CN105501373A - Rear wheel assembling structure of three-wheeled scooter - Google Patents

Abstract

The invention discloses a rear wheel assembling structure of a three-wheeled scooter. The rear wheel assembling structure structurally comprises a base plate connecting block, an abrasive disk assembly, a first vehicle wheel bracket, a second vehicle wheel bracket, a first limiting component and a second limiting component, wherein the base plate connecting block is used for connecting rear wheels with a main vehicle frame of the three-wheeled scooter; the abrasive disk assembly comprises a rotating disc, a left ear shaft and a right ear shaft, and the left ear shaft and the right ear shaft can drive the rotating disc to rotate and can vibrate upwards and downwards; the first vehicle wheel bracket is used for mounting a first rear wheel; the second vehicle wheel bracket is used for mounting a second rear wheel; the first limiting component is used for limiting the movement of the first vehicle wheel bracket; the second limiting component is used for limiting the movement of the second vehicle wheel bracket; the first rear wheel is fixedly mounted on the first vehicle wheel bracket, the second rear wheel is fixedly mounted on the second vehicle wheel bracket, the first limiting component is arranged between the base plate connecting block and the first vehicle wheel bracket, the second limiting component is arranged between the base plate connecting block and the second vehicle wheel bracket, and the base plate connecting block is further fixedly connected with the main vehicle frame; and the abrasive disk assembly is mounted on the base plate connecting block, the left ear shaft of the abrasive disk assembly is movably connected with the first vehicle wheel bracket, and the right ear shaft of the abrasive disk assembly is movably connected with the second vehicle wheel bracket.

Description

Three-wheeled sliding plate back wheels of vehicle mounting structure

Technical field

The present invention relates to three-wheel scooter technical field, particularly relate to a kind of three-wheeled sliding plate back wheels of vehicle mounting structure.

Background technology

Current battery-driven car has become one of main vehicle in town and country.Present stage electronic two wheel scooters and each own different defect of electro-tricycle.Existing electro-tricycle two wheels below adopt trailing wheel coaxially to connect usually, make two wheels next static, travel, be in state of equilibrium all the time in turning process or close to state of equilibrium, be also even like this through ditch, bank.Such structure is travelling, is turning, is especially easily turning on one's side through ditch, bank.

Summary of the invention

The main object of the present invention is: provide a kind of degree of balance that can improve battery-driven car, reduce battery-driven car travelling, to turn or through the three-wheeled sliding plate back wheels of vehicle mounting structure of ditch, bank rollover probability.

For achieving the above object, the invention provides a kind of three-wheeled sliding plate back wheels of vehicle mounting structure, this three-wheeled sliding plate back wheels of vehicle mounting structure comprises: for the base plate contiguous block be connected with the main car frame of three-wheel scooter by trailing wheel, there is rotating disk, left gudgeon and auris dextra axle and left, auris dextra axle can drive described turntable rotation and left, auris dextra axle can the mill assembly of up-down vibration, for installing the first wheel stand of the first trailing wheel, for installing the second wheel stand of the second trailing wheel, for limiting the first locating part of described first wheel stand activity, and for limiting the second locating part of described second wheel stand activity, wherein, described first trailing wheel is fixedly mounted on described first wheel stand, described second trailing wheel is fixedly mounted on described second wheel stand, described first locating part is located between described base plate contiguous block and the first wheel stand, described second locating part is located between described base plate contiguous block and the second wheel stand, described base plate contiguous block is also fixedly connected with described main car frame, described mill assembly is arranged on described base plate contiguous block, and the left gudgeon of described mill assembly is flexibly connected with described first wheel stand, the auris dextra axle of described mill assembly is flexibly connected with described second wheel stand.

Preferably, the rotating disk of described mill assembly is cylindric setting, and described rotating disk is provided with bolt hole, and the bolt hole on rotating disk described in bolt-through is also fixedly connected with described base plate contiguous block.

Preferably, three-wheeled sliding plate back wheels of vehicle mounting structure also comprises at least two clutch shaft bearings, and described bearing is embedded in the rotating disk of described mill assembly, and the endoporus of described clutch shaft bearing is placed on described bolt.

Preferably, also comprise in described rotating disk: the first stage clip, the second stage clip, and for the stage clip mounting groove of accommodating described first stage clip, the second stage clip; The curved shape of described stage clip mounting groove is arranged, and described stage clip mounting groove runs through the top and bottom of described rotating disk; The position of the corresponding described stage clip mounting groove of described base plate contiguous block is provided with stage clip follow block, and during installation, described stage clip follow block can be inserted in described stage clip mounting groove, and described stage clip follow block is positioned at the medium position of described stage clip mounting groove; The first end of described first stage clip is connected on described stage clip follow block, and the second end of described first stage clip is connected on the first cell wall of described stage clip mounting groove; The first end of described second stage clip is connected on described stage clip follow block, and the second end of described second stage clip is connected on the second cell wall relative with the first cell wall of described stage clip mounting groove.

