CN215553880U - Handlebar lifting stepless adjusting structure for scooter - Google Patents

Abstract

The utility model discloses a handlebar lifting stepless adjusting structure for a scooter. The scooter comprises a scooter handlebar main body, wherein the scooter handlebar main body comprises an outer pipe element; the inner pipe fitting can be telescopically moved relative to the outer pipe fitting; the driving piece is movably arranged on the scooter handlebar main body; the rope piece is arranged on the scooter handlebar main body, and one end of the rope piece is in action fit with the driving piece; the first limiting piece is in action fit with the other end of the rope piece; the second limiting piece is matched with the first limiting piece and used for limiting the telescopic movement of the inner pipe fitting; the first limiting pieces and the second limiting pieces are arranged on the inner pipe fitting or the outer pipe fitting in a one-to-one correspondence manner; when the driving member moves to drive the rope member to displace, the first limiting member is separated from the second limiting member so that the inner pipe member can move relative to the outer pipe member in a telescopic manner. The utility model has the advantages of convenient operation, high use safety, neat and beautiful whole and small occupied space.

Description

Handlebar lifting stepless adjusting structure for scooter

Technical Field

The utility model relates to the technical field of scooters, in particular to a handlebar lifting stepless adjusting structure for a scooter.

Background

The scooter is common instrument or toy among the daily life, and different users are to the requirement diverse of handle height, consequently, the riser of current scooter handle department usually designs for liftable form, and what correspond needs the design to have a locking structure for make the riser height remain stable after height control finishes.

The existing scooter is relatively complex in locking structure and inconvenient to operate, and is improved aiming at the defects.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides a handlebar lifting stepless adjusting structure for a scooter.

In order to solve the technical problems, the utility model is solved by the following technical scheme:

a handlebar lifting stepless adjusting structure for a scooter comprises a scooter handlebar main body, wherein the scooter handlebar main body comprises a handle bar body

An outer tubular member;

an inner tubular member telescopically movable relative to the outer tubular member;

the driving piece is movably arranged on the scooter handlebar main body;

the rope piece is arranged on the scooter handlebar main body, and one end of the rope piece is in action fit with the driving piece;

the first limiting piece is in action fit with the other end of the rope piece;

the second limiting piece is matched with the first limiting piece and used for limiting the telescopic movement of the inner pipe fitting;

the first limiting parts and the second limiting parts are arranged on the inner pipe fitting or the outer pipe fitting in a one-to-one correspondence manner;

when the driving member moves to drive the rope member to displace, the first limiting member is separated from the second limiting member so that the inner pipe member can move relative to the outer pipe member in a telescopic manner.

Among the above-mentioned technical scheme, preferred, scooter handlebar main part is including handlebar spare, the driving piece activity set up in on the handlebar spare.

In the above technical solution, preferably, the driving member is movably disposed on the sidewall of the handle bar member, and the driving member includes a first inclined surface;

the handlebar piece is provided with a first connecting piece in a sliding manner, and the first connecting piece comprises a second inclined plane matched with the first inclined plane;

the rope piece is a flexible deformable rope, one end of the rope piece is connected with the connecting piece, the other end of the rope piece is connected with the first limiting piece arranged on the inner pipe piece after bypassing a first shaft arranged in the inner pipe piece, an elastic piece for pushing the first limiting piece to the direction of the second limiting piece is arranged in the inner pipe piece, and the first limiting piece comprises a plurality of bosses;

the second limiting piece is arranged at the outer pipe piece and comprises a plurality of concave parts or hole parts matched with the bosses;

when the driving piece is pressed towards the inner side of the handle piece, the connecting piece moves towards the direction away from the inner pipe piece, and meanwhile, the first limiting piece moves towards the direction away from the second limiting piece.

In the above technical solution, preferably, a first assembly part is assembled on the inner pipe, the first shaft is disposed on the first assembly part, and the elastic part is disposed between the first limiting part and the first assembly part.

In the above technical solution, preferably, a positioning member is fixedly arranged on the handle bar member, and the first connecting member is slidably arranged on the positioning member;

the inner pipe fitting is a hollow pipe fitting, a first through hole communicated with the hollow part is formed in the inner pipe fitting, and the first limiting part is arranged at the first through hole.

