CN217198504U - Electric scooter who easily accomodates - Google Patents

Abstract

The utility model relates to the technical field of electric scooters, and provides an electric scooter easy to store, which comprises a pedal plate, a front fork, a handlebar assembly, a front wheel and a rear wheel; a connecting assembly is arranged between the pedal plate and the front fork and used for realizing assembly and storage by changing the angle between the front fork and the pedal plate; the connecting assembly comprises a first connecting arm and a second connecting arm which are connected, and a limiting structure used for fixing the second connecting arm in an assembling state; the end part of the first connecting arm is detachably connected with the front fork; the front end of the pedal is provided with a mounting cavity, and the end part of the second connecting arm is arranged in the mounting cavity and is hinged with the pedal through a pin shaft; in the mounting cavity, a distance is reserved between the pin shaft and the front end face of the pedal plate, the second connecting arm is used as a part of the pedal plate and is contained in the mounting cavity in an assembling state, the backward displacement distance of the front wheel is increased in a containing state, and space is saved.

Description

Electric scooter who easily accomodates

Technical Field

The utility model relates to an electric scooter technical field, concretely relates to electric scooter who easily accomodates.

Background

As shown in fig. 12 and 13, some existing foldable electric scooters include a pedal, a front fork, a handlebar assembly, and front and rear wheels, wherein the pedal and the front fork are rotatably connected by a connecting member, one end of the connecting member is welded to the front fork, the other end of the connecting member is hinged to the front end of the pedal, and the fixing of the unfolding state and the storage of the folding state are realized by a positioning member.

The electric scooter of this kind of structure, the front end of its running-board has set up a installation cavity for come fixed connection connecting piece through the round pin axle. In order to avoid the front wheel, the connecting piece has a certain inclination angle, and the position of the front end of the pedal for placing the mounting cavity is also inclined properly for adapting the connecting piece. Due to the fact that the position of the pin shaft is close to the front, when the connecting structure is stored, the wheel part is located in front of the pin shaft, namely L in the drawing, and therefore more storage space can be occupied.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome above-mentioned current foldable electric scooter and have the defect that occupies great storage space, provide an electric scooter who easily accomodates.

In order to achieve the above object, the utility model discloses a following technical scheme can realize: an electric scooter easy to store comprises a pedal, a front fork, a handlebar assembly and front and rear wheels; a connecting assembly is arranged between the pedal plate and the front fork and used for realizing assembly and storage by changing the angle between the front fork and the pedal plate; the connecting assembly comprises a first connecting arm and a second connecting arm which are connected, and a limiting structure used for fixing the second connecting arm in an assembling state;

the end part of the first connecting arm is detachably connected with the front fork;

the front end of the pedal is provided with a mounting cavity, and the end part of the second connecting arm is arranged in the mounting cavity and is hinged with the pedal through a pin shaft; in the mounting cavity, a distance is reserved between the pin shaft and the front end face of the pedal plate, so that the second connecting arm is used as a part of the pedal plate and is contained in the mounting cavity in an assembling state, and the backward displacement distance of the front wheel is increased in a containing state.

The utility model discloses further preferred scheme does: the first connecting arm and the second connecting arm are sheet metal parts and comprise a pair of side plates which are parallel and oppositely arranged, and a bottom plate and a cover plate which are used for connecting the two side plates; the cover plate is positioned at the upper end of the side plate, and the bottom plate is positioned at the lower end of the side plate.

The utility model discloses further preferred scheme does: the limiting structure comprises a limiting clamping groove arranged on the second connecting arm, a limiting movable groove arranged in the mounting cavity, a limiting part arranged in the limiting movable groove in a sliding manner, and an elastic part used for driving the limiting part;

in an assembling state, the limiting part is tightly propped against the limiting clamping groove under the action of the elastic part so as to limit the rotation of the second connecting arm.

The utility model discloses further preferred scheme does: the limiting clamping groove is arranged at the joint of the second connecting arm and the first connecting arm; the elastic part is a tension spring, the limiting part is a movable pin, and the limiting movable groove extends in the length direction of the pedal plate in the mounting cavity; one end of the tension spring is fixed with the pin shaft, and the other end of the tension spring is fixed with the movable pin.

