KR101132278B1 - Apparatus for brake and power generation and vehicle having the same - Google Patents

Abstract

The present invention relates to a braking power generation device and a vehicle having the same, and more particularly, a braking power generation device that can perform braking using the power generation load while generating power by using the rotational force of the rotation means of the vehicle and the same. It relates to a vehicle provided.
According to one aspect of the present invention, there is provided a braking power generation device, the bonding device for rotating in contact with the rotation means of the vehicle, to reduce the rotation of the rotation means to the power generation load as power is supplied, the rotational kinetic energy from the adhesion device And a generator for converting the electric energy into electrical energy, and a connecting gear positioned between the adhesive device and the generator to transmit rotation.

Description

Braking power generation device and vehicle having same {APPARATUS FOR BRAKE AND POWER GENERATION AND VEHICLE HAVING THE SAME}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a braking power generation device and a vehicle having the same. More particularly, the braking power generation apparatus may perform braking by using a power generation load while generating power by using a rotational force of a vehicle rotation means (for example, a wheel). The present invention relates to a braking power generation device capable of driving and a vehicle having the same.

In general, a device for decelerating or stopping a vehicle (or device) that has a predetermined rotational motion such as an automobile, an electric vehicle, an elevator, etc. is generally referred to as a braking device, and the braking device mainly uses frictional force between a plurality of components. have. In an automobile, for example, the driver transmits the force to press the brake pedal to the wheel through a hydraulic cylinder, which is an intermediate medium, so that friction occurs.

However, in the case of performing braking by using friction between a plurality of components, as in a conventional disc brake or a drum brake, since heat is generated a lot, energy loss may increase, and various parts may be damaged due to friction, There is a problem that wear or pollutants are discharged to reduce the life of the braking device or environmental pollution.

In addition, the braking fluid used in the hydraulic cylinder needs to be replenished periodically, and in addition, when such a braking fluid leaks, a problem may be that life may be threatened by deterioration of braking force of the vehicle and odor or environmental pollution may occur. have.

Therefore, while solving the problems of the conventional braking device described above, there is a need for a new device for improving braking force and efficiently regenerating energy.

The object of the present invention is to solve all the problems of the prior art described above.

Another object of the present invention is to provide a braking power generation apparatus capable of efficiently regenerating energy while performing braking by performing braking and power generation together.

It is another object of the present invention to implement an economically developed braking method without causing pollution.

In addition, another object of the present invention is to use a stepped generation braking system and a mechanical braking system in stages.

Representative configuration of the present invention for achieving the above object is as follows.

According to one aspect of the present invention, there is provided a braking power generation device, the bonding device for rotating in contact with the rotation means of the vehicle, to reduce the rotation of the rotation means to the power generation load as power is supplied, the rotational kinetic energy from the adhesion device And a generator for converting the electric energy into electrical energy, and a connecting gear positioned between the adhesive device and the generator to transmit rotation.

According to another aspect of the present invention, there is provided a vehicle, comprising: a plurality of rotation means for moving the vehicle, the rotation contacting at least one of the plurality of rotation means, and for reducing the rotation of the corresponding rotation means as power is supplied. A braking power generation device comprising a bonding device, a generator for converting rotational kinetic energy from the bonding device into electrical energy, and a connecting gear positioned between the bonding device and the generator to transmit rotation, the braking power generation device being generated in the braking power generation device. Provided is a vehicle including a charging unit for charging electrical energy, a battery unit receiving electrical energy from the charging unit and storing the electrical energy, and a controller for controlling the braking power generation device according to the control of the driver of the vehicle.

According to still another aspect of the present invention, there is provided a vehicle comprising: a plurality of rotating means for moving the vehicle, the front and rear rotations of at least one of the plurality of rotating means, and rotation of a corresponding rotating means as power is supplied. A first braking power generation device and a second braking power generation device comprising a bonding device for reducing, a generator for converting rotational kinetic energy from the bonding device into electrical energy, and a connection gear positioned between the bonding device and the generator to transmit rotation; Braking unit, a charging unit for charging the electrical energy generated by the first braking power generation device and / or the second braking power generation device, a battery unit for receiving and storing the electrical energy from the charging unit, and the control of the driver of the vehicle And a control unit for controlling the first braking power generation device and the second braking power generation device. In response to the braking step of the vehicle, the control unit first drives one of the first braking power generation device and the second braking power generation device, and then simultaneously drives the first braking power generation device and the second braking power generation device together. A vehicle is provided for controlling to drive.

According to the present invention, it is possible to efficiently reproduce energy while performing braking by performing braking and power generation together.

