Adjustable seat assembly for a motorcycle, and motorcycle

Abstract

An adjustable seat assembly for a motorcycle has a seat pan and an adjustment mechanism. The seat pan includes a base portion and two pivoting portions that are pivotally connected to the base portion and are arranged laterally adjacent to one another on the base portion. The base portion has a fastening portion for fastening the seat assembly on the motorcycle. The adjustment mechanism is designed to pivot each of the two pivoting portions in relation to the base portion to adjust a lateral width of the seat assembly. A motorcycle with an adjustable seat assembly is also provided.

Claims

1. An adjustable seat assembly for a motorcycle, comprising: a seat pan; and an adjusting device, wherein the seat pan includes a base section and two pivoting sections connected pivotably to the base section, the two pivoting sections are arranged on the base section behind, in a longitudinal direction of the seat assembly, a front cushion on the base section, the two pivoting sections are arranged laterally next to one another as viewed in the longitudinal direction of the seat assembly, the two pivoting sections are connected at their respective front laterally outer ends at pivots on the base section, the base section has a fastening section configured for fastening the seat assembly to the motorcycle, the adjusting device is configured to pivot the two pivoting sections relative to the base section, the two pivoting sections have in each case one outer lateral wall section, as viewed in the longitudinal direction of the seat assembly, each outer lateral wall section extending laterally past the base section starting from an upper side of the base section, and a contour of the outer lateral wall sections in each case follows an outer contour of the base section longitudinally between the pivots and the adjusting device.

2. The seat assembly according to claim 1, wherein the pivoting sections are connected in each case to the base section at their respective front laterally outer ends, as viewed in the longitudinal direction of the seat assembly.

3. The seat assembly according to claim 2, wherein the pivoting sections are connected to the base section by respective pivot pins.

4. The seat assembly according to claim 1, wherein the adjusting device includes a locking device configured to release and lock a pivoting movement of the two pivoting sections, and the locking device defines a minimum and a maximum angle of the pivoting section pivoting movement relative to the longitudinal direction of the seat assembly.

5. The seat assembly according to claim 4, wherein the base section has at least two receptacles, the pivoting sections have in each case at least one through opening, fasteners of the locking device extend through the at least one through opening of each pivoting section into respective ones of the at least two receptacles.

6. The seat assembly according to claim 5, wherein the through openings are configured in each case as a slot, and the slots extend in each of the pivoting sections substantially along a circular section about a center of the pivoting movement of each of the pivoting sections.

7. The seat assembly according to claim 1, wherein the adjusting device is at least one of electrically and mechanically actuatable.

8. The seat assembly according to claim 1, wherein the pivoting sections have in each case one lateral wall section, as viewed in the longitudinal direction of the seat assembly, lateral wall section extending in each case laterally past the base section starting from an upper side of the base section, and a contour of the wall sections in each case at least in sections following a contour of the base section.

9. The seat assembly according to claim 1, wherein the seat assembly has a seat cushion extending substantially over the entire base section and is connected to at least one of the pivoting sections and the base section.

10. The seat assembly according to claim 9, wherein the seat cushion has a longitudinal slot in the region of the two pivoting sections.

11. The seat assembly according to claim 10, wherein at least one of the seat cushion and the base section is removable.

12. The seat assembly according to claim 9, wherein at least one of the seat cushion and the base section is removable.

13. A motorcycle, comprising: an adjustable seat assembly for a motorcycle having a seat pan and an adjusting device, wherein the seat pan includes a base section and two pivoting sections connected pivotably to the base section, the two pivoting sections are arranged on the base section behind, in a longitudinal direction of the seat assembly, a front cushion on the base section, the two pivoting sections are arranged laterally next to one another as viewed in the longitudinal direction of the seat assembly, the two pivoting sections are connected at their respective front laterally outer ends at pivots on the base section, the base section has a fastening section configured for fastening the seat assembly to the motorcycle, the adjusting device is configured to pivot the two pivoting sections relative to the base section, the two pivoting sections have in each case one outer lateral wall section, as viewed in the longitudinal direction of the seat assembly, each outer lateral wall section extending laterally past the base section starting from an upper side of the base section, a contour of the outer lateral wall sections in each case follows an outer contour of the base section longitudinally between the pivots and the adjusting device, and the base section is connected fixedly to the motorcycle.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 shows a side view of a motorcycle according to an embodiment of the present invention;