The utility model discloses further preferred scheme does: the second connecting arm is arranged in a hollow mode, and the pin shaft penetrates through the end portion of the second connecting arm; in the assembled state, the tension spring is located in the hollow second connecting arm.

The utility model discloses further preferred scheme does: the two sides of the second connecting arm are respectively provided with a clamping plate, and the limiting clamping groove is formed in one end of the clamping plate.

The utility model discloses further preferred scheme does: the connecting assembly further comprises a mounting seat, and the pin shaft, the limiting piece, the elastic piece and the limiting movable groove are all arranged on the mounting seat; the mounting seat is detachably connected with the pedal.

The utility model discloses further preferred scheme does: the mounting seat comprises two fixing plates which are arranged in parallel, two ends of the pin shaft are respectively connected with the fixing plates, and the limiting movable grooves are respectively oppositely arranged on the two fixing plates; the elastic piece is positioned between the two fixing plates.

The utility model discloses further preferred scheme does: still be equipped with the safety cover that is used for protecting the elastic component between elastic component and the fixed plate, the locating part wears to locate the front end of safety cover, the rear end of safety cover be equipped with the activity hole of the corresponding length of spacing activity groove, the round pin axle is worn to locate the activity hole.

The utility model discloses further preferred scheme does: the first connecting arm with the contained angle between the second connecting arm is the obtuse angle, first connecting arm with connect through threaded fastener between the front fork.

The utility model discloses further preferred scheme does: and a crow bar used for relieving the assembly state by driving the limiting piece to be separated from the limiting clamping groove is further arranged on the first connecting arm.

The utility model discloses further preferred scheme does: the crowbar comprises two end parts, wherein the first end part is positioned between the limiting part and the elastic part, and the middle part of the crowbar is rotatably connected with the first connecting arm through a shaft; when the crowbar is used, the second end part of the crowbar is pressed to enable the crowbar to rotate by taking the middle shaft as a fulcrum, so that the first end part is driven to prop against the limiting part and move in the direction away from the limiting clamping groove.

The utility model discloses further preferred scheme does: the crowbar is arranged in a hollow first connecting arm, and the first connecting arm is provided with a notch for conveniently operating the crowbar on the cover plate; and a handle used for saving labor by prolonging the force arm when in use is arranged at the second end part of the crow bar.

The utility model discloses further preferred scheme does: the notch is provided with a decorative cover which is rotatably connected with the second end part; the decoration cover is covered at the gap when rotating to the first position, and the decoration cover is used as the handle to extend the second end when rotating to the second position.

The utility model discloses further preferred scheme does: the inner wall of the decorative cover is provided with a shaft seat, and the decorative cover is rotatably connected with the second end part through a shaft on the shaft seat; in the rotating direction of the decorative cover around the second end part, one end of the decorative cover can be abutted against the second end part to limit the movable angle of the decorative cover.

The utility model discloses further preferred scheme does: and a torsion spring is arranged on a shaft in the middle of the crowbar and used for driving the crowbar to reset after use.

The utility model discloses further preferred scheme does: the mounting cavity is internally provided with a second limiting part, and the second limiting part is arranged on a rotating path of the first end part and used for limiting the first end part to continue rotating after the limiting part is separated from the limiting clamping groove.

The utility model discloses further preferred scheme does: the decorative cover is provided with an elastic roller at one end opposite to the shaft seat; after the decorative cover is closed with the gap, self-locking is realized through the tight fit of the elastic roller and the inner edge of the gap; the decorative cover is also provided with a through hole for pulling out the decorative cover from the notch by extending fingers when in use.

The utility model discloses further preferred scheme does: the torsion spring comprises two spring bodies, a U-shaped connecting part and connecting pins, wherein the U-shaped connecting part is positioned between the two spring bodies, and two ends of the U-shaped connecting part are respectively used for connecting the spring bodies; the crowbar is provided with concave parts for accommodating the spring bodies on two sides of the shaft respectively, the two torsion spring bodies are sleeved on two sides of the shaft respectively, and connecting pins positioned on the outer sides of the two spring bodies are connected with the side walls of the first connecting arms respectively; the concave part is also provided with an axial limiting part for preventing the connecting pin from falling off from the side wall of the first connecting arm due to axial contraction of the spring body during torsion; and a circumferential limiting part for limiting the torsion angle of the spring body is further arranged at the concave part, and when the spring body is twisted to the limit position in the resetting process, the supporting legs connected with the spring body abut against the circumferential limiting part.

