CN108928240B - Solar power generation device in electric vehicle charging system - Google Patents

Abstract

The invention provides a solar power generation device in an electric automobile charging system. The solar energy collecting device comprises an installation barrel fixed on the roof of an automobile, a first solar panel is fixed in the installation barrel, four installation barrels are arranged, a convex lens capable of collecting light on the first solar panel is arranged above the first solar panel, a connecting barrel is arranged in the upper end of the installation barrel, sealing is formed between the connecting barrel and the installation barrel through a first sealing ring, an annular connecting seat is arranged on the convex lens, the upper end of the connecting barrel is bent inwards to form an annular flanging, an annular convex shoulder is further arranged on the inner side wall of the connecting barrel, the upper end face and the lower end face of the connecting seat are respectively tightly abutted against the annular flanging and the annular convex shoulder to form sealing, a supporting plate and an electric push rod for driving the supporting plate to move up and down are horizontally arranged on the roof of the electric automobile, the four installation barrels are arranged. The invention has the advantage of high charging efficiency.

Description

Solar power generation device in electric vehicle charging system

Technical Field

The invention belongs to the field of new energy automobiles, and relates to an electric automobile charging system, in particular to a solar power generation device in the electric automobile charging system.

Background

At present, most automobiles use gasoline or diesel oil as fuel, the discharged automobile exhaust pollutes air seriously, the gasoline and the diesel oil are non-renewable energy sources, and one day of exploitation always exists, and the photovoltaic power generation technology is a technology for directly converting solar energy into electric energy, but the application range in China is narrow at present.

As disclosed in chinese patent library, a solar energy environment-friendly automobile [ application No.: 201310362662.9, respectively; publication No.: CN103465793A ], which comprises an automobile body and wheels, wherein the automobile body comprises a solar lighting panel for collecting solar energy and converting the solar energy into electric energy, a centralized supply storage battery for storing the electric energy, a solar automobile circuit board and a motor, the solar lighting panel is embedded outside a shell of the automobile body, the centralized supply storage battery is connected with the solar lighting panel, the solar automobile circuit board is connected with the centralized supply storage battery, and the motor is connected with the solar automobile circuit board.

Because the automobile is only provided with one daylighting panel, the amount of light irradiating the daylighting panel is limited, and the power generation effect and the efficiency are poor.

Disclosure of Invention

The invention aims to solve the problems in the prior art, provides a solar power generation device in an electric vehicle charging system, and solves the technical problem of how to improve the charging efficiency.

The purpose of the invention can be realized by the following technical scheme: the solar power generation device in the electric vehicle charging system comprises an installation cylinder vertically fixed on the roof of an electric vehicle, and a first solar panel is horizontally fixed in the installation cylinder, and the solar power generation device is characterized in that four installation cylinders are arranged in a rectangular manner, the first solar panel is arranged in each installation cylinder, a convex lens capable of converging light rays on the corresponding first solar panel is arranged above each first solar panel, and the convex lens is positioned outside the installation cylinder; the upper end of an installation section of thick bamboo in the vertical connecting cylinder that is equipped with, and form through a sealing washer between the lateral wall of a connecting cylinder and the inside wall of an installation section of thick bamboo and seal, the lateral wall of convex lens piece on have and be annular connecting seat, the upper end lateral wall incurve of connecting cylinder form annular turn-ups, and annular turn-ups cover is established outside the convex lens piece, the inside wall of a connecting cylinder on still have annular convex shoulder, and the upper and lower both ends face of connecting seat closely supports with annular turn-ups and annular convex shoulder respectively and lean on to form sealedly, the electric automobile roof is still the level and is equipped with the backup pad and is fixed with the electric putter that is used for driving backup pad up-and-down motion, four installation section of thick bamboo encircle around the backup pad, and all connecting cylinders all link firmly with the.

During installation, the first solar panel and the second solar panel are connected with the automobile battery through the photovoltaic inverter to charge the battery.

The solar panel II and the solar panels I are arranged, so that the light contact area is effectively increased, and the power generation effect and efficiency are improved; secondly, under the effect of convex lens piece to effectively increase the volume that light assembles on solar panel two, thereby further improve generating efficiency and effect.

