JP2010279580A - Skateboard with kick pedal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a skateboard 25 with a kick pedal which improves amusement by avoiding providing a mechanism for driving a rear wheel 7 on the lower surface side of a board 2 on which an operator rides, and setting the height of the board 2 to be low. <P>SOLUTION: The skateboard includes: an arm body 9 where the kick pedal 11 to which a force is applied by the operator and a tooth shape 15 which gears with an adjacent gear with a turning shaft 13 turned by the force applied to the kick pedal 11 as the center are formed; a driven gear 16 which gears with the tooth shape 15; a first sprocket 18 which is suitable for a rotary shaft 17 where the driven gear 16 rotates and which rotates with the driven gear 16; and a second sprocket 21 which is suitable for the axle 8 of the rear wheel 7 and connected with the first sprocket 18 through a chain 23. The driven gear 16 and the first sprocket 18 are arranged at a position in rear of the arm body 9 and in front of the axle 8 of the rear wheel 7. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a skateboard with a kick pedal, and more specifically, a kick pedal that can freely set the height of a board without installing a mechanism for driving a rear wheel on the lower surface side of the board on which an operator rides. Related to skateboard technology.

  FIG. 8 is a schematic diagram showing a mechanism for driving the rear wheel 77 in the prior art. Conventionally, there is a skateboard 71 with a kick pedal that travels by chain driving the rear wheel 77 by depressing the kick pedal 72. The kick pedal 72 is swingably supported behind the board 73, and a lower end portion 74 of the kick pedal 72 projects to the lower surface side of the board 73. A sprocket 75 is provided at the lower end 74. A chain 78 is hung on the upper side of the sprocket 76 provided on the rotating shaft of the rear wheel 77. One end of the chain 78 is supported via a tension coil spring 80 on the front lower surface of the board 73 via a sprocket 79 provided behind the sprocket 76. The other end of the chain 78 hung on the upper side of the sprocket 76 is fixed to a bracket 81 provided behind the board 73 via a sprocket 75 positioned in front of the rear wheel 77. When the operator depresses the kick pedal 72 backward, the sprocket 75 moves forward. As the sprocket 75 moves, the chain 78 on the upper side of the sprocket 76 is pulled forward, and the rear wheel 77 rotates in the traveling direction.

Since the sprocket 75 and the chain 78 are provided on the lower surface side of the board 73 on which the operator rides, the height of the board 73 is set so that the sprocket 75 and the chain 78 can be provided.
An object of the present invention is to provide a skateboard with a kick pedal that does not provide a mechanism for driving a rear wheel on the lower surface side of a board on which an operator rides and improves the preference by setting the height of the board low. .

In order to solve this problem, the present invention meshes with an external force acting portion to which a force is applied by an operator who operates a skateboard and a gear adjacent to the rotation shaft that is rotated by the force applied to the external force acting portion. An arm body formed with a tooth profile, a driven gear meshing with the tooth profile, a first sprocket attached to a rotating shaft on which the driven gear rotates and rotating with the driven gear, and an axle of a rear wheel attached to the first wheel A sprocket and a second sprocket connected by a chain are provided, and the driven gear and the first sprocket are arranged behind the arm body and in front of the axle of the rear wheel. In the present invention, the external force acting portion is rotatably supported by the arm body so that the position of the external force acting portion can be switched between a right side portion and a left side portion of the arm body.

  According to the first aspect of the present invention, since the driven gear and the first sprocket are disposed behind the arm body and in front of the axle of the rear wheel, the mechanism for driving the rear wheel is operated. It is possible to provide a skateboard with a kick pedal that is not provided on the lower surface side of a board on which a person rides and the height of the board is set low to improve the taste.

It is sectional drawing which shows the rear-wheel drive mechanism 1 in embodiment of this invention. 1 is a plan view showing a rear wheel drive mechanism 1. FIG. It is a perspective view which shows the fixing pin 34 which fixes the arm body 9. FIG. It is sectional drawing of the part which provided the fixing pin 34. FIG. 2 is a perspective view showing a kick pedal 11. FIG. It is sectional drawing of the attaching part in the state in which the kick pedal 11 was fixed. It is an external view of the skateboard 25 with a kick pedal. It is the schematic which shows the mechanism which drives the rear wheel 77 in a prior art.

