(19)
(11)EP 3 564 080 A1

(12)EUROPEAN PATENT APPLICATION
published in accordance with Art. 153(4) EPC

(43)Date of publication:
06.11.2019 Bulletin 2019/45

(21)Application number: 17886945.9

(22)Date of filing:  29.12.2017
(51)International Patent Classification (IPC): 
B60S 5/06(2019.01)
B60L 11/18(2006.01)
(86)International application number:
PCT/CN2017/119918
(87)International publication number:
WO 2018/121745 (05.07.2018 Gazette  2018/27)
(84)Designated Contracting States:
AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR
Designated Extension States:
BA ME
Designated Validation States:
MA MD TN

(30)Priority: 30.12.2016 CN 201611257049
24.01.2017 CN 201710052840

(71)Applicants:
  • Shanghai Dianba New Energy Technology Co., Ltd.
    Shanghai 201308 (CN)
  • Aulton New Energy Automotive Technology Group
    Shanghai 201315 (CN)

(72)Inventors:
  • ZHANG, Jianping
    Shanghai 201308 (CN)
  • HUANG, Chunhua
    Shanghai 201308 (CN)
  • DI, Shiyong
    Shanghai 201308 (CN)

(74)Representative: Margotti, Herwig Franz 
Schwarz & Partner Patentanwälte Wipplingerstrasse 30
1010 Wien
1010 Wien (AT)

  


(54)UNLOCKING DEVICE, LOCKING DEVICE, BATTERY REPLACEMENT MOBILE PLATFORM AND FAST BATTERY REPLACEMENT SYSTEM


(57) An unlocking device is provided and includes: a moving part (40) including a guide rail (41); an unlocking part (10) configured to unlock a locking mechanism of an electric vehicle (105); and a drive device configured to drive the unlocking part (10) to move on the guide rail (41). A lock device, a battery replacement mobile platform, and a fast battery replacement system are also provided. By means of the cooperation of an unlocking member and a driving part, a locking rod of the electric vehicle (105) can be controlled to act in a predetermined space to automatically unlock the battery of the electric vehicle (105), enabling the battery to be separated from the electric vehicle (105) and to be automatically replaced by the battery replacement mobile platform (103). The whole process is completely automated without manual intervention, improving battery replacement efficiency.




Description


[0001] This application claims priority to Chinese Patent Application Serial No. 201611257049.0, filed on December 30, 2016, and Chinese Patent Application Serial No. 201710052840.6, filed on January 24, 2017, the entire content of which is incorporated herein by reference.

FIELD



[0002] The present disclosure relates to a technical field of electric vehicles, and more particularly to an unlocking device for unlocking a battery locked to an electric vehicle, a lock device using the unlocking device, a battery replacement mobile platform using the unlocking device, and a fast battery replacement system using the battery replacement mobile platform.

BACKGROUND



[0003] A battery of an existing electric vehicle is generally installed in a fixed way or in a replaceable way. The fixed battery is usually fixed to the vehicle, and the vehicle is directly charged during charging. The replaceable battery is usually installed in a movable manner, and the battery can be removed at any time for replacement or for charging and then be installed to the vehicle body after replacement or charging.

[0004] After being installed to the electric vehicle, the battery is generally locked to the electric vehicle by means of a locking mechanism, to avoid falling off. The battery needs to be unlocked every time it needs replacement. One battery often has a plurality of locking positions arranged symmetrically. How to realize automatic unlocking in the plurality of locking positions at the same time is a problem that needs to be solved for automatic replacement of the battery.

SUMMARY



[0005] An objective of the present disclosure is to provide an unlocking device configured to automatically unlock a battery locked to an electric vehicle, to achieve automatic replacement of the battery.

[0006] A further objective of the present disclosure is to provide a lock device using the above unlocking device.

[0007] A further objective of the present disclosure is to provide a battery replacement mobile platform using the above unlocking device.

[0008] Another further objective of the present disclosure is to provide a fast battery replacement system using the above battery replacement mobile platform.

[0009] The unlocking device according to the present disclosure includes: a moving part including a guide rail; an unlocking part configured to unlock a locking mechanism for an electric vehicle; and a drive device configured to drive the unlocking part to move on the guide rail.

[0010] In an implementation of the present disclosure, the unlocking part includes an unlocking ejector rod arranged upwards on the guide rail and movable along the guide rail; the drive device includes a driving part connected with the unlocking part.

[0011] In an implementation of the present disclosure, the moving part further includes a moving seat mounted on the guide rail and movable along the guide rail, and the unlocking ejector rod is arranged on the moving seat; preferably, the unlocking part further includes a hollow fixing cylinder perpendicularly mounted on an upper surface of the moving seat, and the unlocking ejector rod has a bottom end movably mounted in the fixing cylinder by means of an elastic member; further preferably, a strip-shaped groove extending along an axial direction of the fixing cylinder is provided in a side wall of the fixing cylinder, and the bottom end of the unlocking ejector rod is provided with a limiting member that is snapped into the strip-shaped groove and is slidable along the strip-shaped groove.

[0012] In an implementation of the present disclosure, the driving part is connected with the moving seat through a push rod, and the push rod is configured as one of an electric push rod, a hydraulic push rod, and a pneumatic push rod; preferably, the moving seat is provided with a sliding groove seat having an inner groove at an end of the moving seat adjacent to the push rod, the sliding groove seat has a side wall provided with a sliding groove extending along the guide rail, and the push rod has an end located in the groove of the sliding groove seat and at this end is provided with a fixing member snapped into the sliding groove; further preferably, the surface of the moving seat is provided with a fastening board, and the unlocking part and the sliding groove seat are mounted on the fastening board.

[0013] In an implementation of the present disclosure, the unlocking device further includes a returning device connected with the unlocking part, the returning device is configured to control the unlocking member to automatically return to an original position after moving along the guide rail, and the returning device is configured as a telescopic elastic member; and/or a sensor configured to limit a moving position of the unlocking part is provided at each end of the guide rail.

