided on the rear side of the upper surface of the handle cover 10 (FIG. 2).
[0015]
The lower part of the leg shield 5 is connected to a floor panel 12 covering a low floor type step floor, and this floor panel 12 is bent slightly horizontally below the connecting part of the leg shield 5 and extends rearward, and the rider (driver) It is a step floor surface where you can put your feet. The rear portion of the floor panel 12 is connected to a rear cover 13 that rises above the floor surface.
[0016]
The rear cover 13 is a member opened in the up-down direction covering between the seat 14 and the front and upper portions of the rear wheel 2, and the upper opening is covered with the seat 14 so as to be freely opened and closed. The seat 14 is for two passengers and includes a front seat 14a for a rider and a rear seat 14b for a passenger (passenger). Grab rails / carriers 33a are disposed rearward from the left and right sides of the rear seat 14b, and the front end portion is supported by a seat rail portion of a vehicle body frame, which will be described later, via a stay 33b penetrating the rear cover 13 from the inside to the outside.
[0017]
The rear cover front portion 13a is the widest portion in the vertical direction from the floor surface to the front seat 14a, and a maintenance lid 15 is attached to the lower portion to removably cover a maintenance hole formed so as to go from the front to the left and right side surfaces. It has been.
[0018]
A side surface of the step floor below the floor panel 12 is covered with a lower cover 16, a front end portion thereof is connected to a rear end portion of the front cover 4, and an upper portion thereof is connected to the floor panel 12. In this application, for convenience, the front cover 4, the leg shield 5 and the handle cover 10 are used as front body covers, the floor panel 12 and the lower cover 16 are used as floor covers, and the rear cover 13 is used as a rear vehicle body cover. A body cover is used. These vehicle body covers are appearance members and can be formed from appropriate materials such as plastics.
[0019]
The maintenance lid 15 is an approximately L-shaped member made of an appropriate material such as plastic, and has a substantially horizontal bottom at the same time as opening and closing the maintenance hole on the rear cover front portion 13a side by attaching and detaching the maintenance lid 15. A maintenance hole (not shown) on the floor side formed in is opened and closed. The left and right rear end portions of the floor panel 12 extend rearward from the side of the rear cover front portion 13a to form an obliquely upward extending end portion 12a, and a pillion step 17 for passengers is overlapped therewith when stored.
[0020]
A flat surface 18 is formed on the side surface of the rear cover 13 below the front seat 14a and above the pillion step 17, and a large taillight unit 19 is attached to the rear end portion so as to wrap around the side surface. Further, a seat lock key hole 20 is provided on the side surface near the tail light unit 19 and above the rear wheel 2. In the figure, reference numeral 21 denotes a swing type power unit, 22 denotes an air cleaner, 23 denotes a rear cushion, and 24 denotes a main stand.
[0021]
The swing type power unit 21 includes a 4-cycle engine and a V-belt type transmission which will be described later. Reference numeral 21a in the figure denotes a crankshaft, and a drive pulley is arranged coaxially. 21b is a speed change output shaft, and a driven pulley and a starting clutch are coaxially arranged. Reference numeral 21c denotes a V-belt wound between the driving pulley and the driven pulley, and reference numeral 21d denotes a rear wheel axle.
[0022]
As shown in FIG. 3, a steering shaft 27 is rotatably supported by a head pipe 26 provided at the front end portion of the vehicle body frame 25, and the front fork 3 and the handle 9 are connected via the steering shaft 27. Further, as shown in FIG. 4, the swing type power unit 21 is swingably supported at the center portion of the vehicle body frame 25 via a link 28.
[0023]
As shown in FIGS. 8 and 9, the vehicle body frame 25 includes a down portion 30 extending rearward from the head pipe 26 at the center of the vehicle body, and substantially horizontal after the front end is welded to both sides of the lower portion and the rear end extends obliquely downward. A pair of left and right floor portions 31 that are bent further to the rear, a pillar portion 32 that is bent from each rear end portion and extends upward in front of the rear wheel 2, an upper end portion of the pillar portion 32 is welded, and the seat 14 And a rear portion of the rear wheel 2 are provided with a seat rail portion 33 extending obliquely upward and rearward.
