KR20130109774A - Power generation equipment and motor vehicle - Google Patents

Abstract

PURPOSE: A power generation system and a vehicle are provided to generate power using air generating around moving vehicles. CONSTITUTION: A power generation system comprises an air pipe (3), a driving unit (4), and a generation unit. The air pipe is installed in a vehicle, and comprises an air flow unit at a leading end. A guide unit (6) is installed at the other leading end. The driving unit is installed inside the air pipe. The generation unit generates power by the driving unit.

Description

POWER GENERATION EQUIPMENT AND MOTOR VEHICLE}

The present invention relates to a power generation device and an automobile.

In recent years, with increasing interest in the environment, in the automobile industry, development of electric vehicles, hybrid cars, and the like is being actively conducted. For example, a power generation apparatus as disclosed in JP 2010-101275 A (hereinafter, Conventional examples) have been proposed in various ways.

These conventional examples consist of a rotating body provided in a duct of a vehicle and a generator generating power by the rotating force of the rotating body.

Therefore, the conventional example can generate electric power by rotating a rotating body by the airflow which arises by running of a vehicle, and can charge electricity to the storage battery equipped with a vehicle.

Japanese Unexamined Patent Publication No. 2010-101275

MEANS TO SOLVE THE PROBLEM This inventor focused on the power generation apparatus which generate | occur | produces using the airflow which arises by the above-mentioned running of a vehicle, and repeated various experiments and research, As a result, the groundbreaking power generation apparatus which has very high commodity value from the structure which is not conventional, and Developed a car.

The gist of the present invention will be described with reference to the accompanying drawings.

A power generating device that generates electricity by using air flow generated by running of the vehicle 1 and water mixed in the air flow, the air passage tube being installed in the vehicle 1 and having an air inlet 2 at the tip end thereof ( 3) and the movable part 4 which is provided in the inside of this air passage pipe 3, and receives and operates the airflow which arises by the said vehicle 1 running, and the moisture mixed in this airflow, The power generation section 5 is generated by the operation of the movable section 4, and the base end of the air passage pipe 3 is provided with an air stream passing through the movable section 4 and this air stream. The induction part 6 which guides mixed water to the front end side is provided, and the opening part 3a of this induction part 6 is closer to the front end than the arrangement position of the said movable part 4 in the said air passage pipe 3. Installed in the position, and the air flows through the induction part 6 and the moisture mixed in the air flows Relates to a power generator, it characterized in that it is configured to be movable in a circle (4).

The power generator according to claim 1, wherein the movable portion 4 is a rotating structure in which a concave wind receiving portion 4b protrudes around the rotation shaft portion 4a. It is about.

In addition, in the power generation apparatus according to claim 1 or 2, a water supply unit 7 for supplying water to a position closer to the distal end than the disposition position of the movable portion 4 in the air passage pipe 3 is provided. It is related with the power generation apparatus characterized by the above-mentioned.

Further, in the power generation apparatus according to claim 1 or 2, the water flow section is located at a position closer to the distal end than the arrangement position of the movable section 4 at the inner bottom of the air passage pipe 3. (8) relates to a power generation apparatus characterized by the above-mentioned.

Moreover, in the power generation apparatus of Claim 3, the water flow part 8 is provided in the position which is closer to the front end than the arrangement position of the said movable part 4 in the inner bottom part of the said air passage pipe 3, It is characterized by the above-mentioned. It relates to a power generation device.

In the power generating apparatus according to claim 1 or 2, the air passage tube 3 is provided with a tightening portion 9 whose diameter is smaller than the inner diameter of the air passage tube 3, and the tightening portion 9 is provided. It relates to a power generation device characterized in that the movable portion (4) is provided closer to the base end.

Further, in the power generation apparatus according to claim 3, a tightening portion 9 having a diameter smaller than the inner diameter of the air passing tube 3 is provided in the air passing tube 3, and is proximate to the tightening portion 9. It relates to a power generation device characterized in that the movable portion 4 is provided close to.

In addition, in the power generation apparatus according to claim 4, the air passage tube 3 is provided with a tightening portion 9 whose diameter is smaller than the inner diameter of the air passing tube 3, and is proximal to the tightening portion 9. It relates to a power generation device characterized in that the movable portion 4 is provided close to.

In addition, in the power generation apparatus according to claim 5, the air passage tube 3 is provided with a tightening portion 9 whose diameter is smaller than the inner diameter of the air passing tube 3, and is proximal to the tightening portion 9. It relates to a power generation device characterized in that the movable portion 4 is provided close to.

Moreover, it is related with the motor vehicle provided with the power generation apparatus of Claim 1.

