CN205819423U

CN205819423U - A kind of fixed structure for electric motor car with two wheels

Info

Publication number: CN205819423U
Application number: CN201620457523.3U
Authority: CN
Inventors: 黄金龙; 黄金良
Original assignee: SHANGHAI XILI ELECTRONIC TECHNOLOGY Co Ltd
Current assignee: Shanghai Xili Electronic Technology Co ltd
Priority date: 2016-05-18
Filing date: 2016-05-18
Publication date: 2016-12-21
Anticipated expiration: 2026-05-18

Abstract

A kind of fixed structure for electric motor car with two wheels, fixed structure includes front vehicle body set and the aftercarriage set being separately positioned on front vehicle body and aftercarriage, and lock slider, locking briquetting etc..Electric motor car with two wheels of the present utility model is the most portable to be carried, and arranges the fixed structure of uniqueness in front vehicle body and aftercarriage so that the front vehicle body of electric motor car with two wheels and rear car physical ability are locked into one stationary state when driving, and can fold when carrying.

Description

A kind of fixed structure for electric motor car with two wheels

Technical field

This utility model relates to a kind of electric motor car, particularly to a kind of electric motor car with two wheels that can fold.

Background technology

Increasingly serious along with Modern City Traffic situation, the advantage such as electric motor car is convenient with it, environmental protection is increasingly By the most well-established.The usual volume of traditional electric motor car is big, and weight is big, inconvenient to carry, is unfavorable at public transport and road surface row The conversion reached.Now, light folding electric motor car just occurs as the replacement scheme on portability to the public transport such as subway.

Mostly existing electric motor bicycle with folding is directly handlebar and vehicle body to be folded, but traditional folding mode is deposited In some defects.Such as, the vehicle body after folding needs the wheel guiding and supporting one end with hands to carry out mobile electric car, but because of electronic Car is with equipment such as set of cells, and body weight is excessive, guides and supports inconvenience.Furthermore, the vehicle body in traditional folding mode, after folding Length constant, need to take the space that subway and other modes of transport is the biggest, if therefore having on wheel dirty, it is easy to make him dirty The medicated clothing of people.Additionally, on conventional electric car through fold after vehicle body on be used for transmit signal/power supply transmission line arrange do not conform to Reason so that the vehicle body after folding is taken up space relatively big, is easily damaged transmission line when carrying.

So that a kind of, there is the electric motor bicycle with folding improving fold mechanism, in order to overcome lacking of tradition electric motor bicycle with folding Fall into.

Summary of the invention

This utility model is for solving problem above, it is provided that the electric motor car with two wheels that a kind of front and back wheel can fold, for Realizing this folding, this utility model devises front vehicle body and the fixed mechanism of aftercarriage of uniqueness, concrete:

A kind of fixed structure for electric motor car with two wheels, described electric motor car with two wheels includes front vehicle body and aftercarriage, described before Car body and aftercarriage can be separated from each other when folding two-wheel electric motor car, and described two-wheel electric driven by described front vehicle body and aftercarriage Che Shineng is mutually permanently connected, and described front vehicle body includes that faucet lever, described aftercarriage include support bar, described fixed structure bag Include:

Aftercarriage set, the front side of described support bar front end is provided with front side engaging plane, and described aftercarriage set is from described front side The both sides of engaging plane are prolonged and are born and formed, and described aftercarriage set has internal cavity, and the rear side of described internal cavity is described front side Engaging plane；

Front vehicle body set, described front vehicle body set is connected to the lower end of described faucet lever, and described front vehicle body set has inner cylinder Cavity, described inner cylinder cavity for accommodating the faucet lever of described front vehicle body rotationally, the outer wall of described front vehicle body set with The internal cavity matching form of described aftercarriage set, the rear side of the outer wall of described front vehicle body set is provided with rear side engaging plane, when described When front vehicle body set is inserted in the internal cavity of described aftercarriage set, to engage plane with described rear side mutual for described front side engaging plane Laminating, for stoping relatively rotating between front vehicle body set and aftercarriage set；

Described support bar front end is provided with locking mechanism cavity, and described locking mechanism cavity is used for accommodating locking mechanism, described Locking mechanism has a latched position and an off-position, and described locking mechanism is used for locking and discharge described front vehicle body Set and described aftercarriage set, for stop between front vehicle body set and aftercarriage set relatively move up and down and/or front vehicle body set and Laterally rocking between aftercarriage set.

Fixed structure as previously described, described locking mechanism cavity is provided with installation window in the side of described support bar front end Mouthful, it is used for described locking mechanism is installed.

Fixed structure as previously described, described locking mechanism includes:

Locking briquetting, described locking briquetting has lock plane, and described locking briquetting has described latched position and institute State off-position；

Described front side engaging plane is provided with the first engaging window, and described lock plane can be pushed out described first engaging Window, thus compress described rear side engaging plane, thus stop between front vehicle body set and aftercarriage set relatively move up and down and/ Or laterally rocking between front vehicle body set and aftercarriage set.

Fixed structure as previously described, described locking mechanism includes:

Lock slider, described lock slider has described latched position and described off-position；

Described rear side engaging plane is provided with a groove；

Described front side engaging plane is provided with the second engaging window；

Described lock slider can be pushed out described second engaging window, thus insert described rear side engaging plane on recessed Groove.

Fixed structure as previously described, described locking mechanism includes:

The drive shaft that can rotate；

Locking briquetting, when rotating to the first rotation direction, is released by described drive shaft from the first engaging window, and/or will Lock slider is released from the second engaging window；

Described locking briquetting, when rotating to the second rotation direction, is discharged by described drive shaft so that state locking briquetting energy Exit from the first engaging window, and/or lock slider can be exited from the second engaging window；

Described first rotation direction and the second rotation direction are contrary.

Fixed structure as previously described, described drive shaft is provided with drive surface, is used for driving described locking briquetting；With/ Or；

Described drive shaft is provided with pusher dog, is used for driving described lock slider.

Fixed structure as previously described, the top of described locking briquetting is installed in rotation on fixing axle, when described When drive shaft pushes away described locking briquetting, described locking briquetting produces described first engaging window around described fixing axle.

Fixed structure as previously described, described locking mechanism includes:

Back-moving spring, for when described drive shaft discharges described locking briquetting so that described locking briquetting returns to described Off-position.

Fixed structure as previously described, described lock slider includes being provided with allocating slot, is used for accommodating described pusher dog；

When described driving axial the first direction of rotation rotates, described lock slider is pushed described locking bit by described pusher dog Put；

When described driving axial the second direction of rotation rotates, described lock slider is pushed described release position by described pusher dog Put.

Fixed structure as previously described, one end of described drive shaft is provided with trip gear, is used for pulling described drive shaft Rotate to described first rotation direction and the second rotation direction.

Fixed structure as previously described, described fixed structure includes window cover plate, is used for covering described installation window；Institute State drive shaft and fixing axle is arranged between inwall and the inwall of window cover plate of described locking mechanism cavity.

Fixed structure as previously described, described fixed structure includes window cover plate, is used for covering described installation window；

The both sides of described lock slider are provided with a pair guiding rib；

It is respectively equipped with gathering sill on the inwall of described locking mechanism cavity and window cover plate inwall；

The pair of guiding rib slides in described gathering sill.

Fixed structure as previously described, also includes:

Lining, the outer wall matching form that described lining overlaps with described front vehicle body, described lining includes that lining engages plane, institute State lining engaging plane to engage flat shape with described rear side and match；

Described lining engaging plane includes lining through hole, and shape and the position of described lining through hole engage window with described second Mouth is corresponding；

Described lining engaging plane also includes hinged curtain, and the position of described hinged curtain is corresponding with the first engaging window, and It is arranged on locking briquetting and described rear side card and closes between plane.

Fixed structure as previously described, the lower end of described faucet lever is provided with limiting steering groove, described limiting steering groove edge The circumferentially extending of described faucet lever, and cover a scope of faucet lever circumference；

Described front vehicle body set includes spacer pin, and described spacer pin is in described rear side engaging plane is overlapped to described front vehicle body Cylindrical cavity extends；

Described spacer pin is contained in described limiting steering groove, and can exist along the bearing of trend of described limiting steering groove Limiting steering groove moves so that faucet lever relative to described front vehicle body be enclosed within described in the range of rotate.

Fixed structure as previously described, described fixed structure also includes bearing；

Described bearing is arranged in described faucet lever, is separately positioned on inside the two ends of described front vehicle body set, for by institute State front vehicle body set to be movably arranged in described faucet lever.

This utility model takes turns, before and after providing, the electric motor car with two wheels that can fold, and its control system is in front vehicle body In faucet lever, dynamical system is on aftercarriage, and during driving, wire bindiny mechanism is by the control system of front vehicle body and aftercarriage Dynamical system conductive communication；During folding, wire bindiny mechanism is distributed in before and after's car body and is separated from each other, thus the control of front vehicle body The dynamical system of system and aftercarriage disconnects.For being suitable for the break-make of this car body circuit front and back, the two of the purpose of this utility model There is provided the wire bindiny mechanism on a kind of electric motor car with two wheels, concrete:

A kind of wire bindiny mechanism on electric motor car with two wheels, described electric motor car with two wheels includes front vehicle body and aftercarriage, institute Stating front vehicle body and aftercarriage can be separated from each other when folding, described front vehicle body and aftercarriage can be mutually permanently connected when driving, Including:

The front vehicle body wire connection device being arranged in described front vehicle body, described front vehicle body wire connection device and at least one Root front portion wire is connected；

The aftercarriage wire connection device being arranged on described aftercarriage, described aftercarriage wire connection device and at least one Root rear portion wire is connected；

When described front vehicle body and aftercarriage are separated from each other, described front vehicle body wire connection device and described aftercarriage wire Attachment means is separated from each other so that described front vehicle body wire connection device and described aftercarriage wire connection device can in level and Vertical direction carries out relative movement；

When described front vehicle body and aftercarriage are mutually permanently connected, described front vehicle body wire connection device and described aftercarriage Wire connection device is mutually pressed into contact with so that described front vehicle body wire connection device and described aftercarriage wire connection device are not Can both horizontally and vertically carry out relative movement, so that described at least anterior wire and described at least rear portion Wire conductive communication.

