CN207607371U - A kind of wireless charging based on Internet of Things conveniently intelligent electric electrical automobile - Google Patents
A kind of wireless charging based on Internet of Things conveniently intelligent electric electrical automobile Download PDFInfo
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- CN207607371U CN207607371U CN201721730411.1U CN201721730411U CN207607371U CN 207607371 U CN207607371 U CN 207607371U CN 201721730411 U CN201721730411 U CN 201721730411U CN 207607371 U CN207607371 U CN 207607371U
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- intelligent electric
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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
- Y02T10/70—Energy storage systems for electromobility, e.g. batteries
Abstract
The utility model is related to a kind of wireless charging based on Internet of Things conveniently intelligent electric electrical automobiles,Including vehicle body,Chassis,Battery pack and charging panel,Recess is equipped in chassis,Translation mechanism is equipped in recess,Translation mechanism includes first movement component,Second moving assembly and pillar,First movement component includes first motor,Buffer stopper,First drive shaft and sliding block,Drier includes air-guide box,Third tracheae and nozzle,Conveniently intelligent electric electrical automobile drives charging panel movement to the wireless charging based on Internet of Things by translation mechanism,Make charging panel be moved to designated position to charge,Quickly charging is carried out efficiently to facilitate people in the case where automobile stop shifts,Moreover,When rainy weather or automobile through and paddling road surface,Battery pack is heated by drier,Make the moisture rapid evaporation on battery pack surface,It prevents moisture from immersing in battery pack and causes equipment damage,And then improve the practicability of the electric vehicle.
Description
Technical field
The utility model is related to new-energy automobile field, more particularly to a kind of wireless charging based on Internet of Things is convenient and efficient
Intelligent electric electrical automobile.
Background technology
Pure electric automobile refers to driving wheels travel using vehicle power supply as power with motor, meeting road traffic, safety law
Advise the vehicle of requirements.Since effect on environment is smaller relative to transmission automobile, foreground is had an optimistic view of extensively, simultaneous
The development of wireless charging technology, in order to improve the cruising ability of electric vehicle, people bury charge coil, automobile movement on ground
To designated position, by the coil indirect current to underground, an alternating magnetic field is formed using the electric field of variation, at this time vehicle
Coil in chassis is at a changing magnetic field, and coil inside generates an alternating current, by a series of circuit rectifies
Afterwards, it realizes and charges to electric vehicle.
But in charging process, need by electric automobile during traveling to specified position, due to the driving technology of driver
Limited, automobile stop position and former designated position generate deviation, in turn result in magnetic flux and magnetic in the charge coil of electric vehicle
Induction reduces, and to reduce the electric current flowed through in charge coil, reduces charge efficiency, the charging time is made to extend, no
Only in this way, since the battery pack of electric vehicle is installed on body bottom, it is relatively close that battery pack is liftoff, thus through paddling road surface or
Often speckled with when person's rainy season set, in battery pack it is water stain, due to existing electric vehicle battery pack be stained with it is water stain after fail
Even if being handled, cause inside these water stain easy immersion battery packs, oxidation, corruption then gently are caused to battery pack internal component
Erosion, it is heavy then cause battery pack internal short-circuit, make electric vehicle that can not run, to reduce the practicality of existing electric vehicle
Property.
Utility model content
The technical problems to be solved in the utility model is:For overcome the deficiencies in the prior art, it provides a kind of based on Internet of Things
The wireless charging of net conveniently intelligent electric electrical automobile.
Technical solution adopted by the utility model to solve its technical problems is:As shown in Figure 1, a kind of based on Internet of Things
Wireless charging conveniently intelligent electric electrical automobile, including headstock, vehicle body, chassis, battery pack, charging panel and four wheels,
The headstock and vehicle body are arranged on chassis, and the battery pack is located in chassis, and the charging panel is arranged in the lower section on chassis,
It is equipped with enging cabin in the headstock, recess is equipped in the chassis, translation mechanism, the translation mechanism are equipped in the recess
It being sequentially connected with charging panel, the first tracheae and the second tracheae is equipped in the headstock, the lower section on the chassis is equipped with drier,
The external of one end of first tracheae and headstock is connected to, and the other end of first tracheae is connected to enging cabin, and described the
One end of two tracheaes is connected to enging cabin, and the other end of second tracheae is connect with drier;
The electric vehicle is in parking, when the position of stop shifts with specified charge position, for the ease of filling
Charge efficiency can be improved while electric, and charging panel movement is driven by the translation mechanism in recess, so that charging panel is shifted, directly
It is located at the surface of designated position to charging panel, the charge coil in ground can make to generate in the coil in charging panel larger
Electric current realizes quick charge;And in the rainy day or behind road surface of paddling, in order to dispose the moisture in battery pack in time, prevent
It is only flooded in battery pack into causing equipment damage, air-flow is introduced from the first tracheae, and by enging cabin, due to electronic
Automobile is in transport condition, and the air-flow of introducing is made to heat, and the second tracheae is then passed sequentially through, and drawn by drier, to electricity
The surfaces Chi Bao carry out heating the moisture rapid evaporation made in battery pack, achieve the purpose that eliminate moisture.