In the above technical solution, preferably, the driving member is movably disposed on the top wall of the handle member;

the rope piece is a rigid non-deformable or basically non-deformable rod piece, one end of the rope piece is connected with the driving piece, the other end of the rope piece is connected with a second connecting piece arranged in the inner pipe fitting, the second connecting piece comprises a third inclined surface, and the first limiting piece comprises a fourth inclined surface matched with the third inclined surface;

the inner pipe fitting is internally provided with an elastic piece which pushes the first limiting piece to the direction of the second limiting piece, and the first limiting piece comprises a plurality of bosses;

the second limiting piece is arranged at the outer pipe piece and comprises a plurality of concave parts or hole parts matched with the bosses;

when the driving piece is pressed towards the inner side of the handle piece, the second connecting piece pushes the first limiting piece to move towards the direction far away from the second limiting piece.

In the above technical solution, preferably, a second assembly member is assembled on the inner pipe member, and the elastic member is disposed between the first limiting member and the second assembly member.

In the above technical solution, preferably, the outer pipe is provided with a third limiting member for limiting the telescopic movement of the inner pipe.

In the above technical solution, preferably, the third limiting member includes a main body fixedly disposed on the outer pipe, a deformation portion fixedly connected to the main body at only a part of the main body, and a movable portion rotatably disposed on the main body, and the movable portion has an external protrusion;

when the movable part is buckled, the outer convex part pushes the deformation part to be abutted against the inner pipe;

when the movable part is unfolded, the deformation part is reset to be separated from the inner pipe.

In the above technical solution, preferably, the third limiting member includes a main body fixedly disposed on the outer pipe member, a movable member eccentrically and rotatably disposed on the main body, and a friction member movably disposed on the main body;

when the movable piece is buckled, the convex part on the movable piece pushes the friction piece to enable the friction piece to be abutted against the inner pipe;

when the movable member is unfolded, the protrusion on the movable member is separated from the friction member.

The utility model has the beneficial effects that:

the utility model has convenient operation, can quickly realize the unlocking of the upright post by pressing the driving piece arranged near the handlebar of the scooter, and can change the upright post into a liftable upright post to realize the unlocking; the elastic piece drives the limiting piece to automatically reset when no external force acts on the elastic piece, so that the locking purpose is realized;

the utility model has high use safety, can have a double locking structure and is firmly locked;

the built-in locking structure is designed, the whole body is neat and beautiful, all the components are tightly matched, and the occupied space is small.

Drawings

Fig. 1 is a schematic view of embodiment 1 of the present invention.

Fig. 2 is an exploded view of embodiment 1 of the present invention.

Fig. 3 is a schematic view illustrating a rope member, a first limiting member and a second limiting member according to embodiment 1 of the present invention.

Fig. 4 is an exploded view of the driving member, the first connecting member and the positioning member in embodiment 1 of the present invention.

Fig. 5 is a schematic view of a driving member in embodiment 1 of the present invention.

Fig. 6 is a schematic view of a positioning element in embodiment 1 of the present invention.

Fig. 7 is a schematic view of a first connecting member in embodiment 1 of the present invention.

Fig. 8 is a schematic view illustrating the rope member and the first limiting member according to embodiment 1 of the present invention.

Fig. 9 is a schematic view of a first assembly according to embodiment 1 of the present invention.

Fig. 10 is a schematic view of embodiment 2 of the present invention.

Fig. 11 is an exploded view of embodiment 2 of the present invention.

Fig. 12 is a schematic view of a second assembly according to example 2 of the present invention.

Fig. 13 is a schematic view of a first limiting member in embodiment 2 of the utility model.

Fig. 14 is a schematic view of a second connector in embodiment 2 of the present invention.

Fig. 15 is a schematic view of a driving member in embodiment 2 of the present invention.

Fig. 16 is an exploded view of a third position-limiting element according to the first structure of the present invention.

Fig. 17 is a schematic view of a movable portion of a third limiting member according to a first structure of the present invention.

Fig. 18 is an exploded view of a third position limiting element according to a second structure of the present invention.

Detailed Description

The utility model is described in further detail below with reference to specific embodiments and the attached drawing figures:

example 1:

referring to fig. 1-9 and 16-18, a handlebar lifting stepless adjusting structure for a scooter comprises a scooter handlebar main body, wherein the scooter handlebar main body comprises a handlebar piece 1, an outer pipe piece 2, an inner pipe piece 3, a first driving piece 4, a rope piece 5, a first limiting piece 6 and a second limiting piece 7.

