CN217944956U - Battery replacing system for battery replacing station - Google Patents
Battery replacing system for battery replacing station Download PDFInfo
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- CN217944956U CN217944956U CN202121184352.9U CN202121184352U CN217944956U CN 217944956 U CN217944956 U CN 217944956U CN 202121184352 U CN202121184352 U CN 202121184352U CN 217944956 U CN217944956 U CN 217944956U
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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
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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 trade electric system for trading power station for trade electric system that trades power station includes: a lifting device; a battery turnaround platform; a battery transfer device; the battery changing moving device is suitable for moving a power battery between the electric automobile and the battery turnover platform, and comprises a battery placing platform, wherein the width of the battery placing platform in the width direction of the electric automobile is adjustable, and/or the position of the battery placing platform in the driving direction of the electric automobile is adjustable. Therefore, the width size of the battery placing platform is adjusted in the width direction of the electric automobile, and/or the position of the battery placing platform is adjusted in the traveling direction of the electric automobile, compared with the prior art, the battery replacing mobile device can be matched with power batteries of different automobile types, and the power replacing system can replace the power batteries for the electric automobiles of different automobile types, so that the compatibility of a battery replacing station can be improved, and the service range of the battery replacing station can be enlarged.
Description
Technical Field
The utility model belongs to the technical field of trade the electricity and specifically relates to a trade electric system for trading power station is related to.
Background
In the related art, for electric vehicles using detachable power batteries, the sizes of the power batteries used by the electric vehicles of different vehicle types are different, the conventional battery replacement station can only replace the batteries of part of the vehicle types of the electric vehicles, and the compatibility of the battery replacement station is poor, so that the service range of the battery replacement station is small.
SUMMERY OF THE UTILITY MODEL
The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, an object of the utility model is to provide a trade electric system for trading power station, this a trade electric mobile device that trades electric system for trading power station can adapt the power battery of different motorcycle types, trade the electric system and can change power battery for the electric automobile of different motorcycle types to can improve the compatibility of trading the power station, and then can increase the service range who trades the power station.
According to the utility model discloses a trade electric system for trading power station includes: the lifting device is used for lifting the electric automobile; a battery turnaround platform for a battery of turnaround power; the battery transferring device is arranged on one side of the battery transferring platform and used for taking and placing the power battery so as to transfer the power battery between the battery transferring platform and an electricity storage bin of the battery changing station; trade electric mobile device, trade electric mobile device is used for changing power battery for electric automobile, trade electric mobile device be suitable for electric automobile with transport between the battery turnover platform power battery, trade electric mobile device includes battery place the platform, battery place the platform is in electric automobile width direction's width size is adjustable, and/or battery place the platform is in electric automobile's the direction of travel position is adjustable.
According to the utility model discloses a trade electric system for trading power station, through the width size at electric automobile width direction adjustment battery place the platform, and/or at electric automobile's the position of traveling direction adjustment battery place the platform, compare with prior art, trade the power battery that the mobile device can the different motorcycle types of adaptation, trade electric system and can change power battery for the electric automobile of different motorcycle types to can improve the compatibility of trading the power station, and then can increase the service range who trades the power station.
In some examples of the invention, the lifting device comprises: preceding lift portion and back lift portion, preceding lift portion with back lift portion is in electric automobile's direction of travel is spaced apart, preceding lift portion is used for lifting electric automobile's preceding wheel, back lift portion is used for lifting electric automobile's back wheel, lift device with be provided with between battery turnover platform and trade the electric passageway, the one end that trades the electric passageway extends to preceding lift portion with between the back lift portion, the other end that trades the electric passageway extends to battery turnover platform below, it is suitable for trade electric mobile device move in the electricity passageway.
The utility model discloses an in some examples, preceding lift portion is equipped with preceding centering clamping mechanism, back lift portion is equipped with back centering clamping mechanism, preceding centering clamping mechanism is used for pressing from both sides tightly preceding wheel, back centering clamping mechanism is used for pressing from both sides tightly back wheel, through preceding centering clamping mechanism with back centering clamping mechanism cooperation is in electric automobile's the direction of travel will electric automobile puts in.
In some examples of the present invention, the battery swapping mobile device further comprises: a traveling frame; the floating platform is arranged on the walking frame in a floating manner in a horizontal plane; the X-direction moving platform is arranged above the floating platform and can move in the driving direction of the electric automobile; the adjusting platform is arranged above the X-direction moving platform and can move in the width direction of the electric automobile to change the width dimension of the adjusting platform; the side pushes away the platform, the side pushes away the platform and locates adjustment platform's top and with adjustment platform X all connects to moving platform, adjustment platform is suitable for the drive the side pushes away the platform and is in electric automobile's width direction removes, X is suitable for the drive to moving platform the side pushes away the platform and is in electric automobile's the direction of travel removes, battery place the platform is located the side pushes away the top of platform and with the side pushes away the platform and connects, battery place the platform includes a plurality of sub-battery tray, the side pushes away the platform and is suitable for to drive a plurality of sub-battery tray is in electric automobile's width direction and/or the direction of travel remove.
In some examples of the present invention, the battery transfer device includes: a main body frame; the first guide mechanism is arranged at the top of the main body frame; the plurality of second guide mechanisms are arranged at the bottom of the main body frame, and the first guide mechanisms and the second guide mechanisms are used for guiding the movement of the battery transfer device in the battery transfer channel; the battery lifting mechanism is arranged in a cavity formed by the main body frame and can vertically lift relative to the main body frame, and the battery lifting mechanism comprises a bidirectional telescopic mechanism used for taking out or placing the power batteries positioned on two sides of the battery transfer channel; and the lifting mechanism driving device drives the lifting mechanism to drive the battery lifting mechanism to lift in the vertical direction.
In some examples of the present invention, the lifting mechanism driving device is provided on a side surface of the main body frame, and the lifting mechanism driving device is configured to drive the lifting mechanism to move.
In some examples of the invention, the battery turnover platform comprises: a platform frame; lift the mechanism, it sets up to lift the mechanism on the platform frame, lift the mechanism and lift the subassembly including lift slide rail and support, it includes to support to lift the subassembly: trade galvanic cell support and lift structure and feed battery support and lift the structure, feed battery support lifts the structure setting and is in trade galvanic cell support and lifts the top of structure just feed battery support lift the structure with trade galvanic cell support and lift the structure and can respectively follow vertical removal on the lift slide rail, feed battery support lift the structure be suitable for with trade the power battery on the electric mobile device and hold up, battery transfer device is suitable for with power battery place in trade galvanic cell support and lift the structure and will the power battery on the feed battery support lifts the structure is taken away, trade galvanic cell support and lift the structure be suitable for with the power battery on it place trade electric mobile device.
The utility model discloses an in some examples, support and lift the subassembly and have extreme low position, highest position and intermediate position support and lift the subassembly and be in during the extreme low position, the vertical height that the structure was lifted in the feed battery support is located battery place platform department and can the upward movement in order to with power battery on the battery place platform lifts up support and lift the subassembly and be in during the highest position, can allow battery transfer device places power battery trade battery support and lift structurally on the support is lifted the subassembly and is in during the intermediate position, trade battery support and lift the structure and can place power battery on the battery place platform, can allow simultaneously battery transfer device will the structural power battery of feed battery support is taken away.
In some examples of the present invention, the feed battery support lift structure with it lifts to have asynchronous motion state and synchronous motion state between the structure to trade battery support under the synchronous motion state, the feed battery support lift structure with it lifts the vertical distance between the structure to trade battery support and keeps unchanging relatively trade under the asynchronous motion state, the feed battery support lift structure with it lifts the vertical distance between the structure to trade battery support and diminishes gradually or grow gradually.
In some examples of the present invention, the battery turnover platform further comprises: actuating mechanism and position detection subassembly, actuating mechanism sets up just be suitable for the drive on the platform frame support and lift the subassembly motion, position detection subassembly sets up on the platform frame and be suitable for the detection trade the battery and support and lift the structure and/or the position of feed battery support and lift the structure, position detection subassembly with actuating mechanism communication.
Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.
Drawings
The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:
fig. 1 is a schematic diagram of a battery swapping system according to an embodiment of the present invention;
fig. 2 is a schematic view of a battery replacement moving device according to an embodiment of the present invention, which is placed on a walking rail;
fig. 3 is a schematic diagram of a battery swapping mobile device according to an embodiment of the present invention;
fig. 4 is a schematic view of another angle of the power swapping mobile device according to the embodiment of the present invention;
fig. 5 is an exploded view of a battery swapping mobile device according to an embodiment of the present invention;
fig. 6 is a schematic view of a lifting device according to an embodiment of the present invention;
fig. 7 is a schematic diagram of a battery turnaround platform according to an embodiment of the present invention;
fig. 8 is a schematic diagram of a battery transfer device according to an embodiment of the present invention.
Reference numerals are as follows:
a battery replacement system 100;
a lifting device 1; a front lifting unit (11); a rear lift unit 12; a battery replacement channel 13; a front centering and clamping mechanism 14; a rear centering and clamping mechanism 15; a first clamping mechanism 16; a second clamping mechanism 17;
a battery turnover platform 2; a platform frame 21; a lifting mechanism 22; a lifting slide rail 23; supporting the lift assembly 24; a battery replacement supporting and lifting structure 25; a feed battery support lift structure 26; a drive mechanism 27; a position detection assembly 28;
a battery transfer device 3; a main body frame 31; a first guide mechanism 32; the second guide mechanism 33; a battery lift mechanism 34; a bidirectional telescoping mechanism 35; the lifting mechanism driving device 36; an elevating mechanism 37; a drive shaft 38; a drive gear 39; a driven gear 310; a traveling wheel 311; a movement drive device 312; a drive member 313; a drive gear 314;
a battery replacement mobile device 4; a traveling frame 41; a floating platform 42; an X-direction moving platform 43; an adjustment stage 44; a side push platform 45; a battery placement platform 46; the sub-battery tray 47; a child side-push platform 48; a Z-directed floating assembly 410; a positioning fork 411; a floating hoist block 412; a sub adjustment stage 417; a first positioning member 418; a battery release fork 419; a battery lift block 420; a platform body 421; a Y-direction movement driving device 422; an X-direction movement driving device 423; a Y-guide assembly 424; a floating body 425; an X-direction guide element 427; a floating pull block 428;
a running rail 5.
Detailed Description
Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary only for explaining the present invention, and should not be construed as limiting the present invention.
