 vehicle to be driven on a saddle
专利摘要:
VEHICLE TO BE DRIVED IN A SEAT. The present invention relates to a vehicle to be driven on a saddle, which includes: a front fork (7) that rotatively supports a front wheel (6); a steering axle (9) that is coupled to the front fork (7) and supported in a manipulable manner by a frame of the vehicle body (11); a steering handlebar support (40) which includes a lower support (41L) and an upper support (42L) and is provided above the steering shaft (9), where the upper support comes into contact with the lower support (41L ) from top to bottom and is attached to the bottom support (41L); a portable terminal support (55) which is attached to the upper support (42L) or the lower support (41L) and can contain a personal digital assistant (P); and a steering system (S) in which a barrel of the steering handle (10) sandwiched between the lower support (41L) and the upper support (42L) is attached to the support of the steering handle (40). 公开号:BR112014007638B1 申请号:R112014007638-3 申请日:2013-02-26 公开日:2020-11-17 发明作者:Tsuguo Watanabe;Kiyotaka Fujihara;Yasumasa MATSUI;Takuhei Kusano;Daisuke KURIKI;Kota Takizawa;Daisuke Sekiya 申请人:Honda Motor Co., Ltd.; IPC主号:
专利说明:
TECHNICAL FIELD [0001] The present invention relates to a vehicle to be driven on a saddle. [0002] The present patent application claims the priority of Japanese Patent Application no. 2012-047114 filed on March 2, 2012, the content of which is incorporated herein as a reference in its entirety. BACKGROUND TECHNIQUE [0003] A bicycle that includes a portable telephone holder that is attached to a right part of a steering handle tube is shown in Patent Document 1. PREVIOUS TECHNICAL DOCUMENTS PATENT DOCUMENTS [0004] Patent Document 1 Unexamined Japanese Patent Application, First Publication no. 2005-104258 SUMMARY OF THE INVENTION PROBLEMS TO BE SOLVED BY THE INVENTION [0005] However, in the configuration of the aforementioned Patent Document 1, the aforementioned support is joined so that it is moved (moved) to the right side of the steering axis line of a steering axis; therefore, since the holder oscillates significantly due to the rotation of the steering handle tube, the stability of the handset retention is susceptible to improvement in many ways. [0006] The invention was elaborated in view of the situation described above, and aims to provide a vehicle to be driven on a saddle that can contain a personal digital assistant such as a portable telephone in a stable state. MEANS TO SOLVE PROBLEMS [0007] A vehicle to be driven in the saddle of an aspect of the invention includes: a front fork that rotatively supports a front wheel; a steering axle that is coupled to the front fork and supported in a manipulable manner by a frame of the vehicle body; a steering handlebar support that includes a lower support and an upper support and is provided above the steering axle, where the upper support is in contact with the lower support from top to bottom and is attached to the lower support; a portable terminal support that is attached to the upper or lower support and may contain a personal digital aid; and a steering system in which a tube of the steering handlebar sandwiched between the lower support and the upper support is attached to the support of the steering handlebar. [0008] In the vehicle to be driven in the saddle of an aspect of the invention, it is preferable that the portable end support is attached to the lower support and the upper support, and that the upper support and the portable end support are fastened together to the lower support. . [0009] In the vehicle to be driven in the saddle of an aspect of the invention, it is preferable that the portable terminal support contains the personal digital assistant so that the personal digital assistant is located in an extension line of a line of the steering axis of the steering axis. [0010] It is preferable that the vehicle to be driven in the saddle of an aspect of the invention also includes an instrument panel arranged in front of the steering handle tube, in which the personal digital assistant is attached by the portable terminal support; in a case where a driver sitting on a seat looks at the instrument panel along a line of sight where the driver looks at an upper end of the personal digital assistant, the portable terminal bracket holds the personal digital assistant so that an edge substantially lower of the instrument panel is located in line of sight. [0011] In the vehicle to be driven in the saddle of an aspect of the invention, it is preferable that, in a case where the personal digital assistant is contained by the portable terminal support, where an angle between a line of sight when the driver looks at one end top of the instrument panel and a line of sight when the driver looks at the top end of the personal digital assistant is represented as a first viewing angle (01); and an angle between the line of sight when the driver looks at the upper end of the personal digital assistant and a line of sight when the driver looks at a lower end of the personal digital assistant is represented as a second angle of view (02), the relationship between the first viewing angle (01) plus the second viewing angle (02) <90 degrees is established; where an angle between a straight line extending forwards and upwards in a direction parallel to a surface of an instrument panel display unit and the line of sight when the driver looks at an upper end of the instrument panel it is represented as a first angle of the eye point; and an angle between a straight line extending forwards and upwards in a direction parallel to a surface of the personal digital assistant and the line of sight when the driver looks at the upper end of the personal digital assistant is represented as a second angle of the eye point (θβ), the 90 degree relationship <the first eye point angle (a) <180 degrees and the 90 degree relationship <the second eye point angle (θβ) <180 degrees is established. [0012] In the vehicle to be driven in the saddle of an aspect of the invention, it is preferable that, where an angle between a horizontal line of sight when the driver looks forward and upwards in a horizontal direction parallel to a surface at earth and a straight line extending forwards and upwards in a direction parallel to a surface of an instrument panel display unit is represented as a panel tilt angle (θα '); an angle between the horizontal line of sight when the driver looks forward and upwards along the horizontal direction parallel to the ground surface and a straight line extending forward and upwards in a direction parallel to an auxiliary surface Personal digital is represented as a terminal tilt angle (θβ1), the panel tilt angle ratio (θα1)> the terminal tilt angle (θβ1) is established. [0013] In the vehicle to be driven in the saddle of an aspect of the invention, it is preferable that the portable end support is placed above the upper support and configured to include: a base that is attached to the lower support; and a locking part that protrudes from the base and holds the personal digital assistant, and that the upper support is covered with the base. [0014] In the vehicle to be driven in the saddle of an aspect of the invention, it is preferable that the base be formed in a shape inclined downwards and backwards. [0015] In the vehicle to be driven in the saddle of an aspect of the invention, it is preferable that the portable end support includes a part of the axle parallel to a direction of the extension of the steering handle tube which is sandwiched by the support of the steering handle and it can allow the locking part to rotate around the axle part, and the axle part to be placed behind the steering handle tube. Effects of the Invention [0016] According to the vehicle to be driven in the saddle of an aspect of the invention, the portable terminal support is provided in the support of the steering handlebar which is located above the steering axle and in the line of the steering axle. [0017] Consequently, since the oscillation of the portable terminal support is reduced due to the rotation of the steering handlebar tube compared to the case of the position that is offset from the steering axle line (offset position), it is possible to attach the auxiliary personal digital device in the portable terminal holder in a stable state. [0018] According to the vehicle to be driven in the saddle of an aspect of the invention, in the case where the portable terminal support is attached to the upper support and the lower support on the steering handlebar support, it is possible to reduce the number of components related to the provision of a support. [0019] According to the vehicle to be driven in the saddle of an aspect of the invention, it is possible to ensure a high level of visibility of the instrument panel and the personal digital assistant. [0020] According to the vehicle to be driven in the saddle of an aspect of the invention, in the case where the relation of the first viewing angle (01) plus the second viewing angle (02) <90 degrees is established, once Since the region of the driver's field of view that crosses the instrument panel and the personal digital assistant is focused, it is possible to ensure excellent visibility for the driver. [0021] Furthermore, in the case where a person generally looks down at a visible target object, the person has a tendency to spontaneously look at the visible target object in a conspicuous location such that an angle between the line of vision and the visible target object is 90 degrees or more. [0022] Because of this, in the case where the ratio of 90 degrees = the first angle of the eye point (θα) <180 degrees and 90 degrees <the second angle of the eye point (θβ) <180 degrees is established, since the angles of the line of sight with respect to the instrument panel and personal digital assistant are 90 degrees or more in all positions, it is easy to see them, and visibility is ensured. [0023] According to the vehicle to be driven in the saddle of an aspect of the invention, since the personal digital assistant that is located at the front as seen by the driver leans forward more than the instrument panel with respect in the vertical direction, in particular, the visibility of the personal digital assistant is ensured. [0024] According to the vehicle to be driven in the saddle of an aspect of the invention, it is possible to obtain the protective performance of the upper support and the appearance of a total excellent vehicle. [0025] According to the vehicle to be driven in the saddle of an aspect of the invention, it is easy to arrange the personal digital assistant in the position that is easy to see by the driver and an excellent appearance is obtained. [0026] According to the vehicle to be driven in the saddle of one aspect of the invention, since the part of the axle that allows the locking part of the personal digital auxiliary of the portable terminal support to rotate is positioned behind the handlebar tube. direction, the protrusion of the portable terminal support in the vertical direction that is due to the provision of the shaft part is reduced, and it is possible to rotate the locking part in a compact situation. BRIEF DESCRIPTION OF THE DRAWINGS [0027] FIG. 1 is a left side view showing a motorcycle related to the embodiment of the invention. [0028] FIG. 2 is a top view showing the periphery of a motorcycle handlebar tube related to the embodiment of the invention when viewed diagonally forward and downward above the vehicle. [0029] FIG. 3 is an exploded perspective view showing a motorcycle steering system related to the mode of the invention. [0030] FIG. 4 is a perspective view showing a portable motorcycle terminal holder related to the embodiment of the invention. [0031] Fig. 5 is a view showing the portable terminal support of the motorcycle related to the modality of the invention when viewed from top to bottom. [0032] FIG. 6 is a perspective view showing a state in which a personal digital assistant is attached to the portable terminal support related to the embodiment of the invention. [0033] FIG. 7 is a top view showing the periphery of the steering handlebar when viewed diagonally forward and downward above the vehicle in a state where the personal digital assistant is attached to the portable terminal support related to the embodiment of the invention. [0034] FIG. 8 is a cross-sectional view taken along line X-X of FIG. 5. [0035] FIG. 9 is an enlarged view showing a voltage converter that is arranged on a steering handle cover with which the motorcycle related to the modality of the invention is provided. [0036] FIG. 10 is a top view showing the periphery of the motorcycle handlebar tube related to the embodiment of the invention when viewed backwards and downwards above the vehicle. [0037] FIG. 11 is a view showing the inside of a part of the front part of the motorcycle vehicle related to the mode of the invention. [0038] FIG. 12 is a view showing a main motorcycle harness related to the embodiment of the invention. [0039] FIG. 13 is an electrical diagram illustrating a battery and a motorcycle voltage converter