CN116025868A - Automobile atmosphere lamp - Google Patents

Abstract

The invention provides an automobile atmosphere lamp, and belongs to the technical field of atmosphere lamps. An automobile atmosphere lamp comprises a shell, a mounting plate, a plurality of first lamps, a plurality of second lamps and a driving device; the mounting plate is fixed in the shell, a plurality of sliding holes are formed in the mounting plate, and the sliding holes are circumferentially arrayed on the mounting plate; the first lamps are arranged at the sliding holes in a sliding manner and can move along a first direction, and the first lamps are connected with the mounting plate through first springs; the first lamps and the second lamps are arranged on the mounting plate in a circumferential array manner, and are staggered; the driving device is arranged in the shell and is positioned below the mounting plate; the driving means is capable of changing the position of at least part of the first luminaire. The invention has the characteristic of realizing dynamic lamplight display.

Description

Automobile atmosphere lamp

Technical Field

The invention belongs to the technical field of atmosphere lamps, and particularly relates to an automobile atmosphere lamp.

Background

In the prior art, an atmosphere lamp on an automobile plays a very important display role, the technology sense in the automobile is displayed through the atmosphere lamp, the atmosphere lamp is used for baking the atmosphere in the automobile, sensory stimulation is enhanced, automobile driving experience is improved, the grade of the whole automobile is improved, and the atmosphere lamp installed in the automobile generally comprises three types, namely, a first type, a light component with a color and a second type, and the light component with the color can be changed according to the requirement; third, a streamer lighting device. However, these three atmosphere lamps all belong to the control to the lamp pearl, and the lamp pearl itself is static motionless, and most motorcycle types all adopt these three kinds of structures, lead to visual fatigue, can't provide the comparatively novel experience sense of customer.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides an automobile atmosphere lamp which has the characteristics of being capable of changing the height difference of lamp beads and realizing dynamic lamplight display.

The aim of the invention can be achieved by the following technical scheme:

an automobile atmosphere lamp is characterized by comprising a shell, a mounting plate, a plurality of first lamps, a plurality of second lamps and a driving device; the mounting plate is fixed in the shell, a plurality of sliding holes are formed in the mounting plate, and the sliding holes are circumferentially arrayed on the mounting plate; the first lamps are arranged at the sliding holes in a sliding mode and can move along a first direction, and the first lamps are connected with the mounting plate through first springs; the second lamps are fixed on the mounting plate, are circumferentially arrayed on the mounting plate, and are staggered; the driving device is arranged in the shell and is positioned below the mounting plate; the driving device can change the position of at least part of the first lamp.

In the above-mentioned automobile atmosphere lamp, the casing internal fixation has the backup pad, the lower extreme of first lamps and lanterns can support and lean on the backup pad, first spring provides the power that is used for keeping first lamps and lanterns are towards the backup pad removes.

In the automobile atmosphere lamp, the driving device comprises a first driving motor, a rotating column, at least one control component and a first driving block, wherein the control component and the first driving block are arranged on the rotating column, and an output shaft of the first driving motor is connected with the rotating column and rotates with the rotating column; the control assembly comprises a belt pulley assembly and a plurality of moving plates, wherein the belt pulley assembly comprises two rotating shafts and a belt arranged on the rotating shafts; the rotating shaft is rotationally connected to the peripheral wall of the rotating column, the plurality of moving plates are fixed on the belt and are arranged at equal intervals, at least one first magnet is fixed on each moving plate, a second magnet is fixed on the lower part of each first lamp, and the first magnets and the second magnets can repel each other; when the first magnet corresponds to the second magnet, the first lamp can move towards the direction away from the second magnet; a first gear is fixed at one end part of the rotating shaft; the first driving block is arranged on the side wall of the shell in a sliding manner and can move along a first direction, a first rack is arranged at the upper end of the first driving block, the first driving block is connected with the shell through a second spring, and the first rack can be meshed with the first gear; the control assembly further includes a drive structure for enabling rotation of the first gear.

In the automobile atmosphere lamp, a second driving block is slidably arranged on the shell, a second rack is arranged at the upper end of the second driving block, the length of the second rack is one half of that of the first rack, the second driving block is connected with the shell through a pressure spring, and the second rack can be meshed with the first gear.

