JP2006345957A - Self-generating type light-emitting glass - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a self-generating type light-emitting glass formed with a light emitting unit and being used semipermanently. <P>SOLUTION: This self-generating type light-emitting glass is formed by mounting a light-emitting diode 201, a printed circuit board 202 and a light emitting unit 200 formed as a switch at the lower end part of a glass body 100 composed of glass or synthetic resin with translucency. A generator 300 composed of a generator 310 for generating electricity through the induction between a rotator 311 and a stator 312 a set-up gear group 320 accelerating and transmitting the torque intially input to the rotator of the generator, and an electrolytic capacitor 330 charging the electricity generated through the generator, is positioned below the light-emitting unit, and the lower and of the cup body includes a detachable cap 400 covering the light emitting unit and the generator unit. A rotating handle is connected to a driving shaft connected to the driving gear of the step-up gear group in the central part of the cap. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a self-powered light emitting cup. As will be described in more detail, the power generating unit is provided at the lower part of the cup on which the light emitting unit is formed to enable semi-permanent use of the light emitting cup through self-power generation. Is.

  As shown in FIG. 1, a general light emitting cup has a light emitting diode (21), a printed circuit board (22), a battery (23) at the lower end of a glass body (10) made of glass or synthetic resin having translucency. ) By attaching a light emitting unit (20) comprising a switch (24) and pouring a drink or alcoholic beverage into the cup body (10), the light will be emitted to give a slightly different feeling. It is applied to a large cup of 300 cc or more that can be poured and drunk mainly.

  However, since such a light emitting cup is molded with the power generation unit attached to the lower end of the cup body so that the dish can be washed, when the battery is exhausted, it can no longer function as a light emitting cup. There is a disadvantage, such a glass that does not emit light, the power generation unit will be reflected from the outside, so it will not be aesthetically pleasing to use as a general cup, there is a disadvantage that can only be discarded.

  The present invention is to solve the above-mentioned problems, and its purpose is to eliminate the battery by a light emitting unit mounted on the lower part of the cup body, and to provide electricity to the lower part of the light emitting unit through the induction action of the rotor and stator. The power generation unit that generates and charges the electrolytic capacitor is positioned so that electricity can be supplied from the electrolytic capacitor to the light emitting unit, and the rotary handle connected to the central axis of the rotor is located at the bottom of the cup By doing so, it is intended to provide a self-powered light emitting cup capable of performing a light emitting function semipermanently through self power generation.

In order to achieve the above object, the self-powered light emitting cup according to the present invention has a light emitting unit comprising a light emitting diode, a printed circuit board, and a switch at the lower end of a glass body made of translucent glass or synthetic resin. In a light-emitting cup that is configured to be mounted and reflected outside by the light emitted through the light-emitting diode,
A generator that generates electricity through an inductive action between a rotor and a stator, and a speed-up gear group that accelerates and transmits a rotational force that is initially input to the rotor of the generator at a lower portion of the light emitting unit. A power generation unit comprising an electrolytic capacitor for charging electricity generated through the generator and applying power to the light emitting unit from the electrolytic capacitor. A removable cap that covers the unit and the power generation unit, and the drive shaft connected to the drive gear of the speed increasing gear group is pulled out in an airtight manner at the center of the cap. The drive shaft is configured by connecting a rotary handle.

  As described above, the present invention has a light emitting unit and a power generation unit in the cup body, so that the light emission function can be performed semi-permanently by generating power independently through the power generation unit without a separate battery. Because the generator is configured to generate electricity regardless of forward / reverse rotation, it can be rotated in the direction that is easy for you to use during actual use, which can be convenient for use. It is possible to pull the rotary handle for a long time during power generation operation and rotate it so that less force is required and anyone can use it easily, and it can be folded and stored when not generating power, so reduce the volume There is an advantage that can be.

  Hereinafter, a preferred embodiment of a light emitting cup through in-house power generation according to the present invention will be described in detail with reference to the accompanying drawings.

  2 is a bottom perspective view of the self-powered light emitting cup according to the present invention, FIG. 3 is a side sectional view of the self-powered light emitting cup according to the present invention, and FIG. 4 is a detailed view of the power generating unit according to the present invention. FIG. 6 is a detailed view of the generator according to the present invention, and FIG. 6 is a state diagram when the rotary handle according to the present invention is unfolded and rotated.