Preferably, described rotating disk is provided with the first mounting hole with the first end adaptation of described left gudgeon, described rotating disk is also provided with and second mounting hole of first end adaptation with described auris dextra axle symmetrical with described first mounting hole; Wherein, first end and described first mounting hole of described left gudgeon are connected together, the second end of described auris dextra axle and described and mounting hole is connected together.

Preferably, the second end of described left gudgeon is connected with described first wheel stand by the second bearing; The second end of described auris dextra axle is connected with described second wheel stand by the 3rd bearing.

Preferably, described first locating part is the first steady brace; Wherein, the first end of described first steady brace is fixedly connected with described base plate contiguous block, and the second end of described first steady brace is flexibly connected with described first wheel stand.

Preferably, described second locating part is the second steady brace; Wherein, the first end of described second steady brace is fixedly connected with described base plate contiguous block, and the second end of described second steady brace is flexibly connected with described second wheel stand.

Preferably, described first wheel stand comprises: the first fixed link, and is extended by the first end of described first fixed link and bend the first connecting portion in arch shape; Wherein, described first trailing wheel is fixedly mounted on the second end of described first fixed link, and described first connecting portion is fixedly connected with the left gudgeon of described mill assembly away from one end of described first fixed link.

Preferably, described second wheel stand comprises: the second fixed link, and is extended by the first end of described second fixed link and bend the second connecting portion in arch shape; Wherein, described second trailing wheel is fixedly mounted on the second end of described second fixed link, and described second connecting portion is fixedly connected with the auris dextra axle of described mill assembly away from one end of described second fixed link.

Three-wheeled sliding plate back wheels of vehicle mounting structure provided by the invention, in this mechanism, the left gudgeon of mill is fixedly connected with the first rear wheel support, and the auris dextra axle in mill is fixedly connected with the second rear wheel support.Because two trailing wheels are not directly connected with same axis, when one of them wheels travel to ditch or hollow local time, another one can't be tilted, but then keeps original state, thus reduces the probability of car load rollover.In addition, mill assembly is arranged on base plate contiguous block, and it installs simple, convenient, thus improves the production installation effectiveness of car load.

Accompanying drawing explanation

Fig. 1 is the constructional drawing of three-wheeled sliding plate back wheels of vehicle mounting structure installing condition of the present invention;

Fig. 2 is the constructional drawing of three-wheeled sliding plate back wheels of vehicle mounting structure of the present invention;

Fig. 3 is the exploded view of three-wheeled sliding plate back wheels of vehicle mounting structure of the present invention;

Fig. 4 is the structure for amplifying schematic diagram at A place in Fig. 3;

Fig. 5 is the cutaway view of three-wheeled sliding plate back wheels of vehicle mounting structure of the present invention.

The realization of the object of the invention, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Detailed description of the invention

Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

The invention provides a kind of three-wheeled sliding plate back wheels of vehicle mounting structure.

Referring to figs. 1 to the constructional drawing that 5, Fig. 1 is three-wheeled sliding plate back wheels of vehicle mounting structure installing condition of the present invention; Fig. 2 is the constructional drawing of three-wheeled sliding plate back wheels of vehicle mounting structure of the present invention; Fig. 3 is the exploded view of three-wheeled sliding plate back wheels of vehicle mounting structure of the present invention; Fig. 4 is the structure for amplifying schematic diagram at A place in Fig. 3; Fig. 5 is the cutaway view of three-wheeled sliding plate back wheels of vehicle mounting structure of the present invention.A kind of three-wheeled sliding plate back wheels of vehicle mounting structure that the present embodiment provides.This three-wheeled sliding plate back wheels of vehicle mounting structure comprises: base plate contiguous block 1, mill assembly 2, first wheel stand 3, second wheel stand 4, first locating part 5 and the second locating part 6.Wherein, first trailing wheel 7 is fixedly mounted on the first wheel stand 3, second trailing wheel 8 is fixedly mounted on the second wheel stand 4, first locating part 5 is located between base plate contiguous block 1 and the first wheel stand 3, second locating part 6 is located between base plate contiguous block 1 and the second wheel stand 4, base plate contiguous block 1 is also fixedly connected with main car frame 9, mill assembly 2 is arranged on base plate contiguous block 1, and the left gudgeon of mill assembly 2 is flexibly connected with the first wheel stand 3, the auris dextra axle of mill assembly 2 is flexibly connected with the second wheel stand 4.

