KR20120085402A - Self-Generated Safety Lamp using Piezoelectric Energy Harvester - Google Patents

Abstract

PURPOSE: A self-generated safety lamp using a piezoelectric energy harvester is provided to remove a power supply device supplying electricity from the outside by converting mechanical energy due to external shocks or deformation to electrical energy. CONSTITUTION: A generating part(2) is installed in an external case(1) to generate electricity. The generating part includes a fixing unit(21) fixed to the inner wall of the external case, an elastic plate(22) fixed to the fixing unit and a weight(23) attached on the end of the elastic plate. The generating part includes a piezoelectric energy harvester in the shape of a thin plate. A bulb(3) is projected to the external case. The bulb is connected to the piezoelectric energy harvester by a wire.

Description

Self-Generated Safety Lamp using Piezoelectric Energy Harvester}

The present invention relates to household goods, and more particularly to a self-generating safety lamp to generate electricity in itself using a piezo energy collection device, and to turn on the light bulb using the electricity generated in this way.

Recently, due to the improvement of people's living standards and the increase of interest in health, more people are enjoying various leisure activities, and more people are enjoying leisure activities at night. In particular, when leisure activities such as bicycle riding, jogging, and other injuries caused by injuries, it is necessary to have a safety device that can prevent other people from identifying their existence.

Safety lamps are one of the safety devices that inform others of their presence at night leisure activities. Most safety lamps are powered by batteries and the LED lamps light up. As described above, in the case of safety using a battery, a battery purchase cost is continuously required, it is cumbersome to replace the battery, and there is a problem in that a waste battery which causes a lot of burden on the environment is generated.

In the case of a safety light for a bicycle, there is a safety light that uses electricity generated from the generator by generating a generator that comes into contact with the bicycle wheel, which requires a separate small generator and has a problem of preventing the driving of the bicycle.

Piezo electric effect (also called piezoelectric effect) is when a deformation such as compression or tension occurs in a material due to an external force, the electrons inside the material move to either side, and a potential difference occurs between two parts of the material. On the contrary, the deformation occurs when electricity is applied from the outside. In addition, these piezoelectric materials are collectively called piezo electric materials (Piezo Electric Materials, also known as piezoelectric materials). Piezo materials are often ceramic materials, but recently, synthetic resins having such properties have been developed. Some are commercially available.

Piezoelectric elements (also called piezoelectric elements) are manufactured in the form of a plate or a block of the above-mentioned piezoelectric material, and coated on both sides of the potential difference (two sides perpendicular to the load direction) with electrical conductors (mainly metal materials). It is manufactured by using the wires, etc., respectively connected to the two surfaces of the potential difference is the electricity flows to the outside. Such piezo materials are widely used in igniters that cause sparks in sensors, lighter gas ranges, etc. that sense vibration, deformation, or load.

As described above, the conventional night leisure safety light is to use a battery or a generator, there are a number of problems accompanying this, without generating a battery or a generator to generate light by itself to generate light at night leisure There is a need for self-generating safety lights that can be used.

Such self-generation safety light should be simple in structure, so there is no fear of breakdown, and small in size and light in use.

Self-generating safety lamp of the present invention is composed of an outer case (1), a power generation unit (2), and a light bulb (3), a rectifier circuit (4, Rectifier) for converting AC into direct current and a capacitor for storing electrical energy ( 5, also called Condenser, Capacitor.) May be further provided.

Attaching the self-generation safety light configured as described above to the bicycle, or attaching it to a backpack and wearing it and running, the vibration and shock generated when the bicycle is running or a person runs through the outer case (1). Transmitted to the vibrating system composed of the elastic plate 22 and the mass weight 23 and vibrates, the electricity is generated in the piezo energy collecting device 24, and the electric bulb 3 is turned on by using the electricity.

The self-generation safety lamp of the present invention generates electricity by converting vibration, which is mechanical energy generated by external impact or deformation, into electrical energy during use, and generates light using the electricity thus produced, such as a battery or a generator. There is no need for a power supply to supply electricity from the outside, and there is no cost and inconvenience in use.

When the self-generation safety light of the present invention is attached to a bicycle and rides on a bicycle or a backpack, and wears it and runs, the self-generation safety light is automatically turned on, and others can identify it to prevent a collision accident.

1 is a cross-sectional view of the self-generation safety lamp of the present invention.
2 is a configuration diagram of a power generation unit.
3 is a layout view of a power generation unit.

