CN205098061U - A bimirror face automatically regulated outside rear -view mirror for vehicle - Google Patents

Abstract

The utility model provides a bimirror face automatically regulated outside rear -view mirror for vehicle. Bimirror face automatically regulated outside rear -view mirror includes the bimirror face, transmission and actuating mechanism, transmission direction switching mechanism, a main controlle, angle of adjustment storage module, machine controller, outer rear -view mirror shell and connecting piece, wherein, transmission and actuating mechanism and transmission direction switching mechanism pass through the connecting piece setting at the bimirror face outside and between the rear -view mirror shell, the bimirror face, outer rear -view mirror shell, transmission and actuating mechanism and transmission direction switching mechanism all are connected with the connecting piece, main sight glass face and blind area mirror surface are drawn together to bimirror bread, angle of adjustment storage module connects machine controller, machine controller is connected with the communication of main control unit looks. The utility model discloses an above -mentioned technique can satisfy the driver in the doubling, the position that turns to, inclines acquires the needs of peripheral visual field information when parkking, backing a car the warehouse entry.

Description

A kind of bimirror face for vehicle regulates outside rear-view mirror automatically

Technical field

The utility model relates to automobile rearview mirror technology, particularly relates to a kind of bimirror face for vehicle and automatically regulates outside rear-view mirror.

Background technology

Back mirror, as a part for automobile, is operated in doubling at automobile, overtakes other vehicles, plays an important role under the situations such as warehouse-in of moveing backward.Due to the existence of back mirror vision dead zone, in car, chaufeur does not observe the vehicle near this car tail gate position, and especially the back mirror distance chaufeur of right is farther, and blind area is also larger, so be easy in front truck lane change or when turning to cause traffic accident.

At present, for eliminating or reducing blind area, have employed certain methods, wherein, install the back mirror of wide-angle lens additional, blind area can be reduced simply and easily, but wide-angle lens imaging diminishes, affect chaufeur and make the judgement of accurate spacing; Double curvature rearview mirror, increases by vehicle outside curvature mirror, expands the visual field of outside rear-view mirror, but curvature change conference causes vision distortion; Install the back mirror of blind spot information system (BLIS) additional, rely on the camera being positioned at outside rear-view mirror root, give the alarm when detecting in blind area and there is vehicle, because BLIS gathers image based on Visible imaging system, when visbility extreme difference (such as dense fog or blizzard), system just cannot work.Visible, the method found simple and reliable elimination or reduce blind area is necessary and urgent.

In addition, when moveing backward warehouse-in or lateral parking, chaufeur generally needs the information obtaining vehicle rear wheel and garage or road edge distance, but the visual field observed on vehicle body by outside rear-view mirror is better, then the visual field of car rear and side will diminish, therefore, find that to be in harmonious proportion the method for contradiction between the two be also necessary and urgent.In addition, driven rearview mirrors needs four direction vertically and horizontally to rotate, and carrys out satisfied different chaufeur to the requirement in the visual field, and in control process, the general rotation realizing with above-below direction about back mirror respectively with two motors, adds cost.So it is also necessary for inquiring into the rotation realizing using less motor to control back mirror four direction by design transmission device.

Utility model content

Give hereinafter about brief overview of the present utility model, to provide about the basic comprehension in some of the present utility model.Should be appreciated that this general introduction is not summarize about exhaustive of the present utility model.It is not that intention determines key of the present utility model or pith, neither intended limitation scope of the present utility model.Its object is only provide some concept in simplified form, in this, as the preorder in greater detail discussed after a while.

Given this, the utility model provides a kind of bimirror face for vehicle and automatically regulates outside rear-view mirror, with at least solve existing outside rear-view mirror for vehicle can not meet chaufeur in doubling, turn to, lateral parking, reversing warehouse-in time obtain the problem of the needs of peripheral view information.

