CN210912042U - Telescopic on-vehicle solar charging device of parallel four-bar - Google Patents
Telescopic on-vehicle solar charging device of parallel four-bar Download PDFInfo
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- CN210912042U CN210912042U CN201922051291.8U CN201922051291U CN210912042U CN 210912042 U CN210912042 U CN 210912042U CN 201922051291 U CN201922051291 U CN 201922051291U CN 210912042 U CN210912042 U CN 210912042U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/60—Other road transportation technologies with climate change mitigation effect
- Y02T10/7072—Electromobility specific charging systems or methods for batteries, ultracapacitors, supercapacitors or double-layer capacitors
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Abstract
The utility model discloses a telescopic on-vehicle solar charging device of parallel four-bar belongs to solar charging technical field. Including the chassis, the back dustcoat, preceding dustcoat, parallelogram linkage solar energy exhibition frame, exhibition frame driving electric jar, linear slide rail and dustcoat driving electric jar, chassis internally mounted parallelogram linkage solar energy exhibition frame, be equipped with the exhibition frame driving electric jar of accomodating after the expansion of drive parallelogram linkage solar energy exhibition frame in the chassis, the chassis dustcoat has back dustcoat and preceding dustcoat, the chassis passes through linear slide rail and is connected with back dustcoat and preceding dustcoat, be equipped with the dustcoat driving electric jar that the dustcoat was opened or was closed after the drive and preceding dustcoat in the chassis. The solar display rack with the four parallel bars is composed of a solar panel, a solar panel frame, shear type connecting rods, cross shafts, hinged shafts and guide wheels, wherein the plurality of solar panel frames form a four parallel bar structure through the shear type connecting rods, so that a plurality of rhombus variable prism rack bodies are formed, and the solar panel is arranged in each solar panel frame.
Description
Technical Field
The utility model relates to a telescopic on-vehicle solar charging device of parallel four-bar belongs to solar charging technical field.
Background
With the increasing shortage of oil and natural gas, new energy automobiles gradually attract people's attention, and solar charging devices used for the electrically-driven new energy automobiles are generated, but due to factors such as geographical positions and light intensity, the solar charging devices all need solar panels with the largest effective area. The solar panel of the existing automobile solar charging device is fixedly arranged at the top of an automobile, the area of the solar panel is limited by the volume of the automobile, the solar panel is horizontally arranged, the solar conversion efficiency is extremely low, the periphery of the whole solar charging device cannot exceed the area of the top of the automobile for driving safety, and the height of the solar charging device cannot be too high, so that a new solar charging device is very needed to solve the problems.
SUMMERY OF THE UTILITY MODEL
In order to solve the deficiencies existing in the prior art, the utility model provides a telescopic on-vehicle solar charging device of parallelogram linkage, the folding back of accomodating, the apical area is less than the roof area, wrap up through the dustcoat, dustproof and waterproof, the solar panel area after the expansion is greater than the several times of roof area more, satisfy the demand of charging, and the solar panel after the expansion is the inclined plane, guarantee as far as possible perpendicular with sunshine, increase the distance after the expansion between solar panel in limited space, avoid it to shelter from each other, improve charging efficiency, whole device passes through electric drive, need not manual operation, reduce the operation degree of difficulty, convenient to use, and can regard as open-air mobile power station to use.
