KR20000033279A - Portable charging apparatus - Google Patents

Abstract

The present disclosure relates to a non-powered portable charging device for generating predetermined electric power by using a flow force obtained by shaking caused by portable movement without supplying power, and using the same as charging power of a small electronic device.

The present invention provides a power generating means for generating left and right rotational power in accordance with a predetermined movement; The flow stimulus 230 has a predetermined magnetic pole arrangement structure and flows by the flow force of the power transmission means, and alternately forms a predetermined magnetic pole, and the flow at a position spaced apart from the magnetic pole 230 and a circular gap therebetween. Current generating means (200) consisting of a coil member (250) wound around a predetermined position of the inductor (240) in which a magnetic pole of a different polarity is induced and formed of a different magnetic pole (230) ; And charging means 300 for charging the generated current.

Description

Portable charging device

The present invention relates to a portable charging device, and more particularly, to a non-powered portable charging device for generating predetermined electric power using a flow force obtained by a mobile movement without supplying power, and using this as a charging power of a small electronic device. will be.

In general, portable electronic devices such as mobile phones or portable audio, that is, walkmans, can be carried by charging a rechargeable battery to a predetermined power source and then mounting them.

In particular, in recent years, since the charging power is consumed while the charging battery is installed and used, it is impossible to make a phone call or use an audio, and thus, a charging battery for a long time has been developed.

Efforts have been made to increase the charging capacity of rechargeable batteries, but at present, they do not comply with the smallest development level of electronic devices, especially mobile phones.

Therefore, there is an increasing need for a non-power charger capable of temporarily supplying power to a mobile phone, which is an electronic device suitable for a very small electronic device and requires relatively little current.

It is possible to provide the necessary amount of power in a first aid way to deliver the emergency and emergency situation.

The present invention provides a non-powered portable charging device capable of replenishing emergency power in a state where all available power such as a small mobile phone is consumed in view of the problems of the charging device of a portable electronic product using a conventional charging battery as described above. Has its purpose.

1 is an exploded view of a first embodiment of the present invention;

Figure 2 is a schematic plan view for explaining the operation of the first embodiment of the present invention of FIG.

3 is an exploded view of a second embodiment of the present invention;

4 is an exploded view of a third embodiment of the present invention;

5A is a cross sectional view of the first embodiment of the present invention, FIG. 5B is a cross sectional view of the second embodiment of the present invention, and FIG. 5C is a cross sectional view of the third embodiment of the present invention.

6 is a schematic diagram of a charging device for rectifying and charging the generated current of the charging device of the present invention;

※ Explanation of code for main part of drawing

100: power generating means ...... 110: semi-circular pendulum

120: Weight ............... 121: Guide pin

122: Guide Rail .......... 123: Helical Gear

130: rotating shaft ............ 132 helical gear

140: Handle ...................... 150: Disc

200: Current generating means ... 210: Main gear

220: Driven gear ............ 230: Induced stimulus

231,232: Permanent magnet ......... 240: Inductor

250: Coil member ......... 300: Filling means

310: Rectifier ......... 320: Constant voltage device

In order to achieve the above object, the present invention provides a power generating means for generating a predetermined flow force by applying a simple pendulum motion, the vertical operation of the gravity weight, and further artificial rotational force; Power generating means for generating left and right rotational powers according to a predetermined movement; Current generating means for positioning a magnetic body moving in accordance with the generation of power in an iron core wound with a predetermined coil to obtain a predetermined current; And charging means for charging the generated current.

The current generating means has a power transmitting means for constant flow while increasing the power generated by the power generating means, and has a predetermined magnetic pole arrangement structure and flows by the flow force of the power transmitting means. Alternating flow stimulation, the derivatives in which the magnetic poles of the different polarity and the magnetic poles are induced in a differently spaced position in the circular gap between the flow and the magnetic poles and wound at a predetermined position of the derivatives where the change of the magnetic material occurs It is preferable to carry out with a portable charging device comprising a coil member for generating an induced current by the magnetic field induced by the flow stimulus.

