CN210971369U - Saddle pipe electrode slide mechanism - Google Patents

Abstract

The utility model provides a saddle pipe electrode slide mechanism, relate to the electric bicycle field, including the saddle post, the cavity has in the saddle post, be equipped with locking mechanism on the saddle post, the last fixed sliding block that is equipped with of locking mechanism, locking mechanism is connected with the saddle pipe, saddle pipe one end is inserted in the saddle post, the saddle pipe other end is located the saddle post outside, the cavity has in the saddle pipe, be fixed with the battery in the cavity of saddle pipe, be equipped with slip chamber and slip mouth on the saddle pipe, slip mouth is linked together with the slip chamber, the slip intracavity is equipped with the electrode strip, the slip chamber is connected with fixed sliding block and both are sliding connection, fixed sliding block is located the slip intracavity, be equipped with fixed electrode on the fixed sliding block, fixed electrode is connected with the electrode strip electricity. The device can insert the degree of depth of saddle post and adjust the height of saddle through adjusting the saddle pipe, realizes adjusting the height of saddle according to different height crowds' user demand, is connected through fixed electrode and electrode bar electricity, has avoided a series of problems that the connection of electric lines brought.

Description

Saddle pipe electrode slide mechanism

The technical field is as follows:

the utility model relates to an electric motor car technical field, concretely relates to saddle pipe electrode slide mechanism.

Background art:

an electric bicycle is a mechatronic personal transportation tool which takes a battery as an auxiliary energy source, is provided with a motor, a controller, the battery, a rotating handle brake handle and other operating components and a display instrument system on the basis of a common bicycle. Current electric bicycle is at the saddle intraductal battery of installation, the saddle pipe top is equipped with the saddle, the saddle pipe size is fixed, then the highly difficult regulation of saddle, can't be applicable to different height personnel and use, thereby it is severely restricted to cause the use group, battery and motor in the saddle pipe are connected through the electric wire that convolutes together, it is pleasing to the eye to influence, the in-process of use colludes the electric wire easily and makes the circuit disconnection, cause electric bicycle trouble, even make the electric wire press from both sides between saddle pipe and saddle post when adjusting the saddle pipe height easily, cause the circuit to damage, the electric wire exposes externally because of insolate easily, the ageing damage of reasons such as blows, electric bicycle's life has been reduced. In addition, the battery among the current electric bicycle is the card on electric bicycle, perhaps fixes through the bolt, and the expense of battery has taken up two-thirds of whole electric bicycle whole expense again, if the battery loses, then electric bicycle damages and can't continue to use, brings very big loss for the user.

The utility model has the following contents:

the utility model aims at overcoming the defects of the prior art and providing a saddle tube electrode sliding mechanism.

The utility model adopts the technical proposal that: the utility model provides a saddle pipe electrode slide mechanism, including the saddle post, the cavity has in the saddle post, be equipped with locking mechanism on the saddle post, the last fixed sliding block that is equipped with of locking mechanism, locking mechanism is connected with the saddle pipe, saddle pipe one end is inserted in the saddle post, the saddle pipe other end is located the saddle post outside, the cavity has in the saddle pipe, be fixed with the battery in the cavity of saddle pipe, be equipped with slip chamber and slip mouth on the saddle pipe, slip mouth is linked together with the slip chamber, the slip intracavity is equipped with the electrode strip, the slip chamber is connected and both are sliding connection with fixed sliding block, fixed sliding block is located the slip intracavity, be equipped with fixed electrode on the fixed sliding block, fixed electrode is connected with the electrode strip electricity, the.

The axle center of the saddle column is superposed with the axle center of the saddle pipe, the saddle column is in a hollow rectangular shape, and the saddle pipe is in a hollow rectangular shape.

The number of the fixed electrodes is two, the two fixed electrodes are respectively positioned at two ends of the fixed sliding block, the number of the electrode strips is two, the two electrode strips are respectively positioned at two sides of the sliding cavity, and each electrode strip is respectively electrically connected with one fixed electrode.

