阅读说明：本技术 用于两轮车辆的脚踏组件 (Pedal assembly for two-wheeled vehicle ) 是由 D·A·戈文德 K·帕扬加巴丹 于 2020-03-05 设计创作，主要内容包括：一种用于两轮车辆的脚踏组件。脚踏组件包括支撑元件,该支撑元件部分地附接到车辆的侧板(LH和RH)和跨步部分。脚踏组件附接到支撑元件,并且支撑元件包括凹部,脚踏组件在闭合状态下完美容纳在该凹部中。脚踏组件在闭合状态下相对于地面成不超过45度的角度。脚踏组件包括顶部表面和底部表面,其中在脚踏组件处于闭合状态时,底部表面位于与侧板(LH和RH)的平面相同的平面。支撑元件沿平面AA’延伸,并且在脚踏组件处于打开状态时,顶部表面也位于与支撑元件的平面AA’相同的平面AA’。(A footrest assembly for a two-wheeled vehicle. The footrest assembly includes a support member that is partially attached to the side plates (LH and RH) and the stride portion of the vehicle. The footrest assembly is attached to the support element and the support element comprises a recess in which the footrest assembly is perfectly accommodated in the closed state. The footrest assembly is angled relative to the ground at no more than 45 degrees in the closed position. The footrest assembly includes a top surface and a bottom surface, wherein the bottom surface is in the same plane as the plane of the side plates (LH and RH) when the footrest assembly is in the closed state. The support member extends along a plane AA ', and the top surface also lies in the same plane AA ' as the plane AA ' of the support member when the footrest assembly is in the open position.)

1. A straddle-type two-or three-wheeled vehicle (10) comprising:

A main frame assembly (1) including a head pipe (2) formed at a front portion of the vehicle (10) and a main pipe (3) extending in a downward and rearward direction from the head pipe (2) to form a step structure (3S);

a side pipe LH (4) and a side pipe RH (5) covered by a side plate LH (21) and a side plate RH, the side pipe LH (4) and the side pipe RH being disposed substantially in parallel and in a width direction of the vehicle (10), wherein the side pipe LH (4) and the side pipe RH extend in an upward and rearward direction from the straddle structure (3S);

a support element (22), the support element (22) being partially attached to the step structure (3S) and at least one of the side plate LH (21) and the side plate RH, wherein the support element (22) comprises a recess (R) formed in the support element (22); and

a footrest assembly (5), the footrest assembly (5) being attached to the support element (22), wherein the footrest assembly (5) in the closed state is accommodated in the recess (R) at a predetermined steep angle relative to the ground.

2. The vehicle (10) of claim 1, wherein the footrest assembly (5) is at a steep angle of 40 to 50 degrees relative to the ground in the closed state.

3. The vehicle (10) of claim 1, wherein the support element (22) extends in a rearward direction along a plane AA' in a length direction of the vehicle (10).

4. The vehicle (10) of claim 1, wherein the width of the footrest assembly (5) increases along the plane AA'.

5. Vehicle (10) according to claim 1, wherein the footrest assembly (5) comprises a top surface (T) and a bottom surface (B), the top portion (T) of the footrest assembly (5) in the open condition lying in the same plane AA' as the plane of the support element (22).

6. Vehicle (10) according to claim 1 or claim 5, wherein in the closed state of the footrest assembly (5), the bottom portion (B) is visible and the top portion (T) is hidden in the recess (R).

7. Vehicle (10) according to claim 1 or claim 5, wherein the bottom portion (B) of the footrest assembly (5) in the closed condition lies in the same plane as the plane of the side plates (LH and RH).

8. The vehicle (10) of claim 1, wherein the step assembly (5) is disposed on at least one of the side plate LH (21) and the side plate RH.

