CN215399110U - Balance car and kart taking balance car as power - Google Patents

Abstract

The utility model discloses a balance car and a kart using the balance car as power. The balance car comprises two car bodies, wherein pedals, motor wheels and a rotating shaft device are arranged on the car bodies, the rotating shaft device comprises a rotating shaft, two shaft seats and a torsion limiting mechanism, the torsion limiting mechanism controls the rotating angle of the torsion limiting mechanism through the matching of a limiting part on the rotating shaft and a matching part on one shaft seat, the torsion limiting mechanism directly utilizes the structure on the rotating shaft and the shaft seats to realize the torsion limiting, no additional element (such as a limiting shaft) exists, the structure of the rotating shaft device is simplified, and the assembly is easy.

Description

Balance car and kart taking balance car as power

Technical Field

The utility model relates to a travel tool, in particular to a balance car and a kart using the balance car as power.

Background

The tools for replacing the walk, such as the balance car, the scooter, the swing car and the like, are more and more popular among young consumers, and particularly, the electric balance car is used by a plurality of students in middle and primary schools. The existing balance car structure comprises two inner covers, a rotating mechanism is fixed in the middle of a first inner cover and a second inner cover, and the rotating mechanism is as disclosed: CN104958894A patent of electric balance car. The rotating mechanism comprises a shaft sleeve, two bearings and two clamp springs, two ends of the shaft sleeve are respectively fixed at the inner ends of the first inner cover and the second inner cover, the bearings are fixed on the shaft sleeve and are fixed on the inner covers through the clamp springs, and therefore the left inner cover and the right inner cover of the inner covers can rotate under the cooperation of the rotating mechanism.

In order to mount the rotating mechanism, a cylindrical barrel body can be designed at the inward end of the first inner cover and the second inner cover, and the shaft sleeve and the bearing are mounted in the barrel body from outside to inside through a clamping spring. Namely, the two ends of the first inner cover opposite to the second inner cover are provided with a cylinder body, the bearing is arranged in the cylinder body and can rotate relative to the inner wall of the cylinder body, and the first inner cover and the second inner cover are rotatably connected through the bearing. In order to restrict the relative rotation angle between the first inner cover and the second inner cover to be too large, the electric balance car further comprises a limiting shaft, the length of the limiting shaft in the second inner cover is longer than the length of the limiting shaft in the first inner cover, the limiting shaft is parallel to the bearing, one end of the limiting shaft is fixed on the first inner cover, the other end of the limiting shaft extends into the second inner cover, and the second inner cover is provided with an arc-shaped limiting groove corresponding to the limiting shaft. When the first inner cover and the second inner cover rotate relatively, the limiting groove can limit the maximum rotation angle between the first inner cover and the second inner cover through the matching of the limiting shaft and the limiting groove.

The rotating shaft device of the balance car is complex in structure, and the limiting shaft is easy to wear and even loosen and fall off along with the increase of the service time, so that potential safety hazards exist.

Thus, the prior art has yet to be improved and enhanced.

SUMMERY OF THE UTILITY MODEL

In view of the defects of the prior art, the utility model aims to provide a balance car and a kart using the balance car as power so as to solve the problem that the structure of a torsion limiting mechanism of the balance car is complex.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a balance car, includes two automobile bodies be provided with footboard and motor wheel on the automobile body, its characterized in that still includes and is used for making two automobile body pivoted pivot means relatively, pivot means includes:

the torsion limiting mechanism is used for limiting the relative rotation angle of the shaft seat when the shaft seat rotates around the rotating shaft;

twist reverse stop gear and include: the limiting part is arranged at one end of the rotating shaft, and the matching part is arranged on a shaft seat and matched with the limiting part.

As an improvement of the utility model, the limiting part is a limiting notch arranged on the rotating shaft, the matching part is a convex part or a bent part arranged on the shaft seat, and the convex part or the bent part can rotate in the limiting notch.

Optionally, the limiting portion is a limiting notch arranged on the shaft seat, the matching portion is a protruding portion or a bending portion arranged on the rotating shaft, and the protruding portion or the bending portion can rotate in the limiting notch.

As an improvement of the present invention, the rotating shaft device further includes a shaft sleeve, the shaft sleeve is sleeved at one end of the rotating shaft, the shaft sleeve is in interference fit with one shaft seat, and the other shaft seat is in interference fit with the other end of the rotating shaft.

As a further improvement of the present invention, the vehicle body includes an upper housing and a lower housing, and the motor wheel is disposed at one end of the lower housing.

As a further improvement of the present invention, the balance vehicle further includes a control main board for controlling the motion state of the motor wheel, and the control main board is disposed in the lower housing.

As a further improvement of the present invention, the balance car further includes a battery, and the battery is disposed in the lower housing.

As a further improvement of the utility model, the outer surface of the lower shell is wrapped with a waterproof wear-resistant pad.

As a further improvement of the utility model, the pedal is provided with a mounting column, the lower end of the mounting column is provided with an inverted buckle connected with a vehicle body, and the vehicle body is provided with a mounting hole matched with the mounting column.

The utility model also provides a kart taking the balance car as power, which comprises a frame assembly, wherein the frame assembly is provided with a seat assembly, a steering control assembly and a front and back control assembly, the steering control assembly comprises a steering wheel and front wheels controlled by the steering wheel, and the kart further comprises the balance car; wherein:

the front and rear control assembly comprises a swing frame fixedly connected with the balance car and a handle assembly fixedly connected with the swing frame, the swing frame is rotatably connected with the frame assembly, and the balance car is arranged at the rear end of the frame assembly.