According to an aspect of the present utility model, provide a kind of bimirror face for vehicle and automatically regulate outside rear-view mirror, described bimirror face regulates outside rear-view mirror to comprise bimirror face automatically, transmission and actuating unit, transmission direction switching mechanism, master controller, adjustment angle memory module, electric machine controller, outside rear-view mirror shell and attaching parts, wherein, described transmission and actuating unit and described transmission direction switching mechanism are arranged between described bimirror face and described outside rear-view mirror shell by described attaching parts, described bimirror face, described outside rear-view mirror shell, described transmission is all connected with described attaching parts with described transmission direction switching mechanism with actuating unit, described bimirror face comprises main visor face and blind area minute surface, described adjustment angle memory module connects described electric machine controller, described electric machine controller communicates with described master controller and is connected.

Further, described electric machine controller comprises signal receiving module, calculation process module, motor drive module and the communication module for carrying out communication between master controller.

Further, described bimirror face regulates outside rear-view mirror also to comprise master cock automatically, and the button of described master cock is connected with described electric machine controller; Described master cock comprises mode selection button group and composite-functional key-press group, wherein, described mode selection button group comprises target minute surface and selectes mode key, mirror angle adjustment modes button, mirror angle memory module button and mirror angle reforestation practices button, and described composite-functional key-press group comprises composite-functional key-press one, composite-functional key-press two, composite-functional key-press three and composite-functional key-press four.

Further, when pressing described target minute surface and selecting mode key, composite-functional key-press one selectes button for main visor face, left side, composite-functional key-press two selectes button for blind area, left side minute surface, composite-functional key-press three selectes button for main visor face, right side, and composite-functional key-press four selectes button for blind area, right side minute surface, when pressing mirror angle adjustment modes button, composite-functional key-press one turns button on minute surface, and composite-functional key-press two is for turning button under minute surface, and composite-functional key-press three is minute surface left-hand rotation button, and composite-functional key-press four is minute surface right-hand rotation button, when pressing mirror angle memory module button, composite-functional key-press one is that main visor face, left side current angular stores button, composite-functional key-press two is that minute surface current driving angle in blind area, left side stores button, composite-functional key-press one and composite-functional key-press two are pressed the current reversing angle of blind area minute surface on the left of interval scale simultaneously and are stored button, composite-functional key-press three is that main visor face, right side current angular stores button, composite-functional key-press four is that blind area, right side minute surface current angular stores button, composite-functional key-press three and composite-functional key-press four are pressed the current reversing angle in main visor face on the right side of interval scale simultaneously and are stored button, when pressing mirror angle reforestation practices button, composite-functional key-press one is looked mirror angle and is recovered button for left side is main, composite-functional key-press two is that blind area, left side minute surface travels angle recovery button, composite-functional key-press one and composite-functional key-press two are pressed blind area minute surface reversing angle on the left of interval scale simultaneously and are recovered button, composite-functional key-press three is looked mirror angle and is recovered button for right side is main, composite-functional key-press four is that blind area, right side minute surface travels angle recovery button, composite-functional key-press three and composite-functional key-press four are pressed blind area minute surface reversing angle on the right side of interval scale simultaneously and are recovered button.

Further, in described main visor face and described blind area minute surface, each minute surface can regulate separately, the independence that described main visor face realizes described main visor face by two open annular rack drives main visor face link spans of vertical distribution is rotated up and down, and the independence that described blind area minute surface realizes described blind area minute surface by two open annular rack drives blind area minute surface link spans of described vertical distribution is rotated up and down.

Further, described transmission and actuating unit comprise a pair motor, motor gear, dual gear and open annular tooth bar, and in described a pair motor, each motor is by each self-corresponding motor gear, dual gear and being connected with open annular tooth bar; Described transmission direction switching mechanism comprises shift fork attaching parts, shift fork part and a pair shift fork mobile device, and each the shift fork mobile device in described a pair shift fork mobile device connects a motor respectively; Shift fork mobile device connects shift fork part, shift fork attaching parts and motor gear, does crank block motion; With the rotation up and down in bimirror face described in the electric machine control of described bimirror face parallel direction, with the left-right rotation in bimirror face described in the electric machine control of minute surface vertical direction.

Further, described adjustment angle memory module is connected with the output shaft of motor; Described electric machine controller is connected with described master cock; Described electric machine controller is connected with described master controller; Described electric machine controller is connected with described motor.