[0014] In an implementation of the present disclosure, the moving part further includes a moving seat, and the unlocking part is mounted on the moving seat; the drive device includes a drive control system, and the drive control system is connected with the unlocking part or the moving seat through a connecting member.

[0015] In an implementation of the present disclosure, the drive control system includes: a mounting platform; a driving part mounted on the mounting platform, and including an active drive assembly and a passive drive assembly arranged oppositely, the passive drive assembly including a conveyor belt tensioning device; and a transmission part including a conveyor belt and a connecting member, the conveyor belt being connected with the active drive assembly and the passive drive assembly, the active drive assembly being configured to drive the conveyor belt to rotate clockwise or counterclockwise, the connecting member being mounted to the conveyor belt and configured to connect a moving member, and the conveyor belt being configured to drive the moving member to reciprocate horizontally under drive of the active drive assembly.

[0016] In an implementation of the present disclosure, the active drive assembly includes a motor, a drive shaft, and a drive wheel, the motor is fixedly mounted on the mounting platform, the drive wheel is mounted on the mounting platform by means of a drive wheel bracket, and the motor is connected to the drive wheel through the drive shaft to drive the drive wheel to rotate; preferably, the passive drive assembly further includes a driven wheel mounted on the mounting platform by means of a tensioning bracket, the conveyor belt has two ends fitted over a surface of the drive wheel and a surface of the driven wheel respectively, and the conveyor belt is tensioned by the drive wheel and the driven wheel; further preferably, the motor is configured as a micro-motor, the drive wheel and the driven wheel are synchronous pulleys, the conveyor belt has an inner surface provided with a rack, and the rack meshes with surfaces of the synchronous pulleys.

[0017] In an implementation of the present disclosure, the connecting member is configured as a U-shaped plate having opposite side plates and a bottom plate between the side plates, a width between the side plates is greater than a width of the conveyor belt, the U-shaped plate has an opening facing downwards and is mounted on the conveyor belt in a suspended manner; and the opposite side plates of the U-shaped plate are each provided with a snap groove configured to connect the moving member; preferably, the conveyor belt is a detachable conveyor belt, two detachable ends of the conveyor belt are each provided with a belt mounting hole, the bottom plate of the U-shaped plate is provided with bottom plate mounting holes at corresponding positions, and a screw passes through the bottom plate mounting hole and the belt mounting hole to connect and fix the U-shaped plate and the conveyor belt; further preferably, the connecting member further includes a rack belt provided on the other side of the conveyor belt opposite to the U-shaped plate, the rack belt is provided with a rack belt mounting hole at a corresponding position to the belt mounting hole in the conveyor belt, and a screw passes through the bottom plate mounting hole of the U-shaped plate, the belt mounting hole, and the rack belt mounting hole in the rack belt sequentially to mount and fix the conveyor belt and the connecting member.

[0018] In an implementation of the present disclosure, the control system further includes a limit sensor mounted on the mounting platform via a bracket, limit sensors are provided at two extreme positions for movement of the connecting member, and the limit sensors are connected to the driving part to control the extreme positions for the movement of the connecting member.

[0019] In an implementation of the present disclosure, the conveyor belt tensioning device includes: a tensioning bracket movably mounted on the mounting platform and having a first end configured to mount the conveyor belt; and a tension adjusting part mounted at a second end of the tensioning bracket, elastically connected to the tensioning bracket, and configured to adjust tension of the conveyor belt.

[0020] In an implementation of the present disclosure, the tensioning bracket has a bottom plate movably mounted on the mounting platform, and an end plate on the other end of the bottom plate away from a mounting end of the conveyor belt; the tension adjusting part includes a fixing plate, a limiting plate, a penetrating member, and an elastic member; the fixing plate is provided outside the tensioning bracket and to the mounting platform at a side of the end plate; the limiting plate is provided to the mounting platform inside the tensioning bracket through a limiting opening in the bottom plate; two ends of the penetrating member are respectively fixed to the limiting plate and the fixing plate and penetrate the end plate; the elastic member is provided to a part of the penetrating member between the limiting plate and the end plate and presses the limiting plate and the end plate at both ends.

[0021] In an implementation of the present disclosure, the penetrating member includes a screw and a nut; the screw penetrates the limiting plate, the end plate, and the fixing plate, and the nut is mounted at a penetrating end; the elastic member is configured as a spring; and/or the tensioning bracket is provided with a side plate on each of two sides of the bottom plate; the conveyor belt has a first end mounted to the side plate of the tensioning bracket through a gear, and a second end connected to a drive wheel.

[0022] In an implementation of the present disclosure, the bottom plate of the tensioning bracket is further provided with a sliding slot extending along a length of the conveyor belt, and a slot screw passing through the sliding slot to be mounted to the mounting platform, a width of a head of the slot screw being greater than a width of the sliding slot.

[0023] In an implementation of the present disclosure, the moving seat is provided with a snap strip, and the unlocking device is inserted into a snap groove of the connecting member by means of the snap strip, so as to be connected to the drive control system; preferably, the snap groove has a width extending in a horizontal direction, and the width of the snap groove is greater than a width of the snap strip to allow the snap strip to move horizontally in a width range of the snap groove.

[0024] The lock device according to the present disclosure includes: a locking mechanism including: a lock base and a lock connecting rod, the lock base being configured to provide a locking point and having a lock slot into which a component to be locked is inserted, the lock connecting rod being movably connected with the lock base through a lock tongue, and the lock tongue having a stop block configured to prevent the component to be locked from separating from the lock slot after the component to be locked being inserted into the lock slot; and an unlocking mechanism including the above-described unlocking device, the unlocking ejector rod of the unlocking device being configured to push the lock connecting rod, and the lock connecting rod causing the lock tongue to rotate during rise so as to move the stop block away from its locked position.