First trailing wheel 7 and the second trailing wheel 8 are connected on the main car frame 9 of three-wheel scooter by base plate contiguous block 1.In the present embodiment, base plate contiguous block 1 is arranged in tabular.This base plate contiguous block 1 is also for supporting mill assembly 2.Mill assembly 2 is fixedly mounted on the top of base plate contiguous block 1.

First wheel stand 3 is for fixedly mounting the first trailing wheel 7.Particularly, the first wheel stand 3 comprises: the first fixed link 31, and is extended by the first end of the first fixed link 31 and bend the first connecting portion 32 in arch shape.Wherein, the first trailing wheel 7 is fixedly mounted on the second end of the first fixed link 31, and the first connecting portion 32 is flexibly connected with the left gudgeon 22 of mill assembly 2 away from one end of the first fixed link 31.It should be noted that, the first connecting portion 32 in the first wheel stand 3 is arranged in arch shape, to increase the elasticity of the first wheel stand 3, thus improves the damping effect of car load.

Second wheel stand 4 is for fixedly mounting the second trailing wheel 8.Particularly, the second wheel stand 4 comprises: the second fixed link 41, and is extended by the first end of the second fixed link 41 and bend the second connecting portion 42 in arch shape.Wherein, the second trailing wheel 8 is fixedly mounted on the second end of the second fixed link 41, and the second connecting portion 42 is flexibly connected with the auris dextra axle 23 of mill assembly 2 away from one end of the second fixed link 41.It should be noted that, the first connecting portion 32 in the second wheel stand 4 is arranged in arch shape, to increase the elasticity of the second wheel stand 4, thus improves the damping effect of car load.

First locating part 5 is located between the first wheel stand 3 and base plate contiguous block 1, and it is mainly used in the activity of restriction first wheel stand 3, thus ensures that the first wheel stand 3 can be movable in the amplitude limited, and ensure that the stability of car load.Particularly, the first locating part 5 is the first steady brace.Wherein, the first end of the first steady brace is fixedly connected with base plate contiguous block 1, and the second end of the first steady brace is fixedly connected with the first wheel stand 3.

Second locating part 6 is located between the second wheel stand 4 and base plate contiguous block 1, and it is mainly used in the activity of restriction second wheel stand 4, thus ensures that the second wheel stand 4 can be movable in the amplitude limited, and ensure that the stability of car load.Particularly, the second locating part 6 is the second steady brace.Wherein, the first end of the second steady brace is fixedly connected with base plate contiguous block 1, and the second end of the second steady brace is fixedly connected with the second wheel stand 4.

Mill assembly 2 comprises rotating disk 21, left gudgeon 22 and auris dextra axle 23.It should be noted that, left gudgeon 22 drives rotating disk 21 cw or left-hand revolution under force, and after application force is cancelled, left gudgeon 22 returns to original position.In addition, under the effect of the power of left gudgeon 22 in the vertical direction, can rotating disk 21 vertical tremor relatively, and left gudgeon 22 has the function of damping.In like manner, auris dextra axle 23 also can drive rotating disk 21 cw or left-hand revolution under force, and after application force is cancelled, auris dextra axle 23 returns to original position.In addition, under the effect of the power of auris dextra axle 23 in the vertical direction, can rotating disk 21 vertical tremor relatively, and auris dextra axle 23 has the function of damping.In addition, mill assembly 2 is arranged on base plate contiguous block 1 by bolt 24.Particularly, the rotating disk 21 of mill assembly 2 is in cylindric setting, and the middle part of rotating disk 21 offers bolt hole (not shown), and bolt 24 runs through the bolt hole on rotating disk 21 and is fixedly connected with base plate contiguous block 1.It should be noted that the bolt hole of rotating disk 21 has run through the center shaft of whole rotating disk 21, and rotating disk 21 can rotate around bolt 24.For reducing the friction force between rotating disk 21 and bolt 24, reduce the wearing and tearing of rotating disk 21, further, three-wheeled sliding plate back wheels of vehicle mounting structure also comprises at least two clutch shaft bearings 25.In the present embodiment, clutch shaft bearing 25 is set to two.Particularly, two clutch shaft bearings 25 are placed in the two ends of bolt hole respectively.Two clutch shaft bearings 25 are embedded in the rotating disk 21 of mill assembly 2, and the endoporus of clutch shaft bearing 25 is placed on bolt 24.

