CN110620419A - Rim tire power generation device - Google Patents

Abstract

The invention relates to a rim tire power generation device. The method is characterized in that the piezoelectric generating layer c on the rim surface of the tire of the runner s and the piezoelectric generating layer r on the inner surface of the tire are pressed by the acting force f1 and the reacting force f2 generated by the contact surface d during running to generate electric energy e. The invention relates to a rim tire power generation device which generates auxiliary energy by using f1 and f2 of the device and d during operation, wherein when the operator moves, the f1 and f2 generated by s and d are used for continuously pressing c and r on a tire to generate e, and the e is collected and allocated by an electric quantity collecting and allocating device g and then is transmitted to a storage battery pack of an energy storage device q to store electric energy for later use. The invention has the characteristics of simple structure, economy, environmental protection, convenience, applicability and the like; the piezoelectric effect power generation device can be widely used for various power generation devices of rim tires which generate power by utilizing the piezoelectric effect in operation, various motor vehicles, non-motor vehicles, toy vehicles, various equipment facilities and the like which generate power by utilizing the piezoelectric effect in operation.

Description

Rim tire power generation device

The technical field is as follows:

the invention designs a power generation device, in particular to a rim tire power generation device. The tire circumferential inner surface power generation system is characterized in that in the running process, a rim-shaped power generation system consisting of a rim-shaped piezoelectric power generation layer and a tire circumferential inner surface power generation system consisting of a tire circumferential inner surface-shaped piezoelectric power generation layer, wherein the rim-shaped piezoelectric power generation layer is arranged between a tire and a tire rim and fixed on the tire rim, can be pressed by the acting force and the reacting force between the tire and a running contact surface to generate electric energy.

Background art:

at present; in the well-known transportation field, vehicles serve as the middle-strength of transportation. Wheels and tires serve as the basic equipment of vehicles, and it is seen that they play an indispensable role in vehicles. The novel transport vehicle realizes portability, quickness, high efficiency and timeliness of transportation in the past years, and promotes high-speed development of transportation. With the rapid development of society, the living standard of people is improved, the living consciousness is improved, and the attention to the ecological environment are paid. Face serious challenges of social survival and deterioration of the ecological environment. (the emission of large amounts of pollutants, which increase the amount of greenhouse gases and toxic gases in the air and thus aggravate the melting of icebergs, and frequent haze weather.) facing such a severe challenge, people started to find a surprise: the source of pollution is found to be primarily from the living, industrial, and transportation areas, with the exhaust emissions of a large number of transportation vehicles being found to be most significant. In the face of reality, people seek a transportation tool which can meet the transportation requirements and does not produce pollutants. The tire is used as the basis of transportation, and a higher mission is actually given to the tire, namely a rim tire power generation device which provides auxiliary power energy for self movement in the running process is suitable for being pregnant and born, and a new chapter in the field of transportation is opened.

The invention content is as follows:

the invention aims to design a rim tire power generation device. A rim tire generator device for a rim-on-tire rim power generation system in which a power generator device is mounted between a runner tire and a tire rim, and a tire circumferential inner surface-area power generation system on a tire circumferential inner surface. The power generation device has the functions of both a common operator and power generation in the operation process. When the runner moves, the runner generates continuous acting force and reacting force with a running contact surface to press a rim-shaped power generation system consisting of a rim-shaped piezoelectric power generation layer arranged between a runner tire and a tire rim and fixed on the tire rim and a tire circumference inner surface-shaped power generation system consisting of a tire circumference inner surface-shaped piezoelectric power generation layer arranged and fixed on the tire circumference inner surface to generate electric quantity; the electric quantity passes through the conductive pulley, the electric quantity collecting and regulating device and the energy storage device to store the electricity for use; when the electric quantity generated by the simultaneous operation of a plurality of tire rim generating sets of a plurality of operators exceeds the demand devices of the operators, the electric quantity can be distributed to other standby livestock batteries, and when the electric quantity is insufficient, the electric quantity can be supplemented, and when the electric quantity is too large, the storage batteries can be replaced by battery replacement to supply power for other operation equipment and be used for household.