Compared with the prior art, the balance car and the kart taking the balance car as power provided by the utility model have the advantages that the balance car comprises two car bodies, pedals, motor wheels and a rotating shaft device, the rotating shaft device comprises a rotating shaft, two shaft seats and a torsion limiting mechanism, and the torsion limiting mechanism controls the rotating angle of the torsion limiting mechanism in a matching way through the limiting part on the rotating shaft and the matching part on one shaft seat.

Drawings

Fig. 1 is a schematic perspective view of a balance car according to an embodiment of the present invention.

Fig. 2 is an exploded schematic structural diagram of the balance car provided in the embodiment of the present invention.

Fig. 3 is a schematic perspective view of a first rotating shaft device of a balance car according to an embodiment of the present invention.

Fig. 4 is an exploded schematic structural diagram of a first rotating shaft device of a balance car according to an embodiment of the present invention.

Fig. 5 is an exploded schematic view of a second rotating shaft device of the balance car according to the embodiment of the present invention.

Fig. 6 is an exploded schematic view of a third rotating shaft device of the balance car according to the embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a pedal of a balance car according to an embodiment of the present invention.

Fig. 8 is a schematic structural diagram of a vehicle body of the balance vehicle according to an embodiment of the present invention.

Fig. 9 is a schematic structural diagram of the balance car provided in the embodiment of the present invention, after the side cover of the motor wheel is removed.

Fig. 10 is a schematic structural diagram of a motor wheel side cover of the balance car according to the embodiment of the present invention.

Fig. 11 is a sectional view of a motor wheel of the balance car according to the embodiment of the present invention.

Fig. 12 is a schematic structural diagram of a rotor and a stator of a motor wheel of the balance car provided in the embodiment of the present invention.

Fig. 13 is a schematic structural diagram of a stator of a motor wheel of the balance car according to the embodiment of the present invention.

Fig. 14 is a flowchart of a control method of a balance car according to an embodiment of the present invention.

Fig. 15 shows a kart powered by a balance car according to an embodiment of the present invention.

Fig. 16 is a schematic structural diagram of a front and rear control assembly of a kart powered by a balance car according to an embodiment of the present invention.

Reference is made to the accompanying drawings in which:

axle seat 42 of rotating shaft 41 of rotating shaft device 4 of motor wheel 3 of pedal 2 of vehicle body 1

First shaft seat 421 of gap 433 shaft sleeve 44 limited by torsion limiting mechanism 43

Second shaft seat 422 axial limiting ring 45 spacer 46 clamping groove 434 clamping ring 47

Inner bending part 411, protruding part 412 and outer bending part 413 of upper shell 11 and lower shell 12

Control mainboard 13 battery 14 mounting post 21 back-off 22 mounting hole 111 slot 23

Elastic piece abutting part 24, reinforcing rib 25, bump 26 and fixing column 27 threaded hole 28

Fixing hole 113, mounting groove 114, fixing groove 115, wheel shaft 31, tyre 32 and side cover 33

Inlet 311 outlet 312 raceway 313 tooth face one 321 tooth face two 331

Bearing piece 332 stator 34 iron core winding 35 connecting part 36 magnetic steel sheet 37

Static guide member 341 lamp control board 383 of dynamic guide member 382 of annular groove 381 of rotor 38

Plastic buckle 384 buckle groove 385 insulation board 386 upper support 391 lower support 392

Plectrum 393 loudspeaker 16

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

It will be understood that when an element is referred to as being "on," "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

It should be noted that the terms of orientation such as left, right, up and down in the embodiments of the present invention are only relative to each other or are referred to the normal use state of the product, and should not be considered as limiting.

The balance car of the utility model is an electric balance car, can be regarded as a tool instead of walk, please refer to fig. 1, fig. 2, fig. 3 and fig. 4, the said balance car includes two car bodies 1, two pedals 2, two motor wheels 3 and a spindle device 4, the said pedal 2 and motor wheel 3 are installed on a car body 1 separately, the spindle device 4 is used for making two car bodies 1 can be rotated relatively, after the people stand on the pedal 2, can control car body 1 to rotate correspondingly with the operation that the human body leans forward, leans backward, neutral, thus make the balance car finish gestures such as advancing, retreating, stopping.

Wherein, the rotating shaft device 4 includes: the rotating shaft 41, the two shaft seats 42 and the twisting limiting mechanism 43, the two shaft seats 42 are respectively matched with one end of the rotating shaft 41 and connected with one vehicle body 1, and are used for controlling the linear motion, the turning and the like of the two vehicle bodies 1, and the twisting limiting mechanism 43 comprises: the limiting part is arranged at one end of the rotating shaft 41, and the matching part which is arranged on the shaft seat 42 and matched with the limiting part is used for limiting the relative rotation angle of the shaft seat 42 when the shaft seat rotates around the rotating shaft 41, so that the overlarge rotation angle is avoided, and the riding safety is ensured.

In an embodiment, the limiting portion is a limiting notch 433 disposed on the rotating shaft 41, and the engaging portion is a protruding portion 412 (as shown in fig. 5) or a bending portion (as shown in fig. 4, an inner bending portion 411 and an outer bending portion 413) disposed on the shaft seat 42, the protruding portion 412 or the bending portion can rotate in the limiting notch 433, and the width of the limiting notch 433 is controlled to control the size of the rotation angle.

In an optional embodiment, the rotating shaft device 4 further includes a shaft sleeve 44, the shaft sleeve 44 is sleeved on one end of the rotating shaft 41, the shaft sleeve 44 is in interference fit with one shaft seat 42, and the other shaft seat 42 is in interference fit with the other end of the rotating shaft 41. If the left end of the rotating shaft 41 is in interference fit with the shaft seat 42 for installing the left vehicle body 1, the right end of the rotating shaft 41 is rotatably sleeved with the shaft sleeve 44, the shaft sleeve 44 is in interference fit with the shaft seat 42 for installing the right vehicle body 1, and the two shaft seats 42 can be fixed with the left vehicle body and the right vehicle body in a bolt manner and the like, and finally, the left vehicle body 1 and the right vehicle body 1 can be simultaneously rotationally controlled to move forwards or backwards or respectively rotationally controlled to bend towards the balance vehicle.

