CN107310479B - Electric folder with lifting function for automobile outer rearview mirror - Google Patents

Abstract

The invention provides an electric folder with a lifting function for an automobile outer rearview mirror, which aims to solve the technical problem that the driving moment, the vertical anti-shake capability, the working noise and the working life of the traditional electric folder cannot meet the demands of future markets. The invention comprises a folder main body and an upper cover, wherein a pin shaft sequentially penetrates through the upper cover, a spring, a transmission gear, a rotating shaft and the folder main body and then is connected with an internal tooth clamping ring, a copper worm of a motor of a micro motor is meshed with a plastic gear of a worm gear, a metal worm of the worm gear is meshed with the transmission gear, and the lower end of the transmission gear is connected with the upper end of the rotating shaft in a nested manner. The first-stage transmission and the second-stage transmission adopt worm and gear transmission after the technical scheme, the transmission is stable, the transmission noise is low, meanwhile, stable deceleration can be realized, and the stability of products is improved; has the lifting function and can improve the vertical anti-shake capacity.

Description

Electric folder with lifting function for automobile outer rearview mirror

Technical Field

The invention relates to a folder, in particular to an electric folder with a lifting function for an automobile outer rearview mirror.

Background

The outer rearview mirror is used as an external safety device of an automobile and plays an important role in driving safety. But when the automobile is in a wrong driving state through a narrow passage, the automobile outer rearview mirror can influence normal traffic, and the rearview mirror provided with the electric folder can easily realize folding and unfolding of the electric-driven rearview mirror, so that the dilemma is solved, and the automobile rearview mirror technology with the electric folder is rapidly popularized. However, with the increase of the functions of the automobile exterior rearview mirror, the volume and the weight of the automobile exterior rearview mirror tend to be increased, and at the moment, the vertical anti-shake capability, the working noise and the working life of the traditional electric folder cannot meet the requirements of future markets, so that the problem needs to be solved.

Disclosure of Invention

The technical problem to be solved by the invention is that the driving moment, the vertical anti-shake capability, the working noise and the working life of the traditional electric folder can not meet the demands of future markets, and the electric rearview mirror folder with the lifting function is low in cost, compact in structure, low in working noise, strong in anti-shake capability and long in working life.

In order to solve the technical problems, the invention adopts the following technical scheme: an electric folder with a lifting function for an automobile outer rearview mirror comprises a folder main body and an upper cover, wherein a spring, a transmission gear, a rotating shaft, a micro motor and a worm gear are arranged in an inner cavity formed by the folder main body and the upper cover; the pin shaft sequentially passes through the upper cover, the spring, the transmission gear, the rotating shaft and the folder main body and then is connected with the inner tooth clamping ring, the copper worm of the motor of the micro motor is meshed with the plastic gear of the worm gear, the metal worm of the worm gear is meshed with the transmission gear, and the lower end of the transmission gear is connected with the upper end of the rotating shaft in a nested manner.

The upper end face of the transmission gear is also provided with an annular groove IV and two limiting grooves, a metal overload gasket is embedded in each limiting groove, a spring is arranged in the annular groove IV, a gasket is further arranged between the spring and the annular groove IV, and the spring is arranged on the inner side of the metal overload gasket.

The upper surface of the metal overload gasket is an inclined plane with a high left end and a low right end, the left end and the right end of the inclined plane are respectively provided with a vertical surface I and a vertical surface II, the vertical surface I is higher than the vertical surface II, and the two metal overload gaskets are arranged in the same direction.

The inner chamber lower extreme of folder main part is equipped with ring channel II, is equipped with two inclined plane recesses on ring channel II's the bottom surface, and the axis of rotation is installed in ring channel II, and the axis of rotation upper end is equipped with two inclined plane boss III, and inclined plane boss III cooperatees with the inclined plane recess.

The inner cavity of the upper cover is provided with a cavity for abdicating and fixing the micro motor and the circuit board assembly, the upper part of the upper cover is provided with a plurality of symmetrical limiting grooves, the inner cavity wall of each limiting groove is provided with a forced disengaging structure, a spring I and a limiting column are arranged in each limiting groove, and the spring I is arranged above each limiting column; the forced disengaging structure is an annular protruding mechanism, an annular groove III is formed in the outer side wall of the limiting column, and the forced disengaging structure extends into the annular groove III.

The inner cavity of the folder body is provided with a ball groove, an annular groove I and a yielding groove, the rotating shaft is arranged on the automobile outer rearview mirror base plate, worm gear sleeves are arranged at two ends of the shaft of the worm gear, the worm gear sleeve is arranged in the ball groove, and the worm gear is fixedly arranged in the yielding groove of the folder body through the worm gear sleeve.