In order to achieve the above object, the present invention adopts a rim tire power generation device FIG. 1 in which a tire rim-shaped piezoelectric power generation layer c having a metal conductive layer a and a rubber protective layer b on the surface and a tire circumferential inner surface-shaped piezoelectric power generation layer r are mounted; in the running process, the tire rim-shaped piezoelectric power generation layer c and the metal conductive layer on the surface of the tire circumferential inner surface-shaped piezoelectric power generation layer r have the function of communicating and conducting electricity, the rubber protective layer has the function of buffering acting force, the pressing damage of the acting force on the rim-shaped piezoelectric power generation layer c and the tire circumferential inner surface-shaped piezoelectric power generation layer r is reduced, the service life of the rim-shaped piezoelectric power generation layer is prolonged, the tire rim-shaped piezoelectric power generation layer is installed and fixed on a tire rim s, and the tire circumferential inner surface-shaped piezoelectric power generation layer r is installed on the tire inner surface as shown in figure 2; the principle is that the runner continuously presses a metal conducting layer a, a rubber protective layer b, a tire rim-shaped piezoelectric power generation layer c and a tire circumferential inner surface-shaped piezoelectric power generation layer r which are directly processed and synthesized by high-quality piezoelectric materials by utilizing the acting force f1 and the reacting force f2 between the tire rim and the running contact surface d of the runner during running or is combined by a plurality of piezoelectric elements to form the metal conducting layer a, and the rubber protective layer b, the tire rim-shaped piezoelectric power generation layer c and the tire circumferential inner surface-shaped piezoelectric power generation layer r generate electricity e as shown in figure 3; since the electric quantity e is the pressing of the acting force and the reacting force of the tire rim and the running surface of the running tire at the running device, and the pressing frequency of the running tire rim changes along with the running speed, the generated frequency is not standard, so that the electric quantity e is required to be connected with the rim-shaped piezoelectric power generation layer c, the tire inner surface-shaped piezoelectric power generation layer and the electric quantity collecting tuner g through the conductive pulley h as shown in FIG. 4; the nonstandard electric quantity e is transmitted to an electric quantity collecting and adjusting device g through the connection of a conductive pulley, and the electric quantity e1 which becomes a certain standard after frequency modulation i, voltage boosting j, rectification k, filtering l and voltage stabilization m in g is shown in figure 5; the tire rim power generation device is used for transmitting the electric quantity e1 with certain standard to a tire rim power generation device, and consists of a p electric quantity energy storage device q consisting of a storage battery pack, and the collected electric quantity e1 is stored by utilizing the electric quantity storage and discharge characteristic device q of the storage battery for standby use as shown in figure 6.

Description of the drawings:

FIG. 1 is a schematic diagram of a rim tire generator; FIG. 2 is a view showing the rim-shaped piezoelectric layer and the inner surface of the tire circumference of the rim tire power generating apparatus mounted in a surface-like manner; FIG. 3 is a power generation diagram of a rim power generation tire electrical device; FIG. 4 is a conductive diagram of a rim tire generator; FIG. 5 is a diagram of a power collection and adjustment device of the rim-tire power generation device; fig. 6 is a diagram of a power storage device of the rim tire power generation device.