[0024]
The down part 30 is a pipe member used by only one, and the floor part 31 and the pillar part 32 are continuous pipe members, and are provided in a pair of left and right. The seat rail portion 33 is provided as a pair of left and right, but is a single pipe member having a substantially U shape in a plan view connected by a protruding portion 34 that protrudes forward from the upper end of the pillar portion 32 and extends forward. Yes, the rear side is connected to the left and right by a cross member 35. A pivot plate 36 is provided at a connecting portion between the seat rail portion 33 and the pillar portion 32, and one end side of the link 28 that supports the swing type power unit 21 at the other end side is supported by a bearing by the pivot portion 36a provided here. It has become.
[0025]
The rear end portions of the left and right floor portions 31 are connected to each other by a rear cross pipe 38 that is convexly curved rearward, and both sides of the rear cross pipe 38 are welded to the lower surfaces of the rear end portions of the left and right floor portions 31. Further, side stays 39 extending in the front-rear direction substantially parallel to the outer sides of the left and right floor portions 31 are provided, and each side stay 39 is connected to the corresponding floor portion 31 by stays 40a and 40b, respectively. The front end of the step frame 41 is also fastened to the rear stay 40b.
[0026]
The step frame 41 is a pipe member provided so as to bend upward and obliquely backward along the lower part of each of the left and right pillar portions 32, and the other end side is a bracket 32 a attached to the back side of the pillar portion 32. (FIGS. 7 and 10) are attached from the rear. Further, a mounting boss 42 for a pillion step is provided at the top portion that protrudes upward.
[0027]
The front end portions of the left and right floor portions 31 are also connected by a front cross pipe 37, and the lower end of the down portion 30 is welded to an intermediate portion thereof. Thereby, a space below the floor surrounded by the left and right floor portions 31, the front cross pipe 37 and the rear cross pipe 38 is formed.
[0028]
The arrangement relationship between the vehicle body frame 25 and each component will be described with reference to FIGS. A head pipe 26 is accommodated in a space surrounded by the front cover 4 and the leg shield 5. A radiator 43 is disposed in front of the head pipe 26, a cooling fan 44 is disposed in front of the head pipe 26, and a radiator reserve tank 45 is disposed in the lower portion thereof. A horn 46 is disposed above.
[0029]
The down portion 30 is disposed between the front cover 4 and the leg shield 5 that are located behind the front wheel 1, and the floor portion 31 and the side stay 39 are covered with the floor panel 12 and the lower cover 16. Further, in the space below the floor surrounded by the left and right floor portions 31, the front cross pipe 37 and the rear cross pipe 38, a recess 48 of a floor tray 47 shown in FIG. 9 is accommodated, and a battery 49a and a starter relay are contained therein. Relevant electrical parts such as 49b are accommodated.
[0030]
The floor tray 47 is formed of an appropriate material such as plastic, and is supported by the left and right floor portions 31, the front cross pipe 37 and the rear cross pipe 38 around the concave portion 48, and an opening portion opened above the concave portion 48 is It faces the maintenance hole of the floor panel 12 and is opened and closed by the bottom of the maintenance lid 15.
[0031]
The step frame 42 is covered with the extended end 12a of the floor panel 12, and the boss 42 and the pillion step 17 are exposed to the outside through an opening formed in a part thereof (FIG. 2).
[0032]
The swing-type power unit 21 supported by the pivot plate 36 is provided with a water-cooled four-cycle engine at the front thereof, and as shown in FIG. 7, the engine includes a cylinder 50, a cylinder head 51, and a cylinder head cover 52. A maintenance hole opening, which is disposed substantially horizontally and has a cylinder head cover 52, a cylinder head 51, a spark plug 53 attached to the side surface of the cylinder head cover 52, and a part of the carburetor 54 connected to the intake port of the cylinder head 51 covered with the maintenance lid 15. I'm facing.
[0033]
The air cleaner 22 sucks outside air from a duct 22a provided at the front portion of the air cleaner 22, and supplies fresh air to the carburetor 54 through the contube 22b. Further, an exhaust pipe 55 connected to the exhaust port of the cylinder head 51 passes through the lower side of the engine and is connected to a muffler 56 (FIG. 3) on the rear wheel side. Further, as shown in FIG. 2, the engine side and the radiator 43 are connected to each other by water supply pipes 57a and 57b arranged so as to be shifted to the right side of the vehicle body so as to circulate cooling water.