related to the modality of the invention. [0040] FIG. 14A is a front view showing a personal digital assistant box that accommodates a personal digital assistant in it that is attached to the portable terminal support related to the embodiment of the invention. [0041] FIG. 14B is a left side view showing the personal digital assistant box that accommodates the personal digital assistant in it that is attached to the portable terminal support related to the modality of the invention. [0042] FIG. 14C is a plan view showing the personal digital assistant box that accommodates the personal digital assistant in it that is attached to the portable terminal support related to the modality of the invention. [0043] FIG. 14D is a bottom view showing the personal digital assistant box that accommodates the personal digital assistant in it that is attached to the portable terminal support related to the modality of the invention. [0044] FIG. 14E is a rear view showing the personal digital assistant box that accommodates the personal digital assistant in it that is attached to the portable terminal support related to the modality of the invention. [0045] FIG. 14F is a view showing the personal digital assistant box that accommodates the personal digital assistant in it that is attached to the portable terminal support related to the embodiment of the invention and is an enlarged view showing a relevant part shown in FIG. 14E. [0046] FIG. 15 is a cross-sectional view taken along line Y-Y of FIG. 14A. [0047] FIG. 16 is an enlarged view showing a relevant part of FIG. 15. [0048] FIG. 17 is an enlarged view showing a relevant part of FIG. 1. [0049] FIG. 18 is a view illustrating a modified example 1 of the embodiment of the invention. [0050] FIG. 19 is a view illustrating a modified example 2 of the embodiment of the invention. [0051] FIG. 20 is a view illustrating a modified example 3 of the embodiment of the invention. [0052] FIG. 21A is a view showing a modified example 4 of the embodiment of the invention and is a view showing a state of prefixing the personal digital auxiliary box to the portable terminal support. [0053] FIG. 21B is a view illustrating modified example 4 of the embodiment of the invention and is a view showing a state in which the personal digital auxiliary box is attached to the portable terminal support. [0054] FIG. 22A is a view illustrating a modified example 5 of the embodiment of the invention and is a view showing a state of prefixing the personal digital assistant box to the portable terminal support. [0055] FIG. 22B is a view illustrating modified example 5 of the embodiment of the invention and it is a view showing a state in which the personal digital auxiliary box is attached to the portable terminal support. [0056] FIG. 23A is a cross-sectional view showing the personal digital auxiliary box in which the configuration of a coil and a substrate is changed in the modified example 5 of the invention. [0057] FIG. 23B is a rear view showing the personal digital auxiliary box in which the configuration of a coil and a substrate is changed in modified example 5 of the invention. [0058] FIG. 24 is a view illustrating a modified example 6 of the embodiment of the invention and is a cross-sectional view showing the personal digital auxiliary box. [0059] FIG. 25A is a view illustrating a modified example 7 of the embodiment of the invention and is a perspective view showing a support of the steering handlebars. [0060] FIG. 25B is a view illustrating modified example 7 of the embodiment of the invention and is a perspective view showing the support of the steering handlebars. MODALITIES FOR PRACTICING THE INVENTION [0061] In the following, an embodiment of the invention will be described with reference to the drawings. [0062] In particular, in the drawings used in the explanation below, the arrow FR indicates the advance of the vehicle, the arrow UP indicates the top side of the vehicle, and the arrow LH indicates the left of the vehicle. [0063] FIG. 1 shows a scooter-type motorcycle 1 to which the modality of the invention is applied. [0064] The motorcycle 1 is provided with an oscillation unit 4 that fully includes an engine 2 and a power transmission mechanism, rotatably supports a rear wheel 5 behind the oscillation unit 4, and has a front wheel 6 that it constitutes a steering system S in front of the oscillation unit 4. [0065] The front wheel 6 is rotatably supported by a pair of right and left forks 7 from the front at its bottom, a fork bridge 8 is arranged on the upper parts of the right and left front forks 7, and an axle steering wheel 9 which serves as a steering axis is provided vertically in the center of the fork bridge 8 in the direction of the vehicle width. [0066] A tube 10 of the steering handlebar is provided above the axis of the steering 9, and the tube 10 of the steering handlebar consists of a single member of tube that extends in the direction of the width of the vehicle. [0067] The steering system S of the modality consists mainly of the front wheel 6, the front fork 7, the steering axle 9, and the tube 10 of the steering handlebars, or similar. [0068] Here, L1 shown in the drawings represents the steering axis line of the S steering system. [0069] The steering axle 9 is rotatably supported by a front tube 12 which is provided at a front end of a vehicle body frame 11 which includes a plurality of frame members that are integrated by means of welding or the like . [0070] The vehicle body frame 11 of the vehicle is connected to the front tube 12 described above, a main frame 13 extending below the front tube 12, and a lower side surface of the main frame 13. [0071] The vehicle body frame 11 of the vehicle extends backwards and is connected to a pair of right and left side frames 14 that extend up and back and an upper end of the side frames 14. [0072] The vehicle body frame 11 of the vehicle is provided with a pair of right and left seat frames 15 that extend upward and backward. [0073] In particular, in a precise sense, the main frame 13 is slightly tilted with respect to the vertical direction and extends backwards and downwards from the front tube 12. [0074] The swing unit 4 is supported by rear bases of the side frames 14 through a connecting member 14A and can swing in the vertical direction. [0075] A seat 16 on which the occupants are to be seated is positioned above the swing unit 4. [0076] Seat 16 extends in the forward and backward direction and integrally forms a main seat 17 on which the driver must be seated and a rear seat 18 on which a passenger must be seated. [0077] Motorcycle 1 is covered with a CV vehicle body cover that is configured by a plurality of cover members made of resin materials, and a front cover 21 is positioned above the front wheel 6 and in front of the front tube 12. [0078] Furthermore, the covers of a pair of right and left front side covers 22, which are formed with an L shape and have corner parts provided in the front in a side view, are continuously arranged at the rear ends of both sides of the front cover 21. [0079] The front side covers 22 are formed in a shape in which one side of the L-shaped configuration of them is continuously arranged at the rear end of the side of the front cover 21 and the other side of the L-shaped configuration extends back. [0080] The front cover 21 is formed in an aerodynamic shape such that its width is gradually reduced in the direction towards the front of the vehicle when seen in a top view; and in its upper part a notch is formed which has a width which is gradually reduced along the central line towards the width of the vehicle towards the rear to the front. [0081] A screen 21A is provided inside the notch. [0082] The screen 21A is attached to an edge or similar to the above-mentioned notch of the front cover 21 and is standing in the upper rear direction and from the front to the rear when viewed in a side view. [0083] Screen 21A is configured so that a headwind that hits screen 21A flows from the front of the vehicle to the top rear. [0084] In addition, the front cover 21 fully includes a front light and left and right direction indicators. [0085] The space between the right and left rear portions of the front side covers 22 is covered with an upper inner cover 23 and a lower inner cover 24 that extend in the direction of the vehicle width. [0086] A rear part of the upper inner cover wall 23 extends in the vertical direction along the direction axis 9; and a lower end of the rear wall is located behind a lower end of the front tube 12. [0087] On the other hand, the lower inner cover 24 extends backwards so as to be continuously arranged at a lower end of the part of the rear wall described above the upper inner cover 23; and the rear end of the lower inner cover 24 reaches the adjacent position in front of the front end of the seat 16. [0088] A projecting part 23A projecting backwards is formed in the central region in the direction of the width of the vehicle and provided above the rear part of the wall of the upper inner cover 23; and the projecting part 23A is formed in an arc shape which is along the outer peripheral face of the steering axis 9 in the outer radial direction of the steering axis 9. [0089] In addition, a fuel tank T is disposed under the lower inner cover 24, and a fill opening cap 24A, which is used to expose a fuel tank fill opening T which is not shown in the figure for its external part is provided in the lower inner cover 24 in order to be able to open and close. [0090] Here, a foot passage space 19 through which the occupant's foot passes when he enters and exits is formed in front of seat 16 and above the lower inner cover 24. [0091] The driver passes his foot through the foot passage space 19, sits on the seat 16, places his feet on the right and left stepping floors 20 which are provided in a lower central part in the forward and forward direction. behind the vehicle body, and thus sit on the motorcycle 1. [0092] Here, the aforementioned stepping floors 20 are provided integrally with a pair of lower right and left lower covers 25 which are arranged continuously on the bottom of the front side covers 22 and extend backwards, and the lower covers 25 extend. above oscillation unit 4. [0093] In addition, a pair of lower right and left hoods 26 is provided under the lower covers 25. [0094] The spaces between the bottom covers 25 and the seat 16 are covered with the paired right and left rear side covers 29, each of which has a front end that is continuously arranged at the rear end of the front side cover 22 and extends back. [0095] A storage box 30 is provided between the left and right rear side covers 29 and under the seat 16, and the seat 16 is supported by the storage box 30. [0096] Seat 16 can open and close storage box 30 at its rear and with its front end serving as an axle. [0097] In addition, a battery storage part 31 is provided in a front end part of the storage box 30, and a battery B is accommodated in the battery storage part 31. [0098] In addition, an engine control unit (hereinafter, indicated as an ECU) 32 is provided under and behind the main frame 13. [0099] ECU 32 acquires information from various sensors or the like that are mounted on the vehicle and is a control unit that controls, for example, the amount of fuel consumption of the engine. [00100] Next, FIG. 2 is a top view showing the periphery of the steering handlebar tube 10 and showing an instrument panel 33 which is disposed between the steering handlebar tube 10 and the screen 21A and provided with indicators such as a speedometer. [00101] The instrument panel 33 is supported by an inner front panel 34 so that its display surface is exposed through an opening formed in the front plate-shaped inner panel 34 that covers the space surrounded by the upper parts of the covers left and right front sides 22 and the screen 21A. [00102] Here, a notched part 34A which is lowered to be directed forward is formed in the central region in the direction of the width of the vehicle and provided behind the front inner panel 34; and the notched part 34A is formed in an arc shape that runs along the outer peripheral face of the steering axle 9 in the outer radial direction of the steering axle 9. [00103] The right and left ends of the notched part 34A are in contact with the right and left ends of the protruding part 23A of the aforementioned upper inner cover 23, and a circular space K is formed by the notched part 34A and the protruding part 23A. [00104] Here, with reference to FIG. 1, an upper end portion of the steering shaft 9 protrudes upward from the K space, and the steering handle tube 10 is attached to the steering shaft 9 above the K space. [00105] FIG. 3 is an exploded perspective view showing the steering system S. [00106] In the modality, the steering axle 9 is provided with: a body 35 of the axle that is inserted in the front tube 12 and supported in a rotating manner by it; and a rod 36 of the steering handle which is coupled to an upper part of the axle body 35 projecting upwards from the front tube 12 in the axle body 35. [00107] The rod 36 of the steering handle is provided with: a cylinder part 38 in