As shown in Fig. 2, the translation mechanism includes first movement component, the second moving assembly and pillar, described first moves
Dynamic component and the second moving assembly are sequentially connected, and the top of second moving assembly and pillar is sequentially connected, the pillar
Bottom end is fixed on charging panel;
The first movement component includes first motor, buffer stopper, the first drive shaft and sliding block, and the first motor is fixed
On the inner wall of the side of recess, the buffer stopper is fixed on the inner wall of the other side of recess, the first drive shaft setting
Between first motor and buffer stopper, the first motor is sequentially connected with the first drive shaft, and the sliding block is set in the first drive
On moving axis, the periphery of first drive shaft is equipped with external screw thread, and internal thread, the interior spiral shell in the sliding block are equipped in the sliding block
Line matches with the external screw thread in the first drive shaft;
Second moving assembly includes fixed link, the second motor, first connecting rod, second connecting rod and slip ring, the fixation
Bar is fixed on sliding block, and second motor is fixed in fixed link, and second motor is sequentially connected with first connecting rod, described
Second connecting rod is hinged by second connecting rod and slip ring, and the slip ring is set in fixed link, and the top of the slip ring and pillar is solid
Fixed connection;
In first movement component, first motor drives the rotation of the first drive shaft, make external screw thread in the first drive shaft with
Internal thread effect in sliding block, drives sliding block to be moved in the first drive shaft, mobile to make the second moving assembly be moved
The centerline axis parallel in direction and the first drive shaft, and in the second moving assembly, the second motor drives first connecting rod rotation, leads to
To cross second connecting rod make slip ring be slided in fixed link, and then drives pillar movement, due to the moving direction and fixed link of slip ring
Central axial direction is parallel, and fixed link is vertical with the first drive shaft, to make the sliding block moving direction in first movement component
It is mutually perpendicular to the slip ring moving direction in the second moving assembly, and then realizes the planar movement of pillar.
As shown in figure 4, the drier includes air-guide box, third tracheae and nozzle, the nozzle is located at battery pack
Lower section, the air-guide box are fixed on the lower section on chassis, and one end of the air-guide box is connected to the second tracheae, the air-guide box it is another
One end is connected to by third tracheae with nozzle.Air-guide box is introduced into the air heated in the second tracheae, and is conveyed by third tracheae
To nozzle, nozzle sprays hot-air, is heated to battery pack surface, accelerates moisture evaporation, to eliminate moisture.
As shown in Fig. 2, the translation mechanism further includes slide bar and lantern ring, the lantern ring is fixed on the separate sliding block of fixed link
One end, the lantern ring is set on slide bar, and the both ends of the slide bar are fixedly connected with the inner wall of the both sides of recess respectively.Lantern ring
It is slided on slide bar, since the sliding trace of lantern ring immobilizes, secures the motion track of fixed link.
As shown in figure 3, the periphery of the charging panel is equipped with probe assembly, the probe assembly includes belt, four transmission
Unit and four magnetic field intensities detection meter, four transmission units are located at the four corners of charging panel, in four transmission units, wherein one
A transmission unit is sequentially connected by belt and the other three transmission unit, the transmission unit include side lever, third motor and
Driving wheel, the third motor are fixedly connected by side lever with charging panel, and the third motor is sequentially connected with driving wheel, described
Driving wheel is located at the inside of belt, and four magnetic field intensity detection meters are located at four sides of charging panel, four magnetic field intensity detections
Meter is separately fixed at the outside of belt.Transmission unit is run one of in four transmission units, is driven by third motor
Driving wheel rotates, and belt is made to rotate, to make four magnetic field intensities of four sides detect the magnetic field intensity around meter detection, to really
Determine the Distribution of Magnetic Field situation in the environment residing for charging panel.