[0034]
As shown in FIG. 4, the overhanging portion 34 extends forward to the same extent as the cylinder head cover 52, and the container 58 is supported over the front half of the seat rail portion 33, and the fuel tank 59 is disposed behind the seat rail portion 33. It is supported on the rear stage. Further, the upper end portion of the rear cushion 23 is supported by the seat rail portion 33 in the vicinity of the middle portion in the front-rear direction of the fuel tank 59.
[0035]
Next, the structure around the radiator will be described. 11 is an enlarged side view of the front cover 4 and the leg shield 5 part, FIG. 12 is a plan view thereof, FIG. 13 is a view showing the front cover 4 cut away from an oblique front, and FIG. FIG. 15 is a side view of the component arrangement structure around the radiator 43 built in the shield 5, and FIG. 16 is a plan view thereof.
[0036]
First, in FIGS. 11 to 13, the front cover 4 is vertically divided at an intermediate portion in the vertical direction, and the upper portion thereof is formed in a substantially triangular shape with a lower portion projecting forward and tapered upward in a side view. However, it forms a substantially triangular shape that tapers forward. As a result, the space in front of the head pipe 26 formed between the front cover 4 and the leg shield 5 (hereinafter referred to as the space 60 inside the front cover (FIG. 13)) has a wide lateral width on the lower rear side and goes forward and upward. It becomes narrow according to.
[0037]
The air intake 6 provided in front of the exhaust port 8 is opened to the left and right as a partition 6a extending in the vertical direction at the center, and a plurality of louvers 61 are formed in parallel in each opening. Each louver 61 protrudes forward substantially in parallel, and its tip protrudes beyond the general surface of the air intake 6 (the surface of the partition 6a corresponds to the front line of the front cover 4) (FIG. 8).
[0038]
The vertical length L1 of the air intake 6 substantially coincides with the vertical length L2 of the radiator 43 (FIG. 8), and the left and right width W is about the horizontal width of the radiator 43, and overlaps the cooling fan 44 and the radiator 43 when viewed from the front. It is arranged at a position (FIG. 9). The radiator reserve tank 45 disposed in the lower front portion of the cooling fan 44 is disposed horizontally so as not to obstruct the air intake port 6 toward the center near the bottom of the space 60 inside the front cover (FIGS. 11 and 12).
[0039]
A horn 46 is disposed at the upper center of the radiator 43. The horn 46 protrudes upward from the radiator 43, and is arranged in the order of the horn 46, the radiator 43, the cooling fan 44, and the radiator reserve tank 45 in a side view, and is arranged from the rear upper side to the front lower side and close to each upper part. Thus, the air intake 6 is arranged in a slope shape (FIG. 11).
[0040]
The air outlets 8 provided on the left and right of the air intake 6 are located on both sides of the front surface of the leg shield 5 that overlaps the head pipe 26 in a side view behind the radiator 43 in order to discharge the air exhausted from the radiator 43. 4 is formed on a wind-extracting surface 62 which is formed to be long in the vertical direction along the mating portion with 4 and which inclines toward an obliquely rear side. The vertical length L3 protrudes vertically and is sufficiently larger than the vertical lengths L1 and L2 of the air intake 6 and the radiator 43.
[0041]
The air exhaust port 8 is opened obliquely backward and directed outward, and a plurality of louvers 63 are also provided. Further, as shown in FIG. 13, an air guide member 64 is provided inside the exhaust surface 62. The air guide member 64 is made of plastic or the like, has an opening shape corresponding to the air exhaust port 8, and is provided with a plurality of louvers 65, and the air exhaust port 8 of the leg shield 5 at the mounting portion 66 formed in the peripheral portion. It can be attached to the inner surface. In the exhaust of the present application, since the exhaust surface 62 is directed outward, it can be effectively exhausted by itself, but by providing an air guide member, the rectification effect is enhanced and the cooling performance is further improved. Become.
[0042]
As shown in FIGS. 13 to 16, a bracket 26 a is welded to the upper portion of the front surface of the head pipe 26, and a bracket 70 is bolted to the lower portion. The upper portion of the radiator 43 is secured to the bracket 26 a by bolts 71. The lower back surface is also attached to the bracket 70 by the same fastening part 72 (FIG. 15).
