CN210618009U

CN210618009U - Multifunctional integrated solar roof device

Info

Publication number: CN210618009U
Application number: CN201920933935.3U
Authority: CN
Inventors: 刘宁宁; 田青; 沈雪金; 易国成; 欧阳芬
Original assignee: Shanghai Yirui Automobile Technology Co ltd
Current assignee: Shanghai Yirui Automobile Technology Co ltd
Priority date: 2019-06-20
Filing date: 2019-06-20
Publication date: 2020-05-26
Anticipated expiration: 2029-06-20

Abstract

The utility model provides a multifunctional integrated solar roof device, which comprises a roof rack body arranged on a roof luggage rack, wherein the roof rack body comprises a luggage box shell and a luggage box cover plate; a storage battery pack module area, an unmanned aerial vehicle module area and an electric scooter module area are respectively arranged in the trunk shell; the storage battery pack module area is a power supply setting management area; the unmanned aerial vehicle module area is an unmanned aerial vehicle storage and charging area; the electric scooter module area is an electric scooter storage and charging area; the solar cell panel is arranged on the luggage case cover plate. The utility model discloses on the basis of rational utilization roof space and light energy, charge and provide storage space for electric scooter, unmanned aerial vehicle, and reduced the temperature in the carriage when summer, increased storing space, practice thrift the car inner space, convenient transportation, low carbon environmental protection.

Description

Multifunctional integrated solar roof device

Technical Field

The utility model relates to a solar car roof field specifically relates to a multi-functional integrated solar car roof device.

Background

Along with the increase of car reserves and outdoor exercises and the rise of self-driving trip, the demand of accomodating can not more and more be satisfied in current space in the car, for example place the great article of size such as electric scooter, consequently, also increase day by day to the demand of roof case.

The cruising ability of the unmanned aerial vehicle on the market is generally between 20 minutes and 30 minutes, the charging time exceeds one hour, the flight time and the flight distance of the unmanned aerial vehicle are limited, the cruising ability is insufficient, the task execution is greatly limited, and the maximum advantage cannot be exerted.

In addition, the sunlight irradiation area of the roof is large, and the problems of high temperature in the vehicle, accelerated volatilization of harmful gas and the like are easily caused in summer. With the progress of solar panel technology, the photoelectric conversion rate is gradually improved, but the solar energy in the roof space cannot be reasonably utilized at present. Simultaneously, the car owner that the outdoor self-driving unmanned aerial vehicle of heat was shot and the car owner that needs short distance scooter in the city to commute face the continuation of journey and the storage problem of unmanned aerial vehicle and scooter battery equally.

To sum up, in order to improve people's quality of life, charge and provide storage space for electric scooter, unmanned aerial vehicle, need develop an economic environmental protection's multi-functional integrated solar energy roof device.

SUMMERY OF THE UTILITY MODEL

Defect to among the prior art, the utility model aims at providing a multi-functional integrated solar energy roof device, the utility model discloses on the basis of rational utilization roof space and light energy, give electric scooter, unmanned aerial vehicle charges and provide storage space, solved the continuation of journey and the storage problem of unmanned aerial vehicle or scooter battery that the car owner that loves the outdoor self-driving unmanned aerial vehicle of shooting and the car owner that needs short distance scooter in the city to face, and reduced the temperature in the carriage when summer, increased storage space, practice thrift the car inner space, convenient transportation, low carbon environmental protection.

According to one aspect of the utility model, a multifunctional integrated solar roof device is provided, which comprises a roof rack body (4) arranged on a roof luggage rack (6), wherein the roof rack body (4) comprises a luggage box shell (41) and a luggage box cover plate (42); the interior of the luggage box shell (41) is divided into a storage battery pack module area (1), an unmanned aerial vehicle module area (2) and an electric scooter module area (3); the storage battery pack module area (1) is a power supply setting management area; the unmanned aerial vehicle module area (2) is an unmanned aerial vehicle (21) storage and charging area; the electric scooter module area (3) is a storage and charging area of an electric scooter (31); the luggage case cover plate (42) is provided with a solar cell panel (5).

Preferably, the unmanned aerial vehicle module area (2) is provided with a platform (22) for fixing the unmanned aerial vehicle (21), the back of the platform (22) is provided with a magnet (23) and an unmanned aerial vehicle wireless charging device (24), and the upper surface of the platform is provided with a wireless charging area (25) and a magnetic absorption fixing area (26); unmanned aerial vehicle (21) are fixed on fixed region (26) are inhaled to magnetism through the mode of inhaling to magnetism.

