JP2008189308A - Radiator arrangement structure for scooter type vehicle and scooter type vehicle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a radiator arrangement structure for a scooter type vehicle capable of enhancing cooling efficiency of a radiator. <P>SOLUTION: A water cooling type engine is arranged in a vehicle body frame 1, and the radiator 56 is connected to the engine. The vehicle body frame 1 is provided with a head pipe and right and left pipes 1i extended obliquely downward from the head pipe. A louver part 58b is formed in a lower cover 58 arranged before the right and left pipes 1i, and the radiator 56 is arranged behind the louver part 58b. Behind the radiator 56, a radiator guard 59 is arranged. This structure secures sufficient air introduction to the radiator 56 and sufficient air discharge from the radiator 56. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a radiator arrangement structure in a scooter type vehicle provided with a water-cooled engine.

Some conventional scooter type vehicles have a relatively large displacement and are provided with a water-cooled engine (see, for example, Patent Document 1). Therefore, a radiator for supplying cooling water to this water-cooled engine is required, and this radiator is disposed on the front side of the vehicle so as to easily receive traveling wind. And this radiator and an engine are connected with a hose.
Japanese Patent Laid-Open No. 10-203458

  However, in this case, since the radiator is usually covered with a cover, depending on the driving condition of the scooter type vehicle, the wind to the radiator and the exhausted air from the radiator may be insufficient, and the cooling performance of the radiator may be insufficient. It was.

  In view of such circumstances, the present invention aims to provide a radiator arrangement structure of a scooter type vehicle capable of improving the cooling performance of the radiator, and a scooter type vehicle equipped with such a radiator arrangement structure. And

  In order to achieve the above object, the invention according to claim 1 is directed to a radiator arrangement structure of a scooter type vehicle in which a water-cooled engine is arranged on a body frame, and a radiator is connected to the engine. Comprises a head pipe and left and right pipes extending obliquely downward from the head pipe, and a louver portion is formed in a cover disposed behind the front wheel and in front of the left and right pipes, and the radiator is disposed behind the louver portion. It is characterized by having a radiator arrangement structure for a scooter type vehicle in which a radiator guard is arranged behind the radiator.

  According to a second aspect of the present invention, in addition to the structure of the first aspect, the louver portion is formed so as to guide the rear and lower direction, and the radiator guard is formed to extend rearward and lower. It is characterized by that.

  The invention according to claim 3 is characterized in that, in addition to the configuration according to claim 2, the distance between the louver portion and the radiator guard is longer in the lower side than in the side view.

  According to a fourth aspect of the present invention, in addition to the configuration according to any one of the first to third aspects, the radiator guard is disposed along a member disposed behind the radiator guard in a side view. It is characterized by that.

  The invention according to claim 5 is characterized in that, in addition to the structure according to any one of claims 1 to 4, the radiator is arranged along the left and right pipes. Here, “along the left and right pipes” means a state along the left and right pipes regardless of the front side, the rear side, or between the left and right pipes.

  The invention according to claim 6 is characterized in that, in addition to the configuration according to any one of claims 1 to 5, a cooling air discharge port is formed in a cover disposed below the radiator. To do.

  The invention according to claim 7 is characterized in that, in addition to the configuration according to claim 6, the cooling air discharge port is disposed behind the radiator.

  According to an eighth aspect of the present invention, in addition to the structure according to any one of the first to seventh aspects, the radiator includes a tank portion and a fin portion, and is fixed to the vehicle body frame by the fin portion. It is characterized by that.

  In addition to the structure of any one of claims 1 to 8, the invention according to claim 9 is a fuel pump in which a fuel tank is disposed below the seat and supplies fuel in the fuel tank to the carburetor. Is provided.

  Further, the invention described in claim 10 is a scooter type vehicle having the radiator arrangement structure of the scooter type vehicle according to any one of claims 1 to 9.

  According to the first aspect of the present invention, by forming the louver portion in front of the radiator, it is possible to secure a sufficient wind guide to the radiator, and by disposing the radiator guard behind the radiator, Sufficient exhaust air can be secured. As a result, it becomes possible to improve the cooling performance of the radiator.

  According to the second aspect of the present invention, since the direction of air introduction to the radiator and the direction of exhaust air from the radiator are downward and downward, it is possible to further improve the cooling performance of the radiator.

  According to the invention described in claim 3, since the distance between the louver part and the radiator guard becomes longer as it goes downward, the effect of improving the cooling performance of the radiator becomes remarkable.

  According to the invention described in claim 4, since the radiator guard follows the rear member, heat from exhaust air from the radiator can hardly affect the rear member, and in addition, the cooling performance of the radiator The space can be used effectively after raising the space.

  Further, according to the invention described in claim 5, since the radiator is along the left and right pipes, the space can be effectively utilized while improving the cooling performance of the radiator.

  According to the sixth aspect of the present invention, since the exhaust air from the radiator is discharged downward from the cooling air discharge port, the effect of improving the cooling performance of the radiator becomes remarkable.

  According to the seventh aspect of the present invention, since the exhaust air from the radiator is discharged rearward and downward from the cooling air discharge port, the effect of improving the cooling performance of the radiator becomes remarkable.

  Moreover, according to invention of Claim 8, there exists the same effect as invention of Claims 1-7.

  According to the invention described in claim 9, since the fuel in the fuel tank can be forcibly sent to the carburetor using the fuel pump, the height of the fuel tank and the carburetor is set close to each other. In addition, fuel can be reliably supplied from the fuel tank to the carburetor.

  Furthermore, according to the invention described in claim 10, it is possible to provide a scooter type vehicle that exhibits the above-described effects.

  Embodiments of the present invention will be described below.

  1 to 49 show an embodiment of the present invention. In the embodiment of the present invention, the entire scooter type vehicle including the invention location will be described.

