CN203740042U - Turning locating structure for pedals of electric self-balancing monocycle - Google Patents

Abstract

The utility model relates to a turning locating structure for pedals of an electric self-balancing monocycle. The pedals are arranged at the lower end of the left side and the lower end of the right side of a case and are hinged to adapting pieces. The turning locating structure further comprises a lock catch installed in the case or each pedal. The lock catch comprises a lock cylinder, a spring and a lock body, wherein the lock body is fixed to the case or each pedal; the lock cylinder and the spring are installed in the lock body; the lock cylinder is in elastic connection with the spring. The lock cylinder comprises a cylinder body and a lock head which are fixedly connected. When the lock catch is installed in the case, the lock body is fixed to the case, and the lock head is in separable connection with the pedals. When each pedal is provided with one lock catch, each lock body is fixed to the corresponding pedal, and the lock heads are in separable connection with the case. By the turning locating structure, the turning locating accuracy is increased, the service life of the turning locating structure is prolonged, great convenience is brought to users, the users can conveniently put the electric self-balancing monocycle in a trunk of a car or at home or in an office, and the users can really carry the electric self-balancing monocycle anytime and anywhere.

Description

The upset location structure of Self-balancing electronic wheelbarrow stretcher

Technical field

The utility model relates to a kind of upset location structure of Self-balancing electronic wheelbarrow stretcher.

Background technology

Self-balancing electronic wheelbarrow is energy-saving and environmental protection of new generation, portable walking-replacing tool.Self-balancing electronic wheelbarrow short distance is ridden instead of walk very convenient, can replace public transport and subway.The electric unicycle bodily form is small and exquisite, easy to carry, and the lightest a 9.8kg that only has can directly put the boot of automobile into, mentions family or office.

Self-balancing electronic wheelbarrow is controlled the anterior-posterior balance of car body by reversible pendulum system principle, user only need keep the left and right balance of car body.As an outdoor activity, inner by programming control when Self-balancing electronic wheelbarrow is suitable for travelling frequently use or weekend every day, speed limit, at 16km/h, is taken into account road speed when guarantee is safe.

After user is placed on pin respectively on the folding step of wheel both sides, the health that turns forward is gently to advance, and receding is to slow down, left and the health that is tilted to the right be to turn.It is more severe that body forward tilts, and speed is just faster, and a series of revolving gears in car guarantee that it can keep balance.

Under the day by day serious background of environmental pollution, Self-balancing electronic wheelbarrow, as a kind of walking-replacing tool of novel environment friendly, can be alleviated consumption and the aerial contamination of resource.

At present, after the location of Self-balancing electronic wheelbarrow stretcher adopts bolt tightening mostly, produce damping effect by the distortion of rotation radius stay and ensure upset location, but in the time that the number of times of stretcher upset acquires a certain degree, because do not have enough large damping to realize upset location, assembly again just need to tight a bolt, so will there is defect in such design: 1, rotation radius stay distortion, cause rotation radius stay upper stress to concentrate, strength decreased, easily fractures; 2, need user constantly to repeat the assembly that tights a bolt, will bring to user like this work of repetition.

Utility model content

Technical problem to be solved in the utility model is to overcome deficiency of the prior art and upset location structure that a kind of Self-balancing electronic wheelbarrow stretcher of reasonable in design is provided, adopt more reasonably organization plan, not only improve the intensity of upset efficiency and each locating element structure, and saved the labour power repeating.

The technical scheme in the invention for solving the above technical problem is: a kind of upset location structure of Self-balancing electronic wheelbarrow stretcher, comprises casing, stretcher, wheel hub motor, attaching parts; Casing is located at electric locomotive wheel upper end and covers electric locomotive wheel; Wheel hub motor center is provided with installation shaft; Attaching parts is fixed with installation shaft and casing respectively; Stretcher is located at the lower end, the left and right sides of casing, and hinged with attaching parts, and stretcher can upwards turn to stowed position, turn to expanded position downwards; It is characterized in that: also comprise the snap close being arranged on casing or stretcher; Snap close comprises lock core, spring, lock body, and lock body is fixed on casing or stretcher, and lock core and spring fitting are in lock body, and lock core is connected with spring; Lock core comprises the core body and the tapered end that are fixed together;

In the time that snap close is arranged on casing, lock body is fixed on casing, and described tapered end can be connected by disengaged with stretcher, when stretcher is during in stowed position, and tapered end and stretcher clamping, when stretcher is during in expanded position, tapered end and stretcher depart from;

In the time that snap close is arranged on stretcher, lock body is fixed on stretcher, and described tapered end can be connected by disengaged with casing, when stretcher is during in stowed position, and tapered end and casing clamping, when stretcher is during in expanded position, tapered end and casing depart from.