The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a telescopic on-vehicle solar charging device of parallelogram linkage, including the chassis, back dustcoat, preceding dustcoat, parallelogram linkage solar energy exhibition frame, exhibition frame driving electric jar, linear slide rail and dustcoat driving electric jar, chassis internally mounted parallelogram linkage solar energy exhibition frame, be equipped with the exhibition frame driving electric jar that expandes or accomodate of the parallel linkage solar energy exhibition frame of drive in the chassis, the chassis dustcoat has back dustcoat and preceding dustcoat, the chassis passes through linear slide rail and is connected with back dustcoat and preceding dustcoat, be equipped with the dustcoat driving electric jar that the dustcoat was opened or was closed after the drive in the chassis and preceding dustcoat. The chassis by horizontal chassis, vertical chassis, chassis longeron and articulated seat are constituteed, all be equipped with the horizontal chassis through bolt fixed connection between the front and back end top of controlling two vertical chassis, be equipped with the chassis longeron through bolt fixed connection between the bottom in the middle of two horizontal chassis, install the linear slide rail of being connected with back dustcoat and preceding dustcoat in the vertical chassis outside of chassis, pass through articulated seat in the left and right sides of the chassis longeron of chassis, this articulated seat department all articulates there is dustcoat actuating electric jar, two dustcoat actuating electric jar tip pass through the screw respectively with back dustcoat and preceding dustcoat be connected, all install articulated seat on the horizontal chassis around the chassis, it has exhibition frame actuating electric jar to articulate on this articulated seat, exhibition frame actuating electric jar tip all is connected with the parallel solar energy exhibition frame of four-bar. The size of a rectangular frame body formed by the transverse underframe, the longitudinal underframe and the underframe longitudinal beam is slightly smaller than that of the roof. The solar energy exhibition frame is composed of a solar panel, a solar panel frame, scissor type connecting rods, cross shafts, hinged shafts and guide wheels, wherein the solar panel frame is a rectangular frame body, a plurality of solar panel frames which are arranged from left to right are arranged in a bottom frame, the solar panel frames form a parallel four-bar structure through the scissor type connecting rods, the scissor type connecting rods are rectangular rod bodies, the middle parts of front and rear frame bodies of the solar panel frame are hinged with the middle part of one scissor type connecting rod through the cross shafts, the top end of the scissor type connecting rod hinged with the middle part of the solar panel frame on the left side is hinged with the top end of the solar panel frame on the left side through the hinged shaft, the bottom end of the scissor type connecting rod hinged with the middle part of the solar panel frame on the right side is hinged with the bottom end of, wherein, a frame bottom among the several solar panel frame is articulated through articulated shaft and chassis horizontal chassis front and back side, and the crossing axle and the exhibition frame drive electric cylinder tip of this frame are articulated, wherein, the solar panel frame in all be equipped with solar panel. Two horizontal chassis be the body of rod that the cross-section is "worker" type, its both sides are "C" type cell body, articulated seat above horizontal chassis fix in its outside "C" type cell body top, horizontal chassis and vertical chassis between the bolt of fixed connection usefulness equally fix on its outside "C" type cell body, chassis longeron and horizontal chassis between the screw of fixed connection usefulness equally fix on its outside "C" type cell body, parallel four-bar solar energy exhibition frame accomodate the back, its guide pulley is located the inboard "C" type cell body of horizontal chassis. The length of the solar panel frame is the distance between the two transverse bottom frames, the height of the solar panel frame is smaller than the thickness of the front outer cover and the rear outer cover, and the height of the solar panel frame is smaller than the length of the shear connecting rod. And solar panels can be paved on the outer walls of the front outer cover and the rear outer cover. Solar panel all through wire connection director back with storage battery in the car or add the storage battery of establishing alone and be connected, exhibition frame drive electric jar and dustcoat drive electric jar all be connected with the storage battery through wire connection director back, in its controller passes through the wire and introduces the car, above-mentioned electrical components are the standard components and parts that use commonly on the market.
The utility model has the advantages that: the utility model provides a telescopic on-vehicle solar charging device of parallelogram linkage, the device can expand and accomodate, accomodate the back through the dustcoat parcel, the leakproofness is good, dustproof waterproof, the area of top is less than the roof area, be convenient for roof installation, do not influence driving, accord with the traffic control requirement, solar panel area after the expansion increases along with it according to the solar panel quantity of parallelogram linkage solar energy exhibition frame, at least more than twice of roof area, solar panel after the expansion is the inclined plane, more accord with solar panel's daylighting demand, guarantee as far as possible perpendicular with sunshine, improve charging efficiency, solar panel's width is less than its length of cutting formula link, solar panel's interval is bigger before and after the expansion, it shelters from the area each other to reduce, improve the daylighting rate, whole device passes through electric appliance drive, need not manual operation, reduce the operation degree of difficulty, facilitate the use, the structure is simple, the manufacturing cost is low, the whole material is light, the installation and the disassembly are convenient, the maintenance is easy, and the damaged part is also easy to replace.
Drawings
The present invention will be further described with reference to the accompanying drawings and the following detailed description.
Fig. 1 is a schematic structural view of the parallel four-bar solar display rack of the present invention after being unfolded.
Fig. 2 is a side view of the parallelogram solar display rack of the present invention after being unfolded.
Fig. 3 is a side view of the present invention.
Fig. 4 is a structural sectional view of the present invention.
Fig. 5 is a main sectional view of the present invention.