As shown in figure 4, the bottom of the nozzle is equipped with several through-holes.After being additionally arranged at the bottom of through-hole, it can make in nozzle
Ponding flows out, and moisture is carried when preventing hot-air from spraying, corrodes the surface of battery pack.
As shown in figure 4, the shape of the nozzle is tubaeform.Using tubaeform structure design, be conducive to hot-air from
It is sprayed above nozzle, and flow is flowed out from head of the nozzle.
As shown in figure 4, the 4th motor, the 4th drive shaft and two gas-conducting cells are equipped in the air-guide box, the described 4th
Motor is fixed on the inner wall of the side of the separate third tracheae of air-guide box, and the 4th motor and 4 wheel driven driving-axle gearing connect
It connects, two gas-conducting cells are separately positioned on the both sides of the 4th drive shaft, and the gas-conducting cells include several flabellums, and the flabellum is equal
It is even to be distributed in the 4th drive shaft.4th motor operation drives the 4th drive shaft turns, to drive flabellum to rotate, generates gas
Stream is sprayed the hot-air of the second tracheae by third tracheae to realize from nozzle.
Preferably, using the strong feature of DC servo motor driving force, it is described in order to ensure the driving force of the 4th motor
4th motor is DC servo motor.
Preferably, firm using stainless steel and corrosion resistant feature, for the ease of stationary nozzle position simultaneously
It is stainless steel tube to prevent third tracheae corrosion, the third tracheae.
Preferably, the stability of the connection in order to ensure to state nozzle, third tracheae and air-guide box, the nozzle, third
Tracheae and air-guide box are an integral molding structure.
Preferably, for the ease of straighforward operation, bluetooth is equipped in the car body.
The intelligent electric electrical automobile utilizes the magnetic field intensity shape around the probe assembly detection of charging panel periphery when stopping
Condition, so that it is determined that Distribution of Magnetic Field, then utilizes first movement component and the second moving assembly in the recess of chassis to drive pillar edge
Two mutually orthogonal direction movements are moved to drive charging panel that planar movement occurs by first movement component and second
Component makes charging panel be moved to specified charge position, and electric vehicle is facilitated to charge with carrying out quickness and high efficiency, and in rainy weather
Or when automobile is behind road surface of paddling, the air heated by enging cabin is introduced from the second tracheae using air-guide box, is passed through
Third tracheae is delivered in nozzle, is heated to battery pack surface, is made the hot-air rapid evaporation on battery pack surface, is prevented electricity
Pond is coated with water and immerses, and influences automobilism.
The utility model has the beneficial effects that being somebody's turn to do the conveniently intelligent electric electrical automobile of the wireless charging based on Internet of Things
Charging panel movement is driven by translation mechanism, so that charging panel is moved to designated position and charges, to facilitate people in vapour
Vehicle stop carries out efficiently quickly charging in the case of shifting, compared with the translation mechanism of transmission, which can
The position movement in both direction is realized, to expand moving range, moreover, in rainy weather or automobile by paddling
When road surface, battery pack is heated by drier, makes the moisture rapid evaporation on battery pack surface, prevents moisture from immersing battery
Cause equipment damage in packet, compared with traditional drier, the air which introduces is the height of generator bay heating
Warm air reduces energy consumption, and then improve the practicability of the electric vehicle to which the energy rationally be utilized.
Description of the drawings
The utility model is further illustrated with reference to the accompanying drawings and examples.
Fig. 1 is that the structure of the conveniently intelligent electric electrical automobile of the wireless charging based on Internet of Things of the utility model is shown
It is intended to;
Fig. 2 is the translation machine of the conveniently intelligent electric electrical automobile of the wireless charging based on Internet of Things of the utility model
The structural schematic diagram of structure;
Fig. 3 is the charging panel of the conveniently intelligent electric electrical automobile of the wireless charging based on Internet of Things of the utility model
Structural schematic diagram;
Fig. 4 is the drying machine of the conveniently intelligent electric electrical automobile of the wireless charging based on Internet of Things of the utility model
The structural schematic diagram of structure;
In figure:1. headstock, 2. vehicle bodies, 3. chassis, 4. battery packs, 5. charging panels, 6. wheels, 7. recesses, 8. first tracheaes,
9. the second tracheae, 10. pillars, 11. first motors, 12. buffer stoppers, 13. first drive shafts, 14. sliding blocks, 15. fixed links, 16.