As shown in FIG. 1, the self-generation safety lamp of the present invention includes an outer case 1, a power generation unit 2, and a light bulb 3, and includes a rectifier circuit 4, a rectifier, a capacitor 5, a condenser, Also called Capacitor.) May be further provided.

The outer case 1 is a box having a shape capable of accommodating the power generating unit 2 mounted therein, and has one or two or more holes in which the bulbs 3 are coupled to the surface thereof. The outer case 1 may be manufactured in various shapes according to the arrangement of the power generation unit 2 mounted therein, and may be made of a material such as a synthetic resin or a metal plate.

As shown in FIG. 2, the power generation unit 2 has a fixed elasticity 21 fixed to the inner wall of the outer case 1 and fixed one or both ends to the fixed portion 21. Piezo energy collector attached to the elastic plate 22, the mass weight 23 having a constant mass (Mass) attached to one end or the center of the elastic plate 22, and the upper or lower surface of the elastic plate 22 It consists of 24.

The elastic plate 22 may be manufactured using any plate-shaped material having elasticity such as a metal plate, a synthetic resin plate, a composite material plate, and the like.

The mass weight 23 may be any object having a certain size of mass, but is made of a metal material such as lead, copper, iron, etc., which has a large mass in a small volume, that is, a high density metal material in order to reduce the overall volume. Good to do.

The piezo energy collecting device 24 is manufactured by coating both surfaces of the thin plate-shaped piezo material 241 with the electrically conductive material 242 as shown in FIG. Piezo energy collectors are commercially available. When the compression or tensile deformation occurs due to an external force, the piezo energy collection device 24 moves electrons on one side to the other side, and a potential difference occurs between the upper and lower surfaces, and the two surfaces are connected to the electric wire ( 243), electricity flows.

Recently, magnetostrictive materials having magnetostrictive properties, such as nickel, cobalt, Terfenol or Galfenol, are coated on a sheet to a certain thickness, and conductor coils are arranged on or inside the coating layer, so that the coils are electricized similarly to the above-described piezo materials. When the flow of the plate is deformed to generate ultrasonic waves, and when the ultrasonic wave is applied to the minute deformation of the plate to generate electricity to the coil to generate a current flowing element. In the present specification, the piezo energy collecting device is referred to as a "piezo energy collecting device" as well as an energy collecting device using a typical piezo material, as well as a device in which electricity is generated when deformation occurs in the material regardless of the type of material and structure.

When the mass weight 23 is attached to the elastic plate 22 as described above, the elastic plate 22 serves as a spring and the mass weight 23 serves as a mass. This vibration system has a constant natural frequency determined by the spring constant of the elastic plate 22 and the mass of the mass weight 23, and vibration occurs when a load is applied from the outside.

If the load applied from the outside of the vibration system is an impulse, the impact is a load having all the frequency components, and thus the vibration system resonates with the frequency components of the shock such as its natural frequency and continuously vibrates with the natural frequency. . When the vibration is generated in this way, the elastic plate 22 is bent up and down to repeat the deformation forming a curved surface (hereinafter referred to as "bending curvature deformation").

Piezo energy collecting device 24 is attached to the portion where the bending curvature deformation occurs the most when the vibration occurs in the elastic plate (22). The bending curvature deformation is when one end of the elastic plate 22 is fixed and the other end is free (as shown in Fig. 2A) (the structure of such a supporting state is called a "cantilever"). In the fixed end portion, as shown in (b) of FIG. 2, when both ends are rotatably supported (a structure in such a supporting state is referred to as a "simple support beam"), the intermediate portion of the elastic plate 22 , If both ends are fixed to be supported so as not to rotate as shown in (C) of FIG. 2 (the structure in such a supporting state is referred to as "both height information"), the middle and both ends of the elastic plate 22 are supported. The piezo energy collecting device 24 attaches to the upper or lower surface of these portions of the elastic plate 22 as it occurs at maximum.

When the vibrometer vibrates, the piezo energy collecting device 24 attached to the site where the bending curvature deformation of the elastic plate 22 is the maximum is the compression deformation as shown in Fig. 3 (a) and Fig. 3 (b). Tensile deformation as shown in the drawing is repeatedly received, and accordingly, alternating current is generated in the wires 243 connected to both ends of the piezo energy collecting device 24. It simply shows that the electrodes at both ends of the energy collector 24 are changed.)

When the natural frequency of the vibrometer configured as described above is matched with the pitch frequency at which a person runs (normally, the pitch frequency is between 2 and 3 Hz since a person runs at a pitch of 120 to 189 steps per minute when running), the vibration system is resonant. By vibrating greatly, the amount of power generated by the piezo energy collecting device 24 increases. When the self-powered safety lamp having such a high frequency vibrometer is used for running, it becomes a safety lamp having high brightness.