To sum up, the utility model discloses following beneficial effect has: through setting up coupling assembling part in the running-board and with the rearmounted one end distance of round pin axle in the running-board to increase the turning radius of front wheel under the state of accomodating, let the front wheel can rearmounted one end distance, make the front end of front wheel and running-board align as far as possible, consequently can reduce the accommodation space of electric scooter fold condition, thereby save the packing expense in the transportation.

Drawings

Fig. 1 is a schematic structural view of the electric scooter in embodiment 1 in an assembled state.

Fig. 2 and 3 are schematic structural views of the connection assembly and the mount in embodiment 1.

Fig. 4 is a schematic structural view of the electric scooter in the folded and stored state in embodiment 1.

Fig. 5 is a schematic structural view of the connection assembly in a folded and stored state.

Fig. 6 is a sectional view of the connection assembly in a folded and stored state.

Fig. 7 is an enlarged view at a in fig. 6.

Fig. 8 is a view showing a state of use of the handle and the crow bar.

Fig. 9 is a schematic structural view of the decorative cover.

Fig. 10 is a schematic structural view of the crow bar and the torsion spring.

Fig. 11 is an exploded view of the crowbar and the torsion spring.

Fig. 12 is a schematic structural view of a conventional electric scooter in an assembled state.

Fig. 13 is a schematic structural view of a conventional electric scooter in a folded and stored state.

Wherein: 100. a front fork; 200. a handlebar assembly; 300. a foot pedal; 310. a mounting cavity; 400. a connection assembly; 410. a first connecting arm; 411. a notch 420, a second connecting arm; 430. a side plate; 440. a cover plate; 450. a base plate; 460. a splint; 461. a limiting clamping groove; 510. a fixing plate; 511. a limiting movable groove; 520. a pin shaft; 530. an elastic member; 531. a protective cover; 532. a movable hole; 540. a limiting member; 600. a crow bar; 610. a first end portion; 620. a second end portion; 630. a decorative cover; 631. a shaft seat; 632. a through hole; 633. an elastic roller; 640. a second limiting part; 650. a torsion spring; 651. A spring body; 652. a connecting pin; 660. a recess; 661. an axial limiting part; 662. a circumferential limiting part.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications without inventive contribution to the present embodiment as required after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Example 1:

as shown in fig. 1-9, the present invention provides an electric scooter easy to store, which comprises a pedal 300, a front fork 100, a handlebar assembly 200, and front and rear wheels. A connection assembly 400 is provided between the foot board 300 and the front fork 100, and the connection assembly 400 is used to achieve assembly and folding by changing an angle between the front fork 100 and the foot board 300.

Specifically, the connecting assembly 400 includes a first connecting arm 410 and a second connecting arm 420 connected together, and a limiting structure for fixing the second connecting arm 420 in an assembled state.

Wherein an end of the first link arm 410 is detachably connected to the front fork 100.

The front end of the pedal 300 is provided with a mounting cavity 310 (or a groove), and the end of the second connecting arm 420 is arranged in the mounting cavity 310 and hinged with the pedal 300 through a pin 520. In the mounting cavity 310, the pin 520 is spaced apart from the front end surface of the footboard 300, so that the second link arm 420 is a part of the footboard 300 and is received in the mounting cavity 310 in the assembled state, and the backward displacement distance of the front wheel is increased in the folded state.

It can be known through comparing fig. 4 and fig. 8, the utility model provides an electric scooter side, because the round pin axle 520 is rearmounted, consequently the front wheel is folding after rotating around round pin axle 520, its turning radius grow, the corresponding grow of collapsible region is also, consequently the front wheel can align as far as with the front end of running-board 300 to shorten the storage distance of running-board 300 front end, so when the packing transportation, just can energy-conserving packing expense and transportation space.