Second motor, 17. first connecting rods, 18. second connecting rods, 19. slip rings, 20. air-guide box, 21. third tracheaes, 22. nozzles, 23. slide
Bar, 24. lantern rings, 25. belts, 26. magnetic field intensities detection meter, 27. side levers, 28. third motors, 29. driving wheels, 30. through-holes,
31. the 4th motor, 32. the 4th drive shafts, 33. flabellums, 34. enging cabins.
Specific implementation mode
The utility model is described in further detail presently in connection with attached drawing.These attached drawings are simplified schematic diagram,
Only illustrate the basic structure of the utility model in a schematic way, therefore it only shows composition related with the utility model.
As shown in Figure 1, a kind of wireless charging based on Internet of Things conveniently intelligent electric electrical automobile, including headstock 1,
Vehicle body 2, chassis 3, battery pack 4, charging panel 5 and four wheels 6, the headstock 1 and vehicle body 2 are arranged on chassis 3, the electricity
Pond packet 4 is located in chassis 3, and the lower section on chassis 3 is arranged in the charging panel 5, and enging cabin 34 is equipped in the headstock 1, described
It is equipped with recess 7 in chassis 3, translation mechanism is equipped in the recess 7, the translation mechanism is sequentially connected with charging panel 5, the vehicle
The first tracheae 8 and the second tracheae 9 are equipped in first 1, the lower section on the chassis 3 is equipped with drier, one end of first tracheae 8
External with headstock 1 be connected to, and the other end of first tracheae 8 is connected to enging cabin 34, one end of second tracheae 9 and
Enging cabin 34 is connected to, and the other end of second tracheae 9 is connect with drier;
The electric vehicle is in parking, when the position of stop shifts with specified charge position, for the ease of filling
Charge efficiency can be improved while electric, drive charging panel 5 to move by the translation mechanism in recess 7, charging panel 5 is made to occur partially
It moves, until charging panel 5 is located at the surface of designated position, the charge coil in ground can make production in the coil in charging panel 5
Raw larger electric current, realizes quick charge;And in the rainy day or behind road surface of paddling, in order to dispose in time in battery pack 4
Moisture, prevent from being flooded in battery pack 4 into causing equipment damage, introduce air-flow from the first tracheae 8, and pass through engine
Cabin 34 makes the air-flow of introducing heat since electric vehicle is in transport condition, then passes sequentially through the second tracheae 9, and by drying
Mechanism is drawn, and is carried out heating the moisture rapid evaporation made in battery pack 4 to 4 surface of battery pack, is achieved the purpose that eliminate moisture.
As shown in Fig. 2, the translation mechanism includes first movement component, the second moving assembly and pillar 10, described first
Moving assembly and the second moving assembly are sequentially connected, and the top of second moving assembly and pillar 10 is sequentially connected, the branch
The bottom end of column 10 is fixed on charging panel 5;
The first movement component includes first motor 11, buffer stopper 12, the first drive shaft 13 and sliding block 14, and described first
Motor 11 is fixed on the inner wall of the side of recess 7, and the buffer stopper 12 is fixed on the inner wall of the other side of recess 7, described
First drive shaft 13 is arranged between first motor 11 and buffer stopper 12, and the first motor 11 and the transmission of the first drive shaft 13 connect
It connects, the sliding block 14 is set in the first drive shaft 13, and the periphery of first drive shaft 13 is equipped with external screw thread, the sliding block
Internal thread is equipped in 14, the internal thread in the sliding block 14 matches with the external screw thread in the first drive shaft 13;
Second moving assembly includes fixed link 15, the second motor 16, first connecting rod 17, second connecting rod 18 and slip ring
19, the fixed link 15 is fixed on sliding block 14, and second motor 16 is fixed in fixed link 15, second motor 16 with
First connecting rod 17 is sequentially connected, and the second connecting rod 18 is hinged by second connecting rod 18 and slip ring 19, and the slip ring 19 is set in
In fixed link 15, the slip ring 19 is fixedly connected with the top of pillar 10;
In first movement component, first motor 11 drives the rotation of the first drive shaft 13, makes outer in the first drive shaft 13
Screw thread is acted on the internal thread in sliding block 14, drives sliding block 14 to be moved in the first drive shaft 13, to make the second moving assembly
It is moved, the centerline axis parallel of moving direction and the first drive shaft 13, and in the second moving assembly, 16 band of the second motor
Dynamic first connecting rod 17 rotates, and so that slip ring 19 is slided in fixed link 15 by second connecting rod 18, and then pillar 10 is driven to move, by
It is parallel with the central axial direction of fixed link 15 in the moving direction of slip ring 19, and fixed link 15 is vertical with the first drive shaft 13,
To make 19 moving direction of slip ring in 14 moving direction of sliding block and the second moving assembly in first movement component be mutually perpendicular to,
And then realize the planar movement of pillar 10.
