KR20110127334A - Walking generator - Google Patents

Abstract

PURPOSE: A walking electricity generating device is provided to place magnets and coils on both knees, thereby generating electricity during walking or running. CONSTITUTION: A walking electricity generating device comprises a first mounting unit(10), a second mounting unit(20), and a power storage unit(40). The first mounting unit and the second mounting unit are worn on both legs of a user. The first mounting unit and the second mounting unit makes an elastic stripe shape. Magnets and coils are placed in the first and second mounting units respectively. The power storage unit is attached or detached into/from a pocket or a belt. Generated power is transferred to the power storage unit through a power supply line(30).

Description

Walking generator device

The present invention relates to a walking power generation device, and more particularly, to a walking power generation device capable of supplying or charging a portable electronic device by generating power while a user walks.

People manage their health through aerobic exercise, such as jogging or hiking on park trails. At this time, in order to soothe the boredom of jogging or climbing, there are many cases of making phone calls or listening to music using a mobile terminal or an MP3 player.

Portable electronic devices such as mobile communication terminals and MP3 players are devices that use a power output from an internal battery. However, in order to use portable electronic devices continuously, they need to be charged periodically.

However, when the user walked or exercised for a long time outdoors and the battery of the electronic device was discharged, there were many cases in which the user could not use the device until there was no measure for charging.

To this end, a technology has been attempted to generate electric energy by using a walking force of a user to supply power to a portable electronic device.

However, the conventional power generation device using the walking force is most of those equipped with mechanisms for power generation in the user's shoes. That is, when the user walks, the user's foot is generated by using the load generated by pressing the ground.

Therefore, in the power generation apparatus using the conventional walking force, there is an inconvenience of having to wear shoes equipped with a mechanism for generating power in order to generate electric power while walking, and these shoes are also not expensive. In addition, in order for power generation to occur, the user's load must be loaded to move a mechanism such as a rotor. In other words, when the user's sole touches the ground, the weight to turn the rotor should be carried, so that the sense of touching the ground becomes dull, causing pain in the sole, and so on.

This inconvenience is not always the principle of driving the rotor, if the shoe is provided with a power generation device is always followed.

The present invention has been made to solve the problems of the prior art as described above, the power generation by using the user's walking power to be supplied to the portable electronic device, but does not cause inconvenience in walking gait power generation device The purpose is to provide.

Walking power generation apparatus according to the present invention for achieving the above object is provided with a magnet, the first mounting portion to be worn on any one leg of the user; A second mounting part provided with a coil and worn on the other leg of the user; And a power storage unit configured to store power generated by interference between the magnet of the first mounting unit and the coil of the second mounting unit according to the movement of the user.

Here, the first mounting portion and the second mounting portion is in the form of a band or band, it is preferable to be worn on a portion adjacent to the user's knee.

In addition, the power storage unit, the internal battery for storing the power generated from the coil; And a connector configured to output power stored in the internal battery to the electronic device.

According to the present invention has the following effects.

First, if the user wears a mounting portion provided with a coil and a magnet on both knees of the user and walks, power can be supplied to the portable electronic device by generating power while the magnet and the coil interfere with each other. It can solve the problem.

Second, since it is not the development through the change of the structure of the conventional shoes, there is no inconvenience to wear only the corresponding expensive shoes. In addition, since there is no need to drive the device to load the shoes when walking, there is no discomfort such as dull walking feeling or pain in the sole of the foot.

Third, by walking the magnets and coils on both knees, which must necessarily face each other when walking due to the body structure, the power generation efficiency can be increased by allowing the power generation to take place without exception when walking or running.

1 is a view for explaining a walk-in power generation apparatus according to an embodiment of the present invention.
FIG. 2 is a view for explaining how a user wears the device shown in FIG. 1; FIG.
Figure 3 is a view for explaining the cross-sectional view of the parts of both legs according to the human walking.
4 is a view for explaining the configuration of the power storage unit in the apparatus shown in FIG.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described. However, some components irrelevant to the gist of the present invention will be omitted or compressed, but the omitted elements are not necessarily required in the present invention, and may be combined and used by those skilled in the art. Can be.

1 is a view for explaining a walk-in power generation apparatus according to an embodiment of the present invention, Figure 2 shows a state in which the user directly wearing the device shown in FIG. As shown in Figure 1 and 2, the walk-in power generation apparatus according to an embodiment of the present invention includes a first mounting portion 10, the second mounting portion 20 and the power storage unit 40.