In this embodiment, the first connecting arm 410 and the second connecting arm 420 are sheet metal parts, and include a pair of parallel side plates 430, and a bottom plate 450 and a cover plate 440 for connecting the two side plates 430. The side plates 430 are integrally formed, the cover plate 440 is located at the upper ends of the side plates 430, and the bottom plate 450 is located at the lower ends of the side plates 430. An included angle between the first connecting arm 410 and the second connecting arm 420 is an obtuse angle, and the first connecting arm 410 and the front fork 100 are connected through a threaded fastener. In this embodiment, the first connecting arm 410 and the second connecting arm 420 are made of sheet metal parts, which is easy to produce and process and has high strength.

The limiting structure includes a limiting engaging slot 461 disposed on the second connecting arm 420, a limiting moving slot 511 disposed in the mounting cavity 310, a limiting member 540 slidably disposed in the limiting moving slot 511, and an elastic member 530 for driving the limiting member 540.

In an assembled state, the limiting member 540 is pressed against the limiting slot 461 by the elastic member 530 to limit the rotation of the second connecting arm 420.

Specifically, the limiting slot 461 is disposed at a connection position of the second connecting arm 420 and the first connecting arm 410. The elastic member 530 is a tension spring, the limiting member 540 is a movable pin, and the limiting movable groove 511 extends along the length direction of the pedal 300 in the installation cavity 310. One end of the tension spring is fixed to the pin 520, and the other end of the tension spring is fixed to the movable pin.

Due to the adoption of the sheet metal part, the second connecting arm 420 is arranged in a hollow mode, and the pin shaft 520 penetrates through the end part of the second connecting arm 420. In the assembled state, the tension spring is located in the hollow second connecting arm 420.

In this embodiment, the both sides of second linking arm 420 are equipped with a splint 460 respectively, and splint 460 and curb plate 430 are laminated mutually and are in the same place through the bolt-up, not only can increase second linking arm 420's intensity, but also can assemble the splint 460 of different sizes (can be through the length control size of different splint 460) according to the electric scooter of different models. The limiting clamping groove 461 is arranged at one end of the clamping plate 460.

The connecting assembly 400 further comprises a mounting seat, and the pin shaft 520, the limiting member 540, the elastic member 530 and the limiting movable groove 511 are all arranged on the mounting seat; the mount is detachably connected to the foot pedal 300.

The pedal 300 is hollow and includes an upper pedal and a lower pedal, and a gap is formed at the front end of the upper pedal, so as to form the mounting cavity 310.

The mounting seat comprises two fixing plates 510 which are arranged in parallel, wherein the fixing plates 510 are erected on the lower pedal, extend along the length direction of the pedal and are fastened through bolts. The two ends of the pin shaft 520 are respectively connected with the fixing plates 510, and the limiting movable grooves 511 are respectively oppositely arranged on the two fixing plates 510. The elastic member 530 is also positioned between the two fixing plates 510.

In order to place the ash and enter the extension spring, thereby influencing the work of the extension spring, still be equipped with the safety cover 531 that is used for protecting elastic component 530 between elastic component 530 and fixed plate 510, locating part 540 wears to locate the front end of safety cover 531, the rear end of safety cover 531 be equipped with the activity hole 532 of the corresponding length of spacing activity groove 511, round pin axle 520 wears to locate activity hole 532.

In order to conveniently and rapidly release the assembled state of the electric scooter when the electric scooter is stored, in this embodiment, the first connecting arm 410 is further provided with a crow bar 600 for releasing the assembled state by driving the limiting member 540 to disengage from the limiting slot 461.

Specifically. The crow bar 600 comprises two end portions, wherein a first end portion 610 is located between the limiting member 540 and the elastic member 530, and the middle of the crow bar 600 is rotatably connected to the first connecting arm 410 through a shaft; when the crow bar 600 is used, the second end 620 of the crow bar 600 is pressed to rotate the crow bar 600 about the middle axis as a pivot, so as to drive the first end 610 to push against the limiting member 540 to move in a direction away from the limiting slot 461.

It should be noted that, here, the crow bar 600 is used as a lever, and the shaft in the middle of the crow bar 600 is a fulcrum, and when it is used as a lever, the distance from the first end 610 to the fulcrum is a moment arm, and the distance from the second end 620 to the fulcrum is another moment arm, so the shaft in the middle of the crow bar 600 is the fulcrum between the two moment arms, and not a specific spatial position.