According to the present invention, an economical power generation braking method is implemented without causing pollution.

According to the present invention, the power generation braking method and the mechanical braking method can be used in stages.

1 is a block diagram of a braking power generation device 100 according to an embodiment of the present invention.
2 is a block diagram of a vehicle provided with the braking power generation device 100 according to an embodiment of the present invention.
3 is a cross-sectional view showing a part of a vehicle provided with the braking power generation device 100 according to an embodiment of the present invention.
4 is a view for explaining the driving of a vehicle provided with the braking power generation device 100 according to an embodiment of the present invention.
5 is a view showing an example of a vehicle provided with the braking power generation device 100 according to the present invention.
<Brief description of the major reference numerals>
100: braking power generation device
200: rotation means
300: mechanical braking system
400: charging unit
500: battery unit
600: control unit

DETAILED DESCRIPTION The following detailed description of the invention refers to the accompanying drawings that show, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description, therefore, is not to be taken in a limiting sense, and the scope of the present invention, if properly described, is defined only by the appended claims, along with the full range of equivalents to which such claims are entitled. Like reference numerals in the drawings refer to the same or similar functions throughout the several aspects.

DETAILED DESCRIPTION Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention.

[Preferred Embodiments of the Invention]

Composition of the braking power generation device

Hereinafter, the internal structure of the braking power generation device 100 and the function of each component will be described.

1 is a block diagram of a braking power generation device 100 according to an embodiment of the present invention.

Referring to FIG. 1, the braking power generation device 100 according to an embodiment of the present invention is a device capable of performing a braking function that hinders the movement of the rotation means 200 while performing a power generation function to generate electrical energy. . In this case, the rotation means 200 means a means for moving the vehicle by the rotary motion in a vehicle, such as a car, an electric car, an elevator.

The braking power generation device 100 may be configured to include an adhesive device 110, a generator 120 and the connecting gear 130, again the adhesive device 110 is an idle gear 111, an electromagnet 112 and It may be configured to include an adhesive plate 113.

First, the idle gear 111 is a component that receives the rotation from the rotation means 200, which is a component to be manually rotated in accordance with the rotation of the rotation means (200).

On the other hand, the electromagnet 112 is magnetized when the power is supplied under the control of the driver to bond the idle gear 111 and the adhesive plate 113 to transmit the rotation of the idle gear 111 to the connection gear 130. Component. As a result of the action of the electromagnet 112, the rotation of the rotating means 200 is transmitted to the gear connected to the axis for rotating the magnet of the idle gear 111, the connecting gear 130, and the generator 120 in order. The generator 120 can generate power. In addition, the rotation of the rotation means 200 may be prevented by the power generation load of the generator 120 to brake the vehicle. In this case, the power generation load has a positive correlation with the power generation amount of the generator 120. On the other hand, it is preferable that the ratio of the diameter of the rotation means 200 to the idle gear 111 or the ratio of the diameter of the connection gear 130 to the gear connected to the rotary shaft of the generator 120 is large.

Meanwhile, the adhesive plate 113 may be made of a material having high wear resistance that can be magnetized by the electromagnet 112 and adhere to the idle gear 111 to reduce the rotation of the rotating means 200. .

Next, the generator 120 is a device capable of converting the mechanical energy due to the rotation of the rotating means 200 into electrical energy, in this regard it can be used without limitation the known generator technology in the present specification will be described in detail herein. It will be omitted.

Next, the connecting gear 130 according to an embodiment of the present invention is located between the bonding device 110 and the generator 120, and has a large rotation ratio through a plurality of gears and the rotating shaft from the bonding device 110 The rotation may be transmitted to the generator 120.

On the other hand, the braking power generation device 100 according to an embodiment of the present invention may be disposed more than one with respect to the rotation means 200 to perform braking and power generation, with respect to the following detailed description with reference to FIGS. Let's take a closer look at the explanation.

Configuration of Vehicle with Braking Generator

2 is a block diagram of a vehicle provided with the braking power generation device 100 according to an embodiment of the present invention. 3 is a cross-sectional view showing a part of a vehicle provided with the braking power generation device 100 according to an embodiment of the present invention.

2 and 3, a vehicle according to an embodiment of the present invention includes a braking power generation device 100, a rotating means 200, a mechanical braking device 300, a charging unit 400, a battery unit 500, and It may be configured to include a controller 600.

First, the braking power generation device 100 according to an embodiment of the present invention is a device capable of performing braking and power generation as described in detail with reference to FIG. 1. Preferably, the braking power generation device 100 may be fixedly fixed to a fixed component of the vehicle such as the support 30.