Further, the traveling angle in described main visor face, the traveling angle of described blind area minute surface and reversing angle is stored in described adjustment angle memory module, wherein: the traveling angle in described main visor face for ensureing that vehicle is under motoring condition, vehicle body rear and proceeds posterolateral presumptive area visual; The traveling angle of described blind area minute surface is for ensureing that vehicle is under motoring condition, and predetermined blind area, body side rear is visual; And the reversing angle of described blind area minute surface is for ensureing that vehicle is under state of rolling backward, rear and vehicle rear wheel visual.

Bimirror face of the present utility model regulates outside rear-view mirror automatically, it utilizes main visor face wherein to ensure vehicle body rearward vision, vehicle operation straight-line travelling, doubling, overtake other vehicles time, by eliminating to vehicle body lateral direction adjustment blind area mirror angle or reduce blind area, and at vehicle operation when moveing backward warehouse-in or lateral parking, increase body side and the visual field, rear wheel position place by direction adjustment blind area mirror angle inside vehicle body.The gear signal that two kinds of operating modes receive autonomous controller by the communication module of electric machine controller judges, blind area mirror angle is automatically switched under two kinds of operating modes, is realizing the reliability that also assures that mirror image around chaufeur acquisition under more wide-field prerequisite.When vehicle is kept in motion, this motion state signal is sent to electric machine controller by master controller, now, electric machine controller will not process the signal receiving master cock, to be used for preventing on chaufeur and car occupant under vehicle running state to the maloperation that master cock is carried out.Achieve use a pair electric machine control two independent minute surfaces to do and rotate up and down simultaneously, save cost.

By below in conjunction with the detailed description of accompanying drawing to most preferred embodiment of the present utility model, these and other advantage of the present utility model will be more obvious.

Accompanying drawing explanation

The utility model can be better understood by reference to hereinafter given by reference to the accompanying drawings description, wherein employs same or analogous Reference numeral in all of the figs to represent identical or similar parts.Described accompanying drawing comprises in this manual together with detailed description below and forms the part of this specification sheets, and be used for further casehistory preferred embodiment of the present utility model and explain principle and advantage of the present utility model.In the accompanying drawings:

Fig. 1 is the major part schematic diagram that bimirror face of the present utility model regulates outside rear-view mirror automatically;

Fig. 2 is that bimirror face of the present utility model regulates outside rear-view mirror inner component detonation configuration schematic diagram automatically;

Fig. 3 is the master cock schematic diagram that bimirror face of the present utility model regulates outside rear-view mirror automatically.

Wherein: 1. outside rear-view mirror shell, 2. transmission direction switching mechanism, 3. transmission and actuating unit, 4. attaching parts, 5. mode selection button group, 6. composite-functional key-press group, 7. main visor face link span, 8, blind area minute surface link span, 9. minute surface mounting hole, 10. motor rack, 11. motors, 12, open annular tooth bar, 13. base mounting frames, 14. circular grooves, 15. circular groove connecting bores, 16. adjustment angle memory modules, 17. shift fork attaching partss, 18. shift fork parts, 19. dual gears, 20. shift fork mobile devices, 21. motor gears, 22. ball hinge frame mounting holes, 23. spherical hinge holders, 24. outer ball pivots, ball pivot in 25., 26. signal receiving modules, 27, calculation process module, 28. motor drive modules, communication module between 29. and master controller, 30. electric machine controllers, 31. master controllers, 32. master cocies, 33. composite-functional key-press one, 34. composite-functional key-press two, 35. composite-functional key-press three, 36. composite-functional key-press 4 37. target minute surfaces select mode key, 38. mirror angle adjustment modes buttons, 39. mirror angle memory module buttons, 40. mirror angle reforestation practices buttons, 41. blind area minute surfaces, 42. main visor faces.

The element that it will be appreciated by those skilled in the art that in accompanying drawing be only used to simple and clear for the purpose of illustrate, and not necessarily to draw in proportion.Such as, in accompanying drawing, the size of some element may be exaggerated relative to other elements, to contribute to improving the understanding to the utility model embodiment.