The bottom surface of the annular groove I is provided with two inclined plane bosses I and two inclined plane bosses II which are respectively and symmetrically arranged; the transmission gear is arranged in the annular groove I, two inclined plane bosses III and IV are respectively arranged on the lower end face of the transmission gear, and the two inclined plane bosses III and the two inclined plane bosses IV are respectively and symmetrically arranged.

The upper end of axis of rotation is equipped with a plurality of boss I and a plurality of boss II, and drive gear's lower extreme is equipped with a plurality of recess I and a plurality of recess II, and boss I and recess I cooperation are nested, and boss II and recess II cooperation are nested.

The plastic gear and the metal worm are of an integral injection molding structure.

The invention adopts worm and gear transmission for primary transmission and secondary transmission, has stable transmission and low transmission noise, can realize stable deceleration and improves the stability of products; the rearview mirror has the advantages that the vertical anti-shake capability in the folding process of the rearview mirror can be improved, the gap between the rearview mirror lens and the base plate is eliminated, the wind whistle is avoided during high-speed driving, and the folding difficulty of the rearview mirror caused by foreign matters such as dust left in the gap is prevented.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic diagram of the front view of the present invention;

FIG. 3 is a top view of FIG. 2;

FIG. 4 is a bottom view of FIG. 2;

FIG. 5 is a side view of FIG. 2;

FIG. 6 is a cross-sectional view A-A of the view of FIG. 2;

FIG. 7 is a B-B cross-sectional view of the view of FIG. 5;

FIG. 8 is an exploded view of the overall structure of the present invention;

FIG. 9 is a schematic view of a partial structure of the present invention;

FIG. 10 is a schematic view of the top cover sub-assembly of the present invention;

FIG. 11 is a schematic view of the present invention showing the cooperation of the folder body, the transmission gear and the rotation shaft;

FIG. 12 is a second schematic view of the present invention, showing the cooperation of the folder body, the transmission gear and the rotation shaft;

FIG. 13 is a schematic view of the structure of a metal overload gasket of the present invention;

FIG. 14 is a schematic view of the structure of the invention mounted on a rearview mirror substrate;

fig. 15 is a schematic view showing the structure of the present invention mounted in a lens holder of a rear view mirror.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 15, an electric folder for an exterior rear view mirror of an automobile with a lifting function comprises a folder body 14 and an upper cover 2, wherein a spring 5, a transmission gear 8, a rotating shaft 15, a micro motor 10 and a worm gear 13 are arranged in an inner cavity formed by the folder body 14 and the upper cover 2; the pin shaft 1 sequentially passes through the upper cover 2, the spring 5, the transmission gear 8, the rotating shaft 15 and the folder main body 14 and then is connected with the internal tooth collar 16, the motor copper worm 11 of the micro motor 10 is meshed with the plastic gear 13.2 of the worm gear 13, the metal worm 13.1 of the worm gear 13 is meshed with the transmission gear 8, and the lower end of the transmission gear 8 is connected with the upper end of the rotating shaft 15 in a nested manner. The folder main body 14 and the upper cover 2 are assembled together to form a gear transmission box body, the gear transmission box body is a core component of the folder, the spring 5 is compressed through the pin shaft 1, the pin shaft 1 is fixed through the internal tooth collar 16, the parts are connected into the folder, a folder main body cavity of the folder main body is arranged in the automobile outside rear view mirror lens bracket 18, the spring is in a compressed state in a normal state, the main function of the compression of the spring is that the folder can bear the weight of a rear view mirror lens, and the folder can keep stable under the gravity action of the lens; the inner cavity formed by the folder main body 14 and the upper cover 2 is also provided with a circuit board assembly 9, the circuit board assembly 9 is electrically connected with the micro motor 10, and the circuit board assembly 9 is a device formed by welding a PCB circuit board and corresponding electronic components. In the working process, the motor copper worm 11 on the micro motor 10 shaft drives the plastic gear 13.2 on the worm gear 13 to rotate, and the plastic gear 13.2 and the metal worm 13.1 are of an integral injection molding structure, so that the plastic gear 13.2 rotates and the metal worm 13.1 drives the transmission gear 8 to rotate. The transmission gear 8 drives the rotation shaft 15 to rotate when rotating. Because the rotating shaft 15 is fixed on the automobile exterior mirror substrate, and the substrate is fixed, the rotating shaft 15 is static relative to the substrate, and the box body formed by the folder main body 14 and the upper cover 2 drives the mirror lens bracket to rotate relatively relative to the rotating shaft 15, namely the folding and unfolding of the mirror are shown.