Wire bindiny mechanism as previously described, described front vehicle body includes that faucet lever, described aftercarriage include support bar, institute State wire bindiny mechanism also to include:

Aftercarriage set, the front side of described support bar front end is provided with front side engaging plane, and described aftercarriage set is from described front side The both sides of engaging plane are extended and are formed, and described aftercarriage set has internal cavity；

Described front side engaging plane is provided with the second engaging window, and the setting of described aftercarriage wire connection device can be from Described second engaging window is pushed out or returns；

Front vehicle body set, described front vehicle body set is connected to the lower end of described faucet lever, and described front vehicle body set has inner cylinder Cavity, described inner cylinder cavity is used for accommodating rotationally the lower end of described faucet lever, the outer wall of described front vehicle body set and institute Stating the internal cavity matching form of aftercarriage set, the rear side of the outer wall of described front vehicle body set is provided with rear side engaging plane；

Described front vehicle body wire connection device is arranged in described rear side engaging plane；

When described front vehicle body set is inserted in the internal cavity of described aftercarriage set, described rear side engaging plane and described the Two engaging windows are relative；

Described support bar front end is provided with locking mechanism cavity, and described locking mechanism cavity is used for accommodating locking mechanism, described Locking mechanism for releasing described second engaging window by described aftercarriage wire connection device so that described front side engaging plane Engage plane with described rear side mutually to compress so that described at least anterior wire and at least rear portion wire conductive phase Even.

Wire bindiny mechanism as previously described, described locking mechanism cavity is provided with peace in the side of described support bar front end Dress window, is used for installing described locking mechanism.

Wire bindiny mechanism as previously described, described aftercarriage wire connection device includes rear car contact plane, described Rear car contact plane includes a latched position and an off-position, before described rear car contact plane is provided with at least one Contact pilotage, described front contact pilotage is connected with described at least rear portion wire conduction；

Described front vehicle body wire connection device includes that connecting plate, described connecting plate arrange at least one contact, described connection Plate is arranged in described rear side engaging plane；

When described rear car contact plane is pushed out described second engaging window, described before at least one contact pilotage with described at least One contact contacts.

Wire bindiny mechanism as previously described, described locking mechanism includes:

The drive shaft that can rotate；

Lock slider, described lock slider connects described rear car contact plane；

Described lock slider, when rotating to the first rotation direction, is pushed away by described drive shaft from described second engaging window Go out；

Described drive shaft is when rotating to the second rotation direction, and made lock slider can move back from described second engaging window Return；

Wire bindiny mechanism as previously described, described drive shaft is provided with pusher dog, is used for driving described lock slider.

Wire bindiny mechanism as previously described, described lock slider is provided with allocating slot, is used for accommodating described pusher dog,

When described driving axial the first direction of rotation rotates, described pusher dog drives described lock slider to move, thus will Described rear car contact plane pushes described latched position,

When described driving axial the second direction of rotation rotates, described pusher dog drives described lock slider to move, thus will Described rear car contact plane pushes described off-position.

As previously described wire bindiny mechanism, one end of described drive shaft is provided with trip gear, be used for pulling described in drive Moving axis rotates along described first rotation direction and the second rotation direction.

Wire bindiny mechanism as previously described, described wire bindiny mechanism includes window cover plate, is used for covering described peace Dress window；

Described drive shaft is arranged between the inwall of described locking mechanism cavity and window cover plate inwall.

Wire bindiny mechanism as previously described, the both sides of described lock slider are provided with a pair guiding rib；

The pair of guiding rib gathering sill on the inwall gathering sill and window cover plate inwall of described locking mechanism cavity Middle slip.

Wire bindiny mechanism as previously described, the described connecting plate back side is provided with contact pilotage after at least one；

At least one contact described is connected with at least one rear contact pilotage conduction described；

At least one rear contact pilotage described is installed over the spring mechanism.

Wire bindiny mechanism as previously described, it is sliding that the circumferential direction of described faucet lever lower end is provided with at least one brush Ring so that described faucet lever when rotating, at least one electric brush slip ring described and described contact pilotage company of slip all the time after at least one Connect；

At least one electric brush slip ring described is connected with described at least anterior wire conduction.

As previously described wire bindiny mechanism, described before at least one contact pilotage install over the spring mechanism so that described Before at least one, contact pilotage can elastic contacting with described at least one contact of stating.

Wire bindiny mechanism as previously described, described at least anterior wire includes three anterior wires, i.e. positive electricity Source line, negative power line and at least holding wire；Or

Described at least anterior wire includes a holding wire.

Wire bindiny mechanism as previously described, at least one electric brush slip ring described includes three electric brush slip rings, connects respectively Connect positive power line, negative power line and at least holding wire.

Wire bindiny mechanism as previously described, described at least anterior wire is a holding wire；

At least one electric brush slip ring described includes an electric brush slip ring, and described electric brush slip ring is with a described holding wire even Connect.

The three of the purpose of this utility model are to provide a kind of conductor layout structure being applicable to this folding two-wheel electric motor car, Concrete:

A kind of wire structures on electric motor car with two wheels, described electric motor car with two wheels includes front vehicle body and aftercarriage, described before Car body and aftercarriage can be separated from each other when folding, and described front vehicle body and aftercarriage can be mutually permanently connected when driving, including:

It is arranged on the first control circuit in described front vehicle body and front vehicle body wire connection device, described first control circuit It is conductively connected by least anterior wire with front vehicle body wire connection device；

It is arranged on the second control circuit on described aftercarriage and aftercarriage wire connection device, described second control circuit It is conductively connected by least rear portion wire with aftercarriage wire connection device；

When described front vehicle body and aftercarriage are separated from each other, described front vehicle body wire connection device and described aftercarriage wire Attachment means is separated from each other, when described front vehicle body and aftercarriage are mutually permanently connected, described front vehicle body wire connection device and Described aftercarriage wire connection device mutually compresses, so that described front vehicle body wire connection device and described aftercarriage wire Attachment means conductive contact.

Wire structures as previously described, described front vehicle body includes that faucet lever, described aftercarriage include support bar, described cloth Line structure includes:

Aftercarriage set, the front side of described support bar front end is provided with front side engaging plane, and described aftercarriage set is from described front side The both sides of engaging plane are extended and are formed, and described aftercarriage set has internal cavity,

Described support bar front end is provided with locking mechanism cavity, and described locking mechanism cavity is used for accommodating locking mechanism, described Aftercarriage wire connection device includes a latched position and an off-position, and described locking mechanism is for by described rear car Body wire connection device releases described second engaging window so that described aftercarriage wire connection device is in the locked position, institute State front side engaging plane to engage plane with described rear side and mutually compress so that after described at least anterior wire and at least one Portion's wire conduction is connected.

Wire structures as previously described, described front vehicle body wire connection device includes connecting plate, described connecting plate sets There is front truck contact plane, described front truck contact plane includes at least one contact, one end of described at least anterior wire Being connected with at least one contact described, the other end of described at least anterior wire is connected with described first control circuit Connect；

Described aftercarriage attachment means includes that coaster terminal base, described coaster terminal base are provided with rear car contact plane, institute Include in stating rear car contact plane that contact pilotage before at least one, one end of described at least rear portion wire touch before described few one Pin is connected, and the other end of described at least rear portion wire is connected with described second control circuit；

When described front vehicle body and aftercarriage interfix, by compression by the way of described in front truck contact plane with described after Car contact plane is pressed together, thus contact communicates with front contact pilotage conduction.

Wire structures as previously described, described front vehicle body has faucet lever, and described at least anterior wire is arranged on In faucet lever；

Described aftercarriage has flatbed Rear frame, and described at least rear portion wire is arranged in flatbed Rear frame.

Wire structures as previously described, described at least anterior wire has spire.

Wire structures as previously described, the front end of described faucet lever has a tap portion, and described tap portion is provided with display Device and controlling organization, described controlling organization can produce control signal, described display device and controlling organization and described first control Circuit processed is connected；

Described control signal is sent to described second control circuit by described first control circuit.

Wire structures as previously described, described flatbed Rear frame is provided with rear wheel, motor, brake gear and electricity Source, described motor is connected with described second control circuit with brake gear；

Described second control circuit detects and produces transport condition signal, and transport condition signal is sent to described first Control circuit.

Wire structures as previously described, described flatbed Rear frame is provided with hole near a side end face of described support bar Hole；

Described at least rear portion wire enters described flatbed Rear frame through described hole after described support bar And be connected with described second control circuit.

As previously described wire structures, described at least anterior wire includes three anterior wires, i.e. positive power line, Negative power line and at least holding wire；Or

Described at least anterior wire includes a holding wire.

Wire structures as previously described, described locking mechanism includes:

The drive shaft that can rotate,

Lock slider, described lock slider is connected with described rear car wire connection device；

Described drive shaft is when rotating to the second rotation direction, and made lock slider can move back from described second engaging window Go out；

Wire structures as previously described, described drive shaft is provided with pusher dog, is used for driving described lock slider.