which the upper part of the shaft body 35 is inserted and which is coupled in a non-rotating manner by the use of a screw 37; and a rectangular stay part 39 which is coupled to the cylinder part 38 so as to occlude its upper end and which extends to both sides in the direction of the width of the vehicle. [00108] The tube 10 of the steering handlebar is attached to a support 40 of the steering handlebar which is fixed to the part of the stay 39. [00109] In the modality, the support 40 of the steering handlebar is provided with: a pair of lower right and left supports 41L and 41R; and a pair of upper right and left brackets 42L and 42R. [00110] The lower supports 41L and 41R are fixed to an upper surface of the part of the stay 39 and project upwards from the same. [00111] The upper supports 42L and 42R are in contact with the upper parts of the lower supports 41L and 41R. [00112] The tube 10 of the steering handlebar is sandwiched between the lower supports 41L and 41R and the upper supports 42L and 42R. [00113] The lower supports 41L and 41R and the upper supports 42L and 42R are divisionally arranged to the right and left of the stay part 39 in order to press the line L1 of the steering axle. [00114] The receiving parts of the arc-shaped steering handlebars 41A which are lowered downwards and used to mount the steering handlebar tube 10 therein are formed in the upper parts of the lower supports 41L and 41R, respectively. [00115] The holes 41B of the screw holder are formed on both sides of the lower supports 41L and 41R in order to secure the receiving parts of the steering handlebar 41A. [00116] On the other hand, the contact parts of the arc-shaped steering handlebars 42a which are lowered upwards and used to compress the tube 10 of the steering handlebars in them are formed in the lower parts of the upper supports 42L and 42R, respectively. [00117] The through holes 42B that correspond to the holes 41B of the screw fastener are formed in both the upper supports 42L and 42R to press the contact parts of the steering handle 42A. [00118] The screws 45 that are fixed to the holes of the screw fastener 41B are inserted in the through holes 42B of the upper support 42. [00119] As a result of fixing the screws 45 that are inserted in the aforementioned through holes 42B, respectively, in the holes 41B of the screw fastener in a state where the contact parts of the steering handlebar 42A described above are in contact with the tube 10 of the steering handlebar, tube 10 of the steering handlebar is attached to the lower supports 41L and 41R and the upper supports 42L and 42R. [00120] Here, in the embodiment, a disc-shaped steering handle cover 48 in which a front middle part 46 is coupled to a rear middle part 47 is attached to the stay part 39 of the stem 36 of the steering handle, and the steering handle cover 48 covers the upper surface of the station portion 39 from top to bottom with reference to FIG. two. [00121] The rear middle part 47 is formed in a semicircular shape in a top view and fitted in the part of the stair 39 from top to bottom. [00122] The right and left through holes 48A in which the lower right and left supports 41L and 41R are inserted are formed in the rear middle part 47, and the peripheral wall parts 49 covering the circumferences of the lower supports 41L and 41R, respectively , are formed in outer circumferential edges of the through holes 48A. [00123] In addition, a notch that is used to prevent interference from the tube 10 of the steering handlebars is formed in the peripheral wall parts 49. [00124] When the rear middle part 47 is attached to the part of the stay 39, the lower supports 41L and 41R pass through the through holes 48A, and their upper parts are then exposed to their external part through the openings of the upper end of the parts peripheral wall panels 49. [00125] On the other hand, the front middle part 46 is formed in an arc shape, in which both its end parts are attached to the right and left ends of the rear middle part 47. [00126] In a state where the front middle part 46 is coupled to the rear middle part 47, as shown in FIG. 2, the front middle part 46 and the rear middle part 47 form a circle in the outer shape, a space is provided between the rear end of the front middle part 46 and the front end of the rear middle part 47, and that space functions as a hole cable routing 50 through which multiple cables are inserted and passed. [00127] Here, the front end of the rear middle part 47 projects forward and presents itself in an arc format. [00128] Both end parts of the front middle part 46 are coupled to both sides of the rear middle part 47 in order to press the arc-shaped projected part of the rear middle part 47, and the cable routing hole 50 is formed in an arc shape (crescent shape). [00129] Furthermore, for convenience in the explanation in FIG. 3, the cable routing hole 50 is represented by a dotted line with two dashes. [00130] In addition, two members of the front middle part 46 and the rear middle part 47 constitute the cover 48 of the steering handlebar in the mode; and, alternatively, a constitution can be adopted in which the aforementioned cable routing hole 50 is provided in a circular cover 48 of the single-membered steering handlebar. [00131] Returning to FIG. 2, the cover 48 of the aforementioned steering handlebars is disposed close to the edges of the notched part 34A and the projecting part 23A in the vertical direction and above the circular space K which is formed from the notched part 34A and the projecting part 23A. [00132] The cover 48 of the steering handlebar covers the lower position of the support 40 of the steering handlebar in the steering system S from top to bottom. [00133] Furthermore, as shown in FIG. 2, several cables such as the front and rear brake cables 51 and 52, an accelerator cable 53, and a handlebar change cable 54 pass through the cable routing hole 50 of the steering handle cover 48, and a plurality of cables is integrated. [00134] In particular, the handlebar shift cable 54 is a cable used to send a signal from a gearbox provided on the steering handle tube 10 to ECU 32 or the like. [00135] In addition, the front and rear brake cables 51 and 52 or similar pass through the front of the steering axle 9 and are routed to the appropriate parts of the vehicle. [00136] With reference to FIGURES 2 to 6, a portable terminal support 55 is provided in an upper part of the upper support 42 in the embodiment and, as shown in FIG. 6, a personal digital assistant box C that accommodates a personal digital assistant P therein can be attached to the portable terminal support 55. [00137] Furthermore, as shown in FIGURES 4 and 5, a positive charge terminal 56 and a negative charge terminal 57 are provided on the portable terminal support 55, and it is possible to charge the personal digital auxiliary P in a state where the personal digital assistant box C that accommodates the personal digital assistant P in it is attached to the portable terminal support 55. [00138] Next, in the detailed explanation of the portable terminal support 55 with reference to FIGURES 3 to 5 and 8, the portable terminal support 55 covers the upper supports 42L and 42R from top to bottom, front and back, and on the right and on the left. [00139] A base 55A that is fixed (fully tightened and coupled) to the lower supports 41L and 41R and to the upper supports 42L and 42R with screws 45 is provided in the portable terminal support 55. [00140] In a recess part 58 (see FIG. 8) that is formed in an upper part of the base 55A, the portable terminal support 55 is rotatably supported by a first axis part 59 which is provided along the direction of vehicle width. [00141] The portable terminal support 55 is provided with: a substantially column-shaped support 60 that extends along the orthogonal direction of the first axis part 59; a second axis part 61 which is inserted on the front end side of the support 60, extends along the extension direction of the support 60, and is rotatably supported by the support 60 with respect to it; a disk-shaped base 62 which is non-rotatively coupled to the second axis part 61 and projects towards the outer radial direction of the axis part 61; and a pair of first locking part 63 and second locking part 64 which is provided vertically on the base 62 and locks the personal digital auxiliary box C. [00142] With reference to FIG. 5, the portable terminal support 55 is located in an extension line of the L1 line of the steering axis, is arranged in a particular way that substantially a center of the base 62 is located in the L1 line of the steering axis, and configured to secure the personal digital auxiliary box C on line L1 of the steering axle by using the first locking part 63 and the second locking part 64. [00143] In the modality, the base 55A is formed substantially in a rectangle shape in a top view. [00144] In addition, the base 55A includes: an upper wall part 55U that covers the upper supports 42L and 42R from top to bottom; a front wall part 55F extending down from the front end of the top wall part 55U and covering the upper supports 42L and 42R from the front; a left wall part 55L which extends down from the left end of the upper wall part 55U and covers the upper supports 42L and 42R from the left; and a right wall part 55R which extends down from the right end of the upper wall part 55U and covers the upper supports 42L and 42R from the right. [00145] The upper wall part 55U gradually extends downwards towards its rear, and the upper supports 42L and 42 are covered with the rear part of the upper wall part 55U from the rear. [00146] Four 55V screw insertion holes through which the 45 screws are inserted are formed in the upper wall part 55U. [00147] As a result of inserting screws 45 into such screw insertion holes 55V and attaching them to the screw fastening holes 41B of the lower supports 41L and 41R, the base 55A is fixed to the lower supports 41L and 41R. [00148] The support 60 is provided on the base 55A, the base 62 is rotatably supported by the first axis part 59, which is arranged in parallel with the direction of extension of the tube 10 of the steering handlebar and disposed behind the tube 10 the steering handlebars and therefore the base can oscillate around the first axis part 59 serving as an axis and in the vertical direction. [00149] Furthermore, since the base 62 is non-rotatively coupled to the second axis part 61, that is, rotationally supported by the support 60, the base 62 can rotate around the second axis part 61 serving as an axis. [00150] In particular, in FIG. 8, L2 represents the axis line of the first axis part 59 and L3 represents the axis line of the second axis part 61. [00151] In addition, the first axis part 59 rotatably supports the support 60 in order to maintain its orientation in a fixed state; and the support 60 also rotatably supports the second axis part 61 to be able to maintain its orientation in a fixed state. [00152] As a mechanism that maintains the orientation as described above, a first angle adjuster 200 which is provided on the outer periphery of the first axis part 59 and a second angle adjuster 201 which is provided on the outer periphery of the second axis part 61 are provided in the modality. [00153] The configurations of such angle adjusters are not particularly limited, for example, a constitution that uses a ratchet mechanism, a constitution in which an elastic material is disposed between a part of the shaft and a support face that supports the part axis, or similar, can be adopted. [00154] Furthermore, for convenience in the explanation in FIG. 8, the cross-section face of the base 62 is not shown. [00155] Each of the first locking part 63 and the second locking part 64 is formed in an L shape in the cross section. [00156] The end parts of the first locking part 63 and the second locking part 64, each of which is an end part (first end part), are coupled to an upper face of the base 62. [00157] The end parts of the first locking part 63 and the second locking part 64, each of which is the other end part (hereinafter, indicated as a front end, second end part), are provided vertically on base 62 in a state where they are separated from each other so as to be directed in opposite directions. [00158] Furthermore, the first locking part 63 and the second locking part 64 are located so that they face each other in the radial direction of the L3 axis line in order to press the L3 axis line. [00159] Here, in FIG. 8, L4 represents a direction provided in parallel in which the first locking part 63 and the second locking part 64 are arranged in the radial direction of the axis line L3. [00160] In the mode, the first locking part 63 is supported by the axis 65, which is inserted in the end part of the first locking part 63 located near the base 62, so that it can rotate as shown in the rotation arrow of the FIG. 8. [00161] On the other hand, the oscillation of the first locking part 63 in the direction opposite to the direction of the first locking part 63 to the second locking part 64 of the state in which the first locking part 63 is provided vertically on the base 62 to