As described above, the present invention utilizes the force (collision force) of moisture mixed in the air flow as a force for moving the movable portion, in addition to the air flow generated by the running of the vehicle. It is possible to generate power, and by effectively utilizing the air flow and moisture that has passed through the movable part again to power the movable part, the movable part can be efficiently operated. It becomes a device.

1 is an explanatory diagram of a use state of the present embodiment.
2 is an explanatory perspective view of a main part according to the present embodiment.
3 is an explanatory cross-sectional view of a main part according to the present embodiment.
4 is a front view showing the present embodiment.
5 is an explanatory sectional view of a main part according to the present embodiment.
6 is an explanatory view of the operation of the main part according to the present embodiment.
7 is an explanatory view of the operation of the main part according to the present embodiment.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

The movable section 4 is operated by receiving the air flow generated by the running of the vehicle 1 and the moisture mixed in the air stream, and the power generation section 5 generates power by the operation of the movable section 4.

The moisture mixed in the airflow is rainwater that enters the air passage tube 3 together with the airflow when the vehicle 1 travels, for example, in rainy weather. In addition, the force (collision force) of the moisture mixed in the air flow can also be used as a force for moving the movable portion 4, and thus, the movable portion 4 can be strongly operated to generate good power.

By the way, the air flow which started the movable part 4 and the water mixed in this air flow flow to the base end side of the air passage pipe 3 after passing through the movable part 4, but it mixes in this air flow and this air flow. Moisture is passed through the induction part 6 provided in the base end part of the air passage pipe 3, and guided | induced to the front-end direction, The opening part 3a of this induction part 6 is a movable part in the air passage pipe 3 ( Since it is provided at a position closer to the distal end than the disposition position of 4), the airflow passing through the guide portion 6 and the water mixed in the airflow are supplied at a position closer to the distal end than the disposition position of the movable portion 4. . That is, the air flow and water which passed the movable part 4 can be effectively used by the force which moves the movable part 4 again.

Therefore, the movable part 4 can be operated powerfully, and power generation is performed efficiently.

Example

A specific embodiment of the present invention will be described with reference to the drawings.

The present embodiment is a power generation device that generates power by using air generated by running of the vehicle 1 and water mixed in the air flow, and is provided in the vehicle 1 and has an air inlet 2 at the front end thereof. An air passage tube 3 and a movable portion 4 provided inside the air passage tube 3 and movable to receive air flow generated by the running of the vehicle 1 and moisture mixed in the air stream; It is the power generation apparatus E provided with the power generation part 5 which generate | occur | produces by the operation of this movable part 4.

Hereinafter, each component of the present embodiment will be described in detail.

The air passage pipe 3 is a cross-sectional rectangular tubular body formed of an appropriate metal member as shown in Figs. 2 to 5, and the opening on the tip side is set in the air inlet port 2. have. In addition, the air passage pipe 3 may have a shape that becomes smaller in diameter from the air inlet port 2 toward the proximal end.

In addition, a flange 3c is provided at the tip opening edge of the air passage tube 3, and the flange 3c is an installation site of the vehicle 1, and an exhaust port portion of the induction section 6 described later. It is located in front of 6a) to prevent air flow or moisture from entering the exhaust port 6a.

Moreover, the opening part 3a is penetratingly formed in the front end side predetermined position in the upper wall part of the air passage pipe 3.

This opening part 3a is provided in the hole of the induction part 6 mentioned later, and supplies the air flow through the induction part 6, and the water W mixed in this air flow in the air passage pipe 3 again. It is for.

In addition, the air passage tube 3 is provided with a tightening portion 9 whose diameter is smaller than the inner diameter of the air passage tube 3.

As shown in FIGS. 2-5, this fastening part 9 is comprised by providing the metal fastening member 9 'in the position of the front end side of the air passage pipe 3, This fastening member 9 ( ) Is provided with a through hole 9a that penetrates from the tip to the base end.

The through hole 9a is connected to the tapered hole 9a 'which becomes smaller in diameter toward the proximal end, and the small hole which is installed at the lower center position through the tapered hole 9a' in the bottom direction and connected in the front direction. 9a '') (see FIG. 4).

On the proximal end of this tightening part 9, the movable part 4 is provided in the position on the proximal end extension line of the small hole 9a ".

Therefore, the air flow introduced into the air passage pipe 3 is tightened by the tightening portion 9, and the force is amplified, and the air mixed with the air is amplified and the moisture mixed in the air flow is reliably received by the movable portion 4. You lose.

Moreover, the water flow part 8 is provided in the position which is closer to the front end than the arrangement position of the movable part 4 in the inner bottom part of the air passage pipe 3.

This water flow part 8 is comprised by providing the recessed part between the fastening part 9 and the movable part 4 in the inner bottom part of the air passage pipe 3, as shown to FIG. 3, FIG. The water W entered from the air inlet port 2 and the water W supplied from the water supply unit 7 described later can be collected.