Fig. 6 is a schematic view of the partial structure of the parallelogram solar display rack of the present invention after being unfolded.
Fig. 7 is a main sectional view of the parallelogram solar display rack of the present invention after being unfolded.
Fig. 8 is a schematic structural view of the bottom frame of the present invention.
Fig. 9 is a schematic structural view of the utility model after the cover is opened.
Fig. 10 is a schematic structural view of the parallelogram solar display rack of the present invention.
Reference numbers in the figures:
1. the solar energy exhibition frame comprises an underframe, 2 a rear outer cover, 3 a front outer cover, 4 a parallel four-bar solar energy exhibition frame, 5 a transverse underframe, 6 an exhibition frame driving electric cylinder, 7 a longitudinal underframe, 8 a linear sliding rail, 9 a solar panel, 10 a solar panel frame, 11 a scissor type connecting rod, 12 a cross shaft, 13 a hinging shaft, 14 an underframe longitudinal beam, 15 an outer cover driving electric cylinder, 16 a hinging seat, 17 and a guide wheel.
Detailed Description
As shown in fig. 1-10, a telescopic on-vehicle solar charging device of parallel four-bar, including chassis 1, back dustcoat 2, preceding dustcoat 3, parallel four-bar solar energy exhibition frame 4, exhibition frame driving electric jar 6, linear slide rail 8 and dustcoat driving electric jar 15, chassis 1 internally mounted parallel four-bar solar energy exhibition frame 4, be equipped with the exhibition frame driving electric jar 6 that drives the expansion or the taking in of parallel four-bar solar energy exhibition frame 4 in the chassis 1, chassis 1 dustcoat has back dustcoat 2 and preceding dustcoat 3, chassis 1 is connected with back dustcoat 2 and preceding dustcoat 3 through linear slide rail 8, be equipped with the dustcoat driving electric jar 15 that drives back dustcoat 2 and preceding dustcoat 3 and open or close in the chassis 1.
The underframe 1 consists of a transverse underframe 5, a longitudinal underframe 7, underframe longitudinal beams 14 and a hinged base 16, the transverse underframe 5 fixedly connected through bolts is arranged between the tops of the front end and the rear end of the left longitudinal underframe 7 and the rear end of the right longitudinal underframe 7, the underframe longitudinal beams 14 fixedly connected through bolts are arranged between the bottoms of the middles of the two transverse underframe 5, the outer side of a longitudinal underframe 7 of the underframe 1 is provided with a linear slide rail 8 connected with the rear outer cover 2 and the front outer cover 3, the left side and the right side of an underframe longitudinal beam 14 of the underframe 1 are provided with a hinge seat 16, the hinged seats 16 are hinged with outer cover driving electric cylinders 15, the end parts of the two outer cover driving electric cylinders 15 are respectively connected with the rear outer cover 2 and the front outer cover 3 through screws, the hinged seats 16 are respectively arranged on the front transverse underframe 5 and the rear transverse underframe 5 of the underframe 1, the hinged base 16 is hinged with an electric display rack driving cylinder 6, and the end part of the electric display rack driving cylinder 6 is connected with the parallel four-bar solar display rack 4. The size of the rectangular frame body formed by the transverse underframe 5, the longitudinal underframe 7 and the underframe longitudinal beam 14 is slightly smaller than the size of the roof of the car.
The parallel four-bar solar display rack 4 comprises a solar panel 9, a solar panel frame 10, scissor type connecting rods 11, crossed shafts 12, hinged shafts 13 and guide wheels 17, the solar panel frame 10 is a rectangular frame body, a plurality of solar panel frames 10 arranged from left to right are arranged in an underframe 1, the plurality of solar panel frames 10 form a parallel four-bar structure through the scissor type connecting rods 11, the scissor type connecting rods 11 are rectangular rod bodies, the middle parts of front and rear rack bodies of the solar panel frames 10 are hinged with the middle part of one scissor type connecting rod 11 through the crossed shafts 12, the top end of the scissor type connecting rod 11 hinged in the middle part of the solar panel frame 10 is hinged with the top end of the solar panel frame 10 on the left side of the solar panel frame through the hinged shafts 13, the bottom end of the scissor type connecting rod 11 hinged in the middle part of the solar panel frame 10 is, the bottom at the front and back end of every group solar panel frame 10 all is equipped with guide pulley 17, and wherein, the horizontal chassis 5 articulated through articulated shaft 13 and chassis 1 front and back side in a frame bottom among the several groups solar panel frame 10, the crossing shaft 12 and the exhibition frame drive electric cylinder 6 tip of this frame are articulated, wherein, solar panel frame 10 in all be equipped with solar panel 9.