the along the L3 axis line is constrained. [00162] The diagrammatic representation of the mechanism that restricts such oscillation is omitted; for example, it is only necessary to employ a retainer that contacts the base 62 and thereby restricts the rotation of the first locking part 63. [00163] In addition, axis 65 is inserted in a helical spring 66, the first locking part 63 is maintained in a state of being provided vertically on the above mentioned base 62 along axis line L3, as a result of being pressed by the helical spring 66 (the elastic restoring force is operated). [00164] On the other hand, the second locking part 64 is integrally formed with the base 62. [00165] In addition, a constitution in which the first locking part 63 oscillates when being supported in a rotating manner is adopted in the modality; however, a constitution that slides in a direction parallel to the surface of the base 62 can be adopted. [00166] Here, in the modality, a power supply, which consists of the positive charge terminal 56 and the negative charge terminal 57 mentioned above, is provided in a part 64A located in the direction in which a curved part in the shape of a L of the second locking part 64 is placed vertically, that is, in the part 64A which faces the personal digital assistant P. [00167] The positive charge terminal 56 and the negative charge terminal 57 are provided in part 64A with a distance between them. [00168] This means that in the direction in which the first locking part 63 and the second locking part 64 are arranged and the first locking part 63 and the second locking part 64 are included, the positive charge terminal 56 and the negative charge terminal 57 is provided in the second locking part 64. [00169] Consequently, as shown in FIG. 8, the guide holes 67 are formed to penetrate through the second locking part 64 and the base 62 along the axis line L3, and a connecting line 68 which is electrically driven to the positive load terminal 56 and the terminal negative charge 57 passes through the guide holes 67. [00170] Here, since the connecting line 68 is joined to the second locking part 64 which cannot oscillate while the first locking part 63 is only an oscillating part in the mode, the flexing control of the connecting line 68 is easy. [00171] In particular, in this case, since it is possible to reduce the flexion of the connection line 68 which is due to oscillation or the like, the control of flexion is easy, and it is possible to improve the degree of freedom in the design. [00172] Furthermore, in the mode, the positive charge terminal 56 and the negative charge terminal 57 are configured to be arranged in the direction orthogonal to the parallel supply direction L4 of the first locking part 63 and the second locking part 64; however, a constitution that is laid out along L4 can be adopted. [00173] The first locking part 63 and the second locking part 64 are inserted into a pair of locking holes formed in the personal digital auxiliary box C by properly oscillating the first locking part 63. [00174] In the locking holes mentioned above, as a result of the contact of the front end of one of the first locking part 63 and the second locking part 64 with the one-way personal digital auxiliary box C, the digital auxiliary box personnel C is positionally fixed. [00175] In addition, as a result of contact with the other front end with the personal digital auxiliary box C from the other direction which is directed in the opposite direction of said direction, the personal digital auxiliary box C is positionally fixed, and the personal digital auxiliary box C is thus joined to it. [00176] In addition, the explanation of this fixation will be described later. [00177] Next, in the explanation of connection line 68 mentioned above 68, the positive charge terminal 56 and the negative charge terminal 57 supply electrical power to the personal digital auxiliary box P via connection line 68. [00178] Connecting line 68 is connected to a voltage converter 70 which reduces battery B voltage. [00179] Here, with reference to FIGURES 2, 8, and 10, the voltage converter 70 is disposed between the lower right and left supports 41L and 41R and the upper supports 42L and 42R and on the upper surface of the rear middle part 47 of the steering handle cover 48 when viewed from the axial direction of line L1 of the steering axle in mode. [00180] A part of the voltage converter 70 is positioned behind the straight line L6 that connects the front ends of the lower right and left brackets 41L and 41R and connects the front ends of the upper right and left brackets 42L and 42R. [00181] In particular, in a side view of the vehicle, the voltage converter 70 is arranged in front of the L1 line of the steering axle. [00182] Furthermore, as shown in FIG. 9, the voltage converter 70 includes a pair of the flange parts 71 which is in contact with the upper surface of the rear middle part 47 and is fixed to it by inserting the screws 72 in the flange parts 71. [00183] Consequently, as shown in FIG. 9, the connection line 68 is detachably connected to the voltage converter 70 via a connector 73, extends over the voltage converter 70, is arranged inside the base 55A, passes through the interior of the first axis part 59 from inside the base 55A as shown in FIG. 8, then it is pulled through an appropriate position of the first shaft part 59 to its outside, it passes through the guide hole 67, and is connected to the positive charge terminal 56 and the negative charge terminal 57. [00184] On the other hand, with reference to FIGURES 10 to 12, the voltage converter 70 and battery B are connected to battery B via a relay electrical cable 74 and a main wire harness 75. [00185] As shown in FIG. 12, the main harness 75 consists of a plurality of bundled harnesses, such as the wiring that conducts the electrical energy from battery B to an auxiliary machine or to a sensor that is mounted on the vehicle, a wiring that sends the information detected by the sensor to ECU 32, or similar. [00186] The main harness 75 extends from the front to the rear of the vehicle and is provided in the vehicle so that a coupler 76 in which a plurality of connectors for each wiring as described above are grouped is arranged at the front front tube 12 as shown in FIGURES 10 and 11. [00187] Subsequently, as shown in FIG. 10, the relay cable 74 extends down from the voltage converter 70 through the cable routing hole 50 of the steering handle cover 48, extends forward after passing through the front of the drive shaft direction 9 and the front tube 12, and is connected to a connector that is included in coupler 76 and not shown. [00188] In addition, coupler 76 includes a connector or similar to which the handlebar change cable 54 is connected. [00189] Here, FIG. 13 is an electrical diagram showing the connection of battery B and voltage converter 70. [00190] As shown in that drawing, the voltage converter 70 is arranged on the downstream side of a main switch MS and configured to conduct electrically with battery B when the main switch MS goes into the on state due to a key operation performed by the driver. [00191] Because of this, it is possible to prevent unintentional loading when the vehicle is stopped. [00192] Next, the personal digital auxiliary box C will be described. [00193] FIG. 14A is an anterior view showing the personal digital auxiliary box C. [00194] FIG. 14B is a left side view showing the personal digital auxiliary box C. [00195] FIG. 14C is a plan view showing the personal digital auxiliary box C. [00196] FIG. 14D is a bottom view showing the personal digital auxiliary box C. [00197] FIG. 14E is a rear view showing the personal digital auxiliary box C. [00198] FIG. 14F is an enlarged view showing a relevant part shown in FIG. 14E. [00199] Furthermore, FIG. 15 is a cross-sectional view taken along line Y-Y of FIG. 14A, and FIG. 16 is an enlarged view showing a relevant part of FIG. 15. [00200] Next, the personal digital auxiliary box C will be described with reference to the direction shown in FIGURES 14A to 14F, in which a plan view shows the top side of it, and a bottom view shows the bottom side of it. [00201] The personal digital assistant box C is a rectangular box that accommodates the personal digital assistant P in it. [00202] The personal digital assistant box C is provided with: a main body 80 of the box that surrounds the rear surface and all the circumferences of the side surfaces of the personal digital assistant P and has an opening that opens the front part of the personal digital assistant P; and an open and closed lid member 81 that covers the opening of the main body 80 of the box. [00203] The main body 80 of the box includes: a wall part 82 of the rear surface that surrounds the rear surface of the personal digital assistant P; and a side wall part 83 which is provided vertically with the outer circumferential edge of the wall part 82 of the rear surface and surrounds all the circumferences of the side surfaces of the personal digital assistant P. [00204] The main body 80 of the box accommodates the personal digital assistant P in the space that is surrounded by the wall part 82 of the rear surface and the side wall part 83 and covers the front surface, in which a display unit (display screen) liquid crystal) of the personal digital assistant P is provided, with the cover member 81. [00205] Next, the surface of the main body 80 of the box the cover member 81, in which the main body 80 of the box is exposed to its exterior in a state in which the cover member 81 is closed, can be indicated as an external surface; and the surface that is not exposed can be indicated as an internal surface. [00206] The outer surface of the side wall part 83 is formed in a shape that protrudes gradually out of the wall part of the back surface 82. [00207] As shown in FIG. 15, a notch is formed in the central part in the direction of extension of an upper part 84 of the side wall which is located on the upper side of the side wall part 83. [00208] A hinge shaft 85 extending along the extension direction of the upper sidewall part 84 is provided in the notch. [00209] The cover member 81 is provided with a supported part 86 which is rotatably supported by the hinge axis 85 at one end of the cover member 81 in its longitudinal direction. [00210] Since the supported part 86 is supported by the hinge shaft 85, the main body 80 of the box is configured to be able to be opened and closed. [00211] On the other hand, a lower sidewall part 87 which is located on the lower side of the sidewall part 83 is formed so as to have a thickness greater than the thickness of the upper sidewall part 84. [00212] A recessed part 88 which is compressed in the direction of the external surface to the internal surface is formed in the central part in the direction of extension of the lower side wall part 87. [00213] An axis 89 extending along the extension direction of the lower sidewall part 87 is provided in the lowered part 88 and a manipulation button 90 is accommodated therein in a state in which it is rotatably supported by the axis 89. [00214] The manipulation button 90 is formed in an arc shape when seen in a cross-sectional view, has a fixed width in the horizontal direction of the main body 80 of the box, and the outer surface of the manipulation button 90 arc is directed towards the outside of the main body 80 of the box, continuously coincides with the external surface of the main body 80 of the box, and displays the inclusion of the appearance. [00215] In the manipulation button 90, the end part in the arc-shaped end parts of the manipulation button 90, which is located on the side 82 of the back surface wall part, is supported by the axis 89. [00216] Furthermore, the end part, which is located on the side 82 of the back surface wall part on the handling button 90, is configured to contact the inner surface of the recessed part 88 when the end part which it is located on the side 81 of the cover member rotates about the geometric axis of the axis 89 on the manipulation button 90 to be directed towards the outside of the main body 80 of the box. [00217] Consequently, the rotation of the manipulation button 90 which is directed towards the outside of the main body 80 of the box is restricted. [00218] In addition, the manipulation button 90 is configured to allow the end portion located on the side 81 of the cover member to rotate around the geometric axis of the axis 89 into the main body 80 of the box in the state in which it is. the end part located on the side 82 of the rear surface wall part is in contact with or adjacent to the inner surface of the recessed part 88 on the manipulation button 90. [00219] Furthermore, with reference to FIG. 16, an L 91-shaped locking end, which extends to the cover member 81 along the side wall part 83 and allows its end to be directed towards the outside of the bottom part 87 of the side wall, is integrally formed on the internal arc surface of the manipulation button 90. [00220] On the other hand, the cover member 81 includes a locked end in the form of L 92 which is provided on the internal surface on the other side of the end of