(2) FIG. 2 shows a diagrammatic oblique view of a seat assembly of FIG. 1 in a first position;

(3) FIG. 3 shows a diagrammatic plan view of the seat assembly from FIG. 2 in a first position;

(4) FIG. 4 shows a diagrammatic oblique view of the seat assembly from FIG. 2 in a second position;

(5) FIGS. 5a and 5b show a diagrammatic view from below of the seat assembly from FIG. 2 in the first position and in the second position, respectively; and

(6) FIGS. 6a and 6b show a diagrammatic view from below of two pivoting sections of the seat assembly from FIG. 2 in the first position and in the second position, respectively.

DETAILED DESCRIPTION OF THE DRAWINGS

(7) FIG. 1 shows a motorcycle 10 which is configured as a motorbike. The motorcycle has a body 12, a tank 14 and an adjustable seat assembly 16 which is attached to the motorcycle 10 behind the tank 14 in relation to a longitudinal direction of the motorcycle 10.

(8) As an alternative to this, the tank 14 can also be provided, however, at another location of the motorcycle 10, for example in the region of the rear of the motorcycle 10 or below the seat assembly 16.

(9) FIG. 2 shows the seat assembly 16 in an oblique view. The seat assembly 16 comprises a seat pan 17 with a base section 18, a first pivoting section 20 and a second pivoting section 22.

(10) Furthermore, the seat assembly 16 comprises a seat cushion 24 which is covered with a seat cushion cover 26. The seat cushion 24 forms a seat face for a rider of the motorcycle 10 and possibly for a pillion passenger. For illustrative reasons, the seat cushion 24 is not shown completely in FIGS. 2 and 3, but rather is merely indicated. In contrast, FIGS. 4 to 6 do not show the seat cushion 24 at all for illustrative reasons. The seat cushion 24 extends, however, over the entire region of the seat pan 17, that is to say over the base section 18 and the pivoting sections 20, 22.

(11) Moreover, the seat assembly 16 has an adjusting device 28, the method of operation of which will be explained in greater detail in the following text.

(12) As shown in FIG. 3, the base section 18 has at least one fastening section 30, by means of which the base section 18 is connected fixedly to the body 12 and/or to a frame part of the motorcycle 10. In particular, the base section 18 is fastened, for example is screwed fixedly, to the body 12 by means of suitable fastening means.

(13) The connection between the base section 18 and the motorcycle 10 can be released without destruction. The base section 18 can then therefore be removed from the motorcycle 10 without damaging the base section 18 or the motorcycle 10.

(14) The first pivoting section 20 and the second pivoting section 22 are arranged on the base section 18 next to one another, as viewed in the longitudinal direction of the motorcycle 10. More precisely, the two pivoting sections 20, 22 are connected to the base section 18 such that they can be pivoted with respect to the base section 18 by means of the adjusting device 28.

(15) For this purpose, the adjusting device 28 has a first pivot pin 32 which is attached to the base section 18 at a front, laterally outer end of the first pivoting section 20, and which extends substantially vertically. At its front, laterally outer end, the first pivoting section 20 has a connecting element 34 which is connected to the first pivot pin 32, it being possible for the first pivoting section 20 and the first pivot pin 32 to be rotated relative to one another. Via the connecting element 34 and the first pivot pin 32, the first pivoting section 20 is therefore connected to the base section 18 such that it can be pivoted with respect to the base section 18.

(16) In particular, the connecting element has a through opening, the first pivot pin 32 extending at least partially into the through opening, for example completely through the through opening.