Outer pipe fitting 2 can fix and locate the scooter main part on, inner pipe fitting 3 assembles on outer pipe fitting 2, and it can be relative outer pipe fitting 2 flexible activity for the height of adjusting the handlebar, in this embodiment, outer pipe fitting 2 is hollow pipe fitting, and inner pipe fitting 3 inserts the hollow position department of locating outer pipe fitting 2, and both can be sliding fit.

The first driving member 4 is movably disposed on the handle body of the scooter, in this embodiment, the first driving member 4 is movably disposed on the sidewall of the handle bar 1, the first driving member 4 includes a first inclined surface 41, and the first driving member 4 is a component for pressing and is moved toward the inner side of the handle bar 1 by pressing.

Set firmly setting element 11 on handlebar spare 1, the slip is provided with first connecting piece 12 on setting element 11, first connecting piece 12 including with first inclined plane 41 matched with second inclined plane 121, in this embodiment, first inclined plane 41 is up, it is by being close to first driving piece 4 toward keeping away from first driving piece 4 direction progressively down slope, second inclined plane 121 is down, it is by being close to first connecting piece 12 toward keeping away from first connecting piece 12 direction progressively up slope, after promoting first driving piece 4 toward handlebar spare 1 inboard direction, first connecting piece 12 is toward handlebar 1 top direction removal.

The first connecting piece 12 is connected with the rope piece 5, and the rope piece 5 is a flexible and deformable rope and can be a common rope pulling part.

The first limiting parts 6 and the second limiting parts 7 are correspondingly arranged on the inner pipe 3 or the outer pipe 2 one by one, and it can be understood that the first limiting parts 6 and the second limiting parts 7 can be arranged on the inner pipe 3 or the outer pipe 2, and when the first limiting parts 6 are arranged on the inner pipe 3, the second limiting parts 7 are arranged on the outer pipe 2; when the first limiting member 6 is disposed on the outer pipe 2, the second limiting member 7 is disposed on the inner pipe 3.

In this embodiment, the first limiting member 6 is disposed on the inner tube 3, and the second limiting member 7 is disposed on the outer tube 2.

The first limiting part 6 comprises a plurality of bosses 61, the second limiting part 7 comprises a plurality of concave parts or hole parts matched with the bosses 61, and the first limiting part 6 is matched with the second limiting part 7 to limit the telescopic movement of the inner pipe fitting 3 so as to be positioned relative to the outer pipe fitting 2.

The second locating part 7 can be a strip-shaped part, correspondingly, an installation groove for installing the strip-shaped second locating part 7 can be designed on the inner wall of the outer pipe part 2, and similarly, an inner groove for providing a containing space for the second locating part 7 can also be designed on the inner pipe part 3 so as to reduce the overall outer diameter of the vertical pipe.

The inner pipe fitting 3 is a hollow pipe fitting, a first through hole 31 communicated with the hollow part is formed in the inner pipe fitting 3, a first assembly part 81 is assembled on the inner pipe fitting 3, at least part of the first assembly part 81 is assembled in the hollow part of the inner pipe fitting 3, a first shaft 811 is arranged on the first assembly part 81, and the lower end of the rope part 5 is connected with the first limiting part 6 after bypassing the first shaft 811.

The first limiting member 6 is disposed at the first through hole 31, a first elastic member 812 is disposed between the first limiting member 6 and the wall of the first assembly 81, the first elastic member 812 may be a spring, and through the action of the first elastic member 812, the first limiting member 6 is always matched with the second limiting member 7 when no external force is applied.

Further, the first limiting member 6 may be disposed at the first assembly member 81, and a portion of the first limiting member extends out of the first assembly member 81 and passes through the first through hole 31.

When the first driving member 4 acts to drive the rope member 5 to displace, the first limiting member 6 is separated from the second limiting member 7 so that the inner pipe member 3 can move telescopically relative to the outer pipe member 2.

When the first driving member 4 is pressed toward the inner side of the handle bar 1, the first connecting member 12 moves in the direction away from the inner pipe fitting 3, and after the rope member 5 is matched, the first limiting member 6 is pulled to move in the direction away from the second limiting member 7, so that the first limiting member and the second limiting member are separated from each other, and unlocking is realized.

In order to ensure that the locking between the inner pipe 3 and the outer pipe 2 is more secure, a third limiting member for limiting the telescopic movement of the inner pipe 3 may be disposed on the outer pipe 2.

