1. Field of the Invention
The present invention relates to an inline skate installed with a shock absorber, and more particularly to an inline skate in which a plurality of air tubes for absorbing shock transmitted to respective wheels are installed at the inner upper end of a wheel supporting part so as to use wheels having excellent hardness, to effectively increase rolling speed of the wheels, to secure user safety, and to protect the knees and ankles from shock.
2. Description of the Related Art
As is well-known, a conventional inline skate, not shown, includes a boot body for receiving and fixing a user's foot, a wheel supporting part attached to the lower side of the boot body, and a plurality of wheels fixed by bearings installed to the wheel supporting part and moving the boot body on the road.
The conventional inline skate exhibits excellent skating performance but insufficient walking performance. Due to these drawbacks, users feel inconvenienced since they must wear ordinary shoes instead of the inline skates when climbing stairs or due to the fact that traveling a long distance with the inline skates on is uncomfortable. If the user attempts to avoid the inconvenience of having to change into ordinary shoes when climbing stairs by attempting to climb the stairs in the inline skates, it is very dangerous in that the user may slip and fall.
Moreover, since the conventional inline skate is equipped with bearings installed between the wheels and the wheel supporting part for reducing friction of the wheels, sand may be introduced into the bearings and the bearings may be damaged due to the sand as the sand wears down the bearing during the rotation of the bearing.
In addition, since the boots of the conventional inline skates are heavy, they are inconvenient to carry and store.
For the purpose of overcoming the above disadvantages, roller shoes have been developed. At the rear bottom surface of the roller shoe, a roller is positioned such that its surface is exposed above that of the tread of the shoe. To use the roller shoe the user lifts the front end of the roller shoe so as to travel for a desired distance using the roller. Absolutely, since the roller is detachably installed, the user can wear the roller shoes like the ordinary shoes.
However, it is difficult for the user to maintain their balance when using the roller function of the roller shoe as they must delicately concentrate their weight over the rear end of the shoe. As such, it is difficult to travel at any substantial speed using the roller shoes. Moreover, it is impossible to propel oneself using the conventional side thrust technique used when inline skating, and, as such, users must build up speed by running on their toes and then arching the foot back onto the roller to glide for some distance.
In addition, since the conventional inline skate and the roller shoes have no structure for absorbing shock from the ground, the boot must be reinforced so as to prevent the user's ankles from damage, thus increasing the weight thereof. Since the boot must be sufficiently tall to completely cover the ankles, the boot becomes very heavy so that it is inconvenient to carry. Though the boot is sufficiently high, the user's ankles and knees may be damaged due to impacting the ground during use or if the user collides with an obstacle.
When the wheels travel over an obstacle, since the conventional inline skate has no structure for absorbing shock, excellent balance is required to adapt to the shape of obstacles, and the user may lose his/her balance when traveling over the obstacle. This principle can be compared to riding a motorcycle without a shock absorber or a spring, where even a small obstacle generates a large shock.
In addition, the wheels of conventional inline skates are made of urethane so that they may exhibit a slight shock-absorbing effect of their own. However, since friction between these soft wheels and the ground is increased, it is difficult to accelerate and the wheels of the conventional inline skate wear out rapidly.
Therefore, the present invention has been made in view of the above and/or other problems, and it is an object of the present invention to provide an inline skate in which a plurality of air tubes for absorbing shock transmitted to respective wheels are installed at the inner upper end of a wheel supporting part, thus allowing use of extremely rigid wheels, which effectively increases rolling speed of the wheels, and serving to secure a user safety, and to protect the knees and ankles from shock.