In addition, the power transmission means is preferably a non-powered charging device characterized in that it is possible to convert the left and right repetitive rotational force into a constant speed rotational force by a predetermined power transmission means. The flow stimulus is characterized in that the permanent magnet is arranged in a ring shape. The flow stimulation can also be carried out by an electromagnet. The derivative preferably forms a circular space in which the flow stimulation is rotatable, a winding portion in which the coil is wound, and a support portion to induce a current.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention.

1 is an exploded view of the first embodiment of the present invention, FIG. 2 is a schematic plan view showing the operation of FIG. 1, FIG. 5A is a cross-sectional view of the first embodiment of the present invention, and FIG. It is a block diagram which shows the stop value to make.

According to the present invention, the power generating means 100 for generating large power, the current generating means 200 for obtaining a current through a predetermined induction coil as a magnetic material moving in accordance with the power generation, and the generated current It consists of a charging means 300 for charging.

Hereinafter, a description of a specific charging operation structure and principle of the charging device 300 will be omitted, and the general stop value 310 and the constant voltage device 320 for rectifying the generated current of the current generating means 200 may be the charging device. Should be included in (300).

First, the power generating means 100 uses a semi-circular pendulum 110, which we commonly know as a power generating source, as shown in FIGS. 1 and 2. The pendulum 110 is difficult to maintain a precise horizontal state and always flows in a predetermined direction. At this time, it is possible to increase the flow force to the predetermined gear means 200. In the present invention, by transmitting the initial flow force (left and right rotational force) to the driven gear 220 through the main gear 210 receives the flow force to obtain a predetermined flow force by the proportion of the number of gear teeth. The gear ratio implemented in the present invention achieves a rotational force of approximately 100,000 rpm or more by using a 100 to 1 multi-gear device.

In particular, the present invention can also be applied to a predetermined ratchet gear means that can change the left and right rotational force transmitted to the main gear 210 to a rotational force in one direction. However, the present invention provides the desired alternating current only by the left and right flow force. Since it is possible to obtain, it is not necessarily limited to the one-way rotational force.

The current generating means (200) comprises a main gear (210) installed on the shaft of the power generating means (100), a driven gear (220) connected to the gear (210) and increased in speed, and the gear (220). It is composed of an induction magnetic pole 230 which is connected to induce a predetermined magnetism, a derivative 240 on which the induction magnetic pole 230 is located, and the coil member 250.

Induction stimulation 230 is a kind of generator rotor, derivative 240 is similar to the function of the stator core. The induction magnetic pole 230 is a magnetic body in which at least two permanent magnets 231 and 232 of predetermined N and S poles are disposed. In addition, it is possible to apply an electromagnet capable of supplying a fine excitation current.

Derivative 240 in the above does not have to follow the shape shown in the drawings, it can be implemented in any form suitable for the micro-charger. The derivative 240 forms a magnetic field by an alternating induction stimulus by an induction stimulus 230 which rotates on one axis or rotates left and right alternately by a flow force. In this magnetic field, the coil member 250 which generates electric current by the magnetic field which is instantaneously formed by the induced magnetic pole is wound in a predetermined structure. It can also be configured as a magnet in the form of a transformer. (The whole coil wound derivative is called magnet)

The derivative 240 is made of a metal material that is advantageous for the diffusion of the induction magnetic field generated by the rotation of the induction magnetic pole 230.

Therefore, in the present invention, a predetermined flow force is generated by the power generating means 100, and accordingly, a predetermined one direction or left and right repetitive rotational force is given to the induced stimulus 230 and the one direction of the induced stimulus 230. Alternatively, the magnetic pole of the opposite polarity is induced in the derivative 240 by the repeated left and right rotational forces, and the metal material in the derivative 240 instantaneously forms a predetermined magnetic field (stimulation arrangement structure) by the induced magnetic pole. Each time the coil member 250 wound around the derivative 240 is induced a predetermined current.