As shown in fig. 3 and 4, the rotating shaft 41 is a tubular structure, the two shaft seats 42 are respectively a first shaft seat 421 and a second shaft seat 422, wherein the first shaft seat 421 is sleeved at the left end of the rotating shaft 41 through a shaft sleeve 44, the second shaft seat 422 is fixedly assembled at the right end of the rotating shaft 41, the second shaft seat 422 and the first shaft seat 421 are separated by an axial limiting ring 45 and a gasket 46, so as to avoid mutual abrasion when the first shaft seat 421 and the second shaft seat 422 rotate asynchronously, a clamping groove 434 is formed in an end portion (such as a left end portion) of the rotating shaft 41, a clamping ring 47 is installed in the clamping groove 434, and the clamping ring 47 and the axial limiting ring 45 limit the axial movement of the first shaft seat 421 along the rotating shaft, so that the first shaft seat 421 can rotate around the rotating shaft 41.

In the first torsion limiting mechanism 43 of the present invention, the limiting portion is a limiting notch 433 disposed on the rotating shaft 41, the matching portion is an inner bending portion 411 formed by bending from a partial area of an end portion of the first shaft seat 421, a width of the limiting notch 433 is a circumference of a cross section of the rotating shaft 1/5 to 1/3, when the vehicle body 1 rotates to make the first shaft seat 421 rotate clockwise around the rotating shaft 41, the inner bending portion 411 moves in the limiting notch 433, and when the inner bending portion 411 moves to an end portion of the limiting notch 433, the end portion blocks the inner bending portion 411 from moving further, thereby blocking the first shaft seat 421 from rotating clockwise around the rotating shaft 41; in contrast:

when the first shaft seat 421 rotates counterclockwise around the rotating shaft 41, the inner bending portion 411 moves in the limiting notch 433, and when the inner bending portion 411 moves to the other end of the limiting notch 433, the other end hinders the inner bending portion 411 from continuing to move, so that the first shaft seat 421 is hindered from continuing to rotate counterclockwise around the rotating shaft 41; therefore, the relative rotation angle of the first shaft seat 421 around the rotation shaft 41 can be limited, because the second shaft seat 422 is fixed on the rotation shaft 41, the rotation shaft 41 can also move in the shaft sleeve 44 when the second shaft seat 422 rotates, the rotation angle is also limited by the matching of the limiting notch 433 and the inner bending part 411, and the relative rotation angle of the first shaft seat 421 and the second shaft seat 422 around the rotation shaft 41 can be limited no matter which vehicle body rotates on two sides.

In the utility model, the limiting notch 433 is arranged at one end of the rotating shaft 41, the inner bending part 411 is arranged at the position of the first shaft seat 421 corresponding to the limiting notch 433, and the two parts are combined to form the torsion limiting mechanism 43 of the rotating shaft device 4 of the balance car. The pin or the limiting shaft of the torsion limiting mechanism 43 of the existing balance car rotating shaft device 4 is omitted, so that the structure is simple, the assembly is easy, the problem that the pin or the limiting shaft of the existing torsion limiting mechanism 43 is easy to loosen due to vibration or increase of service time is solved, and the safety and the reliability are improved.

As shown in fig. 5, in the second torsion limiting mechanism 43 of the present invention, the limiting portion is a limiting notch 433 provided on the rotating shaft 41, the engaging portion is a protruding portion 412 provided on the inner wall of the shaft seat 42, and the protruding portion 412 can rotate in the limiting notch 433. Since the rotation manner is the same as that of the first torsion limiting mechanism 43, the description thereof is omitted.

In the drawings of the above embodiments, the number of the limiting portions and the engaging portions is one, but in other embodiments, the number of the limiting portions and the engaging portions may be two or more, for example, when two torsion limiting mechanisms 43 are used, they may be disposed oppositely, or may be disposed at a certain angle.

Accordingly, the positions of the limiting portion and the matching portion can be adjusted, for example, the limiting portion is a limiting notch 433 arranged on the shaft seat, the matching portion is a protruding portion 412 or a bending portion arranged on the rotating shaft 41, and the protruding portion 412 or the bending portion can rotate in the limiting notch 433.

As shown in fig. 6, in the third torsion limiting mechanism 43 of the present invention, the limiting portion is a limiting notch 433 provided on a shaft seat (e.g. the first shaft seat 421), the engaging portion is an outer bending portion 413 provided on the rotating shaft 41, and the outer bending portion 413 can rotate in the limiting notch 433. Since the third torsion limiting mechanism 43 rotates in the same manner as the first and second torsion limiting mechanisms 43, the details are not repeated herein.

In the drawings of the above embodiments, the number of the limiting portions and the engaging portions is one, but it is needless to say that more than two limiting portions and two engaging portions may be used in other embodiments, and when two torsion limiting mechanisms 43 are used, they may be disposed oppositely or may be disposed at a certain angle.

Similarly, the number of the limiting portion and the matching portion adopted in the present embodiment may be one, or two or more, for example, when two torsion limiting mechanisms 43 are used, they may be disposed oppositely (as shown in fig. 6), or may be disposed at a certain included angle.

In addition, the matching portion may also be a protruding portion disposed on the outer wall of the rotating shaft 41, and the protruding portion is located in the limiting notch 433 as long as the relative rotation angle of the shaft seat 42 around the rotating shaft 41 can be controlled, and the specific structure of the torsion limiting mechanism 43 is not limited in the present invention.