The utility model is in the time that snap close is arranged on casing, and described stretcher is provided with draw-in groove, and described tapered end can be connected by disengaged with draw-in groove, when stretcher is during in stowed position, and tapered end and draw-in groove clamping, when stretcher is during in expanded position, tapered end and draw-in groove depart from.

Core body described in the utility model is provided with driving lever.

The utility model is in the time that snap close is arranged on casing, and described stretcher is provided with chute, and when stretcher is during in stowed position, described driving lever is positioned at chute, and when stretcher is during in expanded position, driving lever separates with chute.

Lock body described in the utility model longitudinally has installation cavity, and lock core and spring fitting are in installation cavity.

Tapered end described in the utility model is provided with inclined-plane, and inclined-plane arranges outwardly.

Stretcher described in the utility model is provided with groove, and the groove width of groove is greater than the width of attaching parts.

The utility model compared with prior art, tool has the following advantages and effect: reasonable in design, improve upset positioning accurate accuracy, extend the service life of upset location, bring great convenience to user, so that user is put into boot, family or the office of automobile, really allow user carry anywhere or anytime.

Brief description of the drawings

Fig. 1 is the utility model embodiment decomposition texture schematic diagram.

Fig. 2 is the structural representation of the utility model embodiment stretcher in stowed position.

Fig. 3 is the local structure schematic diagram of Fig. 2, and stretcher is W-W in Fig. 2 to analysing and observe.

Fig. 4 is the structural representation of the utility model embodiment stretcher in expanded position.

Fig. 5 is the structural representation of the utility model embodiment snap close.

Fig. 6 is the decomposition texture schematic diagram of the utility model embodiment snap close.

Detailed description of the invention

Below in conjunction with accompanying drawing and by embodiment, the utility model is described in further detail.

Referring to Fig. 1～Fig. 6, in the present embodiment, snap close 2 is arranged on casing 1.

The utility model embodiment comprises casing 1, snap close 2, stretcher 3, electric locomotive wheel, attaching parts 6.

Casing 1 is located at electric locomotive wheel upper end and covers electric locomotive wheel.Electric locomotive wheel center is provided with installation shaft.

Attaching parts 6 is fixed with installation shaft, and casing 1 use screw and attaching parts 6 are fixing.Attaching parts 6 is made of metal.

Stretcher 3 is located at the lower end, the left and right sides of casing 1, and hinged by S. A. 5 with attaching parts 6.Stretcher 3 is mainly used for driver and stands, and can on certain angle, rotate, and can upwards turn to stowed position, turn to expanded position downwards.Stretcher 3 is made up of metal or high-intensity plastics.Stretcher 3 is provided with draw-in groove 14 and chute 15.

Snap close 2 comprises lock core 4, spring 16, lock body 7, lock side cover 8.Lock body 7 is fixed on casing 1, and lock body 7 longitudinally has installation cavity 9, and lock core 4 and spring 16 are arranged in installation cavity 9, and lock core 4 is connected with spring 16 elasticity, and under the effect of spring 16, lock core 4 can move along installation cavity 9.Lock side cover 8 is fixed on lock body 7 afterbodys, facilitates lock core 4 and spring 16 to pack in installation cavity 9.

Lock core 4 comprises the core body 10 and the tapered end 11 that are fixed together.Core body 10 is connected with spring 16 elasticity.Core body 10 is provided with driving lever 12, and driving lever 12 exposes outside lock body 7.Tapered end 11 is provided with inclined-plane 13, and inclined-plane 13 arranges outwardly.

Tapered end 11 can be connected by disengaged with draw-in groove 14, when stretcher 3 is during in stowed position, and tapered end 11 and draw-in groove 14 clampings, when stretcher 3 is during in expanded position, tapered end 11 departs from draw-in groove 14.This structure makes tapered end 11 can be connected by disengaged with stretcher 3, when stretcher 3 is during in stowed position, and tapered end 11 and stretcher 3 clampings, when stretcher 3 is during in expanded position, tapered end 11 departs from stretcher 3.

When stretcher 3 is during in stowed position, driving lever 12 is positioned at chute 15, and when stretcher 3 is during in expanded position, driving lever separates with chute 15.