The induced current is charged to the charging device, that is, the charging battery, through the predetermined stop 310 and the constant voltage device 320.

3 of the accompanying drawings is an exploded view of a second embodiment of the present invention, Figure 5b is a cross-sectional view of the second embodiment of the present invention, the portable charging device of a second embodiment of the present invention according to these drawings is a power generating means (100) It is composed of a weight 120 and the rotating shaft 130, which flows easily up and down even with a predetermined fine up and down driving. The weight 120 has guide pins 121 branched to both sides, and the first helical gear 122 is formed on a cylindrical outer circumference to form a second helical gear 122 formed along the outer circumference of the rotation shaft 130. It is installed to correspond.

In addition, the means for supporting the weight 120 is made of a guide rail 122 for supporting the guide pin 121 to be operated up, down.

Therefore, the weight 120 moves up and down by the fine movement out of the predetermined vertical state in the predetermined closed structure, and thus the rotation shaft 130 generates the predetermined rotational force.

The rotational force of the rotating shaft 130 is implemented as the current generating means 200 described in the first embodiment of the present invention.

That is, the rotational force by the rotation shaft 130 is increased to a predetermined gear means 200, the rotational force is transmitted to the driven gear 220 through the main gear 210, the driven gear 220 The induced magnetic pole 230 generating a predetermined magnetic force is rotated. The induction stimulus 230 magnetizes the inductor 240 to generate a current in the coil member 250 wound around the inductor 240. Thereafter, the desired portable power is obtained by outputting and charging the required power through a predetermined rectification and constant voltage device.

4 is an exploded view of a third embodiment of the present invention, and FIG. 5C is a cross sectional view of the third embodiment of the present invention.

A third embodiment of the present invention according to the drawings is as follows. This embodiment provides a charging device by a kind of emergency power generation rather than to obtain a current from the micro-movement as described above.

That is, the disk body 150 which can be forcibly rotated by the handle 140 transmits a rotational force to the driven gear 220 through the main gear 210, and the rotational force is increased at a predetermined magnification to induce the induced magnetic pole 230. Rotated. The induction stimulus 230 magnetizes the inductor 240 to generate a current through the coil member 250 wound around the inductor 240. Thereafter, the desired portable power is obtained by outputting and charging the required power through a predetermined rectification and constant voltage device.

As described above, the portable charging device of the present invention compensates for the problems of the charging devices used in various portable electronic products, and generates and charges a predetermined current by shaking caused by simply carrying the battery. In this situation, it is possible to recharge the required small power, and as a result, it is possible to make an emergency call, thereby making it possible to supplement the usage limits of conventional charging devices.

Claims (6)

In the portable charging device, Power generating means for generating left and right rotational powers according to a predetermined movement; Current generating means for positioning a magnetic body moving in accordance with the generation of power in an iron core wound with a predetermined coil to obtain a predetermined current; And Portable charging device including charging means for charging the generated current. According to claim 1, wherein the current generating means, Power transmission means for constant flow while increasing the power generated by said power generating means; A flow stimulus having a predetermined magnet arrangement structure and alternately giving a flow magnetic force by the flow force of the power transmission means; Derivatives having inductive stimuli different in polarity from said flow stimulus at positions spaced apart from each other with a circular gap therebetween; And And a coil member wound around a predetermined position of the derivative in which the induced stimulus is generated to generate an induced current by a magnetic force induced by the flow stimulus. The portable charging device according to claim 2, wherein the flow stimulus has a permanent magnet in a ring shape. 4. The portable charging device according to claim 3, wherein the flow stimulus is an electromagnet. 4. The portable charging device according to claim 2 or 3, wherein the derivative forms a circular space in which the flow stimulation is rotatable, a winding portion in which the coil is wound to induce a current, and a support portion. The non-power supply according to any one of claims 1 to 5, further comprising a rectifying unit for rectifying the current output from the coil member through a predetermined rectifying circuit, and a constant voltage unit for outputting the rectified current at a constant voltage. Power generation device.