Detailed description of the invention

To be described one exemplary embodiment of the present utility model by reference to the accompanying drawings hereinafter.For clarity and conciseness, all features of actual embodiment are not described in the description.But, should understand, must make a lot specific to the decision of embodiment in the process of any this practical embodiments of exploitation, to realize the objectives of developer, such as, meet those limiting conditions relevant to system and business, and these limiting conditions may change to some extent along with the difference of embodiment.In addition, although will also be appreciated that developmental work is likely very complicated and time-consuming, concerning the those skilled in the art having benefited from present disclosure, this developmental work is only routine task.

At this, also it should be noted is that, in order to avoid the utility model fuzzy because of unnecessary details, illustrate only in the accompanying drawings with according to the closely-related apparatus structure of scheme of the present utility model and/or treatment step, and eliminate other details little with the utility model relation.

Embodiment of the present utility model provides a kind of bimirror face for vehicle and automatically regulates outside rear-view mirror, described bimirror face regulates outside rear-view mirror to comprise bimirror face automatically, transmission and actuating unit, transmission direction switching mechanism, master controller, adjustment angle memory module, electric machine controller, outside rear-view mirror shell and attaching parts, wherein, described transmission and actuating unit and described transmission direction switching mechanism are arranged between described bimirror face and described outside rear-view mirror shell by described attaching parts, described bimirror face, described outside rear-view mirror shell, described transmission is all connected with described attaching parts with described transmission direction switching mechanism with actuating unit, described bimirror face comprises main visor face and blind area minute surface, described adjustment angle memory module connects described electric machine controller, described electric machine controller communicates with described master controller and is connected.

Below in conjunction with Fig. 1 ~ Fig. 3, a kind of exemplary construction that bimirror face of the present utility model regulates outside rear-view mirror is automatically described.

Bimirror face as shown in Figure 1 regulates outside rear-view mirror to comprise bimirror face, transmission and actuating unit 3, transmission direction switching mechanism 2, master controller 31, adjustment angle memory module 16, electric machine controller 30, outside rear-view mirror shell 1 and attaching parts 4 automatically.

Wherein, transmission and actuating unit 3 and transmission direction switching mechanism 2 are arranged between bimirror face and outside rear-view mirror shell 1 by attaching parts 4, and bimirror face, outside rear-view mirror shell 1, transmission are all connected with attaching parts 4 with transmission direction switching mechanism 2 with actuating unit 3.

Bimirror face comprises main visor face 42 and blind area minute surface 41.It should be noted that, in actual applications, every side (i.e. left side and right side) of vehicle is equipped with one group of bimirror face, and that is, vehicle has main visor face, left side, blind area, left side minute surface, main visor face, right side and blind area, right side minute surface.In the present embodiment, the main visor face 42 mentioned and blind area minute surface 41 can refer to main visor face, left side and blind area, left side minute surface, also can refer to main visor face, right side and blind area, right side minute surface.

In addition, main visor face 42 and main visor face link span 7 are connected by corresponding minute surface mounting hole 9, and the blind area minute surface 41 minute surface mounting hole 9 corresponding with blind area minute surface link span 8 is connected.Main visor face 42 and blind area minute surface 41 all can independently rotate up and down.

The traveling angle in main visor face 42 and the traveling angle of blind area minute surface 41 and angle of moveing backward is stored in adjustment angle memory module 16.Wherein, the traveling angle in main visor face 42, the traveling angle of blind area minute surface 41 and reversing angle initial value separately can pre-set, such as, can set based on experience value, or set by the method for test.In addition, according to a kind of implementation, the master cock 32 that hereafter will describe also can be utilized to set the traveling angle in main visor face 42, the traveling angle of blind area minute surface 41 and reversing angle initial value separately.

According to a kind of implementation, the traveling angle in main visor face 42 for ensureing that vehicle is under motoring condition, vehicle body rear and proceeds posterolateral presumptive area visual (such as better visual, can rule of thumb arrange); The traveling angle of blind area minute surface 41 for ensureing that vehicle is under motoring condition, predetermined blind area, body side rear visual (such as better visual, can rule of thumb arrange); The reversing angle of blind area minute surface 41 then for ensureing that vehicle is under state of rolling backward, rear and vehicle rear wheel visual (such as better visual, can rule of thumb arrange).