the cover member 81 in its longitudinal direction. [00221] The end of the locking end 92 is coupled with the end of the locking end 91. [00222] Since the end of the locking end 92 is coupled with the end of the locking end 91 in the direction in which the side wall part 83 is provided vertically, a closed state of the cover member 81 is maintained; and once the manipulation button 90 is operated to rotate and a locking state is released, the cover member 81 opens. [00223] Furthermore, as shown in FIG. 14A, a rectangular window 93 that forms the display unit provided on the front side of the visible personal digital assistant P is formed on the cover member 81. [00224] As shown in FIG. 15, a pair of transparent plate members 94 is arranged on the window 93 in a state where they are parallel to each other, and the window 93 is sealed in a double seal structure. [00225] By means of this structure, prevention against the turbidity of each member of transparent plate 94 is achieved. [00226] In particular, such transparent plate members 94 are attached by adhesive to the peripheral edge of the window 93 in the embodiment. [00227] In addition, a spacer 95, which is in contact with the rear surface and the side surfaces of the personal digital assistant P, opens the front surface of the personal digital assistant P, and is made of an elastic material, is provided in a way detachable inside the main body 80 of the box. [00228] In the modality, the personal digital assistant P is accommodated in the spacer 95 in an elastic support state. [00229] In addition, for convenience in the explanation in FIGURES 14B to 14D, the spacer 95 is represented in hatching when using points. [00230] Spacer 95 includes integrally: a contact wall part of the rear surface 96 that contacts the rear surface of the personal digital assistant P; wherein the rear surface contact wall parts 97 are provided vertically with the peripheral edge of the rear surface contact wall part, allowing their end portion to protrude from the end portion of side part 83 of the main body side 80 of the box, and come into contact with the side surfaces of the personal digital assistant P on its internal surface; and a flange portion 98 projecting from the side wall contact wall parts 97 to the end portion of the side wall part 83. [00231] As shown in FIGURES 14B to 14D, in a state where the cover member 81 is closed, the flange part 98 is sandwiched between the end part of the side wall part 83 and the outer edge of the side member. cover 81 and is visible from the outside of the personal digital assistant box C. [00232] Furthermore, as shown in FIG. 14F, the outer circumferential edge of the flange part 98 in the embodiment has a shape that is substantially on the same plane as the outer surface of the side wall part 83 and the outer surface of the cover member 81 or which protrudes out of such a surface external. [00233] When a user picks up the personal digital auxiliary box C, the user's hand easily contacts the flange part 98, it becomes difficult to slide, and the outer circumferential edge of the flange part 98 functions as an indentation. [00234] Furthermore, as shown in FIGURES 15 and 16, a lower side wall 95A is in contact with the lower part 87 of the side wall in parts 97 of the contact wall of the side surface of the spacer 95 in the embodiment. [00235] A load connector 100, which must be connected to a load port (not shown in the figure) provided on the end part of the personal digital assistant P in its longitudinal direction, is provided on the lower side wall 95A. [00236] In particular, as shown in FIG. 16, the lower sidewall 95A is partially cut, and an axis 101 disposed in this notch rotatably supports the load connector 100 to be directed towards the open direction of the spacer 95 and directed towards the inner direction of the lower sidewall 95A with reference the rotation arrow in the drawing. [00237] In addition, the end of the charge connector 100 protrudes from the lower side wall 95A. [00238] On the other hand, as shown in FIGURES 14 and 15, a first locking hole 102 that accommodates the first locking part 63 described above of the portable end support 55 therein and a second locking hole 103 that accommodates the second locking part 64 described above, which are compressed towards the rear surface of the personal digital assistant P, are formed substantially in the central region of the outer face of the rear surface wall part 82 of the main body 80 of the box. [00239] A positive contact point 104 and a negative contact point 105 that are to be electrically connected to the load connector 100 are provided in the second locking hole 103. [00240] Here, a groove portion 106 which is provided continuously and crosses over the rear surface wall portion 82 and the lower side wall portion 87 is formed on the inner surfaces of the rear surface wall portion 82 and the side wall part 83 of the lower side wall part 87, an electrical cable 106A is arranged in the groove part 106, and the charging connector 100 is thereby connected to the positive contact point 104 and the negative contact point 105. [00241] With reference to FIG. 8, the first locking hole 102 and the second locking hole 103 which combine the first locking part 63 and the second locking part 64, respectively, are formed in an L shape in the cross section. [00242] As shown in FIG. 15, the positive contact point 104 and the negative contact point 105 are formed in the first locking hole 102 and the second locking hole 103 and on the surface which is directed towards the outside of the rear surface wall part 82. [00243] In particular, the terminals, which are connected to a positive charge contact point and a negative charge contact point which are provided on the charge port of the personal digital auxiliary P and are not shown in the figure, are provided charge connector 100. [00244] With reference to FIGURES 8 and 14A to 16, when the aforementioned personal digital auxiliary box C is attached to the portable terminal support 55, the first locking part 63 is inserted in the first locking hole 102 when it is swung, when whereas the second locking part 64 of the portable terminal support 55 is inserted into the second locking hole 103 of the personal digital auxiliary box C. [00245] Therefore, in a state where the first locking part 63 and the second locking part 64 are inserted into the first locking hole 102 and the second locking hole 103, respectively, the positive charge terminal 56 and the negative charge terminal 57 of the second locking part 64 are electrically connected to the positive contact point 104 and the negative contact point 105, respectively. [00246] The positive charge terminal 56 and the negative charge terminal 57 are electrically connected to the positive charge contact point and the negative charge contact point of the personal digital auxiliary P through such a positive contact point 104 and such a point negative contact 105, respectively, and in this way it is possible to load the personal digital auxiliary P. [00247] In addition, the electrical energy is reduced in voltage by the voltage converter 70 and supplied to the personal digital assistant P coming from battery B. [00248] Furthermore, in a state where the first locking part 63 and the second locking part 64 are inserted into the first locking hole 102 and the second locking hole 103, respectively, the first locking part 63 and the second locking part 64 has an L-shaped cross section face. [00249] In this state, the ends of the first locking part 63 and the second locking part 64 lock the personal digital auxiliary box C in the first locking hole 102 and the second locking hole 103 even in the direction in which the box personal digital assistant C separates from base 62. [00250] For this reason, stability in the personal digital auxiliary box C is ensured. [00251] Furthermore, with reference to FIG. 15, when the personal digital assistant P is accommodated in the personal digital assistant box C, firstly, the cover member 81 is opened as indicated by reference letter I, the charging port of the personal digital assistant P is connected to the load connector 100 in a state where load connector 100 is directed towards the open direction of spacer 95. [00252] Then, as indicated by reference letter II, the personal digital assistant P is accommodated in the spacer in such a way that the personal digital assistant P and the charging connector 100 are directed towards the internal direction of the wall parts 97 contact surface of the spacer 95 while this connected state is maintained. [00253] On the other hand, with reference to FIGURES 1 and 17, V1 to V3 indicates a part of the lines of vision in the field of vision of the driver sitting on the seat 16. [00254] The driver's view location is located above the instrument panel 33 and the personal digital auxiliary box C. [00255] In addition, the instrument panel 33 is positioned below and in front of the personal digital auxiliary box C in a side view. [00256] Furthermore, V1 is the line of sight in the event that the driver looks straight at the upper end of the instrument panel 33; and V2 is the line of sight that is slightly tilted downwards with respect to line of sight V1 and is the line of sight in the event that the driver looks straight at the upper end of the personal digital assistant box C. [00257] Here, in case of focusing the line of sight V2, the substantially lower end of the instrument panel 33 is located in the line of sight V2, the lower part of the instrument panel 33 is not significantly hidden by the auxiliary box personal digital C. [00258] Therefore, even where the personal digital auxiliary box C is provided, the visibility of the instrument panel 33 is ensured. [00259] Consequently, 01 in the drawings (hereinafter, the first angle of view 01) can also be indicated as a region of the instrument panel 33 field of view for the driver in a side view. [00260] In particular, precisely, in a side view, the first viewing angle 01 is an angle formed between the line of sight V1 when the driver looks straight at the top end of the instrument panel 33 and the line of sight V2 when the driver looks straight at the upper end (the substantially lower end of the instrument panel 33) of the personal digital auxiliary box C. [00261] Furthermore, in the case where the substantially lower end of the instrument panel 33 is located in line of sight V2 as described above, since the upper end of the personal digital auxiliary box C is visible when the substantially bottom of the instrument panel 33 is seen in a straight line, it can be stated that the visibility of the personal digital assistant P is ensured. [00262] This means that the personal digital assistant box C does not affect the visibility of the instrument panel 33 in the mode and the box C is kept in the position where the driver can easily look at the personal digital assistant P. [00263] In particular, in the example, the state in which the personal digital auxiliary box C is tilted forward in the direction extremely close to the horizontal direction is defined as a reference, and the positional relationship in line of sight V2 between the panel of instruments 33 and the personal digital auxiliary box C is determined. [00264] Furthermore, V3 is the line of sight in which the driver looks at the lower end of the personal digital auxiliary box C and is the line of sight that is tilted slightly downwards with respect to the line of sight V2. [00265] Furthermore, 02 (hereinafter, the second viewing angle 02) represents a substantially field-observing region of the personal digital auxiliary box C for the driver in a side view. [00266] That is, in a side view, the second angle of view 02 is an angle between the line of sight V2 in the event that the driver looks straight at the upper end of the personal digital auxiliary box C and the line of vision V3 in the event that the driver looks straight at the bottom end of the personal digital auxiliary box C. [00267] Here, since the personal digital auxiliary box C is secured so that it extends forward and upward from its rear to the front in the mode, the second viewing angle 62 is suppressed. [00268] Consequently, the entire personal digital assistant P can be easily visible to the driver. [00269] Furthermore, in the modality, it is apparent from FIG. 17 that the ratio of the first viewing angle 01 + the second viewing angle 02 <90 degrees is established. [00270] In addition, the LP line in the drawing indicates the extension direction that extends forwards and upwards in the side view showing the direction parallel to the surface of the instrument panel display unit 33, and the LC line in the drawing indicates the direction of extension extending forwards and upwards in the side view showing the direction parallel to the surface of the personal digital auxiliary box C. [00271] Furthermore, θα in the drawing indicates a first angle of the eye point that is formed between the line of sight V1 and the LP line in a side view, and θβ in the drawing indicates a second angle of the eye point that is formed between line of sight V2 and line LC in a side