In accordance with the present invention, the above and other objects can be accomplished by the provision of an inline skate including a wheel supporting part installed to the lower side of an outsole of an ordinary shoe, a plurality of wheels coupled and supported to the inner lower sides of the wheel supporting part by shafts, a rotatable supporting holder coupled to the rear upper side of the wheel supporting part by a shaft, and coupled to a connecting protrusion protruded from the outsole of the ordinary shoe so as to prevent the wheel supporting part from being separated from the outsole, a frame constituting the wheel supporting part, and having insertion holes formed at the inner upper sides of the frame, a plurality of guide recesses in the direction perpendicular to the insertion holes, and brackets, protruded between the guide recesses, for defining desired spaces, a wheel holder having supporting plates in which the wheels are coupled to and supported by the sides of the supporting plate, and inserted into the guide recesses so that the wheel holder is moved vertically due to applied external force, and the shock absorbers inserted into the insertion holes and filled with air so as to disappear the external force when the wheel holder moves upward and downward.
Preferably, each guide recess has a connecting protrusion protruded from the inner upper side of the guide recess to a certain height, and a longitudinal guide hole formed at the lower side of the guide recess.
Each supporting plate has a guide hole formed at the upper side of the supporting plate, into which the connecting protrusion is inserted and guided vertically, and a connecting protrusion formed at the outer lower side of the supporting plate and inserted into the guide hole of the guide recess.
Each shock absorber includes a housing made of soft synthetic resin, predetermined spaces formed at the sides of the housing, air tubes installed in the predetermined spaces, a cover sheet wrapped around the housing, and a connecting part made of the same material as that of the housing, disposed at the intermediate portion of the housing, and integrated with the housing.
These and/or other objects and advantages of the present invention will become apparent and more readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings, in which:
a and 4b are cross-sectional views illustrating an air tube installed to the inline skate with a shock absorber according to the preferred embodiment of the present invention; and
Hereinafter, an inline skate with a shock absorber according to the preferred embodiment of the present invention will be described with reference to the accompanying drawings.
As shown in the drawing, the inline skate 2 with a shock absorber is an inline skate in which a plurality of air tubes for absorbing shock transmitted to respective wheels are installed at the inner upper end of a wheel supporting part, thus allowing use of extremely rigid wheels, which effectively increases rolling speed of the wheels, and serving to secure a user safety, and to protect the knees and ankles from shock.
The inline skate 2 with a shock absorber according to the preferred embodiment of the present invention includes a shoe part 3 having an ordinary shoe 4, and a wheel supporting part 100 installed to the lower side of the shoe part 3 and having a plurality of wheels 112 mounted at the inside of the wheel supporting part 100 and exposed to the lower side of the wheel supporting part 100.
The shoe part 3 can use an ordinary shoe, but it is preferable to use a shoe 4 having an upper section, an insole, and an outsole 6 relatively thicker than those of the ordinary shoe, and a relatively long ankle portion. Moreover, the rear side, namely, the heel portion of the shoe 4 of the shoe part 3 has a connecting protrusion 8.
The wheel supporting part 100 includes a frame 102 having a shape similar to the lower frame of the ordinary inline skate, longitudinal guide holes 104, formed at the lower side of the frame 102, for guiding connecting protrusions 110 of wheel supports (See
The connecting protrusion 8 and the supporting holder 106 are connected to each other so that wheel supporting part 100 is detached from the shoe part 3.
The wheel supporting part 100 is divided into two parts in the longitudinal direction, and the frame 102 includes a plurality of screws 108 for fixing the two divided parts of the wheel supporting part 100.
As shown in the drawings, in the inline skate 2 with a shock absorber according to the preferred embodiment of the present invention, only one of the two parts of the wheel supporting part 100 is depicted in
In addition, the frame 102 is formed with a plurality of screw holes 120 at the upper edge of the frame 102, and is provided with a plurality of brackets 132 protruded between the wheel supports 114 and defining desired spaces having a width equal to the thickness of the wheel holder 116.
The guide recess 126 includes a connecting protrusion 128 formed at the inner upper side thereof and protruded to a certain height, and the punctured longitudinal guide hole 104 formed at the inner lower side thereof.