9. A footrest assembly (5) for a riding two-or three-wheeled vehicle (10), the footrest assembly (5) being detachably attached to a support element (22), the support element (22) being partly attached to a step structure (3S) of the vehicle (10) and to at least one of a side plate LH (21) and a side plate RH, the support element (22) comprises at least three substantially angled portions including a first portion (22(a) substantially parallel to a floor plane of the vehicle (10), a continuum second portion (22(b)) configured to be oriented at a steep predetermined angle "a" relative to the floor plane of the vehicle (10) and a horizontal plane of the vehicle (10), and a continuum third portion (22(c)) substantially parallel to the first portion (22 (a)).

10. Footrest assembly (5) according to claim 9, wherein the three portions (22(a), 22(b), 22(c)) jointly constitute for mounting the footrest assembly (5) at the steep predetermined angle "a", the three portions (22(a), 22(b), 22(c)) being configured to arrange the rotation axis (P-P ') of the footrest assembly (5) at a substantially steep predetermined angle "a" with respect to a horizontal plane (H-H').

Technical Field

The present invention relates to a riding vehicle, and more particularly to a footrest assembly for a riding vehicle.

Background

Generally, in a saddle-ride type two-or three-wheeled vehicle, a body frame extends rearward from a head pipe. The main body frame serves as a vehicle frame that supports a vehicle load. The front portion of the body frame is connected to the front wheels by one or more front suspensions. Further, the main body frame extends toward a rear portion of the vehicle. The rear wheels are connected to the frame assembly by one or more rear suspensions. The engine assembly is mounted to a frame assembly of the vehicle. The engine assembly is functionally connected to the rear wheels, which provide forward motion to the vehicle. Typically, a plurality of panels are mounted to a frame assembly of the vehicle to cover various vehicle components mounted on the frame assembly.

Typically, a riding vehicle is provided with a footrest assembly that a rear seat passenger uses to rest his/her feet. In most cases, the footrest assembly is attached to the vehicle body/board, and in some cases, the footrest assembly is also attached to the frame assembly. In addition, the footrest assembly also adds to the aesthetics of the vehicle. Thus, it can be said that the footrest assembly is provided for two important purposes, namely, the comfort of the rear seat and the aesthetics of the vehicle. In addition, the footrest assembly is an element that provides support and comfort to the vehicle, and also enhances its aesthetic appearance. However, challenges exist in improving these important features of the footrest assembly.

Typically, a rear seat passenger opens the footrest assembly for use with his/her legs, and this process should be as fluid as possible. However, this is not the case in most prior art techniques, as it takes a lot of time for the rear seat passenger to open it, and in some cases he/she has to bend over and use his/her hands to do so. This is a great inconvenience for the rear seat passengers. In addition to this, aesthetics is another important feature to consider. Due to the continued use, the footrest assembly becomes dirty because the rear seat occupant has his/her feet resting thereon during riding in the vehicle. It is not possible for a rider or rear seat passenger to clean the footrest assembly after each use and, in the event of an unclean condition, the aesthetics of the vehicle can be compromised. Furthermore, it is also important how the footrest assembly is arranged or arranged on the vehicle, since even the layout of the footrest assembly plays an important role in the appearance of the vehicle. Furthermore, if any of the footrest assemblies attempt to simultaneously solve the above-mentioned problems, some additional elements must be required, which makes the entire system heavy, bulky, complex and difficult to repair/maintain.

Drawings

The present subject matter is described in detail with reference to the accompanying drawings. Throughout the drawings, the same reference numerals are used to refer to the same features and components.

Fig. 1 illustrates a side view of an exemplary two-wheeled vehicle, according to an embodiment of the present subject matter.

Fig. 2 illustrates a side view of a rear portion of the exemplary two-wheeled vehicle shown in fig. 1, in accordance with an embodiment of the present subject matter.

FIG. 3 illustrates a perspective view of a footrest assembly in an attached state with the exemplary two-wheeled vehicle shown in FIG. 1 in accordance with an embodiment of the present subject matter.

FIG. 4 illustrates a perspective view of the footrest assembly in a closed position in accordance with an embodiment of the present subject matter.