The first mounting portion 10 and the second mounting portion 20 are respectively worn on both legs of the user. Here, the first mounting portion 10 and the second mounting portion 20 is preferably in the form of a band or band to be worn on the user's leg, in the present embodiment, the first mounting portion 10 and the second mounting portion ( It is shown that 20 is manufactured in the shape of a band having elastic force and the coupling portions 12 and 22 are provided at both ends thereof. Therefore, the user wears the first mounting portion 10 and the second mounting portion 20 on both legs, and then pulls them out appropriately to fix them with the coupling portions 12 and 22 as Velcro, thereby making it easy to attach the legs to the legs. It can be supported by proper pressure to prevent it from flowing down by the user's movement.

Meanwhile, the first mounting portion 10 and the second mounting portion 20 are provided with components for generating power when walking. That is, one or more magnets 11 are provided in the first mounting portion 10, and the coils 21 twisted several times are provided in the second mounting portion 20. Therefore, when the user walks after mounting the first mounting portion 10 and the second mounting portion 20 at the same height of both legs, both legs are sequentially crossed and the magnet 11 and the first mounting portion 10 of the first mounting portion 10. As the coil 21 of the two mounting parts 20 interferes, electric power is generated in the coil 21. To this end, the magnet 11 provided in the first mounting portion 10 and the coil 21 provided in the second mounting portion 20 are preferably located to face each other when walking, that is, located inside both legs of the user.

In this case, the first mounting portion 10 and the second mounting portion 20 are preferably worn on a portion adjacent to the user's knee in consideration of the characteristics of the walking according to the human body structure.

In other words, when checking the walking characteristics of a person with reference to Fig. 3, both ankle portions are stationary, that is, the inner portions of the feet face each other while the feet are being gathered. Advances in a parabolic fashion and repeats these operations sequentially so that they do not encounter each other between movements.

However, if you look at the movement of the user's knees, both knees are located farthest when both ankles are located farthest, but at the moment the legs cross, both knees must cross each other.

Therefore, when the first mounting portion 10 and the second mounting portion 20 are respectively worn on both knees of the user, the power generation efficiency is improved because the two legs can always cause interference when walking. In addition, it is also possible to prevent the mounting portion (10, 20) of the belt or band-shaped flow down by the knee joint.

 When the magnet 11 of the first mounting portion 10 and the coil 21 of the second mounting portion 20 interfere with each other by the user's walking, and power is generated in the coil 21, the generated power is a power supply line. The power supply unit 30 is transferred to the power storage unit 40 and stored therein, and may supply power to the portable electronic device or charge the discharged battery of the portable electronic device by using the power stored in the power storage unit 40.

The power storage unit 40 is preferably stored in the pocket of the clothing worn by the user, or is detachably coupled to the waistband.

The power storage unit 40 transfers the power stored in the internal battery 44 and the internal battery 44 to temporarily store power produced and supplied by the coil 21 to an electronic device such as a mobile communication terminal or an MP3 player. It includes a connector 45 for outputting, and may further include a circuit configuration for safely supplying the generated power to the internal battery 44 or the electronic device. The configuration of the power storage unit 40 will be described with reference to FIG. 4.

As shown in FIG. 4, power generated by interference between the magnet 11 of the first mounting unit 10 and the coil 21 of the second mounting unit 20 is received through the power supply line 30 and stored (or The power storage unit 40 directly outputting the electronic device includes a rectifier circuit 41, a smoothing circuit 42, a charging circuit 43, an internal battery 44, and a connector 45.

First, when the magnet 11 and the coil 21 interfere with each other, AC power is generated in the coil 21 by electromagnetic induction, and the generated AC power is rectified by the rectifier circuit of the power storage unit 40 through the power supply line 30. 41).

The rectifier circuit 41 is formed by arranging four diodes in a bridge shape, and rectifies AC power generated in the coil 21 into DC power.

The smoothing circuit 42 smoothes out the ripple from the pulsating DC power output from the rectifier circuit 41 to the DC power maintaining a uniform voltage value. Smoothing circuit 42 is to reduce the voltage change by having a capacitor in parallel at the output terminal of the rectifier circuit 41, it is preferable to use a large-capacity capacitor for the efficient removal of ripple. By using a large-capacity capacitor as the smoothing circuit 42, even if the walking pattern of the user is irregular, DC power with little ripple is output.