Stretcher 3 is also provided with groove 17, and the groove width of groove 17 is greater than the width of attaching parts 6.When stretcher 6 is during in stowed position, the part of attaching parts 6 is arranged in this groove 17, has reduced so the shared volume of car body,

In the time that stretcher 3 is upwards turned to certain position, the inclined-plane 13 of lock core 4 contacts with stretcher 3, stretcher 3 acts on inclined-plane 13, by the effect on inclined-plane 13, lock core 4 moves inwards, and stretcher 3 continues upset, in the time that stretcher 3 is upwards turned to stowed position, under spring 16 elastic force effects, outwards 14 li of mobile draw-in grooves that snaps into stretcher 3 of tapered end 11, the upset location of realizing stretcher 3; Now driving lever 12 is positioned at chute 15, makes outside driving lever 12 is exposed to handled easily.Stir gently driving lever 12 with finger, lock core 4 is moved inwards, tapered end 11 is mobile inwards to be separated with the draw-in groove 14 of stretcher 3,

Stretcher 3 no longer suffers restraints, and can automatically slowly put down.

In addition in embodiment, snap close 2 concrete structures are same as the previously described embodiments or be equal to.When snap close 2 is arranged on stretcher 3, lock body 7 is fixed on stretcher 3.Tapered end 2 can be connected by disengaged with casing 1, when stretcher 3 is during in stowed position, and tapered end 11 and casing 1 clamping, when stretcher 3 is during in expanded position, tapered end 11 departs from casing 1.In the time that stretcher 3 is upwards turned to certain position, the inclined-plane 13 of lock core 4 contacts with casing 1, casing 1 acts on inclined-plane 13, by the effect on inclined-plane 13, lock core 4 moves inwards, and stretcher 3 continues upset, in the time that stretcher 3 is upwards turned to stowed position, under spring 16 elastic force effects, tapered end 11 is mobile snapping on casing 1 outwards, realizes the upset location of stretcher 3; Stir gently driving lever 12 with finger, lock core 4 is moved inwards, tapered end 11 is mobile inwards to be separated with casing 1, and stretcher 3 no longer suffers restraints, and can automatically slowly put down.

Although the utility model with embodiment openly as above; but it is not in order to limit protection domain of the present utility model; any technical personnel of being familiar with this technology, not departing from change and the retouching done in design of the present utility model and scope, all should belong to protection domain of the present utility model.

Claims (7)

1. a upset location structure for Self-balancing electronic wheelbarrow stretcher, comprises casing, stretcher, wheel hub motor, attaching parts; Casing is located at electric locomotive wheel upper end and covers electric locomotive wheel; Wheel hub motor center is provided with installation shaft; Attaching parts is fixed with installation shaft and casing respectively; Stretcher is located at the lower end, the left and right sides of casing, and hinged with attaching parts, and stretcher can upwards turn to stowed position, turn to expanded position downwards; It is characterized in that: also comprise the snap close being arranged on casing or stretcher; Snap close comprises lock core, spring, lock body, and lock body is fixed on casing or stretcher, and lock core and spring fitting are in lock body, and lock core is connected with spring; Lock core comprises the core body and the tapered end that are fixed together;

In the time that snap close is arranged on casing, lock body is fixed on casing, and described tapered end can be connected by disengaged with stretcher, when stretcher is during in stowed position, and tapered end and stretcher clamping, when stretcher is during in expanded position, tapered end and stretcher depart from;

In the time that snap close is arranged on stretcher, lock body is fixed on stretcher, and described tapered end can be connected by disengaged with casing, when stretcher is during in stowed position, and tapered end and casing clamping, when stretcher is during in expanded position, tapered end and casing depart from.

2. the upset location structure of Self-balancing electronic wheelbarrow stretcher according to claim 1, it is characterized in that: in the time that snap close is arranged on casing, described stretcher is provided with draw-in groove, described tapered end can be connected by disengaged with draw-in groove, when stretcher is during in stowed position, tapered end and draw-in groove clamping, when stretcher is during in expanded position, tapered end and draw-in groove depart from.

3. the upset location structure of Self-balancing electronic wheelbarrow stretcher according to claim 1, is characterized in that: described core body is provided with driving lever.

4. the upset location structure of Self-balancing electronic wheelbarrow stretcher according to claim 3, it is characterized in that: in the time that snap close is arranged on casing, described stretcher is provided with chute, when stretcher is during in stowed position, described driving lever is positioned at chute, when stretcher is during in expanded position, driving lever separates with chute.

5. the upset location structure of Self-balancing electronic wheelbarrow stretcher according to claim 1, is characterized in that: described lock body longitudinally has installation cavity, lock core and spring fitting are in installation cavity.

6. the upset location structure of Self-balancing electronic wheelbarrow stretcher according to claim 1, is characterized in that: described tapered end is provided with inclined-plane, and inclined-plane arranges outwardly.

7. the upset location structure of Self-balancing electronic wheelbarrow stretcher according to claim 1, is characterized in that: described stretcher is provided with groove, the groove width of groove is greater than the width of attaching parts.