Next, the rotation means 200 according to an embodiment of the present invention may be rotated about the fixed shaft 40 of the vehicle to perform a function of moving the vehicle. In general, this may be a wheel used in a vehicle, and preferably, a plurality of wheels may be provided in one vehicle.

In particular, since the rotary means 200 according to the embodiment of the present invention is in contact with the idle gear 111 of the brake generator 100, the rotation is transmitted to the brake generator 100 through the idle gear 111. Can be.

Specifically, the rotating means 200 may be composed of a tire 210 and the rotating frame 220. Here, the rotating frame 220 has a circular structure and an opening is provided at the center thereof so that the fixed shaft 40 may be installed, and the fixed shaft 40 may include the body 10 of the vehicle, the rod arm 20, and the supporter ( Connected by a structure such as 30) to function as a central axis of vehicle movement.

Next, the mechanical braking device 300 according to an embodiment of the present invention may perform a function of reducing the rotation of the rotating means 200 by hydraulic pressure. That is, the mechanical braking device 300 is a device for reducing the rotation of the rotating means 200 by using a mechanical frictional force by the pressure.

Although not specifically illustrated, for example, the mechanical braking device 300 may be a disc brake or a drum brake. First, the disc brake braking device is a device for braking the vehicle with a frictional force by a brake pad that presses both edges of a disc shaped brake disc that rotates together with the rotating means 200 of the vehicle by a hydraulic piston. On the other hand, the drum brake braking device is a device for braking the vehicle with a frictional force generated by pressing a brake shoe having a lining (friction material) with a hydraulic piston inside the brake drum that rotates together with the rotating means 200 of the vehicle.

Next, the charging unit 400 according to an embodiment of the present invention may perform a function of collecting the electrical energy generated by the braking power generation device 100 and charging it in the battery unit 500.

Although not shown, the charging unit 400 may include a transformer, a rectifier circuit, a smoothing circuit, and the like. The AC voltage provided by the braking power generation device 100 may be transformed through the transformer. The rectification circuit may be rectified, and then the ripple included in the rectified voltage output from the rectifying circuit may be removed by the smoothing circuit.

Here, the rectifier circuit may be a full-wave rectifier circuit using a bridge circuit, the smoothing circuit may include a resistance element and a power storage element.

Therefore, the charging unit 400 according to an embodiment of the present invention may charge the battery unit 500 by converting the AC voltage generated by the generator 120 of the braking power generator 100 into a stable DC voltage.

Next, the battery unit 500 according to an embodiment of the present invention is an electrical storage means capable of charging electrical energy. The battery unit 500 can be used without limitation, the electric storage means capable of charging and discharging, for example, lead-acid battery, nickel cadmium (NiCd) battery, nickel hydrogen (NiMH) battery, Li-ion (Li-ion) Secondary batteries, such as a battery and a Li-ion polymer battery, are mentioned. In addition, the battery unit 500 may be composed of a plurality of divided batteries (not shown). These multiple divided batteries may be electrically connected to each other, but may also be independent of each other.

On the other hand, preferably, a battery unit 500 corresponding to each of the plurality of braking power generation apparatus 100 may be provided, and such a battery unit 500 may be distinguished from a battery charged by an external charging means. .

Finally, the control unit 600 according to an embodiment of the present invention controls the braking power generation device 100, the rotating means 200, the mechanical braking device 300, the charging unit 400 and the battery unit 500 Can be performed. The controller 600 may control a control signal exchanged or flowing between the above components and other non-shown components (loads) in the vehicle to allow each component to perform its own function.

In particular, the control unit 600 according to an embodiment of the present invention can efficiently control the braking function and the power generation function of the braking power generation device 100 under the control of the driver of the vehicle.

Drive of vehicle with braking power generation device

4 is a view for explaining the driving of a vehicle provided with the braking power generation device 100 according to an embodiment of the present invention.

Referring to FIG. 4, when the vehicle is braked, the braking power generation device 100 may generate electric energy. This will be described in detail below.

First, the first switch 71 and the second switch 72 may be turned ON stepwise by the force of the driver of the vehicle to press the brake pedal 50 of the moving vehicle for braking (here, two Although only three switches are shown, three or more such switches may be used for multi-stage braking). Then, power is supplied to each of the electromagnets 112 of the two braking power generation devices 100 corresponding to each of the switches 71 and 72.

When power is supplied to the electromagnet 112, the electromagnet 112 is magnetized, and the adhesive plate 113 is attached to the idle gear 111 by the magnetic force of the electromagnet 112. At this time, the idling gear 111 is in contact with the rotating means 200 to rotate together to rotate the connection gear 130, the rotation means eventually due to the power generation load of the generator 120 in conjunction with the connection gear 130 Up to rotation of 200 may be reduced.