The upper end face of the transmission gear 8 is further provided with an annular groove IV8.6 and two limiting grooves 8.5, a metal overload gasket 7 is embedded in the limiting grooves 8.5, the spring 5 is arranged in the annular groove IV8.6, a gasket 6 is further arranged between the spring 5 and the annular groove IV8.6, and the spring 5 is arranged on the inner side of the metal overload gasket 7.

The upper surface of the metal overload gasket 7 is an inclined plane 71 with a high left end and a low right end, the left end and the right end of the inclined plane 71 are respectively provided with a vertical plane I72 and a vertical plane II73, the vertical plane I72 is higher than the vertical plane II73, and the two metal overload gaskets 7 are arranged in the same direction. The upper surface of the metal overload gasket 7 can be low at the left end and high at the right end, the two metal overload gaskets 7 are arranged in the same direction, and the pressure of the spring can limit the axial position deviation of the 2 metal overload gaskets 7.

In the normal working process, the metal overload gasket 7 rotates along with the rotation of the transmission gear 8, the limiting column is fixed, when the transmission gear 8 rotates clockwise to a certain angle, the right side of the inclined surface 71 of the metal overload gasket 7 contacts the limiting column, and because the vertical surface II73 is lower, the right side of the metal overload gasket 7 stretches into the lower side of the limiting column 4 and pushes the limiting column 4 to move vertically upwards along with the rightward movement of the metal overload gasket 7, and at the moment, the transmission gear 8 can rotate clockwise all the time. When the transmission gear 8 rotates anticlockwise to a certain angle, the vertical surface I72 on the left side of the limiting column contacts the limiting column, and because the vertical surface I72 is higher, the metal overload gasket 7 cannot extend into the lower surface of the limiting column 4 and push the limiting column to move vertically upwards, namely the limiting column clamps the metal overload gasket 7 to limit the transmission gear to rotate continuously, so that the transmission gear 8 rotates anticlockwise by 180 degrees at most. Therefore, the transmission gear 8 has the characteristic of unidirectional circular rotation and 180 degrees of rotation in the other direction, namely cut-off, and is quite reliable. The folding angle of the rearview mirror can be increased by rotating the rearview mirror in the other direction by 180 degrees, namely, the folding angle of the rearview mirror is larger, and the passing performance of an automobile is better.

The inner chamber lower extreme of folder main part 14 is equipped with ring channel II14.7, is equipped with two inclined plane recesses 14.8 on the bottom surface of ring channel II14.7, and axis of rotation 15 installs in ring channel II14.7, and axis of rotation 15 upper end is equipped with two inclined plane boss III15.3, and inclined plane boss III15.3 cooperatees with inclined plane recess 14.8. When the rotating shaft 15 rotates to a certain angle, the two inclined surface bosses III15.3 on the rotating shaft 15 can slide into the two inclined surface grooves 14.8 on the bottom surface of the annular groove II14.7 of the folder body completely. The rotating shaft 15 is fixed on the rearview mirror base plate 17 and is relatively static, when the folder is normally started to fold, the transmission gear 8 is driven by the worm gear 13 to drive the rotating shaft 15 to rotate, at the moment, 2 inclined plane bosses III15.3 on the rotating shaft 15 slide out of 2 inclined plane grooves 14.8 of the folder main body 14, the folder main body vertically lifts up to a certain height relative to the rotating shaft 15, namely the folder main body 14 has the function of driving the rearview mirror lens bracket 18 to vertically lift up, and meanwhile, the electric folder on the market generally does not have the lifting function, so that a certain gap is reserved between the rearview mirror lens and the base plate, the gap can cause whistle generation during high-speed driving, meanwhile, dust and other foreign matters remain for a long time, the folding difficulty of the rearview mirror is caused, and therefore, the folder with the lifting function can eliminate the gap between the rearview mirror lens and the base plate and avoid similar problems; when the folder is unfolded, the transmission gear 8 is driven by the gear train to reversely rotate, and drives the rotating shaft 15 to reversely rotate, so that 2 inclined plane bosses III15.3 on the transmission shaft 15 slide into 2 inclined plane grooves 14.7 of the main body 14 again, and the main body vertically drops relative to the rotating shaft to recover to an initial state. The lifting function of the folder can also improve the vertical anti-shake capacity of the rearview mirror in the folding process, and the compression amount of the spring can be increased when the folder is lifted, so that the folding mirror can bear larger lens weight.