The battery replacing system 100 of the battery replacing station according to the embodiment of the present invention is described below with reference to fig. 1 to 8, and the battery replacing system 100 is disposed in the battery replacing station.
As shown in fig. 1 to fig. 8, the battery swapping system 100 according to an embodiment of the present invention includes: the device comprises a lifting device 1, a battery turnover platform 2, a battery transfer device 3 and a battery replacement moving device 4. The lifting device 1 is used for lifting an electric automobile, the battery transfer platform 2 is used for transferring a rotating force battery, the battery transfer device 3 is arranged on one side of the battery transfer platform 2, the battery transfer device 3 is used for taking and placing a power battery so as to transfer the power battery between the battery transfer platform 2 and a power storage bin of a battery transfer station, the battery transfer mobile device 4 is used for replacing the power battery for the electric automobile, the battery transfer mobile device 4 is suitable for transferring the power battery between the electric automobile and the battery transfer platform 2, the battery transfer mobile device 4 comprises a battery placing platform 46, the width size of the battery placing platform 46 in the width direction of the electric automobile is adjustable, and/or the position of the battery placing platform 46 in the running direction of the electric automobile is adjustable, it should be noted that the width direction of the electric automobile can refer to the left and right direction in fig. 1, and the running direction of the electric automobile can refer to the front and back direction in fig. 1.
The power conversion station can provide power conversion service for users, and the power battery of the feed on the electric automobile can be replaced by a full power battery in the power conversion station. The battery replacement system 100 is used for detaching a power battery fed on the electric automobile, and the battery replacement system 100 can mount the fully charged power battery on the electric automobile so as to increase the endurance mileage of the electric automobile.
Specifically, in the process of replacing the battery of the electric vehicle by the battery replacing system 100, the electric vehicle firstly needs to be parked on the lifting platform, the lifting device 1 can lift or lower the vehicle in the height direction of the battery replacing system 100, it should be noted that the height direction of the battery replacing system 100 can refer to the up-down direction in fig. 1, the power batteries are all arranged at the bottom of the electric vehicle, the battery replacing mobile device 4 can disassemble and assemble the power batteries from the bottom of the electric vehicle, and the vehicle is lifted by using the lifting device 1, so that the power batteries can be disassembled and assembled by the battery replacing mobile device 4 more conveniently. Moreover, the battery replacing mobile device 4 can shuttle between the bottom of the electric automobile and the battery turnover platform 2, the battery replacing mobile device 4 can convey the power battery of the power supply detached from the bottom of the electric automobile to the battery turnover platform 2, and the battery replacing mobile device 4 can also install the power battery fully charged on the battery turnover platform 2 at the bottom of the automobile.
Meanwhile, a battery transfer device 3 is arranged between the battery turnover platform 2 and the electricity storage bin of the electricity changing station, and the electricity storage bin of the electricity changing station can be used for charging power batteries for feeding. The battery transfer device 3 can transport the power battery of the feed on the battery turnover platform 2 to the electricity storage bin for charging, the battery transfer device 3 can also transport the power battery of the full charge in the electricity storage bin to the battery turnover platform 2, the battery turnover platform 2 can temporarily store the power battery of the feed and the power battery of the full charge, and the battery turnover platform 2 can change the power battery between the power mobile device 4 and the battery transfer device 3, so as to improve the efficiency of the battery changing system 100.
In the process of dismounting and mounting the power battery from the bottom of the electric automobile by the battery replacing mobile device 4, the width dimension of the battery placing platform 46 in the width direction of the electric automobile is adjustable, and/or the position of the battery placing platform 46 in the driving direction of the electric automobile is adjustable, the width dimension of the battery placing platform 46 in the width direction of the electric automobile can be adjusted to a proper dimension, and the position of the battery placing platform 46 in the driving direction of the electric automobile can be adjusted to a proper position, so that the battery replacing mobile device 4 can meet the dismounting and mounting requirements of the power batteries of different models, the battery replacing system 100 can replace the power of the vehicle when the battery replacing mobile device 4 meets the dismounting and mounting requirements of the power battery, and therefore the battery replacing system 100 can be adapted to more vehicle types, and the service range of the battery replacing station is further improved.
Therefore, by adjusting the width of the battery placement platform 46 in the width direction of the electric vehicle and/or adjusting the position of the battery placement platform 46 in the traveling direction of the electric vehicle, compared with the prior art, the battery replacement mobile device 4 can adapt to power batteries of different vehicle types, and the battery replacement system 100 can replace power batteries for electric vehicles of different vehicle types, so that the compatibility of a battery replacement station can be improved, and the service range of the battery replacement station can be enlarged.
In some embodiments of the present invention, as shown in fig. 1 and fig. 6, the lifting device 1 may include: front lift portion 11 and back lift portion 12, front lift portion 11 and back lift portion 12 can be spaced apart in electric automobile's the direction of travel, front lift portion 11 can be used for lifting electric automobile's preceding wheel, back lift portion 12 can be used for lifting electric automobile's rear wheel, lifting device 1 and battery turnover platform 2 within a definite time can be provided with and trade electric passageway 13, trade electric passageway 13's one end and extend to between front lift portion 11 and the back lift portion 12, trade electric passageway 13's the other end and extend to battery turnover platform 2 below, trade electric mobile device 4 and be suitable for and remove in trading electric passageway 13. Wherein, in the direction of height of replacing electric system 100, preceding lift portion 11 can be used for holding up electric automobile's front end, and back lift portion 12 can be used for holding up electric automobile's rear end, and through preceding lift portion 11 and the cooperation of back lift portion 12, preceding lift portion 11 and back lift portion 12 can rise simultaneously or descend, and preceding lift portion 11 and back lift portion 12 can be with electric automobile in vertical direction lifting or descending.
Moreover, the battery replacement channel 13 may be disposed between the front lifting part 11 and the rear lifting part 12, the traveling rail 5 may be disposed in the battery replacement channel 13, the battery replacement moving device 4 may be disposed on the traveling rail 5, and the battery replacement moving device 4 may move along the traveling rail 5. The front lifting and lowering section 11 and the rear lifting and lowering section 12 can be respectively retracted from the battery replacement moving device 4 to avoid collision of the battery replacement moving device 4 with the front lifting and lowering section 11 and the rear lifting and lowering section 12, and also to avoid collision of a power battery carried on the battery replacement moving device 4 with the front lifting and lowering section 11 and the rear lifting and lowering section 12. The battery replacement mobile device 4 can extend into the space between the front lifting part 11 and the rear lifting part 12 along the traveling rail 5, at this time, the electric vehicle is located right above the battery replacement mobile device 4, and the battery replacement mobile device 4 can replace the battery for the vehicle.
Meanwhile, the other end of the battery replacing channel 13 extends to the lower side of the battery turnover platform 2, the battery replacing mobile device 4 can move to the lower side of the battery turnover platform 2 along the walking track 5, the battery replacing mobile device 4 can exchange batteries with the battery turnover platform 2 below the battery turnover platform 2, the fed batteries can be exchanged to the battery turnover platform 2 from the battery replacing mobile device 4, and the fully charged batteries can be exchanged to the battery replacing mobile device 4 from the battery turnover platform 2. The battery replacing mobile device 4 is arranged between the battery turnover platform 2 and the lifting device 1, and the working effect that the electric automobile and the battery turnover platform 2 exchange power batteries can be achieved.
Further, as shown in fig. 1 and 6, the front lifting portion 11 may be provided with a front centering and clamping mechanism 14, the rear lifting portion 12 may be provided with a rear centering and clamping mechanism 15, the front centering and clamping mechanism 14 may be used for clamping a front wheel, the rear centering and clamping mechanism 15 may be used for clamping a rear wheel, and the electric vehicle is aligned in the traveling direction of the electric vehicle by the cooperation of the front centering and clamping mechanism 14 and the rear centering and clamping mechanism 15. The front centering and clamping mechanism 14 comprises two first clamping mechanisms 16, the two first clamping mechanisms 16 are respectively used for clamping two front wheels, the rear centering and clamping mechanism 15 comprises two second clamping mechanisms 17, and the two second clamping mechanisms 17 are respectively used for clamping two rear wheels.
The lifting device 1 may further include a PLC control system (Programmable Logic Controller), the PLC control system is configured to receive vehicle type information of the vehicle sent by the station side control system and control the lifting device 1 to perform an adapting operation according to the vehicle type information, so that the front lifting part 11 and the rear lifting part 12 adapt to a wheel base of the vehicle, the first clamping mechanism 16 and the second clamping mechanism 17 adapt to a wheel base of the vehicle, and the battery swapping system 100 may continue to perform a battery swapping operation after the adapting operation is completed.
Specifically, after the front lifting part 11 and the rear lifting part 12 finish adapting the wheel base of the vehicle, the vehicle enters the parking space and stops on the front lifting part 11 and the rear lifting part 12, wherein the front wheels of the vehicle are located on the first clamping mechanism 16, and the rear wheels of the vehicle are located on the second clamping mechanism 17. The PLC control system controls to obtain stroke information of the centering clamping motor according to wheel track information of the vehicle, and then generates a control signal according to the stroke information of the centering clamping motor and sends the control signal to the centering clamping motor, the centering clamping motor controls the transmission device according to the control signal so as to drive the front centering clamping mechanism 14 to clamp two front wheels of the current vehicle and drive the rear centering clamping mechanism 15 to clamp two rear wheels of the current vehicle, namely, the distance between the two first clamping mechanisms 16 and the distance between the two second clamping mechanisms 17 are matched with the wheel track of the current vehicle. After the first clamping mechanism 16 and the second clamping mechanism 17 clamp the vehicle in the middle, the power battery on the electric vehicle may be located right above the battery replacement mobile device 4, so that the battery replacement mobile device 4 can disassemble and assemble the battery.
In some embodiments of the present invention, as shown in fig. 1 to 5, the battery swapping moving device 4 may further include: a walking frame 41, a floating platform 42, an X-direction moving platform 43, an adjusting platform 44 and a side pushing platform 45. The floating platform 42 is floatably disposed on the traveling frame 41 in a horizontal plane, the X-direction moving platform 43 may be disposed above the floating platform 42 and movable in a traveling direction of the electric vehicle, the adjusting platform 44 may be disposed above the X-direction moving platform 43, and the adjusting platform 44 may be movable in a width direction of the electric vehicle to change a width dimension of the adjusting platform 44.