The electrode strip comprises an electrode pair and a fixing strip, the length of the fixing strip is matched with that of the battery, and the fixing strip is provided with the electrode pair.

The number of the electrode pairs is not less than two, the electrode pairs comprise electrode plates A and electrode plates B, and the positions of the electrode plates A correspond to those of the electrode plates B.

The fixed sliding block is provided with a clamping block, the clamping block is inserted into the clamping groove and is in sliding connection with the clamping groove, and the clamping groove is formed in the inner wall of the sliding cavity.

The top end of the saddle pipe is provided with a mounting block, and the mounting block is connected with the saddle through a rotating mechanism.

Slewing mechanism include swinging arms A, swinging arms B, semi-gear post, arc wall and internal tooth, the arc wall establish at installation piece top, be equipped with the internal tooth in the arc wall, internal tooth and semi-gear post meshing, the semi-gear post inlays in the arc wall, semi-gear post one end and swinging arms A fixed connection, the other end and the swinging arms B fixed connection of semi-gear post, swinging arms A and the mutual parallel arrangement of swinging arms B, swinging arms A and swinging arms B all are connected with the saddle and the saddle is located swinging arms A and swinging arms B directly over, the clearance between swinging arms A and the swinging arms B is greater than the width of installation piece.

One side of the saddle column is connected with the rear frame fork, the other side of the saddle column is connected with one end of the cross rod, the other end of the cross rod is provided with a rotating sleeve, a rotating shaft is arranged in the rotating sleeve and connected with the wheel support, the cross rod is connected with one end of the supporting rod, and the other end of the supporting rod is connected with the saddle column.

The saddle post on be equipped with spacing recess, be equipped with locking mechanism in the spacing recess, saddle pipe bottom be equipped with the safety lock.

The utility model has the advantages that: the device can insert the degree of depth of saddle post and adjust the height of saddle through adjusting the saddle pipe, realizes adjusting the height of saddle according to different height crowds' user demand, and in addition, the angle of saddle also can be adjusted according to use preference, has improved the use comfort level of the electric bicycle who has this slide mechanism and has enlarged its application scope. When the saddle pipe and the saddle column slide relatively, the circuit of the electric bicycle with the sliding mechanism is always in a communicated state through the electric connection between the fixed electrode and the electrode strip, and the fixed electrode and the electrode strip are adopted to communicate the circuit, so that the attractiveness of the sliding mechanism is improved, and a series of problems caused by the use of a lead are avoided. In addition, the safety lock is arranged at the bottom of the saddle pipe, so that the theft prevention can be realized, the theft of the saddle pipe and the battery can be avoided, and the safety of the sliding mechanism is improved.

Description of the drawings:

fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a perspective view of the present invention.

Fig. 3 is an assembly diagram between the mounting block, the rotating mechanism and the saddle of the present invention.

Fig. 4 is a schematic structural diagram of the mounting block of the present invention.

Fig. 5 is a schematic view of a first structure of the locking mechanism of the present invention.

Fig. 6 is a second structural schematic diagram of the locking mechanism of the present invention.

Fig. 7 is a schematic structural view of the locking rod, the locking head and the rotary locking block of the present invention.

Fig. 8 is a schematic structural view of the saddle pillar of the present invention.

Fig. 9 is a schematic connection diagram of the saddle pillar, the battery, the fixed slider, the electrode strip, etc. of the present invention.

Fig. 10 is a perspective view of the saddle post, battery, fixed slide, electrode strip, etc. of the present invention.

Fig. 11 is a schematic structural view of the saddle pillar of the present invention.

Fig. 12 is a schematic structural diagram of the electrode strip of the present invention.

Fig. 13 is a perspective view of the electrode strip of the present invention.

The specific implementation mode is as follows:

the utility model provides a slide mechanism can be applicable to electric bicycle, storage battery car or other similar vehicles. The saddle tube electrode in this application means that a battery is placed inside the saddle tube. The embodiment is exemplified by an electric bicycle, but does not represent that the sliding mechanism can be used only in the aspect of electric bicycles.