With continued reference to fig. 1 and 2, the vehicle body 1 includes an upper housing 11 and a lower housing 12, and the motor wheel 3 is disposed at one end of the lower housing 12. Compared with the traditional mode of mounting the motor wheel 3 on the upper shell 11, the utility model is more convenient for mounting and dismounting the motor wheel 3 and overhauling the motor wheel 3.

Optionally, the balance vehicle of the present invention further includes a control main board 13 for controlling a motion state of the motor wheel 3, where the control main board 13 is disposed in the lower housing 12, and the motor wheel rotates forward, stops, rotates backward, and the like according to a user control instruction. For the control of rational utilization space and the motor wheel 3 on two automobile bodies 1 of being convenient for, control mainboard 13 is two, respectively installs in a lower casing 12, has solved current with control mainboard 13 device in last casing 11, when installation, dismantlement and maintenance, need turn over the problem that just can operate with the balance car.

Further, the balance car of the utility model further comprises a battery 14, wherein the battery 14 is arranged in the lower shell 12, so that the battery 14 can be conveniently installed and detached, the battery 14 can be conveniently replaced, and the problem that the existing balance car can be operated only by turning over the balance car when the battery 14 is replaced is solved.

With reference to fig. 1 and fig. 2, a speaker 16 is further disposed in the lower housing 12, and the speaker 16 is connected to the control main board 13 for outputting a warning sound. Further, the outer surface of the lower shell 12 is wrapped with a waterproof wear-resistant pad (not shown in the figure), so that the lower shell 12 can be prevented from being scratched in the driving process, the waterproof function is suitable for riding on a slippery ground surface, and the waterproof wear-resistant pad can be replaced to keep the outer part of the balance car attractive.

Referring to fig. 7 and 8, the pedal 2 is provided with a mounting post 21, the lower end of the mounting post 21 is provided with an inverted buckle 22 connected with the vehicle body 1, and the vehicle body 1 is provided with a mounting hole 111 matched with the mounting post 21. Specifically, the mounting post 21 is integrally formed on the lower surface of the step panel 2, and passes through a mounting hole 111 of the vehicle body 1 to couple the step panel 2 and the vehicle body 1 together.

Footboard 2 and automobile body 1 realize being connected through back-off 22 on the erection column 21 and the 111 joints of mounting hole on the automobile body 1, make footboard 2 and automobile body 1's assembly more high-efficient, and connection between them is more stable, has stopped the screw and has come off in the balance car the inside, and the risk of the electronic components short circuit that leads to, and then has improved the security of balance car.

Preferably, the reverse buckle 22 is in the shape of a truncated cone, and the diameter of the upper end surface of the reverse buckle 22 is larger than that of the lower end surface, so that the pressure generated when the reverse buckle 22 is forced downwards is larger. Meanwhile, the reverse buckle 22 is in a round table shape, and the side surface of the round table is an inclined surface, so that when the reverse buckle 22 passes through the mounting hole 111, the reverse buckle 22 can effectively guide the contact surface of the mounting hole 111 to deform along the inclined surface of the round table, and the mounting column 21 can pass through the mounting hole 111 more easily through the design. Meanwhile, after the reverse buckle 22 passes through the mounting hole 111, the mounting hole 111 automatically rebounds and contracts, the upper end face of the reverse buckle 22 is abutted to the lower end face of the mounting hole 111, the mounting column 21 is prevented from being separated from the mounting hole 111, and the possibility that parts fall off due to vibration, thermal expansion and contraction or human negligence does not exist.

Furthermore, the lower end of the mounting post 21 is formed with a slot 23, and the slot 23 penetrates through the inverted buckle 22, so that a larger gap is generated between the inverted buckle 22, and the column body of the region of the mounting post 21 where the slot 23 is located and the inverted buckle 22 can be bent inwards. When the reverse 22 passes through the mounting hole 111, the reverse 22 is bent inward due to the pressing of the mounting hole 111, thereby reducing the diameter of the reverse 22, and making it easier for the reverse 22 to pass through the mounting hole 111. When the reverse buckle 22 completely passes through the mounting hole 111, the reverse buckle 22 automatically rebounds outwards, and the upper end surface of the reverse buckle 22 is abutted against the lower end surface of the mounting hole 111, so that the mounting column 21 is clamped at the lower end of the mounting hole 111. The design makes the assembly of the pedal 2 and the vehicle body 1 easier, improves the assembly efficiency and further improves the production efficiency.

Further, still be provided with the elastic component on the footboard 2 and lean on portion 24, the week side that the elastic component leaned on portion 24 is provided with a plurality of erection column 21, erection column 21 one end is provided with strengthening rib 25, the elastic component leans on portion 24 to be connected with erection column 21 through strengthening rib 25.

With reference to fig. 7 and 8, an elastic member abutting portion 24 is integrally formed on a lower surface of the rear end of the pedal 2, the elastic member abutting portion 24 is used for controlling a foot switch of the balance bike, a lower end of the elastic member abutting portion 24 is disposed above a trigger of the foot switch, and a protrusion 26 is disposed at a lower end of the elastic member abutting portion 24. When a user steps on the pedal 2, the elastic piece abutting part 24 is pressed downwards, so that the convex block 26 presses a foot switch on the starting control main board 13 to start the balance car. The elastic member 24 is connected to the lower end of the elastic member abutting portion 24, and the elastic member is preferably a spring, when the user leaves the pedal 2, the elastic member drives the elastic member abutting portion 24 to automatically rebound and rise, and at this time, the lug 26 no longer presses the trigger device of the foot switch, so that the foot switch of the balance bike is turned off.

