KR101666997B1 - Piezoelectric power generating device for road - Google Patents

Abstract

A road-use piezoelectric power generation device according to an embodiment is disclosed, and more specifically, a road-use piezoelectric power generation device capable of utilizing energy that is installed on the road to generate electric power and used up.
A road piezoelectric generator according to an embodiment includes a deformable portion disposed on the ground and deformable by an external force, a power generating portion disposed below the deformable portion, the power generating portion including a piezoelectric body, the one end connected to the deformable portion, And a light emitting unit connected to the piezoelectric member, wherein power generated from the piezoelectric member can be transmitted to the light emitting unit when the striking member strikes the striking member.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a piezoelectric device,

A road-use piezoelectric power generation device according to an embodiment is disclosed, and more specifically, a road piezoelectric power generation device capable of generating electric power by using waste energy and generating light to the outside including a light emitting body is disclosed.

Piezoelectricity is a phenomenon in which positive and negative charges appear on both sides of a plate when a certain kind of crystal plate is pressurized in a certain direction, proportional to the external force. A piezoelectric element is a device that exhibits a piezoelectric phenomenon, and a piezoelectric generator is a device that generates power by using a piezoelectric device.

The overspeed preventing jaw is installed so as to protrude at a specific height on the road in order to lower the running speed of the vehicle. By applying paint with reflective material, the driver can easily detect the speed bumps. However, when the reflection material disappears due to the friction with the automobile wheel, there is a problem that it is difficult to detect the speed bump at night, and the vehicle suddenly stops.

Traffic lights are installed on the roads to indicate traffic signals such as progress, stop, etc. in order to secure traffic safety or smooth traffic flow. Traffic signal controller is installed at intersections and crosswalks to control signal lamps. It consists of a control unit and a signal driver. A switchboard is a plate in which switches, breakers, etc. are installed to direct and supervise the distribution, opening and closing of electricity.

For example, in Japanese Patent Application Laid-Open No. 10-2011-0017708, a piezoelectric element is provided in a diaphragm vibrating by an external force and a cantilever installed in a diaphragm, and when a force is applied from the outside, vibrations of the diaphragm, And the mechanical deformation of the piezoelectric element is sustained, thereby increasing the efficiency of generating electric power.

An object according to an embodiment is to provide a road-use piezoelectric power generation device using energy that is abandoned by converting the force applied by the vehicle to the road into electric energy.

An object of the present invention is to provide a road-use piezoelectric power generation device that allows a driver to clearly see a speed braking assist by illuminating a lamp around a speed braking assist.

An object of the present invention is to provide a road-use piezoelectric power generator capable of replenishing electric power of an electric power distribution panel by transmitting the generated energy to an electric power distribution panel.

The object of the above-described embodiment is achieved by providing the following piezoelectric generator for road use.

A road piezoelectric generator according to an embodiment includes a deformable portion disposed on a ground surface and deformable by an external force, a power generation portion disposed below the deformed portion and including a piezoelectric body and a support member, And the other end may include a striking member for striking one end of the power generation unit and a light emitting unit connected to the power generation unit. When the striking member is struck, power generated from the power generation unit may be transmitted to the light emitting unit have.

According to one aspect of the present invention, one end of the power generation unit may be connected to and fixed to the fixing member, the other end of the power generation unit may be configured to be unfixed, and the other end may be disposed adjacent to the other end of the striking member.

According to one aspect of the present invention, the piezoelectric power generation device may further include a power storage unit connected to the power generation unit, wherein the power storage unit is disposed between the light emitting unit and the power generation unit, And may be connected through the power storage unit.

According to one aspect of the present invention, the light emitting unit may be disposed on an overspeed preventing jaw provided to protrude from the floor to lower the traveling speed of the vehicle.

According to one aspect of the present invention, the deformable portion may be disposed in front of the overspeed preventing jaw so as to apply pressure to the deformable portion before the vehicle passes the overspeed preventing jaw.

According to one aspect of the present invention, the light emitting unit may be included in the signal lamp unit and the power storage unit may be included in the switchboard capable of controlling the signal lamp unit.

According to one aspect, the deformed portion can be disposed at a point where the vehicle turns to the right or in front of the crosswalk.

The piezoelectric device for road use according to one embodiment can use energy that is abandoned by converting the force applied by the vehicle to the road into electric energy.

The roadside piezoelectric power generator according to an embodiment can brighten the lamp around the over-speed braking tack, so that the driver can see the over-speed braking bell clearly.

The piezoelectric device for road use according to an embodiment can supplement the power of the switchboard by transmitting the generated energy to the switchboard of the traffic light.