Wire structures as previously described, described lock slider is provided with allocating slot, is used for accommodating described pusher dog,

When described driving axial the first direction of rotation rotates, described lock slider is pushed described locking bit by described pusher dog Put,

Wire structures as previously described, one end of described drive shaft is provided with trip gear, is used for pulling described drive shaft Rotate along described first rotation direction and the second rotation direction.

Electric motor bicycle with folding of the present utility model carries for convenience of portable, arranges the fixing of uniqueness in front vehicle body and aftercarriage Structure so that the front vehicle body of electric motor bicycle with folding and rear car physical ability locking all-in-one-piece stationary state, the energy when carrying when driving Enough foldings.Before and after such fixed structure can help electric motor car with two wheels, car body separation rotates against simultaneously, and this structure is removed Outside convenience folds, compared to traditional folding mode, moreover it is possible to the volume after making electric motor car with two wheels fold becomes less.

Wire bindiny mechanism of the present utility model ensure that the control of front vehicle body and display device and the driving of aftercarriage Device realizes the intercommunication of electric power and signal when driving, and disconnects when folding is carried, and the break-make of electric power and signal passes through fixed knot Structure controls and realizes.

Wire bindiny mechanism of the present utility model makes this utility model realize internal cabling, and the most all wires are hidden in car Internal portion, thus help electric motor car with two wheels to fold further so that during folding, wire is hardly damaged.

Accompanying drawing explanation

Figure 1A is this utility model electric motor car with two wheels three-dimensional structure diagram when driving condition；

Figure 1B is the front vehicle body of this utility model electric motor car with two wheels structure chart when separating with aftercarriage；

Fig. 1 C is that in Figure 1B, front vehicle body rotates structure chart after 180 °；

Fig. 1 D is the trip gear of the present utility model structure chart when being in the locked position；

Fig. 1 E is the trip gear of the present utility model structure chart when being in off-position；

Fig. 2 A is the wire structures module diagram of first embodiment of the present utility model；

Module when Fig. 2 B is this utility model front vehicle body wire connection device and aftercarriage wire connection device is conducted Schematic diagram；

Module when Fig. 2 C is this utility model front vehicle body wire connection device and aftercarriage wire connection device is separated Schematic diagram；

Fig. 2 D is the wire structures module diagram of the second embodiment of the present utility model；

Fig. 3 A-1 is the trip gear of the present utility model aftercarriage set three-dimensional structure diagram when being in off-position；

Fig. 3 A-2 is the trip gear of the present utility model aftercarriage set three-dimensional structure diagram when being in locked position；

Fig. 3 B-1 is the locking mechanism sectional view in Fig. 3 A-1 along A-A ' line section view；

Fig. 3 B-2 is the locking mechanism sectional view in Fig. 3 A-2 along B-B ' line section view；

Fig. 3 C-1 is that this utility model aftercarriage overlaps top plan view structure chart；

Fig. 3 C-2 is the sectional view in Fig. 3 C-1 along C-C ' line section view；

Fig. 3 D-1 is the three-dimensional structure diagram of this utility model lock slider；

Fig. 3 D-2 is the internal structure sectional view of this utility model lock slider；

Fig. 3 D-3 is the detonation configuration figure of the lock slider of invention；

Fig. 3 E-1～3 is the three-dimensional structure diagram of the drive shaft of invention；

Fig. 3 F is the three-dimensional structure diagram of this utility model lining；

Fig. 3 G is the detonation configuration figure of the support bar shown in this utility model Fig. 3 B-1；

Fig. 3 H-1 is the three-dimensional structure diagram of this utility model faucet lever；

Fig. 3 H-2 is the detonation configuration figure of this utility model faucet lever；

The three-dimensional structure diagram that Fig. 3 I-1～2 overlaps for this utility model front vehicle body；

Fig. 3 I-3 and the detonation configuration figure of obverse and reverse that Fig. 3 I-4 is this utility model connecting plate.

Fig. 3 J is the three-dimensional structure diagram of this utility model limiting steering groove；

Fig. 3 K is that faucet lever of the present utility model removes front vehicle body set and the three-dimensional structure diagram of connecting plate；

Fig. 3 L-1 is that the internal structure during locking mechanism non-locking in this utility model front vehicle body set and aftercarriage set is cutd open View；

Fig. 3 L-2 is the internal structure section view during locking mechanism locking in this utility model front vehicle body set and aftercarriage set Figure；

Fig. 3 M-1 is the aftercarriage construction profile of this utility model electric motor car with two wheels；

Fig. 3 M-2 is the aftercarriage Facad structure figure of this utility model electric motor car with two wheels.

Detailed description of the invention

Below with reference to the accompanying drawing constituting this specification part, various detailed description of the invention of the present utility model are carried out Describe.Although it should be understood that and using the term representing direction in this utility model, such as "front", "rear", " on ", The description various example features of the present utility model such as D score, "left", "right", " vertically " or " parallel " and element, but This uses these terms purpose merely for convenience of description, determines based on the example orientations shown in accompanying drawing.Due to this Utility model the disclosed embodiments can be arranged according to different directions, so these represent that the term in direction is intended only as Bright and should not be considered as limit.In figures in the following, same parts use same drawing number, and similar parts make With similar drawing number, to avoid repeated description.

For convenience of identification, each labelling in figure is respectively as follows:

Front vehicle body 101；Cruise control 209；

Aftercarriage 102；Anterior wire 211；

Faucet lever 103；Aftercarriage wire connection device 221；

Support bar 104；Second control circuit 222；

Front vehicle body set (steering head) 107；Power supply 223；

Aftercarriage set 108；Motor 224；

Tubular rod 109；Brake gear 225；

Inner cylinder cavity 111；(in front vehicle body 101) battery 227；

Flatbed Rear frame 115 rear portion wire 231；

Tap portion 116；Internal cavity 306；

Trip gear 130 (linkage toggle)；Front side engaging plane 308；

Window cover plate 150；Locking mechanism cavity 310；

Front vehicle wheel 161；Rear side engaging plane 311；

Rear wheel 162；Window 312 is installed；

Front wheel arm 164；(in rear side engaging plane 311) groove 313

Front vehicle body wire connection device 201；Locking briquetting 314；

First control circuit 203；(locking briquetting 314) top 315；

Display device 204；(locking briquetting 314) lock plane 316；

Controlling organization 205；Fixing axle 317；

Loudspeaker control 206；First engaging window 318；

Speed controlling 207；Back-moving spring 319；

Brake control 208；Locking mechanism 320；

Second engaging window 322；Spacer pin 351；

Lock slider 324；Bearing 352,354；

Allocating slot 325；Connecting plate (turning to skull) 361；

Rear contact pilotage 326；Contact 362；

Handle 328；Front truck contact plane (steering head terminal base)

Drive shaft (integrally driving lever) 330； 363；

Drive surface 332；Rear contact pilotage 326；

Pusher dog 331；Electric brush slip ring 365

Guiding rib 327,329；Coaster terminal base 385

Gathering sill 337；Rear car contact plane 390 (coaster terminal base

Lining 340；On)；

Lining through hole 342；Front contact pilotage 386；

The spire 387 of anterior wire 211；

Hinged curtain 343；Hole 388；

Limiting steering groove 357；

Figure 1A, Figure 1B, Fig. 1 C, Fig. 1 D and Fig. 1 E shows electric motor car with two wheels 100 of the present utility model on the whole.This The electric motor car with two wheels 100 of utility model has front vehicle body 101 and aftercarriage 102, and front vehicle body 101 connects front-wheel 161, aftercarriage 102 connect trailing wheel 162.Electric motor car with two wheels 100 of the present utility model can fold, at electric motor car with two wheels 100 of the present utility model Folded state and driving condition in, the relative position relation of front vehicle body 101 and aftercarriage 102 is different.At driving condition Time, front vehicle body 101 is fixed relative to be connected with aftercarriage 102 so that aftercarriage 102 is essentially perpendicular to front vehicle body 101, And arrangement before and after front-wheel 161 and trailing wheel 162.When needs folding is carried, front vehicle body 101 and aftercarriage 102 can be relative to those This (displacement) separates, thus after folding, front vehicle body 101 and aftercarriage 102 can be closely packed together side by side, front-wheel 161 with And trailing wheel 162 folds, i.e. front-wheel 161 and trailing wheel 162 abuts against side side by side.

Owing to electric motor car with two wheels 100 of the present utility model needs at above-described driving condition and folds carrier state Switch between both states, the most how to realize front vehicle body 101 and separate with aftercarriage 102 and fixing, become this practicality new The problem that type is important.This utility model provides the fixed structure that will be explained below to realize front vehicle body 101 and aftercarriage 102 Separation and fixing.

Additionally, electric motor car with two wheels 100 of the present utility model is except being capable of above-mentioned folding mode, additionally use hiding Formula circuit.I.e., either at the driving condition of electric motor car with two wheels still at the folding carrier state of electric motor car with two wheels, two-wheel electric The circuit of car is all to be hidden in car body not for outside seen.Therefore, while stating two states switching the most in realization Make to use concealed circuit to be possibly realized, be also important topic of the present utility model.Certainly, protection domain of the present utility model It is not limited to use above-mentioned folding mode and concealed circuit simultaneously, arbitrarily uses above-mentioned folding mode and concealed circuit One of technical scheme also fall within protection domain of the present utility model.This utility model is by the wire that will be explained below Bindiny mechanism and wire structures achieve concealed circuit.

Below, first combine accompanying drawing specifically to introduce and how to realize front vehicle body 101 and separate with aftercarriage 102 and fixing.