In the solar power generation device in foretell electric automobile charging system, every connecting cylinder and backup pad between all be equipped with and be straight banding connecting rod, every the lateral wall of installation section of thick bamboo on all run through and seted up the spout, the spout is the axial extension of strip and length along the installation section of thick bamboo, sealing washer one be located spout and solar panel between one, the one end and the backup pad of connecting rod link firmly, the other end of connecting rod passes the spout and links firmly with the connecting cylinder. Under the cooperation of backup pad, connecting rod, connecting cylinder and spout, make electric putter can drive the convex lens piece and reciprocate in order to stretch into or stretch out the installation section of thick bamboo, can make the convex lens piece retract into the installation section of thick bamboo like this when not generating electricity, reduce the space that whole power generation facility occupy to the windage that receives when reducing the car and traveling, in order to reduce the fuel consumption of automobile.

In the solar power generation device in the electric vehicle charging system, the electric push rod is sleeved with the sealing barrel, the lower end of the sealing barrel is fixedly connected with the roof of the electric vehicle in a sealing manner, the upper end surface of the sealing barrel is provided with the sealing part which protrudes in an annular manner, the sealing part is sleeved outside the main shaft of the electric push rod, and the sealing part and the main shaft of the electric push rod form a seal through the sealing ring. By adopting the design, the electric push rod is sealed in a closed cavity, so that the influence of the external environment on the electric push rod is reduced, the working stability of the electric push rod is improved, and the service life of the electric push rod is prolonged.

In the solar power generation device in the electric vehicle charging system, the lower end surface of the sealing cylinder is provided with a first annular groove coaxial with the sealing cylinder, a first annular sealing gasket is arranged in the first annular groove, and two end surfaces of the first annular sealing gasket respectively abut against the bottom wall of the first annular groove and the roof of the electric vehicle.

In the solar power generation device in the electric vehicle charging system, the mounting cylinder is cylindrical, the outer side wall of the upper end of the mounting cylinder is provided with a water retaining part which protrudes annularly, the water retaining part is conical, the diameter of the water retaining part gradually increases downwards, and the sliding groove is located below the water retaining part. Under the effect of the water retaining part, impurities such as water, dust and the like are guided in the direction away from the sliding groove, so that the working stability of the device is improved.

In the solar power generation device in the electric vehicle charging system, a second annular groove coaxial with the installation cylinder is formed in the lower end face of the installation cylinder, a second annular sealing gasket is arranged in the second annular groove, and two end faces of the second annular sealing gasket respectively abut against the bottom wall of the second annular groove and the roof of the electric vehicle.

In the solar power generation device in the electric vehicle charging system, a third annular groove is formed in the upper end face of the annular convex shoulder, a third annular sealing gasket is arranged in the third annular groove, and two end faces of the third annular sealing gasket respectively abut against the bottom wall of the third annular groove and the connecting seat. Under the three effects of the annular sealing gasket, the sealing performance between the connecting seat and the annular shoulder can be effectively enhanced.

In the solar power generation device in the electric vehicle charging system, the second solar panel is lower than the top wall of the mounting cylinder.

Compared with the prior art, the solar power generation device in the electric automobile charging system has the following advantages:

1. the solar panel II and the solar panels I are arranged, so that the light contact area is effectively increased, and the power generation effect and efficiency are improved; secondly, under the effect of convex lens piece to effectively increase the volume that light assembles on solar panel two, thereby further improve generating efficiency and effect.

2. Under the cooperation of backup pad, connecting rod, connecting cylinder and spout, make electric putter can drive the convex lens piece and reciprocate in order to stretch into or stretch out the installation section of thick bamboo, can make the convex lens piece retract into the installation section of thick bamboo like this when not generating electricity, reduce the space that whole power generation facility occupy to the windage that receives when reducing the car and traveling, in order to reduce the fuel consumption of automobile.

Drawings

Fig. 1 is a schematic structural view of a solar power generation device in the electric vehicle charging system.

Fig. 2 is an enlarged schematic view of a structure at a in fig. 1.

Fig. 3 is an enlarged schematic view of the structure at B in fig. 1.

Fig. 4 is an enlarged schematic view of the structure at C in fig. 1.

Fig. 5 is a schematic view of a connection structure of the mounting cylinder and the support plate.