The internal battery 44 is a secondary battery capable of both discharging and charging. The internal battery 44 is charged at a predetermined voltage by the DC power output from the smoothing circuit 42, and the user uses a connection jack (not shown) to charge the electronic device. When connected to the connector 45 of the storage unit 40, the internal battery 44 is discharged to charge the battery of the electronic device.

However, the DC power output from the smoothing circuit 42 does not necessarily need to be charged in the internal battery 44, and the direct current directly to the electronic device connected to the connector 45 without the smoothing circuit 42 passing through the internal battery 44. It can also supply power.

The charging circuit 43 charges the DC power output from the smoothing circuit 42 to the internal battery 44, charges the DC power output from the smoothing circuit 42 to an electronic device, or discharges it from the internal battery 44. In charging the DC power to the electronic device, it is provided to protect the internal battery 44 or the electronic device by preventing overcharge.

Connector 45 is a kind of socket that can be connected to the connection jack of the electronic device, the electrical connection is made by connecting the connection jack of the electronic device to the connector 45, through which the DC power output from the smoothing circuit 42 or DC power discharged from the internal battery 44 is supplied to the electronic device to perform charging.

Referring to the preferred use of the walk-in power generation apparatus according to an embodiment of the present invention described above in detail as follows.

First, the user properly tightens the first mounting portion 10 and the second mounting portion 20 around both knees, and then uses the Velcro coupling portions 12 and 22 to engage the first mounting portion 10 and the first during walking. 2 Fix the mounting part 20 so that it does not flow down. Thereafter, the power storage unit 40 connected to the coil 21 and the power supply line 30 of the second mounting unit 20 is coupled to the waistband and fixed. That is, the user may wear a walking power generation device according to an embodiment of the present invention after wearing shoes and clothes suitable for a season and a style without the inconvenience of having to wear separate shoes or clothes provided with a power generation device when jogging or climbing. .

Then, when the user jogs or climbs, while the knees are continuously crossed, the magnet 11 and the coil 21 of the first mounting portion 10 and the second mounting portion 20 interfere with each other to produce AC power in the coil 21. And, the produced AC power is transmitted to the power storage unit 40 through the power supply line 30.

The AC power input to the power storage unit 40 is converted into DC power in the rectifier circuit 41, the ripple is removed and stabilized in the smoothing circuit 42, and the internal battery via the charging circuit 43 to prevent overcharging. 44 is filled.

Here, the user can be active while listening to music using an MP3 player to alleviate the boredom of jogging or hiking. At this time, when the battery of the MP3 player is discharged and can no longer play music, the user connects the USB connection jack of the power storage unit 40 to the charging USB connection jack provided in the MP3 player device (or associated with the MP3 player device). To a connector 45 of a possible form. Accordingly, the DC power of the charged internal battery 44 is discharged and supplied to the MP3 player via the charging circuit 43, the connector 45, and the USB connection jack, and the battery of the MP3 player is the charging circuit of the power storage unit 40. Charged by (43) while overcharge is prevented.

Therefore, the user can recharge the battery of the MP3 player using the power generated by walking and reuse it, and there is no need to return home for charging.

In addition, as in a shoe equipped with a conventional power generation device, since it is not necessary to drive the device by loading a shoe when walking, power generation using a walking force naturally without discomfort such as dullness or pain in the sole of the foot This would be possible.

Preferred embodiments of the present invention described above are disclosed for the purpose of illustration, and those skilled in the art will be able to make various modifications, changes and additions within the spirit and scope of the present invention. And additions should be considered to be within the scope of the claims of the present invention.

10: first mounting part
11: magnet
12: velcro coupling
20: second mounting part
21: coil
22: velcro coupling
30: power supply line
40: power storage unit
41: rectifier circuit
42: smoothing circuit
43: charging circuit
44: internal battery
45: connector

Claims (3)

Is provided with a magnet, the first mounting portion worn on one leg of the user;
A second mounting part provided with a coil and worn on the other leg of the user; And
And a power storage unit configured to store power generated by interference between the magnet of the first mounting unit and the coil of the second mounting unit according to the movement of the user.
The method of claim 1,
The first mounting portion and the second mounting portion is in the form of a band or band, characterized in that the walking power generation apparatus, characterized in that worn on the area adjacent to the user's knee.
The method of claim 1,
The power storage unit,
An internal battery storing power generated by the coil; And
And a connector for outputting power stored in the internal battery to an electronic device.

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