Figure 1A is this utility model electric motor car with two wheels three-dimensional structure diagram when driving condition.As shown in Figure 1A, two-wheeled electricity The front vehicle body 101 of motor-car 100 includes faucet lever 103, and the leading portion, upper end 116 of faucet lever 103, the lower end of faucet lever 103 sets Front vehicle body set 107, the lower end of front vehicle body set 107 is had to connect front vehicle wheel 161 by front wheel arm 164.Aftercarriage 102 wraps in the middle Including flatbed Rear frame 115, the rear end of flatbed Rear frame 115 connects rear wheel 162.The front end of flatbed Rear frame 115 is even Being connected to support bar 104, the front end of support bar 104 connects aftercarriage set 108.Aftercarriage set 108 has shape and front vehicle body set The internal cavity 306 (see Fig. 3 A-1, Fig. 3 C-1) that 107 profiles match, so that front vehicle body set 107 can be nested in aftercarriage set In the internal cavity 306 of 108.Support bar 104 front end is overlapped 108 adjacent positions and is provided with locking mechanism 320 (see figure with aftercarriage 3B-1, Fig. 3 B-2), aftercarriage set 108 and front vehicle body set 107 can be locked together, to stop front vehicle body by locking mechanism 320 Relatively moving up and down and laterally rocking between set 107 and aftercarriage set 108, so that before electric motor car with two wheels 100 Car body 101 and aftercarriage 102 can be connected as stable integrative-structure, it is achieved safety traffic.

Support bar 104 is outside is provided with the trip gear 130 being connected with locking mechanism 320, and trip gear 130 is used for changing lock Determine the duty of mechanism 320 so that it is be in the locked position or off-position, with realize front vehicle body 101 and aftercarriage 102 it Between locking or release.It it is the latched position of trip gear 130 shown in Figure 1A.

Additionally, the two ends in tap portion 116 are provided with steering handle 171,172.Turn steering handle 171 and can control two-wheeled electricity The speed of motor-car, and turn steering handle 172 and can control the brake etc. of electric motor car with two wheels.The middle part of steering handle 171,172 Outer surface is provided with display device, is used for showing the vehicle running condition information such as speed, battery electric quantity.

Aftercarriage 102, in addition to connecting and having rear wheel 162, is additionally provided with (these devices such as power supply, motor, brake gear Module diagram see Fig. 2 A～2D).Power supply (such as accumulator) is arranged on the inside of flatbed Rear frame 115.

Figure 1B is the front vehicle body of this utility model electric motor car with two wheels structure chart when separating with aftercarriage.As it was noted above, Carrying for convenience, electric motor car with two wheels 100 of the present utility model can fold.Figure 1B show electric motor car with two wheels 100 and is folded over Situation when front vehicle body 101 and aftercarriage 102 separate in journey.Now, trip gear 130 is towards horizontal direction, locking mechanism 320 Being in off-position, the fixing connection between aftercarriage set 108 and front vehicle body set 107 is released, and front vehicle body set 107 is from aftercarriage Extracting in set 108, aftercarriage set 108 moves up along faucet lever 103.Now aftercarriage set 108 is still nested in faucet lever On 103.Therefore, the front vehicle body 101 that this utility model is previously mentioned refers to relative point between the two with the separation of aftercarriage 102 From, more specifically refer to that both can relative to each other move up and down to realize folding between the two, but and the most de- From each other.

When the front vehicle body 101 shown in Figure 1B and aftercarriage 102 separate, front vehicle body 101 and aftercarriage 102 can Relative to each other rotating, Fig. 1 C is the structure chart in Figure 1B after front vehicle body rotation 180 °.Because the internal cavity of aftercarriage set 108 306 shapes overlap the outer wall matching form of 107 with front vehicle body so that when aftercarriage set 108 is nested on front vehicle body set 107, both Can not relatively rotate.But the external diameter of faucet lever 103 is less than the internal diameter of the internal cavity 306 of aftercarriage set 108, thus when such as Figure 1B When shown aftercarriage set 108 separates with front vehicle body set 107 and aftercarriage set 108 is moved upwards up to be enclosed within faucet lever 103, front Car body set 107 can be relative to aftercarriage set 108 rotation.Compared with shown in Figure 1B, front wheel arm 164 as shown in Figure 1 C forwards to Opposite side relative to aftercarriage 102.From Fig. 1 C, it can also be seen that steering handle 171,172 can also be received after individually folding Rise, the width after the folding reducing electric motor car with two wheels.

Fig. 1 D and Fig. 1 E respectively illustrates trip gear of the present utility model and is in the locked position and knot during off-position Composition.The driving condition residing for electric motor car with two wheels 100 that Fig. 1 D show in Figure 1A, now trip gear 130 is downward, lock Determine mechanism 320 to be in the locked position, by aftercarriage set 108 and front vehicle body set 107 locking.To folding two-wheel electric motor car 100, make It is in the state shown in Figure 1B, then need to turn trip gear 130, is allowed to towards horizontal direction (as referring to figure 1e), so that Locking mechanism 320 is in off-position, by locking mechanism 320 by aftercarriage set 108 and front vehicle body set 107 release, so that front Car body set 107 can be extracted from aftercarriage set 108, and then reaches the state shown in Figure 1B.

Wiring below in conjunction with the electric motor car with two wheels of the present utility model 100 shown in Fig. 2 A, Fig. 2 B, Fig. 2 C and Fig. 2 D Structure specifically introduces how electric motor car with two wheels 100 of the present utility model realizes electrical connection in the case of using concealed circuit.

Fig. 2 A is the wire structures module diagram according to this utility model first embodiment.Electric motor car with two wheels 100 is driven Time, tap portion 116 is for controlling the traveling of electric motor car.As it was noted above, by turn steering handle 171,172 be capable of right Some of electric motor car with two wheels 100 control function.According to embodiment of the present utility model, steering handle 171,172 is provided with acceleration Control device, braking control device, horn button, cruise button etc., can control by turning steering handle 171,172 Mechanism 205 sends vehicle control signal, and controlling organization 205 includes speed control unit 207, braking control device 208, loudspeaker control Device 206 processed, cruise control apparatus 209 etc..Meanwhile, as it was noted above, the outer surface in tap portion 116 is provided with display device 204, it is used for showing the vehicle running condition information such as speed, battery electric quantity.The transmission of the control signal of front vehicle body and vehicle travel The reception of information is carried out by being arranged on the first control circuit 203 within front vehicle body 101, and first control circuit 203 connects respectively Connect speed control unit 207, braking control device 208, horn control device 206 (such as horn button), cruise control apparatus 209 (such as cruise button) and display device 204 etc., receive and send control signal and the display signal of each of which.

As previously mentioned, aftercarriage 102, in addition to rear wheel 162, is additionally provided with power supply 223, motor 224, brake Device 225 etc..For the discharge and recharge signal of power supply 223 and the cruise mode control signal of motor 224, the subtracting of brake gear 225 Speed signals etc., carry out these by being arranged on the second control circuit 222 of the inside of the flatbed Rear frame 115 of aftercarriage 102 The process of signal and transmission.First control circuit 203 and second control circuit 222 are for having digital-to-analogue conversion, data calculating sum According to the surface-mounted integrated circuit sending receive capabilities.Second control circuit 222 is by discharge and recharge signal, cruise mode control signal, deceleration Signals etc. process and send to first control circuit 203, thus first control circuit 203 will send after above signal processing to aobvious Showing device 204, thus display device 204 shows battery information, cruise mode information and velocity information etc..First control circuit The control signal that controlling organization 205 sends is processed and is sent to second control circuit 222 by 203, thus second control circuit 222 Process and control corresponding component (such as motor 224, brake gear 225) action.

As an embodiment, front vehicle body 101 is internal is provided with 4 anterior wires 211, is positive power line 211.1 respectively, bears Power line 211.2 and 2 holding wires 211.3,211.4, positive-negative power line 211.1 and 211.2 is used for the conveying of running voltage, Holding wire 211.3 and 211.4 is for the transmission of signal.One end of 4 anterior wires 211 connects first control circuit 203, another End connects the front vehicle body wire connection device 201 being arranged in front vehicle body set 107.

In the present embodiment, aftercarriage 102 matches with anterior wire 211 and is provided with 4 rear portion wires 231, be respectively Positive power line 231.1, negative power line 231.2 and 2 holding wires 231.3,231.4, rear portion wire 231 function and anterior wire 211 is identical.One end of the holding wire 231.3,231.4 of two rear portion wires 231 connects second control circuit 222, the other end Connect the aftercarriage wire connection device 221 being arranged in aftercarriage set 108；The holding wire positive power line of two rear portion wires 231 231.1, negative power line 231.2 one end connects power supply 223, and the other end connects aftercarriage wire connection device 221.

Front vehicle body wire connection device 201 and aftercarriage wire connection device 221 can link together so that front vehicle body Anterior wire 211 in 101 is connected with the rear portion wire 231 of aftercarriage 102.

In the wire structures according to this utility model first embodiment shown in Fig. 2 B and 2C respectively Fig. 2 A, front vehicle body is led Module diagram when wire-connecting device and aftercarriage wire connection device are conducted and are separated.As shown in Figure 2 B, two-wheeled is worked as When electric motor car 100 needs to enter driving condition, aftercarriage set 108 is nested on front vehicle body set 107 and by both mutually lockings, front Contact pilotage before at least four contact on car body wire connection device 201 and at least four on aftercarriage wire connection device 221 Mutually it is pressed into contact with so that 4 anterior wires 211 are connected with 4 rear portion wire 231 conductions, it is achieved electric power connects with signal.