Referring to the figures, the saddle tube electrode sliding mechanism comprises a saddle post 5, a cavity is arranged in the saddle post 5, a locking mechanism 1 is arranged on the saddle post 5, a fixed slide block 105 is arranged on the locking mechanism 1, the locking mechanism 1 is connected with a saddle tube 2, one end of the saddle tube 2 is inserted into the saddle post 5, the saddle tube 2 can slide in the saddle post 5, the other end of the saddle tube 2 is positioned outside the saddle post 5, a cavity is arranged in the saddle tube 2, a battery 205 is fixed in the cavity of the saddle tube 2, a sliding cavity 203 and a sliding opening 202 are arranged on the saddle tube 2, the sliding opening 202 is 2-3mm in size, the sliding opening 202 is communicated with the sliding cavity 203, electrode strips 204 are arranged in the sliding cavity 203, the electrode strips 204 are arranged in two rows and respectively comprise a positive electrode strip 204 and a negative electrode strip 204, the sliding cavity 203 is connected with the fixed slide block 105, the fixed slide block 105 is positioned in the sliding cavity 203, the fixed slide block 105 penetrates through the sliding cavity 203, the fixed slide block 105 is provided with a fixed electrode 104, the fixed electrode 104 is connected with a controller on the electric bicycle through a lead, and the controller is a controller commonly used in the electric bicycle industry and is in the prior art. The fixed electrode 104 is electrically connected to the electrode strip 204, and the electrode strip 204 is electrically connected to the battery 205, which may be connected by a wire or by other common electrical connection methods. When the saddle pipe 2 and the saddle post 5 slide relatively, the fixed electrode 104 is electrically connected with the electrode strip 204, so that the circuit of the whole electric bicycle is communicated when the height of the saddle 301 is adjusted. The saddle column 5 and the saddle pipe 2 are locked through the locking mechanism 1, so that the relative sliding between the saddle pipe 2 and the saddle column 5 after the saddle 301 is adjusted is avoided. The locking mechanism 1 can use any locking mechanism 1 in the prior art which can be locked and unlocked quickly, such as: the locking mechanism 1 commonly used by electric bicycles and common bicycles is adopted. The locking mechanism 1 can also adopt the following special structure: referring to the figures, the locking mechanism 1 of the special-shaped saddle pipe 2 comprises a saddle column 5, wherein the saddle column 5 is of a hollow structure, the saddle column 5 is provided with the locking mechanism 1, the locking mechanism 1 is in contact with the saddle pipe 2, one end of the saddle pipe 2 is inserted into the saddle column 5, the other end of the saddle pipe 2 is positioned outside the saddle column 5, the locking mechanism 1 comprises a locking ring 101, a locking cavity A102, a locking cavity B103, a locking handle, a rotating shaft 108, an opening 110, an inserting rod 111, a clamping block A112, a clamping block B118, a clamping block C117, a clamping block D119, a stop block 113, a slot 115 and a locking bolt 116, the locking ring 101 is internally provided with a fixed slide block 105, the fixed slide block 105 is positioned in the locking cavity A102, the locking ring 101 is internally provided with the locking cavity A102 and the locking cavity B103, the locking cavity A102 is positioned above the locking cavity B103 and communicated with the locking cavity B103, the locking cavity B103 is internally inserted with the saddle column 5, the locking cavity A102, the opening 110 is communicated with the locking cavity A102 and the locking cavity B103, the locking ring 101 is provided with a clamping block A112, a clamping block B118, a clamping block C117 and a clamping block D119, the clamping block A112 corresponds to the clamping block B118 in position and is respectively located on two sides of the opening 110, the clamping block C117 corresponds to the clamping block D119 in position and is respectively located on two sides of the opening 110, one end of the inserting rod 111 penetrates through the clamping block A112 to be connected with the stop block 113, the other end of the inserting rod 111 penetrates through the clamping block B118 to be fixedly connected with the rotating shaft 108, the rotating shaft 108 is rotatably connected with the locking handle, the locking handle is provided with a slot 115, the rotating shaft 108 is located in the slot 115, and the clamping block C117 is connected with the clamping block D119 through a locking bolt 116. The insertion rod 111 and the rotating shaft are integrally formed, and the insertion rod 111 and the rotating shaft are connected together to form a T shape. The stopper 113 is detachably connected with the insertion rod 111, and preferably, the