[0025] The battery replacement mobile platform according to the present disclosure includes: a travel driving part configured to drive the whole battery replacement mobile platform to move on the ground; a lifting part mounted on the travel driving part and configured to realize rise and fall of a battery during a battery replacement process; and a battery mounting part mounted on a top of the lifting part and configured to place thereon a replacement battery or a replaced battery, the battery mounting part having an upper surface provided with the above-described unlocking device to unlock a battery locking mechanism of the electric vehicle under control of the drive device.

[0026] The fast battery replacement system according to the present disclosure includes: a battery rack configured to place thereon a replacement battery of an electric vehicle and a battery to be charged and removed from the electric vehicle; a stacker configured to put the battery to be charged into the battery rack and remove the replacement battery from the battery rack; and the above-described battery replacement mobile platform.

[0027] The beneficial effects of the present disclosure lie in that: through the cooperation among the unlocking member, the drive device, and the returning device, a locking rod can be controlled to act in a predetermined space, and the battery of the electric vehicle can be automatically unlocked, such that the battery is separated from the electric vehicle and automatically replaced by the battery replacement mobile platform. The entire process is fully automated, eliminating the need for manual intervention and improving the battery replacement efficiency. According to the present disclosure, the battery rack, the stacker, and the battery replacement mobile platform constitute a complete electric vehicle automatic fast battery replacement system, which can realize the fast battery replacement line work for multiple electric vehicles. During replacement, as long as the electric vehicle is parked at a designated position, the battery can be automatically replaced within five to ten minutes. The entire replacement process does not require manual intervention, thereby reducing labor intensity and greatly improving the replacement efficiency. The drive control system according to the present disclosure has a compact structure, quick unlocking ability and good reliability, and is particularly suitable for use in electric vehicles.

BRIEF DESCRIPTION OF THE DRAWINGS



[0028] 

Fig. 1 illustrates a schematic view of a fast battery replacement system according to an implementation of Embodiment 1 of the present disclosure.

Fig. 2 illustrates a schematic view of a battery replacement mobile platform shown in Fig. 1.

Fig. 3 illustrates a schematic view of an unlocking device according to an implementation of Embodiment 1 of the present disclosure.

Fig. 4 illustrates a perspective view of Fig. 3.

Fig. 5 illustrates a perspective view of a drive control system according to Embodiment 2 of the present disclosure.

Fig. 6 illustrates a perspective exploded view of the drive control system in Fig. 5.

Fig. 7 further illustrates a perspective exploded view of the drive control system in Fig. 6.

Fig. 8 illustrates a partial perspective view of the drive control system in Fig. 7.

Fig. 9 illustrates a partial perspective view of the drive control system in Fig. 7.


DETAILED DESCRIPTION



[0029] The present disclosure will be further illustrated by the following embodiments, but shall not be limited to the scope of the illustrated embodiments.

Embodiment 1



[0030] As illustrated in Fig. 1, a fast battery replacement system 100 according to an implement of the present disclosure generally includes a battery rack 101 for a battery 104 to be placed, a stacker 102, and a battery replacement mobile platform 103.

[0031] The battery 104 placed on the battery rack 101 includes a replacement battery for an electric vehicle 105, and a battery to be charged and removed from the electric vehicle 105. The battery rack 101 is provided with a plurality of placement layers constituted by a frame.

[0032] The battery replacement mobile platform 103 is configured to remove the battery to be charged from the electric vehicle 105 and transport the battery to be charged to the stacker 102, and meanwhile, the replacement battery can be received by the stacker 102 and mounted to the electric vehicle 105. The battery replacement mobile platform 103 includes a lifting device that can travel and raise or lower the battery 104, and a battery mounting part mounted on the lifting device and configured to automatically remove the battery to be charged from the electric vehicle 105 or automatically mount the replacement battery to the electric vehicle 105.

[0033] The stacker 102 is configured to place the battery to be charged and removed by the battery replacement mobile platform 103 into the battery rack 101, and pick the replacement battery off the battery rack 101 to place it on the battery replacement mobile platform 103. The stacker 102 realizes movement in a horizontal direction and in a vertical direction with respect to the battery rack 101 by means of a track, and includes a telescopic bracket that is extendable to pick off or place the battery 104.

[0034] In operation, the battery rack 101, the stacker 102, and the battery replacement mobile platform 103 constitute a complete electric vehicle automatic fast battery replacement system, which can realize the fast battery replacement line work for multiple electric vehicles. During replacement, as long as the electric vehicle is parked at a designated position, the battery can be automatically replaced within five to ten minutes. The entire replacement process does not require manual intervention, thereby reducing labor intensity and greatly improving replacement efficiency.

[0035] As illustrated in Fig. 2, the battery replacement mobile platform 103 according to an implementation of the present disclosure generally includes a lifting part 107, a battery mounting part 108, and a travel driving part 106.

[0036] The travel driving part 106 is configured to drive the entire apparatus to move during the pick-and-place process and replacement process of the battery 104. Specific driving manners may include existing winch driving, rack-and-pinion driving, roller driving, track driving, and any other manners capable of realizing the movement of the battery replacement mobile platform 103.

[0037] The lifting part 107 is mounted on the travel driving part 106 and configured to achieve control over the rise or fall of the battery 104 at the bottom of the electric vehicle 105 during the replacement of the battery 104. The lifting part 107 includes a lifting device 1071 capable of rising or falling in the vertical direction, and a lift driving part 1072 configured to drive the lifting device 1071 to rise or fall. Specifically, the lifting device 1071 may be an articulated telescopic rod structure, a guide rail structure, a telescopic tube structure, or any existing structure that can be stretched in the vertical direction. The lift driving part 1072 may be conventional power, such as a hydraulic drive, an electric drive, or a pneumatic drive.

[0038] The battery mounting part 108 is arranged on the top of the lifting device 1071 and configured to place the replacement battery or the battery to be charged. The battery mounting part 108 is equipped with an unlocking device on an upper surface thereof, and the unlocking device unlocks a battery locking mechanism of the electric vehicle under the control of a corresponding drive device, thereby realizing automatic detachment and locking of the battery 104 from or to the electric vehicle 105.