  As shown in the drawing, the light emitting cup is formed from a light emitting diode (201), a printed circuit board (202), and a switch (203) at the lower end of a cup body (100) basically made of glass or synthetic resin having translucency. The light emitting unit (200) is mounted so that light emitted through the light emitting diode (201) is reflected outside. At this time, the switch (203) is rotated while the ball is rotated by the movement of the cup body (100). You can use a Bolsch switch that selectively switches each electrical contact, or you can use a touch switch that selectively switches each electrical contact depending on how many times it is touched. Any possible configuration is possible. In the drawing, the touch switch is applied as an example.

  In such a light emitting cup, in the present invention, a generator (310) that generates electricity through an inductive action between the rotor (311) and the stator (312) at the lower part of the light emitting unit (200), and the generator (310 ), The speed increasing gear group (320) for transmitting the rotational force initially inputted to the rotor (311) and the electrolytic capacitor (330) for charging the electricity generated through the generator (310). The power generation unit (300) is positioned and power is applied from the electrolytic capacitor (330) to the light emitting unit (200) so that the light emitting diode (201) can emit light through in-house power generation without a separate battery. The

  At this time, the lower end of the cup body (100) is equipped with a cap (400) that is attached to and detached from the light emitting unit (200) and the power generation unit (300). A rotary handle (325) is connected to the drive shaft (321a) so that the drive shaft (321a) connected to the drive gear (321) of the speed increasing gear group (320) is pulled out in an airtight manner. The power is generated by the rotation of the rotary handle (325).

  Further, the rotor (311) of the generator (310) applied to the present invention is configured such that the permanent magnet (311a) is divided into a number of regions and the N poles and S poles are alternately arranged, The stator (312) is formed with a magnetic pole (312a) and a winding (312b) in a radial shape with a number equal to the number of divisions of the permanent magnet (311a) forming the rotor (311). It is configured to generate power regardless of reverse rotation.

  At the same time, the rotary handle (325) is connected to the drive shaft (321a) so as to be slidable, and the storage home (401) in which the rotary handle (325) is stored on one side of the lower end surface of the cap (400). The rotary handle (325) is pulled and used only during the power generation operation, and the other is folded and stored in the storage home (401), and the outside of the cap (400). A display panel (402) is installed on the wall to display the amount of electricity charged in the electrolytic capacitor (330) from the outside so as to predict the power generation timing.

  Reference numeral 322 on the drawing represents a bell copper gear connected to the rotor (311) shaft of the generator (310), and reference numerals 323 and 324 increase the rotational force of the driving gear (321) to increase the bell copper. Shows the connecting gear to be transmitted to the gear (322).

  The self-powered light emitting cup according to the present invention configured as described above operates as follows. First, if the amount of charge of the electrolytic capacitor (330) is sensed to a level that requires charging through the display panel (402) formed on the side wall of the cap (400), the user is accommodated in the storage home (401). The rotary handle (325) is extracted and covered so that the rotary handle (325) is rotated, and the rotation of the rotary handle (325) rotates the drive shaft (321a) connected so that the rotary handle (325) can slide. While rotating the drive gear (321), the rotational force of the drive gear (321) is increased through a number of connecting gears (323) and (324), and the rotor (311) of the generator (310). When the bell gear (322) connected to the shaft is rotated, the speed is increased to a very high speed, so that the rotor (311) of the generator (310) is fast. Power through inductive action between magnetic poles while being rotated permanent magnet forming a rotor (311) and (311a) forming the stator (312) (312a) and the winding (312b) holds enough to.

  At this time, if the user is right-handed, he is more accustomed to rotating the rotary handle (325) in the forward direction, and if he is left-handed, he is more accustomed to rotating in the reverse direction. The permanent magnet (311a) forming the rotor (311) is divided into a large number of regions, and the N poles and S poles are alternately arranged, so that the magnetic poles (312a) and windings (312b) forming the stator (312) are arranged. Is provided in a number equal to the number of divisions of the permanent magnet (311a) constituting the rotor (311), so that the permanent magnet (311a), the magnetic pole (312a), and the rotating handle (325) can be rotated in any direction. An inductive action is generated between the windings (312b), and power generation is established smoothly.