stopper 113 is connected with the insertion rod 111 through a screw thread. The locking ring 101 is in a hollow rectangular shape, the clamping block A112 is positioned right above the clamping block D119, and the clamping block B118 is positioned right above the clamping block C117. The locking handle include locking head 106, locking lever 107 and rotate locking piece 109, rotate and be equipped with slot 115 on locking piece 109, rotate locking piece 109 and rotation axis 108 and rotate and be connected, rotate locking piece 109 and be connected with the one end of locking lever 107, the other end and the locking head 106 of locking lever 107 are connected, rotate locking piece 109 and clamp splice B118 contact. The rotation locking block 109 and the locking head 106 are respectively located at two ends of the locking ring 101. The rotation lock block 109, the locking rod 107 and the locking head 106 are integrally formed. The shape of the rotary locking block 109 is a drop shape, a cam shape or other irregular shapes, the shape of the rotary locking block 109 satisfies that when the locking rod 107 is tightly attached to the locking ring 101, the rotary locking block 109 presses the clamping block B118 and the clamping block A112 to enable the locking ring 101 to be fastened outside the saddle pipe 2, when the locking rod 107 is not tightly attached to the locking ring 101, the distance between the clamping block A112 and the clamping block B118 is increased, a gap exists between the locking ring 101 and the saddle pipe 2, and the saddle pipe 2 can freely slide in the saddle column 5. The size of the locking cavity A102 is smaller than that of the locking cavity B103. The locking cavity A102 is sleeved outside the saddle pipe 2, and the locking cavity B103 is sleeved outside the saddle post 5. A limiting groove 501 is formed in the saddle column 5, and a locking ring 101 is placed in the limiting groove 501. When the locking mechanism 1 is used, firstly, a rotating shaft is connected with a rotating locking block 109, an inserting rod 111 sequentially penetrates through a clamping block A112 and a clamping block B118, a stop block 113 is installed on the inserting rod 111, then a locking cavity B103 of a locking ring 101 of the locking mechanism 1 is sleeved outside the upper end of a saddle column 5, the bottom of the locking ring 101 is positioned in a fixing groove 501 on the saddle column 5, a locking bolt 116 sequentially penetrates through a clamping block D119 and a clamping block C117, the clamping block C117 is fixed with the clamping block D119, a gap between the clamping block C117 and the clamping block D119 is reduced, at the moment, the locking ring 101 is fixed on the saddle column 5, the top end of the saddle column 5 is positioned in the locking cavity B103, the bottom end of a saddle pipe 2 penetrates through the locking cavity A102 to be inserted into the saddle column 5, when the depth of the saddle pipe 2 inserted into the saddle column 5 reaches a required height, a rotating handle is pulled, the inner side of the rotating handle is tightly contacted with the periphery of the locking ring 101, at the moment, the distance between the clamping block A, the inner side of the locking ring 101 is tightly attached to the saddle pipe 2 for locking. The saddle column 5 and the saddle pipe 2 can slide relatively, the saddle 301 is installed through the installation piece in the saddle pipe 2 top, realizes adjusting the height of saddle 301 through adjusting the depth that the saddle pipe 2 inserted in the saddle column 5, makes saddle 301 be applicable to the personnel of different heights. The application range of the electric bicycle with the special-shaped saddle pipe 2 locking mechanism 1 is improved. The locking mechanism 1 can quickly lock or unlock the saddle column 5 and the saddle pipe 2 by pulling the locking handle, and has high locking efficiency and simple operation. This locking mechanism 1 can be applicable to the locking of the saddle pipe 2 and the saddle post 5 of rectangle, and the locking handle is connected with inserted bar 111 through axis of rotation 108, and the locking handle, inserted bar 111, pivot etc. all can be dismantled and process alone, have reduced the degree of difficulty of processing and have reduced the cost of processing, and in addition, locking handle, inserted bar 111 and pivot do not adopt the welding to connect, have avoided welding deformation, have improved locking mechanism 1's life and convenience in use. After the locking structure is unlocked, the saddle pipe 2 can be drawn out of the saddle post 5, and the saddle pipe 2 can be taken out to charge the battery 205. Of course, the battery 205 can be directly charged by a wire without taking the saddle pipe 2 out of the saddle column 5. When the locking mechanism 1 is locked, the saddle pipe 2 and the saddle post 5 do not move relatively.