In addition, according to a kind of implementation, in whole driving conditions, the state (be namely set to and travel angle) that the angle in main visor face 42 presets according to chaufeur does not change, and ensures the visuality of vehicle body rear and proceeds posterolateral presumptive area (i.e. the visual field, part side).

Electric machine controller 30 is connected with master controller 31 and receives to the gear signal of master controller 31 by communication module (such as CAN communication module), electric machine controller 30 is connected with motor 11, controls motor 11 rotating through calculation process module 27 and motor drive module 28.

When electric machine controller 30 receives the non-reverse range signal of master controller 31, electric machine controller 30 is rotated until adjust to the traveling angle of blind area minute surface 41 to vehicle body lateral direction by transmission and actuating unit 3 and transmission direction switching mechanism 2 the blind area of control minute surface 41, visual to ensure the visual field, blind area, body side rear; And when electric machine controller 30 receives the reverse range signal of master controller 31, electric machine controller 30 is rotated until adjust to the reversing angle of blind area minute surface 41 to direction inside vehicle body by transmission and actuating unit 3 and transmission direction switching mechanism 2 the blind area of control minute surface 41, with ensure rear and the vehicle rear wheel visual field visual.Thereby, it is possible to realize vehicle operation when state of rolling backward and non-state of rolling backward, the effect that blind area minute surface 41 regulates automatically according to the angle information prestored.Wherein, be perform fast to the adjustment of blind area minute surface 41, such as, completed within 1 second.

According to a kind of implementation, electric machine controller 30 can comprise signal receiving module 26, calculation process module 27, motor drive module 28 and the communication module 29 for carrying out communication between master controller 31.Wherein, signal receiving module 26 is for Received signal strength, calculation process module 27 is for carrying out the operations such as calculation process according to the signal received, and motor drive module 28 generates drive singal, to be sent by communication module 29 for the result based on calculation process module 27.In addition, communication module 29 is also for carrying out communication between master controller 31.

In addition, according to a kind of implementation, above-mentioned bimirror face of the present utility model regulates outside rear-view mirror can also comprise master cock 32 automatically, and the button of master cock 32 is connected with electric machine controller 30.

Wherein, master cock 32 such as comprises mode selection button group 5 and composite-functional key-press group 6.Mode selection button group 5 comprises target minute surface and selectes mode key 37, mirror angle adjustment modes button 38, mirror angle memory module button 39 and mirror angle reforestation practices button 40, and composite-functional key-press group 6 comprises composite-functional key-press 1, composite-functional key-press 2 34, composite-functional key-press 3 35 and composite-functional key-press 4 36.

When pressing target minute surface and selecting mode key 37, composite-functional key-press 1 selectes button for main visor face, left side, composite-functional key-press 2 34 selectes button for blind area, left side minute surface, composite-functional key-press 3 35 selectes button for main visor face, right side, and composite-functional key-press 4 36 selectes button for blind area, right side minute surface.

When pressing mirror angle adjustment modes button 38, composite-functional key-press 1 turns button on minute surface, and composite-functional key-press 2 34 is for turning button under minute surface, and composite-functional key-press 3 35 is minute surface left-hand rotation button, and composite-functional key-press 4 36 is minute surface right-hand rotation button.

When pressing mirror angle memory module button 39, composite-functional key-press 1 is that main visor face, left side current angular stores button, composite-functional key-press 2 34 is that minute surface current driving angle in blind area, left side stores button, composite-functional key-press 1 and composite-functional key-press 2 34 are pressed the current reversing angle of blind area minute surface on the left of interval scale simultaneously and are stored button, composite-functional key-press 1 is that main visor face, right side current angular stores button, composite-functional key-press 2 36 is that minute surface current driving angle in blind area, right side stores button, composite-functional key-press 3 35 and composite-functional key-press 4 36 are pressed the current reversing angle of blind area minute surface on the right side of interval scale simultaneously and are stored button, wherein, the all angles of above-mentioned storage can be stored in adjustment angle memory module 16.