Further, in the present embodiment, the crow bar 600 is fixed between the side plates 430 (on both sides of the first link arm) by a shaft, and the crow bar 600 can freely rotate within a certain angle range with the shaft as a rotation center. A notch 411 for facilitating the operation of the crow bar 600 is provided on the cover plate 440 at the first connecting arm 410. Meanwhile, a handle for saving labor by extending a force arm when in use is provided on the second end 620 of the pry bar 600.

More specifically, a decorative cover 630 is disposed on the gap 411, and the decorative cover 630 is rotatably connected to the second end 620. That is, the cosmetic cover 630 may be used as a handle. When the decorative cover 630 rotates to a first position, the decorative cover is covered at the gap 411, and when the decorative cover 630 rotates to a second position, the decorative cover serves as the handle to extend the second end 620.

In this embodiment, two sides of the back of the decorative cover 630 are respectively provided with a folded edge, and the two folded edges are opposite to each other to form the axle seat 631. The decorative cover 630 is rotatably connected with the second end 620 through a shaft on a shaft seat 631; in the rotation direction of the decorative cover 630 around the second end 620, one end of the decorative cover 630 can abut against the second end 620 to limit the movable angle thereof. In addition, a torsion spring 650 is provided on a shaft in the middle of the crow bar 600, for driving the crow bar 600 to return after use.

In order to enhance the strength of the folded edges, a reinforcing rib is arranged between the two folded edges, and the reinforcing rib is close to the axle hole of the axle seat 631.

More specifically, the torsional spring includes two spring bodies, is located between two spring bodies and both ends are used for connecting the U-shaped connecting portion of spring body respectively to and be located the connecting pin of spring body outer end respectively.

As shown in fig. 10 and 11, the crow bar 600 is provided with recesses 660 at two sides of the shaft for accommodating the spring bodies 651, two torsion springs 650 are respectively sleeved at two sides of the shaft, and the connecting pins 652 at the outer sides of the two spring bodies 651 are respectively connected to the side walls of the first connecting arm 410. The end of the connecting leg 652 has a 90 degree corner, a round hole adapted to the connecting leg 652 is provided on the side plate 430, and the connecting leg 652 is inserted into the round hole to be fixed with the side plate 430.

An axial direction stopper 661 is disposed in the recess 660 for preventing the connecting leg 652 from falling off from the side wall of the first connecting arm 410 due to the axial contraction of the spring body 651 when twisted. When the torsion spring 650 is twisted and contracted due to deformation, the connecting legs 652 may be separated from the circular holes due to contraction, and therefore, an axial direction restriction portion 661 is disposed between the two connecting legs 652 to prevent the connecting legs 652 from being separated.

In this embodiment, the axial limiting portion 661 is located on the crow bar 600, and has a certain width (radian) to ensure that the connecting leg 652 always abuts against the axial limiting portion 661 when the connecting leg 652 deflects in the circumferential direction.

Furthermore, a circumferential limiting portion 662 for limiting the twisting angle of the spring body 651 is further arranged at the concave portion 660, and when the spring body 651 is twisted to a limit position in the resetting process, a supporting leg connected with the spring body 651 abuts against the circumferential limiting portion 662. The circumferential direction limiting portion 662 and the axial direction limiting portion 661 are connected together, so that the stability of the support leg in the process of twisting can be further ensured.

After the electric scooter is assembled, the decorative cover 630 should be closed with the notch 411 to maintain the storage state. In order to enable the decorative cover 630 to be tightly closed with the notch 411 when being stored, in this embodiment, an elastic roller 633 is disposed at an end of the decorative cover 630 opposite to the shaft seat 631; after the decorative cover 630 is closed with the notch 411, self-locking is realized through tight fit between the elastic roller 633 and the inner edge of the notch 411.

In addition, in the process of packaging and transporting, the electric scooter needs to be folded, so that the decoration cover 630 may not be closed tightly due to negligence of workers or external force (as shown in fig. 4), and the opened decoration cover 630 may collide with the pedal 300 due to bumping in the transportation process, or even scratch the surface (package) of the pedal 300 in the process of repeated collision, thereby affecting the integrity of the appearance. At this time, due to the existence of the elastic roller 633, even after the decoration cover 630 is opened, the decoration cover does not directly contact with the pedal 300, but elastically contacts with the pedal 300 through the elastic roller 633, thereby playing a good buffering role and not damaging the pedal 300.