In this embodiment, the mounting posts 21 are multiple and arranged around the periphery of the elastic member abutting portion 24, the reinforcing rib 25 is arranged between the mounting post 21 and the elastic member abutting portion 24 for connecting the mounting post 21 and the elastic member, so as to increase the connection strength between the mounting post 21 and the elastic member abutting portion 24, the reinforcing rib 25 can also reinforce the rigidity of the mounting post 21, so that the mounting post 21 is not easily bent and deformed, the stability of the connection between the mounting post 21 and the mounting hole 111 is ensured, and the connection between the pedal 2 and the vehicle body 1 is more stable.

Further, the lower surface of the front end of the pedal 2 is also integrally formed with a fixing column 27 protruding downwards, the fixing column 27 is provided with a threaded hole 28, and the vehicle body 1 is provided with a fixing hole 113. The pedal 2 can be fixedly connected with the threaded hole 28 through the fixing hole 113 by a fastener.

If the clamping structure of the reverse buckle 22 is damaged, the pedal 2 can be separated from the vehicle body 1, and the pedal 2 can still be connected with the vehicle body 1 through the threaded connection of the fixing post 27 and the vehicle body 1, so that the connection stability of the pedal 2 and the vehicle body 1 is improved. Meanwhile, instability of a user during riding caused by sudden separation of the pedal 2 and the vehicle body 1 is prevented, so that danger is prevented from occurring, and certain safety of the balance car is improved.

The shaping has the mounting groove 114 that is used for placing the elastic component and supports portion 24 on automobile body 1, and the elastic component supports and supports portion 24 upper end setting in mounting groove 114, and the lower extreme passes mounting groove 114 and sets up inside automobile body 1 to make the elastic component support and support portion 24 and be in mounting groove 114 basically, and then make footboard 2 and automobile body 1 laminate more, saved the certain installation space of footboard 2.

Correspondingly, a plurality of mounting hole 111 encircles the week side of mounting groove 114, and the shaping has fixed slot 115 to be used for placing strengthening rib 25 between mounting groove 114 and mounting hole 111 to make the bulge (erection column 21, strengthening rib 25 and elastic component support portion 24) on the footboard 2 all set up in the groove or the downthehole of automobile body 1, and then make footboard 2 and automobile body 1 laminate more, saved footboard 2 installation space more.

The elastic piece abutting portions 24 and the mounting posts 21 are provided with two sets, which are respectively positioned at the left side and the right side of the rear end of the pedal 2. The two sets of elastic piece abutting parts 24 and the mounting posts 21 are in triangular fixed relation with the fixing posts 27 on the lower surface of the pedal 2. Two sets of the corresponding mounting grooves 114 and mounting holes 111 are also provided, and are formed on the left and right sides of the rear end of the corresponding vehicle body 1. The two sets of mounting slots 114 and mounting holes 111 are in a triangular fixed relationship with the fixing holes 113 on the vehicle body 1. Since the triangular relationship is known to be highly stable, the connection between the pedal 2 and the vehicle body 1 is further stabilized by the above-described triangular fixed relationship.

Referring to fig. 9, 10 and 11, in the balance car of the present invention, the motor wheel 3 includes a wheel axle 31, a tire 32 and a side cover 33, the motor wheel 3 is a luminous power wheel, and a hub motor is disposed inside the motor wheel and includes a stator 34, a rotor 38 and a magnetic steel sheet 37; the stator 34 is fixed on the wheel shaft 31, the magnetic steel sheet 37 is arranged on the outer side of the stator 34, the rotor 38 is arranged on the outer side of the magnetic steel sheet 37, and the tire 32 is arranged on the outer side of the rotor 38.

The rotor 38 is fixed to the tire 32 by a connection structure, and after the hub motor is powered, the rotor 38 is rotated to drive the tire 32 to rotate. The side covers 33 are arranged on two sides of the tire 32, the side covers 33 are rotatably arranged at two ends of the wheel shaft 31 and used for sealing the rotor 38, the stator 34 and the magnetic steel sheet 37 inside, and the protective effect is achieved.

In this embodiment, the motor wheel 3 further includes a light, preferably an LED lamp, disposed between the tire 32 and the rotor 38, the tire 32 being light-permeable so that the light of the light can be seen, a movable guide 382, a static guide 341, and a fixed frame. The movable guide 382 is fixed on the side cover 33 and connected with the light through a lead, the static guide 341 is fixed on one side of the stator 34 and connected with a power supply through a lead, and is insulated from the stator 34; the movable conductor 382 abuts against the static conductor 341 so that the light emitter is powered by the vehicle power source (e.g., voltage output by the motherboard power module). The fixing frame is disposed on the side cover 33, and is used for fixing a wire between the movable guide member 382 and the light emitter on the side cover 33 to supply power to the light emitter.

The vehicle power supply supplies power to the luminous bodies in the motor wheel 3, and the power supply in the vehicle has higher voltage than the power supply in the battery 14 under the general condition, so that the luminous bodies can obtain better luminous effect. Meanwhile, the fixing frame is arranged in the wheel, so that a lead for supplying power to the luminous body is separated from the stator winding and is fixed on the side cover 33, and the lead is prevented from being in contact with the stator winding and conducting electricity to cause damage.

Referring to fig. 12 and 13, the rotor 38 is provided with a ring groove 381 for installing a light emitter; a conducting groove communicated with the side cover 33 is arranged on the rotor 38 on one side of the ring groove 381, and the conducting groove is used for leading the conducting wire into the ring groove 381. The annular groove 381 is an annular groove formed by being arranged on the surface of the rotor 38 and winding a circle around the surface of the rotor 38, and a lamp control board 383 is arranged in the annular groove 381, and a lamp bead for emitting light, namely the light-emitting body, is arranged on the annular groove 381.

Further, the fixing frame comprises an upper bracket 391 fixed on the side cover 33 and a lower bracket 392 fixed on the rotor 38, wherein the upper bracket 391 is in contact communication with the lower bracket 392; the upper bracket 391 is connected to the movable guide 382 by a wire, and the wire is laid on the side cover 33, and the lower bracket 392 is connected to the light emitter by a wire, and the wire is located in the conduction groove.