The floating platform 42 is provided on the traveling frame 41, and the floating platform 42 is floatable with respect to the traveling frame 41 in the horizontal direction, and the floating platform 42 is parallel to the horizontal plane when floating, and an X-direction moving platform 43 is provided above the floating platform 42, and the X-direction moving platform 43 is movable in the traveling direction of the electric vehicle, and an adjusting platform 44 is provided above the X-direction moving platform 43, and the adjusting platform 44 is movable in the width direction of the electric vehicle, and the width dimension of the adjusting platform 44 can be changed when the adjusting platform 44 is moved in the width direction of the electric vehicle.
The side-push platform 45 can be arranged above the adjusting platform 44 and connected with both the adjusting platform 44 and the X-direction moving platform 43, the adjusting platform 44 is suitable for driving the side-push platform 45 to move in the width direction of the electric vehicle so as to change the width dimension of the side-push platform 45, and the X-direction moving platform 43 is suitable for driving the side-push platform 45 to move in the driving direction of the electric vehicle. Battery placement platform 46 sets up in the top of side push platform 45 and is connected with side push platform 45, and battery placement platform 46 includes a plurality of sub battery tray 47, and side push platform 45 is suitable for driving a plurality of sub battery tray 47 and removes in electric automobile's width direction and/or the direction of traveling.
It should be explained that a side push platform 45 is arranged above the adjusting platform 44, the side push platform 45 is connected with the adjusting platform 44, the side push platform 45 is also connected with the X-direction moving platform 43, the adjusting platform 44 can drive the side push platform 45 to move in the width direction of the electric vehicle, the width dimension of the side push platform 45 can be changed when the side push platform 45 moves in the width direction of the electric vehicle, and the side push platform 45 can move in the driving direction of the electric vehicle under the driving of the X-direction moving platform 43.
A battery place the platform 46 setting for placing power battery pushes away the top of platform 45 in the side to, battery place the platform 46 with push away the platform 45 with the side and be connected the setting, the side pushes away the platform 45 when electric automobile's width direction and the direction of travel remove, can drive battery place the platform 46 and remove at electric automobile's width direction and the direction of travel.
Wherein, when the electric automobile needs to change the power battery, trade electric mobile device 4 and can change the power battery for electric automobile, optionally, trade electric mobile device 4 can include: a battery placing platform 46, a side pushing platform 45, an adjusting platform 44, an X-direction moving platform 43 and a floating platform 42. Further, the battery placement platform 46, the side-pushing platform 45, the adjustment platform 44, the X-direction moving platform 43, and the floating platform 42 may be stacked in this order in the height direction of the battery replacement moving device 4.
Trade electric mobile device 4 can set up in trading electric passageway 13, trades electric mobile device 4 and can move between preceding lift portion 11 and back lift portion 12 and between battery turnover platform 2, and when electric automobile need change power battery, electric automobile can travel to lifting device 1 on, lifting device 1 can adjust electric automobile's terrain clearance so that trade electric mobile device 4 and move to the electric automobile below and change power battery for electric automobile.
It will be appreciated that the size of the power cells varies for different types and models of vehicles and that the location at which the power cells are disposed on the vehicle chassis varies.
In the application, the X-direction moving platform 43 can move in the driving direction of the electric vehicle, and the X-direction moving platform 43 can drive the adjusting platform 44, the side pushing platform 45 and the battery placing platform 46 which are arranged above the X-direction moving platform to move in the driving direction of the electric vehicle when moving in the driving direction of the electric vehicle, so that the battery replacing moving device 4 can reliably adapt to the power batteries which are arranged at different positions of the vehicle chassis.
Moreover, the adjusting platform 44 can move in the width direction of the electric vehicle, the adjusting platform 44 can drive the side pushing platform 45 to move in the width direction of the electric vehicle when moving in the width direction of the electric vehicle, and the side pushing platform 45 can drive the battery placing platform 46 to move in the width direction of the electric vehicle when moving in the width direction of the electric vehicle, so that the width sizes of the adjusting platform 44, the side pushing platform 45 and the battery placing platform 46 can be changed, and the battery replacing moving device 4 can be adapted to power batteries with different width sizes.
In addition, the X-direction moving platform 43 can drive the side pushing platform 45 to move in the driving direction of the electric vehicle, and when the side pushing platform 45 moves in the driving direction of the electric vehicle, the battery placing platform 46 can be driven to move in the driving direction of the electric vehicle, so that the battery replacement moving device 4 can be more reliably adapted to power batteries arranged at different positions of a vehicle chassis.
Moreover, when the power battery is placed on the battery placement platform 46, the floating platform 42 can float in the horizontal plane relative to the walking frame 41, wherein the floating platform 42 floats to adapt to the position deviation of the power battery on the electric vehicle, when the battery replacement mobile device 4 is connected with the power battery, the battery replacement mobile device 4 is not rigidly connected with the power battery, so that the damage of the power battery caused by the violent impact between the power battery and the battery replacement mobile device 4 can be avoided, and the service life of the power battery can be prolonged.
Therefore, the traveling frame 41, the floating platform 42, the X-direction moving platform 43, the adjusting platform 44, the side pushing platform 45 and the battery placing platform 46 are matched, so that the battery replacing moving device 4 can be adapted to power batteries with different width sizes, and the battery replacing moving device 4 can be reliably adapted to power batteries arranged at different positions of a vehicle chassis, so that the battery replacing moving device 4 can be adapted to various vehicles, the working reliability of the battery replacing moving device 4 can be ensured, and the application range of the battery replacing moving device 4 can be enlarged.
As some embodiments of the present invention, the lower surface of the plurality of sub-battery trays 47 may be provided with mounting grooves. It should be noted that a plurality of sub-side pushing platforms 48 may be disposed below the plurality of sub-battery trays 47, in the height direction of the battery swapping moving device 4, the plurality of sub-side pushing platforms 48 may be disposed in one-to-one correspondence with the plurality of sub-battery trays 47, and each of the plurality of sub-side pushing platforms 48 may be disposed with a Z-direction floating assembly 410, one end of the Z-direction floating assembly 410 close to the mounting groove may be disposed in the mounting groove, and the Z-direction floating assembly 410 may enable the battery placing platform 46 to float in the height direction of the battery swapping moving device 4.
Optionally, the number of the mounting grooves 114 may be set to be plural, the number of the mounting grooves provided on the lower surfaces of the plurality of sub-battery trays 47 may be the same, the positions of the mounting grooves provided on the lower surfaces of the plurality of sub-battery trays 47 may be the same or approximately the same, the number of the Z-direction floating assemblies 410 may also be set to be plural, the plurality of Z-direction floating assemblies 410 may be provided in one-to-one correspondence with the plurality of mounting grooves, the mounting grooves may guide the Z-direction floating assemblies 410, and it may be ensured that the axis of the Z-direction floating assemblies 410 is perpendicular to the horizontal plane, thereby it may be ensured that the Z-direction floating assemblies 410 can reliably make the battery placement platform 46 float in the height direction of the battery replacement moving device 4. The arrangement can buffer the power battery in the height direction of the battery replacing mobile device 4, and can avoid the damage of the power battery caused by the violent impact between the power battery and the battery tray, thereby ensuring the working reliability of the battery replacing mobile device 4.
In addition, through setting up a plurality of mounting grooves and a plurality of Z to unsteady subassembly 410, can guarantee that a plurality of sub battery tray 47's upper surface all is parallel with the horizontal plane to can guarantee placing on a plurality of sub battery tray 47 that power battery can be steady, can avoid power battery landing on a plurality of sub battery tray 47.
The utility model discloses an in some embodiments, at least one sub battery tray 47 in a plurality of sub battery trays 47 can be provided with the detection piece, and the detection piece can be used for detecting whether to place power battery on the battery tray. It should explain that, the detection piece can be connected with the industrial computer communication, and the industrial computer can be used for controlling and trade electric mobile device 4, and whether power battery has been placed on the detection piece can detecting the battery tray to, whether the detection piece can place power battery's information transfer for the industrial computer on the battery tray, so set up and to place power battery on the battery tray and detect, can avoid the maloperation and lead to trading electric mobile device 4 and damage.
Optionally, both ends all can be provided with the detection piece around a plurality of sub battery tray 47, and whether set up like this and can guarantee that the detection piece can accurately detect and place power battery on the battery tray, can guarantee that whether the detection piece detects the accuracy that whether place power battery on the battery tray.
In some embodiments of the present invention, at least one of the sub-side pushing platforms 48 of the plurality of sub-side pushing platforms 4821 may be provided with a positioning fork 411, and the positioning fork 411 may be positioned in cooperation with the positioning block of the power battery.
It should be noted that, a positioning fork 411 may be disposed on the sub-side pushing platform 48, one end of the positioning fork 411 may be connected to the sub-side pushing platform 48, the other end of the positioning fork 411 may be extended toward a direction away from the sub-side pushing platform 48, and one end of the positioning fork 411 away from the sub-side pushing platform 48 may define a "U" shaped slot.
Can be provided with the locating piece on the power battery, the location of trading electric mobile device 4 and power battery can be realized in order to realize with power battery's locating piece cooperation in the "U" shape groove of location fork 411 to, when side pushes away platform 45 and removes in electric automobile's the direction of travel, location fork 411 can drive power battery and remove in electric automobile's the direction of travel, in order to guarantee that power battery can follow side and push away platform 45 and remove in electric automobile's the direction of travel.
Optionally, each sub-side pushing platform 48 may be provided with a Z-directional floating assembly 410, and the Z-directional floating assembly 410 may be connected between the sub-side pushing platform 48 and the battery placing platform 46 to make the battery placing platform 46 float in the height direction of the battery replacing mobile device 4.
It should be noted that a plurality of Z-directional floating assemblies 410 may be disposed on each sub-lateral pushing platform 48, and the plurality of Z-directional floating assemblies 410 may be connected between the sub-lateral pushing platform 48 and the battery placing platform 46, and specifically, the plurality of Z-directional floating assemblies 410 may be connected between the sub-lateral pushing platform 48 and the sub-battery tray 47 above the sub-lateral pushing platform 48.