1 is a view showing a mode in which a road piezoelectric generator according to an embodiment is used in an overspeed preventing jaw.
Fig. 2 is a view schematically showing a configuration of a road piezoelectric generator according to an embodiment.
3 is a view showing a striking member of a road piezoelectric generator according to an embodiment striking a power generating portion.
4 is a view showing a mode in which a road piezoelectric generator according to an embodiment is used for a traffic light.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, configurations and applications according to embodiments will be described in detail with reference to the accompanying drawings. The following description is one of many possible claims, and the following description forms part of the detailed description of the present invention.

In the following description, well-known functions or constructions are not described in detail for the sake of clarity and conciseness.

Fig. 1 is a view showing a configuration in which a road piezoelectric generator according to an embodiment is used in an overspeed preventing jaw, Fig. 2 is a view schematically showing a configuration of a road piezoelectric generator according to an embodiment, 3 is a diagram showing a mode in which the striking member of the road piezoelectric generator according to the embodiment strikes the power generation portion.

Referring to FIG. 1, the road piezoelectric generator 1 according to an embodiment may be used with a speed limiter 100 protruding from the floor to lower the running speed of the vehicle.

The piezoelectric device 1 for road use may include a deforming portion 110, a power generating portion 120, a striking member 130, and a light emitting portion 160. The detailed construction and operation of the road-use piezoelectric power generation device 1 will be described with reference to Fig.

Although the paint containing the reflective material is applied to the overspeed preventing chin 100, the reflective material may disappear according to the surrounding environment over time, and it may be difficult to identify the speed control protector 100 particularly at night. Accordingly, by disposing the light emitting portion 160 that generates light on the overspeed preventing jaw 100, the overspeed preventing jaw 100 can be easily identified.

The deformation part 110 may be disposed in front of the overspeed preventing jaw 100 so that the deformation part 110 may apply pressure to the deformation part 110 before the vehicle passes the overspeed preventing jaw 100. [ The deformable portion 110 may be deformed by an external force or enter the inside of the ground, so that the power generation portion 120 can generate electric power.

That is, when power is generated by stepping on the deformation portion 110 before the vehicle passes over the overspeed preventing jaw 100, the light emitting portion 160 on the overbraking jaw 100 can emit light around the overbraking jaw 100 with the generated power.

Therefore, by making the light emitting unit 160 glow before the vehicle passes the overspeed prevention bumper 100, the driver can identify the speed limiting bumper 100 in advance.

Referring to Fig. 2, the detailed configuration and operation of the piezoelectric actuator 1 for a road will now be described. The piezoelectric device 1 for road use may include a deforming portion 110, a power generating portion 120, a striking member 130, and a light emitting portion 160.

The deformation portion 110 is disposed on the ground and can be deformed by an external force. For example, the deformable portion 110 may protrude from the ground, and the deformable portion 110 may enter the ground when the vehicle passes over the deformable portion 110. The deformable portion 110 may be made of a rigid material so as not to be easily damaged by the load of the vehicle.

However, the shape of the deformable portion 110 is not limited to this, and may be variously configured as long as the deformable portion 110 can be inserted in the downward direction of the ground.

For example, the deforming portion 110 may be disposed in parallel with the ground so that when the vehicle passes over the deforming portion 110, the deforming portion 110 may be configured to enter under the ground. Also, the deformed portion 110 may be made of a resilient and non-rigid material so that the deformed portion 110 is contracted by the load of the vehicle and the pushing member 130 is pressed downward.

The power generation section 120 is disposed below the deformation section 110 and may include the piezoelectric body 121 and the support member 122. The piezoelectric body 121 may be attached on the support member 122, and the shape thereof may be various. For example, the piezoelectric body 121 may be attached to the upper side or the lower side of the support member, may be attached to the upper side and the lower side, and the support member 122 itself may be composed of piezoelectric elements.

The power generation unit 120 may have a cantilever shape in which one end is fixedly connected to the fixing member 140 and the other end is non-fixed. The portion of the power generation unit 120 connected to the fixing member 140 may be the support member 122. [ The fixing member 140 may extend downward from the ground and fix the power generation unit 120 to be horizontal with the ground. The power generating unit 120 is preferably held so as to be level with the ground so that the striking member 130 strikes the power generating unit 120 well.

3 (a) shows a state in which the striking member 130 and the power generating unit 120 are separated from each other, and FIG. 3 (b) shows a state in which the striking member 130 and the power generating unit 130 are in contact with each other FIG.

The striking member 130 may extend from the ground and be disposed parallel to the securing member 140. One end of the striking member 130 may be connected to the deformation portion 110 and the other end may strike one end of the power generating unit 120. [ The striking member 130 may be configured to contact the power generating unit 120 in a state where the deformation unit 110 is not deformed and is spaced apart from the power generation unit 120 and the deformation unit 110 is deformed.