Water (W) collected in the water flow section (8) is blown up by the force of the air flow introduced into the air passage pipe (3) or by the vibration of the vehicle (1), mixed with the air flow and sent to the movable portion (4). .

In addition, an induction part 6 is provided at the proximal end of the air passage pipe 3 to guide the air flow by returning to the tip direction.

As shown in Figs. 2 and 3, the induction part 6 extends from the proximal end of the air passage tube 3 to extend from the bottom wall portion and the left and right side wall portions constituting the air passage tube 3 to the upper wall. It is a structure extended to a negative upward position.

In addition, the intake part 6 is provided with the exhaust port part 6a in the position of the front end side of the air passage pipe 3, and is further in the front end rather than the arrangement position of the movable part 4 in the air passage pipe 3. It is installed in succession near.

Specifically, the induction part 6 is provided so that the opening part 3a of the air passage pipe 3 mentioned above may be located in the hole of the said induction part 6, and the opening part (6) in the induction part 6 is carried out. In the circumferential edge of 3a), a standing body 10 is provided.

This standing body 10 is for inducing the water W passing through the induction part 6 together with the air flow to guide the opening 3a.

Therefore, the moisture W mixed in the air flow which moved the guide part 6 is supplied to the position closer to the front end than the arrangement position of the movable part 4.

In addition, the air passage pipe 3 is provided with a water supply unit 7 for supplying moisture to a position closer to the tip end than the arrangement position of the movable portion 4 in the air passage pipe 3.

This water supply part 7 is comprised from the tank 7a and the tubular body 7b arrange | positioned from this tank 7a, and this tubular body 7b is provided from the opening part 3a of the air passage pipe 3. As shown in FIG. It is arranged in the air passage tube 3.

In addition, the water supply part 7 is provided so that the valve body (not shown) can open and close, and when the valve body opens, the water W in the tank 7a is supplied into the air passage pipe 3 through the pipe body 7b. .

Moisture is supplied from this moisture supply part 7, for example, when the climate is clear and the moisture W is insufficient, and the moisture W supplied from the moisture supply part 7 is an example as shown in FIG. For example, the vehicle 1 is appropriately supplied when water W is insufficient at the time of running, such as being collected by the water flow section 8 when the vehicle is stopped.

Code 3b is a drain hole.

Moreover, the movable part 4 is provided in the air passage pipe 3.

This movable part 4 is a rotating structure in which the some concave (square shape) feng shui receiving part 4b protruded at predetermined intervals around the rotating shaft part 4a.

Specifically, the rotating shaft part 4a is bearing-supported so that rotation is possible between the left and right wall parts of the air passage pipe 3, and each of the left and right end portions protrudes from the air passage pipe 3 to the outside. It is installed in a state.

In the center part of this rotating shaft part 4a, the disk-shaped rotating body 4a 'is provided in the site | part arrange | positioned in the air passage pipe 3, and the feng shui receiving part (circle) of the rotating body 4a' is provided. 4b) protrudes.

Both the rotary gas 4a 'and the feng shui receiving part 4b are made of reinforced plastic.

This feng shui receiving part 4b is formed in square shape (cross section rectangular container), Comprising: It receives so that the air which passes through the inside of the air passage pipe 3, and the water W mixed in this air flow may be received. have.

In addition, an iron cone (not shown) is provided at a predetermined position of the outer peripheral edge portion of the rotating body 4a ', thereby giving elasticity to the rotational movement of the rotating body 4a'.

Moreover, the power generation part 5 mentioned later is provided in the site | part which protrudes to the left and right of the air passage pipe 3 in the rotating shaft part 4a.

As shown in FIG. 5, the power generation unit 5 is provided with a pair of turbines 11 connected to each of the left and right ends of the rotational shaft portion 4a of the movable portion 4 in the rotational shaft portion 4a. The large diameter gear 12 is provided, and the small diameter gear 13 couple | bonded with this large diameter gear 12 is provided in the turbine 11. As shown in FIG.

Therefore, the turbine 11 develops as the rotating shaft part 4a rotates.

In addition, the power generation unit 5 is connected to a storage battery installed in the vehicle 1.

In addition, in the power generation apparatus E according to the present embodiment, a plurality (pair) of air passage tubes 3 are provided in the vehicle 1.

Specifically, as shown in FIG. 1, the air inlet port 2 of the air passage pipe 3 is provided so that it may be arrange | positioned in the left-right position of the center part (number plate arrangement position) of a front part (front grill part).

Therefore, two power generators E are provided in the vehicle 1, and thus, power generation is performed from four power generation units 5 in total.

In addition, the vehicle 1 of the present embodiment is an electric vehicle, and it is possible to drastically increase the driving distance of the electric vehicle by generating power during driving and charging the battery.