FIG. 5 illustrates a perspective view of the footrest assembly in an open position in accordance with an embodiment of the present subject matter.

Detailed Description

Generally, a saddle-ride type two-or three-wheeled vehicle includes a frame structure including a head pipe existing in a front portion of the vehicle. The frame structure further includes a down tube extending in a downward and rearward direction from the head tube and a main tube extending in a straight line and a forward direction from the head tube. Typically, the vehicle body/panel surrounds the frame structure to provide aesthetics and to cover the structure. In addition, vehicles include an engine assembly/electric system that powers the vehicle. In most cases, this arrangement of engine assembly/electrical system is also mounted on the frame structure of the vehicle.

Typically, the vehicle includes a footrest assembly for a rear seat occupant to support his/her feet. The footrest assembly is attached to either the frame structure or the vehicle body. In addition to the weight bearing purpose, the footrest assembly is provided to enhance the aesthetics of the vehicle. However, even after the footrest assembly is implemented, there is still a problem that the rear seat passenger faces discomfort.

One of the major problems facing a rear seat passenger with respect to the footrest assembly is the opening and easy access of the footrest assembly. It has been observed that a rear seat passenger cannot simultaneously comfortably operate the footrest assemblies and, in some cases, needs to bend over and use his/her hands to operate. Typically, the footrest assembly is provided with a configuration of side plates that are parallel to the ground, in close proximity to the vehicle body. This makes it more difficult for a rear seat occupant to operate the footrest assembly provided in the vehicle.

One of the other problems facing rear seat passengers is providing comfort to the rear seat passengers. In most cases, the footrest assembly typically includes a lean profile that meets aesthetic needs. However, this does not adequately provide support and comfort to the rear seat occupant's feet because a substantial portion of the feet are in a suspended condition. Furthermore, if the foot rest assembly were contoured to provide comfort, the aesthetics and appearance would be compromised.

Further, the rear seat passenger continuously puts his/her feet on the top surface of the rear seat step, so that the step becomes dirty and easily stained with dirt and dust. It is not possible for the rider and rear seat passenger to regularly clean the footrest assembly. Thus, a soiled rear seat footrest assembly detracts from the aesthetics of the vehicle.

Accordingly, it is an object of the present subject matter to provide a footrest assembly that can be easily and simply used and opened while solving all of the problems mentioned and other problems in the prior art. In addition, the present subject matter provides a footrest assembly with improved support and comfort. In accordance with one aspect of the present subject matter, the footrest assembly also enhances the aesthetic appearance of the vehicle.

In an embodiment, a footrest assembly is provided for a two-wheeled vehicle. In accordance with an embodiment of the present subject matter, a vehicle includes a support element attached to either of a left-hand (LH) side plate and a right-hand (RH) side plate. The support element is partially attached to the side panels (LH and RH) of the vehicle and partially attached to the stride portion. In an embodiment, the footrest assembly is attached to a support element. Further, the support element includes a recess formed therein. In the closed state, the footrest assembly fits perfectly in the formed recess. In accordance with embodiments of the present subject matter, the footrest assembly is disposed at an angle of no more than 45 degrees relative to the ground in the closed position. This configuration facilitates easy opening of the footrest assembly by a rear seat occupant.

According to embodiments of the present subject matter, the top portion of the footrest assembly is hidden and contained in the recess in the closed state, and only the bottom portion of the footrest assembly is visible. Thus, with this configuration, the dirtiest portion of the footrest assembly, i.e., the top surface on which the foot rests, is concealed in the closed position. In an embodiment, the support member extends in a partially rearward direction from the direction of the footrest assembly. Thus, the support elements extending partially rearward from the footrest assembly provide additional support to the feet of the rear seat occupant so that they are no longer suspended. Thus, additional support is created without increasing the profile of the footrest assembly.