The two transverse underframe 5 are rod bodies with I-shaped sections, C-shaped groove bodies are arranged on two sides of the two transverse underframe, a hinged seat 16 above the transverse underframe 5 is fixed above the C-shaped groove bodies on the outer sides of the two transverse underframe, bolts for fixed connection between the transverse underframe 5 and the longitudinal underframe 7 are fixed on the C-shaped groove bodies on the outer sides of the two transverse underframe, screws for fixed connection between the underframe longitudinal beam 14 and the transverse underframe 5 are fixed on the C-shaped groove bodies on the outer sides of the two transverse underframe, and guide wheels 17 of the parallel four-bar solar energy display frame 4 are positioned in the C-shaped groove bodies on the inner sides of the transverse underframe 5 after being stored. The guide wheel 17 of the unfolded parallelogram four-bar solar display rack 4 can enter from the end part of the C-shaped groove on the inner side of the transverse underframe 5 in the process of storage.
The length of the solar panel frame 10 is the distance between the two transverse underframe 5, the height of the solar panel frame 10 is smaller than the thickness of the front outer cover 3 and the rear outer cover 2, and the height of the solar panel frame 10 is smaller than the length of the scissor type connecting rod 11. After the solar panel frame 10 is unfolded, the adjacent solar panel frame 10 and the shear type connecting rods 11 connected with the solar panel frame 10 form a rhombus, and the upper and lower opposite leg lines of the formed rhombus are oblique lines because the height of the solar panel frame 10 is smaller than the length of the shear type connecting rods 11, so that the left solar panel frame 10 and the right solar panel frame 10 are ensured to be staggered with each other, and the solar panel frame 10 and the right solar panel frame 10 are prevented from being shielded with.
And solar panels 9 can be paved on the outer walls of the front outer cover 3 and the rear outer cover 2.
Claims (6)
1. The utility model provides a telescopic on-vehicle solar charging device of parallel four-bar which characterized in that: the solar energy display device comprises a chassis (1), a rear outer cover (2), a front outer cover (3), a parallel four-rod solar energy display frame (4), a display frame driving electric cylinder (6), a linear slide rail (8) and an outer cover driving electric cylinder (15), wherein the parallel four-rod solar energy display frame (4) is installed inside the chassis (1), the display frame driving electric cylinder (6) for driving the parallel four-rod solar energy display frame (4) to be unfolded or stored is arranged in the chassis (1), the rear outer cover (2) and the front outer cover (3) are covered outside the chassis (1), the chassis (1) is connected with the rear outer cover (2) and the front outer cover (3) through the linear slide rail (8), and the outer cover driving electric cylinder (15) for driving the rear outer cover (2) and the front outer cover (3) to be opened or closed is arranged in the chassis (1); the chassis (1) consists of transverse chassis (5), longitudinal chassis (7), chassis longitudinal beams (14) and hinged seats (16), the transverse chassis (5) fixedly connected through bolts are arranged between the tops of the front end and the rear end of each of the left longitudinal chassis (7) and the right longitudinal chassis (7), the chassis longitudinal beams (14) fixedly connected through bolts are arranged between the bottoms of the middles of the two transverse chassis (5), linear slide rails (8) connected with the rear outer cover (2) and the front outer cover (3) are mounted on the outer sides of the longitudinal chassis (7) of the chassis (1), the hinged seats (16) are arranged on the left side and the right side of the chassis longitudinal beams (14) of the chassis (1) through the hinged seats (16), outer cover driving electric cylinders (15) are hinged to the hinged seats (16), the end parts of the two outer cover driving electric cylinders (15) are respectively connected with the rear outer cover (2) and the front outer cover (3) through screws, the hinged seats (16) are mounted on the front transverse chassis (, the hinged seat (16) is hinged with an exhibition frame driving electric cylinder (6), and the end parts of the exhibition frame driving electric cylinder (6) are connected with the parallel four-bar solar exhibition frame (4); the solar display rack is characterized in that the parallel four-bar solar display rack (4) is composed of a solar panel (9), a solar panel frame (10), shear type connecting rods (11), cross shafts (12), hinged shafts (13) and guide wheels (17), the solar panel frame (10) is a rectangular frame body, a plurality of solar panel frames (10) placed from left to right are arranged in a chassis (1), the plurality of solar panel frames (10) form a parallel four-bar structure through the shear type connecting rods (11), the shear type connecting rods (11) are rectangular rod bodies, the middle parts of front and back frame bodies of the solar panel frames (10) are hinged to the middle part of one shear type connecting rod (11) through the cross shafts (12), the top ends of the shear type connecting rods (11) hinged to the middle part of the solar panel frame (10) are hinged to the top end of the solar panel frame (10) on the left side through the hinged shafts (13), and the bottom ends of the shear type connecting rods (11) hinged to And then, forming a parallel four-bar structure of a plurality of rhombic variable prism frame bodies, wherein guide wheels (17) are arranged at the bottoms of the front end and the rear end of each group of solar panel frames (10), wherein the bottom end of one of the groups of solar panel frames (10) is hinged with the front transverse underframe (5) and the rear transverse underframe (5) of the underframe (1) through hinged shafts (13), the crossed shaft (12) of the frame is hinged with the end part of the exhibition frame driving electric cylinder (6), and the solar panel frames (10) are internally provided with solar panels (9).