  In the scooter type vehicle of this embodiment, a swing unit type engine 2 is connected to a vehicle body frame 1 (hereinafter referred to as “frame 1”) so as to be swingable in the vertical direction, and the front of the frame 1 A front wheel 3 is disposed in the part, and a rear wheel 4 is disposed on the engine 2 side.

  The frame 1 as the skeleton is configured by connecting a plurality of pipes as shown in FIGS. 10 and 11 and the like, and a plurality of covers are mounted around the frame 1.

  Specifically, as shown in FIG. 6, first, with reference to a footrest board 6 as a “center cover” disposed at the center of the frame 1 in the vehicle front-rear direction, Leg shield 7, front panel 8 and front molding 9 as "covers" are sequentially attached, and a side cover 11 and "tandem foot step 12" as "other covers" are attached to the rear side of the footrest board 6. Further, a side molding 13 is attached to the side of the footrest board 6. And the lower cover 58 is arrange | positioned under these.

  As shown in FIG. 12, the footrest board 6 has a reference bolt hole 6a on the left side when viewed from the rear of the vehicle, and a long hole 6b that is long in the vehicle width direction on the opposite side of the reference bolt hole 6a. However, fool holes 6c and 6d are formed in front of the reference bolt hole 6a and the long hole 6b, respectively.

  Then, an unillustrated bolt projecting from the stay 1a shown in FIGS. 3 and 10 is inserted into the reference bolt hole 6a and screwed, and the reference bolt hole 6a and the screw have substantially the same diameter. Since it is set, the footrest board 6 is positioned in the left-right and front-rear directions. However, positioning in the rotational direction around the reference bolt hole 6a is not performed.

  Similarly, bolts (not shown) are inserted from the stays 1b, 1c, and 1d into the long holes 6b and the loose insertion holes 6c and 6d and screwed. Positioning in the rotational direction is achieved by screwing a bolt into the elongated hole 6b.

  In this way, the footrest board 6 is attached to the frame 1 at a predetermined position.

  Next, with the footrest board 6 as a reference, the leg shield 7 is fixed to the frame 1 by screwing the leg shield 7 with the front end edge of the footrest board 6. Although the attachment of the leg shield 7 in this case is not shown in the figure, the positional deviation is absorbed even if a slight positional deviation occurs by inserting a screw through the loose insertion hole.

  Then, the stay 15 is temporarily fastened to the bracket 1 e fixed to the frame 1, the front panel 8 is temporarily placed, and the front panel 8 and the headlight 16 are temporarily fastened to the stay 15. Thereafter, the headlight 16 is screwed to the front panel 8, and the front panel 8 is screwed to the leg shield 7 with reference to the leg shield 7 (see FIG. 13).

  Next, the stay 15, the headlight 16, and the front panel 8 are finally tightened, and then the stay 15 and the bracket 1e are finally tightened.

  On the other hand, the side cover 11 on the rear side of the footrest board 6 is also disposed by absorbing a positional deviation through a loose insertion hole (not shown) in the state of being aligned with the footrest board 6 as a reference.

  Since the other covers are sequentially assembled to the front side or the rear side based on the footrest board 6 as described above, there is less error at the front end portion or the rear end portion than when assembled based on the front end portion or the rear end portion. As a result, the assembly accuracy is improved.

  On the other hand, a handle 18 is rotatably supported on the head pipe 1 f formed at the front end of the frame 1, and the handle 18 is covered with a handle cover 19. The handle cover 19 is formed in a substantially V shape along the handle 18, and various harnesses 21 and a brake wire 22 for a rear wheel disc brake are routed in the handle cover 19 (see FIG. 14).

  The brake wire 22 is inserted through a rigid bent pipe 23 and a resin pipe 24. The bent pipe 23 is disposed in the vicinity of the brake handle 25, and the end of the resin pipe 24 is fitted and connected to the end of the bent pipe 23.

  When the brake wire 22 is pulled by the operation of the brake handle 25, the wire 22 is relatively moved in the pipes 23 and 24 so that the disc brake is operated.

  And by inserting the brake wire 22 into the rigid bent pipe 23 in this way, the brake wire 22 can be routed even in the handle cover 19 which is V-shaped and has a large bend. Therefore, the appearance quality can be ensured without exposing the brake wire 22 and the like outside the handle cover 19.

  Further, by forming the handle cover 19 in a V shape, the appearance quality can be improved while ensuring the visibility of the instrument 26 such as a speedometer by the driver as shown in FIG.

  On the other hand, as shown in FIGS. 15, 16, and 17, a meter visor 28 is erected on the front side of the instrument 26, and the meter visor 28 has a certain gap c on the front side. A screen 29 larger than the meter visor 28 is provided.

  The meter visor 28 includes a first meter visor 30 and a second meter visor 31, as shown in FIG. 17 and the like, and the instrument 26 is disposed in the first meter visor 30, and the first, The second meter visors 30 and 31 are assembled by being fastened with screws 32.

  And the recessed part 31a along a vertical direction is formed in the vehicle width direction center part of the outer surface of this 2nd meter visor 30. As shown in FIG.

  Further, as shown in FIG. 16, the screen 29 is attached by screwing the lower end portion 29 a to the second meter visor 31, and the horizontal section is curved concentrically with the second meter visor 31. .

  The meter visor 31 to which the instruments 26 are attached and the screen 29 are sub-assembled so as to be attached to and detached from the frame 1, the leg shield 7 and the like. In this way, it is possible to improve the detachability work of the instruments 26 and the like, and it is possible to easily replace the speedometer valve.

  Moreover, since the recess 31a is formed in the second meter visor 30 on the gap c side, the gap c with the screen 29 is widened in this portion, and a hand is inserted to clean the back side of the screen 29. The recess 31a is formed at the center in the vehicle width direction, that is, at the deepest part of the gap c. Therefore, if a hand is inserted in this part, it corresponds to both sides of the recess 31a. It is also possible to easily clean the back side of the screen 29 at the part to be performed.