The first embodiment will be described below. FIG. 7 is an external view of the skateboard 25 with a kick pedal. The skateboard 25 with a kick pedal includes the board 2, the rear wheel 7, a front wheel wheel 59 supported by the handle attachment member 60, and a handle 58 at the upper end of the handle attachment member 60. The handle attachment member 60, the front wheel wheel 59, and the handle 58 are foldable. The rear wheel drive mechanism 1 is accommodated in a housing 3 provided behind the board 2. FIG. 1 is a cross-sectional view showing a rear wheel drive mechanism 1 in an embodiment of the present invention. FIG. 2 is a plan view showing the rear wheel drive mechanism 1. The housing 3 has a U-shaped cross section and is disposed with the opening 4 at the rear. In the housing 3, a flat portion 6 that connects opposite end surfaces 5 a and 5 b is screwed to the rear end of the board 2.
An arm body 9 is attached to the back side of the housing 3. The arm body 9 is installed behind the operator who rides on the board 2 and protrudes above the housing 3. A kick pedal 11 to which a force is applied by an operator is provided at one end 10 of the arm body 9. The kick pedal 11 is an external force acting part. The kick pedal 11 will be described in detail later. The other end portion 12 of the arm body 9 is provided with a rotating shaft 13 on which the arm body 9 rotates. The arm body 9 is attached to the rotating shaft 13 via a bearing (not shown). Both end surfaces 14 a and 14 b of the rotating shaft 13 are screwed to the housing 3. When the operator depresses the kick pedal 11 backward, the arm body 9 rotates about the rotation shaft 13. A tooth profile 15 is formed at the rear peripheral edge of the other end 12 of the arm body 9 to mesh with the adjacent gear around the rotation shaft 13.
A driven gear 16 that meshes with a tooth profile 15 formed on the arm body 9 is provided behind the arm body 9. The driven gear 16 rotates in a direction opposite to the rotation direction of the arm body 9. In the present embodiment, a spur gear is used as the driven gear 16. A first sprocket 18 that rotates together with the driven gear 16 is attached to the rotating shaft 17 of the driven gear 16. The driven gear 16 and the first sprocket 18 are attached to the rotary shaft 17 via a bearing (not shown). Both end surfaces 19 a and 19 b of the rotating shaft 17 are screwed to the housing 3.
A second sprocket 21 that rotates together with the hub 20 is attached to the axle 8 of the rear wheel 7 disposed behind the driven gear 16 and in the opening 4 of the housing 3. Hub 20 and second sprocket 21 are attached to axle 8 via a bearing (not shown). Both end faces 22 a and 22 b of the axle 8 are screwed to the housing 3. The first sprocket 18 and the second sprocket 21 are connected by a chain 23.

The hub 20 that supports the rear wheel 24 is provided with a ratchet mechanism (not shown). When the hub 20 is driven, a ratchet mechanism is activated, and the rear wheel 24 rotates together with the hub 20. When the hub 20 is not driven, the ratchet mechanism is released, and the rear wheel 24 rotates alone without the hub 20. Therefore, when the operator depresses the kick pedal 11 and drives the hub 20, the skateboard 25 with the kick pedal is accelerated, and when the operator does not depress the kick pedal 11, the skateboard 25 with the kick pedal travels by inertia. .
A tensioner 26 is provided between the first sprocket 18 and the second sprocket 21. The tensioner 26 is provided on the lower chain 23. The tensioner 26 is attached to the end surface 5 a of the housing 3. As a result, the chain 23 can be prevented from loosening, and the chain 23 can be prevented from being detached from the second sprocket 21.