When the light bulb 3 is connected to the wire 243 through which electricity flows as described above, light is generated from the light bulb and is turned on. As a light bulb, it is recommended to use an LED bulb that generates a high level of light even with small electricity.

The light bulb 3 may be directly connected to a wire 243 connected to both ends of the piezo energy collecting device 24, but as shown in FIG. 1, the light bulb 3 may be connected via a rectifier circuit 4 and a condenser 5. Since electricity generated in the energy collector 24 is accumulated in the condenser 5 and uniformly supplied to the bulb 3, light is emitted from the bulb even when electricity is generated largely or weakly in the piezo energy collector 24. Occurs to some degree uniformly.

One light bulb 3 may be attached to any one side of the outer case 1, but may be attached to any one side of the outer case 1, one on each side of the outer case (1) Alternatively, by attaching two or more pieces, light may be generated from various surfaces of the outer case 1.

The wires 243 are not necessarily connected to both ends of the piezo energy collecting device 24, and when the elastic plate 22 and the fixing portion 21 are made of metal, they may serve as one wire.

In order to generate a lot of electricity with a small volume of self-generation safety light to generate a bright light from the bulb (3), it is provided with a plurality of power generation unit (2) inside one outer case (1), it is configured by connecting them in parallel can do. In this case, since all of the electricity generated from each power generation unit 2 is supplied to the light bulb 3, the brightness of the light bulb can be brightened.

If a narrow and high self-generation safety lamp is configured, as shown in FIG. 3 (a), the plurality of power generation units 2 are arranged up and down in the outer case 1, and the width and thickness of the self To configure the power generation safety lamp, as shown in FIG. 3 (b), the plurality of power generation units 2 are horizontally arranged in the outer case 1, and to configure the disc-shaped self-generation safety lamp of FIG. 3 (C) As shown in FIG. 2, the power generating units 2 may be arranged in various ways such as radially arranging the plurality of power generating units 2 in the disc-shaped outer case 1 having a predetermined thickness.

When the self-generation safety light configured as described above is attached to the bicycle and rides on the bicycle or the backpack, and wears it and runs, the vibration and shock generated when the bicycle is running or a person runs through the outer case (1) ), The vibration system composed of the elastic plate 22 and the mass weight 23 vibrates, and electricity is generated by the piezo energy collecting device 24 so that light is generated in the light bulb 3. As such, when the self-powered safety light is turned on, others can identify it and prevent a crash.

1: outer case, 2: generator, 3: bulb, 4: rectifier circuit, 5: condenser,
21: fixed part, 22: elastic plate, 23: mass weight, 24: piezo energy collector,
241: piezo material, 242: conductor material, 243: electric wire

Claims (5)

Outer case 1;
Mounted inside the outer case 1 to generate electricity, fixed portion 21 fixed to the inner wall of the outer case 1, fixed to one or both ends to the fixed portion 21 It is attached to the elastic plate 22 having elasticity, one end or the center of the elastic plate 22 as a fixed mass (Mass) to the mass weight 23, and the upper or lower surface of the elastic plate 22 A power generation unit 2, which is composed of a thin plate-shaped piezo energy collection device 24;
And, a light bulb (3) attached to protrude to the outer surface of the outer case (1), connected to the piezo energy collection device 24 of the power generation unit (2) by electric wire;
Composed of, self-generation safety lights. The method of claim 1, wherein the self-generation safety light,
Self-generating safety lamp, characterized in that the rectifier circuit (4) and the condenser (5) is further provided on a wire connecting the piezo energy collecting device (24) of the power generation unit (2) and the bulb (3). The method of claim 1 or 2, wherein the piezo energy collecting device 24,
Self-generating safety lamp, characterized in that the piezo energy collecting device manufactured by coating both sides of the thin plate-shaped piezo material 241 with the conductor material 242. The self-generation safety lamp according to claim 1 or 2,
Two or more power generating units 2 are provided in the outer case 1 and connected in parallel, and the plurality of power generating units 2 are arranged up and down, or the plurality of power generating units 2 are arranged horizontally. Or self-generating safety lamps, characterized in that arranged in any one of a method of arranging a plurality of power generation units (2) radially. The self-generation safety lamp according to claim 1 or 2,
Self-generating safety lamp, characterized in that the natural frequency of the vibration system consisting of the elastic plate 22 and the mass weight 23 is between 2 to 3 Hz.

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