  In addition, on the front side of the scooter type vehicle, a load lowering hook 35 for suspending a load is disposed on the upper side of the front trunk 36 (see FIGS. 18, 19 and 20).

  That is, the front trunk 36 is provided with an opening / closing lid 36b on a trunk body 36a having a luggage storage chamber. The opening / closing lid 36b is rotatably attached to a lower end portion 36c via a hinge. Thus, the trunk body 36a is opened and closed, and a seal member 36e is annularly disposed at the peripheral edge of the opening of the trunk main body 36a, and sealing is performed by contacting the peripheral edge of the open / close lid 36b. It is like that. In addition, a locking device 36d is disposed above the opening / closing lid 36b.

  The unloading hook 35 is disposed above the locking device 36d of the opening / closing lid 36b. The unloading hook 35 has an attachment portion 35a fixed to the vehicle body side, and a hook-shaped hook portion 35b extending rearward from the attachment portion 35a.

  The mounting portion 35 a is inserted into a mounting recess 7 a formed in the leg shield 7, and is fastened together with the leg shield 7 to a stay 1 g fixed to the frame 1 by bolts 37 and nuts 38.

  Since the load hooking position P of the hook portion 35b protrudes rearward from the general surface of the opening / closing lid 36b, the load of the baggage directly acts on the opening / closing lid 36b when the baggage is suspended on the hook portion 35b. Therefore, the seal member 36e between the opening / closing lid 36b and the trunk body 36a is hardly damaged.

  Further, since the unloading hook 35 is disposed in the vicinity of the upper side of the locking device 36d, the leg shield 7 around the portion where the locking device 36d is disposed has high rigidity, so that the support strength of the unloading hook 35 is ensured. I can do it. In addition, since the frame 1 is attached to the stay 1g of the frame 1, the support strength is further improved.

  Further, since the leg shield 7 has a planar chamfered portion 7b formed in the portion where the unloading hook 35 is disposed, the space for hooking the luggage string without causing the unloading hook 35 to protrude so far rearward. Can be secured.

  Further, in FIG. 18, on the right side of the unloading hook 35, a main switch 40 is attached to the head pipe 1f of the frame 1 via a bracket 1h. The upper end portion 40a of the main switch 40 is exposed from the opening 7c formed in the leg shield 7, and a key is inserted into the key hole of the main switch upper end portion 40a so that it can be locked and unlocked. Yes.

  Then, the peripheral edge 7d of the opening 7a on the upper surface of the leg shield 7 is recessed downward so that water does not easily enter the main switch 40.

  On the other hand, a notch portion 8a having a lower open side is formed on both lower sides of the front surface of the front panel 8, and a front flasher lamp 42 is disposed in the notch portion 8a.

  That is, the front flasher lamp 24 is attached to the front panel 8 at three locations a, b, and c in FIG. As shown in FIG. 22 represented by the position a, the attachment at each of the positions a, b, and c is such that the mounting boss 8b protrudes rearward from the peripheral edge of the notch 8a. A mounting piece 42b is projected from the lamp body 42a of the front flasher lamp 42. The mounting pieces 42b are fixed to the mounting boss portions 8b with screws 43 so that the front flasher lamps 42 are mounted so as to be fitted into the notches 8a.

  In this way, since the front flasher lamp 42 is located at the lowermost end portion of the front surface of the front panel 8, it is easy to insert a hand into the back side of the front flasher lamp 42 as shown by an arrow in FIG. The workability of exchanging 42c is good.

  Further, by attaching the front flasher lamp 42 to the notch portion 8a, the surface rigidity of the front flasher lamp 42 attachment portion can be ensured even if the lower side of the notch portion 8a is opened.

  Further, the lower side of the notch 8a is opened, and the front flasher lamp 42 is disposed here, so that the irradiation range downward can be expanded.

  As shown in FIGS. 5 and 6, the footrest board 6 has a tunnel portion 6e that protrudes upward at the center in the vehicle width direction, and footrest portions 6f that are formed on both sides of the tunnel portion 6e. Yes.

  As shown in FIG. 6, the footrest portion 6f is formed to rise rearward, a maintenance opening 6g is formed at the rear end portion, and a tandem foot step 12 is disposed in the maintenance opening 6g. The tandem foot step 12 is partially formed with a recess 12a and is attached to the frame 1 with screws 12b at two locations in FIG.

  By removing the tandem foot step 12, maintenance (plug replacement or the like) on the engine 2 side can be performed from the maintenance opening 6g, and the tandem foot step 12 can also be used as a maintenance.

  In addition, the tandem foot step 12 is formed with the recess 12a, and if the heel of the tandem rider's foot is positioned in the recess 12a as shown by a two-dot chain line in FIG. You can place your feet in an easy way without having to stretch your feet.

  In addition, the side cover 11 on the upper side of the recess 12a is formed with a bulging portion 11a that swells sideways.By forming the recess 12a and lowering the position of the bottom surface of the recess 12a, Since the footrest surface of the recess 12a can be positioned under the bulging portion 11a while avoiding the bulging portion 11a, it is possible to secure a space for a tandem passenger to board.

  Further, as shown in FIG. 23, a tail lamp 47 is disposed inside the rear surface portion 11b of the side cover 11, and a pair of upper and lower lamp openings 11c are disposed on the rear surface portion 11b of the side cover, and these lamp openings 11c. The tail lamp 47 is facing. The tail lamp 47 is provided with a bulb 47b on the back side of a single lens 47a, and the single lens 47a is exposed to the outside across the lamp openings 11c.

  Thus, by providing a pair of upper and lower lamp openings 11c and exposing different portions of one tail lamp 47 from here, it looks as if two tail lamps 47 are arranged on the appearance, and the appearance quality is improved. It will be.

  On the other hand, as shown in FIG. 1 and the like, a bracket 49 is attached to the engine 2 at the front lower portion, and is attached to the frame 1 via a shaft 50 so as to be movable up and down.