When pressing mirror angle reforestation practices button 40, to be that left side is main recover button depending on mirror angle (on the left of when pressing this key, the angle in main visor face recover initial value composite-functional key-press 1, namely, the traveling angle in main visor face, left side recovers corresponding initial value), composite-functional key-press 2 34 is that blind area, left side minute surface travels angle and recovers button (on the left of when pressing this key, the traveling angle of blind area minute surface recovers corresponding initial value), composite-functional key-press 1 and composite-functional key-press 2 34 are pressed the reversing of blind area minute surface on the left of interval scale angle simultaneously and are recovered button (on the left of when pressing this two key, the reversing angle of blind area minute surface recovers corresponding initial value simultaneously), to be that right side is main recover button depending on mirror angle (on the right side of when pressing this key, the angle in main visor face recover initial value composite-functional key-press 3 35, namely, the traveling angle in main visor face, right side recovers corresponding initial value), composite-functional key-press 4 36 is that blind area, right side minute surface travels angle and recovers button (on the right side of when pressing this key, the traveling angle of blind area minute surface recovers corresponding initial value), composite-functional key-press 3 35 and composite-functional key-press 4 36 are pressed the reversing of blind area minute surface on the right side of interval scale angle simultaneously and are recovered button (on the right side of when pressing this two key, the reversing angle of blind area minute surface recovers corresponding initial value simultaneously).

When vehicle is in motoring condition, master controller 31 controls electric machine controller 30 and is in dormant state, electric machine controller 30 is not processed the signal from master cock 32 received under this dormant state, under vehicle running state, maloperation is carried out to master cock 32 to prevent occupant on chaufeur and car.

According to a kind of implementation, in main visor face 42 and blind area minute surface 41, each minute surface can regulate separately, the independence that main visor face 42 drives main visor face link span 7 to realize main visor face 42 by two open annular tooth bars 12 of vertical distribution is rotated up and down, and the independence that blind area minute surface 41 drives blind area minute surface link span 8 to realize blind area minute surface 41 by two open annular tooth bars 12 of vertical distribution is rotated up and down.

According to a kind of implementation, transmission and actuating unit 3 comprise a pair motor 11, motor gear 21, dual gear 19 and open annular tooth bar 12, and in a pair motor 11, each motor is by each self-corresponding motor gear 21, dual gear 19 and being connected with open annular tooth bar 12; Transmission direction switching mechanism 2 comprises shift fork attaching parts 17, shift fork part 18 and a pair shift fork mobile device 20, and each the shift fork mobile device in a pair shift fork mobile device 20 connects a motor respectively; Shift fork mobile device 20 connects shift fork part 18, motor gear 21, does crank block motion; With the rotation up and down in the electric machine control bimirror face of bimirror face parallel direction, with the left-right rotation in the electric machine control bimirror face of minute surface vertical direction.

According to a kind of implementation, adjustment angle memory module 16 is connected with the output shaft of motor 11, by angle signal sensor (not shown), the angle signal collected is sent to electric machine controller 30; Electric machine controller 30 carries out Zero calibration by angle signal processing unit (not shown) to angle signal transducer; Electric machine controller 30 is connected with master cock 32, gathers driver actions's signal; Electric machine controller 30 is connected with master controller 31, receives the gear signal of autonomous controller 31 by communication module (such as CAN communication module); Electric machine controller 30 is connected with motor 11, controls motor 11 rotating through calculation process module 27 and motor drive module 28.

In one example in which, see Fig. 2, after the mirror angle adjustment signal that motor 11 receives from master cock 32, by shift fork mobile device 20, the gear in dual gear 19 is engaged with the different openings annular rack 12 on parallel position, open annular tooth bar 12 does circumference around attachment point and moves in circular groove 14, and drives main visor face link span 7 or blind area minute surface link span 8 to do direction rotation up and down.Shift fork mobile device 20 is connected with motor gear 21 with shift fork part 18 and other attaching partss, does crank block motion.Two shift fork mobile devices 20 are connected with a pair motor 11, with the rotation up and down of electric machine control two minute surfaces of minute surface parallel direction, with the left-right rotation of electric machine control two minute surfaces of minute surface vertical direction, when by main visor face 42 by up and down rotate be switched to blind area minute surface about 41 rotate time, so will rotate with the motor of minute surface vertical direction, control shift fork mobile device 20 moves the motor gear 21 changed with minute surface parallel direction motor 11 and engages with different openings annular rack 12, vice versa, realize use a pair motor 11 to control two independent minute surfaces and do and rotate up and down.Adjustment angle memory module 16 is connected with motor output shaft, by angle signal sensor, the angle signal collected is sent to electric machine controller 30, before acquisition angles signal, electric machine controller 30 carries out Zero calibration by angle signal processing unit to angle signal transducer.Electric machine controller 30 is connected with master cock 32, and gather driver actions's signal, when chaufeur carries out setting mirror angle adjustment information, this angle signal will be stored by electric machine controller 30.