The third limiting member may have a variety of structures, and two structures are specifically described in this embodiment:

the first structure is as follows:

the third locating part including set firmly in first main part 91 on outer pipe fitting 2, only partial position link firmly with deformation portion 92 and rotation on the first main part 91 set up in activity portion 93 on the first main part 91, deformation portion 92 can an outer wall and first main part 91 fixed connection, and three outer wall is not connected with any position in addition, is unsettled state to when realizing no exogenic action, it can recover automatically, and the material of this position can select for use the material that can recover by deformation, if mould the piece, have outer convex portion 931 on the activity portion 93, outer convex portion 931 can set up in activity portion 93 and the first main part 91 position department of rotating the connection, and it sets up the position and the unsettled position of deformation portion is corresponding.

When the movable portion 93 is locked, the external protrusion 931 pushes the deformation portion 92 to abut against the inner tube 3, so as to form a friction force;

when the movable portion 93 is unfolded, the deformation portion 92 is restored to be separated from the inner tube 3.

The second structure is as follows:

the third locating part including set firmly with second main part 94, the eccentric rotation on the outer pipe fitting 2 is located moving part 95 and the activity on the second main part 94 sets up in friction member 96 on the second main part 94 can set up the second shaft 97 on the second main part 94, moving part 95 rotates and sets up on second shaft 97, has the hole site 941 on the second main part 94, and friction member 96 sets up in this hole site 941 department, and the position of hole site 941 and friction member 96 corresponds with the position of eccentric convex part 951 on the moving part 95, and friction member 96 is supported by the wall of this hole site 941 to after being promoted with the relative close contact of inner tube spare 3.

When the movable member 95 is engaged, the protrusion 951 on the movable member 95 pushes the friction member 96 to abut against the inner tube 3;

when the movable member 95 is unfolded, the protrusion 951 of the movable member 95 is separated from the friction member 96, so that the friction force between the friction member 96 and the inner pipe member 3 is eliminated or almost eliminated.

Example 2:

referring to fig. 10-18, a handlebars lifting stepless adjusting structure for scooter comprises a scooter handlebar main body, wherein the scooter handlebar main body comprises a handlebar piece 1, an outer pipe piece 2, an inner pipe piece 3, a second driving piece 10, a rope piece 5, a first limiting piece 6 and a second limiting piece 7.

Outer pipe fitting 2 can fix and locate the scooter main part on, inner pipe fitting 3 assembles on outer pipe fitting 2, and it can be relative outer pipe fitting 2 flexible activity for the height of adjusting the handlebar, in this embodiment, outer pipe fitting 2 is hollow pipe fitting, and inner pipe fitting 3 inserts the hollow position department of locating outer pipe fitting 2, and both can be sliding fit.

The second driving member 10 is movably disposed on the handle body of the scooter, in this embodiment, the second driving member 10 is movably disposed on the top wall of the handle bar 1, and the second driving member 10 is a pressing member and moves toward the inner side of the handle bar 1 by pressing.

The rope member 5 is a rigid non-deformable or substantially non-deformable rod member, one end of the rod member is connected to the second driving member 10, the other end of the rod member is connected to the second connecting member 100 disposed in the inner pipe member 3, the second connecting member 100 includes a third inclined surface 200, and the first limiting member 6 includes a fourth inclined surface 300 engaged with the third inclined surface 200.

In this embodiment, the third inclined plane 200 faces downward and gradually inclines downward from being close to the second connecting member 100 to being far away from the second connecting member 100, the fourth inclined plane 300 faces upward and gradually inclines upward from being close to the first limiting member 6 to being far away from the first limiting member 6, when the second driving member 10 is pushed toward the inner side of the handlebar member 1, the second connecting member 100 moves toward the lower side of the handlebar 1, and the first limiting member 6 moves toward being far away from the second limiting member 7.

The first limiting parts 6 and the second limiting parts 7 are correspondingly arranged on the inner pipe 3 or the outer pipe 2 one by one, and it can be understood that the first limiting parts 6 and the second limiting parts 7 can be arranged on the inner pipe 3 or the outer pipe 2, and when the first limiting parts 6 are arranged on the inner pipe 3, the second limiting parts 7 are arranged on the outer pipe 2; when the first limiting member 6 is disposed on the outer pipe 2, the second limiting member 7 is disposed on the inner pipe 3.

In this embodiment, the first limiting member 6 is disposed on the inner tube 3, and the second limiting member 7 is disposed on the outer tube 2.