The specific implementation mode is as follows: 1. according to the size and structure of the tire rim and the circumferential inner surface of the tire of the operator, a tire rim-shaped piezoelectric power generation layer and a tire circumferential inner surface-shaped piezoelectric power generation layer are manufactured, wherein the surface of the tire rim-shaped piezoelectric power generation layer corresponds to the tire rim and is covered with a corresponding metal conductive layer and a corresponding rubber protective layer; 3, mounting and fixing the piezoelectric power generation layer in the shape of a tire rim covered with the metal conductive layer and the rubber protective layer on the tire rim between the tire and the tire rim, and mounting and fixing the piezoelectric power generation layer in the shape of the inner surface of the tire circumference on the inner surface of the tire circumference; 4. connecting a rim-shaped piezoelectric power generation layer arranged on a tire rim row and a piezoelectric power generation layer with a tire circumferential inner surface shape with an electric quantity collecting tuner in a runner through a conductive pulley to transmit the generated nonstandard quantity to the electric quantity collecting tuner; 5. the nonstandard electric quantity is transmitted to the electric quantity energy storage device after being subjected to frequency modulation, voltage boosting, rectification, filtering and voltage stabilization in the electric quantity collecting tuner; 6. the storage battery pack of the energy storage device consists of more than m (m is more than or equal to 2) storage batteries, and the tire rim power generation device of the operator conveys the electric quantity to the storage battery pack through the electric quantity collecting and allocating device during operation to store the electric energy for use; when the electric quantity generated by the simultaneous operation of a plurality of operators exceeds the self demand device, the electric quantity can be distributed to other livestock batteries, when the electric quantity is insufficient, the electric quantity can be supplemented, and when the electric quantity is too much, the storage batteries can be used for supplying power to other operation equipment by replacing the batteries and used for household use. The invention has the advantages of simple structure, clear conditioning, economy, applicability, safety, environmental protection, energy conservation and emission reduction, can be widely applied to the field of power generation by utilizing the piezoelectric effect when various energy operators run, can also be applied to various rim tire power generation devices of motor vehicles and non-motor vehicles which generate power by using the piezoelectric effect during motion, various rim tire power generation devices of automobiles which generate power by using the piezoelectric effect during motion, various rim tire power generation devices of trains which generate power by using the piezoelectric effect during motion, various rim tire power generation devices of two-wheeled or three-wheeled vehicles which generate power by using the piezoelectric effect during motion, various toy vehicle tires which generate power by using the piezoelectric effect during motion, various rim tire power generation devices of transportation tools and motion entertainment tools and the like.

Claims (7)

1. The inclusion and features of a tire power plant: a is a rim tire generating set operator formed by combining a tire rim-shaped generating system generating electricity by generating piezoelectric effect during movement and a tire circumferential inner surface-shaped generating system; B. various rim tire power generation devices of motor vehicles and non-motor vehicles which generate power by the piezoelectric effect during movement, and various automobile rim tire power generation devices which generate power by the piezoelectric effect during movement; a D-type train rim tire generating set which generates electricity by piezoelectric effect during movement; e, various rim and tire generating devices of two-wheeled and three-wheeled vehicles which generate electricity by piezoelectric effect during movement, F, various toy wheel rim and tire generating devices which generate electricity by piezoelectric effect during movement; g, various rim and tire power generation devices of vehicles and sports entertainment tools which generate power by piezoelectric effect during movement, and the like; the tire rim power generation device is characterized in that a rim-shaped piezoelectric power generation layer positioned on the surface of a rim of the tire rim power generation device and an inner surface-shaped piezoelectric power generation layer on the circumference of a tire are pressed by using the acting force and the reaction force of the tire rim power generation device and the running surface to generate electricity, and a runner tire rim; a tire-rim-like power generation system; a power generation system having a tire circumferential inner surface; a conductive pulley; the electric quantity collecting and adjusting device is connected with the electric quantity converter; and an electric energy storage device.

2. As set forth in claim 1: a rim-tire power generation device is characterized in that a runner tire rim mainly utilizes the size and the structure of the tire rim and a tire in the runner to manufacture a rim-shaped piezoelectric power generation layer and a tire inner surface-shaped piezoelectric power generation layer which are arranged on the tire rim.