Further, a plurality of Z to the floating assembly 410 keep away from the one end that sub-side pushed platform 48 can set up in the mounting groove of a plurality of sub-battery tray 47's lower surface, so set up and to make Z to the reliable connection of floating assembly 410 between sub-side pushed platform 48 and battery placement platform 46, thereby can realize that battery placement platform 46 floats in the direction of height that trades electric mobile device 4's effect, when power battery places on battery placement platform 46, because Z to the floating effect of floating assembly 410, can play the cushioning effect to power battery in the direction of height that trades electric mobile device 4, can avoid causing power battery to damage because of power battery and battery tray take place fiercely the striking, thereby can guarantee to trade electric mobile device 4's operational reliability.
In addition, by providing a plurality of Z-direction floating assemblies 410, it is also possible to ensure that the battery placement platform 46 can be closely attached to the power battery.
Optionally, the Z-direction floating assembly 410 may include: the sub side pushing platform 48 may be provided with a guide groove, the guide may pass through a bottom wall of the guide groove to be connected with the battery placing platform 46, and the spring may be disposed in the guide groove and sleeved outside the guide. It should be noted that the end of the guide slot near the battery placement platform 46 may be open, the guide member may be disposed through the bottom wall of the guide slot, and the end of the guide member that passes through the bottom wall of the guide slot (i.e., the end of the guide member near the battery placement platform 46) may be connected to the battery placement platform 46.
Alternatively, the guide may be configured as a guide bolt, one end of the guide near the battery placement platform 46 may be provided with an external thread, the guide may be screwed with the battery placement platform 46, the spring may be disposed in the guide groove, and the spring may be sleeved outside the guide, one end of the spring may be in contact with an inner surface of the bottom wall of the guide groove, and the other end of the spring may be in contact with the battery placement platform 46. The spring can compress or extend between battery placement platform 46 and side push platform 45 to realize that battery placement platform 46 is trading electric mobile device 4 direction of height's floating effect, the guide can play the guide effect to the compression direction or the direction of extension of spring, thereby can guarantee that the spring can be trading electric mobile device 4 direction of height compression or extension.
Specifically, when the power battery is placed on the battery placing platform 46, the spring can be compressed to buffer the power battery in the height direction of the battery replacing mobile device 4, so that the requirement of elastic contact when the battery replacing mobile device 4 is in contact with the power battery can be met.
Alternatively, the end of the guide member remote from the battery placement platform 46 may be provided with a stopper portion adapted to abut against the outer surface of the bottom wall of the guide groove. It should be explained that, the guide can be provided with spacing portion, and spacing portion can set up the tip of keeping away from battery place the platform 46 at the guide, and the one end that is close to the guide way of spacing portion can end the butt with the surface of the diapire of guide way and touch, sets up like this and can restrict the floating distance of battery place the platform 46 in the direction of height that trades electric mobile device 4, can make battery place the platform 46 float at reasonable within range.
Further, the adjustment platform 44 according to the embodiment of the present invention includes: a plurality of sub-adjustment stages 417. The sub adjustment platforms 417 are sequentially arranged in the width direction of the electric vehicle, which may be the left-right direction in fig. 1. At least one sub-adjustment platform 417 of the sub-adjustment platforms 417 moves in the width direction of the electric vehicle to drive the side push platform 45 to move.
It should be noted that the plurality of sub-adjustment platforms 417 are sequentially arranged, and at least one of the sub-adjustment platforms 417 is movable, and when the at least one sub-adjustment platform 417 moves, the side push platform 45 can be driven to move, so that the side push platform 45 is adapted to power batteries with different width sizes.
Alternatively, each of the sub-adjustment platforms 41731 can move to drive the lateral push platform 4520 to move, so that the lateral push platform 4520 can adapt to power batteries with different width dimensions. It should be understood that, in the height direction of the battery replacing mobile device 4, a battery placing platform 46 may be connected above the side pushing platform 45, the battery placing platform 46 may include a battery tray, the battery tray may include a plurality of sub-battery trays 47, and when the side pushing platform 45 moves, the side pushing platform 45 may drive the battery tray to move, so that the battery tray is adapted to power batteries with different width sizes.
In the height direction of the battery replacing mobile device 4, the adjusting platform 44 is located below the side pushing platform 45, and the adjusting platform 44 is connected with the side pushing platform 45.
The battery tray may include a plurality of sub-battery trays 47, the side push platform 45 may include a plurality of sub-side push platforms 48, the number of the plurality of sub-battery trays 47, the number of the plurality of sub-side push platforms 48, and the number of the plurality of sub-adjustment platforms 417 are the same, and, in the height direction of the battery replacing mobile device 4, the plurality of sub-battery trays 47, the plurality of sub-side push platforms 48, and the plurality of sub-adjustment platforms 417 are arranged in a one-to-one correspondence, each sub-side push platform 48 may be connected to its corresponding sub-battery tray 47, and each sub-adjustment platform 417 may be connected to its corresponding sub-side push platform 48.
In the present application, the adjustment platform 44 includes a plurality of sub adjustment platforms 417, and at least one sub adjustment platform 417 in the plurality of sub adjustment platforms 417 is movable in a width direction of the electric vehicle to drive at least one sub side pushing platform 48 to move in the width direction of the electric vehicle.
The at least one sub-adjusting platform 417 drives the at least one sub-side pushing platform 48 to move in the width direction of the electric vehicle, the at least one sub-battery tray 47 can be driven to move in the width direction of the electric vehicle, the plurality of sub-adjusting platforms 417, the plurality of sub-side pushing platforms 48 and the plurality of sub-battery trays 47 are aligned with the power battery, and therefore the battery replacing mobile device 4 can be adapted to the power batteries with different width sizes, the battery replacing mobile device 4 can replace the power batteries of vehicles with different types and different models, and the application range of the battery replacing mobile device 4 can be widened.
Alternatively, the adjusting platform 44 may include two sub-adjusting platforms 417, the side-pushing platform 45 may include two sub-side-pushing platforms 48, the battery tray may include two sub-battery trays 47, and in the height direction of the battery replacement moving device 4, the two sub-adjusting platforms 417, the two sub-side-pushing platforms 48, and the two sub-battery trays 47 are correspondingly disposed, wherein one sub-adjusting platform 417 may move in the width direction of the electric vehicle, or both of the two sub-adjusting platforms 417 may move in the width direction of the electric vehicle.
When the sub-adjustment platform 417 moves, the sub-side pushing platform 48 and the sub-battery tray 47 which are correspondingly arranged with the sub-adjustment platform 417 can be driven to move, and when the power battery replacing mobile device 4 is an electric vehicle to replace a power battery, one or two sub-adjustment platforms 417 in the two sub-adjustment platforms 417 can move in the width direction of the electric vehicle to drive one or two sub-side pushing platforms 48 and one or two sub-battery trays 47 to move in the width direction of the electric vehicle, so that the power battery replacing mobile device 4 can be adapted to the width size of the power battery to be replaced.
From this, through the adjustment platform 44 of this application, can drive side and push away platform 45 and remove to make side push away platform 45 can adapt to the power battery of different width sizes, thereby can make and trade electric mobile device 4 and can change the power battery of different width sizes, can improve the application scope who trades electric mobile device 4.
Optionally, each sub-adjustment platform 417 may be provided with a first positioning element 418, and the first positioning element 418 may be in positioning fit with a second positioning element on the electric vehicle, so as to achieve positioning between the battery replacing mobile device 4 and the electric vehicle. It should be noted that one end of the first positioning member 418 may be connected to the sub adjustment platform 417, the other end of the first positioning member 418 may be extended toward a direction away from the sub adjustment platform 417, and one end of the first positioning member 418 away from the sub adjustment platform 417 may define a positioning groove.
Can be provided with the second setting element on the electric automobile, the constant head tank of first setting element 418 can cooperate with electric automobile's second setting element to realize trading the location between electric mobile device 4 and the electric automobile, set up like this and can guarantee to trade electric mobile device 4 and can carry out the accurate positioning with electric automobile, can guarantee to trade electric mobile device 4 and can be reliable for electric automobile changes power battery.
According to the utility model discloses an in some embodiments, every sub-adjustment platform 417 all can be provided with battery unlocking fork 419, and battery unlocking fork 419 can be used to lock or the unblock to the power battery on the electric automobile. It should be explained that when the battery replacement moving device 4 replaces a power battery for an electric vehicle, the battery unlocking fork 419 may unlock the power battery on the electric vehicle to detach the power battery from the electric vehicle, or the battery unlocking fork 419 may lock the power battery on the electric vehicle to mount the power battery on the electric vehicle.
According to some embodiments of the present invention, each sub-adjustment platform 417 may be provided with a battery lifting block 420, and the battery lifting block 420 may be used to lift a power battery.
It should be noted that, when the number of the sub-adjustment platforms 417 is two, the number of the battery lifting blocks 420 may be two, the two battery lifting blocks 420 may be respectively disposed on the two sub-adjustment platforms 417, both the two battery lifting blocks 420 may be used for lifting the power battery, specifically, both the two battery lifting blocks 420 may be used for lifting the rear portion of the power battery, and the arrangement may make the setting position of the battery lifting blocks 420 reasonable, and may ensure that the battery lifting blocks 420 can reliably lift the power battery.
Optionally, the battery lifting block 420 may be disposed on the sub-adjustment platform 417 by using a connector such as a bolt, a screw, or a rivet, or the battery lifting block 420 may be disposed on the sub-adjustment platform 417 by welding, so that the connection between the battery lifting block 420 and the sub-adjustment platform 417 can be improved.
The utility model discloses X is connected with adjustment platform 44 to moving platform 43, and X includes to moving platform 43: a stage body 421, a Y-direction movement driving device 422, and an X-direction movement driving device 423.
The platform body 421 is slidably disposed on the floating platform 42 in the driving direction of the electric vehicle, the Y-direction movement driving device 422 is disposed on the upper surface of the platform body 421, the Y-direction movement driving device 422 is connected to the sub-adjustment platform 417 of the adjustment platform 44, and the Y-direction movement driving device 422 drives the sub-adjustment platform 417 to move in the width direction of the electric vehicle, so that the adjustment platform 44 is adapted to power batteries with different width sizes.
The platform body 421 is slidable on the floating platform 42 in the traveling direction of the electric vehicle. In the height direction of the power exchanging moving device 4 (i.e., the vertical direction shown in fig. 1), the adjusting platform 44 is disposed above the X-direction moving platform 43, the Y-direction moving driving device 422 is connected to the sub-adjusting platform 417 of the adjusting platform 44, and the Y-direction moving driving device 422 can drive the sub-adjusting platform 417 to move in the left-right direction shown in fig. 1, so that the adjusting platform 44 is adapted to power batteries with different width sizes, where the left-right direction shown in fig. 1 is the width direction of the electric vehicle, i.e., the Y-direction.