In the above automobile atmosphere lamp, the driving structure further comprises a second driving motor and a driving piece, wherein the second driving motor is fixed in the shell, an output shaft of the second driving motor is in transmission connection with the driving piece and is used for driving the driving piece to rotate, and a protruding part protruding from the surface of the driving piece is arranged on the driving piece; when the lower end of the first driving block is abutted against the protruding part, the corresponding first rack can be meshed with the first gear; or when the lower end of the second driving block abuts against the protruding part, the corresponding second rack can be meshed with the first gear.

In the above-mentioned automobile atmosphere lamp, the one end of bulge is equipped with first guiding portion, the lower extreme of first drive piece is equipped with the second guiding portion, the both ends of second drive piece are equipped with the third guiding portion, first guiding portion can with the second guiding portion supports and leans on.

In the automobile atmosphere lamp, two slide ways are arranged in the shell, and the first driving block and the second driving block are respectively arranged at the two slide ways in a sliding mode.

In the automobile atmosphere lamp, the driving piece is annular, the driving piece is rotatably arranged on the shell, the inner ring of the driving piece is provided with a toothed ring structure, a second gear is fixed on the output shaft of the second driving motor, and the second gear is meshed with the toothed ring structure.

In the automobile atmosphere lamp, the fixed ring is fixed on the rotating column, and a plane thrust bearing is arranged between the fixed ring and the shell.

Compared with the prior art, the invention has the following advantages:

in this application, through drive arrangement change the position of first lamps and lanterns, at first lamps and lanterns removal in-process, first spring atress warp, when drive arrangement is to the drive of relieving first lamps and lanterns, then can reset first lamps and lanterns through first spring. In the use, the light and shade of cooperation first lamps and lanterns, second lamps and lanterns change to and the dynamic change of first lamps and lanterns, thereby give the customer have higher experience sense and technological sense, compare with traditional lamp that can not move about, more outstanding in visual effect.

Drawings

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

FIG. 2 is a schematic cross-sectional view of A-A of FIG. 1;

FIG. 3 is a schematic cross-sectional view of the present invention in another position;

FIG. 4 is a schematic diagram of the present invention after the first magnet corresponds to the second magnet;

FIG. 5 is a schematic view of the first lamp of the present invention with portions removed from the mounting plate;

FIG. 6 is a schematic view of a partial housing of the present invention;

FIG. 7 is another schematic view of a partial housing of the present invention;

FIG. 8 is a schematic view of a driving member according to the present invention;

FIG. 9 is a schematic illustration of a pulley assembly of the present invention;

fig. 10 is a schematic view of the first lamp aligned between two moving plates in the present invention.

In the drawing the view of the figure,

2. a housing; 21. a support plate;

3. a mounting plate; 31. a slide hole;

4. a first lamp; 41. a second magnet;

5. a second lamp;

6. a driving device; 61. a first driving motor; 62. rotating the column; 621. a fixing ring; 64. a first driving block; 641. a first rack; 642. a second guide part; 65. a pulley assembly; 651. a rotating shaft; 6511. a first gear; 652. a belt; 66. a moving plate; 661. a first magnet; 67. a driving structure; 671. a second driving motor; 672. a driving member; 6721. a toothed ring structure; 6722. a protruding portion; 67221. a first guide part; 673. a second driving block; 6731. a third guide part; 6732. a second rack; 68. a second gear;

7. a first spring;

9. a second spring;

11. a planar thrust bearing;

12. a compression spring.

Detailed Description

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

Shown in fig. 2 is a schematic diagram of the engagement of the first gear 6511 in the drive device with the first rack 641 on the first drive block 6511;

shown in fig. 3 is a schematic view of the engagement of a first gear 6511 in the drive with a second rack 6732 on a second drive block 673.

The product can be installed in the interior of a vehicle or in other positions so as to promote the technical sense of the vehicle internal medicine.