Thus, the footrest assembly, which is directed upwardly in the closed position, is at an oblique angle to the ground. For example, the footrest assembly in the closed position is at an angle of inclination of approximately 45 degrees to the ground, which makes it easier for a rear seat occupant to operate it. For example, such tilting of the footrest assembly enables a user (particularly a rear seat rider) to open the footrest assembly and project the footrest assembly outward in the vehicle width direction whenever the rear seat rider desires to rest her feet on the footrests. In doing so, the inclined arrangement of the footrest assembly of the present invention enables a rear seat rider to comfortably use his feet to release the footrest from its closed position without being forced to position the footrest in the vehicle operating state. In a similar manner, closure of the footrest assembly is easily accomplished. Further, the recess in which the footrest assembly is received is configured to have a clearance for a rear seat passenger to open the footrest. Furthermore, the footrest assembly fits completely within the recess provided, which enhances aesthetics because the footrest assembly does not protrude outwardly as with other prior art vehicles. Furthermore, the top part of the footrest assembly is hidden in the recess in the closed state, so that any dirt or mud that has accumulated due to the feet of the rear seat occupant is also hidden or washed away during the closing operation. Thus, the footrest assembly is provided to further enhance the aesthetic appearance of the vehicle. Furthermore, the footrest assembly is attached to the support element, so that the side panels or any other parts of the vehicle body are not subjected to any load. According to an aspect of the present subject matter, the support element also provides an additional surface for the rear seat occupant to rest his/her feet.

Accordingly, the present subject matter provides a footrest assembly with improved ease of operation and improved support and comfort. In addition, the subject matter provides a footrest assembly that improves weight bearing and enhances the aesthetics of the vehicle.

The foregoing and other advantages of the present subject matter will be described in further detail below with reference to the drawings and embodiments of a two-wheeled riding vehicle.

The arrow provided in the upper right corner of each drawing depicts the direction relative to the vehicle, wherein arrow F represents the forward direction, arrow R indicates the rearward direction, arrow Up represents the upward direction, arrow Dw represents the downward direction, arrow Rh represents the right side, and arrow L represents the left side, where applicable.

Fig. 1 illustrates a left side view of an exemplary scooter-type vehicle (10) in accordance with an embodiment of the present subject matter. The vehicle includes a main frame assembly (1) made of carbon fiber and resin material and typically a chassis frame that provides a generally open central area to allow a rider to use the ride. Typically, the frame assembly (1) comprises a head pipe (2), a main pipe (3) and a pair of side pipes comprising a side pipe LH (4) and a side pipe RH (only one shown). The head pipe (2) is disposed toward the front portion, with the main pipe (3) extending downward and rearward from the head pipe (2), thereby forming a flat horizontal stride portion (3S). The other end of the main pipe (3) is connected to a pair of side pipes (LH and RH) through a bracket (not shown).

The head pipe (2) is configured to rotatably support a steering pipe (not shown) and is further connected at a lower end to a front suspension system (6). A handlebar support member (not shown) is connected to an upper end of the steering tube (not shown) and supports a handlebar assembly (9). The upper part of the front wheel (7) is covered by a front fender (8). A pair of side pipes (LH and RH) provided in parallel on either side of the vehicle (10) in the width direction extend from the other end of the main pipe (3). Each of the side pipes (LH and RH) extends from the main pipe (3) in an upwardly inclined manner, and gradually extends rearward in a substantially horizontal and parallel manner after a certain length so as to be positioned in the width direction of the vehicle. A plurality of cross tubes (not shown) are secured between a pair of side tubes (LH and RH) at selected intervals to support vehicle attachments including a utility box (12), a seat assembly (11), and a fuel tank assembly (not shown). Further, the vehicle includes a side plate LH (21) and a side plate RH (not shown) that cover the side pipes (LH and RH) and laterally cover the structure of the vehicle (10).