In order to make rotating disk 21 can return to original position after external force is cancelled, in the present embodiment, be also provided with in rotating disk 21: the first stage clip 211, second stage clip 212, and for the stage clip mounting groove 213 of accommodating first stage clip 211, second stage clip 212.The curved shape of stage clip mounting groove 213 is arranged, and stage clip mounting groove 213 runs through the top and bottom of rotating disk 21.For ensureing that two trailing wheels can remain balance, stage clip mounting groove 213 must be opened in the balance position of two trailing wheels.Further illustrate, for avoid dial rotation amplitude excessive and cause overturn, in the present embodiment, the central angle of stage clip mounting groove 213 is about 150 °.Based on the elastic force of the first stage clip 211 and the second stage clip 212, the rotational steps maxim of rotating disk 21 is about 40 °, specifically can arrange according to actual conditions.The position of the corresponding stage clip mounting groove 213 of base plate contiguous block 1 is provided with stage clip follow block 214.During installation, stage clip follow block 214 is inserted in stage clip mounting groove 213, and stage clip follow block 214 is positioned at the medium position of stage clip mounting groove 213.It should be noted that, the two ends of stage clip mounting groove 213 comprise: the first cell wall, and second cell wall relative with the first cell wall.The distance of stage clip follow block 214 and the first cell wall equals the distance of stage clip follow block 214 and the second cell wall, thus ensure that the balance of two trailing wheels.The first end of the first stage clip 211 is connected on stage clip follow block 214, and the second end of the first stage clip 211 is connected on the first cell wall of stage clip mounting groove 213.The first end of the second stage clip 212 is connected on stage clip follow block 214, and the second end of the second stage clip 212 is connected on the second cell wall.When three-wheel scooter needs toward when turning right, mill assembly 22 produces a centripetal force, and left gudgeon 22 drives rotating disk 21 clickwise.Rotating disk 21 rotates, thus the first stage clip 211 is stretched, the second stage clip 212 is extruded.First trailing wheel 7 and the second trailing wheel 8 all achieve and turn to.After centripetal force is cancelled, the first stage clip 211 and the second stage clip 212 return to original state, make the first trailing wheel 7 and the second trailing wheel 8 also return to original state.It is same principle of work that three-wheel scooter turns left.Above-mentioned setting, make three-wheel scooter normal travel and in turning process all activity freely, reduce the probability of overturning.In addition, because left gudgeon 22 is flexibly connected with the first wheel stand 3, auris dextra axle 23 is flexibly connected with the second wheel stand 4, and therefore, the present invention can to overcome in prior art the defect that the coaxial institute of two trailing wheels causes overturning.Particularly, rotating disk 21 is provided with the first mounting hole (not shown) with the first end adaptation of left gudgeon 22, rotating disk 21 is also provided with and second mounting hole (not shown) of first end adaptation with auris dextra axle 23 symmetrical with the first mounting hole.Wherein, first end and first mounting hole of left gudgeon 22 are connected together, the second end of auris dextra axle 23 and and mounting hole is connected together.The second end of left gudgeon 22 is connected with the first wheel stand 3 by the second bearing (not shown); The second end of auris dextra axle 23 is connected with the second wheel stand 4 by the 3rd bearing (not shown).In the present embodiment, the square-shaped setting of first end of left gudgeon 22, auris dextra axle 23.Correspondingly, the first mounting hole and the second mounting hole are also square poroid setting.And the second end of left gudgeon 22, auris dextra axle 23 is cylindric setting.Both the second ends are inserted in the endoporus of bearing respectively, and the outer wall of bearing is embedded on wheel stand, and be flexibly connected with the first wheel stand 3 to realize left gudgeon 22, auris dextra axle 23 is flexibly connected with the second wheel stand 4.

Three-wheeled sliding plate back wheels of vehicle mounting structure provided by the invention, in this mechanism, the left gudgeon 22 of mill is fixedly connected with the first wheel stand 3, and the auris dextra axle 23 in mill is fixedly connected with the second wheel stand 4.Because two trailing wheels are not directly connected with same axis, when one of them wheels travel to ditch or hollow local time, another one can't be tilted, but then keeps original state, thus reduces the probability of car load rollover.In addition, mill assembly 2 is arranged on base plate contiguous block 1, and it installs simple, convenient, thus improves the production installation effectiveness of car load.

These are only the preferred embodiments of the present invention; not thereby the scope of the claims of the present invention is limited; every utilize specification sheets of the present invention and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.