The axle center of the saddle column 5 is superposed with the axle center of the saddle pipe 2, the saddle column 5 is in a hollow rectangular shape, and the saddle pipe 2 is in a hollow rectangular shape. The lumen of the saddle tube 2 is sized slightly larger than the battery 205.

The number of the fixed electrodes 104 is two, one of the fixed electrodes 104 is an anode, the other fixed electrode 104 is a cathode, the two fixed electrodes 104 are respectively located at two ends of the fixed slider 105, the number of the electrode strips 204 is two, the two electrode strips 204 are respectively located at two sides of the sliding cavity 203, one of the electrode strips 204 is an anode, the other electrode strip 204 is a cathode, the cathode electrode strip 204 is electrically connected with the cathode fixed electrode 104, and the anode electrode strip 204 is electrically connected with the cathode fixed electrode 104.

The electrode strip 204 includes an electrode pair and a fixing strip 2041, the length of the fixing strip 2041 is matched with the length of the battery 205, and the electrode pair is arranged on the fixing strip 2041.

The number of the electrode pairs is not less than two, the electrode pairs comprise electrode slices A2042 and electrode slices B2043, and the positions of the electrode slices A2042 and the positions of the electrode slices B2043 correspond to each other. All electrode pairs are uniformly distributed on the fixing strip 2041, so that the fixed electrode 104 is ensured to be electrically connected with the electrode pairs all the time, and when the saddle pipe 2 and the saddle column 5 slide relatively, the fixed electrode 104 slides from the electrode slice A2042 to the electrode slice B2043 in the electrode pair.

A clamping block 114 is arranged on the fixed sliding block 105, the clamping block 114 is inserted into the clamping groove 201, the clamping block 114 is in sliding connection with the clamping groove 201, and the clamping groove 201 is arranged on the inner wall of the sliding cavity 203. The clamping block 114 is inserted into the clamping groove 201 to keep the fixed sliding block 105 linearly sliding in the sliding cavity 203 all the time, and the fixed electrode 104 is electrically connected with the electrode bar 204 all the time, so that the fixed electrode 104 is prevented from being separated from the electrode plate a2042 and the electrode plate B2043 due to sliding, and a circuit of the electric bicycle is prevented from being powered off.

The top end of the saddle pipe 2 is provided with an installation block 305, and the installation block 305 is connected with the saddle 301 through a rotating mechanism.

The rotating mechanism comprises a swing rod A302, a swing rod B304, a half gear column 303, an arc-shaped groove 306 and internal teeth 307, the arc-shaped groove 306 is formed in the top of an installation block 305, the internal teeth 307 are arranged in the arc-shaped groove 306, the internal teeth 307 are meshed with the half gear column 303, the half gear column 303 is embedded in the arc-shaped groove 306, one end of the half gear column 303 is fixedly connected with the swing rod A302, the other end of the half gear column 303 is fixedly connected with the swing rod B304, the swing rod A302 and the swing rod B304 are arranged in parallel, the swing rod A302 and the swing rod B304 are both connected with a saddle 301, the saddle 301 is located right above the swing rod A302 and the swing rod B304, and a gap between the swing rod A302 and the swing rod B304 is larger than the width of the installation block. When the angle of the saddle 301 is adjusted, the saddle 301 is pulled to adjust the angle of the saddle 301, the saddle 301 drives the half gear column 303 to rotate for a certain angle in the arc-shaped groove 306 through the swing rod a302 and the swing rod B304, the half gear column 303 is in the shape of a semicircular gear column, and when the half gear column 303 rotates, the angle of the saddle 301 can be adjusted within a certain range.