Typically, utility box (12) is supported between side tube LH (4) and side tube RH (not shown) so as to be disposed below seat (11). A fuel tank assembly (not shown) may be disposed between the rear portions of the pair of side pipes (LH and RH). In addition, the vehicle (10) includes footrest assemblies (5) attached to either and both sides of the vehicle (10) to provide support/rest for the feet of rear seat passengers. The vehicle (10) further includes a rear wheel (13) covered by a rear fender (14), wherein the tail light (15) is disposed on the rear fender (14) and the support bar (16) is disposed on the tail light (15) at an end of the seat assembly (11). The rear wheel (13) is supported toward the rear side of the main frame (1) by an Internal Combustion (IC) engine horizontally swingably coupled to the rear of the frame assembly (1) of the two-wheeled vehicle (10) through a rear suspension system (17). Since the rear wheels are directly coupled to the transmission system (i.e., IC engine) through a Continuously Variable Transmission (CVT) system (18), the transmission system directly transmits the driving force to the rear wheels. The vehicle further includes an air filter assembly to provide filtered air to the IC engine for combustion.

Fig. 2 illustrates a side view of a rear portion of the exemplary two-wheeled vehicle (10) shown in fig. 1, in accordance with an embodiment of the present subject matter. The two-wheeled vehicle includes a side plate LH (21) and a side plate RH (not shown) to cover the frame assembly (1), and in particular a side tube LH (4) and a side tube RH (not shown). According to the present subject matter, the supporting member (22) is provided in a state of being partially attached to the side plate LH (21) and the stride portion (3S). In an embodiment, the footrest assembly (5) is attached to a support element (22). According to one aspect of the subject matter, the footrest assembly (5) extends upwardly in the closed condition, oriented at a predetermined steep angle α relative to the ground. In accordance with one aspect of the present subject matter, the floor plane of the stride portion is substantially parallel to the ground and substantially coplanar with the base portion of the footrest mounting portion. In accordance with the present subject matter, the value of α is approximately a steep angle of about 45 degrees. Thus, the footrest assembly (5) is at a steep angle of 45 degrees relative to the ground in the closed state, and the angle may vary in a range between 40 degrees and 50 degrees. This orientation and assembly enhances the ease with which a rear seat occupant opens the footrest assembly (5) for use. Besides, the footrest assembly (5) is attached to the support element (22), and therefore, the load is first transmitted to the support element (22) and not directly transmitted to the side plate LH (21). According to the present subject matter, the footrest assembly (5) and the support element (22) are attached to one or both of the side plates (LH and RH). However, for the purpose of the present invention, the footrest assembly (5) and the support element (22) are considered to be attached to the side plate LH (21).

Fig. 3 illustrates a perspective view of the footrest assembly (5) in a state attached to the exemplary two-wheeled vehicle (10) shown in fig. 1, in accordance with an embodiment of the present subject matter. As explained above, the footrest assembly (5) is attached to the support member (22), wherein the support member (22) is partially attached to the side plate LH (21) and the stride portion (3S) of the vehicle (10). In an embodiment, the support element (22) extends in a partially rearward direction from the direction of the footrest assembly (5). The footrest assembly (5) comprises a top portion (T) and a bottom portion (B). The top portion (T) is the surface on which the rear seat passenger rests his/her feet. In an embodiment, the top surface (T) of the footrest assembly (5) is formed in a horizontal plane AA' extending along the length of the vehicle substantially parallel to the floor plane. According to an aspect of the present subject matter, the support element (22) is configured to be composed of three generally angled portions. The first portion (22a) is substantially parallel to the plane of the base plate. The continuum second portion (22b) is configured at a steep angle relative to a horizontal plane of the vehicle and positioned at a predetermined angle substantially equal to 'alpha'. The continuum third portion (22c) is substantially parallel to the first portion (22a) despite having a height different from the first portion (22a) such that the height is substantially equal to the height of the footrest assembly when deployed in the use configuration. These three portions ((22a), (22b), (22c)) together constitute a stable mounting for mounting the footrest assembly at a steep angle "α", thereby configuring the axis of rotation (P-P ') of the footrest assembly (as shown in FIG. 4) at a steep angle (as shown in FIG. 4) substantially equal to "α" with respect to the horizontal plane (H-H').