By changing the combination of the first sprocket 18 and the second sprocket 21, the number of times the rear wheel 24 rotates when the operator steps on the kick pedal 11 can be changed. Thereby, the moving distance of the skateboard 25 with the kick pedal when the kick pedal 11 is depressed can be changed.
A tension coil spring 27 is attached to the arm body 9. One end of the tension coil spring 27 is attached to the attachment pin 28. The mounting pin 28 is screwed to the lower front part of the arm body 9. The other end of the tension coil spring 27 is fixed to a bracket 29 provided on the housing 3. The bracket 29 is provided behind the rotation shaft 13 of the arm body 9. When the operator depresses the kick pedal 11 against the spring force of the tension coil spring 27 and releases his / her foot from the depressed kick pedal 11, the arm body 9 depresses the kick pedal 11 by the spring force of the tension coil spring 27. It returns to the state when it is not depressed. A convex portion 31 with which the arm body 9 abuts is formed on the upper portion of the flat surface portion 6, and the arm body 9 is positioned.
The housing 3 is provided with a stopper 30 for the arm body 9. The stopper 30 has a substantially cylindrical shape, and both end faces 32 a and 32 b of the stopper 30 are screwed to the housing 3. The stopper 30 is provided in front of the other end 12 of the arm body 9. When the operator depresses the kick pedal 11, the arm body 9 rotates. The other end portion 12 comes into contact with the stopper 30 and the rotation of the arm body 9 is restricted. For example, a rubber material (not shown) is attached as a cushioning material to the cylindrical portion side surface 33 of the stopper 30 with which the other end portion 12 abuts.
FIG. 3 is a perspective view showing a fixing pin 34 for fixing the arm body 9. FIG. 4 is a cross-sectional view of a portion where the fixing pin 34 is provided. The housing 3 is provided with a fixing pin 34 that fixes the arm body 9 in a state where the operator has stepped on. The fixing pin 34 is fitted with a coil spring 35 and is inserted into an insertion hole 36 formed in the housing 3. A concave portion 37 is formed in the arm body 9. The recess 37 is formed in the vicinity of the rotation shaft 13 and on the side opposite to the mounting pin 28 with reference to the rotation shaft 13 (see FIG. 1). The recess 37 formed in the arm body 9 is formed so as to be positioned on the central axis of the fixing pin 34 when the kick pedal 11 is depressed most.
The operator inserts the fixing pin 34 into the concave portion 37 in a state where the kick pedal 11 is depressed, and releases the foot from the kick pedal 11. The arm body 9 is pulled forward by the spring force of the tension coil spring 27, and the side surface 38 of the fixing pin 34 inserted into the recess 37 comes into pressure contact with the side surface 39 of the recess 37. As a result, the fixing pin 34 overcomes the force of the coil spring 35 and maintains the state of being inserted into the concave portion 37, and the arm body 9 is fixed with the kick pedal 11 being depressed.
When releasing the fixation of the arm body 9, the kick pedal 11 of the fixed arm body 9 is stepped on. The concave portion 37 has a substantially elliptical shape and has play with the fixing pin 34 inserted therein. Therefore, when the operator steps on the kick pedal 11, the side surface 39 of the concave portion 37 that presses against the side surface 38 of the pin 34 is fixed. Separate from the side surface 38 of the pin 34. The fixing pin 34 is pulled in the direction of the end surface 5 b of the housing 3 by the spring force of the coil spring 35. The fixing pin 34 returns to the original position before being inserted into the recess 37.
FIG. 5 is a perspective view showing the kick pedal 11. FIG. 6 is a cross-sectional view of the attachment portion in a state where the kick pedal 11 is fixed. The kick pedal 11 is attached to the kick pedal support member 40. A rotation shaft 41 is provided at the other end of the kick pedal support member 40 with respect to the one end to which the kick pedal 11 is attached. The rotating shaft 41 is fitted into a through hole 42 formed at one end of the arm body 9. End plates 44 are screwed to both end faces 43 a and 43 b of the rotating shaft 41 and are supported by the arm body 9. A pin 45 is provided adjacent to the rotation shaft 41. A pin 45 having a coil spring 46 at the end is inserted into the hole 47. A retainer 48 is provided at the opening of the hole 47. The retainer 48 contacts the stepped portion 49 of the pin 45 and prevents the pin 45 from coming out of the hole 47.
A notch 51 is formed on the side surface 50 of the pin 45. The slope of the upper surface 52 that forms the notch 51 is gently formed with respect to the side surface 50. A lower surface 53 that forms the notch 51 is formed so as to be substantially orthogonal to the side surface 50. A spherical recess 55 is formed on the side surface 54 on the other end side of the kick pedal support member 40. A metal ball 56 is placed in a space surrounded by the notch 51 and the recess 55. As shown in FIG. 6, when the pin 45 is pushed by the force of the coil spring 46, the upper surface 52 pushes the ball 56, and the ball 56 projects from the pin 45 and fits into the recess 55. Thereby, the kick pedal 11 is fixed to the arm body 9 in a positioned state. Although not shown, the fixed kick pedal 11 is positioned in a direction perpendicular to the paper surface in FIG.
When the pin 45 is pressed while the kick pedal 11 is fixed, the pressing force of the ball 56 by the upper surface 52 is released. Then, the force that the ball 56 tries to enter the recess 55 is also released. As a result, the ball 56 can be separated from the recess 55, and the fixed state of the kick pedal 11 is released. When the ball 56 is separated from the recess 55, the ball 56 is accommodated in a notch 51 formed by the upper surface 52 and the lower surface 53. Thus, the operator can rotate the kick pedal 11 around the rotation shaft 41. By providing the concave portions 55 on both sides of the kick pedal support member 40, the kick pedal 11 can be fixed at either the right side or the left side of the arm body 9. If the recess 55 is also provided at the tip of the kick pedal support member 40, the kick pedal 11 can be fixed in the state shown in FIG. By fixing the arm body 9 in the depressed state of the kick pedal 11 and setting the kick pedal 11 to the posture of FIG. 5, the kick pedal 11 does not protrude sideways from the arm body 9 and can be folded compactly. Can do.
FIG. 7 is an external view of the skateboard 25 with a kick pedal. Since the arm body 9 protruding from the upper surface of the board 2 is fixed in a state of being pushed backward, when the operator folds the handle attachment member 60 to which the handle 58 and the front wheel wheel 59 are attached, the handle 58 and the arm The body 9 does not interfere. Accordingly, the height of the folded skateboard 25 with the kick pedal can be lowered, which is convenient for carrying.