As shown in fig. 1 to 9, an automotive atmosphere lamp comprises a housing 2, a mounting plate 3, a plurality of first lamps 4, a plurality of second lamps 5 and a driving device 6; the mounting plate 3 is fixed in the shell 2, a plurality of sliding holes 31 are formed in the mounting plate 3, and the sliding holes 31 are circumferentially arrayed on the mounting plate 3; the first lamps 4 are arranged at the sliding holes 31 in a sliding manner and can move along the first direction A1, and the first lamps 4 are connected with the mounting plate 3 through the first springs 7; the plurality of second lamps 5 are fixed on the mounting plate 3, the second lamps 5 are circumferentially arranged on the mounting plate 3 in an array manner, and the first lamps 4 and the second lamps 5 are arranged in a staggered manner; the driving device 6 is arranged in the shell 2 and is positioned below the mounting plate 3; the drive means 6 are capable of changing the position of at least part of the first luminaire 4.

In this application, the position of the first lamp 4 is changed by the driving device 6, and in the moving process of the first lamp 4, the first spring 7 is stressed to deform, and when the driving device 6 releases the driving of the first lamp 4, the first lamp 4 can be reset by the first spring 7.

In the use, the light and shade of cooperation first lamps and lanterns 4, second lamps and lanterns 5 change to and the dynamic change of first lamps and lanterns 4, thereby give the customer has higher experience sense and technological sense, compare with traditional mobilizable lamp, more outstanding in visual effect.

The second lamps and lanterns 5 are fixed with the mounting panel 3 and link to each other, are in unable movable state, and first lamps and lanterns 4 and second lamps and lanterns 5 are the circumference array, and first lamps and lanterns 4 are crisscross with second lamps and lanterns 5, make this car atmosphere lamp have more technological sense in the outward appearance.

In a specific arrangement, the plurality of first lamps 4 radially arranged along the housing 2 are divided into a plurality of first lamp groups, then the plurality of first lamp groups are arranged in a circumferential array, the plurality of second lamps 5 radially arranged along the housing 2 are divided into a plurality of second lamp groups, and the second lamp groups are arranged between two adjacent first lamp groups. The first lamp group is rectangular, and the second lamp group is triangular. In this embodiment, the second lamp 5 gradually increases from inside to outside, and the first lamp 4 has a center and keeps consistent outside dimensions.

Specifically, as shown in fig. 2, a support plate 21 is fixed inside the housing 2, the lower end of the first lamp 4 can be abutted against the support plate 21, and the first spring 7 provides a force for holding the first lamp 4 to move toward the support plate 21.

When the first lamp 4 is not driven by the driving device 6, the first lamp 4 can be abutted against the supporting plate 21 under the action of the first spring 7, so that the outer surface of the first lamp 4 can be kept in the same plane, and in the unused state, the first lamp 4 is more attractive in appearance and can be reset to the same position after each time of the first lamp 4 is moved.

Specifically, as shown in fig. 2 to 10, the driving device 6 includes a first driving motor 61, a rotating column 62, at least one control assembly provided on the rotating column 62, and a first driving block 64, an output shaft of the first driving motor 61 being connected to the rotating column 62 and rotating therewith; the control assembly includes a pulley assembly 65 and a plurality of moving plates 66, the pulley assembly 65 includes two rotating shafts 651 and a belt 652 disposed on the rotating shafts 651; the rotating shaft 651 is rotatably connected to the peripheral wall of the rotating column 62, the plurality of moving plates 66 are fixed on the belt 652 and are arranged at equal intervals, at least one first magnet 661 is fixed on each moving plate 66, a second magnet 41 is fixed on the lower portion of each first lamp 4, and the first magnets 661 and the second magnets 41 can repel each other; when the first magnet 661 corresponds to the second magnet 41, the first lamp 4 can move in a direction away from the second magnet 41; a first gear 6511 is fixed at the end of one of the rotating shafts 651; the first driving block 64 is slidably disposed on a side wall of the housing 2 and is movable in a first direction A1, the first driving block 64 has a first rack 641 at an upper end thereof, the first driving block 64 is connected to the housing 2 by a second spring 9, the first rack 641 is capable of meshing with a first gear 6511, and the control assembly further includes a driving structure 67 for enabling the first gear 6511 to rotate.

In the application, the first driving motor 61 is fixed in the shell 2, the first driving motor 61 is started to drive the rotating column 62 to rotate, and the rotating column 62 drives the control assembly to rotate together; during the rotation of the control assembly, two situations can occur;

first kind: the first driving block 64 does not move upward, and the first rack 641 on the first driving block 64 cannot contact the first gear 6511, so that during the rotation of the control unit, the first magnet 661 on the uppermost moving plate 66 can only generate a repulsive effect with the second magnet 41 below the first lamp 4, and when the first magnet 661 moves to the corresponding first lamp 4, the first lamp 4 at that position can move in a direction away from the driving device 6, so as to protrude relative to the surrounding first and second lamps 4, 5, thereby providing a stereoscopic impression and visually providing an impact force.