For example, the length of the deformed portion 110 protruding from the ground surface may be greater than the distance between the striking member 130 and the power generating unit 120. 3 (a), the striking member 130 and the power generating unit 120 are separated from each other before the deformation unit 110 is deformed. When the deformation unit 110 is deformed, The striking member 130 moves in the direction of the power generation unit 120 by the length of the deformation unit 110 that is below the ground and the striking member 130 and the power generation unit 120 can be in contact with each other.

2, the support member 122 is made of an elastic material so that the striking member 130 is repeatedly in contact with and spaced apart from the power generation unit 120, So that it can vibrate up and down around the fixed end. The piezoelectric body 121 can continuously generate electric power by the vibration of the support member 122. [ Due to such a structure, higher power can be generated than simply hitting the power generator 120.

The light emitting unit 160 may be a light emitting unit including various types of bulbs as a light emitting unit.

The piezoelectric device for road use 1 further includes a power storage unit 150 that can be connected to the power generation unit 120 and the power storage unit 150 is disposed between the light emitting unit 160 and the power generation unit 120 The power generation unit 120 may be directly connected to the light emitting unit 160 or may be connected to the power storage unit 150. Accordingly, the power generated in the power generation unit 120 can be stored in the power storage unit 150, or can be used immediately in various load devices requiring power.

The external storage device may be a light emitting unit 160. That is, the light emitting unit 160 may be directly connected to the power generation unit 120 or may be connected to the power storage unit 150, thereby emitting light to the outside using the power generated by the power generation unit 120.

Fig. 4 is a diagram showing a form in which the road-use piezoelectric generator 2 according to the embodiment is used for a traffic light.

Referring to Fig. 4, the road-use piezoelectric generator 2 can be placed on the road and used to generate the electric power at the load of the vehicle to operate the signal lamp apparatus 200. [ Since the above-described road-use piezoelectric generator 1 may include similar components, differences will be mainly described for the sake of simplicity of explanation.

The light emitting unit 260 may be included in the signal lamp unit and the power storage unit 250 may be included in the switchboard 255 capable of controlling the signal lamp unit 200. The switchboard 255 can control the traffic light device 200 including a traffic signal controller as an apparatus for instructing and supervising the distribution, opening and closing of electricity, and the like. The electric power generated in the piezoelectric device 2 for road use can be used for the switchboard 255. [

That is, the power generating unit 220 can operate the signal lamp apparatus 200 including the direct light emitting unit 260, or can supplement the power of the switchboard 255 by supplying power to the power distribution board 255. [

The deforming portion 210 can be disposed at a point where the vehicle is turning right or in front of a crosswalk, and can generate power using the braking force of the vehicle, which can generate higher power than a normal arrangement.

However, the arrangement of the road piezoelectric generator 2 including the deformed portion 210 is not limited to this, and may be arranged in various places in various forms as needed.

By using the above-described road-use piezoelectric power generators 1 and 2, the energy that the vehicle exerts on the road can be converted into electrical energy, so that the waste energy can be used. By illuminating the lamp around the speed braking tester, And the generated energy can be transmitted to the switchboard of the traffic light to supplement the power of the switchboard or operate the traffic light device.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

Piezoelectric power generator for 1 road
100 speed bumps
110 deformation part
120 power generation unit 121 piezoelectric element
122 support member
130 striking member 140 fixing member
150 Power storage unit 160 Light emitting unit
Piezoelectric power generator for 2 roads
200 Traffic light devices
210 deformation part
220 power generation section
250 power storage unit
255 Switchboard
260 Light-

Claims (7)

A deformable portion protrudingly disposed on the ground and deformable by an external force;
And a supporting member disposed on the lower side of the deformed portion and composed of a piezoelectric body and an elastic material, one end of which is connected and fixed in an 'a' shape with a fixing member extending downward from the ground, A cantilever type power generating unit;
A striking member which is formed in an "a" shape, one end connected to the deformation portion, and the other end striking one end of the power generation portion; And
And a light emitting portion disposed on the overspeed preventing jaw protruding from the floor for lowering the running speed of the vehicle and connected to the power generating portion,
Power is generated from the power generator when the striking member strikes the power generator, and the power generator is vertically vibrated to generate additional power, the generated power can be transmitted to the light emitting unit,
Wherein the deforming portion is disposed in front of the overspeed preventing jaw so as to apply pressure to the deforming portion before the vehicle passes the overspeed preventing jaw, and the light emitting portion emits light before the vehicle passes the overspeed preventing jaw.
delete The method according to claim 1,
Further comprising a power storage unit connectable to the power generation unit,
Wherein the power storage unit is disposed between the light emitting unit and the power generation unit, and the power generation unit is directly connected to the light emitting unit or can be connected to the power storage unit.
The method according to claim 1,
Wherein a length of the deformed portion protruding from the ground surface is larger than an interval between the striking member and the power generation portion. delete delete delete

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