(17) In an analogous manner with respect thereto, the adjusting device 28 has a second pivot pin 36 which is attached to the base section 18 at the front, laterally outer end of the second pivoting section 22, and which extends substantially vertically. At its front, laterally outer end, the second pivoting section 22 likewise has a connecting element 34 which is connected to the second pivot pin 36, it being possible for the second pivoting section 22 and the second pivot pin 36 to be rotated relative to one another. Via the connecting element 34 and the second pivot pin 36, the second pivoting section 22 is therefore connected to the base section 18 such that it can be pivoted with respect to the base section 18.

(18) In particular, the connecting element 34 has a through opening, the second pivot pin 36 extending at least partially into the through opening, for example completely through the through opening.

(19) By means of the adjusting device 28, the two pivoting sections 20, 22 are therefore attached to the base section 18 such that they can be pivoted with respect to the base section 18, the pivoting movement of the pivoting sections 20, 22 taking place laterally to the outside and/or to the inside, that is to say away from one another or toward one another.

(20) In order to release and/or to lock a pivoting movement of the two pivoting sections 20, 22, the adjusting device 28 has a locking device 38 with fastening means 40.

(21) As can be seen particularly clearly in FIGS. 4 and 6, the two pivoting sections 20, 22 in each case have a plurality of through openings 42 which are arranged along a circular section about the respective pivot pin 32 and 36. Furthermore, as indicated in FIG. 5, the base section 18 has a plurality of receptacles 44.

(22) In the exemplary embodiment which is shown in FIGS. 3 to 6, in each case two fastening means 40 are provided for the first pivoting section 20 and for the second pivoting section 22. Any other desired number of fastening means 40 can also be provided, however.

(23) The fastening means 40 extend through in each case one of the through openings 42 into one of the receptacles 44. Here, in relation to their radial direction, the through openings 42 and the receptacles 44 are preferably in each case of substantially complementary configuration with respect to the fastening means 40, with the result that the pivoting movements of the first pivoting section 20 and of the second pivoting section 22 are prevented by way of a positively locking connection.

(24) The fastening means 40 can be configured as screws, the receptacles 44 preferably having an internal thread which matches the thread of the screws, with the result that the pivoting sections 20, 22 can be screwed fixedly on the base section 18 through the through openings 42.

(25) As shown in FIG. 5, the receptacles 44 can also as an alternative be configured as through openings, the fastening means 40 which are configured as screws being fastened by means of nuts 45 which are provided on the underside of the base section 18.

(26) At least one reinforcing element 46 can optionally be provided on each of the pivoting sections 20, 22, which reinforcing element 46 is arranged directly on an upper side and/or on an underside of the corresponding pivoting section 20, 22. The at least one reinforcing element 46 has a plurality of through openings 48, the fastening means 40 of the locking device 38 extending through in each case one of the through openings 48.

(27) The at least one reinforcing element 46 forms a washer for the fastening means 40, in order to distribute the force which is exerted on the pivoting sections 20, 22 by the fastening means 40 to a greater surface area. The at least one reinforcing element preferably consists of metal.

(28) As an alternative or in addition, a reinforcing element 46 can also be provided on the underside of the base section 18.

(29) By way of the above-described adjusting device 28, the pivoting sections 20, 22 can be connected to the base section 18 by means of the fastening means 40 in a stepped manner in a plurality of positions which have pivoting angles which are different than one another with respect to the base section 18. Accordingly, the width of the seat assembly 16 can be adjusted in a plurality of steps.

(30) The fixing device 38, in particular the position of the individual through openings 42 in the pivoting sections 20, 22, defines a minimum and/or a maximum angle of the pivoting movement here. The seat assembly 16 has a minimum width in the case of the minimum angle of the pivoting movement and a maximum width in the case of the maximum angle of the pivoting movement.

(31) The pivoting sections 20, 22 optionally have in each case one lateral wall section 49 which, as viewed in the longitudinal direction of the seat assembly 16, extends laterally past the base section 18 starting from an upper side of the base section 18. Here, a contour of the wall sections 49 is similar in the mathematical sense at least in sections to a contour of the base section 18.