It should be noted that front vehicle body wire connection device 201 is pressed into contact with mutually with rear car wire connection device 221, And non-insertion contact, consequently facilitating electric motor car with two wheels 100 need enter folded state time, front vehicle body wire connection device and after Car body wire connection device can be conveniently separated.About front vehicle body wire connection device 201 and rear car wire connection device 221 Concrete structure will the most specifically introduce.

As shown in Figure 2 C, when electric motor car with two wheels 100 needs to enter folded state, front vehicle body set 107 and aftercarriage set 108 relative to each other move up and down separately, thus realize be separated from each other, the contact on front vehicle body wire connection device 201 and after Front contact pilotage on car body wire connection device 221 separates the most therewith so that 4 anterior wires 211 and 4 rear portion wires 231 break Open, the electric power transmission of front vehicle body 101 and aftercarriage 102 and signal communication disruption.

Fig. 2 D is the wire structures module diagram according to the second embodiment of the present utility model.At root as shown in Figure 2 A In wire structures according to first embodiment of the present utility model, after the running voltage of element in front vehicle body 101 and circuit needs Power supply 223 in car body 102 provides, thus needs a positive power line in anterior wire 211 and rear portion wire 231 211.1 and 231.1 and negative power line 211.2 and 231.2 carry out the transmission of electric power.If it is true that in front vehicle body 101 It is provided with independently-powered battery 227, then element and the running voltage of circuit in front vehicle body 101 just can be by batteries 227 Independently supplying, provides without by the power supply 223 in aftercarriage 102, thus be just no longer necessary to anterior wire 211 and after Portion's wire 231 is used for transmitting positive power line and the negative power line of electric power.

Additionally, in the wire structures according to first embodiment of the present utility model as shown in Figure 2 A, anterior wire 211 He Rear portion wire 231 uses the connecting line that two holding wires 211.3,211.4,231.3 and 231.4 transmit as signal, but true Piece wire of upper use can also realize the transmission of signal.

Therefore, in the wire structures according to the second embodiment of the present utility model as shown in Figure 2 D, in front vehicle body 101 Being provided with independent battery 227, battery 227 connects first control circuit 203, first control circuit 203 connection control mechanism 205 (including speed control unit 207, braking control device 208, horn control device 206, cruise control apparatus 209) and display Device 204, and provide it electric power and signal transmission.First control circuit 203 connects front vehicle body by 1 anterior wire 211 Wire connection device 201.In aftercarriage 102, second control circuit 222 connects aftercarriage wire by 1 rear portion wire 231.1 Attachment means 221.In aftercarriage 102, other wire structures are identical with Fig. 2 A, are not repeated herein.

Now, on front vehicle body wire connection device 201, minimum need arrange 1 contact, aftercarriage wire connection device 221 Upper minimum need arrange 1 contact pilotage, front vehicle body wire connection device 201 and aftercarriage wire connection device 221 and mutually closely connect When touching, 1 contact pilotage and 1 contact contact with each other so that 1 anterior wire 211 connects with 1 rear portion wire 231, is achieved in Front vehicle body 101 communicates with the signal of aftercarriage 102.

Touch it is true that multiple redundancy can be arranged on front vehicle body wire connection device 201 and aftercarriage wire connection device 221 Point and contact pilotage, for ensureing the reliability that contact connects.

Additionally, Fig. 2 A and 2D illustrate only shows two embodiments of the present utility model, as illustrated examples.Nothing Opinion is to use several holding wires, no matter whether is provided with power line, or their combination in any in front vehicle body, these be all In protection domain of the present utility model.

The knot of 108 and wherein associated components is overlapped below in conjunction with the aftercarriage of the present utility model shown in Fig. 3 A-1～3G Structure specifically introduces how to realize front vehicle body 101 and the locking of aftercarriage 102 and release, and how to realize front vehicle body wire even Connection device 201 and the connection of aftercarriage wire connection device 221 and separation.

Fig. 3 A-1 and 3A-2 is the trip gear of the present utility model rear car when being respectively at off-position and latched position The three-dimensional structure diagram of body set.Fig. 3 C-1 is that this utility model aftercarriage overlaps top plan view structure chart, and Fig. 3 C-2 is in Fig. 3 C-1 Structure sectional view along C-C ' line.Shown in width figures as several in this, the aftercarriage set 108 of electric motor car with two wheels 100 is arranged on support bar 104 Front end (support bar 104 top in figure is defined as front end).The front side of the front end of support bar 104 is plane front side engaging Plane 308 (referring to Fig. 3 C-2), aftercarriage set 108 extends from the both sides of the edge of front side engaging plane 308, forms cannula-like Internal cavity 306, the wherein side (rear side) of internal cavity 306 be i.e. front side engaging plane 308.Internal cavity 306 can be used for nesting Ground accommodates front vehicle body set 107.Owing to front vehicle body overlaps the matching form conjunction of 107 profiles and internal cavity 306, front vehicle body set 107 insertion After internal cavity 306, both i.e. closely cooperate, and owing to front side engaging plane 308 makes the cross section of internal cavity 306 become non-circular, Even if therefore non-locking front vehicle body set 107 and aftercarriage set 108, front vehicle body set 107 also will not produce relative with aftercarriage set 108 Rotate and rock (but front vehicle body set 107 can be extracted in aftercarriage set 108).

As shown in Fig. 3 C-2, front side engaging plane 308 generally rectangle, front side engaging plane 308 is provided with two and opens Mouthful, top for first engaging window 318, below for second engaging window 322.As will be described in detail below, locking Mechanism 320 can move through the first engaging window 318 and the second engaging window 322, to arrive and to be positioned at aftercarriage set 108 The latched positions of front vehicle body set 107 interaction, and 107 be separated from each other with the front vehicle body set being positioned at aftercarriage set 108 Off-position.

The front end of support bar 104 is additionally provided with locking mechanism cavity 310 near the position of aftercarriage set 108, is used for accommodating The locking mechanism 320 being formerly mentioned.The side of locking mechanism cavity is provided with the installation for locking mechanism 320 assembly or disassembly Window 312 (referring to Fig. 3 G), and it is provided with the window cover plate 150 for closing this installation window 312.Trip gear 130 is detachable Be arranged on the outside of window cover plate 150.

Locking mechanism 320 is as previously mentioned for locking both front vehicle body set 107 and aftercarriage set 108 and discharging.Further, Locking mechanism 320 also is able to realize front vehicle body wire connection device 201 and the connection of aftercarriage wire connection device 221 and divide From.From Fig. 3 A-1 it will be seen that lock and the trip gear 130 that discharges is now towards level side for controlling locking mechanism 320 To (identical with Fig. 1 E), to discharge locking mechanism 320, trip gear 130 in Fig. 3 A-2 then towards vertical direction (with Fig. 1 D Identical), to realize the locking of locking mechanism 320.

Fig. 3 B-1 is Fig. 3 A-1 sectional view along line A-A section view, and Fig. 3 B-2 is the section view in Fig. 3 A-2 along line B-B section view Figure, Fig. 3 B-1 and 3B-2 is mainly used in showing that locking mechanism 320 is in latched position and the difference of off-position.Such as Fig. 3 B-1 and Shown in 3B-2, locking mechanism 320 mainly includes locking briquetting 314, lock slider 324 (referring to Fig. 3 D-1～Fig. 3 D-3) and driving Axle 330 (referring to Fig. 3 E-1～Fig. 3 E-3).Locking briquetting 314 can be pushed through the first card in front side engaging plane 308 Conjunction window 318, thus the front vehicle body being pressed against being positioned in aftercarriage set 108 overlaps the rear side engaging plane 311 of 107 (below by knot Close Fig. 3 I-1 to 3I-4 to describe in detail), and lock slider 324 can be pushed through the second engaging window in front side engaging plane 308 Mouth 322 such that it is able to be fastened on the groove in the rear side engaging plane 311 of the front vehicle body set 107 being positioned in aftercarriage set 108 (Fig. 3 I-1 is referred to) in 313, thus by front vehicle body set 107 and aftercarriage set 108 locking so that front vehicle body set 107 and aftercarriage Set 108 is completely fixed, and can not relatively move up and down between the two.Meanwhile, lock slider 324 also can in being fastened on groove 313 Realize front vehicle body wire connection device 201 and the connection of aftercarriage wire connection device 221, thus realize front vehicle body 101 and after The electrical connection of car body 102, this point will be described in more detail below.

The window cover plate 150 that drive shaft 330 accommodates cavity 310 through locking mechanism is connected with trip gear 130, passes through Trip gear 130 drives drive shaft 330 rotation that locking briquetting 314 and lock slider 324 motion can be driven to lock and discharge Front vehicle body set 107, and connect and separate front vehicle body wire connection device 201 and aftercarriage wire connection device 221.

It is provided with cam mechanism in drive shaft 330, is used for driving locking briquetting 314 and lock slider 324 to move.Fig. 3 E-1 ～the multi-angle three-dimensional structure diagram that Fig. 3 E-3 is drive shaft 330.As shown in Fig. 3 E-1～Fig. 3 E-3, cam mechanism includes drive surface 332 and pusher dog 331.Drive surface 332 matches with locking briquetting 314, for rotarily driving locking briquetting along with drive shaft 330 314 motions, and pusher dog 331 matches with lock slider 324, for transporting along with the lock slider 324 that rotarily drives of drive shaft 330 Dynamic, below will be described.

The far-end 305 of drive shaft 330 inserts in the hole (not shown) on locking mechanism cavity 310 inwall, drive shaft 330 Near-end 307 through the through hole 152 (as shown in Figure 3 G) on window cover plate 150 and be connected with trip gear 130, so that pull When motivation structure 130 is pulled rotation, drive shaft 330 rotates along with trip gear 130.