  Further, the sliding-spindle type rotary handle (325) may be expanded at the time of use, and can be folded at the time of storage to minimize its volume, and the rotary handle (325) is rotated when the rotary handle (325) is rotated. ) Will maintain the horizontal state and maintain the distance from the center of rotation so that the force can be distributed to fingers, hands, arms and shoulders when rotating, so the user However, even if the power is slightly insufficient, the power generation operation can be easily performed.

  If electricity is generated through the generator (310), the electricity is automatically applied to the light emitting unit (200) after the electricity is charged to the electrolytic capacitor (330). The light emitting diode (201) is turned on by being applied to the diode (201), and the light emitting diode (201) is turned on by the microprocessor located on the printed circuit board (202) before being turned off. It can be controlled in various patterns, for example, after the flashing operation is performed for a certain period of time or after being turned off.

  Further, when the switch (203) is constituted by a ball switch that selectively switches each electrical contact while the ball is rotated by the movement of the cup body (100), every time the drink poured into the cup body (100) is drunk. The user's curiosity can also be induced by switching the electrical contact and turning it on in the extinguished state or flashing.

  On the other hand, if the electricity charged in the electrolytic capacitor (330) is consumed by using the light emitting unit (200) together with the above, the electricity is generated again at an appropriate time, and the electrolytic capacitor (330) is charged with electricity. In the present invention, the display panel (402) that displays the amount of electricity charged in the electrolytic capacitor (330) on the side wall of the cap (400) is installed on the side wall of the cap (400). In this way, the user can visually check the amount of electricity displayed on the display panel (402) and predict the appropriate power generation time, and if the amount of electricity is very low You can use it after performing the power generation operation as described above and charging the electrolytic capacitor (330) with electricity.

It is obvious that those skilled in the art based on the above description can make various changes and modifications without departing from the technical idea of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the examples, but should be defined by the claims.

FIG. 1 shows a configuration of a light emitting cup according to the prior art. FIG. 2 is a bottom perspective view of the self-powered light emitting cup according to the present invention. FIG. 3 is a sectional side view of the self-powered light emitting cup according to the present invention. FIG. 4 is a detailed view of the power generation unit according to the present invention. FIG. 5 is a detailed view of the generator according to the present invention. FIG. 6 is a state diagram when the rotary handle according to the present invention is unfolded and rotated.

Explanation of symbols

100 cup body 200 light emitting unit 201 light emitting diode 202 printed circuit board 203 switch 300 power generating unit 310 generator 311 rotor 311a permanent magnet 312 stator 312a magnetic pole 312b winding 320 speed increasing gear group 321 driving gear 321a driving shaft 322 bell copper gear 323 Connection gear 324 Connection gear 325 Rotating handle 330 Electrolytic capacitor 400 Cap 401 Storage home 402 Display panel

Claims (4)

A light emitting diode, a printed circuit board, and a light emitting unit as a switch are attached to the lower end of a glass body made of light-transmitting glass or synthetic resin so that light emitted through the light emitting diode can be reflected outside. In the emitted light cup,
A generator that generates electricity through an inductive action between a rotor and a stator, and a speed-up gear group that accelerates and transmits a rotational force that is initially input to the rotor of the generator at a lower portion of the light emitting unit. A power generation unit comprising an electrolytic capacitor for charging electricity generated through the generator and applying power to the light emitting unit from the electrolytic capacitor. A removable cap that covers the unit and the power generation unit, and the drive shaft connected to the drive gear of the speed increasing gear group is pulled out in an airtight manner at the center of the cap. A self-generating light emitting cup characterized in that a rotating handle is connected to the drive shaft.   The rotor is configured such that a permanent magnet is divided into a number of regions and N poles and S poles are alternately arranged, and the stator is divided into the number of permanent magnets constituting the rotor with magnetic poles and windings. The self-powered light emitting cup according to claim 1, wherein power generation is established regardless of forward / reverse rotation of the rotor.   2. The home according to claim 1, wherein the rotary handle is slidably connected to the drive shaft, and a storage home in which the rotary handle is stored is formed on one side of a lower end surface of the cap. Power generation type light emitting cup.   The self-generator-type light emitting device according to claim 1, wherein a display panel configured to display the amount of electricity charged in the electrolytic capacitor externally is installed on an outer wall of the cap. Cup.

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