Second, the first driving block 64 moves upwards, so that the first rack 641 on the first driving block 64 can be meshed with the first gear 6511, when the first gear 6511 on the pulley assembly 65 is meshed with the first rack 641 in the rotation process of the control assembly, the first gear 6511 rotates and drives the belt 652 in the pulley assembly 65 to move, so that the moving plate 66 connected to the belt 652 moves, the uppermost moving plate 66 is replaced by another one, and the number and/or the positions of the first magnets 661 on each moving plate 66 are different, so that the positions of the first lamps 4 on different positions can be changed when the different moving plates 66 are switched, and a dynamic change is formed, so that a single visual experience is not caused.

In this embodiment, the number of control components is two, and the control components are symmetrically disposed on the rotating column 62, so that in the actual design process, more control components can be disposed, for example, three groups of control components or four groups of control components are disposed, and the included angles between adjacent control components can be arbitrarily selected.

In this embodiment, the number of the first driving blocks 64 is one, the first driving blocks 64 are all provided with first racks 641, and after a whole section of first racks 641 is meshed with the first gear 6511 and drives the first gear 6511 to rotate, a new moving plate 66 can be exactly controlled to be replaced to the uppermost side. For example, after the first gear 6511 passes through a first rack 641, the second moving plate 66 may be replaced with the uppermost moving plate 66 disposed horizontally and uppermost.

When the first magnet 661 corresponds to the second magnet 41, the first lamp 4 can move in a direction away from the second magnet 41, and the correspondence referred to herein means that the moving plate 66 is in a horizontal state and can be opposed to the second magnet 41 below one row of the first lamps 4.

The first driving motor 61 can realize forward and reverse rotation, so as to drive the rotating column 62 to rotate forward and reverse, and the dynamic change of the first lamp 4 is diversified.

Specifically, as shown in fig. 3, 6, 7 and 10, a second driving block 673 is slidably disposed on the housing 2, a second rack 6732 is disposed at an upper end of the second driving block 673, a length of the second rack 6732 is half of that of the first rack 641, the second driving block 673 is connected to the housing 2 through a compression spring 12, and the second rack 6732 can be meshed with the first gear 6511.

In this application, the second driving block 673 is provided on the rear side of the first driving block 64; when the first gear 6511 passes the second rack 6732, the moving plate 66 moves a short distance so that the second magnet 41 is aligned in the interval between the two moving plates 66, as shown in fig. 10, a case where the first magnet 661 and the second magnet 41 are not perfectly aligned is formed, at which time, a sufficient repulsive force cannot be generated, so that the first lamp 4 and the second lamp 5 of the atmosphere lamp of the automobile can be in the same plane as viewed from the outer surface after stopping the movement, making it more beautiful.

When the first lamp 4 needs to be dynamically controlled, the first magnet 661 on the moving plate 66 can be aligned with the second magnet 41 of the first lamp 4 only by meshing and matching the first gear 6511 with the second rack 6732.

Specifically, as shown in fig. 2 and 3, the driving structure 67 further includes a second driving motor 671 and a driving member 672, wherein an output shaft of the second driving motor 671 is in driving connection with the driving member 672 and is used for driving the driving member 672 to rotate, and a protrusion 6722 protruding from the surface of the driving member 672 is provided on the driving member 672; when the lower end of the first driving block 64 abuts against the protrusion 6722, the corresponding first rack 641 can be engaged with the first gear 6511; or alternatively; when the lower end of the second driving block 673 abuts against the protrusion 6722, the corresponding second rack 6732 can be engaged with the first gear 6511.

In this application, the second driving motor 671 is started to drive the driving member 672 to rotate.

The second driving motor 671 is fixed inside the housing 2.