Further, a shifting sheet 393 is arranged between the upper support 391 and the lower support 392, one end of the shifting sheet 393 is connected with the upper support 391 or the lower support 392, the other end of the shifting sheet 393 is abutted against the lower support 392 or the upper support 391, and the upper support 391 and the lower support 392 are conducted through the shifting sheet 393. The pulling piece 393 is made of a metal material, such as a copper material; one end of the pulling sheet 393 can be fixed on the upper bracket 391 or the lower bracket 392 through a screw, and correspondingly, the other end of the pulling sheet 393 is directly abutted on the other bracket opposite to the fixed end of the pulling sheet 393, so that the two brackets are in contact connection; the length of the pulling plate 393 may be slightly greater than the interval between the lower bracket 392 and the upper bracket 391, so that the pulling plate 393 has a certain abutting force.

The utility model adopting the structure has the advantages that if the form of the shifting sheet 393 is not adopted, the circuit of the luminous wheel needs to be laid in the wheel, then the shell of the side cover 33 of the tire 32 needs to be installed, the installation form is complex, and particularly, the installation form that wires are connected into the wire groove 313 from the side cover 33 is complex; however, in the form of the upper bracket 391 and the lower bracket 392, the movable guide 382 is connected to the upper bracket 391, the lower bracket 392 is connected to the light emitting body, and the side cover 33 is attached to connect the upper bracket 391 and the lower bracket 392 in contact with each other, so that the light emitting circuit is connected.

As shown in fig. 11 and 13, an inlet 311 for connecting a wire from the outside is provided at one end of the axle 31, an outlet 312 for connecting a wire is provided on the axle body of the axle 31 located in the wheel, and a wire groove 313 for placing a wire is provided between the inlet 311 and the outlet 312.

Specifically, the stator 34 includes an outer ring of core windings 35 and an inner ring of connecting portions 36, and the connecting portions 36 are used for connecting the wheel axle 31; the wire slot 313 and the static guide element 341 are respectively located at two sides of the stator 34, and the connecting part 36 is provided with a plurality of notches through which a wire connected from the wire slot 313 passes to connect the static guide element 341.

The static guide 341 includes a lamp control board 383 fixed to the connecting portion 36, and an insulating board 386 is further provided between the lamp control board 383 and the stator 34. The lamp control board 383 is used for communicating a circuit, a movable contact component contacting with the movable guide member 382 is arranged on the lamp control board 383, and a relative movable abutting component, such as a copper ring set and a brush component, is arranged on the movable guide member 382, and the brush abuts against the copper ring set to be electrified or is connected in a mode of the poking sheet 393; and the insulation board 386 is used for isolating the lamp control board 383 from the stator 34, so as to prevent contact conduction and fault damage.

Further, the lamp control board 383 is further provided with a plastic buckle 384, the connecting portion 36 of the stator 34 is provided with at least one group of buckle grooves 385, two ends of the plastic buckle 384 penetrate through the lamp control board 383 and are connected into the buckle grooves 385, so that the lamp control board 383 is fixed on one side of the stator 34, and the lamp control board 383 is fixed. Except for the form of the plastic buckle 384, a screw fixing form can be adopted, but when the screw fixing is adopted, the space-avoiding insulation is required to be carried out around the fixing point of the screw, so that the conduction is prevented; besides, the fixing can be directly carried out by a binding belt.

Furthermore, a sunken tooth surface I321 is arranged at the bottom of each of two sides of the tire 32, and a convex tooth surface II 331 corresponding to the tooth surface I321 is arranged on the side cover 33; the second tooth surface 331 abuts against the first tooth surface 321, and the side cover 33 and the rotor 38 are connected through a fastener; a bearing member 332 is further disposed between the side cover 33 and the wheel axle 31. The sunken first tooth surfaces 321 cooperate with the two-sided tire 32 and the rotor 38, so that the second tooth surfaces 331 on the tire 32 are buckled into the first tooth surfaces 321, and the tire 32 and the side cover 33 are fixed through the tooth surface structure. The side cover 33 is now connected to the tire 32, and the bearing member 332 causes the side cover 33 and the tire 32 to rotate in unison.

The above embodiment describes the structure of the balance car in detail, and for better understanding of the present invention, the following describes the control method of the balance car in detail with reference to fig. 14:

and S1, controlling the rotating direction and/or the rotating speed of the motor wheel according to the pedal angle in the power-on state.

In this embodiment, after the user steps on the pedal, the elastic member abutting portion is deformed downward to control the pedal switch of the balance car to be turned on, and at this time, the user controls the balance car to move forward, backward, stop and the like through forward leaning, backward leaning, standing and the like of the body, and can also control the forward and backward moving speed through the size of the included angle between the human body and the vertical direction.

In the moving process of the balance car, the moving state and the moving speed of the balance car are monitored in real time, and when the moving speed of the balance car reaches a set speed (for example, the speed per hour reaches 10KM/h), the set highest speed is kept to run, so that potential safety hazards caused by too high speed are avoided. Further, when the moving speed of the balance car reaches 8KM/H, a speed limit protection function is started, the running speed is detected in real time, and the balance car is limited to run at the speed when the speed reaches 10 KM/H.

Further, the method further comprises the following steps: and monitoring the gradient of the pedal in real time, and controlling the motor to stop rotating when the gradient of the pedal exceeds a set angle. For example, when the inclination of the human body control pedal exceeds more than 15 degrees, the state lamp is red and normally on, and the motor stops rotating.