view. [00272] Furthermore, θα 'in the drawing indicates an angle of inclination of the panel that is formed between the horizontal line of sight H when the driver looks ahead along the horizontal direction parallel to an earth surface and the LP line in a side view, and θβ 'in the drawing indicates a terminal tilt angle that is formed between the horizontal line of sight H when the driver looks at the front along the horizontal direction parallel to an earth surface and the LC line in a view side. [00273] In addition, ve indicates the vertical line orthogonal to the horizontal line of sight H of the driver's point of view. [00274] Here, in the modality, the relationship of 90 degrees <θα <180 degrees and 90 degrees <θβ <180 degrees is established. [00275] In addition, the relationship of θα '> θβ' is established. [00276] The relationship that the personal digital auxiliary box C is in a state of being significantly tilted forward with respect to the vertical line v and more than the instrument panel 33 is established in a side view. [00277] In particular, since the personal digital auxiliary P is accommodated in the personal digital auxiliary box C in the mode, the angle described above is determined based on the upper end and the lower end of the personal digital auxiliary box C. [00278] Even in the case where the personal digital auxiliary box C is removed and the angle is determined based on the upper and lower end of the personal digital auxiliary P, the relational expression similar to the description above is established. [00279] Furthermore, as shown in both FIGURES 6 and 8, in a state where the personal digital auxiliary box C is attached to the portable terminal support 55, it is possible to swing the digital auxiliary box up and down personnel C as a result of the rotation of the support 60 around the first axis part 59 (axis line L2) in the portable terminal support 55. [00280] In addition, as shown in both FIGURES 7 and 8, it is possible to rotate the personal digital auxiliary box C to the right and left as a result of the rotation of the base 62 around the second axis part 61 ( axis line L3) with respect to support 60. [00281] Consequently, as a result of such a rotational adjustment, it is possible to make the personal digital assistant P stay in an orientation that corresponds to the user's preference. [00282] In particular, by allowing the personal digital auxiliary box C to be tilted in such a way that the first locking part 63 oscillates, the personal digital auxiliary box C is easily removed from the portable terminal holder 55. [00283] In the embodiment of the invention as described above, the portable terminal support 55 is provided on the support 40 of the steering handlebar which is provided above the steering axis 9 which serves as a steering axis and is located on the L1 line of the axis steering. [00284] According to this structure, since the portable terminal support 55 is prevented from oscillating during the rotation of the steering handle tube 10, it is possible to keep the personal digital assistant P on the portable terminal support 55 in a stable state in compared to the case where it is joined in the offset position of the L1 line of the steering axis (offset position). [00285] Furthermore, since the portable terminal support 55 is attached to the upper supports 42 and the lower supports 41 on the support 40 of the steering handlebar, it is possible to reduce the number of related components to provide the portable terminal support. [00286] In addition, the instrument panel 33 is arranged in front of the steering handle tube 10, the portable terminal bracket 55 secures the personal digital assistant P so that the upper end of the personal digital assistant P is close to the view V2 in which the driver seated on seat 16 looks at the lower end of the instrument panel 33. [00287] It is therefore possible to ensure excellent visibility of the instrument panel 33 and the personal digital assistant P. [00288] In addition, the portable terminal support 55 is provided with: the base 55A which is placed above the upper supports 42L and attached to the lower supports 41L; and the locking parts (63 and 64) that protrude from the base 55A and hold the personal digital assistant. [00289] Since the 42L upper supports are covered with the 55A base, the protective performance of the 42L upper supports and an excellent whole appearance of the vehicle can be obtained. [00290] Furthermore, since the base 55A is formed in an inclined back and down shape, it is easy to arrange the personal digital assistant P in the position that is easily visible to the driver, and an excellent appearance is obtained. [00291] Furthermore, the portable terminal support 55 includes the shaft part (59) which is parallel to the direction of extension of the tube 10 of the steering handlebar which is maintained by the support 40 of the steering handlebar, and the locking parts ( 63 and 64) can be rotated about the shaft part (59). [00292] Since the shaft part (59) is arranged behind the tube 10 of the steering handlebar, the portable terminal support 55 is prevented from projecting in the vertical direction due to the provision of the shaft part, and it is possible to rotate the locking part in a compact situation. [00293] Next, a modified example 1 of the aforementioned embodiment will be described with reference to FIG. 18. [00294] In particular, in each modified example that will be described below, identical symbols are used for the constituent elements that are the same as those of the aforementioned modality, and their detailed explanations are omitted here, and the direction of the vehicle is used as a reference. [00295] In modified example 1, a disk-shaped visor 122 is provided above the upper supports 42L and 42R. [00296] The visor 122 is secured by the screws 45 in order to project towards the outside of the upper supports 42L and 42R such as backward, forward, right and left. [00297] A stay 124, which can rotate about an axis of rotation 123 as an axis that extends in the direction of the width of the vehicle, is supported on the upper surface of the visor 122. [00298] The base 62 which is similar to the aforementioned embodiment is fixed at the end of the stair 124 so that the first locking part 63 and the second locking part 64 are directed towards the driver. [00299] Furthermore, in modified example 1, the voltage converter 70 is attached to the bottom surface of the visor 122, and the voltage converter 70 is covered with the visor 122 from top to bottom. [00300] In addition, a flange part 71 of the voltage converter 70 is in contact with the bottom surface of the visor 122, and the voltage converter 70 is fixed to the visor 122 with a screw passing through the flange part 71. [00301] In the aspect of modified example 1, since the visor 122 covering the voltage converter 70 from top to bottom is attached to the support 40 of the steering handlebar, the voltage converter 70 can be protected against rain or the like . [00302] Furthermore, since the voltage converter 70 is attached to the visor 122, the visor 122 and the voltage converter 70 are integrated in a small set and attached to the support 40 of the steering handlebar, it is possible to obtain a level high operability of the assembly for them. [00303] Next, a modified example 2 of the above-mentioned embodiment will be described with reference to FIG. 19. [00304] In modified example 2, voltage converter 70 is not attached to visor 122 of modified example 1 described above. [00305] A hole portion 125 that is compressed downwards is formed in the upper part of the steering handle cover 48, and the voltage converter 70 is accommodated in the hole portion 125. [00306] On the other hand, visor 122 functions only as a member that covers voltage converter 70 from top to bottom. [00307] In addition, a through hole 125A that is used for the relay electrical cable 74 that penetrates through the cover 48, extends from the voltage converter 70, and serves as a wiring, is formed under the hole part 125 . [00308] In the modified example 2 aspect described above, it is possible to keep the voltage converter 70 in a stable state. [00309] Next, a modified example 3 of the aforementioned embodiment will be described with reference to FIG. 20. [00310] In modified example 3, as shown in FIG. 20, a portable terminal support is provided with: a base plate 130 which is attached to the support 40 of the steering handlebar; a stay 132 which is rotatably supported by a axis of rotation 131 disposed on the upper surface of the base plate 130 to extend in the direction of the width of the vehicle; a retaining plate 133 which is attached to the end of the pole 132; a ball junction part 135 which is pivotally attached to a spherical surface receiving part 134 formed on the retaining plate 133, can maintain its orientation in a constant state, and allows a part of it to be exposed to the receiving part spherical surface 134; a disk-shaped base 136 that is coupled to the part of the ball junction part 135 that is exposed to the spherical surface receiving part 134; and a pair of locking ends 137 which is provided vertically on the base 136. [00311] The ball joint part 135 is made of an elastic material and pressed into the spherical surface receiving part 134. [00312] Each locking end 137 is formed in an L shape in the cross section, where one end of each locking end 137 is coupled to the base 136, and the locking end 137 is provided vertically on the base 136 in a state wherein the other locking ends 137 face each other. [00313] Furthermore, the positive charge terminal 56 and the negative charge terminal 57 are provided on the inner surface of the base end side of one of the locking ends 137. [00314] On the other hand, a locked end 138 which must be coupled with a pair of locking ends 137 is provided on the rear surface wall part 82 of the personal digital auxiliary box C. [00315] The locked end 138 is provided with: a plate-shaped base part 139 which is fixed to the part of the rear surface wall 82 in a state in which it is in contact with it; and a pair of claw parts 140 which is provided vertically in the base part 139 and formed in an L shape in the cross section. [00316] Paired claw parts 140 include: first parts that are located between the base part 139 and the bending parts; and second parts that are located between the flexion parts and their ends. [00317] The first parts of the paired claw parts 140 extend in the direction in which they approach each other. [00318] The second parts extend the flexing parts towards their end in the direction that are away from each other. [00319] Furthermore, in the event that the axis line that passes through the intermediate position between the claw parts 140 and extends in the direction in which the paired claw parts 140 are provided vertically are defined as a reference, the surfaces slopes that gradually approach the aforementioned axis line in the direction of vertical provision are formed at the ends of the paired claw parts 140. [00320] Furthermore, the positive contact point 104 and the negative contact point 105 are provided at one end of the paired claw parts 140. [00321] In modified example 3, when the personal digital auxiliary box C is attached to the portable terminal support, the paired claw parts 140 mentioned above are coupled with the paired locking ends 137 in order to push between them. [00322] At that moment, since the first parts that go from the base part 139 to the flexion parts are formed in a shape that extends in the direction in which they approach each other, as a result of the contact of the inclined surfaces of the ends of the claw parts 140 with the locking ends 137, the claw parts 140 are easily flexed, and the ends of the claw parts 140 can be smoothly coupled with the interiors of the locking ends 137. [00323] Furthermore, in the state in which the ends of the claw parts 140 are coupled with the interiors of the locking ends 137, the positive charge terminal 56 and the negative charge terminal 57 are electrically conducted to the positive contact point 104 and the negative contact point 105, respectively. [00324] Next, a modified example 4 of the above mentioned modality will be described with reference to FIGURES 21A and 21B. [00325] In modified example 4, the positions of the positive charge terminal 56 and the negative charge terminal 57 are different from those of the aforementioned modality. [00326] Furthermore, according to this, the settings of the positive contact point 104 and the negative contact point 105 of the personal digital auxiliary box C are also different from those of the modality described above. [00327] Furthermore, the configuration that excludes these points is the same as that of the modality described above. [00328] As shown in FIG. 21 A, in modified example 4, the positive charge terminal 56 and the negative charge terminal 57 are arranged on the base 62 and between the first locking part 63 and the second locking part 64 in the direction in which the first locking part 63 and the second locking part 64 are arranged. [00329] Each of the positive charge terminal 56 and the negative