  Further, a lower end portion 51 a of the rear cushion 51 is rotatably attached to the rear end portion side of the engine 2, and an upper end portion 51 b of the rear cushion 51 is rotatably attached to a bracket 54 fixed to the frame 1. It is supported.

  As shown in FIG. 24, the engine 2 includes a piston 2b disposed in a cylinder block 2a, and the piston 2b is connected to a crankshaft 2d via a connecting rod 2c. The crankshaft 2d is connected to a water pump 2f via a chain 2e, and a V-belt transmission 2g is disposed at the end of the crankshaft 2d.

  In the water pump 2f, when the impeller 2h is rotated through the transmission medium of the chain 2e, the cooling water flows into the engine 2 through a supply hose 57a of a radiator 56 described later in detail. The cooling water circulated in the engine 2 returns to the radiator 56 via the return hose 57b.

  In the V-belt transmission 2g, a pulley 2i on the driving side is disposed on the crankshaft 2d, and a V-belt 2j is wound around a V-shaped groove of the pulley 2i. The position of the V belt 2j changes as the width of the belt changes. The V-belt 2j is wound around a pulley on the driven side (not shown) so that power is transmitted to the rear wheel 4. The width of the groove of the driven pulley is also changed.

  An outside air introduction duct 52 that cools by introducing outside air into the transmission chamber 2k in which the V-belt transmission 2g is disposed is connected via the element 2m.

  The outside air introduction duct 52 extends forward from the engine 2 and includes a rubber flexible portion 52a and a synthetic resin rigid portion 52b. The flexible portion 52a has a substantially halved front half and a rear end portion connected to the belt chamber (engine 2), while a rear end portion of the rigid portion 52b is connected to the front end portion. Yes. The rigid body portion 52b is fixed to the frame 1 in the vicinity of the rear end portion by the belt 53, is extended upward at the front side from the fixing portion, and the upper end portion is inserted into the footrest board tunnel portion 6e to be tunnel portion. 6e, the intake port 52c of the outside air introduction duct 52 is open and faces upward.

  As described above, the engine 2 is of a swing unit type and swings in the vertical direction with respect to the frame 1. Therefore, the flexible portion 52 a of the outside air introduction duct 52 absorbs the relative movement between the engine 2 and the frame 1. I am doing so.

  Further, the intake port 52c of the outside air introduction duct 52 is set at a high position in the tunnel portion 6e, and the intake port 52c of the outside air introduction duct 52 is opened in the tunnel portion 6e. The mud splashed by 4 and the hot air of the engine 2 are not sucked from the intake port 52c, and clean and chilled outside air can be supplied into the transmission chamber 2k to ensure cooling performance. . In the transmission chamber 2k, the outside air is blown rearward by the fins 2n formed on the pulley 2i.

  By the way, although the frame 1 is used as a duct, there is a possibility that the flow rate of outside air per unit time cannot be increased so much because the diameter is small, and there is a possibility that the cooling performance cannot be secured. This leads to an increase in weight.

  On the other hand, by providing the outside air introduction duct 52 separately from the frame 1, the diameter can be increased and the cooling performance can be ensured without increasing the weight.

  Further, as shown in FIGS. 25, 26 and 27, the rear cushions 51 are each provided with an adjusting member 51c for performing an initial adjustment, and between these, the muffler 55 and the rear wheel 4 are arranged. An operation pipe 51d that protrudes obliquely downward is welded to the adjustment member 51c of one rear cushion 51 disposed in the protrusion and protrudes obliquely downward. The operation pipe 51d is operated with an in-vehicle tool (not shown). Then, the initial adjustment can be performed by rotating the adjustment member 51c.

  By thus welding the operation pipe 51d and projecting downward from the muffler 55, the muffler 55 becomes an obstacle even when the rear cushion 51 is disposed between the muffler 55 and the rear wheel 4. The initial adjustment can be easily performed.

  In FIG. 28, reference numeral 56 denotes a radiator, which is connected to the engine 2 disposed horizontally and horizontally as described above via the supply hose 57a and the return hose 57b.

  The radiator 56 is disposed in the tunnel portion 7e of the leg shield 7 and between the left and right pipes 1i extending obliquely downward from the head pipe 1f of the frame 1 (see FIG. 30 and the like).

  The radiator 56 has upper and lower tank portions 56a and 56b, and both the tank portions 56a and 56b are connected by fin portions 56c. When the running wind passes between the fin portions 56c, the cooling water flowing in the fin portions 56c is heat-exchanged and cooled. A supply hose 57a is connected to the lower tank portion 56a on the right side of the vehicle body as viewed from the rear of the vehicle and extended to the engine 2. A return hose 57b is connected to the engine 2 and extended to the front. The upper tank portion 56b is connected to the right side of the vehicle body as viewed from the rear of the vehicle. The return hose 57b is inserted into the tunnel portions 7e and 6e.

  By arranging the tank portions 56a and 56b above and below in this way, the left and right widths of the radiator 56 can be narrowed, so that the left and right vehicle body widths can be shortened while securing a footrest space.

  Further, by arranging the return hose 57b in the tunnel portions 7e and 6e, the return hose 57b can be protected by the tunnel portions 7e and 6e, without being troubled by the return hose 57b.

  As shown in FIG. 31, the radiator 56 is disposed on a lower cover 58 that covers the lower part of the vehicle body in a slightly tilted state, and a radiator guard 59 is disposed behind the radiator 56. .

  The lower cover 58 has a front end raised upward to form a louver portion 58 b on the front side of the radiator 56, and guides the traveling wind from the louver portion 58 b to the radiator 56.

  The lower cover 58 is formed with a cooling air discharge port 58a at the rear position of the radiator 56, and the rear end portion 58c of the lower cover 58 is directed rearward as shown in FIG. It is extended to the vicinity.

  The lower cover 58 corresponds to a conventional inner panel and under cover integrally formed.