Since the present embodiment is constituted as described above, the airflow A (wind) is generated by the running of the vehicle 1, but, for example, when the climate is rainy, the airflow A and this air Receiving the water W mixed in the stream A, the movable part 4 is rotated and the power generation part 5 generates power by the operation of this movable part 4 (refer FIG. 6).

In addition, although the air flow A which started the movable part 4 and the water W mixed in this air flow A flow to the base end of the air passage pipe 3 after passing through the movable part 4, The air flow A and the water W mixed in the air flow A are guided in the tip direction through the induction part 6 provided at the proximal end of the air passage pipe 3, and the induction part 6 Since the opening part 3a of the opening part 3a is provided in the position which is closer to the front end than the arrangement position of the movable part 4 in the air passage pipe 3, the air flow A which passed this guidance part 6, and this air The moisture W mixed in the stream A is supplied to a position closer to the distal end than the arrangement position of the movable portion 4.

Therefore, the air flow A and the water W which have passed through the movable part 4 can be effectively used as a force for operating the movable part 4 again, and the movable part 4 can be strongly operated, and power generation It is done efficiently.

In addition, in this embodiment, since the movable part 4 is a rotary structure in which the concave feng shui receiving part 4b protrudes around the rotation shaft part 4a, it can reliably move the power generation part 4, and can generate power. .

In addition, in this embodiment, since the water supply part 7 which supplies water to the position closer to the front end than the arrangement position of the movable part 4 in the air passage pipe 3 is provided, for example, the climate is clear. In addition, moisture can be received from the movable portion 4 together with the air flow, and the situation in which the movable portion 4 is strongly operated to generate power can be obtained.

In this embodiment, since the water flow portion 8 is provided at the inner bottom of the air passage tube 3 near the distal end of the movable position 4, the water supply portion 7 described above is provided. ), The moisture can be collected, and the movable part 4 can be strongly operated to obtain a situation of generating power.

In this embodiment, the air passage tube 3 is provided with a fastening portion 9 having a diameter smaller than the inner diameter of the air passage tube 3, and the movable portion 4 at the proximal end of the fastening portion 9. ) Is provided, the movable portion 4 can be surely provided with the air stream tightened by the tightening unit 9 and the amplified force and water mixed in the air stream.

In addition, this invention is not limited to a present Example, The specific structure of each structural requirement can be designed suitably.

1: vehicle
2: air inlet
3: air passage tube
3a: opening
4: movable part
4a: rotating shaft part
4b: Feng Shui receiving part
5: power generation unit
6: induction part
7: moisture supply
8: water flow section
9: Fasteners

Claims (10)

A power generating device that generates electricity by using air flow generated by running of a vehicle and water mixed in the air flow, the air passage tube installed in the vehicle and having an air inlet at the tip, and inside the air passage tube. And a movable portion that receives and operates the air flow generated by the running of the vehicle and the moisture mixed in the air flow, and a power generation portion that generates power by the operation of the movable portion, wherein the movable portion is provided at the base end of the air passage pipe. An induction part for guiding the air flow and the water mixed in the air flow toward the tip is provided, and the opening of the induction part is provided at a position closer to the tip than the position of the movable part in the air passage. Characterized in that it is configured such that the air stream passing through and the water mixed in the air stream become an operating source of the movable part. Power generating device. The method of claim 1,
And the movable portion is a rotating structure in which a concave feng shui receiving portion protrudes around a rotation shaft portion. 3. The method according to claim 1 or 2,
And a water supply unit for supplying water to a position closer to the distal end than the disposition position of the movable portion in the air passage tube. 3. The method according to claim 1 or 2,
The electric power generation apparatus characterized by the water flow part provided in the position which is closer to a front end than the arrangement position of the said movable part in the inner bottom part of the said air passage pipe. The method of claim 3, wherein
The electric power generation apparatus characterized by the water flow part provided in the inner bottom part of the said air passage pipe closer to the front end than the arrangement position of the said movable part. 3. The method according to claim 1 or 2,
And a tightening portion having a diameter smaller than the inner diameter of the air passing tube, and the movable portion is provided closer to the base end than the tightening portion. The method of claim 3, wherein
And a tightening portion having a diameter smaller than the inner diameter of the air passing tube is provided in the air passing pipe, and the movable part is provided closer to the base end than the tightening part. 5. The method of claim 4,
And a tightening portion having a diameter smaller than the inner diameter of the air passing tube is provided in the air passing pipe, and the movable part is provided closer to the base end than the tightening part. The method of claim 5, wherein
And a tightening portion having a diameter smaller than the inner diameter of the air passing tube is provided in the air passing pipe, and the movable part is provided closer to the base end than the tightening part. An automobile comprising the power generation device according to claim 1.

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