In addition, in one example in which, see Fig. 3, master cock 32 is positioned on operator's compartment Left-Hand Panel and is connected with electric machine controller 30 by wire, each button of master cock 32 is connected with electric machine controller 30 by wire, electric machine controller 30, according to the push button signalling of the master cock 32 collected, performs different actions after calculation process.When vehicle is kept in motion, this status signal is sent to electric machine controller 30 by master controller 31, now, electric machine controller 30 will not process the signal receiving master cock 32, to be used for preventing on chaufeur and car occupant under vehicle running state to the maloperation that master cock 32 is carried out.

Although the embodiment according to limited amount describes the utility model, benefit from description above, those skilled in the art understand, in the scope of the present utility model described thus, it is contemplated that other embodiment.In addition, it should be noted that the language used in this specification sheets is mainly in order to object that is readable and instruction is selected, instead of select to explain or limiting theme of the present utility model.Therefore, when not departing from the scope and spirit of appended claims, many modifications and changes are all apparent for those skilled in the art.For scope of the present utility model, be illustrative to disclosing of doing of the utility model, and nonrestrictive, and scope of the present utility model is defined by the appended claims.

Claims (8)

1. one kind regulates outside rear-view mirror automatically for the bimirror face of vehicle, it is characterized in that, described bimirror face regulates outside rear-view mirror to comprise bimirror face automatically, transmission and actuating unit (3), transmission direction switching mechanism (2), master controller (31), adjustment angle memory module (16), electric machine controller (30), outside rear-view mirror shell (1) and attaching parts (4), wherein, described transmission and actuating unit (3) and described transmission direction switching mechanism (2) are arranged between described bimirror face and described outside rear-view mirror shell (1) by described attaching parts (4), described bimirror face, described outside rear-view mirror shell (1), described transmission is all connected with described attaching parts (4) with described transmission direction switching mechanism (2) with actuating unit (3), described bimirror face comprises main visor face (42) and blind area minute surface (41), described adjustment angle memory module (16) connects described electric machine controller (30), described electric machine controller (30) communicates with described master controller (31) and is connected.

2. bimirror face according to claim 1 regulates outside rear-view mirror automatically, it is characterized in that, described electric machine controller (30) comprises signal receiving module (26), calculation process module (27), motor drive module (28) and the communication module (29) for carrying out communication between master controller (31).

3. bimirror face according to claim 1 and 2 regulates outside rear-view mirror automatically, it is characterized in that, described bimirror face regulates outside rear-view mirror also to comprise master cock (32) automatically, and the button of described master cock (32) is connected with described electric machine controller (30);

Described master cock (32) comprises mode selection button group (5) and composite-functional key-press group (6), wherein, described mode selection button group (5) comprises target minute surface and selectes mode key (37), mirror angle adjustment modes button (38), mirror angle memory module button (39) and mirror angle reforestation practices button (40), described composite-functional key-press group (6) comprises composite-functional key-press one (33), composite-functional key-press two (34), composite-functional key-press three (35) and composite-functional key-press four (36).