In the initial state, when the driving member 672 rotates, the protrusion 6722 is driven to move, when the protrusion 6722 moves below the second driving block 673, the protrusion 6722 pushes the second driving block 673 upwards, the second rack 6732 at the upper part of the second driving block 673 moves to a position capable of being meshed with the first gear 6511, at this time, when the rotating post 62 rotates, the first gear 6511 is driven to move to the first rack 641 and meshed, so that during the rotation of the first gear 6511, the belt 652 of the corresponding pulley assembly 65 is driven to operate, and the moving plate 66 carried by the belt is also moved, so that the situation that the position corresponding to the second magnet 41 is between the two moving plates 66 is changed into the situation that the second magnet 41 corresponds to the moving plate 66, in addition, when the rotating post 62 continues to rotate and the second rack 6732 of the first gear 6511 is meshed again, the moving plate 66 continues to move, and the second magnet 41 continues to correspond to between the two moving plates 66.

In the use state, at least one moving plate 66 can correspond to the second magnet 41, at this time, if the protrusion 6722 abuts under the first driving block 64, the first gear 6511 is rotated on the rotating column 62 and meshed with the first rack 641 on the first driving block 64, and the next moving plate 66 can be switched, and one moving plate 66 can be automatically switched after each time the first gear 6511 passes the first rack 641. It is of course possible to move the protrusion 6722 away from the lower side of the first driving block 64 in the case where the moving plate 66 corresponds to the second magnet 41, so that the existing lamp is maintained in the active state regardless of the number of rotations of the rotating post 62.

Further, the protrusion 6722 abuts one of the first driving block 64 or the second driving block 673.

Specifically, as shown in fig. 6, 7 and 8, the protruding portion 6722 is provided with the first guide portion 67221 at both ends, the first driving block 64 is provided with the second guide portion 642 at both ends, the second driving block 673 is provided with the third guide portion 6731 at both ends, and the first guide portion 67221 can abut against the second guide portion 642 or the third guide portion 6731.

In this application, the cooperation between the first guide portion 67221 and the second guide portion 642 can make the movement of the projecting portion 6722 easier, reduce the wear of the projecting portion 6722 when contacting the first and second driving blocks 64 and 673, and improve the service life. The first guide portions 67221 and the second guide portions 642 are provided at both ends of the protrusion 6722, respectively, so that the first driving block 64 can be pressed upward from both directions.

Specifically, two slides are provided in the housing 2, and the first driving block 64 and the second driving block 673 are slidably disposed at the two slides, respectively.

The slide way is arranged, so that the first driving block 64 and the second driving block 673 can be more stable in the moving process. The first rack 641 and the second rack 6732 are further stabilized when engaged with the first gear 6511.

Specifically, as shown in fig. 2, 3 and 8, the driving member 672 is in a ring shape, the driving member 672 is rotatably disposed on the housing 2, an inner ring of the driving member 672 is provided with a gear ring structure 6721, and a second gear 68 is fixed on an output shaft of the second driving motor 671, and the second gear 68 is meshed with the gear ring structure 6721.

In this application, the second driving motor 671 is started to drive the second gear 68 to rotate, and the second gear 68 drives the driving member 672 to rotate.

Specifically, as shown in fig. 2 and 3, a stationary ring 621 is fixed to the rotating post 62, and a planar thrust bearing 11 is provided between the stationary ring 621 and the housing 2.

The fixing ring 621 and the planar thrust bearing 11 are provided, so that the rotation of the rotation column 62 is stable and not skewed, and the first gear 6511 is meshed with the first rack 641 and the second rack 6732 more stably.

The upper ring of the planar thrust bearing 11 is connected to the stationary ring 621 and the lower ring of the planar thrust bearing is connected to the housing 2.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present invention are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. Meanwhile, the meaning of "and/or" appearing throughout the text is to include three schemes, taking "a and/or B" as an example, including a scheme, or B scheme, or a scheme that a and B satisfy simultaneously. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.

All the components are general standard components or components known to the person skilled in the art, and the structures and principles of the components are known to the person skilled in the art through technical manuals or through routine experimental methods.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the invention. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (9)

1. An automobile atmosphere lamp is characterized by comprising a shell (2), a mounting plate (3), a plurality of first lamps (4), a plurality of second lamps (5) and a driving device (6); the mounting plate (3) is fixed in the shell (2), a plurality of sliding holes (31) are formed in the mounting plate (3), and the sliding holes (31) are circumferentially arrayed on the mounting plate (3); the first lamps (4) are arranged at the sliding holes (31) in a sliding mode and can move along the first direction A1, and the first lamps (4) are connected with the mounting plate (3) through first springs (7); the second lamps (5) are fixed on the mounting plate (3), the second lamps (5) are circumferentially arrayed on the mounting plate (3), and the first lamps (4) and the second lamps (5) are staggered; the driving device (6) is arranged in the shell (2) and is positioned below the mounting plate (3); the drive means (6) are capable of changing the position of at least part of the first luminaire (4).