3B-1,3B-2,3D-1,3D-2,3D-3 and 3G describe locking briquetting 314 and lock slider below in conjunction with the accompanying drawings 324.Wherein, Fig. 3 D-1 is the three-dimensional structure diagram of this utility model lock slider, and Fig. 3 D-2 is this utility model lock slider Internal structure sectional view, Fig. 3 D-3 is the detonation configuration figure of lock slider of the present utility model, and Fig. 3 G is this utility model figure The structural blast figure of the support bar shown in 3B-1.

As shown in the figure (especially Fig. 3 G), locking briquetting 314 is the centering block of a cubic type, the top of locking briquetting 314 End 315 is rotatably sleeved on a fixing axle 317, and the two ends of fixing axle 317 are fixed on the inwall of locking mechanism cavity 310 On, thus lock briquetting 314 and can do, around fixing axle 317, the swing rotated to an angle.Locking briquetting 314 is towards aftercarriage set The one side of 108 is lock plane 316, and the drive surface 332 of the back side of lock plane 316 and drive shaft 330 is (see Fig. 3 E-1～figure 3E-3) contact, drive shaft 330, when the first rotation direction (as clockwise) rotates, provides one clockwise to locking briquetting 314 The thrust that direction rotates, to promote locking briquetting 314 towards the rear side engaging of the front vehicle body set 107 being positioned at aftercarriage set 108 Plane 311 swings, and arrives latched position (as shown in Fig. 3 B-2) through the first engaging window 318, thus by locking briquetting 314 compress described rear side engaging plane 311, to stop the relative up and down motion between front vehicle body set 107 and aftercarriage set 108 And/or laterally rocking between front vehicle body set 107 and aftercarriage set 108.And when drive shaft 330 in the second rotation direction (as inverse Hour hands) rotate time, described locking briquetting 314 is discharged so that state locking briquetting 314 can from first engaging window 318 exit.

Also being arranged with back-moving spring 319 (see Fig. 3 G) on fixing axle 317, back-moving spring 319 is torsion spring, and one end is fixed on lock Determining on the inwall of mechanism's cavity 310, one end is fixed on locking briquetting 314.Back-moving spring 319 is in order to provide so that locking briquetting 314 torsion counterclockwise swung, thus make to lock briquetting 314 away from front vehicle body after the thrust of drive shaft 330 is cancelled The rear side engaging plane 311 of set 107 is rocked to off-position (as shown in Fig. 3 B-1).Additionally, when drive shaft 330 is in release position When putting, the torsion of back-moving spring 319 makes to lock briquetting 314 and will not arbitrarily swing, thus avoids producing miscellaneous part interfering.

Lock slider 324 is a slidably contact block, can be along left and right directions in figure in latched position and release position Move between putting.As shown in Fig. 3 D-1～Fig. 3 D-3, lock slider 324 is substantially cube structure, inner hollow.Lock slider Upper side one lateral edges of 324 is provided with allocating slot 325, and allocating slot 325 is formed by blocking arm 347 and 348.The pusher dog 331 of drive shaft 330 is inserted Entering in allocating slot 325, therefore, when drive shaft 330 rotates, pusher dog 331 can abut against all the time and (i.e. lean on inside blocking arm 347 or 348 The side of nearly allocating slot 325), lock slider 324 is produced the driving force moved back and forth.When drive shaft 330 is in the first rotation direction When (as clockwise) rotates, lock slider 324 is forced through the second engaging window in front side engaging plane 308 by pusher dog 331 322, to be fastened on (referring to Fig. 3 I-1) in the groove 313 in the rear side engaging plane 311 of front vehicle body set 107 so that front vehicle body Can not relatively move up and down between set 107 and aftercarriage set 108.And when drive shaft 330 is in the second rotation direction (as counterclockwise) During rotation, described lock slider 324 is pushed off-position by pusher dog 331 so that stating locking briquetting 314 can be from the second engaging window 322 exit.

As shown in Fig. 3 D-3, the header contents of lock slider 324 has received coaster terminal base 385, collects in coaster terminal base 385 Become to have multiple front contact pilotage 386, and coaster terminal base 385 has rear car contact plane 390.Front contact pilotage 386 is flexibly installed, to protect Card effectively electrical contact.The front end of front contact pilotage 386 protrudes from outside rear car contact plane 390.The rear end of front contact pilotage 386 connects multi beam Rear portion wire 231, as shown in Fig. 3 D-2.Coaster terminal base 385 with front contact pilotage 386 constitutes previously described aftercarriage wire Attachment means 221.Aftercarriage wire connection device 221 is accommodated by lock slider 324 and moves with lock slider 324, thus real Show the connection of aftercarriage wire connection device 221 and front vehicle body wire connection device 201 and separate.The both sides of lock slider 324 It is additionally provided with identical guiding rib 327,329, as shown in Fig. 3 D-2.Guiding rib 327 be inserted into locking mechanism cavity 310 inwall and The gathering sill 337 arranged on window cover plate 150 is (see the gathering sill 337 on the window cover plate 150 shown in Fig. 3 G, leading on inwall Not shown to groove) in so that can be inserted in the groove of connecting plate 361 with exactly, with reality when lock slider 324 slides Existing aftercarriage wire connection device 221 is connected with the contact of front vehicle body wire connection device 201.

According to embodiment of the present utility model, between front vehicle body set 107 and aftercarriage set 108, it is additionally provided with lining, figure 3F shows the three-dimensional structure diagram of this utility model lining.In this utility model, front vehicle body set 107 is with aftercarriage set 108 all Being made up of metal material, during both direct nested arrangement, abrasion is relatively big, sets up plastics or rubber material the most between The lining of matter, the such as lining 340 shown in figure.As illustrated in Figure 3 F, the shapes and sizes of lining 340 and aftercarriage set 108 Internal cavity 306 mating shapes (the same and outer wall mating shapes of front vehicle body set 107), lining 340 entirety is cylindrical tube Shape, but side sidewall is plane lining engaging plane 341, and lining engaging plane 341 engages with the front side of aftercarriage set 108 Plane 308 mating shapes.

Locking briquetting 314 and lock slider 324 interact with front vehicle body set 107 for convenience, engage plane at lining 341 are provided with lining through hole 342, and shape and the position of lining through hole 342 are corresponding with the second engaging window 322, lock slider 324 can contact with front vehicle body set 107 from lining through hole 342 release.Lining engaging plane 341 is additionally provided with hinged curtain 343, hinged The upper end of curtain 343 is connected as a single entity with lining 340 so that hinged curtain 343 entirety can be done little with locking briquetting 314 around its upper end The slight oscillatory of angle.The position of hinged curtain 343 is corresponding with the first engaging window 318, and is arranged on locking briquetting 314 with front Between the rear side engaging plane 311 of car body set 107, after locking briquetting 314 is pressed against front vehicle body set 107 by hinged curtain 343 In side engaging plane 311, to strengthen frictional force.

Fig. 3 H-1 and 3H-2 shows faucet lever of the present utility model and internal structure thereof.Wherein Fig. 3 H-1 is that this practicality is new The structural perspective of type faucet lever, wherein, shows the parts within faucet lever in the way of perspective.Fig. 3 H-2 is that this practicality is new The structural blast figure of type faucet lever.

As shown in Fig. 3 H-1 and 3H-2, faucet lever 103 includes the tubular rod 109 of inner hollow, and the lower end of faucet lever 103 is even Connecing front vehicle body set 107, the upper end of faucet lever 103 has the pars contractilis 105 being connected with tubular rod 109.As shown in Figure 1A, pars contractilis The upper end of 105 is connected to tap portion 116.Pars contractilis 105 may be inserted in tubular rod 109 or extracts from tubular rod 109, thus The length of faucet lever 103 can be adjusted, to reduce the length after electric motor car with two wheels 100 folds.The inner containment of tubular rod 109 has Anterior wire 211, one end of anterior wire 211 is connected to tap portion 116, and the other end is connected to be arranged in front vehicle body set 107 Front vehicle body wire connection device 201 (will be described below).Therefore, for coordinating the adjustable length of faucet lever 103, anterior wire 211 have telescopic spire 387, change the length of anterior wire 211 with the change along with faucet lever 103 length.? Faucet lever 103 is internal arranges telescopic anterior wire 211, compared to arranging non-telescoping (but length outside faucet lever 103 Wire enough), can avoid electric motor car with two wheels 100 when folding, long wire occur, thus be wound around car body and be difficult to reality Now fold.Cross as previously mentioned, lead with the rear portion in aftercarriage 102 for the anterior wire 211 realized within faucet lever 103 Line 231 connects, and is respectively provided with front vehicle body wire connection device 201 and rear car in the inside of front vehicle body set 107 and aftercarriage set 108 Body wire connection device 221, signal and electric power during to realize front vehicle body set 107 and aftercarriage set 108 locking turn on.

Additionally, as it was previously stated, anterior wire 211 is a cable containing multiple conducting wires, can transmit multiple signals or It is electric power.

Faucet lever 103 also includes the leading axle 106 being connected to the lower end of tubular rod 109, the faucet lever 103 dragon by lower end Head axle 106 is connected with front vehicle body set 107.It is internal that the upper end of tap axle 106 is sleeved on tubular rod 109 regularly, tap axle 106 It is internal that lower end is sleeved on front vehicle body set 107.The two ends of front vehicle body set 107 are connected to tap axle 106 times by bearing 352,354 End so that front vehicle body set 107 is movable to be installed in faucet lever 103, such that it is able to rotate relative to faucet lever 103.