  Further, the radiator guard 59 has a U-shaped horizontal cross section, and has a pair of side walls 59c located on the side of the radiator 56 along the vehicle front-rear direction, and a rear wall 59d connecting the both side walls 59c. is doing.

  The radiator guard 59 has a lower end portion 59 a inserted into the cooling air outlet 58 a of the lower cover 58, and an upper end portion 59 b that covers the upper side of the radiator 56.

  As a result, the cooling air introduced from the louver part 58b passes through the radiator 56 and is subjected to heat exchange. Then, the warm air is guided to the radiator guard 59 and is lowered from the cooling air discharge port 58a of the lower cover 58. Will be discharged.

  Therefore, by forming the louver portion 58 b in front of the radiator 56, sufficient air guidance to the radiator 56 is ensured, and the radiator guard 59 is disposed at the rear of the radiator 56, so that sufficient exhaust from the radiator 56 is achieved. Wind can be secured. As a result, the cooling performance of the radiator 56 can be improved.

  In addition, as shown in FIG. 31, the radiator guard 59 follows the frame 1 that is a member behind the radiator guard 59, so that the space can be effectively used. Therefore, the effect of improving the cooling performance of the radiator 56 becomes remarkable.

  Note that a canister 60 is attached to the radiator guard 59 as shown in FIG.

  On the other hand, reference numeral 64 in FIG. 9 denotes a seat for two passengers. A fuel tank 65 is disposed at the lower front side of the seat 64, and a storage box 66 is disposed at the rear side of the fuel tank 65. .

  A battery box 68 is disposed between the fuel tank 65 and the storage box 65 as shown in FIGS. 5, 6, 32 and 33. The battery box 68 is integrally formed with the side cover 11 as an “exterior cover”, and the battery 69 can be accommodated therein, and can be opened and closed with a lid 70.

  Thus, by integrally forming the battery box 68 on the side cover 11, the number of parts is reduced and the space is effectively utilized.

  In particular, when the battery box 68 is enlarged, it is difficult to arrange the battery box 68 below the footrest board 6, and when it is arranged on the vehicle front side, a long harness must be routed to the engine 2. I must.

  As a result, the space between the fuel tank 65 and the storage box 66 is optimal as a place near the engine 2 where a space can be secured.

  On the other hand, as shown in FIGS. 34 and 35, the fuel tank 65 is supported by the frame 1, and a fuel supply port 65a is disposed at the upper front end. A fuel pump 72 is attached to the side surface of the fuel tank 65 so that the fuel in the fuel tank 65 is supplied to the carburetor 73.

  Specifically, a hose 75 extended from the strainer 74 is connected to the bottom surface portion 65 c of the fuel tank 65, and the hose 75 extended from the strainer 74 is connected to the fuel pump 72. The fuel pump 72 is connected to the carburetor 73 via a hose 76 and is connected to an intake manifold 78 via a negative pressure hose 77.

  According to this, after the fuel is sucked into the fuel pump 72 from the fuel tank 65 through the strainer 74 using the negative pressure from the intake manifold 78, the fuel is discharged from the pump 72 through the hose 76. Thus, fuel is supplied to the carburetor 73.

  In such a case, since the heights of the fuel tank 65 and the carburetor 73 are set close to each other, it is difficult to satisfactorily supply the fuel tank 65 to the carburetor 73 using the height difference. Therefore, the fuel in the fuel tank 65 is forcibly sent to the carburetor 73 side using the fuel pump 72.

  And in this embodiment using the fuel pump 72, the height of the fuel pump 72 is made higher than the height of the carburetor 73, and the negative pressure hose 77 is shortened to stabilize the performance. Can be achieved.

  Further, since the fuel pump 72 is attached to the side surface portion 65b of the fuel tank 65, when the fuel tank 65 is attached / detached, the fuel pump 72 can be attached / detached together with the fuel tank 65, thereby enabling sub-assembly.

  The storage box 66 is sized to store a helmet or the like, is supported by the frame 1, and the upper opening 66 a is opened and closed by the seat 64.

  As shown in FIGS. 1 and 9, a standing handle 81 is fixedly disposed on a side of the storage box 66 so as to protrude upward from a part of the frame 1. 36, the cross-sectional structure of the seat 64 and the side cover 11 is as shown in FIG.

  That is, the side wall 66b of the storage box 66 is formed with a seal surface portion 66c at the upper end, and a weir portion 66d is formed on the inner side of the seal surface portion 66c so as to protrude above the general surface of the seal surface portion 66c. . A seal member 82 attached to the seat 64 is brought into contact with the seal surface portion 66c to be sealed.

  Further, on the outside of the seal surface portion 66c of the storage box 66, a horizontal plane portion 66e is formed at a position lowered by one step, and an inclined piece 66f is formed in which the vehicle outer side end portion of the horizontal plane portion 66e extends obliquely upward. . A recess 66g is formed by the “wall portion” such as the horizontal surface portion 66e and the inclined piece 66f, and the side edge portion 64a of the sheet 64 is inserted into the recess 66g.

  Further, an attachment piece 11i extending from the side cover 11 is screwed to a fixing portion 66h formed on the storage box side wall 66b. On the side cover 11, a portion corresponding to the standing handle 81 is located upward. A covering portion 11d is formed so as to cover the handle 81, and an upper end portion 11e of the covering portion 11d is disposed so as to overlap with an upper end flange portion 66i of the storage box inclined piece 66f.

  The occupant can insert his hand through the opening 11f formed in the side cover 11 and raise the vehicle by holding the standing handle 81. The side cover 11 is divided into left and right parts with the center of the vehicle body as the center.

  If the seat side edge portion 64a is inserted into the recess 66g and the upper end portion 11e of the side cover 11 is overlapped with the upper end flange portion 66i of the storage box inclined piece 66f in this way, the seat side edge portion 64a and the side Continuity with the cover 11 is obtained, and appearance quality is ensured.