The X-direction moving driving device 423 is disposed on the upper surface of the platform body 421 and connected to the sub-side pushing platform 48 of the side pushing platform 45, and the X-direction moving driving device 423 is used for driving the sub-side pushing platform 48 to move in the traveling direction of the electric vehicle.
It should be noted that, in the height direction of the battery replacement moving device 4, the side push platform 45 is disposed above the X-direction moving platform 43, and the X-direction movement driving device 423 can drive the sub side push platform 48 of the side push platform 45 to move, so that the sub side push platform 48 moves in the traveling direction of the electric vehicle, and the front-back direction shown in fig. 1 is the traveling direction of the electric vehicle, i.e., the X direction.
In the present application, when the platform body 421 moves in the front-back direction shown in fig. 1, the battery placing platform 46, the side pushing platform 45 and the adjusting platform 44 which are arranged above the X-direction moving platform 43 can be driven to move in the front-back direction shown in fig. 1, so that the battery replacing moving device 4 can be adapted to power batteries which are arranged at different positions of the chassis of the vehicle, and power can be provided for the movement of the battery unlocking fork 419.
The Y-direction movement driving device 422 can drive the sub-adjustment platform 417 of the adjustment platform 44 to move in the width direction of the electric vehicle, a sub-side pushing platform 48 can be disposed above the sub-adjustment platform 417, and a sub-battery tray 47 can be disposed above the sub-side pushing platform 48, so that when the sub-adjustment platform 417 moves in the width direction of the electric vehicle, the sub-side pushing platform 48 and the sub-battery tray 47 disposed above the sub-adjustment platform 417 can be driven to move in the width direction of the electric vehicle, so that the battery replacement moving device 4 can reliably adapt to power batteries with different width dimensions.
The X-direction moving driving device 423 can drive the side pushing platform 45 to move in the driving direction of the electric vehicle, the battery placing platform 46 can be arranged above the side pushing platform 45, and when the side pushing platform 45 moves in the driving direction of the electric vehicle, the battery placing platform 46 arranged above the side pushing platform 45 can be driven to move in the driving direction of the electric vehicle, so that the battery replacing moving device 4 can reliably replace power batteries with different width sizes. Therefore, the battery replacing mobile device 4 can be adaptive to power batteries with different width sizes, the battery replacing mobile device 4 can be adaptive to power batteries arranged at different positions of a vehicle chassis, and the application range of the battery replacing mobile device 4 can be widened.
Therefore, through the X-direction moving platform 43 of the present application, the driving sub adjustment platform 417 can be reliably moved in the width direction of the electric vehicle, and the driving side push platform 45 can also be reliably moved in the traveling direction of the electric vehicle, so that the battery replacing moving device 4 can be reliably adapted to power batteries with different width sizes, the power batteries with different width sizes can be replaced, and the application range of the battery replacing moving device 4 can be further improved.
Alternatively, the battery placing platform 46 may include a plurality of sub battery trays 47, the side pushing platform 45 may include a plurality of sub side pushing platforms 48, the adjusting platform 44 may include a plurality of sub adjusting platforms 417, and the number of the sub battery trays 47, the sub side pushing platforms 48, and the sub adjusting platforms 417 is the same, and the plurality of battery trays, the plurality of sub side pushing platforms 48, and the plurality of sub adjusting platforms 417 may be correspondingly arranged in the height direction of the power exchanging mobile device 4. The number of the Y-direction moving driving devices 422 may be the same as the number of the sub-adjustment platforms 417, the plurality of Y-direction moving driving devices 422 may be disposed in one-to-one correspondence with the plurality of sub-adjustment platforms 417, and the plurality of Y-direction moving driving devices 422 may respectively drive the plurality of sub-adjustment platforms 417 to move in the width direction of the electric vehicle, so that the plurality of sub-adjustment platforms 417 may be reliably driven to move in the width direction of the electric vehicle, and the battery replacement moving device 4 may reliably adapt to power batteries with different width sizes.
According to the utility model discloses in some embodiments, trade electric mobile device 4 can also include: the Y-guide 424 and the Y-guide 424 may be connected between the platform body 421 and the sub-adjustment platform 417 of the adjustment platform 44, and the Y-guide 424 may be used to guide the movement of the sub-adjustment platform 417 in the width direction of the electric vehicle.
It should be noted that the Y-guide 424 may be disposed on the platform body 421, and the Y-guide 424 is disposed in connection with the sub-adjustment platform 417 of the adjustment platform 44, and when the Y-movement driving device 422 drives the sub-adjustment platform 417 to move in the width direction of the electric vehicle, the Y-guide 424 may guide the movement of the sub-adjustment platform 417, so that the sub-adjustment platform 417 can accurately move in the width direction of the electric vehicle. The arrangement can ensure that the sub-adjustment platform 417 can move accurately in the width direction of the electric vehicle, so that the sub-adjustment platform 417 can move accurately and reliably in the width direction of the electric vehicle.
Alternatively, the number of the Y-direction guide members 424 may be plural, and a plurality of the Y-direction guide members 424 may be disposed on the platform body 421, so that the movement of the sub-adjustment platform 417 can be more reliably guided.
As some embodiments of the present invention, the Y-direction guide component 424 may include: a first guide member and a second guide member slidably disposed on the first guide member, the second guide member being connectable with the adjustment platform 44.
It should be explained that the first guiding element may be disposed on the platform body 421 by a connecting element such as a bolt, a screw, a rivet, etc., or the first guiding element may be disposed on the platform body 421 by welding, and the first guiding element may be disposed to extend in a width direction of the electric vehicle, and alternatively, the first guiding element may be configured as a sliding rail.
The second guide may be disposed on the first guide, and the second guide may slide on the first guide along an extending direction of the first guide, and the second guide may be disposed in connection with the sub adjustment platform 417, specifically, the lower surface of the sub adjustment platform 417 may be provided with a second guide mating portion, and the second guide may be disposed in connection with the second guide mating portion, optionally, the second guide may be configured as a slider, optionally, the second guide may be configured as a plurality of sliders, and the number of the second guide is the same as the number of the second guide mating portions, such that the second guide may guide the sub adjustment platform 417, and the sub adjustment platform 417 may be precisely and smoothly moved in a width direction of the electric vehicle.
The utility model discloses floating platform 42 includes: a floating body 425 and a moving platform drive. The floating body 425 is floatably disposed on the traveling frame 41 in a horizontal plane, and the moving platform driving device is disposed on the floating body 425, and is connected to the X-direction moving platform 43, and is configured to drive the X-direction moving platform 43 to move in a traveling direction of the electric vehicle.
The floating body 425 is provided on the traveling frame 41 of the power exchange movement device 4, and the floating body 425 is floatable with respect to the traveling frame 41 in the horizontal direction of the power exchange movement device 4, and the floating body 425 is parallel to the horizontal plane when floating, and the floating body 425 is provided with a movement platform driving device, the X-direction movement platform 43 is provided above the floating platform 42, and the movement platform driving device is connected to the X-direction movement platform 43, and the movement platform driving device can drive the X-direction movement platform 43 to move so that the X-direction movement platform 43 moves in the traveling direction of the electric vehicle.
In the application, the moving platform driving device drives the X to move towards the moving platform 43 in the driving direction of the electric vehicle, and the X can be reliably driven to move towards the moving platform 43 in the driving direction of the electric vehicle, so that the battery replacing moving device 4 can be matched with power batteries arranged at different positions of a vehicle chassis, the battery replacing moving device 4 can reliably replace the power batteries, and the application range of the battery replacing moving device 4 can be widened.
Moreover, when the power battery is placed on the battery placement platform 46, the floating body 425 can float relative to the walking frame 41, and the floating body 425 can keep parallel to the horizontal plane when floating, so that the power battery can be buffered in the horizontal plane of the battery replacement mobile device 4, the damage of the power battery caused by the violent impact between the power battery and the battery replacement mobile device 4 can be avoided, the working reliability of the battery replacement mobile device 4 can be ensured, the distance between the battery replacement mobile device 4 and the vehicle chassis in the height direction can be adjusted, and the working reliability of the battery replacement mobile device 4 can be further ensured.
Therefore, the floating platform 42 can reliably drive the X-direction moving platform 43 to move in the traveling direction of the electric automobile, so that the battery replacement moving device 4 can be reliably adapted to power batteries arranged at different positions of a vehicle chassis, the battery replacement moving device 4 can be reliably used for replacing the power batteries, and the application range of the battery replacement moving device 4 can be widened.
In some embodiments of the present invention, the battery replacing mobile device 4 may further include: x-guide members 427 and 427 may be disposed on an upper surface of the floating body 425, the X-guide members 427 may be connected between the X-moving platform 43 and the floating body 425, and the X-guide members 427 may be used to guide the movement of the X-moving platform 43 in the traveling direction of the electric vehicle.
It should be noted that the X-direction guide assembly 42754 may be disposed on the floating platform 42, and the X-direction guide assembly 427 may be disposed in connection with the X-direction moving platform 43, and when the moving platform driving device drives the X-direction moving platform 43 to move in the driving direction of the electric vehicle, the X-direction guide assembly 427 may guide the movement of the X-direction moving platform 43, so that the X-direction moving platform 43 can accurately move in the driving direction of the electric vehicle. The arrangement can ensure that the direction of the X-direction moving platform 43 moving along the driving direction of the electric automobile is accurate, so that the X-direction moving platform 43 can be ensured to accurately and reliably move along the driving direction of the electric automobile.
In some embodiments of the present invention, the floating block 428 may be provided at the edge of the floating body 425, and the floating block 428 may be connected to the floating block 412 of the traveling frame 41 in a floating manner, so that the floating body 425 may float in the horizontal plane.
It should be explained that the floating body 425 may be provided with floating pull blocks 428, specifically, the floating pull blocks 428 may be provided at the edge of the floating body 425, alternatively, the number of the floating pull blocks 428 may be four, four floating pull blocks 428 may be provided at intervals in the circumferential direction of the floating body 425, the travelling frame 41 may be provided with floating hoist blocks 412, the number of the floating hoist blocks 412 may be the same as the number of the floating pull blocks 428, and, in the height direction of the power swapping movement device 4, a plurality of the floating hoist blocks 412 may be provided in one-to-one correspondence with the plurality of floating pull blocks 428,
the floating pull block 428 can be connected with the floating hoisting block 412 in a floating manner, so that the floating body 425 can float relative to the walking frame 41 in the horizontal direction of the battery replacement mobile device 4, the power battery can be buffered, the power battery can be prevented from being damaged due to violent impact between the power battery and the battery replacement mobile device 4, and the working reliability of the battery replacement mobile device 4 can be ensured.