2. An automotive atmosphere lamp according to claim 1, characterized in that a support plate (21) is fixed in the housing (2), the lower end of the first lamp (4) being capable of resting on the support plate (21), the first spring (7) providing a force for holding the first lamp (4) moving towards the support plate (21).

3. The automotive atmosphere lamp according to claim 1, characterized in that the driving means (6) comprises a first driving motor (61), a rotating column (62), at least one control assembly arranged on the rotating column (62) and a first driving block (64), the output shaft of the first driving motor (61) being connected to the rotating column (62) and carrying it in rotation; the control assembly comprises a belt pulley assembly (65) and a plurality of moving plates (66), wherein the belt pulley assembly (65) comprises two rotating shafts (651) and a belt (652) arranged on the rotating shafts (651); the rotating shafts (651) are rotatably connected to the peripheral wall of the rotating columns (62), a plurality of moving plates (66) are fixed on the belt (652) and are arranged at equal intervals, at least one first magnet (661) is fixed on each moving plate (66), a second magnet (41) is fixed on the lower portion of each first lamp (4), and the first magnets (661) and the second magnets (41) can repel each other; when the first magnet (661) corresponds to the second magnet (41), the first lamp (4) can move in a direction away from the second magnet (41); a first gear (6511) is fixed at the end part of one rotating shaft (651); the first driving block (64) is slidably arranged on the side wall of the shell (2) and can move along a first direction A1, a first rack (641) is arranged at the upper end of the first driving block (64), the first driving block (64) is connected with the shell (2) through a second spring (9), and the first rack (641) can be meshed with the first gear (6511); the control assembly further comprises a drive structure (67) for enabling rotation of the first gear (6511).

4. An automotive atmosphere lamp according to claim 3, characterized in that a second driving block (673) is slidably arranged on the housing (2), a second rack (101) is arranged at the upper end of the second driving block (673), the length of the second rack (101) is half of that of the first rack (641), the second driving block (673) is connected with the housing (2) through a compression spring (12), and the second rack (101) can be meshed with the first gear (6511).

5. The automobile atmosphere lamp according to claim 4, wherein the driving structure (67) further comprises a second driving motor (671) and a driving member (672), the second driving motor (671) is fixed in the housing (2), an output shaft of the second driving motor (671) is in transmission connection with the driving member (672) and is used for driving the driving member (672) to rotate, and a protrusion (6722) protruding from the surface of the driving member (672) is arranged on the driving member (672); when the lower end of the first driving block (64) is abutted against the protruding part (6722), the corresponding first rack (641) can be meshed with the first gear (6511); or when the lower end of the second driving block (673) is abutted against the convex part (6722), the corresponding second rack (101) can be meshed with the first gear (6511).

6. The automobile atmosphere lamp according to claim 5, wherein one end of the protruding portion (6722) is provided with a first guiding portion (67221), the first guiding portion (67221), the lower end of the first driving block (64) is provided with a second guiding portion (642), both ends of the second driving block (673) are provided with third guiding portions (6731), and the first guiding portion (67221) can abut against the second guiding portion (642).

7. The automobile atmosphere lamp according to claim 1, wherein two slide ways are arranged in the shell (2), and the first driving block (64) and the second driving block (673) are respectively arranged at the two slide ways in a sliding manner.

8. The automobile atmosphere lamp according to claim 5, wherein the driving member (672) is ring-shaped, the driving member (672) is rotatably arranged on the housing (2), a toothed ring structure (6721) is arranged on an inner ring of the driving member (672), a second gear (68) is fixed on an output shaft of the second driving motor (671), and the second gear (68) is meshed with the toothed ring structure (6721).

9. An automotive atmosphere lamp according to claim 3, characterized in that a stationary ring (621) is fixed to the rotating column (62), a planar thrust bearing (11) being arranged between the stationary ring (621) and the housing (2).

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