Preferably, the electric scooter module area (3) is provided with a concave platform (32) for fixing the electric scooter (31) and an electric quantity indicator lamp (33), and the electric scooter (31) is fixedly arranged in the concave platform (32) through a quick-release structure; and the upper surface of the concave table (32) is provided with a thimble (34). When the solar roof device is opened, the electric scooter can be manually retracted and released, and then the electric scooter is fixed by adopting a quick-release structure; the thimble is equivalent to power plug, lies in that electric scooter can begin to charge after the contact to can look over the condition of charging according to the electric quantity pilot lamp.

Preferably, the storage battery pack module area (1) is provided with a battery control system (11), a storage battery pack (12) and a power supply temperature control system (14), and the battery control system (11) comprises a battery control system key (13) and a power supply management circuit module; the power management circuit module is respectively connected with a solar cell panel (5), a storage battery pack (12), an unmanned aerial vehicle wireless charging device (24) and a thimble (34) of the electric scooter; storage battery (12) can be independently the unblock and install on unmanned aerial vehicle (21) and electric scooter (31). Solar cell panel (5) turn into the electric energy with solar panel to store in storage battery (12) after carrying out the pressure regulating and steady voltage through power management circuit module, or directly charge for unmanned aerial vehicle (21), electric scooter (31), storage battery (12) can be independently the unblock take off from solar energy roof device and provide the electric energy for unmanned aerial vehicle (21) and electric scooter (31) respectively.

Preferably, the unmanned aerial vehicle (21) is charged wirelessly through the unmanned aerial vehicle wireless charging device (24) in a wireless charging area (25), or is charged in the unmanned aerial vehicle (21) through the installation of a storage battery pack (12); the electric scooter (31) is charged by contacting with the ejector pin (34), or the electric scooter (31) is charged by installing the storage battery pack (12). The unmanned aerial vehicle and the electric scooter (31) are provided with two charging modes, firstly, when the unmanned aerial vehicle (or the electric scooter) is not used, the unmanned aerial vehicle is parked on a platform and wirelessly charged through a wireless charging device of the unmanned aerial vehicle (the electric scooter is fixedly placed in a concave table and is charged through contact with a thimble); secondly, use unmanned aerial vehicle (or electric scooter) in the rush, and unmanned aerial vehicle (or electric scooter) do not fill when having the electricity again, take off storage battery and install and charge on unmanned aerial vehicle (or electric scooter), the charging mode is nimble changeable, satisfies multiple user demand, and the practicality is strong.

Preferably, the power supply temperature control system (14) comprises an outer frame (141), an outer fan (142), an inner fan (143), small foam (144), an inner radiator (145), a semiconductor (146), an aluminum block (147), an outer radiator (148) and a sponge (149), wherein the outer fan (142) faces an air duct on the side of the luggage case shell (41), and the inner fan (143) faces the battery setting chamber; an outer radiator (148) and an inner radiator (145) are respectively arranged inside the outer fan (142) and the inner fan (143); the small foam (144) is embedded into the outer frame (141), a semiconductor (146) and an aluminum block (147) are wrapped in a middle through hole of the outer frame, the aluminum block (147) is respectively connected with the outer radiator (148) and the inner radiator (145) through screws, and the semiconductor (146) is clamped between the aluminum block (147) and the outer radiator (148); a circle of sponge (149) is arranged between the outer frame (141) and the inner radiator (145).

Preferably, a hinge (43) connected with the trunk cover plate (42) is arranged on one side wall of the trunk shell (41), a locking mechanism (45) for locking the trunk cover plate (42) is arranged on the other symmetrical side wall, and support rods (44) for supporting the trunk cover plate (42) are arranged on two sides of the locking mechanism.

Preferably, the stay (44) is a gas spring.

Preferably, a circle of sealing strips for water proofing are arranged on the wall edge of the closed end of the trunk cover plate (42).

Preferably, the roof rack body (4) is fixed on the roof rack (6) through a bolt (7), and the installation is reliable without damaging the original vehicle structure.