3. As set forth in claim 1: a rim and tire generating set is characterized in that a tire and rim-shaped generating system is formed by directly processing high-quality piezoelectric materials into a tire and rim-shaped piezoelectric generating layer or combining n (n is more than 1) piezoelectric elements into a circular rim-shaped piezoelectric generating layer; covering a metal conductive layer with an inflatable tire air nozzle hole and a rubber protective layer on the surface; the metal conducting layer is connected and conducts electricity in the operation process; the impact of acting force and attack force on the piezoelectric power generation layer is reduced in the running process of the rubber protection layer; the surface of the piezoelectric power generation layer is provided with a metal conducting layer, and the rubber protective layer rim-shaped piezoelectric power generation layer is suitable for all power generation devices of a tire rim consisting of a vacuum inner tube, an inflatable inner tube and a solid tire; the tire rim-shaped piezoelectric power generation layer is installed and fixed on a tire rim between a tire and a rim to form a tire rim power generation device, and the tire rim-shaped piezoelectric power generation layer installed between the tire and the tire rim is continuously pressed by the rim-shaped piezoelectric power generation layer under the action of the running surface acting force of a runner tire rim and the action force of the running surface to the tire rim so as to generate continuous electric quantity.

4. As set forth in claim 1: the rim and tire power generation device is characterized in that a power generation system is arranged on the inner surface of the circumference of a tire; the tire circumference inner surface-shaped piezoelectric power generation layer directly processed by high-quality piezoelectric materials or the tire circumference inner surface-shaped piezoelectric power generation layer consisting of n (n is more than 1) piezoelectric elements is covered with a metal conductive layer with an inflatable tire nozzle hole and a rubber protective layer; the metal conducting layer is connected and conducts electricity in the operation process; the impact of acting force and attack force on the piezoelectric power generation layer is reduced in the running process of the rubber protection layer; the surface of the piezoelectric power generation layer is provided with a metal conducting layer, and the rubber protective layer rim-shaped piezoelectric power generation layer is suitable for all power generation devices of a tire rim consisting of a vacuum inner tube, an inflatable inner tube and a solid tire; the inner surface-shaped piezoelectric power generation layer on the circumference of the tire is arranged and fixed between the tire and the rubber tire to form a tire inner surface-shaped power generation device, and the tire rim-shaped piezoelectric power generation layer arranged between the tire and the tire rim is continuously pressed by the tire inner surface-shaped piezoelectric power generation layer under the action of the running surface acting force of a runner tire rim and the attack force of the running surface to the tire rim so as to generate continuous electric quantity.

5. As set forth in claim 1: a rim and tire power generation device is characterized in that a conductive pulley is used for generating electric quantity by rolling and pressing of a tire rim, so that the rolling electric quantity generated by rolling and pressing needs to be connected with an electric quantity collecting and adjusting device by utilizing the rotating conductive characteristic of the conductive pulley to realize the adjustment of the electric quantity.

6. As set forth in claim 1: a rim and tire generating set is characterized in that an electric quantity collecting tuner is composed of a frequency modulator, a booster, a rectifier, a filter and a voltage stabilizer; the electric quantity generated by the rim tire generating set is rolling pressing electric quantity generated by pressing the piezoelectric generating layer when the runner tire rim-shaped generating system and the tire inner circumference-shaped system run with a running contact surface, so that the electric quantity is the rolling electric quantity, and the generated electric quantity is better guided out by the coaxially mounted conductive pulley; the frequency of the electric quantity is changed along with the speed of the pressing electric product of the operator, so the electric quantity can be stored for the electric storage device after frequency modulation, voltage boosting, rectification, filtering and voltage stabilization.

7. As set forth in claim 1: the utility model provides a rim tire power generation facility which characterized in that energy storage equipment, mainly by m (m is more than or equal to 2) storage battery group constitution, the electric quantity that operation ware operation produced is carried and is given storage battery group to the electric energy through the electric current of electric quantity collection allotment device and be used for, the electric quantity that produces when a plurality of operation ware rim tire power generation facilities move simultaneously surpasss self demand ware can distribute the electric quantity in other reserve domestic animal batteries when the electric quantity is not enough supply when the electric quantity is too much can adopt to trade the battery and supply power and family expenses for other operation equipment down.