CN107355513A - Drive mechanism and backsight mirror driver - Google Patents

Abstract

The invention provides a kind of drive mechanism, includes motor, rack, clutch and arc-shaped rack；Clutch pack contains the second worm gear and adjustment gear；Adjustment gear engages with arc-shaped rack；Rack includes the second worm screw；Second worm screw forms the second Worm Wheel System component with the second worm gear；Motor-driven gear bar, clutch, arc-shaped rack move successively.Present invention also offers a kind of backsight mirror driver, includes support and above-mentioned drive mechanism；The drive mechanism is rack-mount.Backsight mirror driver provided by the invention is convenient, fast when assembling and disassembling, and massive eyeglass can be driven with the backsight mirror driver compared with small dimension.

Description

Drive mechanism and backsight mirror driver

Technical field

The present invention relates to the technical field of auto parts machinery, in particular it relates to a kind of drive mechanism and backsight mirror driver.

Background technology

Patent document CN201580312U discloses a kind of automobile rear view mirror driver, including base, is located at base Interior two motors, two travelling gears, two be in semiorbicular rack, be equipped with the inner surface of each rack with The tooth that travelling gear is meshed, the bottom of each rack are equipped with guide rail, circumference of described two racks in same circle On, the diameter parallel of the central axis of the hypothesis circle of described two racks and the output shaft of two motors, each driving cog The axis of the axis of wheel and the output shaft of corresponding motor on the same line, the base be provided with is available for corresponding to guide rail slide Two deep-slotted chip breakers coordinated.According to the patent document readme, automobile rear view mirror driver rack installation is simple, efficiency of assembling Height, change conveniently and other parts will not be damaged.But during the patent document use, when rearview mirror reaches end of travel When, the moment of torsion of motor increases and gear may be damaged.

To solve the above problems, added in the automobile rear view mirror driver that patent document CN102320263B is provided Slipping device, when the moment of torsion of motor reaches maximum, slipping device inner body can be skidded and energy is consumed, and effectively be protected Protect the drive mechanism of automobile rear view mirror driver.But slipping device uses bevel friction, inclined-plane knot in the patent document Product is yielding when structure causes to be molded because the wall unevenness of part is even, and the strength being finally applied on rearview mirror is either large or small； And the arrangement in the patent document between all parts is not simple clear enough, assembly difficulty is larger.

The content of the invention

For in the prior art the defects of, it is an object of the invention to provide a kind of drive mechanism and backsight mirror driver.

According to drive mechanism provided by the invention, motor, rack, clutch and arc-shaped rack are included；

Clutch pack contains the second worm gear and adjustment gear；Adjustment gear engages with arc-shaped rack；

Rack includes the second worm screw；Second worm screw forms the second Worm Wheel System component with the second worm gear；

Motor-driven gear bar, clutch, arc-shaped rack move successively.

Preferably, the rack also includes the first worm gear；First worm gear is fixedly and coaxially connected with the second worm screw；

Motor output shaft forms the first worm screw；First worm screw forms the first Worm Wheel System component with the first worm gear.

Preferably, the first Worm Wheel System component and/or the second Worm Wheel System component have auto-lock function.

Preferably, cambered surface is provided with the flute profile engaged with adjustment gear on the inside of the arc-shaped rack；

Stopping means is provided with the outside of arc-shaped rack in cambered surface.

Preferably, the clutch also includes rotary shaft and hold-down mechanism；

The first groove, the second groove and centre bore are provided with second worm gear, the first groove, the second groove pass through Centre bore connects；

Neck is provided with rotary shaft；The both ends of hold-down mechanism are separately mounted in the first groove, neck；

The second worm gear, hold-down mechanism are sequentially passed through along near-end to distal direction, rotary shaft；

Rotary shaft near-end is provided with axial limiting ring；Axial limiting ring is arranged in the second groove；

The distal face of axial limiting ring, the groove bottom of the second groove respectively constitute driven rubbing surface, active friction face；

Adjustment gear is arranged on the distal end of rotary shaft.

Preferably, the hold-down mechanism includes fixture, elastic component and wear plate；

The both ends of elastic component are connected with fixture, wear plate respectively；

In the neck of fixture engaging on the rotating shaft；

Wear plate is arranged in the first groove of the second worm gear.

Preferably, rotary shaft is circumferentially arranged multiple locating pieces；

The neck is located on the proximal end face of locating piece；Circumferentially axially directed groove is formed between two locating pieces；

Fixture includes loop configuration, and multiple annular lugs are provided with the inner ring surface of loop configuration；

From locating piece, distally guide groove reaches the near-end of locating piece proximal end face to annular lug vertically, and circumferential along fixture Rotation is snapped onto in neck；

When annular lug is located in neck, elastic component is in compressive state.