4. bimirror face according to claim 3 regulates outside rear-view mirror automatically, it is characterized in that,

When pressing described target minute surface and selecting mode key (37), composite-functional key-press one (33) is for selecting button in main visor face, left side, composite-functional key-press two (34) selectes button for blind area, left side minute surface, composite-functional key-press three (35) is for selecting button in main visor face, right side, and composite-functional key-press four (36) selectes button for blind area, right side minute surface;

When pressing mirror angle adjustment modes button (38), composite-functional key-press one (33) is for minute surface turns button, composite-functional key-press two (34) turns button under minute surface, composite-functional key-press three (35) is minute surface left-hand rotation button, and composite-functional key-press four (36) is minute surface right-hand rotation button;

When pressing mirror angle memory module button (39), composite-functional key-press one (33) is main visor face, left side current angular storage button, composite-functional key-press two (34) is blind area, left side minute surface current driving angle storage button, composite-functional key-press one (33) and composite-functional key-press two (34) are pressed the current reversing angle of blind area minute surface on the left of interval scale simultaneously and are stored button, composite-functional key-press three (35) is main visor face, right side current angular storage button, composite-functional key-press four (36) is blind area, right side minute surface current driving angle storage button, composite-functional key-press three (35) and composite-functional key-press four (36) are pressed the current reversing angle of blind area minute surface on the right side of interval scale simultaneously and are stored button,

When pressing mirror angle reforestation practices button (40), composite-functional key-press one (33) is looked mirror angle and is recovered button for left side is main, composite-functional key-press two (34) recovers button for blind area, left side minute surface travels angle, composite-functional key-press one (33) and composite-functional key-press two (34) are pressed blind area minute surface reversing angle on the left of interval scale simultaneously and are recovered button, composite-functional key-press three (35) is looked mirror angle and is recovered button for right side is main, composite-functional key-press four (36) recovers button for blind area, right side minute surface travels angle, composite-functional key-press three (35) and composite-functional key-press four (36) are pressed blind area minute surface reversing angle on the right side of interval scale simultaneously and are recovered button.

5. bimirror face according to claim 1 and 2 regulates outside rear-view mirror automatically, it is characterized in that, in described main visor face (42) and described blind area minute surface (41), each minute surface can regulate separately, the independence that described main visor face (42) drives main visor face link span (7) to realize described main visor face (42) by two open annular tooth bars (12) of vertical distribution is rotated up and down, and the independence that described blind area minute surface (41) drives blind area minute surface link span (8) to realize described blind area minute surface (41) by two open annular tooth bars (12) of described vertical distribution is rotated up and down.

6. bimirror face according to claim 1 and 2 regulates outside rear-view mirror automatically, it is characterized in that,

Described transmission and actuating unit (3) comprise a pair motor (11), motor gear (21), dual gear (19) and open annular tooth bar (12), and in described a pair motor (11), each motor is by each self-corresponding motor gear (21), dual gear (19) and being connected with open annular tooth bar (12);

Described transmission direction switching mechanism (2) comprises shift fork attaching parts (17), shift fork part (18) and a pair shift fork mobile device (20), and each the shift fork mobile device in described a pair shift fork mobile device (20) connects a motor respectively;

Shift fork mobile device (20) connects shift fork part (18), shift fork attaching parts (17) and motor gear (21), does crank block motion; With the rotation up and down in bimirror face described in the electric machine control of described bimirror face parallel direction, with the left-right rotation in bimirror face described in the electric machine control of minute surface vertical direction.

7. bimirror face according to claim 6 regulates outside rear-view mirror automatically, it is characterized in that, described adjustment angle memory module (16) is connected with the output shaft of motor (11); Described electric machine controller (30) is connected with described master cock (32); Described electric machine controller (30) is connected with described master controller (31); Described electric machine controller (30) is connected with described motor (11).

8. bimirror face according to claim 1 and 2 regulates outside rear-view mirror automatically, it is characterized in that, the described traveling angle of main visor face (42), the traveling angle of described blind area minute surface (41) and reversing angle is stored in described adjustment angle memory module (16), wherein:

The traveling angle of described main visor face (42) for ensureing that vehicle is under motoring condition, vehicle body rear and proceeds posterolateral presumptive area visual;

The traveling angle of described blind area minute surface (41) is for ensureing that vehicle is under motoring condition, and predetermined blind area, body side rear is visual; And

The reversing angle of described blind area minute surface (41) for ensureing that vehicle is under state of rolling backward, rear and vehicle rear wheel visual.