  Further, by forming a weir portion 66d that protrudes upward inside the seal surface portion 66c, the seal member 82 can be brought into contact with the flat seal surface portion 66c and sealed to make a seal into the storage box 66. Infiltration of water can be prevented more reliably.

  Furthermore, the water that has flowed down into the recess 66g from the seat 64 or the like flows forward toward the front of the vehicle and is drained because the recess 66g is forwardly lowered, and prevents water from entering the storage box 66. I can do it.

  Furthermore, as shown in FIG. 2, an AIS cleaner 87 is attached to the side wall 66b of the storage box 66, and an AIS 88 to which the AIS cleaner 87 is connected is attached to a rear arm 90 that supports the rear wheel 4. It has been.

  The AIS 88 is for introducing secondary air into the exhaust gas from the outside. The AIS 88 uses the negative pressure of the engine 2 to suck air from the outside, and supplies this air to the vicinity of the outlet of the exhaust manifold 89. Oxidation is promoted to make the catalyst more active.

  Further, the AIS cleaner 87 is provided in the middle of the intake air to prevent inhalation of dust, water and the like. A pipe 87a is connected to the AIS cleaner 87, and a tip end portion of the pipe 87a is inserted into the frame 1. The air sucked from the pipe 87a is cleaned by the AIS cleaner 87, and then supplied to the exhaust manifold 89 through the pipe 87a. I am doing so.

  The AIS cleaner 87 is attached to a bracket 91 having one end fixed to the frame 1, and the other end is attached to a side surface of the storage box 66.

  Further, as shown in FIG. 9, a sheet metal 84 is disposed on the storage box side wall 66b, and a rear end portion 85a of a seat damper 85 is attached to the sheet metal 84 with bolts, nuts, and the like. A portion 85 b is attached to the sheet 64. The seat damper 85 is routed through the side of the battery box 68, and as shown in FIG. 32, a damper opening 11h is formed in a portion covering the fuel tank 65 of the side cover 11, and the seat 64 is opened. When this occurs, the opening 11h becomes a relief and the seat damper 85 is rotated upward.

  When the seat 64 is opened, the pilot screw 73a of the carburetor 73 is exposed through the damper opening 11h as shown in FIG. 32 and the like, so that the pilot screw 73a can be easily adjusted. .

  As shown in FIG. 9, the seat 64 is configured by laminating a sheet core member 64 b, a cushion member 64 c and a skin 64 d, and a front end portion 64 e is rotatably attached to the frame 1 side via a hinge 93. Yes.

  The seat core member 64b is provided with a seat-side load receiving portion 64f having a horizontal section that is H-shaped downward from a substantially central portion in the vehicle front-rear direction, and a support seat 94 in the middle of the standing handle 81. Is fixed inward. The support seat 94 is secured to the bottom surface portion 11g of the recessed portion of the side cover 11 with a screw 95, and the seat side load receiving portion 64f is in contact with the bottom surface portion 11g.

  As shown in FIGS. 2 and 9, a seat lock device 97 for locking the rear end portion of the seat 64 is disposed on the frame 1 side at a position corresponding to the rear end portion of the seat 64. A lock device 97 is connected to the main switch 40 via a seat lock wire 98.

  When the main switch 40 is operated to the unlock position by operating the key, the seat lock wire 98 is pulled and remotely operated, whereby the seat lock device 97 is unlocked.

  The seat lock wire 98 is inserted into the tunnel portions 6e and 7e from the front end portion 98a toward the rear, and then inserted into the protector 99 having a U-shaped cross section. Further, from the rear end portion 99a of the protector 99, It is inserted into the frame 1, pulled out from the rear end of the frame 1 and connected to the seat lock device 97.

  Thus, by inserting and protecting the seat lock wire 98 into the protector 99 having a U-shaped cross section or the pipe-shaped frame 1, the seat lock wire 98 is pulled by an unauthorized unlocking input from the outside. Can be prevented, and the anti-theft property can be secured.

  Further, as shown in FIGS. 9, 37, 38 and the like, a tandem handle 101 is disposed behind the seat 64, and a carrier 102 and a backrest 103 are attached to the tandem handle 101 or the like. .

  As shown in FIG. 37, the tandem handle 101 has a front leg portion 101a fixed to the frame 1 by a bolt 101b and a rear mounting portion 101c attached to the frame 1 by a bolt 101d.

  On the other hand, in the carrier 102, a frame attaching portion 102a at the lower end is attached to the frame 1 by a bolt 102c as shown in FIG. 38, and this bolt 102c is covered by the rear attaching portion 101c of the tandem handle 101. ing. Further, the carrier 102 has a handle attachment portion 102b at the upper end portion attached to the tandem handle 101 with a bolt 102d as shown in FIG.

  Further, as shown in FIG. 9, the backrest 103 is fixed on the rear part of the tandem handle 101 with a bolt 103a.

  Furthermore, as shown in FIGS. 39 and 40, a helmet hanger 105 for suspending a helmet is disposed on the back surface of the seat 64 on the front end side.

  The helmet hanger 105 is of a wire type, one end 105a is attached to the back surface of the seat 64, the other end is provided with a ring portion 105b, and the ring portion 105b is engaged with and disengaged from a hook rod 106 provided on the back surface of the seat 64. It has come to be. Further, a folding member 109 is disposed on the back surface of the sheet 64, and the helmet hanger 105 is hung on the folding member 109 and folded.

  On the other hand, on the fuel tank 65 side, a protrusion 107 protrudes upward at a position corresponding to the hook rod 106.

  The helmet hanger 105 is used by inserting the hanger 105 into the helmet ring 108 with the seat 64 open, and then hooking the ring portion 105b of the hanger 105 to the hook rod 106 on the back surface of the seat 64. Then, by closing the seat 64, the ring portion 105b is prevented from coming off from the hook rod 106 in a state where the hook rod 106 is inserted into the protrusion 107 on the fuel tank 65 side.