[0039] In this implementation, the battery replacement mobile platform 103 is moved to the bottom of the electric vehicle 105 under the control of the travel driving part 106, and the lifting device 1071 is driven to rise by means of the lift driving part 1072, to enable the unlocking device on the battery mounting part 108 to come into contact with the battery locking mechanism in a battery mounting seat at the bottom of the electric vehicle 105, so as to release the battery to be charged from a locked state. Then, the battery mounting part 108 is controlled to move in the horizontal direction to separate the unlocked battery to be charged from the electric vehicle and make it directly fall onto the battery mounting part 108. The lift driving part 1072 controls the lifting device 1071 to fall, the travel driving part 106 drives the battery replacement mobile platform 103 to move to the battery rack 101, the battery to be charged is removed by the stacker 102, and the replacement battery is replaced at the same time. The travel driving part 106 drives the battery replacement mobile platform 103 to move back to the bottom of the electric vehicle 105, and the lifting device 1071 is driven to rise by means of the lift driving part 1072, such that the battery mounting part 108 snaps the replacement battery into the battery mounting seat of the electric vehicle 105, and the battery mounting part 108 is then translated to lock the replacement battery in the battery mounting seat. The battery mounting part 108 is lowered through the lifting device 1071 by means of the lift driving part 1072, and the travel driving part 106 moves the battery replacement mobile platform 103 out of the bottom of the electric vehicle 105. Till now, the automatic fast battery replacement process for one electric vehicle 105 is completed.

[0040] As illustrated in Fig. 3, the unlocking device according to an implementation of the present disclosure generally includes a moving part 40, including a guide rail and a moving seat mounted on the guide rail and movable along the guide rail; an unlocking part 10, including an unlocking ejector rod vertically arranged on the moving seat; and a drive device configured to drive the unlocking part to move on the guide rail. The drive device specifically includes a driving part 20 connected with the unlocking part 10, and the driving part 20 includes a push rod connected with the moving seat and configured to drive the moving seat to move along the guide rail.

[0041] In this implementation, the unlocking device needs to come into contact with the battery locking mechanism in the battery mounting seat at the bottom of the electric vehicle, so as to unlock the battery locking mechanism, and can be mounted to a battery-replacement apparatus to perform the battery replacement at the same of unlocking. The battery-replacement apparatus may be the battery mounting part 108 of the battery replacement mobile platform 103.

[0042] Before the battery replacement, the driving part 20 drives the unlocking part 10 to move horizontally on a surface of the battery mounting part 108 and finally stay at a position corresponding to a unlocking point of the battery locking mechanism of the electric vehicle 105, and drives the battery replacement mobile platform 103 to rise, such that the unlocking ejector rod of the unlocking part 10 comes in contact with the unlocking point in the locking mechanism during the rise and jacks up the unlocking point to accomplish the unlocking.

[0043] Through the cooperation among the unlocking part 10, the driving part 20, and the moving part 40, the unlocking ejector rod can be controlled to move in a predetermined track, and the battery to be charged can be automatically unlocked from the electric vehicle, so that the battery to be charged is separated from the electric vehicle and is automatically replaced by the battery replacement mobile platform 103. The whole process is completely automated without manual intervention, thereby improving the battery replacement efficiency of the electric vehicle.

[0044] As illustrated in Fig. 4, the moving part 40 is used to mount the unlocking part 10. By means of the moving part 40, the unlocking part 10 will not deviate from the track while moving, and the movement of the unlocking part 10 can become easier. In another implementation, the moving part 40 may be a sliding mechanism, which can include a guide rail 41 fixed at a fixing point, and a moving seat 42 slidably mounted on the guide rail 41, and the unlocking part 10 is fixed on the moving seat 42. The driving part 20 can drive the moving seat to move through the movement of the push rod, thereby controlling the unlocking part 10 to move on the guide rail 41. The moving seat 42 can be directly used as a part of the unlocking part 10 or can only serve as a base for mounting the unlocking part 10. In other implementations, the sliding mechanism may also be replaced by other conventional moving means, such as rollers, chains, conveyor belts, and the like.

[0045] In an implementation of the present disclosure, the unlocking part 10 can further include a hollow fixing cylinder 11 that is perpendicularly mounted on a surface of the moving seat 42. A bottom end of the unlocking ejector rod 13 is movably mounted in the fixing cylinder 11 and cannot separate. The fixing cylinder 11 is provided with a spring 112 that applies a thrust to the unlocking ejector rod 13. The spring 112 can apply an elastic force to the unlocking ejector rod to keep it at an unfixed end of the fixing cylinder. When the unlocking ejector rod comes in contact with the battery locking mechanism at the bottom of the electric vehicle, the unlocking ejector rod can be retracted into the fixing cylinder in a case of an impact force greater than a predetermined value (the elastic force of the spring), thereby protecting the unlocking ejector rod and the battery locking mechanism from damage due to hard contact.

[0046] The movable installation manner of the unlocking ejector rod 13 and the fixing cylinder 11 can adopt the following structure:
A retaining ring or a retaining block protruding towards a circle center of the fixing cylinder 11 is provided at the unfixed end of the fixing cylinder 11, and a limiting table having a diameter larger than a diameter of the retaining ring or the retaining block and smaller than or equal to an inner diameter of the fixing cylinder 11 may be provided at a bottom of the unlocking ejector rod 13. An upper end of the unlocking ejector rod 13 can pass through a hole surrounded by the retaining ring or the retaining block. When the unlocking ejector rod 13 is lifted by the spring, the unlocking ejector rod is restrained in the fixing cylinder 11 by means of the limiting table at the bottom end.

