JPH03243488A - Shoe and pedal for bicycle and connecting structure thereof - Google Patents

Abstract

PURPOSE:To easily and positively connect and disconnect a shoe to and from a pedal to improve the operating convenience by providing magnets on one of the shoe and pedal of a bicycle and magnetic materials on the other respectively, thereby utilizing magnetic force. CONSTITUTION:Magnetic materials 4 are mounted on two positions back and forth in the longitudinal direction at the position corresponding to the cleat mounting part (portion on which the thenar eminence region abuts) on the bottom 3 of a shoe 1 of a bicycle. On the other hand, magnets 11 are mounted to the positions opposed to the magnetic materials 4 on the surface and underside of a pedal 10 of the bicycle. At this time, on the bottom 3 of the shoe 1, recessed parts 3a for mounting the magnetic materials 4, and a recessed part 3b which fits a projected part 10a of the pedal 10 are respectively formed. The shoe 1 and the pedal 10 are thus simply and positively connected and disconnected by utilizing magnetic force of the magnetic materials 4 and the magnets 11, and thereby the operating convenience can be improved.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field 1] This invention relates to bicycle shoes, pedals, and a connection structure thereof.

[Prior art 1] In general, the connection structure between bicycle shoes and pedals is such that the connection between the two can be strengthened while the bicycle is running, and when the bicycle is stopped, the connection can be easily released due to the need to land on the bicycle. is preferred.

For this reason, for example, some shoes have a structure in which the sole has large irregularities, a metal cleat is attached to the sole, and the pedal is provided with a recess that fits into the protrusion of the cleat.

Furthermore, the structure is designed to strengthen the connection between the shoes and the pedals when driving, and to easily release the connection between the shoes and the pedals when stopping, such as in the event of a fall.
No. 96415 discloses a structure for connecting a bicycle pedal to a cleat.

[Problems to be Solved by the Invention] However, in all of the above conventional structures, the strength of the connection between the shoe and the pedal depends on the force with which the driver depresses the pedal, or a mechanically special structure is required. , and there was a strong desire for a simpler connected structure.

[Means for Solving the Problems] In view of the problems of the prior art described above, a feature of the bicycle shoe and pedal according to the present invention is that a magnet is disposed on the sole or the pedal.

Further, the characteristic structure of the bicycle shoe and pedal connection structure according to the present invention is that a magnet is disposed on either the shoe sole or the pedal, and the magnet is connected to the other of the shoe sole or the pedal. The reason lies in the fact that a magnetic material is used.

Preferably, the magnet or magnetic body is disposed at a position in the sole of the shoe that contacts the pedal.

Furthermore, the magnet may be either a permanent magnet or an electromagnet.

In the case where the magnet is a t-magnet, it is also preferable that a power generating device is built into the pedal, and the electromagnet is magnetized by generating power as the pedal is operated.

[Operations and Effects 1] Next, the functions and effects of the bicycle shoes, pedals, and connection structure thereof of the present invention will be explained.

If a magnet is placed in the sole of the shoe, just because the pedal has an iron-based magnetic material, the magnetic attraction force will work on the two, making it possible to connect the two with a simple structure. It can be made strong.

If the pedal is equipped with a magnet, just by attaching a cleat made of iron-based material to the sole of the shoe, magnetic attraction will work between the two, making it a simple structure. It is possible to strengthen the bond between the two. In this case, in addition to the connecting effect due to the attraction force of the magnet,
Since a mechanical connection action is added due to the fitting action of the cleat and the pedal, it is possible to realize a stronger connection.

Furthermore, a magnet is placed on either the sole of the shoe or the pedal,
By arranging a magnetic material that can be connected to the magnet on either the sole of the shoe or the pedal, the attraction force between the magnet and the magnetic material acts, making it possible for the driver to press the pedal with greater force. Even without this, the connection between the sole of the shoe and the pedal becomes strong, and excellent running performance can be ensured. In addition, the strength of the connection between the magnet and the magnetic body can be adjusted to any desired strength by selecting the material and shape of the magnet, so by adjusting the connection between the shoe and the pedal to an appropriate strength, easy movement ( The structure can be easily disconnected by adding movements such as tilting or twisting the shoe (as the case may be). In this way, the strength of the connection between the shoe and the pedal can be adjusted to a desirable level without adopting a complicated connection structure.

It is preferable that the magnet or magnetic body is disposed at the pedal contact position of the sole of the shoe (the part where the ball of the foot contacts) because it facilitates pedal operation.

The magnet may be either a permanent magnet or an electromagnet, but 5
When a permanent magnet is used, the structure becomes simple because a power generation device and the like required in the case of an electromagnet are not required.

When using electromagnets, a power generation device is required, but it is sufficient to use a power generation device used for headlights, etc. In this case, the magnetic force acts only while driving, and the magnetic force increases as the speed increases. Since the adsorption effect becomes stronger, favorable functional results can be obtained. Furthermore, since the magnetic force is no longer applied when the shoe is stopped, it is easier to disconnect the shoe from the pedal than when using a permanent magnet, which is convenient.