Connect on the lower end of tap axle 106 and have limiting steering part 350.Fig. 3 J shows the three-dimensional knot of limiting steering part 350 Structure.As shown in figure 3j, limiting steering part 350 being provided with limiting steering groove 357, limiting steering groove 357 is along tap axle 106 Circumferentially extending, and cover a scope of tap axle 106 circumference.It can also be seen that limiting steering part 350 is semicircular Structure, can be fixed on tap axle 106 by securing member.

When tap axle 106 is sleeved on front vehicle body set 107 inside, it is internal that limiting steering part 350 is positioned at front vehicle body set 107. The purpose arranging the limiting steering part 350 with limiting steering groove 357 is to limit front vehicle body set 107 relative to faucet lever 103 Rotational angle.And in order to realize this purpose, in addition to the limiting steering part 350 with limiting steering groove is set, also set up Having and the spacer pin 351 of limiting steering groove 357 cooperating, spacer pin 351 is the one end bolt shape with nut.Front vehicle body set Position corresponding with limiting steering groove 357 on 107 is provided with limit pin hole 355 (referring to Fig. 3 I-1), spacer pin 351 and spiral shell Limit pin hole is inserted outside front vehicle body set 107 in one end that cap is relative, and is entering stopper slot after limit pin hole 355 In.Thus spacer pin 351 matches with stopper slot, by front vehicle body set 107 relative to the anglec of rotation of faucet lever 103 be limited in turn In the expanded range of stopper slot, and owing to front vehicle body set 107 and aftercarriage set 108 can be fixed together, from then Car body set 108 also rotates relative to faucet lever 103 in the angular range that the expanded range of limiting steering groove is limited.This angle Scope is the steering angle scope of electric motor car with two wheels 100, substantially 48 degree, left and right.

Also being arranged with multiple tracks electric brush slip ring 365 on the lower end of tap axle 106, multiple tracks electric brush slip ring 365 is spaced each other, Every one electric brush slip ring 365 is respectively coupled a holding wire in anterior wire 211 or power line, and electric brush slip ring 365 Surface (is described front vehicle body in detail later in association with Fig. 3 I-3 and 3I-4 to lead for the rear contact pilotage 326 with front vehicle body wire connection device 201 Wire-connecting device 201 and thereafter contact pilotage 326) electrical contact, so that front portion wire 211 is connected to front vehicle body wire connection device 201. When tap axle 106 is sleeved on front vehicle body set 107 inside, it is internal that electric brush slip ring 365 is positioned at front vehicle body set 107.Due to aftercarriage 102 can rotate to realize turning of electric motor car with two wheels relative to front vehicle body 101 in limiting steering part 350 limited range To, in order to ensure electric connectivity and signal communication, the per pass electric brush slip ring 365 of aftercarriage in steering procedure 102 and front vehicle body 101 Also the same with limiting steering groove 357 along tap axle 106 circumferentially extending, and electric brush slip ring 365 expanded range also with turn to limit The expanded range of position groove 357 is roughly the same.Can touch with rear additionally, per pass electric brush slip ring 365 all has in its expanded range The surface that pin 326 conducts.

The matching relationship of limiting steering groove 357 and spacer pin 351, and rear contact pilotage 326 and electric brush slip ring 365 coordinate pass System can also find out from Fig. 3 K, and Fig. 3 K for clarity sake eliminates front vehicle body set 107 and connecting plate 361 discussed below.

Concrete structure and the front truck of front vehicle body set 107 is introduced below in conjunction with Fig. 3 H-2,3I-1,3I-2,3I-3 and 3I-4 The front vehicle body wire connection device 201 installed on body set 107.Fig. 3 I-1 and 3I-2 is the solid of this utility model front vehicle body set Structure chart, the obverse and reverse structure that Fig. 3 I-3 and 3I-4 is respectively front vehicle body wire connection device 201 of the present utility model is quick-fried Fried figure.

As shown in Fig. 3 I-1 and 3I-2, front vehicle body is overlapped 107 generally cylindrical, and it is internal is inner cylinder cavity 111, Tap axle 106 is i.e. contained in this cylindrical cavity 111.The side of front vehicle body set 107 is the rear side engaging being formerly mentioned Plane 311, is provided with in rear side engaging plane 311, front vehicle body wire connection device 201.Front vehicle body wire connection device 201 is permissible It is integrally formed with front vehicle body set 107, it is also possible to situation as shown in Fig. 3 H-2 is formed separately.Specifically, as it can be seen, front truck It is provided with the opening 321 for accommodating front vehicle body wire connection device 201, opening in the rear side engaging plane 311 of body set 107 The position of 321 faces the electric brush slip ring 365 being arranged on the front vehicle body set leading axle 106 within 107, and front vehicle body wire connects Device 201 is arranged in opening 321, thus front vehicle body wire connection device 201 can produce with electric brush slip ring and electrically connect.For The limit pin hole 355 accommodating spacer pin 351 is arranged on above opening 321.

As shown in Fig. 3 I-3 and 3I-4, front vehicle body wire connection device 201 includes that connecting plate 361, connecting plate 361 are provided with Front truck contact plane 363, front truck contact plane 363 front is provided with multiple contact 362, and rear contact pilotage 326 is from front truck contact plane The reverse side (back side) of 363 and multiple contacts 362 conductive communication.

Specifically, before the front of connecting plate 361 is provided with the aforementioned lock slider 324 for receiving insertion The groove 313 of end, in order to stop front vehicle body set 107 and aftercarriage to overlap the relative movement of 108 in the vertical directions.Groove 313 Bottom land constitutes front truck contact plane 363, and multiple contacts 362 are located in front truck contact plane 363, is used for and lock slider 324 Front contact pilotage 386 on rear car contact plane 390 contacts so that the front truck of the rear portion wire 231 in aftercarriage 102 and front vehicle body is led Line 211 is connected, the display device 204 within front vehicle body 101 and the motor 224 controlled within device 205 and aftercarriage 102, stops Car device 225, power supply 223 parts such as grade realize connecting of signal and electric power.

The reverse side of connecting plate 361 is provided with rear contact pilotage terminal base 389, and rear contact pilotage terminal base 389 is provided with front vehicle body set The rear contact pilotage 326 of the inner cylinder cavity 111 of 107.Rear contact pilotage 326 contacts with electric brush slip ring 365 and conducts, and rear contact pilotage 326 keep sliding contact when together rotating with front vehicle body set 107 with electric brush slip ring 365.Rear contact pilotage 326 is pacified by elastic construction Be contained in rear contact pilotage terminal base 389, elastic construction guarantee rear contact pilotage 326 can all the time with electric brush slip ring 365 Elastic Contact.Rear tactile Pin terminal base 389 can be integrally formed with connecting plate 361, it is also possible to the situation as shown in Fig. 3 I-3 and 3I-4 and connecting plate 361 splits are formed, and are removably mounted on connecting plate 361.

In the present embodiment, electric brush slip ring 365 has four road slip rings, is provided with contact pilotage 326, Mei Yipai after 4 rows matchedly Rear contact pilotage 326 slides on one electric brush slip ring 365, and this is suitable for the first reality of the wire structures shown in this utility model Fig. 2 A Execute 4 anterior wires 211 and the design of 4 rear portion wires 231 in example.If the second enforcement of the wire structures shown in Fig. 2 D Example has 1 anterior wire 211 and 1 rear portion wire 231 like that, then electric brush slip ring 365 can have one cunning at least Ring, rear contact pilotage 326 can be contact pilotage after a row at least.In all of the embodiments illustrated, after each row, contact pilotage 326 can be provided with a left side Contact pilotage after right two, after two, contact pilotage 326 simultaneously turns on a road signal, and slides on one electric brush slip ring 365 simultaneously, constitutes The electrical connection of redundancy, it is ensured that effective conducting of this road signal.

Rear contact pilotage 326 is connected by circuit printed line in the inside of connecting plate 361 with contact 362, thus each road signal is also Connected with the front contact pilotage 386 of lock slider 324 by multiple contacts 362, to guarantee front vehicle body 101 He of electric motor car with two wheels 100 Effective connection of the circuit in aftercarriage 102.

In order to show wire structures of the present utility model further, Fig. 3 M-1 and 3M-2 respectively illustrates this utility model two The aftercarriage side sectional view of wheel electric motor car and Facad structure figure.Touch from Fig. 3 M-1 it can be seen that before in lock slider 324 Pin 386 is connected with rear portion wire 231, and rear portion wire 231 is behind the inside of support bar 104, from the hole of the front end of aftercarriage 102 It is internal that hole 388 enters aftercarriage 102, is connected with the second control circuit 222 of aftercarriage 102.From Fig. 3 M-2 it can be seen that rear car The hole 388 of flatbed Rear frame 115 front end of body 102.

Further, it is also possible to arrange a front vehicle body to overlap 107 similar structures in the upper end of faucet lever 103, so that When aftercarriage set 108 moves to the upper end of faucet lever 103 (when arriving the position folded), it is possible to by this structure, after Car body set 108 and locking mechanism 320 realize the locking of aftercarriage and front vehicle body.Locking herein need not connect front vehicle body with after The circuit structure of car body, it is only necessary to front vehicle body and aftercarriage are locked in folded state, carries electric motor car to easily facilitate.