2. The parallelogram four-bar telescopic vehicle-mounted solar charging device of claim 1, wherein: the size of a rectangular frame body formed by the transverse underframe (5), the longitudinal underframe (7) and the underframe longitudinal beam (14) is slightly smaller than that of the roof.
3. The parallelogram four-bar telescopic vehicle-mounted solar charging device of claim 1, wherein: two horizontal chassis (5) are the body of rod of "worker" type for the cross-section, and its both sides are "C" type cell body, articulated seat (16) of horizontal chassis (5) top fix in its outside "C" type cell body top, horizontal chassis (5) and vertical chassis (7) between the bolt of fixed connection usefulness equally fix on its outside "C" type cell body, chassis longeron (14) and horizontal chassis (5) between the screw of fixed connection usefulness equally fix on its outside "C" type cell body, parallel four-bar solar energy exhibition frame (4) accomodate the back, its guide pulley (17) are located the inboard "C" type cell body of horizontal chassis (5).
4. The parallelogram four-bar telescopic vehicle-mounted solar charging device of claim 1, wherein: the length of the solar panel frame (10) is the distance between the two transverse bottom frames (5), the height of the solar panel frame (10) is smaller than the thickness of the front outer cover (3) and the thickness of the rear outer cover (2), and the height of the solar panel frame (10) is smaller than the length of the shear type connecting rod (11).
5. The parallelogram four-bar telescopic vehicle-mounted solar charging device of claim 1, wherein: solar panels (9) can be paved on the outer walls of the front outer cover (3) and the rear outer cover (2).
6. The parallelogram four-bar telescopic vehicle-mounted solar charging device of claim 1, wherein: solar panel (9) all add the storage battery of establishing with storage battery in the car or alone through wire connection director back and be connected, exhibition frame drive electric jar (6) and dustcoat drive electric jar (15) all be connected with the storage battery through wire connection director back, its controller passes through in the wire introduction car.
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CN201922051291.8U CN210912042U (en) | 2019-11-25 | 2019-11-25 | Telescopic on-vehicle solar charging device of parallel four-bar |
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CN201922051291.8U CN210912042U (en) | 2019-11-25 | 2019-11-25 | Telescopic on-vehicle solar charging device of parallel four-bar |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110722992A (en) * | 2019-11-25 | 2020-01-24 | 哈尔滨市恩光川川科技有限责任公司 | Telescopic on-vehicle solar charging device of parallel four-bar |
CN114389178A (en) * | 2021-11-19 | 2022-04-22 | 中国科学院西安光学精密机械研究所 | Photovoltaic-based mobile power supply device |
-
2019
- 2019-11-25 CN CN201922051291.8U patent/CN210912042U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110722992A (en) * | 2019-11-25 | 2020-01-24 | 哈尔滨市恩光川川科技有限责任公司 | Telescopic on-vehicle solar charging device of parallel four-bar |
CN110722992B (en) * | 2019-11-25 | 2024-03-29 | 哈尔滨市恩光川川科技有限责任公司 | Parallel four-bar telescopic vehicle-mounted solar charging device |
CN114389178A (en) * | 2021-11-19 | 2022-04-22 | 中国科学院西安光学精密机械研究所 | Photovoltaic-based mobile power supply device |
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