Then, the braking liquid from the hydraulic device 60 can be supplied to the mechanical braking device 300 when the force to step on the brake pedal 50 reaches a certain threshold. Therefore, since the mechanical braking by the mechanical braking device 300 may be performed together with the power generation braking by the braking power generation device 100, the braking force may be comprehensively improved. In addition, by employing the above configuration, mechanical braking is performed in a state in which the rotation of the rotation means 200 is already reduced by the power generation braking, so that various problems due to mechanical braking can be improved.

Of the present invention Application example

Here, an example in which a vehicle according to various embodiments of the present invention may be specifically implemented and utilized will be described with reference to FIG. 5.

5 is a view showing an example of a vehicle provided with the braking power generation device 100 according to the present invention.

Referring to FIG. 5, the vehicle provided with the braking power generation device 100 of the present invention may be a four-wheeled vehicle. In this case, two braking power generation apparatuses 100 may be provided for each wheel that is the rotation means 200 of the vehicle. Preferably, two braking power generation apparatuses 100 may be provided before and after each wheel, whereby braking and power generation may be performed in stages.

For example, for braking and power generation in a four-wheeled vehicle, the eight brake power generation apparatus 100 of four wheels may be stepwise controlled by the controller 600.

Preferably, the control unit 600 may start braking to the front braking power generation devices of the two front wheels in the first step according to the braking operation of the driver. Subsequent to the first stage, in order to apply a greater braking force, the second stage can also be braked by the front brake generators of the two rear wheels.

Subsequently, braking can also be performed with the rear braking power generation apparatuses of the two front wheels in the third stage, and braking can also be performed with the rear braking power generation apparatuses of the two rear wheels in the fourth stage. This is generally considered that braking performance of the front wheel is superior to that of the rear wheel.

The control of the braking order of the controller 600 as described above may be changed as needed by those skilled in the art according to the type or state of the vehicle.

On the other hand, in the case of insufficient power generation braking as described above, braking using the mechanical braking device 300 such as a disc brake or a drum brake in addition to (or in place of) braking by the braking power generation device 100 is performed. can do. In this way, braking is performed in stages to allow the vehicle to be stably braked and a large amount of power can be obtained, while mechanical braking can be performed only when necessary, thereby overcoming the disadvantages of mechanical braking.

In the above, it has been described assuming that the vehicle according to the present invention is a vehicle having four wheels, the technical concept of the present invention is applied to a two-wheeled vehicle such as a motorcycle or a vehicle having more than four wheels according to the design change of those skilled in the art It will be obvious.

Claims (4)

As a braking power generation device,
An adhesive device for rotating in contact with the rotating means of the vehicle and reducing rotation of the rotating means with a power generation load as power is supplied;
A generator for converting rotational kinetic energy from the bonding device into electrical energy, and
A connecting gear located between the bonding device and the generator to transmit rotation;
Including,
The adhesion device,
Idling gear that rotates manually according to the rotation of the rotating means,
An electromagnet disposed on one side of the idle gear and magnetized according to the supply of power;
An adhesive plate disposed parallel to the side of the idle gear opposite to the one side and bonded to the idle gear and the side when the electromagnet is magnetized to rotate together with the idle gear-the adhesive plate has the same axis of rotation as the connecting gear Has-
Containing
Braking power generation device. As a vehicle,
A plurality of rotating means for moving the vehicle,
A bonding device for rotating in contact with at least one of the plurality of rotating means and reducing rotation of the corresponding rotating means as power is supplied, a generator for converting rotational kinetic energy from the bonding device into electrical energy, and the bonding A braking power generation device comprising a connecting gear positioned between the device and the generator to transmit rotation;
Charging unit for charging the electrical energy generated by the braking power generation device,
A battery unit receiving electrical energy from the charging unit and storing the electrical energy;
Control unit for controlling the braking power generation device according to the control of the driver of the vehicle
Including,
The adhesion device,
Idling gear that rotates manually according to the rotation of the corresponding rotating means,
An electromagnet disposed on one side of the idle gear and magnetized according to the supply of power;
An adhesive plate disposed parallel to the side of the idle gear opposite to the one side and bonded to the idle gear and the side when the electromagnet is magnetized to rotate together with the idle gear-the adhesive plate has the same axis of rotation as the connecting gear Has-
Containing
vehicle. The method of claim 2,
And a mechanical braking device for reducing the rotation of the corresponding rotating means by hydraulic pressure. The method of claim 3,
The mechanical braking device is a disc brake or a drum brake.

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