[0047] Further, in an implementation of the present disclosure, the movable installation manner of the unlocking ejector rod 13 and the fixing cylinder 11 can also adopt the following structure. A strip-shaped groove 111 extending along an axial direction of the fixing cylinder 11 is provided in a side wall of the fixing cylinder 11, and the bottom end of the unlocking ejector rod 13 is provided with a limiting member 132 that is snapped into the strip-shaped groove 111 and is able to slide up and down along the strip-shaped groove 111 under the action of the elastic force of the spring 112. The limiting member 132 and the strip-shaped groove 111 together define the highest position for the movement of the unlocking ejector rod 13. Specifically, the limiting member 132 can be configured as a screw and a nut, in which the screw passes through the strip-shaped groove 111 and is screwed into a threaded hole in the unlocking ejector rod 13, and the nut is screwed onto an end of the screw exposed out of the strip-shaped groove 111. An end of the unlocking ejector rod 13 outside the fixing cylinder 11 can be configured as a retractable tapered end 131 that matches a shape of an unlocking point mechanism in the battery locking mechanism, such that stable contact is established during the movement, and no jamming will occur. The unlocking ejector rod 13 can be freely compressed into the fixing cylinder 11 when subjected to external pressure. When the external pressure is removed, the spring 112 can cause the unlocking ejector rod 13 to protrude out of the fixing cylinder 11 all the time.

[0048] In an implementation of the present disclosure, the push rod 21 of the driving part 20 may be one of an electric push rod, a hydraulic push rod, and a pneumatic push rod. The driving part 20 can also include a power unit that provides corresponding power to the corresponding push rod 21, such as a hydraulic pump, a pneumatic pump, or a servo motor (not illustrated). In the present disclosure, an electric push rod is used to push the unlocking part 10 to move. The electric push rod has a cylinder block 211 fixed at a fixing point (such as at the battery mounting part 108), and is connected to the unlocking part 10 through a piston rod 212, such that the horizontal movement of the unlocking part 10 is achieved by extension and retraction of the piston rod 212.

[0049] In an implementation of the present disclosure, the moving seat 42 is further provided with a sliding groove seat 16 and a sliding groove 161. The sliding groove seat 16 is located on a side connected with the push rod 21, and the sliding groove 161 is located in the sliding groove seat 16 and extends along a telescopic direction of the push rod 21. The push rod 21 is provided with a fixing member that is snapped into the sliding groove 161 and that can slide along the sliding groove 161 as the push rod 21 moves. The driving part 20 drives the push rod 21 to extend and retract in the horizontal direction. The fixing member located on the push rod 21 slides in the sliding groove 161, and drives the sliding groove seat 16 and the moving seat 42 to move accordingly after sliding to an extreme position of the sliding groove 161, thereby realizing the horizontal movement of the unlocking part 10 on the guide rail. Specifically, two sliding grooves 161 can be provided and arranged oppositely in the sliding groove seat 13. The piston rod 212 of the electric push rod is located in the sliding groove seat 16, and the fixing member can pass through a through hole in the piston rod 212 and be snapped into the two sliding groove.

[0050] In an implementation of the present disclosure, the unlocking part 10 and the sliding groove seat 16 can be fixedly mounted on the moving seat 42 by a fastening board 14. In the present implementation, the fastening board 14 is fixedly connected to the moving seat 42, and the moving seat 42 may directly act as the fastening board 14. Further, in order to make a force applied by the push rod 21 to the sliding groove seat 16 more evenly, specifically, the sliding groove seat 16 may be formed by directly bending the fastening board 14.

[0051] In an implementation of the present disclosure, the unlocking device can further include a returning device 30 configured to control automatic return of the unlocking part. The returning device 30 is mounted on a side of the unlocking part 10 opposite to the driving part 20, that is, a side of the guide rail 41 opposite to the push rod 21. After the unlocking part 10 finishes an unlocking operation, the unlocking part 10 is pulled back to the original resting position by the returning device 30. The returning device 30 may be an apparatus identical to the driving part 20, or may be a passive elastic member structure, such as a spring. In addition, in other implementations, the return of the unlocking part 10 can also be realized by the driving part 20, that is, after the driving part moves the unlocking part 10, the driving part again pulls the unlocking part 10 back to the original position.

[0052] In an implementation of the present disclosure, the unlocking device can further include a position sensor. Two position sensors are provided at two ends of the guide rail 41 to define a position to which the moving seat 42 can move. When the position sensor senses the moving seat 42, the moving seat 42 stops moving.

[0053] An implementation of the present disclosure discloses a lock device including a locking mechanism and an unlocking mechanism. The locking mechanism includes a lock base and a lock connecting rod that are to be mounted to the electric vehicle. The lock base is used to provide a locking point, and has a lock slot into which a lock shaft of a battery pack is inserted. The lock connecting rod is movably connected with the lock base through a lock tongue, and the lock tongue has a stop block configured to prevent the lock shaft from separating from the lock slot after the lock shaft is inserted into the lock slot. The unlocking mechanism includes the unlocking device described in the foregoing implementations, and the unlocking ejector rod 13 in the unlocking device is used to push the lock connecting rod to drive the lock tongue to rotate in the lock base.

[0054] Before the battery replacement, the push rod 21 drives the unlocking ejector rod 13 to move along the guide rail 41, so that the unlocking ejector rod 13 is aligned with a corresponding position on the lock connecting rod. The spring 112 at the bottom of the unlocking ejector rod 13 can keep the unlocking ejector rod 13 abutting against the lock connecting rod, the lock connecting rod moves horizontally when it is lifted up and moving upwards, and the unlocking part 10 moves horizontally on the guide rail 41 along with the moving seat 42. In the entire unlocking process, the unlocking ejector rod 13 and the lock connecting rod are always in contact. The upward and horizontal movement of the lock connecting rod causes the lock tongue in the lock base to rotate accordingly, and the stop block that originally closes a passage of the lock slot rotates away from the lock slot along with the lock tongue, thereby opening the passage of the lock slot, that is, realizing the unlocking of the locking mechanism. After the unlocking, by moving the battery, the lock shaft on the battery can be removed from the lock slot to separate the battery from the vehicle body, thereby realizing the detachment of the battery.