As shown in figure 4, the drier includes air-guide box 20, third tracheae 21 and nozzle 22, the nozzle 22 is located at
The lower section of battery pack 4, the air-guide box 20 are fixed on the lower section on chassis 3, and one end of the air-guide box 20 connects with the second tracheae 9
Logical, the other end of the air-guide box 20 is connected to by third tracheae 21 with nozzle 22.Air-guide box 20 is introduced into the second tracheae 9 and heats
Air, and be delivered at nozzle 22 by third tracheae 21, nozzle 22 sprays hot-air, is heated to 4 surface of battery pack,
Accelerate moisture evaporation, to eliminate moisture.
As shown in Fig. 2, the translation mechanism further includes slide bar 23 and lantern ring 24, the lantern ring 24 is fixed on fixed link 15
One end far from sliding block 14, the lantern ring 24 are set on slide bar 23, the both ends of the slide bar 23 respectively with the both sides of recess 7
Inner wall is fixedly connected.Lantern ring 24 slides on slide bar 23, since the sliding trace of lantern ring 24 immobilizes, secures fixation
The motion track of bar 15.
As shown in figure 3, the periphery of the charging panel 5 is equipped with probe assembly, the probe assembly includes 25, four biographies of belt
Sending unit and four magnetic field intensities detection meter 26, four transmission units are located at the four corners of charging panel 5, in four transmission units,
One of transmission unit is sequentially connected by belt 25 and the other three transmission unit, the transmission unit include side lever 27,
Third motor 28 and driving wheel 29, the third motor 28 are fixedly connected by side lever 27 with charging panel 5, the third motor 28
It is sequentially connected with driving wheel 29, the driving wheel 29 is located at the inside of belt 25, and four magnetic field intensity detection meters 26 are located at
Four sides of charging panel 5, four magnetic field intensity detection meters 26 are separately fixed at the outside of belt 25.In four transmission units wherein
One transmission unit operation, drives driving wheel 29 to rotate, so that belt 25 is rotated, to make four of four sides by third motor 28
Magnetic field intensity detection meter 26 detects the magnetic field intensity of surrounding, so that it is determined that the Distribution of Magnetic Field situation in the environment residing for charging panel 5.
As shown in figure 4, the bottom of the nozzle 22 is equipped with several through-holes 30.After being additionally arranged at the bottom of through-hole 30, spray can be made
Ponding outflow in first 22, carries moisture, corrodes the surface of battery pack 4 when preventing hot-air from spraying.
As shown in figure 4, the shape of the nozzle 22 is tubaeform.Using tubaeform structure design, be conducive to hot-air
It is sprayed above nozzle 22, and flow is flowed out from 22 bottom of nozzle.
As shown in figure 4, being equipped with the 4th motor 31, the 4th drive shaft 32 and two gas-conducting cells, institute in the air-guide box 20
State the 4th motor 31 be fixed on air-guide box 20 separate third tracheae 21 side inner wall on, the 4th motor 31 and the 4th
Drive shaft 32 is sequentially connected, and two gas-conducting cells are separately positioned on the both sides of the 4th drive shaft 32, if the gas-conducting cells include
Dry flabellum 33, the flabellum 33 are evenly distributed in the 4th drive shaft 32.4th motor 31 is run, and drives 32 turns of the 4th drive shaft
It is dynamic, to drive flabellum 33 to rotate, air-flow is generated, to realize the hot-air of the second tracheae 9 through third tracheae 21 from spray
First 22 spray.
Preferably, using the strong feature of DC servo motor driving force, in order to ensure the driving force of the 4th motor 31, institute
It is DC servo motor to state the 4th motor 31.