In the figure, 1, the roof of an electric automobile; 2. mounting the cylinder; 2a, a water blocking part; 3. a second annular sealing gasket; 4. a solar panel I; 5. a support; 6. a lenticular sheet; 6a, a connecting seat; 7. a connecting cylinder; 7a, annular flanging; 7b, an annular shoulder; 7c, a chute; 8. a first sealing ring; 9. a third annular sealing gasket; 10. a support plate; 11. an electric push rod; 12. a solar panel II; 13. a connecting rod; 14. a sealing cylinder; 14a, a sealing part; 15. a second sealing ring; 16. and a first annular sealing gasket.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 and 3, the solar power generation device in the charging system of the electric vehicle comprises a mounting tube 2 vertically fixed on a roof 1 of the electric vehicle, and the mounting tube 2 is specifically mounted as follows: and a second annular groove coaxial with the mounting cylinder 2 is formed in the lower end face of the mounting cylinder 2, a second annular sealing gasket 3 is arranged in the second annular groove, and two end faces of the second annular sealing gasket 3 are respectively abutted against the bottom wall of the second annular groove and the roof 1 of the electric automobile, so that reliable sealing is formed between the mounting cylinder 2 and the roof 1 of the electric automobile. Preferably, the mounting cylinder 2 is fixedly connected with the roof 1 of the electric automobile in a welding mode.

As shown in fig. 1 and 5, four installation cylinders 2 are arranged in a rectangular shape, and a solar panel i 4 is horizontally fixed in each installation cylinder 2. Preferably, the solar panel I4 is fixedly connected with the electric automobile roof 1 through a support 5. Every solar panel 4 tops all are equipped with can assemble the convex lens sheet 6 on corresponding solar panel 4 with light, and convex lens sheet 6 is located outside installation section of thick bamboo 2. A connecting cylinder 7 is vertically arranged in the upper end of the mounting cylinder 2, and a seal is formed between the outer side wall of the connecting cylinder 7 and the inner side wall of the mounting cylinder 2 through a first seal ring 8. In this embodiment, the first seal ring 8 is specifically arranged as follows: an annular clamping groove is formed in the outer side wall of the connecting cylinder 7, the first sealing ring 8 is arranged in the annular clamping groove, and the outer side wall of the first sealing ring 8 is abutted to the inner side wall of the mounting cylinder 2.

As shown in fig. 1 and 2, the convex lens sheet 6 has a ring-shaped connecting seat 6a on a side wall thereof, and the connecting seat 6a and the convex lens sheet 6 are formed in an integral structure. The upper end side wall of the connecting cylinder 7 is bent inwards to form an annular flange 7a, and the annular flange 7a is sleeved outside the convex lens sheet 6. An annular shoulder 7b is further arranged on the inner side wall of the connecting cylinder 7, and the upper end face and the lower end face of the connecting seat 6a are tightly abutted with the annular flange 7a and the annular shoulder 7b respectively to form sealing. Further, an annular groove III is formed in the upper end face of the annular shoulder 7b, an annular sealing gasket III 9 is arranged in the annular groove III, and two end faces of the annular sealing gasket III 9 are respectively abutted against the bottom wall of the annular groove III and the connecting seat 6a, so that the sealing performance between the connecting seat 6a and the annular shoulder 7b is effectively enhanced.

The electric automobile roof 1 is also horizontally provided with a support plate 10 and an electric push rod 11 fixed on the support plate 10 for driving the support plate 10 to move up and down. Wherein, four installation section of thick bamboo 2 encircle around backup pad 10, and all connecting cylinders 7 all link firmly with backup pad 10, and the upside of backup pad 10 is leaned on and is fixed with two solar panel 12, and two 12 positions of solar panel are less than the position of 2 roof walls of installation section of thick bamboo. The electric push rod 11 is located between the support plate 10 and the electric automobile roof 1, and a main shaft of the electric push rod 11 is fixedly connected with the support plate 10.

As shown in fig. 1 and 2, the connection manner of the support plate 10 and the connecting cylinder 7 is as follows: all be equipped with between every connecting cylinder 7 and the backup pad 10 and be straight banding connecting rod 13, all run through on the lateral wall of every installation section of thick bamboo 2 and seted up spout 7c, spout 7c is the axial extension of strip and length along installation section of thick bamboo 2, and a sealing washer 8 is located between spout 7c and a solar panel 4, and the one end and the backup pad 10 of connecting rod 13 link firmly, and the other end of connecting rod 13 passes spout 7c and links firmly with connecting cylinder 7. Further, the mounting cylinder 2 is cylindrical, the outer side wall of the upper end of the mounting cylinder 2 is provided with a water retaining part 2a which protrudes annularly, the water retaining part 2a is conical, the diameter of the water retaining part is gradually increased downwards, and the sliding groove 7c is positioned below the water retaining part 2 a.