Embodiment 2



[0055] As illustrated in Figs. 5-9, the drive control system includes a mounting platform 110 on which a tensioning bracket 120 is provided. An end of the tensioning bracket 120 is used to mount a conveyor belt 130.

[0056] A tension adjusting part 140 is mounted at the other end of the tensioning bracket 120, and the tension adjusting part 140 is elastically connected to the tensioning bracket 120 and configured to adjust tension of the conveyor belt 130.

[0057] The tensioning bracket 120 has a bottom plate 121 movably mounted on the mounting platform 110, and an end plate 122 on the other end of the bottom plate 121 away from a mounting end of the conveyor belt 130. The tension adjusting part 140 includes a fixing plate 141, a limiting plate 142, a penetrating member 143, and an elastic member 144.

[0058] The fixing plate 141 is provided outside the tensioning bracket 120 and to the mounting platform 110 at a side of the end plate. The limiting plate 142 is provided to the mounting platform 110 inside the tensioning bracket 120 through a limiting opening 1211 in the bottom plate 121. Two ends of the penetrating member 143 are respectively fixed to the limiting plate 142 and the fixing plate 141 and penetrate the end plate 122. The elastic member 144 is provided to a part of the penetrating member 143 between the limiting plate 142 and the end plate 122 and presses the limiting plate 142 and the end plate 122 at both ends.

[0059] The penetrating member 143 includes a screw 1431 and a nut 1432. The screw 1431 penetrates the limiting plate 142, the end plate 122, and the fixing plate 141, and the nut 1432 is mounted at a penetrating end. The elastic member 144 is configured as a spring.

[0060] The tensioning bracket 120 is provided with a side plate 123 on each of two sides of the bottom plate 121. The conveyor belt 130 has a first end mounted to the side plate 123 of the tensioning bracket 120 through a gear, and a second end connected to a drive wheel 150.

[0061] The bottom plate 121 of the tensioning bracket 120 is further provided with a sliding slot 1212 extending along a length of the conveyor belt, and a slot screw 1213 passing through the sliding slot 1212 to be mounted to the mounting platform 110. The width of a head of the slot screw 1213 is greater than the width of the sliding slot 1212.

[0062] The drive control system includes an active drive assembly and a passive drive assembly. The active drive assembly includes a motor 151, a drive shaft 152, and the drive wheel 150. The motor 151 is fixedly mounted on the mounting platform 110. The drive wheel 150 is mounted on the mounting platform 110 by means of a drive wheel bracket 153. The motor 151 is connected to the drive wheel 150 through the drive shaft 152 to drive the drive wheel 150 to rotate. The passive drive assembly further includes a driven wheel 170 mounted on the mounting platform 110 by means of the tensioning bracket 120. Two ends of the conveyor belt 130 are fitted over a surface of the drive wheel 150 and a surface of the driven wheel 170 respectively, and are tensioned by the drive wheel 150 and the driven wheel 170.

[0063] The drive control system further includes a transmission part including the conveyor belt 130 and a connecting member 160. The conveyor belt 130 is connected to the active drive assembly and the passive drive assembly. The active drive assembly drives the conveyor belt to rotate clockwise or counterclockwise. The connecting member 60 is mounted to the conveyor belt 130 and configured to connect a moving member. The conveyor belt 130 drives the moving member to reciprocate horizontally under the drive of the active drive assembly.

[0064] The connecting member 160 is configured as a U-shaped plate having opposite side plates 161 and a bottom plate 162 between the side plates. The width between the side plates is greater than the width of the conveyor belt. The U-shaped plate has an opening facing downwards and is mounted on the conveyor belt in a suspended manner. The opposite side plates 161 of the U-shaped plate are each provided with a snap groove 1611 for connecting the moving member.

[0065] The conveyor belt 130 is a detachable conveyor belt. Two detachable ends of the conveyor belt 130 are each provided with a belt mounting hole 131, and the bottom plate 162 of the U-shaped plate is provided with bottom plate mounting holes 1621 at corresponding positions. A screw passes through the bottom plate mounting hole 1621 and the belt mounting hole 131 to connect and fix the U-shaped plate 160 and the conveyor belt 130.

[0066] The connecting member 160 further includes a rack belt 163 provided on the other side of the conveyor belt opposite to the U-shaped plate. The rack belt is provided with a rack belt mounting hole 1631 at a corresponding position to the belt mounting hole 131 in the conveyor belt. A screw passes through the bottom plate mounting hole 1621 of the U-shaped plate, the belt mounting hole 131, and the rack belt mounting hole 1631 in the rack belt sequentially to mount and fix the conveyor belt 130 and the connecting member 160.

[0067] The motor is configured as a micro-motor. The drive wheel and the driven wheel are synchronous pulleys. The conveyor belt has an inner surface provided with a rack, and the rack meshes with surfaces of the synchronous pulleys. The rack belt 163 meshes with the rack on the surface of the conveyor belt 130. The conveyor belt is clamped from both sides of the conveyor belt by the rack belt 163 and the bottom plate 162 of the U-shaped plate.

[0068] The control system further includes a limit sensor 180 mounted on the mounting platform 110 via a bracket 181. Limit sensors 180 are provided at two extreme positions for the movement of the connecting member 160, and the limit sensors 180 are connected to the driving part to control the extreme positions for the movement of the connecting member 160.

[0069] As illustrated in Fig. 6, the unlocking device includes the above-described drive control system, and further includes a moving part 190 and an unlocking part 193.

[0070] The moving part 190 includes a moving guide rail 191 and a moving seat 192. The unlocking part 193 is mounted on the above-described moving seat 192, and configured to unlock the locking mechanism of the electric vehicle. The unlocking part 193 is movable on the guide rail 91.

[0071] The moving seat 192 is provided with a snap strip 1921, and the unlocking device is inserted into the snap groove 1611 of the connecting member by means of the snap strip 1921, so as to be connected to the drive control system.