Saddle pillar 5 one side be connected with rear frame fork 4, rear frame fork 4 is connected with electric bicycle's rear wheel etc. can set up the back seat on the rear frame fork 4, the opposite side of saddle pillar 5 is connected with the one end of horizontal pole 7, the other end of horizontal pole 7 is equipped with and rotates sleeve 9, is equipped with axis of rotation 10 in rotating sleeve 9, axis of rotation 10 props 8 with the wheel and is connected, the wheel props 8 and can be connected with electric bicycle's front wheel. The cross bar 7 is connected with one end of the support bar 6, and the other end of the support bar 6 is connected with the saddle column 5. The support rod 6 is used for supporting the cross rod 7 and reducing the stress of the cross rod 7. The upper end of the rotating shaft 10 is connected with the handrail.

And a limiting groove 501 is arranged on the saddle post 5, and a locking mechanism 1 is arranged in the limiting groove 501. The limiting recess 501 is to limit the position of the locking mechanism 1. The bottom of the battery 205 is provided with a safety lock 206, a lock rod in the safety lock 206 penetrates through the saddle pipe 2 from the interior of the saddle pipe 2 and extends to the exterior of the saddle pipe 2, an unlocking hole is formed in the saddle pipe 2, when the safety lock 206 is locked, the saddle pipe 2 moves in the saddle column 5, and the lock rod of the safety lock 206 also moves along with the saddle pipe 2 in the saddle column 5. In addition, when a user needs to detach the saddle pipe 2 from the saddle column 5 for maintenance or charging, the locking mechanism 1 is opened to pull the saddle pipe 2 upward, the unlocking position is pulled to the unlocking hole for unlocking, and after unlocking, the lock rod is retracted into the saddle pipe 2, so that the saddle pipe 2 can be taken out from the saddle column 5.

The specific implementation process is as follows: when the saddle pipe 2 is used, firstly, the saddle pipe 2 is placed above the saddle column 5, the fixed slide block is inserted into the slide cavity 203 from the bottom of the saddle pipe 2, the saddle pipe 2 is inserted into the saddle column 5, the fixed slide block 105 slides in the slide cavity 203 in the process of inserting the saddle pipe 2 into the saddle column 5, the fixed electrode 104 on the fixed slide block 105 slides between the electrode pairs in the electrode strip 204, and the fixed electrode is always in contact with the electrode pairs to conduct electricity, so that the circuit of the electric bicycle is communicated. The unlocking position and the locking position of the safety lock 206 are moved to the unlocking hole, the safety lock 206 is locked through a key, the lock rod on the safety lock 206 extends out of the saddle pipe 2 from the interior of the saddle pipe 2, at the moment, the saddle pipe 2 is manually moved according to the height and the requirement of a user, the saddle 301 is driven to ascend and descend along with the saddle pipe 2 when the saddle pipe 2 moves, when the saddle 301 moves to a proper height, the saddle is quickly locked through the locking mechanism 1, at the moment, the saddle pipe 2 and the saddle column 5 do not move relatively any more, and therefore the purpose of adjusting the height of the saddle 301 is achieved.

The device can insert the degree of depth of saddle post 5 and adjust saddle 301's height through adjusting the saddle pipe 2, realizes adjusting saddle 301's height according to different height crowds 'user demand, and in addition, saddle 301's angle also can be adjusted according to use preference, has improved the use comfort level of the electric bicycle who has this slide mechanism and has enlarged its application scope. When the saddle pipe 2 and the saddle column 5 slide relatively, the electric circuit of the electric bicycle with the sliding mechanism is always in a communicated state through the electric connection between the fixed electrode 104 and the electrode strip 204, and the fixed electrode 104 and the electrode strip 204 are adopted to communicate the electric circuit, so that the aesthetic property of the sliding mechanism is improved, and a series of problems caused by using a conducting wire are avoided. In addition, the safety lock 206 is arranged at the bottom of the saddle pipe 2, so that the theft can be prevented, the theft of the saddle pipe 2 and the battery 205 can be avoided, and the safety of the sliding mechanism is improved.

