The invention relates to inline skates and more particularly to an inline skate having an adjustable shock absorber.
Conventionally, no shock absorber is provided by an inline skate. Thus, shock and jarring of the inline skates are increased greatly when an individual wears the inline skates to move quickly across a surface with irregularities. This can decrease skating speed and cause pain to the user's knees and other parts of the legs.
Thus, the need for improvement still exists.
It is therefore one object of the invention to provide an inline skate comprising a skate boot; a front wheel mount secured to a front portion of a bottom of the skate boot; a front wheel rotatably secured to the front wheel mount; a rear wheel mount secured to a rear portion of the bottom of the skate boot; a rear wheel rotatably secured to the rear wheel mount; and two shock absorbers disposed between the front wheel mount and the rear wheel mount.
The above and other objects, features and advantages of the invention will become apparent from the following detailed description taken with the accompanying drawings.
Referring to
The shock absorber 6 comprises a positioning member 61 secured to the skate boot 1 and including a stepped-diameter passageway 611; a suspension member 62 including two hook elements 621 on front and rear ends respectively and an intermediate channel 622; a nut 63 disposed in the passageway 611; a main expansion spring 64 biased between the nut 63 and a shoulder 612 of the passageway 611; a main threaded member 65 including an internally threaded hole 651 at an end and passing through the channel 622, the passageway 611 and the main expansion spring 64 to secure to the nut 63; a bolt 60 driven into the internally threaded hole 651 to position the nut 63, the positioning member 61, the suspension member 62 and the main threaded member 65; a first adjustment screw assembly 66 including a threaded element 661 driven through a threaded hole 21 in the front wheel mount 2, and an adjustment screw 662 secured to the threaded element 661; a second adjustment screw assembly 67 including a threaded element 671 driven through a threaded hole 31 in the rear wheel mount 3, and an adjustment screw 672 secured to the threaded element 671; a first biasing assembly 68 including a torsion spring 681, a first bow-shaped hook 682 disposed through the torsion spring 681 and having one end secured to an end of the threaded element 661 and the other two hooked ends secured to one end of the torsion spring 681, and a second bow-shaped hook 683 disposed through the torsion spring 681 and having one end secured to the front one of the hook elements 621 and the other two hooked ends secured to the other end of the torsion spring 681; and a second biasing assembly 69 including a torsion spring 691, a first bow-shaped hook 693 disposed through the torsion spring 691 and having one end secured to an end of the threaded element 671 and the other two hooked ends secured to one end of the torsion spring 691, and a second bow-shaped hook 692 disposed through the torsion spring 691 and having one end secured to the rear one of the hook elements 621 and the other two hooked ends secured to the other end of the torsion spring 691.
For adjusting damping force of the shock absorber 6 in a horizontal direction, a rear portion of the shock absorber 6 will be taken as an example in the following discussion.
An individual may use one hand to clockwise rotate the adjustment screw 672. And in turn, the first bow-shaped hook 693 is pulled toward the rear wheel mount 3. Thus, the torsion spring 691 is compressed. Thus, a damping force of the shock absorber 6 in the horizontal direction is increased.
To the contrary, the user may use one hand to counterclockwise rotate the adjustment screw 672. And in turn, the first bow-shaped hook 693 is pulled away from the rear wheel mount 3. Thus, the torsion spring 691 is expanded. Thus, a damping force of the shock absorber 6 in the horizontal direction is decreased.
It is envisaged by the invention that in response to encountering irregularities on the ground, shocks transmitted through the front wheel 4 and/or rear wheel 5 will be absorbed by the suspension member 62, the first biasing assembly 68, the second biasing assembly 69, and the main expansion spring 64.
For adjusting damping force of the shock absorber 6 in a vertical direction, an intermediate portion of the shock absorber 6 will be taken as an example in the following discussion.
An individual may use one hand to clockwise rotate the main threaded member 65. And in turn, the main expansion spring 64 is further compressed. Thus, a damping force of the shock absorber 6 in the vertical direction is increased.
To the contrary, the user may use one hand to counterclockwise rotate the main threaded member 65. And in turn, the main expansion spring 64 is expanded. Thus, a damping force of the shock absorber 6 in the vertical direction is decreased.
While the invention has been described in terms of preferred embodiments, those skilled in the art will recognize that the invention can be practiced with modifications within the spirit and scope of the appended claims.
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