[0072] The snap groove 1611 has a width extending in the horizontal direction, and the width of the snap groove 1611 is greater than the width of the snap strip 1921, to allow the snap strip 1921 to move horizontally in a width range of the snap groove.

[0073] A working process of the drive control system will be described below.

[0074] When the motor 151 drives the drive wheel 150 to rotate, the conveyor belt is driven to run leftwards, and the unlocking part 193 is moved leftwards by the connecting member 160. When the limit sensor 180 detects the unlocking part 193, the motor 151 is stopped. At this time, the snap strip 1921 of the unlocking part 193 unlocks a lock of the battery pack of the vehicle by the weight of the vehicle. During this unlocking process, the snap groove 1611 in the connecting member 160 causes the unlocking part 193 to freely move along a trajectory of the locking mechanism, thereby unlocking the lock of the battery pack.

[0075] When the battery pack is unlocked, the motor 151 is driven to rotate reversely by a software command, thereby causing the unlocking part 190 to move rightwards. When the other limit sensor 180 detects the unlocking part 190, the motor 151 is stopped. At this position, the unlocking part 190 is in an averted position when the battery pack is removed after unlocking.

[0076] In addition, by using the elastic member 144, when the conveyor belt 130 is elongated due to fatigue, the spring 144 compressed between the limiting plate 142 and the end plate 122 of the driven wheel bracket pushes the tensioning bracket 120 to move towards the fixing plate 141. When an elastic force of the spring 144 is balanced with the tension of the conveyor belt, the conveyor belt 130 is restored to a tensioned state. When the motor is subjected to an abnormal load, the elastic member 144 is used to allow the conveyor belt 130 to skip teeth automatically, thereby protecting the motor.

[0077] The lock device of this embodiment is substantially identical to the lock device of the first embodiment, except that the unlocking mechanism of the present embodiment includes the unlocking device of this embodiment. The battery replacement mobile platform of this embodiment is substantially the same as the battery replacement mobile platform of the first embodiment, except that the unlocking device of this embodiment is mounted on the upper surface of the battery mounting part of the battery replacement mobile platform of this embodiment. The fast battery replacement system of this embodiment is substantially the same as the fast battery replacement system of the first embodiment, except that the fast battery replacement system of this embodiment includes the battery replacement mobile platform of this embodiment.

[0078] It would be appreciated by those skilled in the art that various exemplary embodiments of the present disclosure have been illustrated and described in detail, but many other variations or modifications consistent with the principles of the present disclosure may be directly determined or derived based on the present disclosure without departing from the spirit and scope of the present disclosure. Therefore, the scope of the present disclosure should be understood and construed to cover all such other variations or modifications.


Claims

1. An unlocking device, comprising:

a moving part comprising a guide rail;

an unlocking part configured to unlock a locking mechanism for an electric vehicle; and

a drive device configured to drive the unlocking part to move on the guide rail.


 
2. The unlocking device according to claim 1, characterized in that the unlocking part comprises an unlocking ejector rod arranged upwards on the guide rail and movable along the guide rail;
the drive device comprises a driving part connected with the unlocking part.
 
3. The unlocking device according to claim 2, characterized in that the moving part further comprises a moving seat mounted on the guide rail and movable along the guide rail, and the unlocking ejector rod is arranged on the moving seat;
preferably, the unlocking part further comprises a hollow fixing cylinder perpendicularly mounted on an upper surface of the moving seat, and the unlocking ejector rod has a bottom end movably mounted in the fixing cylinder by means of an elastic member;
further preferably, a strip-shaped groove extending along an axial direction of the fixing cylinder is provided in a side wall of the fixing cylinder, and the bottom end of the unlocking ejector rod is provided with a limiting member that is snapped into the strip-shaped groove and is slidable along the strip-shaped groove.
 
4. The unlocking device according to claim 3, characterized in that the driving part is connected with the moving seat through a push rod, and the push rod is configured as one of an electric push rod, a hydraulic push rod, and a pneumatic push rod;
preferably, the moving seat is provided with a sliding groove seat having an inner groove at an end of the moving seat adjacent to the push rod, the sliding groove seat has a side wall provided with a sliding groove extending along the guide rail, and the push rod has an end located in the groove of the sliding groove seat and at this end is provided with a fixing member snapped into the sliding groove;
further preferably, a surface of the moving seat is provided with a fastening board, and the unlocking part and the sliding groove seat are mounted on the fastening board.
 
5. The unlocking device according to any one of claims 2 to 4, characterized in that the unlocking device further comprises a returning device connected with the unlocking part, the returning device is configured to control the unlocking member to automatically return to an original position after moving along the guide rail, and the returning device is configured as a telescopic elastic member; and/or
a sensor configured to limit a moving position of the unlocking part is provided at each end of the guide rail.
 
6. The unlocking device according to claim 1, characterized in that the moving part further comprises a moving seat, and the unlocking part is mounted on the moving seat;
the drive device comprises a drive control system, and the drive control system is connected with the unlocking part or the moving seat through a connecting member.
 
7. The unlocking device according to claim 6, characterized in that the drive control system comprises:

a mounting platform;

a driving part mounted on the mounting platform, and comprising an active drive assembly and a passive drive assembly arranged oppositely, the passive drive assembly comprising a conveyor belt tensioning device; and

a transmission part comprising a conveyor belt and the connecting member, the conveyor belt being connected with the active drive assembly and the passive drive assembly, the active drive assembly being configured to drive the conveyor belt to rotate clockwise or counterclockwise, the connecting member being mounted to the conveyor belt and configured to connect a moving member, and the conveyor belt being configured to drive the moving member to reciprocate horizontally under drive of the active drive assembly.