The wheel holder 116 accommodated in the guide recess 126 accommodates and supports the wheel 112. The wheel holder 116 includes supporting plates 116a and 116b coupled to the sides of the wheel 112 so as to support the wheel 112, and the supporting plates 116a and 116b are connected to each other at their upper sides so as to accommodate part of the wheel 112 and to expose the rest of the wheel 112 to be in contact with the ground.
Guide holes 124 are formed at the upper sides of the supporting plates 116a and 116b and guide the connecting protrusion 128 of the guide recess 126 when being inserted thereinto, and the connecting protrusions 110 are protruded from the outer lower sides of the supporting plates 116a and 116b and inserted into the longitudinal guide holes 104. Shaft holes 122 are formed at the inner lower sides of the supporting plates 116a and 116b and receive shafts of the wheel 112.
In other words, the guide holes 124 of the upper sides of the supporting plates 116a and 116b of the wheel holder 116 are connected to the connecting protrusions 128 at the upper sides of the guide recesses 126, while the connecting protrusions 110 at the outer lower sides of the supporting plates 116a and 116b of the wheel holder 116 are inserted into the guide holes 104 at the lower sides of the guide recesses 126. Since the guide holes 124 and 104 are equal in length to the connecting protrusions 128 and 110 and are coupled to parts of the guide holes 124 and 104, the shock absorbers 134 absorb shock in correspondence to the freedom of movement of the connecting protrusions 128 and 110 within the guide holes 124 and 104.
Therefore, according to the inline skate 2 with a shock absorber in accordance with the preferred embodiment of the present invention, since the air tubes are provided at the inner upper side of the wheel support so as to absorb shock transmitted from respective wheels, wheels having excellent hardness can be used to effectively increase rolling speed of the wheels and to secure a user safety.
a and 4b are cross-sectional views illustrating an air tube installed in the inline skate with a shock absorber according to the preferred embodiment of the present invention.
As shown in the drawings, the inline skate 2 with a shock absorber according to the preferred embodiment of the present invention includes the shock absorbers 134 so as to absorb shock transmitted from the wheels 112. The shock absorbers 134 have side cross-sections as shown in
Moreover, since a cover sheet (not shown) is wrapped around the housing 136, the air tubes 140 are not separated from the housing 136. A connecting part 138 of the same material as that of the housing 136 is disposed at the intermediate portion of the housing 136 and is integrated with the housing 136.
The shock absorbers 134 are inserted into the insertion holes 130 horizontally formed at the upper side of the frame 102. Four shock absorbers 134 are installed in a plurality of frames 102 constituting the wheel supporting part 100, while a single shock absorber 134 includes two air tubes 140 at the sides thereof.
As shown in
Moreover, since the guide holes 124 and 104 are equal in length to the connecting protrusions 128 and 110 and are coupled to parts of the guide holes 124 and 104, the shock absorbers 134 absorb shock in correspondence to the freedom of movement of the connecting protrusions 128 and 110 within the guide holes 124 and 104.
Thus, as shown in
Therefore, since the upper sides of the wheel holder 116 press one of the air tubes 140 of the shock absorbers 134, the shock transmitted to the wheel holder 116 is absorbed via the distortion of the air tube 140 and thus is not to transmitted to the outsole. Since the wheel 112 received the shock from the uneven ground moves a higher position than that of a wheel 112 without shocking, the user can balance while running on the uneven ground.
Moreover, according to the inline skate 2 with a shock absorber in accordance with the preferred embodiment of the present invention, since the shock is absorbed by the wheel supporting part 100 installed the lower side of the outsole, urethane wheels are not required, and wheels 112 having high hardness can be used. Thus, due to the increased hardness of the wheels, users are capable of skating much faster using the shoe 2.
As described above, since an inline skate with a shock absorber according to the present invention includes air tubes provided at the inner upper sides of the wheel supporting part and absorbing shock transmitted from respective wheels so that wheels having excellent hardness can be uses to increase rolling speed of the wheels. Since the wheel holder moves vertically along the surface of the uneven ground, the user can balance and a user's safety can be secured.
Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.