And in the running process, the pedal can control the rotating shaft device to act to steer, and turn on the corresponding steering lamp, if the right pedal tilts forwards, the balance car is controlled to turn left, and the left blue indicator lamp flickers, if the left pedal tilts forwards, the balance car is controlled to turn right, and the right blue indicator lamp flickers. When the indication turns, the turn light and the fender light flash synchronously to improve the warning function. When the vehicle runs straight, the indicator lights on the left side and the right side are always on.

Specifically, the control method described before step S1 further includes: and S01, when the power key on the vehicle body is turned on, the loudspeaker outputs corresponding prompt tones (such as the equipment is started and welcomed to use), and detects whether a fault, electric quantity and shutdown instruction are sent.

Such as: a power key is pressed for one second for a short time, the power indicator lamp is lightened, the Bluetooth loudspeaker emits 'clattering' sound to start up, and at the moment, the working modes can be selected, such as self-balancing starting-up, dual modes and cradle modes.

Further, the control method further comprises: when the balance car is ridden under the self-balancing mode state, the power key can not be shut down when being pressed, and the balance car can be normally shut down when being ridden under the non-self-balancing mode, so that misoperation caused by mistaken touch of the power key is prevented.

After the step S01, a step S02 is further included, when the balance car fault is detected, the red fault lamp is made to flash, and the horn is made to output a corresponding warning sound (such as specific fault warning information) for facilitating the maintenance;

when the battery capacity is detected to be sufficient, the green indicating lamp is normally on; when the battery power is insufficient, the green indicator light is enabled to flash; when the battery is under-voltage, the green indicator light is normally on, and the loudspeaker outputs corresponding prompt tones (such as insufficient battery power, timely charging and the like);

when the power key detects a shutdown instruction (such as long pressing of the power key), the horizontal position of the balance car body is calibrated, calibration data is stored, and after calibration is completed, a corresponding prompt tone (such as use in shutdown and thank you) is output and shutdown is carried out.

For example, when the temperature in the motor reaches 110 ℃, the horn outputs alarm information, and the status light flashes red, and when the temperature in the motor reaches 120 ℃, the power protection of the motor is cut off, and the motor is shut down in time.

The utility model can represent different faults by setting fault codes, thereby facilitating maintenance and detection. Such as: flashing for 1 time under the status light: controlling hardware faults of the main board (the operational amplifier at the A board end and the MOS tube are poor); flashing for 2 times with status light: controlling hardware faults of the main board (the operational amplifier at the board B end and the MOS tube are poor); flashing the status light for 3 times: controlling the main board to generate overcurrent; flashing for 4 times with status light: a board a hall fault (mainly checking for poor connection of a motor or a connecting wire); flashing for 5 times with status light: hall fault of the B board (mainly checking poor connection of a motor or a connecting wire); flashing for 6 times with status light: battery fault or over-current protection; flashing for 7 times with status light: a communication line failure; flashing the status light for 8 times: protection status (typically recalibration balancing may be resolved), although other fault codes may be used.

For another example: when the battery level is detected, when the battery voltage is lower than 23V, the red light is made to blink and the horn outputs a low-level alert tone. The control method further comprises the following steps: when charging, the yellow lamp flashes, when the battery reaches more than 90% of electric quantity, the yellow lamp is on, and the red lamp of the power supply lamp is on.

The following steps are repeated: when detecting that the power key is grown for about 3 seconds, the balance car makes a sound drop, the correction indicator lamp is on for a long time, after 3-5 seconds, the loudspeaker outputs a prompt tone to correct, and then the balance car is restarted.

S2, when the cradle mode is started, the motor wheel is controlled to reciprocate, and the baby cradle can be connected through the traction rope at the moment to sooth the baby and fall asleep, so that the baby cradle can replace a user to sooth the baby.

The utility model expands the function of the balance car, enables the balance car to have the function of the conventional balance car, can also be used as a robot to replace part of work of people, enables users to finish other work by utilizing the time of putting children asleep, and improves the intelligent degree of the balance car. Meanwhile, the reciprocating motion of the balance car is uniform motion, the cradle is controlled to swing more stably, and compared with a manual cradle control mode, the baby can sleep more comfortably.

Furthermore, the movement time of the cradle mode is automatically memorized according to the sound sleep time of the baby, the baby-soothing falling-asleep mode is completed while the battery power is saved, and the time memory of the cradle mode can be set according to the user during the automatic memory.

Furthermore, the balance car is in communication connection with the mobile phone APP, and the state of the balance car is reported to the mobile phone APP. And when the cradle mode is adopted, the heart rate of the baby can be monitored through the mobile phone, and when the mobile phone APP judges that the baby falls asleep, a control instruction is sent, so that the balance car stops working, and the intelligent degree of the balance car is further improved.

Further, the control method of the present invention further includes: when the foot pedal is pressed by the hand and the angle is rotated to 90 ℃, the motor stops working, the indicator light is on red, and the foot pedal is pressed to be normal; when the vehicle body is erected, the motor stops working, the indicator light is red, and the pedal is pressed to be normal; when the vehicle body is on the ground, the motor idles for 1-3 seconds, the motor stops working, the indicator light is on red, and the pedal is pressed to be normal at the moment, so that the motor is protected.

The utility model further provides a kart powered by the balance car, please refer to fig. 15 and 16, which includes a frame assembly 01, the frame assembly 01 is provided with a seat assembly 02, a steering control assembly (not numbered), a front and rear control assembly 04 and a balance car 05 for driving the kart to move, the steering control assembly includes a steering wheel 031 and a front wheel 032 controlled by the steering wheel so as to control the steering of the kart, the front and rear control assembly 04 includes a swing frame 041 fixedly connected with two wheel bodies of the balance car and a handle assembly 042 fixedly connected with the swing frame, the swing frame 041 is rotatably connected with the frame assembly 01, and the balance car 05 is located at the rear end of the frame assembly 01 and connected with the swing frame 041.