[0043]
The rear guide plate 73 has a substantially U-shape in a side view that is long in the vertical direction along the entire length of the front surface of the straight portion of the head pipe 26 and that is open to the left and right. The left and right side portions of 70a form an air guide surface 73a that protrudes outward and inclines obliquely rearward. The exhausted air that has passed through the radiator 43 is guided by the air guide surface 73a and promptly goes to the air guide member 64 and the air outlet 8 and is discharged from the vehicle.
[0044]
A stay 74 extending forward is provided at the lower portion of the bracket 70, and a side surface of the radiator reserve tank 45 is attached to the tip of the stay 74 with a screw 75 or the like. Although not apparent from the drawing, the opposite side of the radiator reserve tank 45 is also supported on the lower portion of the bracket 70 in the same manner. The lower back surface of the radiator reserve tank 45 is located near the tip of the bottom bridge 76. A tube 79 communicates between the radiator reserve tank 45 and caps 77, 78 provided on the upper portions of the radiator 43. When the radiator water reaches a high temperature, cooling water flows into the radiator reserve tank 45 through the tube 9, and the temperature is increased. Returns to the radiator 43 when the value falls.
[0045]
The shape of the radiator reserve tank 45 is located at the lower part and the left part of the cooling fan 44, forms a wind passage to the cooling fan 44, and serves as a guide. A separate member for rectification is not required, resulting in a compact size and a reduced number of parts. In addition, since the winker 7 (FIG. 1) exists in the right side of the cooling fan 44, this winker 7 also has contributed to formation of an air path.
[0046]
The cooling fan 44 is sized to overlap the front surface of the radiator 43 (FIGS. 15 and 16), and the upper portion thereof is attached to the upper portion of the radiator 43 with a bolt 80. Although not clearly shown in the figure, the lower side is similarly attached to the radiator 43, and the tube 79 is fixed by a clamp 82 at the upper end of the fan cover 81.
[0047]
Further, a drain tube 83 extending from the vicinity of the cap 78 of the radiator reserve tank 45 is guided and supported by substantially rotating around the upper half side of the fan cover 81. The cooling fan 44 sends the outside air taken in from the air intake 6 to the radiator 43 on the rear side to forcibly cool it. As apparent from FIG. 16, the horn 46 is attached to a stay 84 integral with the bracket 26a by a screw 85 or the like.
[0048]
Next, the operation of this embodiment will be described. Since the cooling fan 44 is disposed between the air intake 6 and the radiator 43, the outside air taken in from the air intake 6 by the cooling fan 44 cools the radiator 43 and then becomes warm exhaust air on the air guide surface 73. The air is guided and discharged to the rear outer side from the air exhaust port 8, and further guided to the air exhaust surface 62 and flows outward.
[0049]
At this time, since the cooling fan 44 having a narrower width than the radiator 43 is positioned in front of the radiator 43, the front protrusion amount of the front cover 4 can be reduced, and the radiator 43 is disposed away from the air intake 6 so that the cooling efficiency is improved. Will not be damaged. Therefore, the cooling efficiency of the radiator 43 can be kept good while reducing the size of the front cover 4.
[0050]
Further, since the vertical length L1 of the air intake 6 is set to be substantially the same as the vertical length L2 of the radiator 43, a sufficient amount of air intake can be secured and the cooling efficiency of the radiator 43 can be improved. Further, since the air exhaust port 8 is provided on the air exhaust surface 62 that is directed obliquely rearward at both sides of the leg shield 5 corresponding to the back cover in the present invention, the warm exhaust air that has cooled the radiator 43 is supplied to the air exhaust surface 62. Can be smoothly discharged to the rear outer side. Therefore, since the air is guided using the surface of the leg shield 5 which is a design part without providing a separate air guide member, the number of parts is not increased and the appearance can be improved. In addition, since the vertical length L3 of the air exhaust port 8 is longer in the vertical direction than L1 of the air intake port 6, it is possible to improve the exhaust air passage and further improve the cooling efficiency.