Present invention also offers a kind of backsight mirror driver, includes support and above-mentioned drive mechanism；

The drive mechanism is rack-mount.

Preferably, guide groove is provided with support；

Arc-shaped rack can be along guide groove movement.

Preferably, the drive mechanism forms the first drive mechanism and the second drive mechanism；

First drive mechanism and the second drive mechanism are symmetrical on support；

Angle be present in the first worm screw of the first drive mechanism and the first worm screw parallel arrangement of the second drive mechanism.

Compared with prior art, the present invention has following beneficial effect：

1st, it is convenient, fast when backsight mirror driver provided by the invention is assembled and disassembled, driven with the rearview mirror compared with small dimension Dynamic device can drive massive eyeglass；

2nd, drive mechanism ranking provided by the invention is simple, clear, reduces assembling degree of difficulty, raising group in an assembling process Fill efficiency；

3rd, clutch device structure uses spring assembly, makes the strength of clutch more stable；Clutch package assembly is simpler It is easy to disassemble or reprocesses, reduces part and waste；The slipping device of clutch uses planar friction, and part can avoid in shaping Because part deformation causes strength wild effect；

4th, stopping means and guide groove are designed with the extrados of arc-shaped rack, prevent arc-shaped rack from off normal occur in motion Phenomenon, make rack more stable when moving up and down.

Brief description of the drawings

The detailed description made by reading with reference to the following drawings to non-limiting example, further feature of the invention, Objects and advantages will become more apparent upon：

Fig. 1 is backsight mirror driver stereogram provided by the invention；

Fig. 2 is drive mechanism stereogram provided by the invention；

Fig. 3 is drive mechanism upward view；

Fig. 4 is clutch exploded perspective view；

Fig. 5 is clutch sectional structure chart.

Shown in figure：

The axially directed groove 312 of motor 1

The adjustment gear 313 of first worm screw 11

The fixture 32 of rack 2

The annular lug 320 of first worm gear 21

The elastic component 33 of second worm screw 22

The wear plate 34 of clutch 3

The worm gear 35 of rotary shaft 31 second

The groove 3501 of locating piece 310 first

The groove 3502 of neck 3,100 second

The centre bore 3503 of first trough wall surface 3101

The active friction face 3510 of second trough wall surface 3102

The arc-shaped rack 4 of arc extended surface 3103

The stopping means 41 of spacing ring 311

The driven support 5 of rubbing surface 3110

Embodiment

With reference to specific embodiment, the present invention is described in detail.Following examples will be helpful to the technology of this area Personnel further understand the present invention, but the invention is not limited in any way.It should be pointed out that the ordinary skill to this area For personnel, without departing from the inventive concept of the premise, various modifications and improvements can be made.These belong to the present invention Protection domain.

As shown in figure 1, in embodiment, backsight mirror driver provided by the invention includes support 5 and drive mechanism, wherein, As shown in Figure 2 and Figure 3, transmission mechanism includes motor 1, rack 2, clutch 3 and arc-shaped rack 4.The output shaft shape of motor 1 Into the first worm screw 11；Rack 2 includes the first worm gear 21 and the second worm screw 22, and the first worm gear 21 and the second worm screw 22 are coaxially solid Fixed connection；Clutch 3 includes the second worm gear 35 and adjustment gear 313.First worm screw 11 and the first worm gear 21 form the first worm gear 21 worm-drive components, the second worm screw 22 and the second worm gear 35 composition worm-drive component of the second worm gear 35, the snail of the first worm gear 21 Bar transmission component and the worm-drive component of the second worm gear 35 are respectively provided with auto-lock function.The inner side cambered surface of arc-shaped rack 4 is provided with and adjusted The flute profile that gear 313 engages is saved, adjustment gear 313 engages with the intrados of arc-shaped rack 4.Under the driving of motor 1, rack 2nd, clutch 3, arc-shaped rack 4 move successively.In preference, the worm-drive component of the first worm gear 21 or the second worm gear can also be 35 worm-drive components have auto-lock function, but overall structure can be caused not compact enough, easily loosen.Preferably, motor 1 Output shaft can also form the gear structure such as spur gear, angular wheel, the flute profile that matching is provided with rack 2 will be dynamic Power is delivered on clutch 3.