Optionally, a traveling wheel 311 may be further disposed on the traveling frame 41, and the traveling wheel 311 may roll along the traveling rail 5 of the battery replacing and moving device 4. The battery replacing mobile device 4 can be provided with a traveling rail 5, the traveling rail 5 can extend along the width direction of the vehicle, and the traveling wheel 311 can roll along the traveling rail 5 of the battery replacing mobile device 4, so that the battery replacing mobile device 4 can move along the extending direction of the traveling rail 5.
As some embodiments of the utility model, can also be provided with on the walking frame 41 and pass the power piece, the one end that passes the power piece can be connected the setting with walking frame 41, specifically, the one end that passes the power piece can be connected the setting with the main frame, the other end that passes the power piece can extend the setting towards another main frame, it can be connected with the drive chain transmission to pass the power piece, drive chain can remove along the extending direction of walking track 5 through driving the power piece, move along the extending direction of walking track 5 with the drive trades electric mobile device 4, so set up and can provide power for trading the removal of electric mobile device 4, can guarantee to trade the removal that electric mobile device 4 can be reliable.
In some embodiments of the present invention, as shown in fig. 1 and 8, the battery transfer device 3 may include: a main body frame 31, a first guide mechanism 32, a plurality of second guide mechanisms 33, a battery lifting mechanism 34, and a lifting mechanism driving device 36. Main body frame 31 top is located to first guiding mechanism 32, main body frame 31 bottom is located to a plurality of second guiding mechanism 33, first guiding mechanism 32, second guiding mechanism 33 all is used for leading the removal of battery transfer device 3 in the battery transfer passage, battery hoist mechanism 34 sets up in the cavity that main body frame 31 formed and can be vertical lift of main body frame 31 relatively, battery hoist mechanism 34 is including the two-way telescopic machanism 35 that is used for taking out or placing the power battery who is located battery transfer passage both sides, hoist mechanism drive arrangement 36 drives elevating system 37 and drives battery hoist mechanism 34 and rise and fall in vertical direction.
Wherein, in the left and right directions that fig. 1 shows, battery transfer channel's both sides can be provided with battery turnover platform 2, battery strorage device can arrange one side or both sides at battery transfer channel according to the design demand, can deposit a plurality of power battery in the battery turnover platform 2, a plurality of power battery can be located different heights, get when putting power battery when battery transfer device 3, need adjust battery hoist mechanism 34 to with power battery position assorted height, so that bidirectional scalability mechanism 35 gets the action of putting power battery.
Further, the lifting mechanism driving device 36 can drive the lifting mechanism 37 to move, the lifting mechanism 37 can drive the battery lifting mechanism 34 to move when moving, specifically, the lifting mechanism 37 can drive the battery lifting mechanism 34 to vertically lift in the up-down direction shown in fig. 1, and the battery lifting mechanism 34 can drive the bidirectional telescopic mechanism 35 to ascend or descend when moving, so as to adjust the bidirectional telescopic mechanism 35 to the position matched with the position of the power battery, thereby being convenient for the bidirectional telescopic mechanism 35 to take and place the power battery.
Specifically, in the left-right direction shown in fig. 1, the bidirectional telescopic mechanism 35 can extend out of or retract into two sides of the battery transfer channel, and the bidirectional telescopic mechanism 35 can be matched with the power batteries on two sides of the battery transfer channel to pick and place the power batteries.
In addition, in the vertical direction shown in fig. 1, the first guide mechanism 32 provided above the main body frame 31 and the plurality of second guide mechanisms 33 provided below the main body frame 31 can provide a good guide function for the movement of the battery transfer device 3, and the battery transfer device 3 can be ensured to move in a predetermined direction.
It should be noted that, in the prior art, only one guiding mechanism is disposed below the main body frame 31 of the battery transfer device 3, the battery transfer device 3 of this form has a high requirement on the strength of the top end of the charging bin of the power exchanging station, and the battery transfer device 3 of this form cannot effectively support the main body frame 31, when the bidirectional telescopic mechanism 35 takes and places the power battery, the battery transfer device 3 may not reliably support the power battery, and in addition, the battery transfer device 3 of this form is inconvenient for installing the battery transfer device 3.
And in this application, through setting up a plurality of second guiding mechanism 33, can reduce the requirement of battery transfer device 3 to the storehouse top intensity that charges to, can carry out effectual support to main body frame 31, stability when can promote second guiding mechanism 33, first guiding mechanism 32 and main body frame 31 cooperation. When two-way telescopic machanism 35 gets power battery and puts, can be reliable support power battery, can avoid battery transfer device 3 the slope to appear, the condition of empting even, in addition, through setting up a plurality of second guiding mechanism 33, can reduce battery transfer device 3's the installation degree of difficulty to can be convenient for install battery transfer device 3.
From this, can adjust battery hoist mechanism 34 to the position that is suitable for getting power battery and puts, can improve and trade electric efficiency to, through setting up a plurality of second guiding mechanism 3330, can reduce the requirement of battery transfer device 3100 to the storehouse top intensity that charges, moreover, be convenient for install battery transfer device 3100.
Further, as shown in fig. 1 and 8, an elevating mechanism driving device 36 may be provided on a side surface of the main body frame 31, the elevating mechanism driving device 36 being configured to drive the elevating mechanism 37 to move. It should be explained that the lifting mechanism driving device 36 may be configured as a driving motor, and the lifting mechanism driving device 36 may be disposed on the front surface of the main body frame 31 in the front-back direction shown in fig. 1, or the lifting mechanism driving device 36 may be disposed on the rear surface of the main body frame 31, and the lifting mechanism driving device 36 may drive the lifting mechanism 37 to move, and the lifting mechanism 37 may drive the battery lifting mechanism 34 to move when moving, and specifically, the lifting mechanism 37 may drive the battery lifting mechanism 34 to vertically lift in the up-down direction shown in fig. 1.
The main body frame 31 can play a good bearing role for the lifting mechanism driving device 36, and the lifting mechanism driving device 36 is arranged on the main body frame 31, so that the assembly reliability of the lifting mechanism driving device 36 can be improved, and the phenomenon that the lifting mechanism driving device 36 falls off in the using process can be avoided. Also, by providing the elevating mechanism driving means 36 on the side surface of the main body frame 31, the overall height of the battery transfer device 3 can be reduced, so that it is possible to facilitate the assembly of the battery transfer device 3 in the charging warehouse. In addition, the lifting mechanism driving device 36 does not occupy the space inside the main body frame 31, so that the moving range of the battery lifting mechanism 34 in the main body frame 31 can be reasonably increased, and the battery lifting mechanism 34 can correspond to the power batteries with different heights on the battery storage device.
According to some embodiments of the present invention, the lifting mechanism 37 may include: drive shaft 38, drive gear 39, and driven gear 310. The driving shaft 38 may be in transmission connection with the lifting mechanism driving device 36, the driving gear 39 may be disposed at an end of the driving shaft 38, the main body frame 31 may be provided with a driven gear 310, and a driving chain may be sleeved outside the driving gear 39 and the driven gear 310 and may be connected with the battery lifting mechanism 34.
It should be noted that the lifting mechanism driving device 36 may be configured as a driving motor, the lifting mechanism driving device 36 may have a motor shaft, the motor shaft may be in transmission connection with the driving shaft 38, for example, a coupling may be sleeved between the motor shaft and the driving shaft 38, the motor shaft may drive the driving shaft 38 to rotate when rotating, an end portion of one end of the driving shaft 38 may be provided with a driving gear 39, in the up-down direction shown in fig. 1, a position of the main body frame 31 near the lower end may be provided with a driven gear 310, and the driving gear 39 and the driven gear 310 may be arranged at intervals in the height direction of the main body frame 31, a driving chain may be sleeved outside the driving gear 39 and the driven gear 310, the driving chain may be engaged with the driving gear 39 and the driven gear 310, and the driving chain may be arranged in connection with the battery lifting mechanism 34.
Specifically, one end of the driving chain may be connected to one end of the battery lifting mechanism 34, the other end of the driving chain may be connected to one end of the driving chain after bypassing the driving gear 39 and the driven gear 310, the lifting mechanism driving device 36 may drive the driving shaft 38 to rotate, the driving shaft 38 may drive the driving gear 39 to rotate when rotating, the driving gear 39 may drive the driving chain to move when rotating, the driving chain may drive the driven gear 310 to rotate when moving, and the driving chain may drive the battery lifting mechanism 34 to vertically lift in the up-down direction shown in fig. 1 when moving.
Optionally, the main body frame 31 may be provided with a travelling wheel 311, and the travelling wheel 311 is adapted to roll on the second guide mechanism 33 to move the battery transfer device 3 along the second guide mechanism 33. It should be noted that the travelling wheels 311 may be disposed below the main body frame 31, the number of the travelling wheels 311 may be multiple, and multiple travelling wheels 311 may be disposed corresponding to multiple second guide mechanisms 33.
For example, the number of the traveling wheels 311 may be set to four, the number of the second guide mechanisms 33 may be set to two, every two traveling wheels 311 may be provided corresponding to one second guide mechanism 33, and the two traveling wheels 311 provided corresponding to one second guide mechanism 33 may be provided at intervals in the front-rear direction shown in fig. 1.
When battery transfer device 3 moves along the fore-and-aft direction shown in fig. 1, a plurality of walking wheels 311 can all be in rolling fit with second guiding mechanism 33, and the surface of walking wheels 311 that contacts with second guiding mechanism 33 can adopt the encapsulation design, so set up can make battery transfer device 3 can be level and smooth, smooth and easy move along second guiding mechanism 33, and, can reduce the noise that produces when battery transfer device 3 moves.
Optionally, the battery transfer device 3 may further include: the movement driving device 312, the movement driving device 312 may be used to drive the main body frame 31 to move along the second guiding mechanism 33, that is, the movement driving device 312 may provide power for the movement of the main body frame 31 to move the main body frame 31 along the front-back direction shown in fig. 1.