Compared with the prior art, the utility model discloses following beneficial effect has:

(1) the utility model relates to a multi-functional integrated solar energy roof device on the basis of rational utilization roof space and light energy, charge for electric scooter, unmanned aerial vehicle and provide storage space, the car owner that has solved the outdoor self-driving unmanned aerial vehicle of heat and loves and the car owner that needs the short distance scooter in the city to commute faces the continuation of journey and the storage problem of unmanned aerial vehicle or scooter battery, the sustainable work of electric scooter, unmanned aerial vehicle has been realized, and reduced the temperature in the carriage in summer, storage space has been increased, practice thrift the interior space of car, convenient transportation, low carbon environmental protection;

(2) the utility model relates to a multi-functional integrated solar car roof device, solar car roof device can utilize solar cell panel to change the electric energy, and store in storage battery after through pressure regulating and steady voltage, or directly charge for unmanned aerial vehicle, electric scooter, and storage battery can unblock alone and for unmanned aerial vehicle, electric scooter quick change use, set up multiple guarantee for unmanned aerial vehicle and electric scooter charging;

(3) the utility model relates to a multifunctional integrated solar roof device, a storage battery pack is arranged in an independent space, a storage battery temperature control system is arranged by adopting a semiconductor air cooling technology, a corresponding air channel is designed at the side part of a shell, and the storage battery pack can be kept in a good working state through the storage battery temperature control system;

(4) the utility model relates to a multi-functional integrated solar energy roof device has designed different charging and fixed mode for unmanned aerial vehicle and electric scooter, and unmanned aerial vehicle adopts magnetism to inhale formula fixed mode, can carry out wireless charging in wireless charging area, and electric scooter adopts quick detach structure to fix, begins to charge when the thimble contacts; the charging mode is reasonable and practical, and the fixing is firm and simple;

(5) the utility model relates to a multifunctional integrated solar roof device, when the cover plate of the trunk is opened, the cover plate is supported by an air spring and when the cover plate is closed, the cover plate is locked by a locking mechanism, thereby saving labor in operation, being safe and reliable;

(6) the utility model relates to a multifunctional integrated solar roof device, a solar roof rack body is fixed on a roof luggage rack through bolts, the installation is reliable, the space in the vehicle is saved, and the original vehicle structure is not damaged;

(7) the utility model relates to a multifunctional integrated solar roof device, the waterproof sealing strip can effectively prevent the interior of the roof device from soaking, and the use safety is ensured;

(8) the utility model relates to a multifunctional integrated solar roof device, which has simple structure, ingenious design and obvious effect;

(9) the utility model relates to a multi-functional integrated solar energy roof device, easily processing and assembly, the practicality is strong, can satisfy multiple user demand, and is with low costs, is fit for promoting on a large scale.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a first structural schematic diagram of a vehicle roof device;

FIG. 2 is a second schematic structural view of the roof apparatus;

FIG. 3 is a schematic cross-sectional view of a modular unmanned aerial vehicle;

FIG. 4 is a schematic cross-sectional view of a modular section of the electric scooter;

FIG. 5 is a schematic cross-sectional view of a battery pack module area;

FIG. 6 is a schematic diagram of a power supply temperature control system in a battery pack module area;

FIG. 7 is a schematic view of the flip-up of the luggage cover;

FIG. 8 is a schematic view of the roof assembly mounted to an original roof rack;

fig. 9 is a schematic view of the roof apparatus disposed on the roof;

fig. 10 is a schematic diagram of power supply to the roof apparatus.

Detailed Description

The present invention will be described in detail with reference to the following embodiments. The following examples will assist those skilled in the art in further understanding the present invention, but are not intended to limit the invention in any way. It should be noted that various changes and modifications can be made by one skilled in the art without departing from the spirit of the invention. These all belong to the protection scope of the present invention.

Examples

The embodiment provides a multifunctional integrated solar roof device, the structure of which is shown in the accompanying drawings 1-9 in detail, and the power supply schematic diagram is shown in the accompanying drawing 10: the roof rack structure comprises a roof rack body 4 arranged on a roof rack 6, wherein the roof rack body 4 comprises a luggage box shell 41 and a luggage box cover plate 42; the interior of the luggage box shell 41 is divided into a storage battery pack module area 1, an unmanned aerial vehicle module area 2 and an electric scooter module area 3; the storage battery pack module area 1 is a power supply setting management area; the unmanned aerial vehicle module area 2 is an unmanned aerial vehicle 21 storage and charging area; the electric scooter module area 3 is a storage and charging area for the electric scooter 31; the luggage case cover plate 42 is provided with a solar cell panel 5.