Preferably, firm using stainless steel and corrosion resistant feature, the position for the ease of stationary nozzle 22 are same
When prevent 21 corrosion of third tracheae, the third tracheae 21 is stainless steel tube.
Preferably, the stability of the connection in order to ensure to state nozzle 22, third tracheae 21 and air-guide box 20, the nozzle
22, third tracheae 21 and air-guide box 20 are an integral molding structure.
Preferably, for the ease of straighforward operation, bluetooth is equipped in the car body.
The intelligent electric electrical automobile utilizes the magnetic field intensity around the probe assembly detection of 5 periphery of charging panel when stopping
Situation, so that it is determined that Distribution of Magnetic Field, then utilizes first movement component and the second moving assembly in 3 recess 7 of chassis to drive branch
Column 10 is moved along two mutually orthogonal directions, to drive charging panel 5 that planar movement occurs, passes through first movement component and the
Two moving assemblies make charging panel 5 be moved to specified charge position, and electric vehicle is facilitated to charge with carrying out quickness and high efficiency, and in the moon
Rainy day gas or when automobile is behind road surface of paddling, is introduced from the second tracheae 9 using air-guide box 20 and is heated by enging cabin 34
Air, be delivered in nozzle 22 by third tracheae 21,4 surface of battery pack heated, keep the heat on 4 surface of battery pack empty
Gas rapid evaporation prevents battery pack 4 to be flooded into influencing automobilism.
Compared with prior art, conveniently intelligent electric electrical automobile passes through translation to the wireless charging based on Internet of Things
Mechanism drives charging panel 5 to move, and so that charging panel 5 is moved to designated position and charges, to facilitate people in automobile stop
Efficiently quickly charging is carried out in the case of shifting, compared with the translation mechanism of transmission, which can realize two
Position movement on a direction, to expand moving range, moreover, in rainy weather or automobile by road surface of paddling
When, battery pack 4 is heated by drier, makes the moisture rapid evaporation on 4 surface of battery pack, prevents moisture from immersing battery pack
Cause equipment damage in 4, compared with traditional drier, the air which introduces is the height that generator bay 34 heats
Warm air reduces energy consumption, and then improve the practicability of the electric vehicle to which the energy rationally be utilized.
It is enlightenment, through the above description, related work people with the above-mentioned desirable embodiment according to the utility model
Member can carry out various changes and amendments in the range of without departing from this item utility model technological thought completely.This item is real
It is not limited to the contents of the specification with novel technical scope, it is necessary to which its technology is determined according to right
Property range.
Claims (10)
1. a kind of wireless charging based on Internet of Things conveniently intelligent electric electrical automobile, including headstock (1), vehicle body (2), bottom
Disk (3), battery pack (4), charging panel (5) and four wheels (6), the headstock (1) and vehicle body (2) are arranged on chassis (3),
The battery pack (4) is located in chassis (3), and charging panel (5) setting is equipped in the lower section of chassis (3), the headstock (1)
Enging cabin (34), which is characterized in that be equipped with recess (7) in the chassis (3), translation mechanism, institute are equipped in the recess (7)
It states translation mechanism to be sequentially connected with charging panel (5), the first tracheae (8) and the second tracheae (9) is equipped in the headstock (1), it is described
The lower section on chassis (3) is equipped with drier, and one end of first tracheae (8) is connected to the external of headstock (1), first gas
The other end of pipe (8) is connected to enging cabin (34), and one end of second tracheae (9) is connected to enging cabin (34), described
The other end of second tracheae (9) is connect with drier;
The translation mechanism includes first movement component, the second moving assembly and pillar (10), the first movement component and
Two moving assemblies are sequentially connected, and the top of second moving assembly and pillar (10) is sequentially connected, the bottom of the pillar (10)
End is fixed on charging panel (5);
The first movement component includes first motor (11), buffer stopper (12), the first drive shaft (13) and sliding block (14), described
First motor (11) is fixed on the inner wall of the side of recess (7), and the buffer stopper (12) is fixed on the other side of recess (7)
On inner wall, first drive shaft (13) is arranged between first motor (11) and buffer stopper (12), the first motor (11)
It is sequentially connected with the first drive shaft (13), the sliding block (14) is set in the first drive shaft (13), first drive shaft
(13) periphery is equipped with external screw thread, and internal thread, the internal thread and first in the sliding block (14) are equipped in the sliding block (14)
External screw thread in drive shaft (13) matches;
Second moving assembly includes fixed link (15), the second motor (16), first connecting rod (17), second connecting rod (18) and slides
Ring (19), the fixed link (15) are fixed on sliding block (14), and second motor (16) is fixed in fixed link (15), described
Second motor (16) is sequentially connected with first connecting rod (17), and the second connecting rod (18) passes through second connecting rod (18) and slip ring (19)
Hinged, the slip ring (19) is set in fixed link (15), and the slip ring (19) is fixedly connected with the top of pillar (10);
The drier includes air-guide box (20), third tracheae (21) and nozzle (22), and the nozzle (22) is located at battery pack
(4) lower section, the air-guide box (20) are fixed on the lower section of chassis (3), one end and the second tracheae (9) of the air-guide box (20)
Connection, the other end of the air-guide box (20) are connected to by third tracheae (21) with nozzle (22).