The inner cavity of the upper cover 2 is provided with a cavity 2.5 for yielding and fixing the micro motor 10 and the circuit board assembly 9, the upper part of the upper cover 2 is provided with 2 limit grooves 2.1 which are symmetrical at 180 degrees, the inner cavity wall of the limit groove 2.1 is provided with a forced disengaging structure 2.2, the limit groove 2.1 is internally provided with a spring I3 and a limit column 4, and the spring I3 is arranged above the limit column 4; the forced disengaging structure 2.2 is an annular protruding mechanism, an annular groove III4.1 is arranged on the outer side wall of the limiting column 4, and the forced disengaging structure 2.2 extends into the annular groove III 4.1. During installation, the spring I3 is firstly placed in the limit groove 2.1 of the upper cover 2, then the limit column 4 is placed, and the matching length of the forced disengaging structure 2.2 of the limit groove and the limit column annular groove III4.1 is the vertical displacement length of the limit column. The forced disengaging structure 2.2 is matched with the annular groove III4.1, and when the limit column 4 bounces up and down, the forced disengaging structure 2.2 plays a limiting role on the limit column 4 in the annular groove III4.1, so that the limit column is prevented from falling out of the limit groove 2.1. The elasticity of the spring I3 can realize that the limit post can be sprung up vertically under the action of external force: the limiting column can vertically move up and down under the acting force of the spring, so that the metal overload gasket is matched with the metal overload gasket, and the limiting column is gradually pushed to shrink when the inclined plane at one end of the metal overload gasket is contacted with the limiting column in the clockwise rotation process of the transmission gear, and can stretch out under the acting force of the spring when the metal overload gasket passes through the metal overload gasket. When the transmission gear rotates clockwise, the vertical surface I72 of the metal overload gasket rotates to be in contact with the limit post, and the transmission gear is cut off. Therefore, the unidirectional circulation work of the folder is realized, and the other direction is cut off by 180 degrees.

The inner cavity of the folder main body 14 is provided with a ball groove 14.5, an annular groove I14.1 and a yielding groove 14.4, the rotating shaft 15 is arranged on an automobile outer rearview mirror substrate 17, worm gear sleeves 12 are arranged at two ends of the shaft of the worm gear 13, the worm gear sleeves 12 are arranged in the ball groove 14.5, and the worm gear 13 is fixedly arranged in the yielding groove 14.4 of the folder main body 14 through the worm gear sleeves 12. The worm gear cover 12 reduces abrasion between the worm gear 13 and the folder main body 14, prolongs the transmission life of the worm gear 13, and plays a role in reducing noise.

The bottom surface of the annular groove I14.1 is provided with two inclined-plane bosses I14.2 and two inclined-plane bosses II 14.3, and the two inclined-plane bosses I14.2 and the two inclined-plane bosses II 14.3 are respectively and symmetrically arranged; the transmission gear 8 is arranged in the annular groove I14.1, two inclined-plane bosses III8.1 and IV8.2 are respectively arranged on the lower end face of the transmission gear 8, and the two inclined-plane bosses III8.1 and IV8.2 are respectively and symmetrically arranged. The two inclined plane bosses I14.2, the two inclined plane bosses II 14.3, the two inclined plane bosses III8.1 and the two inclined plane bosses IV8.2 are uniformly distributed into 180-degree symmetrical structures. The inner cavity of the folder body 14 is also provided with a supporting surface 14.6 of the micro-motor 10. When the transmission gear rotates to the contact of the inclined boss III8.1 and the inclined boss I14.2, the inclined boss IV8.2 is also contacted with the boss II 14.3, and at the moment, the inclined boss III15.3 driven by the transmission gear rotates into the inclined groove 14.8. When the transmission gear rotates to the inclined boss III8.1 to slide down from the inclined boss I14.2, the inclined boss IV8.2 also slides down from the boss II 14.3, at the moment, the inclined boss III15.3 of the rotating shaft driven by the transmission gear slides out from the inclined groove 14.8, at the moment, a certain gap is generated between the rotating shaft 15 and the folder main body 14, the rotating shaft 15 is fixed on the rearview mirror base plate 17, and the rotating shaft 15 is static relative to the rearview mirror base plate 17, so that a cavity formed by the main body 14 and the upper cover 2 is lifted up relative to the rotating shaft, and the function of lifting the folder is realized.

The upper end of the rotating shaft 15 is provided with a plurality of bosses I15.1 and 2 bosses II15.2, the lower end of the transmission gear 8 is provided with a plurality of grooves I8.4 and 2 grooves II8.3, the bosses I15.1 and the grooves I8.4 are matched and nested, and the bosses II15.2 and the grooves II8.3 are matched and nested. The number of the bosses I15.1 and the grooves I8.4 is 8 respectively.