As shown in fig. 1 and 4, a sealing cylinder 14 is sleeved outside the electric push rod 11, and the lower end of the sealing cylinder 14 is hermetically and fixedly connected with the roof 1 of the electric automobile. The upper end surface of the sealing cylinder 14 is provided with a sealing part 14a which protrudes annularly, the sealing part 14a is sleeved outside the main shaft of the electric push rod 11, and the sealing part 14a and the main shaft of the electric push rod 11 form sealing through a second sealing ring 15. In this embodiment, a first annular groove coaxial with the sealing cylinder 14 is formed in the lower end surface of the sealing cylinder 14, a first annular sealing gasket 16 is disposed in the first annular groove, and two end surfaces of the first annular sealing gasket 16 respectively abut against the bottom wall of the first annular groove and the roof 1 of the electric vehicle. Preferably, the sealing cylinder 14 is fixedly connected with the electric automobile roof 1 by welding.

When the solar panel charging device is installed, the first solar panel 4 and the second solar panel 12 are connected with a vehicle battery through the photovoltaic inverter to charge the battery.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (6)

1. The solar power generation device in the electric vehicle charging system comprises an installation cylinder vertically fixed on the roof of an electric vehicle, wherein a first solar panel is horizontally fixed in the installation cylinder; the upper end of the mounting cylinder is internally and vertically provided with a connecting cylinder, the outer side wall of the connecting cylinder and the inner side wall of the mounting cylinder are sealed through a first sealing ring, the side wall of the convex lens is provided with an annular connecting seat, the side wall of the upper end of the connecting cylinder is inwards bent to form an annular flanging, the annular flanging is sleeved outside the convex lens, the inner side wall of the connecting cylinder is further provided with an annular convex shoulder, the upper end face and the lower end face of the connecting seat are tightly abutted against the annular flanging and the annular convex shoulder respectively to form sealing, a supporting plate and an electric push rod for driving the supporting plate to move up and down are horizontally arranged on the roof of the electric automobile, the four mounting cylinders are annularly wound around the supporting plate, all the connecting cylinders are fixedly connected with the supporting plate, and the upper side of the supporting plate; a straight strip-shaped connecting rod is arranged between each connecting cylinder and the supporting plate, a sliding groove penetrates through the side wall of each mounting cylinder, the sliding groove is strip-shaped, the length of the sliding groove extends along the axial direction of the mounting cylinder, the first sealing ring is positioned between the sliding groove and the first solar panel, one end of the connecting rod is fixedly connected with the supporting plate, and the other end of the connecting rod penetrates through the sliding groove and is fixedly connected with the connecting cylinder; the position of the solar panel II is lower than that of the top wall of the mounting cylinder; the electric push rod can drive the convex lens to move up and down to extend into or extend out of the mounting cylinder.

2. The solar power generation device in the charging system of the electric vehicle as claimed in claim 1, wherein the electric push rod is sleeved with a sealing cylinder, the lower end of the sealing cylinder is fixedly connected with the roof of the electric vehicle in a sealing manner, the upper end surface of the sealing cylinder is provided with a sealing part which protrudes in an annular manner, the sealing part is sleeved outside the main shaft of the electric push rod, and the sealing part and the main shaft of the electric push rod form a seal through a sealing ring.

3. The solar power generation device in the electric vehicle charging system according to claim 2, wherein a first annular groove coaxial with the sealing cylinder is formed in the lower end surface of the sealing cylinder, a first annular sealing gasket is disposed in the first annular groove, and two end surfaces of the first annular sealing gasket respectively abut against the bottom wall of the first annular groove and the roof of the electric vehicle.

4. The solar power generation device in the charging system of an electric vehicle as claimed in claim 1, wherein the mounting tube is cylindrical, a water blocking portion protruding in an annular shape is provided on an outer sidewall of an upper end of the mounting tube, the water blocking portion is tapered and gradually increases in diameter downward, and the sliding groove is located below the water blocking portion.

5. The solar power generation device in the charging system of the electric vehicle as claimed in claim 1, wherein a second annular groove is formed on the lower end surface of the mounting cylinder, the second annular groove is coaxial with the mounting cylinder, a second annular gasket is arranged in the second annular groove, and two end surfaces of the second annular gasket respectively abut against the bottom wall of the second annular groove and the roof of the electric vehicle.

6. The solar power generation device in the charging system of the electric vehicle according to claim 1, wherein a third annular groove is formed on the upper end surface of the annular shoulder, a third annular sealing gasket is arranged in the third annular groove, and two end surfaces of the third annular sealing gasket respectively abut against the bottom wall of the third annular groove and the connecting seat.

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