If the power generation device is built into the pedal and configured so that the electromagnet is magnetized by generating power as the pedal rotates, unlike when using a power generation device used for headlights, there is no need to connect the power generation device to the pedal. Since there is no need to
This is preferable because it has a simpler structure.

[Example] A bicycle shoe, a pedal, and a connection structure thereof according to the present invention will be described in detail with reference to the drawings.

Figure 1 shows that the cleat is attached to the bottom (3) of a bicycle shoe (1) at a position corresponding to the part (the part where the thumb of the toe comes into contact), and a magnetic material (4) is attached to the front f & 2 III of the shoe in the longitudinal direction.
is installed on both the front and back sides of the pedal (10).
This shows a connection structure between a shoe and a pedal, in which a permanent magnet (11) is embedded as a magnet (11) in a position facing the magnetic body.The sole (3) of the shoe has a pre-installation plate for attaching the magnetic body (4). A recess (3a) and a recess (3b) for fitting into a convex portion <1 oa) provided on the pedal (10) are formed. Recess (3λ) for attaching magnetic material (4)
When attaching the magnetic material (4) to the magnetic material (4),
It is preferable to allow some degree of freedom in the movement of the magnetic body (4) so that it can exert an attractive force when it enters the magnetic field of the magnet (11) provided on the pedal (10). For example, even if the two are slightly misaligned, they will be attracted tightly and the bond will be good.

In addition, the convex part (10a) of the pedal (10), the concave part (3&) provided in advance for attaching the magnetic body (4) to the sole (3) of the shoe, and the convex part (10) of the pedal (10)
The recess (3b) for fitting into a) is not necessarily necessary, but if they are provided, the fitting shape is not limited to that shown in the drawings, and various shapes may be used. I can think of things.

In the above embodiment, the magnet (11) is a permanent magnet, but an electromagnet may be used instead of this permanent magnet to achieve the same coupling effect. If an electromagnet is used, a generator is required, but to configure this generator, for example, the generator is configured from a pedal shaft (10b) and a pedal (10);
b) If the pedals (10) that rotate around the pedals (10) are used to generate electricity, the amount of electricity generated increases as the rotational speed increases, so the faster the bicycle travels, the stronger the connection between the shoes and the pedals becomes. Moreover, it is convenient because it can be easily disconnected when stopped.Of course, a power generation device used for a headlight or the like may also be used, and in this case, it can be easily used by connecting from such a power generation device.

On the other hand, if the shoe has a cleat attached to the sole, the cleat is generally made of a ferrous material, which is a ferromagnetic material.
Mechanical connection between the cleat and the pedal may be used; in other words, the mechanical connection between the cleat and the pedal is supplemented with the connection by the attraction force of the magnet, so that a stronger connection can be achieved.

In the embodiment described above, the magnetic material is attached to the bottom of the shoe and the permanent magnet (11) is embedded in the pedal, but this combination may be reversed.

Either a permanent magnet or an electromagnet may be embedded in both the sole of the shoe and the pedal, or a combination of permanent magnets or electromagnets may be embedded in the sole of the shoe or the pedal, and these options vary. The following forms are possible.

As shown in the drawings, the permanent magnet, electromagnet, or magnetic body may be provided with its surface exposed, or may be buried without exposing its surface at all.

Furthermore, the entire or part of the sole or pedal may be made of a rubber magnet or a plastic magnet, and various materials can be selected for the electromagnet.

Incidentally, although reference numerals are written in the claims section for convenient comparison with the drawings, the present invention is not limited to the structure shown in the accompanying drawings.

[Brief explanation of drawings]

FIG. 1 is a partially sectional front view showing an embodiment of the connection structure between a bicycle shoe and a pedal according to the present invention, and FIG. 2 is a sectional view of a main part taken along line 1l-II in FIG. Sole part...(3), Magnetic material...(4),
Pedal...(10), Magnet...(11)

Claims (1)

[Claims] 1. Bicycle shoes in which a magnet (11) is arranged in the sole (3). 2. A bicycle pedal in which a magnet (11) is arranged on the pedal (10). 3. A magnet (11) is disposed on one of the sole (3) and the pedal (10), and a magnetic material connectable to the magnet (11) on the other of the sole (3) and the pedal. (4)
A connecting structure for bicycle shoes and pedals. 4. The magnet (11) or magnetic body (4) is the sole of the shoe (3)
4. The bicycle shoe and pedal connection structure according to claim 3, wherein the bicycle shoe and pedal connection structure is arranged at a contact position of the pedal (10). 5. Claims 1 to 3, wherein the magnet (11) is an electromagnet.
Bicycle shoes and pedals and their connection structure as described in any of the above. 6. The magnet (11) is an electromagnet, and the pedal (
10) has a power generation device built in, and the pedal (10)
3. The bicycle pedal according to claim 2, wherein the electromagnet is magnetized by generating electricity as the pedal is operated.