 
8. The unlocking device according to claim 7, characterized in that the active drive assembly comprises a motor, a drive shaft, and a drive wheel, the motor is fixedly mounted on the mounting platform, the drive wheel is mounted on the mounting platform by means of a drive wheel bracket, and the motor is connected to the drive wheel through the drive shaft to drive the drive wheel to rotate;
preferably, the passive drive assembly further comprises a driven wheel mounted on the mounting platform by means of a tensioning bracket, the conveyor belt has two ends fitted over a surface of the drive wheel and a surface of the driven wheel respectively, and the conveyor belt is tensioned by the drive wheel and the driven wheel;
further preferably, the motor is configured as a micro-motor, the drive wheel and the driven wheel are synchronous pulleys, the conveyor belt has an inner surface provided with a rack, and the rack meshes with surfaces of the synchronous pulleys.
 
9. The unlocking device according to claim 7, characterized in that the connecting member is configured as a U-shaped plate having opposite side plates and a bottom plate between the side plates, a width between the side plates is greater than a width of the conveyor belt, the U-shaped plate has an opening facing downwards and is mounted on the conveyor belt in a suspended manner; and the opposite side plates of the U-shaped plate are each provided with a snap groove configured to connect the moving member;
preferably, the conveyor belt is a detachable conveyor belt, two detachable ends of the conveyor belt are each provided with a belt mounting hole, the bottom plate of the U-shaped plate is provided with bottom plate mounting holes at corresponding positions, and a screw passes through the bottom plate mounting hole and the belt mounting hole to connect and fix the U-shaped plate and the conveyor belt;
further preferably, the connecting member further comprises a rack belt provided on the other side of the conveyor belt opposite to the U-shaped plate, the rack belt is provided with a rack belt mounting hole at a corresponding position to the belt mounting hole in the conveyor belt, and a screw passes through the bottom plate mounting hole of the U-shaped plate, the belt mounting hole, and the rack belt mounting hole in the rack belt sequentially to mount and fix the conveyor belt and the connecting member.
 
10. The unlocking device according to any one of claims 7 to 9, characterized in that the control system further comprises a limit sensor mounted on the mounting platform via a bracket, limit sensors are provided at two extreme positions for movement of the connecting member, and the limit sensors are connected to the driving part to control the extreme positions for the movement of the connecting member.
 
11. The unlocking device according to any one of claims 7 to 10, characterized in that the conveyor belt tensioning device comprises:

a tensioning bracket movably mounted on the mounting platform and having a first end configured to mount the conveyor belt; and

a tension adjusting part mounted at a second end of the tensioning bracket, elastically connected to the tensioning bracket, and configured to adjust tension of the conveyor belt.


 
12. The unlocking device according to claim 11, characterized in that the tensioning bracket has a bottom plate movably mounted on the mounting platform, and an end plate on the other end of the bottom plate away from a mounting end of the conveyor belt; the tension adjusting part comprises a fixing plate, a limiting plate, a penetrating member, and an elastic member; the fixing plate is provided outside the tensioning bracket and to the mounting platform at a side of the end plate; the limiting plate is provided to the mounting platform inside the tensioning bracket through a limiting opening in the bottom plate; two ends of the penetrating member are respectively fixed to the limiting plate and the fixing plate and penetrate the end plate; the elastic member is provided to a part of the penetrating member between the limiting plate and the end plate and presses the limiting plate and the end plate at both ends.
 
13. The unlocking device according to claim 12, characterized in that the penetrating member comprises a screw and a nut; the screw penetrates the limiting plate, the end plate, and the fixing plate, and the nut is mounted at a penetrating end; the elastic member is configured as a spring; and/or
the tensioning bracket is provided with a side plate on each of two sides of the bottom plate; the conveyor belt has a first end mounted to the side plate of the tensioning bracket through a gear, and a second end connected to a drive wheel.
 
14. The unlocking device according to any one of claims 12 to 13, characterized in that the bottom plate of the tensioning bracket is further provided with a sliding slot extending along a length of the conveyor belt, and a slot screw passing through the sliding slot to be mounted to the mounting platform, a width of a head of the slot screw being greater than a width of the sliding slot.
 
15. The unlocking device according to any one of claims 6 to 14, characterized in that the moving seat is provided with a snap strip, and the unlocking device is inserted into a snap groove of the connecting member by means of the snap strip, so as to be connected to the drive control system;
preferably, the snap groove has a width extending in a horizontal direction, and the width of the snap groove is greater than a width of the snap strip to allow the snap strip to move horizontally in a width range of the snap groove.
 
16. A lock device, comprising:

a locking mechanism comprising: a lock base and a lock connecting rod, the lock base being configured to provide a locking point and having a lock slot into which a component to be locked is inserted, the lock connecting rod being movably connected with the lock base through a lock tongue, and the lock tongue having a stop block configured to prevent the component to be locked from separating from the lock slot after the component to be locked being inserted into the lock slot; and

an unlocking mechanism comprising an unlocking device according to any one of claims 1 to 15, the unlocking ejector rod of the unlocking device being configured to push the lock connecting rod, and the lock connecting rod causing the lock tongue to rotate during the rise so as to move the stop block away from its locked position.


 
17. A battery replacement mobile platform, comprising:

a travel driving part configured to drive the whole battery replacement mobile platform to move on the ground;

a lifting part mounted on the travel driving part and configured to realize rise and fall of a battery during a battery replacement process; and

a battery mounting part mounted on a top of the lifting part and configured to place thereon a replacement battery or a replaced battery, the battery mounting part having an upper surface provided with an unlocking device according to any one of claims 1 to 15 to unlock a battery locking mechanism of the electric vehicle under control of the drive device.


 
18. A fast battery replacement system, comprising:

a battery rack configured to place thereon a replacement battery of an electric vehicle and a battery to be charged and removed from the electric vehicle;

a stacker configured to put the battery to be charged into the battery rack and remove the replacement battery from the battery rack; and

a battery replacement mobile platform according to claim 17.


 




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Cited references

REFERENCES CITED IN THE DESCRIPTION



This list of references cited by the applicant is for the reader's convenience only. It does not form part of the European patent document. Even though great care has been taken in compiling the references, errors or omissions cannot be excluded and the EPO disclaims all liability in this regard.

Patent documents cited in the description