charge terminal 57 is formed by a rectangular plate member. [00330] The positive charge terminal 56 and the negative charge terminal 57 are maintained in a state in which one end of the plate member in its longitudinal direction is fixed to the base 62 and the other end of the plate member is separated from the base 62. [00331] Furthermore, a spring 145 is provided between the base 62 and the part on each side of the end of the positive charge terminal 56 and the negative charge terminal 57 and impels the part on each side of the end of the positive charge terminal 56 and the negative load terminal 57 in a direction away from the base 62 (the elastic restoring force is operated). [00332] On the other hand, in the personal digital auxiliary box C, the positive contact point 104 and the negative contact point 105 are provided in the part of the rear surface wall 82 of the main body 80 of the box and between the first lock 102 and the second lock hole 103 to match the positions of the positive charge terminal 56 and the negative charge terminal 57. [00333] Here, in the modified example, the first locking part 63 and the second locking part 64 can be configured so that they have a locking function, and each of them may be able to oscillate. [00334] In the aspect of modified example 4, when the personal digital auxiliary box C is attached to the portable terminal support as shown in FIG. 21B, the positive charge terminal 56 and the negative charge terminal 57 are in contact with the positive contact point 104 and the negative contact point 105, respectively, in a state of applying pressure to them. [00335] Therefore, stability in loading is ensured. [00336] The aspect described above can also be used effectively for motorcycles where, for example, the vibration is relatively high. [00337] Next, a modified example 5 of the above-mentioned modality will be described with reference to FIGURES 22A and 22B. [00338] In modified example 5, the positions of the positive charge terminal 56 and the negative charge terminal 57 are different from those of the modality described above, and a wireless charging system is adopted. [00339] Furthermore, according to this, the settings of the positive contact point 104 and the negative contact point 105 of the personal digital auxiliary box C are different from those of the modality described above. [00340] Furthermore, the configuration that excludes these points is the same as that of the modality described above. [00341] As shown in FIG. 22A, in modified example 4, a power supply 151 that accommodates a transmitting coil 150 in it is provided on the base 62 and between the first locking part 63 and the second locking part 64 in the direction in which the first locking part 63 and the second locking part 64 are arranged. [00342] The power supply 151 is inserted into a hole part 152 formed in the base 62, a spring 153 is provided between the bottom part of the hole part 152 and the power supply 151, and the power supply 151 is secured through the hole part 152 and can be inserted in the bottom side of it in a state in which it is pressed by the spring 153. [00343] In addition, the transmitting coil 150 is configured to be able to allow an electric current that comes from battery B to flow. [00344] In particular, in FIG. 22A, reference numeral 151A represents a retainer that protrudes from the outer peripheral face of the power supply 151 towards its exterior, and the retainer 151A prevents the power supply 151 from being removed from the hole portion 152 of the power supply 151. [00345] Here, in the modified example, the first locking part 63 and the second locking part 64 can be configured so that they have a locking function, and each of them may be able to oscillate. [00346] On the other hand, in the personal digital auxiliary box C, a receiving coil unit is provided within the wall part of the rear surface 82 of the main body 80 of the box. [00347] The receiving coil unit 154 is connected to the load connector 100. [00348] The receiving coil unit 154 includes: a coil 154A which is arranged within the part of the rear surface wall 82 and on the outer surface side of the portable terminal support 55; and a substrate 154B that is arranged closer to the side of the inner surface than coil 154A; and the substrate 154B is provided with a circuit that converts an alternating current generated in the coil 154A into a direct current and supplies this to the load connector 100. [00349] In the aspect of modified example 5, when the personal digital auxiliary box C is attached to the portable terminal support as shown in FIG. 22B, the power supply 151 is in contact with the rear surface wall part 82 of the main body 80 of the box in a state in which it is pressed against it. [00350] Therefore, as a result of the fact that the electric current flows to the transmission coil 150 and that a magnetic flux is allowed to be generated to pass through this coil 154A of the receiving coil unit 154, an electric current flows for the receiving coil unit 154, and it is possible to supply electrical power to the load connector 100. [00351] The modified example 5 described above provides excellent waterproofing. [00352] Furthermore, in the example, a constitution in which the coil 154A and substrate 154B are arranged and stacked in the direction of the thickness of the back surface wall part 82 is illustrated, and their positions are not particularly limited to this, and another aspect can be adopted. [00353] For example, as shown in FIGURES 23A and 23B, substrate 154B can be displaced from coil 154A in a direction parallel to the surface of the rear surface wall part 82 (displaced). [00354] Furthermore, substrate 154B is moved to hinge axis 85 in FIGURES 23A and 23B, and substrate 154B can be moved to its opposite side. [00355] Next, a modified example 6 of the above-mentioned embodiment will be described with reference to FIG. 24. [00356] The configuration of the personal digital auxiliary box C of modified example 6 is different from that of the modality described above. [00357] Furthermore, the configuration that excludes these points is the same as that of the modality described above. [00358] As shown in FIG. 24, in modified example 6, for example, a rectangular opening 155 is formed at part 96 of the contact surface of the rear surface of the spacer 95, and opening 155 allows the inner surface of the portion 82 of the rear surface wall of the main body 80 of the box expose a space of the housing of the main body 80 of the box. [00359] A heat conductive sheet 156 that has substantially the same shape as that of the opening is provided inside the opening 155, and the heat conductive sheet 156 is configured to contact the rear surface of the personal digital auxiliary P when the personal digital assistant P is accommodated. [00360] The heat conductive sheet 156 is made, for example, of a material containing silicone or the like. [00361] On the other hand, for example, a pair of rectangle-shaped openings 157 are formed on both sides of the rear surface wall part 82 of the main body 80 of the box to press the region where the first locking hole 102 and the second locking hole 103 are provided. [00362] The openings 157 communicate the space of the housing of the main body 80 of the box to its external part. [00363] Furthermore, the heat radiation members 158 are provided in such openings 157. [00364] In addition, such radiation members 158 are in contact with the heat conductive sheet 156 on the surface where they are located in the housing space of the main body 80 of the box and are configured so that the outer surface of the main body 80 of the box is on the same plane as that of the outer surface of the rear surface wall part 82. [00365] In particular, as a material used to form the heat radiation members 158, it is preferable to use a material that provides excellent radiation performance, such as an aluminum alloy. [00366] In the modified example 6 described above, since the heat from the personal digital auxiliary P which is accommodated in the main body 80 of the box can be discharged on its outside through the heat conducting sheet 156 and the heat radiation members 158, the configuration described above can be used particularly and effectively under a relatively high temperature condition such as a vehicle to be driven on a saddle or the like. [00367] Furthermore, the case in which the spacer 95 is provided is illustrated, and it is not necessary to provide the spacer 95. [00368] In this case, the heat radiation members 158 are provided inside the openings 157 so that the surfaces of the heat radiation members 158 that form the housing space come into contact with the rear surface of the personal digital assistant P when the personal digital assistant P is accommodated. [00369] Next, FIGURES 25A and 25B are views showing a modified example 7. [00370] In the modified example, screw fastening holes 42C other than through holes 42B are formed in positions located outside the through holes 42B of the upper support 42. [00371] Therefore, the base 55A of the portable terminal support 55 is coupled to the upper support 41 through the screw fastening holes 42C. [00372] As mentioned above, the embodiment of the invention is illustrated; however, the technical scope of the invention is not limited to the above modalities, and various modifications such as the examples described above can be made without departing from the scope of the invention. [00373] In particular, in the aforementioned embodiment, the example in which the positive charge terminal 56 and the negative charge terminal 57 are provided in the second locking part 64 is illustrated. [00374] Not only this modality, but an aspect in which the positive charge terminal 56 and the negative charge terminal 57 are provided in the first locking part 63 is also adopted as a modified example. [00375] Furthermore, an aspect in which the positive charge terminal 56 and the negative charge terminal 57 are provided in the first locking part 63 and the second locking part 64, respectively, is adopted. [00376] Furthermore, in the above-mentioned embodiment, the structure in which two transparent plate members 94 are provided in the window 93 of the cover member 81 is described; however, the only transparent plate member 94 is provided therein and a countermeasure against turbidity can be provided to the transparent plate member 94 by forming a defroster member on the transparent plate member 94. [00377] In particular, as a defroster member, for example, a solvent medium or the like including a surface tension agent can be used. [00378] In addition, an electroconductive material is used as a material of the transparent plate member 94 and a touch panel can be used. [00379] Furthermore, in the embodiment described above shown in FIG. 8, the example is described in which the voltage converter 70 is arranged on the upper surface of the rear middle part 47 of the cover 48 of the steering handlebar, and between the lower right and left supports 41L and 41R when viewed in the axial direction of the line L1 of the steering axle so that a part of it is positioned behind the line that connects the front ends of the lower right and left 41Le41R supports. [00380] The voltage converter 70 can be arranged in front of the cover 48 of the steering handlebars. [00381] In this case, when an electrical cable connecting battery B and voltage converter 70 is provided in front of the steering shaft, it is possible to shorten the electrical cable, and the electrical cable can be easily prevented from being pulled due to direction and oscillation, and it is possible to improve the protection performance of the electric cable. [00382] Furthermore, in the aforementioned embodiment shown in FIG. 8, the example is illustrated in that the power supply which is constituted by the positive charge terminal 56 and the negative charge terminal 57 is provided in the part 64A located in the direction in which the L-shaped bending part of the second part of lock 64 is placed vertically, that is, in part 64A that faces the personal digital assistant P. [00383] The power supply can be provided at the end of the second locking part 64 and on the surface facing the base 62 as indicated by β shown in that drawing. [00384] In this case, the positive charge terminal 56 and the negative charge terminal 57 are in a state where they are not exposed to their outer part as much as possible, and the performance of the water impermeability and protection of the charge terminal positive 56 and negative load terminal 57 can be obtained reliably even before the pre-insertion state of the locking hole. [00385] Furthermore, in this case, the positive contact point 104 and the negative contact point 105 in the locking holes of the personal digital assistant box C are provided positionally on the surface facing the personal digital assistant P in the locking holes. [00386] In addition, the personal digital assistant P of the aforementioned modality includes several information terminals, a tablet-type device, a navigation device, or the like, as well as a so-called smartphone, which can receive electrical power.