When the decoration cover 630 is closed with the gap 411, the front surface of the decoration cover 630 is substantially flush with the cover plate 440, and is not easy to be taken out. Therefore, a through hole is formed in the middle of the decorative cover 630, so that a finger can be conveniently inserted to pull out the decorative cover 630 as a handle.

In this embodiment, a second limiting portion 640 is disposed in the mounting cavity 310, and the second limiting portion 640 is disposed on a rotation path of the first end portion 610, so as to limit the first end portion 610 to continue to rotate after the limiting member 540 is disengaged from the limiting engaging slot 461.

Specifically, the second position-limiting portion 640 is a metal rod, such as a pin, and two ends of the pin are respectively connected to the fixing plate 510. When the limiting member 540 is driven by the first end portion 610 to be disengaged from the limiting engaging slot 461, the first end portion 610 can be stopped by the pin to continue rotating.

In this embodiment, when electric scooter assembles by fold condition, second linking arm 420 can slowly put into installation cavity 310, in order to cushion it at this in-process, still be equipped with two elastic rubber covers on the pin in this embodiment, the elastic rubber cover just in time is located the rotation path of splint 460 tip (the one end that has spacing draw-in groove 461), when second linking arm 420 puts into installation cavity 310 completely, splint 460 has the one end butt of spacing draw-in groove 461 to put on the elastic rubber cover.

Claims (19)

1. An electric scooter easy to store comprises a pedal, a front fork, a handlebar assembly and front and rear wheels; a connecting assembly is arranged between the pedal plate and the front fork and is used for realizing assembly and folding by changing the angle between the front fork and the pedal plate; the connecting assembly is characterized by comprising a first connecting arm, a second connecting arm and a limiting structure, wherein the first connecting arm and the second connecting arm are connected with each other;

the end part of the first connecting arm is detachably connected with the front fork;

the front end of the pedal is provided with a mounting cavity, and the end part of the second connecting arm is arranged in the mounting cavity and is hinged with the pedal through a pin shaft; in the mounting cavity, a distance is reserved between the pin shaft and the front end face of the pedal plate, so that the second connecting arm is used as a part of the pedal plate and is contained in the mounting cavity in an assembling state, and the backward displacement distance of the front wheel is increased in a folding state.

2. The easy-to-store electric scooter as claimed in claim 1, wherein the first connecting arm and the second connecting arm are sheet metal parts, comprising a pair of parallel and oppositely disposed side plates, and a bottom plate and a cover plate for connecting the two side plates; the cover plate is positioned at the upper end of the side plate, and the bottom plate is positioned at the lower end of the side plate.

3. The electric scooter with easy storage according to claim 1, wherein the limiting structure comprises a limiting slot disposed on the second connecting arm, a limiting movable slot disposed in the mounting cavity, a limiting member slidably disposed in the limiting movable slot, and an elastic member for driving the limiting member;

in an assembling state, the limiting part is tightly propped against the limiting clamping groove under the action of the elastic part so as to limit the rotation of the second connecting arm.

4. The easy-to-store electric scooter according to claim 3, wherein the limiting clamping groove is formed at a connection position of the second connecting arm and the first connecting arm; the elastic part is a tension spring, the limiting part is a movable pin, and the limiting movable groove extends in the length direction of the pedal plate in the mounting cavity; one end of the tension spring is fixed with the pin shaft, and the other end of the tension spring is fixed with the movable pin.

5. The electric scooter easy to store as claimed in claim 4, wherein the second connecting arm is hollow, and the pin shaft is inserted through an end of the second connecting arm; in the assembled state, the tension spring is located in the hollow second connecting arm.

6. The electric scooter with easy storage according to claim 5, wherein a clamping plate is respectively disposed on two sides of the second connecting arm, and the limiting clamping groove is disposed on one end of the clamping plate.