2. conveniently intelligent electric electrical automobile, feature exist the wireless charging based on Internet of Things as described in claim 1
In the translation mechanism further includes slide bar (23) and lantern ring (24), and the lantern ring (24) is fixed on the separate sliding of fixed link (15)
One end of block (14), the lantern ring (24) are set on slide bar (23), the both ends of the slide bar (23) respectively with recess (7) two
The inner wall of side is fixedly connected.
3. conveniently intelligent electric electrical automobile, feature exist the wireless charging based on Internet of Things as described in claim 1
In the periphery of the charging panel (5) is equipped with probe assembly, and the probe assembly includes belt (25), four transmission units and four
A magnetic field intensity detection meter (26), four transmission units are located at the four corners of charging panel (5), in four transmission units, wherein one
A transmission unit is sequentially connected by belt (25) and the other three transmission unit, and the transmission unit includes side lever (27), the
Three motors (28) and driving wheel (29), the third motor (28) are fixedly connected by side lever (27) with charging panel (5), and described
Three motors (28) are sequentially connected with driving wheel (29), and the driving wheel (29) is located at the inside of belt (25), four magnetic field intensities
Detection meter (26) is located at four sides of charging panel (5), and four magnetic field intensity detection meters (26) are separately fixed at belt (25)
Outside.
4. conveniently intelligent electric electrical automobile, feature exist the wireless charging based on Internet of Things as described in claim 1
In the bottom of the nozzle (22) is equipped with several through-holes (30).
5. conveniently intelligent electric electrical automobile, feature exist the wireless charging based on Internet of Things as described in claim 1
In the shape of the nozzle (22) is tubaeform.
6. conveniently intelligent electric electrical automobile, feature exist the wireless charging based on Internet of Things as described in claim 1
In equipped with the 4th motor (31), the 4th drive shaft (32) and two gas-conducting cells, the 4th motor in the air-guide box (20)
(31) it is fixed on the inner wall of the side of the separate third tracheae (21) of air-guide box (20), the 4th motor (31) and 4 wheel driven
Moving axis (32) is sequentially connected, and two gas-conducting cells are separately positioned on the both sides of the 4th drive shaft (32), and the gas-conducting cells include
Several flabellums (33), the flabellum (33) are evenly distributed in the 4th drive shaft (32).
7. conveniently intelligent electric electrical automobile, feature exist the wireless charging based on Internet of Things as claimed in claim 6
In the 4th motor (31) is DC servo motor.
8. conveniently intelligent electric electrical automobile, feature exist the wireless charging based on Internet of Things as described in claim 1
In the third tracheae (21) is stainless steel tube.
9. conveniently intelligent electric electrical automobile, feature exist the wireless charging based on Internet of Things as described in claim 1
In the nozzle (22), third tracheae (21) and air-guide box (20) are an integral molding structure.
10. conveniently intelligent electric electrical automobile, feature exist the wireless charging based on Internet of Things as described in claim 1
In equipped with bluetooth in the car body.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721730411.1U CN207607371U (en) | 2017-12-12 | 2017-12-12 | A kind of wireless charging based on Internet of Things conveniently intelligent electric electrical automobile |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721730411.1U CN207607371U (en) | 2017-12-12 | 2017-12-12 | A kind of wireless charging based on Internet of Things conveniently intelligent electric electrical automobile |
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Granted publication date: 20180713 Termination date: 20181212 |