  By the way, as shown in FIG. 20, the front fender 110 covering the upper side of the front wheel 3 has a front part 110a on the front side protruding from the under bracket 111 and a rear rear part 110b on the rear side from the lower side of the under bracket 111. It is formed to be lowered.

  In this way, even if the front fender 110 moves up and down integrally with the front wheel 3, a gap H is secured between the rear portion 110b of the front fender 110 and the under bracket 111. 110 and the under bracket 111 do not interfere with each other, and at the same time, the front fender front portion 110a that is higher than the front bracket 110 prevents the under bracket 111 from being seen from the front. It will be.

  On the other hand, as shown in FIGS. 1 to 3 and 41 to 44, a rear fender 113 provided on the rear wheel 4 side includes a rear fender main body 113a covering the upper side of the rear wheel 4, and a front end of the rear fender main body 113a. And a cover portion 113b extending from the right corner portion of the portion. The AIS cleaner 87 is covered by the cover portion 113b.

  As shown in FIG. 43, a total of two drain holes 113c are formed at the boundary between the cover portion 113b and the rear fender body portion 113a.

  By forming the drain hole 113c in this manner, water on the rear fender 113 can be drained from the drain hole 113c, and waterproofing to the air cleaner 115 is performed.

  That is, the water on the rear fender main body 113a caused by water wound up by the rear wheel 4 is blocked by the air cleaner 115 itself on the left side of the vehicle body center line, and the intake port disposed on the front side of the air cleaner 115 No intrusion from 115a. In addition, the water on the rear fender main body 113a caused by water wound up by the rear wheel 4 may flow forward from the drainage hole 113c on the right side of the vehicle body center line. In addition, the intrusion of water from the air inlet 115a disposed on the front side of the air cleaner 115 is prevented.

  Further, as shown in FIGS. 8 and 45, the air inlet 115a of the air cleaner 115 faces obliquely outward, and a box portion 116 is disposed around the air inlet 115a, and an opening 116a of the box portion 116 is provided. And a flange portion 116b that prevents water from entering the opening 116a toward the outside. A cutout portion 116c is formed on the upper side of the flange portion 116b, and a sponge 119 is disposed here.

  Further, a first waterproof flap 117 extending in the vehicle front-rear direction is attached to the frame 1 by the belt 117a and hangs down above the intake port 115a, and a first along the vehicle width direction is provided at the front side of the intake port 115a. Two waterproof flaps 118 are attached and arranged by a belt 118b inserted into the hole 118a. Both waterproof flaps 117 and 118 are made of rubber and integrally formed.

  The first waterproof flap 117 prevents water from above from entering the intake port 115a, and the second waterproof flap 118 prevents water from the front of the vehicle from entering the intake port 115a.

  Further, the water flowing on the box portion 116 is absorbed by the sponge 119, and can be prevented from entering the air inlet 115a of the air cleaner 115 from the opening 116a. If the sponge 119 is provided in this manner, even if water collides therewith, it is possible to prevent the water from jumping up. Therefore, in comparison with the case where the flange 116b is simply formed, the entry of water can be effectively prevented. Moreover, since the rib 13g is formed in the side molding 13 near the back surface of the second waterproof flap 118, it is possible to prevent water from flowing from the front side to the rear side of the second waterproof flap 118.

  On the other hand, reference numeral 120 in FIG. 46 denotes a recovery tank, which is disposed below the footrest board 6. Specifically, in the recovery tank 120, a tank body 120a is provided so as to be freely opened and closed by a cap 120b, and the cap 120b faces upward from a gourd-shaped tank opening 6h formed in the footrest board 6. The tank opening 6h is opened and closed by a cover 121.

  The cover 121 is provided with a pair of hook pieces 121a. On the side opposite to the hook pieces 121a, an elastically deformable locking piece 121b is formed. The pair of hook pieces 121a are locked to the back side of the peripheral edge of the tank opening 6h, and the locking pieces 121b are engaged with and disengaged from the peripheral edge.

  Further, the cap 120b is formed with a tongue piece 120c, and water can be absorbed by holding the tongue piece 120c and removing the cap 120b.

  When the cooling water is absorbed into the recovery tank 120, after removing the mat 123, the locking piece 121b of the cover 121 is operated to release the locking state, and the cap 120b is removed with the tongue piece 120c. I have to. Thus, when the cap 120b is removed, a finger can be inserted into the gourd-shaped head portion of the tank opening 6h to grip the tongue piece 120c, and the head portion can be used as a finger insertion space.

  The mating portion between the side molding 13 and the footrest board 6 is as shown in FIGS. 5, 47, 48 and 49. That is, a mounting piece 13a extending substantially horizontally is formed on the upper side of the side molding 13, and a bolt hole 13b is formed in the mounting piece 13a, and a protruding piece 13c is formed at the tip of the mounting piece 13a. Is formed. A fixing portion 6i having a U-shaped cross section of the footrest board 6 is fixed to the mounting piece 13a with a screw 13d.

  In addition, a mounting piece 13e on which the edge of the mat 123 is placed is formed at the upper end of the side molding 13, and a stepped portion 13f is formed on the placing piece 13e. The edge portion of the mat 123 is fitted to 13f. As a result, the mat 123 is positioned, and the edge of the mat 123 can be prevented from floating.

  Further, since the mounting piece 13a of the side molding 13 is further formed with a protruding piece 13c extending forward, the mounting piece 13a is formed in a U-shaped cross section of the footrest board 6 when the side molding 13 is temporarily fixed. When the side molding 13 is about to fall outside in the state of being inserted inside the fixed portion 6i, the projection 13c comes into contact with the back surface of the footrest board 6, and thus the fall can be prevented.