Alternatively, the movement driving means 312 may include: a drive member 313 and a drive gear 314. Wherein, the driving member 313 may be disposed on the main body frame 31, the driving member 313 may be in transmission connection with the driving gear 314, the second guiding mechanism 33 may be disposed with a driving rack, and the driving gear 314 may be engaged with the driving rack.
It should be noted that the driving member 313 may be a driving motor, the driving member 313 may have a motor shaft, the motor shaft of the driving member 313 may be in transmission connection with the driving gear 314, the driving member 313 may drive the driving gear 314 to rotate through the motor shaft, and the second guiding mechanism 33 may be provided with a driving rack engaged with the driving gear 314, when the driving member 313 drives the driving gear 314 to rotate, the driving gear 314 may be in transmission engagement with the driving rack, and the driving gear 314 may move along the extending direction of the driving rack to drive the main body frame 31 to move along the extending direction of the driving rack.
It will be appreciated that the drive rack extends in the same direction as the second guide means 33.
In some embodiments of the present invention, as shown in fig. 1 and 7, the battery turnover platform 2 may include: a platform frame 21 and a lifting mechanism 22. Lift mechanism 22 sets up on platform frame 21, and lift mechanism 22 includes lift slide rail 23 and support lift subassembly 24, and support lift subassembly 24 includes: trade battery support and lift structure 25 and feed battery support and lift structure 26, feed battery support lifts structure 26 and sets up in the top of trading battery support and lifts structure 25 and feed battery support lifts structure 26 and trade battery support and lifts structure 25 and can follow vertical removal on lift slide rail 23 respectively, feed battery support lifts structure 26 and is suitable for will trade the power battery on electric mobile device 4 and lift, battery transfer device 3 is suitable for putting power battery in trading battery support and lifts structure 25 and take away the power battery on feed battery support and lift structure 26, trade battery support and lift structure 25 and be suitable for putting the power battery on it in trading electric mobile device 4.
Wherein, battery package turnover platform is applicable to and trades electric system 100 and in order to provide the transportation buffer memory for power battery when electric automobile changes power battery to avoid trading direct mutual power battery between electric mobile device 4 and the battery turnover platform 2, with the transportation efficiency that has improved power battery, and then improved the electric efficiency that trades of trading the power station.
A lifting mechanism 22 is arranged on the platform frame 21, the lifting mechanism 22 being adapted to lift the battery pack so that the power battery can be moved and transported on the platform frame 21. Further, support and lift subassembly 24 and install on lift slide 23 and can be along vertical movement on lift slide 23, lift slide 23 can play the effect of direction to support and lift subassembly 24 in vertical movement process to can make support and lift subassembly 24's vertical movement process more stable.
Further, the battery pack may be transported on the battery transfer platform 2 in such a way that the vertical height of the feeding battery supporting and lifting structure 26 is located at the battery placing platform 46 of the battery replacing mobile device 4 and can move upward to lift the feeding battery pack on the battery placing platform 46, and the feeding battery pack is supported and lifted to move upward. After the supporting and lifting assembly 24 lifts the fed battery pack, the battery transfer device 3 can be allowed to place the fully charged battery pack on the battery replacement supporting and lifting structure 25, and support and lift the fed battery pack and the fully charged battery pack to move downwards together. After the support and lift assembly 24 has moved down a distance, the battery replacement support and lift structure 25 can place a fully charged battery pack on the battery placement platform 46 while allowing the battery transfer device 3 to remove the charged battery pack from the charged battery support and lift structure 26.
In some embodiments of the present invention, the non-synchronous motion state and the synchronous motion state can be between the feeding battery supporting and lifting structure 26 and the battery replacing supporting and lifting structure 25, under the synchronous motion state, the vertical distance between the feeding battery supporting and lifting structure 26 and the battery replacing supporting and lifting structure 25 can be kept relatively unchanged, and under the non-synchronous motion state, the vertical distance between the feeding battery supporting and lifting structure 26 and the battery replacing supporting and lifting structure 25 can be gradually reduced or gradually increased. Specifically, the lifting mechanism 22 may further include: and the connecting structure is connected between the battery replacing battery supporting and lifting structure 25 and the feed battery supporting and lifting structure 26.
The connection structure is configured to allow the feed battery support lifting structure 26 to move relative to the battery replacement support lifting structure 25 when the feed battery support lifting structure 26 does not reach a specified position, at this time, the feed battery support lifting structure 26 and the battery replacement support lifting structure 25 are in a non-synchronous motion state, and when the feed battery support lifting structure 26 reaches the specified position, the feed battery support lifting structure 26 can pull the battery replacement support lifting structure 25 to move synchronously through the connection structure, and at this time, the feed battery support lifting structure 26 and the battery replacement support lifting structure 25 are in a synchronous motion state. The designated position may be the farthest distance between the feeding battery support lifting structure 26 and the battery replacement support lifting structure 25 that the feeding battery support lifting structure 26 can move up to the connection structure.
Further, since the feeding battery supporting and lifting structure 26 can move relative to the replacing battery supporting and lifting structure 25, that is, the space between the feeding battery supporting and lifting structure 26 and the replacing battery supporting and lifting structure 25 can be compressed, the space occupied by the supporting and lifting assembly 24 on the battery turnover platform 2 when the supporting and lifting assembly 24 is located at the lowest position is smaller. Therefore, the arrangement of the battery turnover platform 2 is convenient, and the overall height of the battery replacement mobile device 4 can be reduced.
In some embodiments of the present invention, the supporting and lifting assembly 24 may have a lowest position, a highest position and an intermediate position, when the supporting and lifting assembly 24 is located at the lowest position, the vertical height of the feeding battery supporting and lifting structure 26 is located at the battery placing platform 46 and can move upward to lift the power battery on the battery placing platform 46, when the supporting and lifting assembly 24 is located at the highest position, the battery transfer device 3 can be allowed to place the power battery on the battery replacing supporting and lifting structure 25, when the supporting and lifting assembly 24 is located at the intermediate position, the battery replacing supporting and lifting structure 25 can place the power battery on the battery placing platform 46, and simultaneously, the battery transferring device 3 can be allowed to take away the power battery on the feeding battery supporting and lifting structure 26.
Wherein the feed battery support and lift structure 26 and the swap battery support and lift structure 25 are switched from a non-synchronous motion state to a synchronous motion state during movement of the support and lift assembly 24 from the lowermost position to the uppermost position. Specifically, the feed battery supporting and lifting structure 26 moves upward to a specified position in the asynchronous motion state and then is switched to the synchronous motion state, and the battery replacement supporting and lifting structure 25 starts to move synchronously with the feed battery supporting and lifting structure 26. During the movement of the supporting and lifting assembly 24 from the intermediate position to the lowest position, and after the battery replacement supporting and lifting structure 25 reaches the lowest position, the feeding battery supporting and lifting structure 26 and the battery replacement supporting and lifting structure 25 are switched back to the asynchronous movement state from the synchronous movement state. Specifically, when the feeding battery supporting and lifting structure 26 moves downward to a designated position, the battery replacement supporting and lifting structure 25 is switched from the synchronous motion state along with the feeding battery supporting and lifting structure 26 to the asynchronous motion state.
Further, the battery pack may be transported on the battery transferring platform 2 in such a way that, when the supporting and lifting assembly 24 is at the lowest position, the vertical height of the feeding battery supporting and lifting structure 26 is located at the battery placing platform 46 of the battery replacing and moving device 4 and can move upward to lift the feeding battery pack on the battery placing platform 46, and the supporting and lifting feeding battery pack moves upward until the supporting and lifting assembly 24 is at the highest position. When the supporting and lifting assembly 24 is at the highest position, the battery transfer device 3 can be allowed to place a full-charge battery pack on the battery replacement supporting and lifting structure 25, and support and lift the feed battery pack and the full-charge battery pack to move downwards together. When the support lift assembly 24 is moved downward to the intermediate position, the battery replacement support lift structure 25 can place a fully charged battery pack on the battery placement platform 46 while allowing the battery transfer device 3 to remove a charged battery pack from the charged battery support lift structure 26. From this for the transport efficiency of battery package has obtained the promotion, and then makes the power changing efficiency who trades the power station obtain improving.
In some embodiments of the present invention, the battery turnover platform 2 may further include: a driving mechanism 27 and a position detecting assembly 28, wherein the driving mechanism 27 can be disposed on the platform frame 21 and is adapted to drive the supporting and lifting assembly 24 to move, the position detecting assembly 28 can be disposed on the platform frame 21 and is adapted to detect the position of the battery replacing supporting and lifting structure 25 and/or the battery feeding supporting and lifting structure 26, and the position detecting assembly 28 is in communication with the driving mechanism 27. Wherein the driving mechanism 27 is disposed on the platform frame 21 and adapted to drive at least a portion of the lifting mechanism 22 to move. Specifically, the driving mechanism 27 is adapted to drive the feeding battery supporting and lifting structure 26 to move vertically, and in the synchronous movement state, the feeding battery supporting and lifting structure 26 can pull the replacing battery supporting and lifting structure 25 to move synchronously.
That is to say, the feed battery supporting and lifting structure 26 is configured as an active moving member and can move vertically on the lifting slide rail 23, the battery replacement supporting and lifting structure 25 is disposed below the feed battery supporting and lifting structure 26 and is configured as a passive moving member, and the battery replacement supporting and lifting structure 25 can also move vertically on the lifting slide rail 23. In other words, the feeding battery supporting and lifting structure 26 is directly connected to the driving mechanism 27, the feeding battery supporting and lifting structure 26 can directly move vertically on the lifting slide rail 23 under the action of the driving mechanism 27, and the battery replacement supporting and lifting structure 25 is indirectly connected to the driving mechanism 27 through the feeding battery supporting and lifting structure 26 and is suitable for moving vertically on the lifting slide rail 23 by the pulling of the feeding battery supporting and lifting structure 26.
Further, a position detection assembly 28 is disposed on the platform frame 21 and adapted to detect the position of the battery replacement support lifting structure 25 and/or the battery feeding support lifting structure 26, that is, the position detection assembly 28 detects the position of the battery replacement support lifting structure 25 and/or the battery feeding support lifting structure 26 and communicates with the driving mechanism 27 to stop the driving mechanism 27 after the battery replacement support lifting structure 25 and/or the battery feeding support lifting structure 26 reach a designated position. Therefore, the positions of the battery replacing and supporting structure 25 and/or the feeding battery supporting and supporting structure 26 in the process of transferring the battery pack can be more accurate, idling of the motor can be avoided, and reliability of the device is improved.