[0051]
Furthermore, since the louver 61 extending substantially in the horizontal direction is provided at the air intake 6 and the front end of the louver 61 protrudes forward from the front line (6a) of the front cover 4, the efficiency of taking in outside air is improved. In addition, a radiator reservoir tank 45 that is a relatively large component is disposed in the front lower portion of the radiator 43 in the front cover 4, and a horn 36 that is a relatively small component is disposed in a narrow space above the center of the radiator 43. Therefore, these parts can be accommodated efficiently in the space 60 inside the front cover, and the front cover 4 can be made compact in this respect by effectively using the dead space.
[0052]
In addition, since a relatively large headlight 11 is provided on the front surface of the handle cover 10 and the horn 46, which is a small component, is disposed in the narrow space above the radiator 43 in the front cover 4, the radiator 43, the cooling fan 44, the radiator The reserve tank 45 and the horn 46 can be housed in the front cover 4 in a space efficient manner, and these components including the headlight 11 can be arranged in the front part of the vehicle body in a space efficient manner.
[0053]
Further, since the warm exhaust air is guided outward by the air guide surface 73 provided on the bracket 70 for supporting the radiator 43, it is possible to efficiently exhaust the air without providing a special air guide member, and to reduce the number of parts. Can be reduced and the structure can be simplified. However, as shown in FIG. 13, if the air guide member 64 is provided inside the air exhaust port 8, the air can be exhausted more efficiently.
[Brief description of the drawings]
FIG. 1 is an external side view of a motorcycle to which the present embodiment is applied.
FIG. 2 is a plan view thereof.
FIG. 3 is a side view showing the layout of main components on the front half of the vehicle body.
FIG. 4 is a side view of the rear half of the vehicle body following FIG.
FIG. 5 is a plan view showing the layout of main components on the front half of the vehicle body
6 is a plan view of the rear half of the vehicle body following FIG. 6;
FIG. 7 is a view showing the engine periphery with a part of the vehicle body cover cut away.
FIG. 8 is a perspective view of the body frame.
FIG. 9 is a plan view thereof.
FIG. 10 is a perspective view of a floor tray provided under the floor.
FIG. 11 is an enlarged side view of the front cover and leg shield part.
FIG. 12 is a plan view thereof.
FIG. 13 is a view showing the front cover with its upper part cut away from an oblique front.
FIG. 14 is a perspective view showing a component arrangement structure around a radiator.
FIG. 15 is a side view thereof.
FIG. 16 is a plan view thereof.
[Explanation of symbols]
4: Front cover, 5: Leg shield, 6: Air intake port, 8: Air exhaust port, 10: Handle cover, 11: Headlight, 12: Floor panel, 13: Rear cover, 14: Seat, 15: Maintenance lid, 17 : Pillion step, 18: Plane section, 19: Tail light unit, 20: Key hole, 21: Swing type power unit, 25: Body frame, 26: Head pipe, 43: Radiator, 44: Cooling fan, 45: Radiator reserve tank 46: Horn, 50: Cylinder, 51: Cylinder head, 52: Cylinder head cover, 53: Spark plug, 54: Vaporizer, 60; Bracket

Claims (3)

A radiator and a cooling fan are accommodated in a front cover disposed above the front wheel of the scooter type vehicle, and the radiator is cooled by an air intake provided in the front cover. A cooling fan is provided between the air intake and the radiator. Place and
The vertical length of the air intake port is set to a length substantially equal to the vertical length of the radiator,
The rear cover that covers the front cover from the rear side of the vehicle body is provided with an air exhaust port, and the air exhaust port is provided on an air exhaust surface that faces obliquely rearward on both sides of the back cover,
And is formed longer in the vertical direction than the air intake,
A scooter characterized in that a radiator reservoir tank is disposed in a front lower portion of the radiator in the front cover, and the radiator reservoir tank is formed in a shape extending in the width direction along the lower surface of the radiator below the air intake port. A wind guide structure at the front of the body of a type vehicle.   2. The vehicle body front guide in a scooter type vehicle according to claim 1, wherein the air intake port includes a louver extending in a substantially horizontal direction, and a front end portion of the louver protrudes from a front line of the front cover. Wind structure.   The scooter-type vehicle according to claim 1, wherein a horn is disposed above the radiator in the front cover, and a headlight is provided on a front surface of a handle cover disposed above the front cover. The wind guide structure at the front of the vehicle

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