Describe to drive electric motor car with two wheels and to front vehicle body 101 and aftercarriage below in conjunction with Fig. 3 L-1 and Fig. 3 L-2 102 carry out mechanical caging and electrically connected and carry out front vehicle body 101 and aftercarriage 102 for folding two-wheel electric motor car The process that machinery release separates with electric power.Wherein, Fig. 3 L-1 and Fig. 3 L-2 is respectively this utility model front vehicle body 101 and aftercarriage 102 machinery release and electric power separate and mechanical caging and electrically connected time sectional view.For clarity sake, in this two width figure Illustrate only front vehicle body set 107 and aftercarriage overlaps the structure of 108 positions.

In order to drive electric motor car with two wheels, it is necessary first to front vehicle body 101 and aftercarriage 102 are carried out mechanical caging and electric power connects Connect.As previously mentioned, front vehicle body 101 and the mechanical caging of aftercarriage 102 and electrically connected and mechanical discharge and electric power Separation is by carrying out locking and discharging realizing by front vehicle body set 107 and aftercarriage set 108 with locking mechanism 320.To this end, First turning trip gear 130 makes it towards vertical direction, and trip gear 130 drives drive shaft 330 to turn clockwise, thus carries Dynamic locking briquetting 314 and lock slider 324 enter them with the latched positions of front vehicle body set 107 interaction (such as Fig. 3 L-2 Shown in), in this position, locking mechanism 320 realizes front vehicle body 101 and the mechanical caging of aftercarriage 102 and electrically connected.

And for folding two-wheel electric motor car, then make it towards horizontal direction firstly the need of trip gear 130 will be turned, pull Mechanism 130 drives drive shaft 330 to rotate counterclockwise, thus drive locking briquetting 314 and lock slider 324 enter they with front The off-position (as shown in Fig. 3 L-1) that car body set 107 is separated from each other, in this position, front vehicle body 101 and the machinery of aftercarriage 102 Locking is released, and electrically connected is separated such that it is able to realize the folding of electric motor car with two wheels.

Although this utility model being described with reference to the detailed description of the invention shown in accompanying drawing, but it is to be understood that Under the spirit and scope instructed without departing substantially from this utility model and background, can there be multiple change shape in each mechanism of the present utility model Formula, and each embodiment of the present utility model can be mutually combined to form this utility model description the most described in detail Technical scheme.It is disclosed in the utility model to change that art technology those of ordinary skill will additionally appreciate different modes Parameter in embodiment, the such as type of size, shape, element or material, and these each fall within this utility model and right is wanted In the spirit and scope asked.

Claims

1., for a fixed structure for electric motor car with two wheels, described electric motor car with two wheels includes front vehicle body (101) and aftercarriage (102), described front vehicle body (101) and aftercarriage (102) can be separated from each other when folding two-wheel electric motor car, described front vehicle body (101) can be mutually permanently connected when driving described electric motor car with two wheels with aftercarriage (102), described front vehicle body (101) includes dragon Head rod (103), described aftercarriage (102) includes support bar (104), it is characterised in that described fixed structure includes:

Aftercarriage set (108), the front side of described support bar (104) front end is provided with front side engaging plane (308), described aftercarriage set (108) both sides from described front side engaging plane (308) are prolonged and are born and formed, and described aftercarriage set (108) has internal cavity (306), the rear side of described internal cavity (306) is described front side engaging plane (308)；

Front vehicle body set (107), described front vehicle body set (107) is connected to the lower end of described faucet lever (103), described front vehicle body set (107) having inner cylinder cavity (111), described inner cylinder cavity (111) accommodates described front vehicle body for rotationally (101) internal cavity (306) shape of faucet lever (103), the outer wall of described front vehicle body set (107) and described aftercarriage set (108) Shape matches, and the rear side of the outer wall of described front vehicle body set (107) is provided with rear side engaging plane (311), when described front vehicle body set (107) Be inserted into the internal cavity (306) of described aftercarriage set (108) interior time, described front side engaging plane (308) engages with described rear side Plane (311) is bonded to each other, is used for stoping relatively rotating between front vehicle body set (107) and aftercarriage set (108)；

Described support bar (104) front end is provided with locking mechanism cavity (310), and described locking mechanism cavity (310) is used for accommodating lock Determining mechanism (320), described locking mechanism (320) has a latched position and an off-position, described locking mechanism (320) it is used for locking and discharge described front vehicle body set (107) and described aftercarriage set (108), is used for stoping front vehicle body set (107) And relatively moving up and down and/or lateral between front vehicle body set (107) and aftercarriage set (108) between aftercarriage set (108) Rock.

2. fixed structure as claimed in claim 1, it is characterised in that:

Described locking mechanism cavity (310) is provided with installation window (312) in the side of described support bar (104) front end, is used for pacifying Fill described locking mechanism (320).

3. fixed structure as claimed in claim 2, it is characterised in that described locking mechanism (320) including:

Locking briquetting (314), described locking briquetting (314) has lock plane (316), and described locking briquetting has described locking Position and described off-position；

Described front side engaging plane (308) is provided with the first engaging window (318), and described lock plane (316) can be pushed out Described first engaging window (318), thus compress described rear side engaging plane (311), thus stop front vehicle body set (107) and after Relatively moving up and down and/or laterally rocking between front vehicle body set (107) and aftercarriage set (108) between car body set (108).

4. fixed structure as claimed in claim 2, it is characterised in that described locking mechanism (320) including:

Lock slider (324), described lock slider (324) has described latched position and described off-position；

Described rear side engaging plane (311) is provided with a groove (313)；

Described front side engaging plane (308) is provided with the second engaging window (322)；

Described lock slider (324) can be pushed out described second engaging window (322), thus inserts described rear side engaging plane (311) groove (313) on.

5. the fixed structure as described in claim 3 or 4, it is characterised in that described locking mechanism (320) including:

The drive shaft (330) that can rotate；

Locking briquetting (314), when rotating to the first rotation direction, is engaged window (318) from first by described drive shaft (330) Release, and/or lock slider (324) is released from the second engaging window (322)；

Described locking briquetting (314), when rotating to the second rotation direction, is discharged so that described lock by described drive shaft (330) Level pressure block (314) can exit from the first engaging window (318), and/or makes lock slider (324) can engage window from second (322) exit；

6. fixed structure as claimed in claim 5, it is characterised in that:

Described drive shaft (330) is provided with drive surface (332), is used for driving described locking briquetting (314)；And/or；

Described drive shaft (330) is provided with pusher dog (331), is used for driving described lock slider (324).

7. fixed structure as claimed in claim 6, it is characterised in that:

The top (315) of described locking briquetting (314) is installed in rotation on fixing axle (317), when described drive shaft (330) When pushing away described locking briquetting (314), described locking briquetting (314) produces described first engaging window around described fixing axle (317) Mouth (318).

8. fixed structure as claimed in claim 7, it is characterised in that described locking mechanism (320) including:

Back-moving spring (319), for when described drive shaft (330) discharges described locking briquetting (314) so that described locking pressure Block (314) returns to described off-position.

9. fixed structure as claimed in claim 6, it is characterised in that:

Described lock slider (324) includes being provided with allocating slot (325), is used for accommodating described pusher dog (331)；

When described drive shaft (330) rotates to the first direction of rotation, described lock slider (324) is dialled by described pusher dog (331) To described latched position；

When described drive shaft (330) rotates to the second direction of rotation, described lock slider (324) is dialled by described pusher dog (331) To described off-position.

10. fixed structure as claimed in claim 8, it is characterised in that:

One end of described drive shaft (330) is provided with trip gear (130), is used for pulling described drive shaft (330) to described first Rotation direction and the second rotation direction rotate.

11. fixed structures as claimed in claim 10, it is characterised in that:

Described fixed structure includes window cover plate (150), is used for covering described installation window (312)；Described drive shaft (330) and Fixing axle (317) is arranged between inwall and the inwall of window cover plate (150) of described locking mechanism cavity (310).

12. fixed structures as claimed in claim 10, it is characterised in that:

Described fixed structure includes window cover plate (150), is used for covering described installation window (312)；

The both sides of described lock slider (324) are provided with a pair guiding rib (327,329)；

It is respectively equipped with gathering sill (337) on the inwall of described locking mechanism cavity (310) and window cover plate (150) inwall；

The pair of guiding rib (327,329) slides in described gathering sill (337).

13. fixed structures as claimed in claim 4, it is characterised in that also include:

The outer wall matching form of lining (340), described lining (340) and described front vehicle body set (107), described lining (340) wraps Including lining engaging plane (341), described lining engaging plane (341) engages plane (311) matching form with described rear side；

Described lining engaging plane (341) includes lining through hole (342), the shape of described lining through hole (342) and position and institute State the second engaging window (322) corresponding；

Described lining engaging plane (341) also includes that hinged curtain (343), the position of described hinged curtain (343) engage window with first Mouthful (318) are corresponding, and are arranged on locking briquetting (314) and engage between plane (311) with described rear side.

14. fixed structures as claimed in claim 1, it is characterised in that:

The lower end of described faucet lever (103) is provided with limiting steering groove (357), and described limiting steering groove (357) is along described tap Bar (103) circumferentially extending, and cover a scope of faucet lever circumference；

Described front vehicle body set (107) includes spacer pin (351), and described spacer pin (351) engages plane to described from described rear side The inner cylinder cavity (111) of front vehicle body set (107) extends；

Described spacer pin (351) is contained in described limiting steering groove (357), and can be along the extension of described limiting steering groove Move in limiting steering groove in direction so that faucet lever (103) relative to described front vehicle body set (107) in the range of described Rotate.

15. fixed structures as claimed in claim 1, it is characterised in that:

Described fixed structure also includes bearing (352,354)；

Described bearing (352,354) is arranged in described faucet lever (103), is separately positioned on the two of described front vehicle body set (107) Inside end, for described front vehicle body set (107) is movably arranged on described faucet lever (103).