SOLAR THIN FILM POWER GENERATION DEVICE FOR TWO-WHEELED VEHICLE AND USING METHOD THEREOF

Abstract

A solar thin film power generation device for a two-wheeled vehicle comprising a housing, and a thin film solar assembly, wherein the thin film solar assembly is rolled-up and arranged within the housing when in a rolled-up state, and wherein length of the thin film solar assembly is capable of being adjusted through a rotating device when in an unrolled state, wherein the thin film solar assembly further comprising a voltage conversion mechanism arranged within the housing, and wherein the thin film solar assembly is used for reversely charging a battery through the voltage conversion mechanism, wherein the device is capable of being switched between a rolled-up state and an unrolled state.

Claims

1. A solar thin film power generation device for a two-wheeled vehicle comprising: a housing, and a thin film solar assembly, wherein the thin film solar assembly is rolled-up and arranged within the housing when in a rolled-up state, and wherein length of the thin film solar assembly is capable of being adjusted through a rotating device when in an unrolled state, wherein the thin film solar assembly further comprising a voltage conversion mechanism arranged within the housing, and wherein the thin film solar assembly is used for reversely charging a battery through the voltage conversion mechanism, wherein the device is capable of being switched between a rolled-up state and an unrolled state.

2. The solar thin film power generation device for a two-wheeled vehicle of claim 1, wherein the thin film solar assembly further comprising one or more power generation materials selected from cadmium telluride, copper indium gallium selenide, amorphous silicon and gallium arsenide.

3. The solar thin film power generation device for a two-wheeled vehicle of claim 1, wherein the rotating device further comprising: a rolling bearing, a universal joint and a vehicle head positioning adjusting portion sequentially connected, wherein the vehicle head positioning adjusting portion is connected to the universal joint, wherein the rolling bearing is connected to a rotating shaft, and the vehicle head positioning adjusting portion is connected to the housing.

4. The solar thin film power generation device for a two-wheeled vehicle of claim 3, wherein the rotating shaft is provided with a rotating shaft sleeve, and wherein a damping pad is arranged between the rotating shaft and the rotating shaft sleeve.

5. The solar thin film power generation device for a two-wheeled vehicle of claim 3, wherein the vehicle head positioning adjusting portion further comprising: an adjusting strip and an adjusting groove, wherein one end of the adjusting strip is connected to the two-wheeled vehicle through a bolt, and the other end of the adjusting strip is provided with a clamping member, wherein the adjusting groove is formed in a first connecting rod, and wherein the clamping member is arranged in the adjusting groove.

6. The solar thin film power generation device for a two-wheeled vehicle of claim 5, further comprising a vehicle tail positioning adjusting portion, and wherein the vehicle tail positioning adjusting portion is configured to match with the vehicle head positioning adjusting portion.

7. The solar thin film power generation device for a two-wheeled vehicle of claim 6, wherein the vehicle tail positioning adjusting portion is a hanging hook.

8. The solar thin film power generation device for a two-wheeled vehicle of claim 5, wherein the thin film solar assembly further comprising: a control display mechanism arranged within the housing comprising a control unit and a display unit, wherein the control unit is capable of controlling the position of the clamping member relative to the adjusting groove, wherein the display unit is used for displaying status of the battery and power generation efficiency.

9. The solar thin film power generation device for a two-wheeled vehicle of claim 1, wherein two ends of the housing is each provided with an LED indicator light, and wherein the shape of the LED indicator light is a circle, a triangle or a square.

10. A method for using the solar thin film power generation device for a two-wheeled vehicle of claim 1, comprising the steps of: Step 1: during an initial installation, matching the opening for installing the housing of the solar thin film device with tail portions of other two-wheeled vehicles; Step 2: matching the vehicle head positioning adjusting portion fixedly mounted on the solar thin film device with other two-wheeled vehicles; Step 3: adjusting the rotating device through the control unit, thus enabling the thin film solar assembly to reach the required length and angle; Step 4: adjusting the length through the adjusting portion and then locking tightly; Step 5: initiating the solar thin film device through the control unit.

11. A method for using the solar thin film power generation device for a two-wheeled vehicle of claim 2, comprising the steps of: Step 1: during an initial installation, matching the opening for installing the housing of the solar thin film device with tail portions of other two-wheeled vehicles; Step 2: matching the vehicle head positioning adjusting portion fixedly mounted on the solar thin film device with other two-wheeled vehicles; Step 3: adjusting the rotating device through the control unit, thus enabling the thin film solar assembly to reach the required length and angle; Step 4: adjusting the length through the adjusting portion and then locking tightly; Step 5: initiating the solar thin film device through the control unit.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0032] FIG. 1 is a conceptual diagram illustrating a three-dimensional structure of the present invention.

[0033] FIG. 2 is a conceptual diagram illustrating a side view of the present invention.

[0034] FIG. 3 is a conceptual diagram illustrating a sectional view of the present invention taken along the line A-A in FIG. 2.

[0035] Marking Instructions of the Drawings: 10—Housing, 11—Voltage Conversion Mechanism, 12—Rolling Bearing, 13—Vehicle Head Positioning Adjusting Portion, 14—Rotating Shaft, 15—Vehicle Tail Positioning Adjusting Portion.