The battery replacing process of the battery replacing system 100 is described below according to a specific embodiment of the present invention.
In the first step, the electric vehicle can be driven into the power exchanging station and can be parked on the lifting device 1, the front lifting part 11 can support the front wheels of the vehicle, and the rear lifting part 12 can support the rear wheels of the vehicle.
And secondly, the front centering and clamping mechanism 14 and the rear centering and clamping mechanism 15 can respectively clamp the front wheel of the vehicle and the rear wheel of the vehicle in sequence, and the front centering and clamping mechanism 14 and the rear centering and clamping mechanism 15 can be matched to clamp the vehicle in a centering manner, so that the position of the vehicle on the lifting device 1 is located at a proper power switching position.
Thirdly, after the front centering and clamping mechanism 14 and the rear centering and clamping mechanism 15 finish centering and clamping the vehicle, the front lifting part 11 and the rear lifting part 12 can lift the electric vehicle together, the battery replacing mobile device 4 can run to the bottom of the vehicle, and the battery placing platform 46 can be matched with a battery pack.
Fourthly, the battery replacing mobile device 4 can unlock the power battery at the bottom of the vehicle, and the battery pack for power feeding can be detached and placed on the battery placing platform 46.
Fifthly, the battery replacing system 100 can control the lifting device 1 to ascend, when the lifting device 1 lifts the vehicle to a certain height, the battery replacing mobile device 4 can be moved out from the bottom of the vehicle, the battery replacing mobile device 4 can be moved to the position below the battery turnover platform 2, and the battery replacing mobile device 4 can exchange batteries with the battery turnover platform 2.
Sixthly, the battery transfer device 3 can move to one side of the battery turnover platform 2 opposite to the battery changing moving device 4, the bidirectional telescopic mechanism 35 can transfer the fully charged battery pack to the battery turnover platform 2, and the battery transfer device 3 can transfer the fully charged battery pack to the battery placing platform 46.
Seventhly, the battery pack full of electricity can be conveyed to the lower portion of the vehicle by the electricity changing mobile device 4, and meanwhile the battery transfer device 3 can convey the battery pack fed on the battery turnover platform 2 into the electricity storage bin for charging.
Eighth, the lifting device 1 can lower the vehicle to enable the fully charged battery pack to be matched with the electric vehicle, the battery replacement moving device 4 can drive the locking mechanism to lock the battery pack, and the battery pack can be reliably mounted at the bottom of the vehicle.
And ninthly, the battery replacing system 100 continuously controls the lifting device 1 to ascend, when the battery replacing mobile device 4 is completely moved out of the vehicle bottom, the lifting device 1 can lower the vehicle, the front centering clamping mechanism 14 and the rear centering clamping mechanism 15 can return to the original positions, the front centering clamping mechanism 14 and the rear centering clamping mechanism 15 can release wheels, the vehicle which completes battery replacing can be driven out of the battery replacing station, and the battery replacing process of the battery replacing system 100 can be finished.
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.
In the description of the present invention, "a plurality" means two or more.
In the description of the present specification, reference to the description of "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.
Claims (10)
1. A swapping system (100) for swapping power stations, comprising:
the lifting device (1), the lifting device (1) is used for lifting the electric automobile;
a battery turnaround platform (2), the battery turnaround platform (2) for turnaround rotating force batteries;
the battery transfer device (3) is arranged on one side of the battery transfer platform (2), and the battery transfer device (3) is used for taking and placing the power battery so as to transfer the power battery between the battery transfer platform (2) and an electricity storage bin of the electricity changing station;
trade electric mobile device (4), trade electric mobile device (4) and be used for changing power battery for electric automobile, trade electric mobile device (4) be suitable for electric automobile with transport between battery turnover platform (2) power battery, trade electric mobile device (4) including battery place the platform (46), battery place the platform (46) be in electric automobile width direction's width size is adjustable, and/or battery place the platform (46) are in electric automobile's the direction of travel position is adjustable.
2. The charging system (100) for a charging station as defined in claim 1, wherein the lifting device (1) comprises: preceding lift portion (11) and back lift portion (12), preceding lift portion (11) with back lift portion (12) are in electric automobile's direction of travel is spaced apart, preceding lift portion (11) are used for lifting electric automobile's preceding wheel, back lift portion (12) are used for lifting electric automobile's back wheel, lift device (1) with be provided with between battery turnover platform (2) and trade electric passageway (13), the one end of trading electric passageway (13) extends to preceding lift portion (11) with between back lift portion (12), the other end of trading electric passageway (13) extends to battery turnover platform (2) below, it is suitable for in to trade electric mobile device (4) move in electric passageway (13).
3. The battery replacement system (100) for a battery replacement station according to claim 2, wherein the front lifting part (11) is provided with a front centering clamping mechanism (14), the rear lifting part (12) is provided with a rear centering clamping mechanism (15), the front centering clamping mechanism (14) is used for clamping the front wheel, the rear centering clamping mechanism (15) is used for clamping the rear wheel, and the electric vehicle is centered in the driving direction of the electric vehicle through cooperation of the front centering clamping mechanism (14) and the rear centering clamping mechanism (15).
4. The swapping system (100) for swapping power stations as claimed in claim 1, wherein the swapping mobile device (4) further comprises:
a traveling frame (41);
a floating platform (42), wherein the floating platform (42) is arranged on the walking frame (41) in a floating way in the horizontal plane;
an X-direction moving platform (43), wherein the X-direction moving platform (43) is arranged above the floating platform (42) and can move in the driving direction of the electric automobile;
the adjusting platform (44) is arranged above the X-direction moving platform (43), and the adjusting platform (44) can move in the width direction of the electric automobile to change the width dimension of the adjusting platform (44);
side pushes away platform (45), side pushes away platform (45) is located the top of adjustment platform (44) and with adjustment platform (44) X all connects to moving platform (43), adjustment platform (44) are suitable for the drive side pushes away platform (45) and is in electric automobile's width direction removes, X is suitable for the drive to moving platform (43) side pushes away platform (45) and is in electric automobile's the direction of travel removes, battery place platform (46) are located the top of side pushes away platform (45) and with side pushes away platform (45) and connects, battery place platform (46) include a plurality of sub battery tray (47), side pushes away platform (45) are suitable for to drive a plurality of sub battery tray (47) are in electric automobile's width direction and/or the direction of travel remove.
5. The swapping system (100) for swapping stations as claimed in claim 1, characterized in that the battery transfer device (3) comprises:
a main body frame (31);
the first guide mechanism (32), the said first guide mechanism (32) locates the top of the said body frame (31);
the plurality of second guide mechanisms (33), the plurality of second guide mechanisms (33) are arranged at the bottom of the main body frame (31), and the first guide mechanisms (32) and the second guide mechanisms (33) are used for guiding the movement of the battery transfer device (3) in the battery transfer channel;
the battery lifting mechanism (34) is arranged in a cavity formed by the main body frame (31) and can vertically lift relative to the main body frame (31), and the battery lifting mechanism (34) comprises a bidirectional telescopic mechanism (35) for taking out or placing power batteries positioned on two sides of the battery transfer channel;
the lifting mechanism driving device (36), the lifting mechanism driving device (36) drives the lifting mechanism (37) to drive the battery lifting mechanism (34) to lift in the vertical direction.
6. The charging system (100) for a charging station according to claim 5, wherein the lifting mechanism driving device (36) is provided on a side surface of the main body frame (31), and the lifting mechanism driving device (36) is used for driving the lifting mechanism (37) to move.
7. The swapping system (100) for swapping stations as claimed in claim 1, characterized in that the battery turnaround platform (2) comprises:
a platform frame (21);
lift mechanism (22), lift mechanism (22) sets up on platform frame (21), lift mechanism (22) is including lift slide rail (23) and support lift subassembly (24), support lift subassembly (24) includes: trade electric battery support and lift structure (25) and feed battery support and lift structure (26), feed battery support and lift structure (26) set up trade electric battery support and lift structure's (25) top just feed battery support and lift structure (26) with trade electric battery support and lift structure (25) respectively can along vertical removal on lift slide rail (23), feed battery support and lift structure (26) are suitable for with trade the power battery on electric mobile device (4) and hold up, battery transfer device (3) are suitable for with power battery place trade electric battery support and lift structure (25) and will the power battery on feed battery support and lift structure (26) is taken away, trade electric battery support and lift structure (25) and be suitable for with the power battery on it place trade electric mobile device (4).
8. The swapping system (100) for a swapping station as claimed in claim 7 wherein the support lift assembly (24) has a lowest position, an uppermost position and a middle position, the vertical height of the feed battery support lift structure (26) is located at the battery placement platform (46) and can move upwards to lift a power battery on the battery placement platform (46) when the support lift assembly (24) is in the lowest position, the battery transfer device (3) can be allowed to place a power battery on the swap battery support lift structure (25) when the support lift assembly (24) is in the uppermost position, the swap battery support lift structure (25) can place a power battery on the battery placement platform (46) when the support lift assembly (24) is in the middle position, and the battery transfer device (3) can be allowed to take away a power battery on the feed battery support lift structure (26).
9. Battery swapping system (100) for a battery swapping station according to claim 7 or 8, characterized in that there are a non-synchronized motion state between the feeding battery support and lift structure (26) and the swapping battery support and lift structure (25), in which synchronized motion state the vertical distance between the feeding battery support and lift structure (26) and the swapping battery support and lift structure (25) remains relatively constant, and a synchronized motion state, in which non-synchronized motion state the vertical distance between the feeding battery support and lift structure (26) and the swapping battery support and lift structure (25) becomes gradually smaller or larger.
10. The swapping system (100) for swapping stations as claimed in claim 7, wherein the battery turnaround platform (2) further comprises: actuating mechanism (27) and position detection subassembly (28), actuating mechanism (27) set up on platform frame (21) and be suitable for the drive support lifting assembly (24) motion, position detection subassembly (28) set up on platform frame (21) and be suitable for the detection trade battery support lifting structure (25) and/or the position of feed battery support lifting structure (26), position detection subassembly (28) with actuating mechanism (27) communication.
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CN113291196A (en) * | 2021-05-28 | 2021-08-24 | 蓝谷智慧(北京)能源科技有限公司 | Battery replacing system for battery replacing station |
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