权利要求:
Claims (10) [0001] 1. A vehicle to be driven on a saddle, comprising: a front fork (7) that rotatively supports a front wheel (6); a steering axle (9) which is coupled to the front fork (7) and supported in a manipulable manner by a frame of the vehicle body (11); a steering handlebar support (40) comprising a lower support (41R, 41L) and an upper support (42R, 42L) and is provided above the steering axle (9), wherein the upper support (42R, 42L) is in contact with the lower support (41R, 41L) from top to bottom and attached to the lower support (41R, 41L); and a portable terminal support (55) attached to the upper support (42R, 42L) or to the lower support (41R, 41L), the portable terminal support (55) including: a first base (62); a pair of first and second locking parts (63, 64); and a positive charge terminal (56) and a negative charge terminal (57), the first and second locking parts (63, 64) being provided on the first base (62), the first and the second locking parts ( 63, 64) being able to contain a personal digital assistant (P); characterized by a connection line (68) which is electrically connected to a battery (B) and is electrically conducted to the positive charge terminal (56) and the negative charge terminal (57) where the battery (B) supplies electrical energy to the connection line (68), the positive charge terminal (56) and the negative charge terminal (57) supply electrical power to the personal digital assistant (P) from the battery (B) via the connection line (68) ; and a steering system (S) which consists mainly of the front wheel (6), the front fork (7), the steering axle (9) and a steering handle tube (10), in which the steering wheel steering handlebar (10) is sandwiched between the lower support (41R, 41L) and the upper support (42R, 42L) and is fixed to the steering handlebar support (40) in the steering system (S). [0002] 2. Vehicle to be driven in a saddle, according to claim 1, characterized in that the portable terminal support (55) is attached to the lower support (41R, 41L) and the upper support (42R, 42L), and the upper support ( 42R, 42L) and the portable end support (55) are clamped together with the lower support (41R, 41L). [0003] 3. Vehicle to be driven in a saddle, according to claim 1 or 2, characterized in that the portable terminal support (55) secures the personal digital assistant (P) so that the personal digital assistant (P) is located on a line length of a steering axle line (L1) from the steering axle (9). [0004] 4. Vehicle to be driven in a saddle, according to any one of claims 1 to 3, characterized in that it additionally comprises: an instrument panel (33) arranged in front of the steering handle tube (10), in which the digital auxiliary (P) is contained by the portable terminal support (55), and in a case where a driver sitting on a seat (16) looks at the instrument panel (33) along a line of sight where the driver looks at a upper end of the personal digital assistant (P), the portable terminal bracket (55) secures the personal digital assistant (P) so that a substantially lower edge of the instrument panel (33) is located in the line of sight. [0005] 5. Vehicle to be driven on a saddle, according to claim 4, characterized by the fact that in a box where the personal digital assistant (P) is contained by the portable terminal support (55), where an angle between a line of sight (V1) when the driver looks at an upper end of the instrument panel (33) and a line of sight (V2) when the driver looks at the upper end of the personal digital assistant (P) is represented as a first angle of view (01) ; and an angle between the line of sight (V1) when the driver looks at the upper end of the personal digital assistant (P) and a line of sight (V3) when the driver looks at a lower end of the personal digital assistant (P) is represented as a second viewing angle (02), a ratio of the first viewing angle (01) + the second viewing angle (02) <90 degrees is established, in which an angle between a straight line extending forward and upwards in a direction parallel to a surface of an instrument panel display unit (33) and the line of sight (V1) when the driver looks at an upper end of the instrument panel (33) is represented as a first angle of the eye point (θα); and an angle between a straight line extending forwards and upwards in a direction parallel to a surface of the personal digital assistant (P) and the line of sight (V2) when the driver looks at the upper end of the personal digital assistant ( P) is represented as a second angle of the eye point (θβ), a 90 degree relationship <the first angle of the eye point (θα) <180 degrees and a 90 degree relationship <the second angle of the eye point ( θβ) <180 degrees is established. [0006] 6. Vehicle to be driven in a saddle, according to claim 4 or 5, characterized by the fact that, where an angle between a horizontal line of sight (H) when the driver looks forward and upwards along a horizontal direction parallel to an earth surface and a straight line (LP) extending forward and upward in a direction parallel to a surface of an instrument panel display unit is represented as an angle of inclination of the panel ( θα '); an angle between the horizontal line of sight (H) when the driver looks forward and upward along the horizontal direction parallel to the earth's surface and a straight line (LC) that extends forward and upward in one direction parallel to a surface of the personal digital assistant (P) is represented as a terminal tilt angle (θβ '), a panel tilt angle relationship (θα')> the terminal tilt angle (θβ1) is established. [0007] Vehicle to be driven in a saddle according to any one of claims 1 to 6, characterized in that the portable terminal support (55) is configured to include: a second base (55A) which is attached to the lower support (41R, 41L ), and the upper support (42R, 42L) is covered with the second base (55A). [0008] Vehicle to be driven in a saddle, according to claim 7, characterized in that the locking portion (63, 64) protrudes from the second base (55A). [0009] 9. Vehicle to be driven in a saddle, according to claim 7, characterized in that the second base (55A) is formed in an inclined forward and backward shape. [0010] 10. Vehicle to be driven in a saddle, according to claim 1, characterized in that the portable terminal support (55) is provided with a spring (145) provided between the first base (62) and the energy supply (151).
类似技术:
公开号 | 公开日 | 专利标题 BR112014007638B1|2020-11-17|vehicle to be driven on a saddle JP6158478B2|2017-07-05|Non-contact charging structure of portable information terminal in vehicle JP6633187B2|2020-01-22|Two wheel dynamic balance scooter BRPI0304117B1|2017-06-06|navigation system applied to saddle-type riding vehicle US9096162B2|2015-08-04|Information display system for vehicle, information display method for vehicle, vehicle and mounting member TWI242511B|2005-11-01|Remote lock operation apparatus for light vehicle EP2810859A1|2014-12-10|Storage structure of portable information terminal for motorcycle vehicle JP6055600B2|2016-12-27|Arrangement structure of voltage converter for portable information terminal in saddle riding type vehicle JP6175217B2|2017-08-02|Charging structure of portable information terminal JP2009241620A|2009-10-22|Vehicle speed meter for motorcycle TW590948B|2004-06-11|Vehicle with solar cell ES2275467T3|2007-06-16|BATTERY BLOCK DEVICE FOR ENERGY DRIVING BICYCLE. EP1914156A1|2008-04-23|Rearview system for bicycles JP6022875B2|2016-11-09|Mounting structure of portable information terminal for saddle-ride type vehicle TWI549852B|2016-09-21|Saddle-ride type vehicle JP3956721B2|2007-08-08|Small electric vehicle JP5620898B2|2014-11-05|Electric vehicle JP2019126257A|2019-07-25|Electronic apparatus JP2013209069A|2013-10-10|Portable information terminal support structure in saddle riding type vehicle JP2015006846A|2015-01-15|Fitting structure for meter cluster and meter cluster
同族专利:
公开号 | 公开日 EP2738073B1|2019-11-27| EP2740652B1|2017-01-11| JP5826314B2|2015-12-02| JP5744264B2|2015-07-08| JP5953330B2|2016-07-20| BR112014007638A2|2017-04-11| WO2013129421A1|2013-09-06| EP2738073A4|2014-07-30| JP2014097798A|2014-05-29| JP2014097796A|2014-05-29| KR101557599B1|2015-10-05| US9346413B2|2016-05-24| EP2759460B1|2019-11-13| US20150158433A1|2015-06-11| CN103764490B|2016-02-24| KR20140050096A|2014-04-28| EP2740658A1|2014-06-11| EP2759460A1|2014-07-30| EP2740652A1|2014-06-11| ES2615112T3|2017-06-05| AU2013227095A1|2014-04-03| JP2014097797A|2014-05-29| AU2013227095B2|2015-10-15| EP2738073A1|2014-06-04| CN103764490A|2014-04-30| JPWO2013129421A1|2015-07-30| JP5604608B2|2014-10-08| IN2014CN02362A|2015-06-19|
引用文献:
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法律状态:
2018-12-04| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]| 2020-01-21| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]| 2020-07-21| B09A| Decision: intention to grant [chapter 9.1 patent gazette]| 2020-11-17| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 26/02/2013, OBSERVADAS AS CONDICOES LEGAIS. |
优先权:
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申请号 | 申请日 | 专利标题 JP2012-047114|2012-03-02| JP2012047114|2012-03-02| PCT/JP2013/055010|WO2013129421A1|2012-03-02|2013-02-26|Saddle-type vehicle| 相关专利
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