7. The electric scooter easy to store as claimed in claim 3, wherein the connecting assembly further comprises a mounting seat, and the pin, the limiting member, the elastic member and the limiting movable groove are all disposed on the mounting seat; the mounting seat is detachably connected with the pedal.

8. The electric scooter easy to store as claimed in claim 7, wherein the mounting seat comprises two parallel fixing plates, two ends of the pin shaft are respectively connected with the fixing plates, and the limiting movable grooves are respectively oppositely arranged on the two fixing plates; the elastic piece is positioned between the two fixing plates.

9. The electric scooter easy to store according to claim 8, wherein a protection cover for protecting the elastic member is further disposed between the elastic member and the fixing plate, the limiting member is disposed at a front end of the protection cover, a moving hole having a length corresponding to the length of the limiting moving groove is disposed at a rear end of the protection cover, and the pin shaft is disposed in the moving hole.

10. The easy-to-store electric scooter as claimed in claim 1, wherein the angle between the first connecting arm and the second connecting arm is an obtuse angle, and the first connecting arm and the front fork are connected by a screw fastener.

11. The electric scooter of claim 3, wherein the first connecting arm further comprises a lever for releasing the assembly state by driving the stopper out of the stopper slot.

12. The stowable electric scooter according to claim 11, wherein the lever includes two ends, a first end is located between the stopper and the elastic member, and the middle of the lever is rotatably connected to the first connecting arm through a shaft; when the crowbar is used, the second end part of the crowbar is pressed to enable the crowbar to rotate by taking the shaft in the middle as a fulcrum, so that the first end part is driven to support the limiting part and move in the direction away from the limiting clamping groove.

13. The stowable electric scooter according to claim 12, wherein the pry bar is provided within a hollow first connecting arm, the first connecting arm having a notch on a cover plate for facilitating operation of the pry bar; and a handle used for saving labor by prolonging the force arm when in use is arranged at the second end part of the crow bar.

14. The easy-to-store electric scooter as claimed in claim 13, wherein the notch is provided with a decoration cover, the decoration cover is rotatably connected to the second end; the decoration cover is covered at the gap when rotating to the first position, and the decoration cover is used as the handle to extend the second end when rotating to the second position.

15. The easy-to-store electric scooter as claimed in claim 14, wherein an axle seat is provided on an inner wall of the decoration cover, and the decoration cover is rotatably connected to the second end portion via an axle on the axle seat; in the rotating direction of the decorative cover around the second end part, one end of the decorative cover can be abutted against the second end part to limit the movable angle of the decorative cover.

16. The easy-to-store electric scooter as claimed in claim 12, wherein a torsion spring is provided on a shaft in the middle of the crow bar for driving the crow bar to return after use.

17. The electric scooter with easy storage according to claim 13, wherein a second position-limiting portion is disposed in the mounting cavity, and the second position-limiting portion is disposed on a rotation path of the first end portion for limiting the first end portion from continuing to rotate after the position-limiting member is disengaged from the position-limiting engaging groove.

18. The easy-to-store electric scooter as claimed in claim 15, wherein the decoration cover is provided with an elastic roller at an end opposite to the axle seat; after the decorative cover is closed with the gap, self-locking is realized through the tight fit of the elastic roller and the inner edge of the gap; the decorative cover is also provided with a through hole for pulling out the decorative cover from the notch by extending fingers when in use.

19. The easy-to-store electric scooter as claimed in claim 16, wherein the torsion spring comprises two spring bodies, a U-shaped connecting portion between the two spring bodies and having two ends for connecting the spring bodies, respectively, and connecting legs at outer ends of the spring bodies, respectively; the crowbar is provided with concave parts for accommodating the spring bodies on two sides of the shaft respectively, the two torsion spring bodies are sleeved on two sides of the shaft respectively, and connecting pins positioned on the outer sides of the two spring bodies are connected with the side walls of the first connecting arms respectively; the concave part is also provided with an axial limiting part for preventing the connecting pin from falling off from the side wall of the first connecting arm due to axial contraction of the spring body during torsion; and a circumferential limiting part for limiting the torsion angle of the spring body is further arranged at the concave part, and when the spring body is twisted to the limit position in the resetting process, the supporting legs connected with the spring body abut against the circumferential limiting part.

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