The first limiting part 6 comprises a plurality of bosses 61, the second limiting part 7 comprises a plurality of concave parts or hole parts matched with the bosses 61, and the first limiting part 6 is matched with the second limiting part 7 to limit the telescopic movement of the inner pipe fitting 3 so as to be positioned relative to the outer pipe fitting 2.

The second locating part 7 can be a strip-shaped part, correspondingly, an installation groove for installing the strip-shaped second locating part 7 can be designed on the inner wall of the outer pipe part 2, and similarly, an inner groove for providing a containing space for the second locating part 7 can also be designed on the inner pipe part 2 so as to reduce the overall outer diameter of the vertical pipe.

In this embodiment, the inner pipe 3 is a hollow pipe, and a second through hole 39 communicating with the hollow portion is formed on the inner pipe, a second assembly member 400 is assembled on the inner pipe 3, and at least a part of the second assembly member 400 is assembled in the hollow portion of the inner pipe 3.

The first limiting member 6 may be disposed at the second through hole 39, a second elastic member 38 is disposed between the first limiting member 6 and the wall of the second assembly member 400, the second elastic member 38 may be a spring, and through the action of the second elastic member 38, the first limiting member 6 is always matched with the second limiting member 7 when no external force is applied.

Further, the first retaining member 6 may be disposed at the second assembly member 400, and a portion of the first retaining member extends out of the second assembly member 400 and passes through the second through hole 39.

When the second driving member 10 is pressed toward the inner side of the handle bar 1, the rope member 5 drives the second connecting member 100 to move, and the second connecting member 100 pushes the first limiting member 6 to move in a direction away from the second limiting member 7, so that the two members are separated from each other, and unlocking is realized.

In order to ensure that the locking between the inner pipe 3 and the outer pipe 2 is more secure, a third limiting member for limiting the telescopic movement of the inner pipe 3 may be disposed on the outer pipe 2.

The third limiting member may have a variety of structures, and two structures are specifically described in this embodiment:

the first structure is as follows:

the third locating part including set firmly in first main part 91 on outer pipe fitting 2, only partial position link firmly with deformation portion 92 and rotation on the first main part 91 set up in activity portion 93 on the first main part 91, deformation portion 92 can an outer wall and first main part 91 fixed connection, and three outer wall is not connected with any position in addition, is unsettled state to when realizing no exogenic action, it can recover automatically, and the material of this position can select for use the material that can recover by deformation, if mould the piece, have outer convex portion 931 on the activity portion 93, outer convex portion 931 can set up in activity portion 93 and the first main part 91 position department of rotating the connection, and it sets up the position and the unsettled position of deformation portion is corresponding.

When the movable portion 93 is locked, the external protrusion 931 pushes the deformation portion 92 to abut against the inner tube 3, so as to form a friction force;

when the movable portion 93 is unfolded, the deformation portion 92 is restored to be separated from the inner tube 3.

The second structure is as follows:

the third locating part including set firmly with second main part 94, the eccentric rotation on the outer pipe fitting 2 is located moving part 95 and the activity on the second main part 94 sets up in friction member 96 on the second main part 94 can set up the second shaft 97 on the second main part 94, moving part 95 rotates and sets up on second shaft 97, has the hole site 941 on the second main part 94, and friction member 96 sets up in this hole site 941 department, and the position of hole site 941 and friction member 96 corresponds with the position of eccentric convex part 951 on the moving part 95, and friction member 96 is supported by the wall of this hole site 941 to after being promoted with the relative close contact of inner tube spare 3.

When the movable member 95 is engaged, the protrusion 951 on the movable member 95 pushes the friction member 96 to abut against the inner tube 3;

when the movable member 95 is unfolded, the protrusion 951 of the movable member 95 is separated from the friction member 96, so that the friction force between the friction member 96 and the inner pipe member 3 is eliminated or almost eliminated.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides a handlebar lift infinitely variable control structure for scooter, includes scooter handlebar main part, its characterized in that: the scooter handlebar body comprises

An outer tubular member;

an inner tubular member telescopically movable relative to the outer tubular member;

the driving piece is movably arranged on the scooter handlebar main body;

the rope piece is arranged on the scooter handlebar main body, and one end of the rope piece is in action fit with the driving piece;

the first limiting piece is in action fit with the other end of the rope piece;

the second limiting piece is matched with the first limiting piece and used for limiting the telescopic movement of the inner pipe fitting;

the first limiting parts and the second limiting parts are arranged on the inner pipe fitting or the outer pipe fitting in a one-to-one correspondence manner;

when the driving member moves to drive the rope member to displace, the first limiting member is separated from the second limiting member so that the inner pipe member can move relative to the outer pipe member in a telescopic manner.