Further, the unmanned aerial vehicle module area 2 is provided with a platform 22 for fixing the unmanned aerial vehicle 21, the back of the platform 22 is provided with a magnet 23 and an unmanned aerial vehicle wireless charging device 24, and the upper surface of the platform is provided with a wireless charging area 25 and a magnetic fixing area 26; the unmanned aerial vehicle 21 is fixed on the fixed region 26 of magnetism through the mode of magnetism.

Further, the electric scooter module area 3 is provided with a concave table 32 for fixing the electric scooter 31 and an electric quantity indicator lamp 33, and the electric scooter 31 is fixedly arranged in the concave table 32 through a quick-release structure; the upper surface of the concave platform 32 is provided with a thimble 34. When the solar roof device is opened, the electric scooter can be manually retracted and released, and then the electric scooter is fixed by adopting a quick-release structure; the thimble is equivalent to power plug, lies in that electric scooter can begin to charge after the contact to can look over the condition of charging according to the electric quantity pilot lamp.

Further, the storage battery pack module area 1 is provided with a battery control system 11, a storage battery pack 12 and a power supply temperature control system 14, wherein the battery control system 11 comprises a battery control system key 13 and a power supply management circuit module; the power management circuit module is respectively connected with the solar cell panel 5, the storage battery pack 12, the unmanned aerial vehicle wireless charging device 24 and a thimble 34 of the electric scooter; the storage battery 12 can be unlocked and installed on the unmanned aerial vehicle 21 and the electric scooter 31 independently. Solar cell panel 5 turns into the electric energy with solar panel to store in storage battery 12 after carrying out the pressure regulating and steady voltage through power management circuit module, or directly charge for unmanned aerial vehicle 21, electric scooter 31, storage battery 12 can be alone the unblock and take off respectively for unmanned aerial vehicle 21 and electric scooter 31 provide the electric energy from solar roof device.

Further, the unmanned aerial vehicle 21 is charged wirelessly in a wireless charging area 25 through the unmanned aerial vehicle wireless charging device 24, or is charged in the unmanned aerial vehicle 21 through the installation of the storage battery pack 12; the electric scooter 31 is charged by contacting with the thimble 34, or by installing the battery pack 12 in the electric scooter 31. The unmanned aerial vehicle and the electric scooter (31) are provided with two charging modes, firstly, when the unmanned aerial vehicle (or the electric scooter) is not used, the unmanned aerial vehicle is parked on the platform and wirelessly charged through the unmanned aerial vehicle wireless charging device (the electric scooter is fixedly placed in the concave platform and is charged through being contacted with the ejector pins); secondly, use unmanned aerial vehicle (or electric scooter) in the rush, and unmanned aerial vehicle (or electric scooter) do not fill when having the electricity again, take off storage battery and install and charge on unmanned aerial vehicle (or electric scooter), the charging mode is nimble changeable, satisfies multiple user demand, and the practicality is strong.

Further, the power supply temperature control system 14 includes an outer frame 141, an outer fan 142, an inner fan 143, a small foam 144, an inner heat sink 145, a semiconductor 146, an aluminum block 147, an outer heat sink 148, and a sponge 149, the outer fan 142 faces the air duct on the side of the luggage case 41, and the inner fan 143 faces the battery compartment; an outer radiator 148 and an inner radiator 145 are respectively arranged inside the outer fan 142 and the inner fan 143; the small foam 144 is embedded in the outer frame 141, a semiconductor 146 and an aluminum block 147 are wrapped in a through hole in the middle of the small foam, the aluminum block 147 is respectively connected with the outer radiator 148 and the inner radiator 145 through screws, and the semiconductor 146 is clamped between the aluminum block 147 and the outer radiator 148; a ring of sponge 149 is arranged between the outer frame 141 and the inner radiator 145.

Furthermore, a hinge 43 connected to the trunk lid 42 is disposed on one side wall of the trunk housing 41, a locking mechanism 45 for locking the trunk lid 42 is disposed on the other symmetrical side wall, and a support rod 44 for supporting the trunk lid 42 is disposed on both sides thereof.

Further, the stay 44 is a gas spring.

Further, a circle of waterproof sealing strip is arranged on the wall edge of the cover end of the trunk cover plate 42.

Furthermore, the roof rack body 4 is fixed on the roof rack 6 through bolts 7, and the installation is reliable without damaging the original vehicle structure.