As shown in Figure 4, Figure 5, clutch 3 includes rotary shaft 31, the second worm gear 35 and hold-down mechanism, along near-end to distally Direction, rotary shaft 31 sequentially pass through the second worm gear 35, hold-down mechanism.Wherein, hold-down mechanism contains fixture 32, elastic component 33 And wear plate 34, the both ends of elastic component 33 are connected with fixture 32, wear plate 34 respectively.First is provided with second worm gear 35 Groove 3501, the second groove 3502 and centre bore 3503, the first groove 3501, the second groove 3502 are separately positioned on the second snail The distal face of wheel 35, on proximal end face, the first groove 3501 is connected with the second groove 3502 by centre bore 3503.In rotary shaft 31 Neck 3100 is provided with, the both ends of hold-down mechanism are separately mounted in the first groove 3501, neck 3100, wherein, fixture 32 It is fastened in the neck 3100 in rotary shaft 31；Wear plate 34 is arranged in the first groove 3501 of the second worm gear 35.Rotary shaft 31 near-ends are provided with axial limiting ring 311, and the diameter of axial limiting ring 311 is more than the diameter of centre bore 3503, to prevent axial limiting Ring 311 is distally deviate from out of second groove 3502.The bottom land of the distal face of axial limiting ring 311 and the second groove 3502 Face contacts；The distal face of axial limiting ring 311, the groove bottom of the second groove 3502 respectively constitute driven rubbing surface 3110, active Rubbing surface 3510.Two through holes are circumferentially evenly arranged with spacing ring 311, as heat emission hole, are improved to producing heat in friction The radiating efficiency of amount.Adjustment gear 313 is provided with the distal end of rotary shaft 31, for driving arc-shaped rack 4.In preference, the The second groove 3502 can be not provided with two worm gears 35, the distal face of axial limiting ring 311 is directly fitted in the second worm gear 35 On proximal end face, friction pair is formed, reduces the difficulty of processing of gear, but the structure can cause axial limiting ring 311 easily in footpath Shaken on to direction, and axial limiting ring 311 is protruding to outside the second worm gear 35, structure is not compact enough, increase from The size of clutch 3.Through hole can be not provided with spacing ring 311, one, three or more through holes can also be set, but not set Put or a through hole is only set, radiating efficiency is not high；Too many through hole is set then to cause the intensity of structure to decline, and friction pair In be easier enter dust, influence performance.

Rotary shaft 31 is circumferentially arranged multiple locating pieces 310；The neck 3100 is located at the proximal end face of locating piece 310 On, axially directed groove 312 is circumferentially formed between two locating pieces 310, neck 3100 includes the first trough wall surface 3101, the second groove Wall 3102, the length of the first trough wall surface 3101 are more than the length of the second trough wall surface 3102, and the near-end of the first trough wall surface 3101 is provided with arc Shape extended surface 3103, arc extended surface 3103 extend towards the place side of the second trough wall surface 3102；Fixture 32 includes loop configuration, Multiple annular lugs 320 are provided with the inner ring surface of loop configuration.Annular lug 320 is oriented to vertically from the distal end of locating piece 310 Groove 312 reaches the near-end of the proximal end face of locating piece 310, and arc extended surface 3103 forms the near-end of annular lug 320 axially movable Confined planes, then circumferentially rotatable fixture 32, from the place end of the second trough wall surface 3102, rotation is caught in neck to annular lug 320 In 3100, now, when annular lug 320 is located in neck 3100, elastic component 33 is in compressive state, and bounce acts on wear-resisting Piece 34, and the second worm gear 35 is pressed on axial limiting ring 311, increase rubbing between the second worm gear 35 and axial limiting ring 311 Power is wiped, clutch 3 is completed and is driven.In embodiment, the elastic component 33 is spring, and spring housing is in rotary shaft 31.In preference, The elastic construction of such as flexure strip is can also be, but not as good as spring on steering capability.In addition, being directed to neck 3100, also may be used To be only the groove that a cell wall equal length is opened on the proximal end face of locating piece 310, but compared to the structure in embodiment, a side Face can not judge whether fixture 32 reaches rigging position vertically, on the other hand, also not by touching arc extended surface 3103 Can be by touching the first longer trough wall surface 3101, to judge whether fixture 32 is circumferentially rotated in place.It is real after the completion of assembling Apply the structure described in example, moreover it is possible to which the limited annular lug 320 prevented on fixture 32 is deviate from from neck 3100.