A stand 62 is provided on the side portion 61 of the board 2. The operator can stop the skateboard 25 with the kick pedal upright by raising the stand 62.
In this way, the kick pedal 11 to which a force is applied by an operator who operates the skateboard 25 with a kick pedal, and the tooth profile 15 that meshes with the adjacent gear about the rotation shaft 13 that is rotated by the force applied to the kick pedal 11, Is attached to the axle 8 of the rear wheel 7, the driven gear 16 that meshes with the tooth profile 15, the first sprocket 18 that is attached to the rotating shaft 17 that rotates the driven gear 16 and rotates with the driven gear 16. In the skateboard with kick pedal 25 including the first sprocket 18 and the second sprocket 21 connected by the chain 23, the driven gear 16 and the first sprocket 18 are located behind the arm body 9 and of the rear wheel 7. Since it is arranged in front of the axle 8, a mechanism for driving the rear wheel 7 is provided on the lower surface side of the board 2. , It is possible to provide a kick pedal with skateboard 25 to improve the taste set lower the height of the board 2.
Further, since the kick pedal is rotatably supported by the arm body 9 and the position can be switched between the right side portion and the left side portion of the arm body 9, the kick pedal 11 according to the operator's preference is provided. Can be arranged.

1 Rear wheel drive mechanism
2,73 Board 3 Housing 4 Openings 5a, 5b, 19a, 19b, 22a, 22b, 32a, 32b, 43a, 43b End face 6 Flat part
7, 77 Rear wheel 8 Axle 9 Arm body 10 1 end 11, 72 Kick pedal 12 Other end 13 Rotating shaft 15 Tooth profile 16 Drive gear 17, 41 Rotating shaft 18 First sprocket 20 Hub 21 Second sprocket 23, 78 Chain 24 Rear wheel 25, 71 Skateboard 26 with kick pedal Tensioner 27, 80 Tension coil spring 28 Mounting pin 29, 81 Bracket 30 Stopper 31 Convex portion 33 Cylindrical side surface 34 Fixing pin 35 Coil spring 36, 42 Through hole 37, 55 Recess 38, 39, 50, 54 Side surface 40 Kick pedal support member 44 End plate 45 Pin 46 Coil spring 47 Hole 48 Retainer 49 Stepped portion 51 Notch portion 52 Upper surface 53 Lower surface 56 Ball 58 Handle 59 Front wheel wheel 60 Handle attachment member 61 side 62 Stand 74 Lower end 75, 76, 79 Sprocket

Claims (2)

An arm body formed with an external force acting portion to which a force is applied by an operator who operates the skateboard, and a tooth shape that meshes with an adjacent gear about a turning shaft that is turned by the force applied to the external force acting portion; A driven gear meshing with a tooth profile; a first sprocket attached to a central shaft around which the driven gear rotates; and a second sprocket attached to an axle of a rear wheel and connected to the first sprocket with a chain. And the driven gear and the first sprocket are arranged behind the arm body and in front of the axle of the rear wheel.   2. The kick pedal according to claim 1, wherein the external force acting portion is rotatably supported by the arm body, and the position of the external force acting portion can be switched between a right side portion and a left side portion of the arm body. Skateboard with.

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