The foregoing description of the specific embodiments of the invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes and modifications may be made by those skilled in the art within the scope of the appended claims without departing from the spirit of the invention.

Claims

1. The multifunctional integrated solar roof device is characterized by comprising a roof rack body (4) arranged on a roof luggage rack (6), wherein the roof rack body (4) comprises a luggage box shell (41) and a luggage box cover plate (42); the interior of the luggage box shell (41) is divided into a storage battery pack module area (1), an unmanned aerial vehicle module area (2) and an electric scooter module area (3); the storage battery pack module area (1) is a power supply setting management area; the unmanned aerial vehicle module area (2) is an unmanned aerial vehicle (21) storage and charging area; the electric scooter module area (3) is a storage and charging area of an electric scooter (31); the luggage case cover plate (42) is provided with a solar cell panel (5).

2. The multifunctional integrated solar roof device according to claim 1, wherein the unmanned aerial vehicle module area (2) is provided with a platform (22) for fixing the unmanned aerial vehicle (21), the back of the platform (22) is provided with a magnet (23) and an unmanned aerial vehicle wireless charging device (24), and the upper surface of the platform is provided with a wireless charging area (25) and a magnetic fixing area (26); unmanned aerial vehicle (21) are fixed on fixed region (26) are inhaled to magnetism through the mode of inhaling to magnetism.

3. The multifunctional integrated solar roof device as claimed in claim 2, wherein the electric scooter module area (3) is provided with a concave platform (32) for fixing the electric scooter (31), and an electric quantity indicator lamp (33), and the electric scooter (31) is fixedly placed in the concave platform (32) through a quick release structure; and the upper surface of the concave table (32) is provided with a thimble (34).

4. The multifunctional integrated solar roof apparatus according to claim 3, wherein the battery pack module area (1) is provided with a battery control system (11), a battery pack (12) and a power supply temperature control system (14), the battery control system (11) comprises a battery control system key (13) and a power supply management circuit module; the power management circuit module is respectively connected with a solar cell panel (5), a storage battery pack (12), an unmanned aerial vehicle wireless charging device (24) and a thimble (34) of the electric scooter; storage battery (12) can be independently the unblock and install on unmanned aerial vehicle (21) and electric scooter (31).

5. The multifunctional integrated solar roof apparatus according to claim 4, wherein the unmanned aerial vehicle (21) is wirelessly charged by an unmanned aerial vehicle wireless charging device (24) on a wireless charging area (25) or by installing a battery pack (12) in the unmanned aerial vehicle (21); the electric scooter (31) is charged by contacting with the ejector pin (34), or the electric scooter (31) is charged by installing the storage battery pack (12).

6. The multifunctional integrated solar roof apparatus of claim 4, wherein the power supply temperature control system (14) comprises an outer frame (141), an outer fan (142), an inner fan (143), small foam (144), an inner heat sink (145), a semiconductor (146), an aluminum block (147), an outer heat sink (148), and a sponge (149), the outer fan (142) faces the air duct at the side of the luggage case housing (41), and the inner fan (143) faces the battery compartment; an outer radiator (148) and an inner radiator (145) are respectively arranged inside the outer fan (142) and the inner fan (143); the small foam (144) is embedded into the outer frame (141), a semiconductor (146) and an aluminum block (147) are wrapped in a middle through hole of the outer frame, the aluminum block (147) is respectively connected with the outer radiator (148) and the inner radiator (145) through screws, and the semiconductor (146) is clamped between the aluminum block (147) and the outer radiator (148); a circle of sponge (149) is arranged between the outer frame (141) and the inner radiator (145).

7. The multifunctional integrated solar roof device as claimed in claim 1, wherein a hinge (43) connected with the trunk cover plate (42) is provided on one side wall of the trunk housing (41), a locking mechanism (45) for locking the trunk cover plate (42) is provided on the other symmetrical side wall, and a stay bar (44) for supporting the trunk cover plate (42) is provided on both sides.

8. The multifunctional integrated solar roof apparatus of claim 7, wherein the brace (44) is a gas spring.

9. The multifunctional integrated solar roof apparatus as claimed in claim 1, wherein the wall edge of the closed end of the trunk lid panel (42) is provided with a waterproof sealing strip.

10. The multifunctional integrated solar roof apparatus according to claim 1, wherein the roof rack body (4) is fixed to the roof rack (6) by bolts (7).