As shown in figure 3, it is provided with stopping means 41 in the outside cambered surface of arc-shaped rack 4.Stopping means 41 can prevent arc There is off normal phenomenon in motion in rack 4, ensures that arc-shaped rack 4 keeps engaging with adjustment gear 313.It is additionally provided with support 5 Guide groove, arc-shaped rack 4 is along guide groove movement.In embodiment, stopping means 41 is located in guide groove, the groove bottom shape of guide groove with it is spacing The extrados of device 41 matches.

As shown in figure 1, in embodiment, the drive mechanism of backsight mirror driver forms the first drive mechanism and the second transmission is tied Structure；First drive mechanism and the second drive mechanism are symmetrical on support 5.First worm screw 11 of the first drive mechanism and First worm screw 11 of two drive mechanisms is arranged in parallel.In preference, the first worm screw 11 of the first drive mechanism and the second transmission are tied It can also be what is arranged at an angle between first worm screw 11 of structure, such as 45 degree, 90 degree etc., the meaning of the design is, It can more neatly arrange drive mechanism in support 5, effective utilization space, adapt to the peaces of different size backsight mirror drivers Dress demand.

The specific embodiment of the present invention is described above.It is to be appreciated that the invention is not limited in above-mentioned Particular implementation, those skilled in the art can make various deformations or amendments within the scope of the claims, this not shadow Ring the substantive content of the present invention.In the case where not conflicting, the feature in embodiments herein and embodiment can any phase Mutually combination.

Claims (10)

1. a kind of drive mechanism, it is characterised in that include motor, rack, clutch and arc-shaped rack；

Clutch pack contains the second worm gear and adjustment gear；Adjustment gear engages with arc-shaped rack；

Rack includes the second worm screw；Second worm screw forms the second Worm Wheel System component with the second worm gear；

Motor-driven gear bar, clutch, arc-shaped rack move successively.

2. drive mechanism according to claim 1, it is characterised in that the rack also includes the first worm gear；First snail Wheel is fixedly and coaxially connected with the second worm screw；

Motor output shaft forms the first worm screw；First worm screw forms the first Worm Wheel System component with the first worm gear.

3. drive mechanism according to claim 2, it is characterised in that the first Worm Wheel System component and/or the second snail Worm and gear transmission component has auto-lock function.

4. drive mechanism according to claim 1, it is characterised in that cambered surface is provided with and adjusted on the inside of the arc-shaped rack The flute profile of gear engagement；

Stopping means is provided with the outside of arc-shaped rack in cambered surface.

5. drive mechanism according to claim 1, it is characterised in that the clutch also includes rotary shaft and compacting machine Structure；

The first groove, the second groove and centre bore are provided with second worm gear, the first groove, the second groove pass through center Hole connects；

Neck is provided with rotary shaft；The both ends of hold-down mechanism are separately mounted in the first groove, neck；

The second worm gear, hold-down mechanism are sequentially passed through along near-end to distal direction, rotary shaft；

Rotary shaft near-end is provided with axial limiting ring；Axial limiting ring is arranged in the second groove；

The distal face of axial limiting ring, the groove bottom of the second groove respectively constitute driven rubbing surface, active friction face；

Adjustment gear is arranged on the distal end of rotary shaft.

6. drive mechanism according to claim 5, it is characterised in that the hold-down mechanism include fixture, elastic component with And wear plate；

The both ends of elastic component are connected with fixture, wear plate respectively；

In the neck of fixture engaging on the rotating shaft；

Wear plate is arranged in the first groove of the second worm gear.

7. drive mechanism according to claim 6, it is characterised in that rotary shaft is circumferentially arranged multiple locating pieces；

The neck is located on the proximal end face of locating piece；Circumferentially axially directed groove is formed between two locating pieces；

Fixture includes loop configuration, and multiple annular lugs are provided with the inner ring surface of loop configuration；

From locating piece distal end, guide groove reaches the near-end of locating piece proximal end face to annular lug vertically, and is rotated in a circumferential direction along fixture Snap onto in neck；

When annular lug is located in neck, elastic component is in compressive state.

8. a kind of backsight mirror driver, it is characterised in that include the transmission any one of support and claim 1 to 7 Structure；

The drive mechanism is rack-mount.

9. backsight mirror driver according to claim 8, it is characterised in that guide groove is provided with support；

Arc-shaped rack can be along guide groove movement.

10. backsight mirror driver according to claim 9, it is characterised in that the drive mechanism forms the first transmission knot Structure and the second drive mechanism；

First drive mechanism and the second drive mechanism are symmetrical on support；

Angle be present in the first worm screw of the first drive mechanism and the first worm screw parallel arrangement of the second drive mechanism.