The above-mentioned embodiments are only for illustrating the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and to implement the same, so as to limit the scope of the present invention, i.e. all equivalent changes or modifications made according to the spirit disclosed by the present invention, which are still included in the scope of the present invention.

Claims (10)

1. A saddle pipe electrode slide mechanism, includes the saddle post, has the cavity in the saddle post, its characterized in that: be equipped with locking mechanism on the saddle post, the last fixed sliding block that is equipped with of locking mechanism, locking mechanism is connected with the saddle pipe, saddle pipe one end is inserted in the saddle post, the saddle pipe other end is located the saddle post outside, the cavity has in the saddle pipe, be fixed with the battery in the cavity of saddle pipe, be equipped with slip chamber and slip mouth on the saddle pipe, slip mouth is linked together with the slip chamber, the slip intracavity is equipped with the electrode strip, the slip chamber is connected and both are sliding connection with fixed sliding block, fixed sliding block is located the slip intracavity, be equipped with fixed electrode on the fixed sliding block, fixed electrode is connected with the electrode strip electricity, the electrode strip is connected with the.

2. The saddle tube electrode sliding mechanism according to claim 1, wherein: the axle center of the saddle column is superposed with the axle center of the saddle pipe, the saddle column is in a hollow rectangular shape, and the saddle pipe is in a hollow rectangular shape.

3. The saddle tube electrode sliding mechanism according to claim 1, wherein: the number of the fixed electrodes is two, the two fixed electrodes are respectively positioned at two ends of the fixed sliding block, the number of the electrode strips is two, the two electrode strips are respectively positioned at two sides of the sliding cavity, and each electrode strip is respectively electrically connected with one fixed electrode.

4. The saddle tube electrode sliding mechanism according to claim 1, wherein: the electrode strip comprises an electrode pair and a fixing strip, the length of the fixing strip is matched with that of the battery, and the fixing strip is provided with the electrode pair.

5. The saddle tube electrode sliding mechanism according to claim 4, wherein: the number of the electrode pairs is not less than two, the electrode pairs comprise electrode plates A and electrode plates B, and the positions of the electrode plates A correspond to those of the electrode plates B.

6. The saddle tube electrode sliding mechanism according to claim 1, wherein: the fixed sliding block is provided with a clamping block, the clamping block is inserted into the clamping groove and is in sliding connection with the clamping groove, and the clamping groove is formed in the inner wall of the sliding cavity.

7. The saddle tube electrode sliding mechanism according to claim 1, wherein: the top end of the saddle pipe is provided with a mounting block, and the mounting block is connected with the saddle through a rotating mechanism.

8. The saddle tube electrode sliding mechanism according to claim 7, wherein: slewing mechanism include swinging arms A, swinging arms B, semi-gear post, arc wall and internal tooth, the arc wall establish at installation piece top, be equipped with the internal tooth in the arc wall, internal tooth and semi-gear post meshing, the semi-gear post inlays in the arc wall, semi-gear post one end and swinging arms A fixed connection, the other end and the swinging arms B fixed connection of semi-gear post, swinging arms A and the mutual parallel arrangement of swinging arms B, swinging arms A and swinging arms B all are connected with the saddle and the saddle is located swinging arms A and swinging arms B directly over, the clearance between swinging arms A and the swinging arms B is greater than the width of installation piece.

9. The saddle tube electrode sliding mechanism according to claim 1, wherein: one side of the saddle column is connected with the rear frame fork, the other side of the saddle column is connected with one end of the cross rod, the other end of the cross rod is provided with a rotating sleeve, a rotating shaft is arranged in the rotating sleeve and connected with the wheel support, the cross rod is connected with one end of the supporting rod, and the other end of the supporting rod is connected with the saddle column.

10. The saddle tube electrode sliding mechanism according to claim 1, wherein: the saddle post on be equipped with spacing recess, be equipped with locking mechanism in the spacing recess, saddle pipe bottom be equipped with the safety lock.

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