(32) In the non-pivoted position of the pivoting sections 20, 22, the wall sections 49 bear at least in sections on the outer side against the base section 18, in particular along the entire contour of the wall sections 49. The wall sections 49 therefore form a stop which defines the minimum deflection of the pivoting sections 20, 22 with regard to the pivoting movement.

(33) The minimum deflection of the pivoting sections 20, 22 is shown in FIGS. 2, 3, 5a and 6a. The two pivoting sections 20, 22 are not pivoted with respect to one another, and therefore run substantially parallel to one another in the longitudinal direction of the motorcycle 10.

(34) In contrast, FIGS. 4, 5b and 6b in each case show a pivoted position of the two pivoting sections 20, 22, in which pivoted position the two pivoting sections 20, 22 are in each case pivoted toward the outside, as a result of which the width of the seat assembly and therefore the seat face for the rider and possibly for the pillion passenger is broadened.

(35) In the above-described configuration of the seat assembly 16, a possible sequence of the width adjustment of the seat assembly 16 is given by way of the following steps:

(36) First of all, the seat cushion 24 and/or the base section 18 are/is removed. The fastening means 40 are then released, with the result that the pivoting movement of the two pivoting sections 20, 22 is released.

(37) Afterward, the two pivoting sections 20, 22 are pivoted into the desired position, and the fastening means 40 are tightened again, with the result that the pivoting movement of the two pivoting sections 20, 22 is locked again. Subsequently, the seat cushion 24 and/or the base section 18 are/is fastened again.

(38) In order that the material of the seat cushion 24 does not have to stretch excessively in the case of the above-described width adjustment of the seat assembly 16, a longitudinal slot 50 is provided in the seat cushion 24 in the region of the pivoting sections 20, 22. The longitudinal slot 50 preferably runs in the longitudinal direction of the motorcycle 10 over the entire length of the two pivoting sections 20, 22.

(39) As an alternative to the above-described configuration of the pivoting sections 20, 22, the through openings 42 can also be configured as slots. The slots then extend in each case substantially along a circular section about the corresponding pivot pin 32, 36.

(40) In this configuration of the seat assembly 16, the fastening means 40 also extend through the slots into the respective receptacle 44 in the base section 18.

(41) Here, the fastening means 40 preferably have a first and a second position, the respective pivoting section 20, 22 being connected in a non-positive manner to the base section 18 with regard to the pivoting movement in the first position of the fastening means 40, and it being possible for the respective pivoting section 20, 22 to be pivoted with respect to the base section 18 in the second position of the fastening means 40. Accordingly, the width of the seat assembly can be adjusted in an infinitely variable manner in this configuration of the seat assembly 16.

(42) In the embodiments of the seat assembly 16 which have been described up to now, the width of the seat assembly 16 is adjusted by way of manual removal of the seat cushion 24 and/or of the base section 18 and subsequent manual release of the fastening means 40.

(43) The adjusting device 28 can be capable of being actuated, however, electrically and/or mechanically in any desired, suitable way. Accordingly, the adjusting device 28 then comprises an electric motor and/or a mechanical mechanism, by means of which the two pivoting sections 20, 22 can be pivoted. The width adjustment of the seat assembly 16 can take place at least partially automatically and/or manually.

(44) For example, the adjusting device has a worm gear mechanism which is connected to the electric motor and/or the mechanical mechanism and by means of which the two pivoting sections 20, 22 can be adjusted.

(45) Here, for example, the adjusting device 28 can be actuated without it being necessary for parts such as the seat cushion 24 and/or the base section 18 to be removed. For this purpose, the adjusting device 28 can have an actuating element which is accessible from outside the motorcycle 10, such as, for example, an adjusting wheel for actuating the mechanical mechanism and/or an actuating switch for the electric motor.

(46) If the adjusting device 28 has an electric motor, the width adjustment of the seat assembly 16 can also take place while riding.