Claims (10)

1. a three-wheeled sliding plate back wheels of vehicle mounting structure, it is characterized in that, comprise: for the base plate contiguous block that trailing wheel is connected with the main car frame of three-wheel scooter, there is rotating disk, left gudgeon and auris dextra axle and left and right gudgeon can drive described turntable rotation and left and right gudgeon can the mill assembly of up-down vibration, for installing the first wheel stand of the first trailing wheel, for installing the second wheel stand of the second trailing wheel, for limiting the first locating part of described first wheel stand activity, and for limiting the second locating part of described second wheel stand activity, wherein, described first trailing wheel is fixedly mounted on described first wheel stand, described second trailing wheel is fixedly mounted on described second wheel stand, described first locating part is located between described base plate contiguous block and the first wheel stand, described second locating part is located between described base plate contiguous block and the second wheel stand, described base plate contiguous block is also fixedly connected with described main car frame, described mill assembly is arranged on described base plate contiguous block, and the left gudgeon of described mill assembly is flexibly connected with described first wheel stand, the auris dextra axle of described mill assembly is flexibly connected with described second wheel stand.

2. three-wheeled sliding plate back wheels of vehicle mounting structure as claimed in claim 1, it is characterized in that, the rotating disk of described mill assembly is cylindric setting, and described rotating disk is provided with bolt hole, and the bolt hole on rotating disk described in bolt-through is also fixedly connected with described base plate contiguous block.

3. three-wheeled sliding plate back wheels of vehicle mounting structure as claimed in claim 2, it is characterized in that, also comprise at least two clutch shaft bearings, described bearing is embedded in the rotating disk of described mill assembly, and the endoporus of described clutch shaft bearing is placed on described bolt.

4. three-wheeled sliding plate back wheels of vehicle mounting structure as claimed in claim 2, is characterized in that, also comprise in described rotating disk: the first stage clip, the second stage clip, and for the stage clip mounting groove of accommodating described first stage clip, the second stage clip; The curved shape of described stage clip mounting groove is arranged, and described stage clip mounting groove runs through the top and bottom of described rotating disk; The position of the corresponding described stage clip mounting groove of described base plate contiguous block is provided with stage clip follow block, and during installation, described stage clip follow block can be inserted in described stage clip mounting groove, and described stage clip follow block is positioned at the medium position of described stage clip mounting groove; The first end of described first stage clip is connected on described stage clip follow block, and the second end of described first stage clip is connected on the first cell wall of described stage clip mounting groove; The first end of described second stage clip is connected on described stage clip follow block, and the second end of described second stage clip is connected on the second cell wall relative with the first cell wall of described stage clip mounting groove.

5. three-wheeled sliding plate back wheels of vehicle mounting structure as claimed in claim 1, it is characterized in that, described rotating disk is provided with the first mounting hole with the first end adaptation of described left gudgeon, described rotating disk is also provided with and second mounting hole of first end adaptation with described auris dextra axle symmetrical with described first mounting hole; Wherein, first end and described first mounting hole of described left gudgeon are connected together, the second end of described auris dextra axle and described and mounting hole is connected together.

6. three-wheeled sliding plate back wheels of vehicle mounting structure as claimed in claim 1, is characterized in that, the second end of described left gudgeon is connected with described first wheel stand by the second bearing; The second end of described auris dextra axle is connected with described second wheel stand by the 3rd bearing.

7. three-wheeled sliding plate back wheels of vehicle mounting structure as claimed in claim 1, it is characterized in that, described first locating part is the first steady brace; Wherein, the first end of described first steady brace is fixedly connected with described base plate contiguous block, and the second end of described first steady brace is fixedly connected with described first wheel stand.

8. three-wheeled sliding plate back wheels of vehicle mounting structure as claimed in claim 1, it is characterized in that, described second locating part is the second steady brace; Wherein, the first end of described second steady brace is fixedly connected with described base plate contiguous block, and the second end of described second steady brace is fixedly connected with described second wheel stand.

9. three-wheeled sliding plate back wheels of vehicle mounting structure as claimed in claim 1, it is characterized in that, described first wheel stand comprises: the first fixed link, and is extended by the first end of described first fixed link and bend the first connecting portion in arch shape; Wherein, described first trailing wheel is fixedly mounted on the second end of described first fixed link, and described first connecting portion is flexibly connected with the left gudgeon of described mill assembly away from one end of described first fixed link.

10. three-wheeled sliding plate back wheels of vehicle mounting structure as claimed in claim 1, it is characterized in that, described second wheel stand comprises: the second fixed link, and is extended by the first end of described second fixed link and bend the second connecting portion in arch shape; Wherein, described second trailing wheel is fixedly mounted on the second end of described second fixed link, and described second connecting portion is flexibly connected with the auris dextra axle of described mill assembly away from one end of described second fixed link.