DETAILED DESCRIPTION

[0036] The present invention provides a solar thin film power generation device for a two-wheeled vehicle and a using method thereof. Preferred embodiments are combined hereinafter to further elaborate the technical solution of the present invention.

Preferred Embodiments

[0037] As shown in FIGS. 1-3, preferably, the solar thin film power generation device for a two-wheeled vehicle is used for charging a battery (not shown) of a two-wheeled vehicle. The solar thin film power generation device for a two-wheeled vehicle is capable of being switched between a rolled-up state and an unrolled state. The solar thin film power generation device for a two-wheeled vehicle comprises a housing 10 and a thin film solar assembly, wherein the thin film solar assembly is rolled-up and arranged within the housing 10 when in a rolled-up state, and the length of the thin film solar assembly may be adjusted through a rotating device when in an unrolled state, wherein the thin film solar assembly further comprises a voltage conversion mechanism 11 arranged within the housing 10, and the thin film solar assembly is used for reversely charging the battery through the voltage conversion mechanism 11.

[0038] More specifically, the power generation material of the thin film solar assembly can be one or more materials selected from cadmium telluride, copper indium gallium selenide, amorphous silicon and gallium arsenide.

[0039] Further, the rotating device comprises a rolling bearing 12, a universal joint and a vehicle head positioning adjusting portion 13 connected with the universal joint, wherein the rolling bearing 12, the universal joint and the vehicle head positioning adjusting portion are sequentially connected, wherein the rolling bearing 12 is connected with a rotating shaft 14, and the vehicle head positioning adjusting portion 13 is connected with the housing 10.

[0040] More specifically, the rolling bearing 12 can be one selected from a bearing-type rolling bearing, a belt-type rolling bearing or a ball-type rolling bearing.

[0041] Further, the vehicle head positioning adjusting portion 13 comprises an adjusting strip and an adjusting groove, wherein one end of the adjusting strip is connected with the head (not shown) of the two-wheeled vehicle through a bolt, and the other end of the adjusting strip is provided with a clamping member, wherein the adjusting groove is formed in a first connecting rod, and the clamping member is arranged in the adjusting groove.

[0042] Further, the solar thin film power generation device for a two-wheeled vehicle further comprises a vehicle tail positioning adjusting portion 15, and the vehicle tail positioning adjusting portion 15 is configured to match with the vehicle head positioning adjusting portion 13.

[0043] More specifically, the vehicle tail positioning adjusting portion 15 is a hanging hook.

[0044] Further, the rotating shaft 14 is provided with a rotating shaft sleeve, and a damping pad is arranged between the rotating shaft 14 and the rotating shaft sleeve.

[0045] Further, the thin film solar assembly further comprises a control display mechanism arranged within the housing 10. The control display mechanism comprises a control unit and a display unit. The control unit is used for controlling the position of the clamping member relative to the adjusting groove allowing the clamping member to slide or to be fixed. The display unit is used for displaying the electric quantity of the battery and the power generation efficiency of the sunlight of the day.

[0046] Further, the housing 10 is provided with an adjustable locking member located at the top end of the housing 10, the adjustable locking member comprises an adjusting ring and a locking disk, and the adjusting ring is arranged on the locking disc in a sleeving mode. A first recess is formed in the inner wall of the adjusting ring, a first convex block is arranged on the outer wall of the locking disc, and the first recess is configured to match with the first convex block.

[0047] Further, an ortho-hexagonal through hole is formed in the center of the locking disc, and a second recess is formed in the inner wall of the through hole. A horizontal plane where the second recess is formed in is perpendicular to the axial direction of a transmission shaft, and a locking sliding block connected with the adjusting ring is arranged in the through hole.

[0048] Further, each of the two ends of the housing 10 is provided with an LED indicator light 16, and the shape of the LED indicator light 16 is one selected from a circle, a triangle and a square.

[0049] Further, the housing 10 is internally provided with a second built-in battery for supplying power to the control display mechanism.

[0050] The present invention also provides a method for using the solar thin film power generation device for a two-wheeled vehicle. The method for using the solar thin film power generation device for a two-wheeled vehicle, comprising the steps of:

[0051] Step 1: during an initial installation, making the size of the opening for installing the housing of the solar thin film device to match with the tail portions of other different two-wheeled vehicles;

[0052] Step 2: during the initial installation, making the vehicle head positioning adjusting portion 13 fixedly mounted on the solar thin film device to match with other different two-wheeled vehicles;

[0053] Step 3: adjusting the rotating device through the control unit, thus enabling the thin film solar assembly to reach the required length and angle;

[0054] Step 4: adjusting the length through the adjusting portion and then locking tightly;

[0055] Step 5: initiating the solar thin film device through the control unit.

[0056] The technical features such as the specific formula of cadmium telluride involved in the present invention belong to the prior art. The specific structure, working principle, possible control mode and spatial arrangement of these technical features may be selected using the conventional method in this field, which shall not be regarded as the inventive points of the present invention and thus are not further detailed.

[0057] For those skilled in the art, the technical solutions described in the aforesaid embodiments may be modified, or some of the technical features may be equally replaced. Therefore, any modification, equivalent replacement and improvement made within the spirit and principle of the present invention shall fall into the scope of the present invention.