2. The handle bar lifting stepless adjusting structure for the scooter as claimed in claim 1, wherein: scooter handlebar main part is including handlebar spare, the driving piece activity set up in on the handlebar spare.

3. The handle bar lifting stepless adjusting structure for the scooter as claimed in claim 2, wherein: the driving piece is movably arranged on the side wall of the handlebar piece and comprises a first inclined surface;

the handlebar piece is provided with a first connecting piece in a sliding manner, and the first connecting piece comprises a second inclined plane matched with the first inclined plane;

the rope piece is a flexible deformable rope, one end of the rope piece is connected with the connecting piece, the other end of the rope piece is connected with the first limiting piece arranged on the inner pipe piece after bypassing a first shaft arranged in the inner pipe piece, an elastic piece for pushing the first limiting piece to the direction of the second limiting piece is arranged in the inner pipe piece, and the first limiting piece comprises a plurality of bosses;

the second limiting piece is arranged at the outer pipe piece and comprises a plurality of concave parts or hole parts matched with the bosses;

when the driving piece is pressed towards the inner side of the handle piece, the connecting piece moves towards the direction away from the inner pipe piece, and meanwhile, the first limiting piece moves towards the direction away from the second limiting piece.

4. The handle bar lifting stepless adjusting structure for the scooter as claimed in claim 3, wherein: the inner pipe fitting is provided with a first assembly part, the first shaft is arranged on the first assembly part, and the elastic part is arranged between the first limiting part and the first assembly part.

5. The handle bar lifting stepless adjusting structure for the scooter as claimed in claim 4, wherein: the handle bar piece is fixedly provided with a positioning piece, and the first connecting piece is arranged on the positioning piece in a sliding manner;

the inner pipe fitting is a hollow pipe fitting, a first through hole communicated with the hollow part is formed in the inner pipe fitting, and the first limiting part is arranged at the first through hole.

6. The handle bar lifting stepless adjusting structure for the scooter as claimed in claim 2, wherein: the driving piece is movably arranged on the top wall of the handlebar piece;

the rope piece is a rigid non-deformable or basically non-deformable rod piece, one end of the rope piece is connected with the driving piece, the other end of the rope piece is connected with a second connecting piece arranged in the inner pipe fitting, the second connecting piece comprises a third inclined surface, and the first limiting piece comprises a fourth inclined surface matched with the third inclined surface;

the inner pipe fitting is internally provided with an elastic piece which pushes the first limiting piece to the direction of the second limiting piece, and the first limiting piece comprises a plurality of bosses;

the second limiting piece is arranged at the outer pipe piece and comprises a plurality of concave parts or hole parts matched with the bosses;

when the driving piece is pressed towards the inner side of the handle piece, the second connecting piece pushes the first limiting piece to move towards the direction far away from the second limiting piece.

7. The handle bar lifting stepless adjusting structure for the scooter as claimed in claim 6, wherein: the inner pipe fitting is provided with a second assembly part, and the elastic part is arranged between the first limiting part and the second assembly part.

8. The handle bar lifting stepless adjustment structure for scooter according to any one of claims 1 to 7, wherein: and the outer pipe fitting is provided with a third limiting part for limiting the telescopic movement of the inner pipe fitting.

9. The handle bar lifting stepless adjusting structure for the scooter as claimed in claim 8, wherein: the third limiting part comprises a main body fixedly arranged on the outer pipe element, a deformation part fixedly connected with the main body at only part of the part, and a movable part rotatably arranged on the main body, wherein the movable part is provided with an outer convex part;

when the movable part is buckled, the outer convex part pushes the deformation part to be abutted against the inner pipe;

when the movable part is unfolded, the deformation part is reset to be separated from the inner pipe.

10. The handle bar lifting stepless adjusting structure for the scooter as claimed in claim 8, wherein: the third limiting piece comprises a main body fixedly arranged on the outer pipe piece, a movable piece eccentrically and rotatably arranged on the main body and a friction piece movably arranged on the main body;

when the movable piece is buckled, the convex part on the movable piece pushes the friction piece to enable the friction piece to be abutted against the inner pipe;

when the movable member is unfolded, the protrusion on the movable member is separated from the friction member.

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