1 is a side view showing an overall outline of a scooter type vehicle according to an embodiment of the present invention. It is a side view showing the whole scooter type vehicle outline concerning the embodiment. It is a top view which shows the whole schematic of the scooter type vehicle which concerns on the embodiment. It is a top view which shows the whole schematic of the scooter type vehicle which concerns on the embodiment. It is a top view of the scooter type vehicle of the state which removed the seat concerning the embodiment. It is a side view of the state which combined the covers which concern on the same embodiment. It is a front view of the state which combined the covers concerning the embodiment. It is a side view of the state which removed the covers concerning the embodiment. It is the side view which fractured | ruptured a part which shows the sheet | seat etc. which concern on the same embodiment. It is a top view which shows the flame | frame which concerns on the same embodiment. It is a side view showing the frame concerning the embodiment. It is a top view which shows a part of footrest board which concerns on the embodiment. It is a disassembled perspective view of the front part of the vehicle which concerns on the embodiment. It is the figure which looked at the inside of the handlebar cover concerning the embodiment from the front. It is the figure which looked at the meter which concerns on the same embodiment from the driver | operator. It is the figure which looked at the screen, meter visor, etc. concerning the embodiment from the side. It is a disassembled perspective view which shows the 1st, 2nd meter visor which concerns on the embodiment. It is a figure which shows the front trunk, unloading hook, etc. which concern on the embodiment. It is the figure which fractured | ruptured a part of opening-and-closing lid of the front trunk concerning the embodiment. It is a side view which shows the front fender etc. which concern on the same embodiment. It is sectional drawing which follows the AA line of FIG. 7 which concerns on the same embodiment. It is sectional drawing which follows the BB line of FIG. 6 which concerns on the same embodiment. It is the figure which looked at the scooter type vehicle concerning the embodiment from the back. It is a top view which shows a part of engine which concerns on the embodiment. It is a side view which shows the rear cushion and muffler which concern on the embodiment. It is a top view which shows the rear cushion and muffler which concern on the embodiment. It is a half cross-sectional view of the rear cushion according to the embodiment. It is a side view which shows the routing state of the radiator etc. which concern on the embodiment. It is a top view which shows the routing state of the radiator etc. which concern on the same embodiment. It is the front view which looked at FIG. 28 which concerns on the same embodiment from the arrow C direction. It is a side view of the front part of the scooter type vehicle which concerns on the embodiment. It is a top view of the battery box part which concerns on the same embodiment. FIG. 33 is a cross-sectional view taken along the line DD of FIG. 32 according to the same embodiment. It is a top view around the fuel tank arrangement | positioning part which concerns on the same embodiment. It is a side view around the fuel tank arrangement | positioning part which concerns on the same embodiment. It is sectional drawing which follows the EE line | wire of FIG. 9 which concerns on the embodiment. It is sectional drawing which follows the FF line | wire of FIG. 9 which concerns on the same embodiment. It is sectional drawing which follows the GG line | wire of FIG. 9 which concerns on the embodiment. It is a side view which shows the outline of the helmet hanger which concerns on the embodiment. It is a top view which shows the outline of the helmet hanger which concerns on the embodiment. It is a side view of the rear fender concerning the embodiment. It is a top view of the rear fender concerning the embodiment. It is sectional drawing which follows the HH line of FIG. 42 concerning the embodiment. It is the figure which looked at FIG. 42 which concerns on the same embodiment from the arrow I direction. It is the figure which looked at the 2nd waterproofing flap etc. concerning the embodiment from the front. It is sectional drawing which follows the JJ line | wire of FIG. 4 which concerns on the embodiment. It is sectional drawing which follows the KK line | wire of FIG. 5 which concerns on the embodiment. It is a top view of the side molding which concerns on the same embodiment. It is sectional drawing which follows the LL line | wire of FIG. 48 which concerns on the same embodiment.

Explanation of symbols

1 …… Frame (body frame)
1f …… Head pipe 1i …… Left and right pipe 2 …… Engine 3 …… Front wheel 56 …… Radiator 56a, 56b …… Tank part 56c …… Fin part 58 …… Lower cover (cover)
58a …… Cooling air outlet 58b …… Louvre part 59 …… Radiator guard 64 …… Seat 65 …… Fuel tank 72 …… Fuel pump 73 …… Carburetor

Claims (10)

In a radiator arrangement structure of a scooter type vehicle in which a water-cooled engine is arranged on a vehicle body frame, and a radiator is connected to the engine,
The vehicle body frame includes a head pipe and left and right pipes extending obliquely downward from the head pipe,
A louver portion is formed in a cover disposed behind the front wheel and in front of the left and right pipes,
The radiator is disposed behind the louver part,
A radiator arrangement structure for a scooter type vehicle, wherein a radiator guard is arranged behind the radiator.   2. The radiator arrangement structure of a scooter type vehicle according to claim 1, wherein the louver portion is formed so as to guide a wind backward and downward, and the radiator guard is formed to extend backward and downward.   The radiator disposition structure for a scooter type vehicle according to claim 2, wherein the distance between the louver portion and the radiator guard is longer in the lower side than in the side view.   The radiator arrangement structure of a scooter type vehicle according to any one of claims 1 to 3, wherein the radiator guard is arranged along a member arranged behind the radiator guard in a side view.   The radiator arrangement structure of a scooter type vehicle according to any one of claims 1 to 4, wherein the radiator is arranged along the left and right pipes.   6. The radiator disposition structure for a scooter type vehicle according to claim 1, wherein a cooling air discharge port is formed in a cover disposed below the radiator.   The radiator arrangement structure for a scooter type vehicle according to claim 6, wherein the cooling air discharge port is arranged behind the radiator.   The radiator arrangement structure of a scooter type vehicle according to any one of claims 1 to 7, wherein the radiator includes a tank portion and a fin portion, and the fin portion is fixed to the vehicle body frame. A fuel tank is arranged at the bottom of the seat,
9. A radiator arrangement for a scooter-type vehicle according to claim 1, further comprising a fuel pump for supplying fuel in the fuel tank to a carburetor.   A scooter type vehicle comprising the radiator arrangement structure of a scooter type vehicle according to any one of claims 1 to 9.

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