Claims (3)

1. An electric folder with lifting function for an automobile outer rearview mirror, which is characterized in that: the folding device comprises a folding device main body (14) and an upper cover (2), wherein a spring (5), a transmission gear (8), a rotating shaft (15), a micro motor (10) and a worm gear (13) are arranged in an inner cavity formed by the folding device main body (14) and the upper cover (2); the pin shaft (1) sequentially passes through the upper cover (2), the spring (5), the transmission gear (8), the rotating shaft (15) and the folder main body (14) and then is connected with the internal tooth collar (16), a motor copper worm (11) of the micro motor (10) is meshed with a plastic gear (13.2) of the worm gear (13), a metal worm (13.1) of the worm gear (13) is meshed with the transmission gear (8), and the lower end of the transmission gear (8) is connected with the upper end of the rotating shaft (15) in a nested manner;

the upper end face of the transmission gear (8) is also provided with an annular groove IV (8.6) and two limiting grooves (8.5), a metal overload gasket (7) is embedded in the limiting grooves (8.5), a spring (5) is arranged in the annular groove IV (8.6), a gasket (6) is further arranged between the spring (5) and the annular groove IV (8.6), and the spring (5) is arranged at the inner side of the metal overload gasket (7);

the upper surface of the metal overload gasket (7) is an inclined surface (71) with a high left end and a low right end, the left end and the right end of the inclined surface (71) are respectively provided with a vertical surface I (72) and a vertical surface II (73), the vertical surface I (72) is higher than the vertical surface II (73), and the two metal overload gaskets (7) are arranged in the same direction;

an annular groove II (14.7) is formed in the lower end of an inner cavity of the folder main body (14), two inclined surface grooves (14.8) are formed in the bottom surface of the annular groove II (14.7), a rotating shaft (15) is installed in the annular groove II (14.7), two inclined surface bosses III (15.3) are formed in the upper end of the rotating shaft (15), and the inclined surface bosses III (15.3) are matched with the inclined surface grooves (14.8);

the inner cavity of the upper cover (2) is provided with a cavity (2.5) for letting down and fixing the micro motor (10) and the circuit board assembly (9), the upper part of the upper cover (2) is provided with 2 limit grooves (2.1) which are symmetrical at 180 degrees, the inner cavity wall of each limit groove (2.1) is provided with a forced disengaging structure (2.2), the limit grooves (2.1) are internally provided with a spring I (3) and a limit column (4), and the spring I (3) is arranged above the limit column (4); the forced disengaging structure (2.2) is an annular protruding mechanism, an annular groove III (4.1) is arranged on the outer side wall of the limiting column (4), and the forced disengaging structure (2.2) extends into the annular groove III (4.1);

the inner cavity of the folder main body (14) is provided with a ball groove (14.5), an annular groove I (14.1) and a yielding groove (14.4), the rotating shaft (15) is arranged on an automobile outer rearview mirror substrate (17), worm gear sleeves (12) are arranged at two ends of the shaft of the worm gear (13), the worm gear sleeves (12) are arranged in the ball groove (14.5), and the worm gear (13) is fixedly arranged in the yielding groove (14.4) of the folder main body (14) through the worm gear sleeves (12);

the bottom surface of the annular groove I (14.1) is provided with two inclined-plane bosses I (14.2) and two inclined-plane bosses II (14.3), and the two inclined-plane bosses I (14.2) and the two inclined-plane bosses II (14.3) are respectively and symmetrically arranged; the transmission gear (8) is arranged in the annular groove I (14.1), two inclined-plane bosses III (8.1) and two inclined-plane bosses IV (8.2) are respectively arranged on the lower end face of the transmission gear (8), and the two inclined-plane bosses III (8.1) and the two inclined-plane bosses IV (8.2) are respectively and symmetrically arranged.

2. The motor-driven folder for an exterior rear view mirror of an automobile having a lifting function according to claim 1, wherein: the upper end of axis of rotation (15) is equipped with a plurality of boss I (15.1) and 2 boss II (15.2), and the lower extreme of drive gear (8) is equipped with a plurality of recess I (8.4) and 2 recess II (8.3), and boss I (15.1) and recess I (8.4) cooperation are nested, and boss II (15.2) and recess II (8.3) cooperation are nested.

3. The motor-driven folder for an exterior rear view mirror of an automobile having a lifting function according to claim 1, wherein: the plastic gear (13.2) and the metal worm (13.1) are of an integral injection molding structure.