According to an aspect of the present subject matter, such a configuration enables the footrest to be deployed in a configuration such that its top surface (T) is substantially in the same plane as the third portion of the support element (22). The steep (22c) angle allows excess dirt and dust to be washed away from the top surface (T) of the footrest by gravity during the closed position of the footrest, thereby allowing for automatic cleaning of the footrest assembly after each use. According to an embodiment of the present subject matter, the first portion (22a) and the third portion (22c) of the support element (22) also extend along the same horizontal plane AA'. Thus, the third portion (22c) of the support element (22) and the footrest assembly extend along the same plane. Thus, the support element (22) also helps to provide additional support for the rear seat occupant's foot by virtue of the partial surface extending in the same plane as the footrest assembly (5). With this configuration, the present subject matter solves the problem of the foot portion of the rear seat occupant being suspended.

In an embodiment, the recess (R) is provided in the support element (22). The footrest assembly (5) fits perfectly in the recess (R) in the closed condition, so that the visible bottom part of the footrest assembly (5) lies in the same plane as the side plate LH (21). With this configuration, the footrest assembly (5) is located in the same plane as the side plate LH (21), and no portion of the footrest assembly (5) protrudes as in other known vehicles. Thus, it enhances the aesthetic appearance of the vehicle (10). In addition, the recess (R) contributes to easy handling and opening of the footrest assembly (5).

FIG. 4 illustrates a perspective view of the footrest assembly (5) in a closed state in accordance with an embodiment of the present subject matter. In an embodiment, the footrest assembly (5) comprises a top portion (T) and a bottom portion (B). According to the subject matter, the footrest assembly (5) fits perfectly in the recess (R) in the closed state. In the closed state, the top portion (T) of the footrest assembly (5) is hidden and faces the surface of the recess (R), wherein the bottom portion (B) is visible to the naked eye. Thus, with this configuration, the top portion (T) on which soil and dirt accumulate due to the feet of the rear seat passenger is hidden, thereby enhancing the aesthetic appearance of the vehicle (10). In addition, the bottom surface (B) of the footrest assembly (5) is located on the same plane as the side plate LH (21). Therefore, in the closed state of the footrest assembly (5), the bottom surface (B) thereof is positioned in line with the side plate LH (21) so that the footrest assembly (5) does not seem to protrude as much as other prior art footrest assemblies. Thus, the present subject matter enhances the aesthetic appearance of the vehicle (10).

FIG. 5 illustrates a perspective view of the footrest assembly (5) in an open state in accordance with an embodiment of the present subject matter. The figure depicts the footrest assembly (5) in an open position so that a rear seat passenger can use the footrest assembly to rest his/her feet. Thus, in the open position, no dirt or mud is visible regardless of how the top portion (T) of the footrest assembly (5) is used. Therefore, the appearance is not hindered in this state.

Accordingly, the present subject matter provides a footrest assembly (5) for a two-wheeled vehicle (10) attached to a support element (22). The support element (22) is partially attached to the side plates (LH and RH) and partially attached to the striding portion (3S). The footrest assembly (5) is aligned in the closed position at an angle of 45 degrees relative to the ground. In addition, the footrest assembly (5) fits perfectly in a recess (R) provided in the support element (22). Thus, this configuration helps enhance the aesthetic appearance of the vehicle (10). In addition, the support element (22) helps to prevent loads from being transferred directly from the footrest assembly (5) to the vehicle body, and also provides additional support for the feet of a rear seat occupant, thereby enabling a lightweight and economical footrest design. Furthermore, the footrest assembly (5) according to the subject matter is also very easy to operate, i.e. open and close.

It should be understood that aspects of the embodiments are not necessarily limited to the features described herein. Many modifications and variations of the present subject matter are possible in light of the above disclosure. Therefore, within the scope of the claims of the present subject matter, the present disclosure may be practiced other than as specifically described.