The balance car and the kart frame are assembled, so that the multifunctional function of one car is realized, and the purchase cost of the kart is saved. Since the structure and operation of the balance car have been described in detail above, no further description is given here.

The front and rear control assembly 04 further comprises an accelerator assembly 043, the accelerator assembly 043 comprises an accelerator pedal 431 and an accelerator connecting rod 432 fixedly connected with the accelerator pedal 431 and rotating relative to the frame assembly, and the accelerator connecting rod 432 is fixedly connected with the rear part of the swinging frame 041. When the accelerator pedal 431 is stepped on by a foot, the accelerator connecting rod 432 drives the rear part of the swinging frame 041, so that the swinging frame 041 and the two-wheeled electric balance car 05 are inclined forwards to realize advancing or braking. The throttle connecting rod 432 is rotatably connected with the seat component 02 through a supporting rod 433, and the supporting rod 433 is fixedly connected with the seat component 02.

Further, the front and rear operating assembly 04 comprises a brake assembly 044, the brake assembly 044 comprises a brake pedal 441, and a brake link 442 fixedly connected to the brake pedal 441 and rotatable relative to the frame assembly 01, and the brake link 442 is fixedly connected to the front portion of the swinging frame 041. When the brake component 044 is stepped by a foot, the brake connecting rod 442 drives the front part of the swinging frame 041, so that the swinging frame 041 and the two-wheeled electric balance car 05 can be controlled to horizontally incline or backwards to realize braking or braking. Brake link 442 is pivotally connected to seat assembly 02 via support rod 433. The accelerator connecting rod and the brake connecting rod are rotatably connected with the supporting rod, and the balance car is enabled to incline forwards, horizontally or backwards and the like in a mode of connecting the accelerator connecting rod and the brake connecting rod with the swinging frame 041 in tandem, so that the forward, the brake or the backward movement is realized.

In summary, the torsion limiting mechanism of the balance car rotating shaft device is formed by arranging the limiting notch at one end of the rotating shaft and arranging the inner bending part corresponding to the limiting notch on the second shaft seat. The pin of the torsion limiting mechanism of the existing balance car rotating shaft device is omitted, so that the structure is simple, the assembly is easy, the problem that the pin of the existing torsion limiting mechanism is easy to loosen due to vibration or increase of service time is solved, and the safety and the reliability are improved. And the number and the structure of the torsion limiting mechanism are various, and the torsion limiting mechanism can be configured as required and is more flexible to select.

The electric parts such as the control main board, the battery, the motor wheel, the loudspeaker and the like are arranged in the lower shell, so that the balance car is convenient to overhaul and replace accessories.

The assembly structure of the pedal structure and the car body of the balance car provided by the utility model is simple in installation, and more stable in connection, and the risk of short circuit of electronic components caused by the fact that screws fall off in the balance car is eliminated, so that the safety of the balance car is improved.

Besides, the balance car disclosed by the utility model has a cradle function besides a conventional walking function, so that a baby is pacified to fall asleep, the intelligent degree is high, the balance car can be assembled with the carting car, the purchasing cost of the carting car is saved, the balance car is multipurpose, and the functions of the balance car are further enriched.

It should be understood that the technical solutions and the inventive concepts according to the present invention may be equally replaced or changed by those skilled in the art, and all such changes or substitutions should fall within the protection scope of the appended claims.

Claims (10)

1. The utility model provides a balance car, includes two automobile bodies be provided with footboard and motor wheel on the automobile body, its characterized in that still includes and is used for making two automobile body pivoted pivot means relatively, pivot means includes:

the torsion limiting mechanism is used for limiting the relative rotation angle of the shaft seat when the shaft seat rotates around the rotating shaft;

twist reverse stop gear and include: the limiting part is arranged at one end of the rotating shaft, and the matching part is arranged on a shaft seat and matched with the limiting part.

2. The balance car of claim 1, wherein the limiting portion is a limiting notch provided on the rotating shaft, and the engaging portion is a protruding portion or a bending portion provided on the shaft seat, and the protruding portion or the bending portion can rotate in the limiting notch.

3. The balance car of claim 1, wherein the limiting portion is a limiting notch provided on the axle seat, and the engaging portion is a protruding portion or a bending portion provided on the rotating shaft, and the protruding portion or the bending portion can rotate in the limiting notch.

4. The balance car of claim 2 or 3, wherein the rotating shaft device further comprises a shaft sleeve, the shaft sleeve is sleeved at one end of the rotating shaft, the shaft sleeve is in interference fit with one shaft seat, and the other shaft seat is in interference fit with the other end of the rotating shaft.

5. The balance car of claim 1, wherein the car body comprises an upper housing and a lower housing, the motor wheel being disposed at one end of the lower housing.

6. The balance car of claim 5, further comprising a control main plate for controlling a motion state of the motor wheel, the control main plate being provided in the lower housing.

7. The balance car of claim 5, further comprising a battery disposed in the lower housing.

8. The balance car of claim 5, wherein the outer surface of the lower shell is wrapped with a waterproof wear pad.

9. The balance car of claim 1, wherein the pedal is provided with a mounting post, the lower end of the mounting post is provided with an inverted buckle connected with a car body, and the car body is provided with a mounting hole matched with the mounting post.

10. A kart taking a balance car as power comprises a frame assembly, wherein the frame assembly is provided with a seat assembly, a steering control assembly and a front-rear control assembly, the steering control assembly comprises a steering wheel and front wheels controlled by the steering wheel, and the kart is characterized by further comprising the balance car as claimed in any one of claims 1 to 9; wherein:

the front and rear control assembly comprises a swing frame fixedly connected with the balance car and a handle assembly fixedly connected with the swing frame, the swing frame is rotatably connected with the frame assembly, and the balance car is arranged at the rear end of the frame assembly.

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