CN215883182U - Asynchronous rotation automobile floating wheel cover - Google Patents

Abstract

The utility model provides an asynchronous rotation automobile floating wheel cover, which comprises: the middle of the bottom basin is a conical concave position of the bottom basin, the center of the bottom basin is provided with a bottom basin center shaft, and a center shaft groove is arranged on the bottom basin center shaft; a bottom basin spring hook is arranged on the opposite side of the bottom basin; a wheel cover body; a bearing is arranged between the bottom basin and the middle shaft; a suspended gyroscope is arranged below the lower part; the angle base comprises a bottom plate and oblique angle supporting blades, and the oblique angle supporting blades form a convex position and are buckled with the conical concave position of the bottom basin; the mounting frame is fixedly connected with the wheel cover body; the upper surface is provided with a mounting frame spring hook which is connected with the bottom basin spring hook through a spring hook. The utility model avoids the wheel cover from being damaged by collision after the wheel collides with a hard object, and simultaneously, the wheel cover body and the bottom basin are only connected by the bearing on the middle shaft of the bottom basin, and the wheel cover body is not rotated along with the wheel due to the weight of the suspended top when the wheel rotates, thereby forming a unique driving visual effect.

Description

Asynchronous rotation automobile floating wheel cover

Technical Field

The utility model relates to the technical field of automobile wheel covers, in particular to an asynchronous rotation automobile floating wheel cover.

Background

The Chinese automobile industry has been popular among consumers in recent years, especially for green and environment-friendly pure electric vehicles. However, the appearance of the existing pure electric vehicle and the appearance of the common gasoline-fired vehicle are not basically different. The concept cars or future cars seen as beautiful in the car exhibition can not be put into production basically because the cars are treated by art work without regard to the running condition of the road surface. For example, the height from the rim of the wheel housing of a common automobile to the ground is six centimeters and seven centimeters, the black and thick edge of the tire is not attractive in design, and the designer often designs the black edge to be narrow and the wheel cover to be large in concept design to be almost attached to the ground, so that the wheel cover looks attractive.

If a decorative wheel cover larger than the wheel shell is added on the wheel shell, the appearance can be greatly improved, the design feeling is improved, and the attractiveness is improved, but the existing wheel cover is easy to be broken or fly off due to being too close to the ground, so that the danger is caused. Meanwhile, the design of the wheel cover also lacks of innovative visual effect.

Disclosure of Invention

The utility model aims to provide an automobile floating wheel cover capable of rotating asynchronously, which can greatly improve the visual effect of the wheel cover, enable the appearance to have more design feeling and improve the high-tech feeling, and meanwhile, a floating structure cannot be easily broken or fly off due to being too close to the ground, so that the service life is long; when the tire rotates, the wheel cover is kept static, and the design is more specific; the wheel cover can shine and be equipped with the light efficiency change, has fashion hi-tech when driving night very much.

The technical scheme of the utility model is realized as follows:

the utility model provides a non-synchronous rotating automobile floating wheel cover, comprising:

the middle of the bottom basin is provided with a conical concave position of the bottom basin, the center of the conical concave position of the bottom basin is provided with a bottom basin center shaft, and a center shaft groove is arranged on the bottom basin center shaft; a bottom basin spring hook is arranged on the opposite side of the bottom basin;

a wheel cover body; a bearing is arranged between the bottom basin middle shaft and the wheel cover body; a suspended gyroscope is arranged between the wheel cover body and the bottom basin and below a middle shaft of the bottom basin;

the angle base comprises a bottom plate and two or more bevel angle supporting blades, and the bevel angle supporting blades form a convex position and are buckled with the conical concave position of the bottom basin;

the mounting frame is fixedly connected with the wheel cover body; the mounting frame is provided with a mounting frame spring hook, and the mounting frame spring hook is connected with the bottom basin spring hook through a spring hook.

As a further improvement of the utility model, the edge of the wheel cover body is fixedly connected with the bottom basin through a silica gel sheet.

As a further improvement of the utility model, the wheel cover body is provided with a light-transmitting hole, and a light-transmitting film is arranged at the light-transmitting hole.

As a further improvement of the utility model, an LED lamp panel is arranged on the inner side of the wheel cover body; and an LED power supply input port is arranged on the LED lamp panel.

As a further improvement of the utility model, the inner side of the wheel cover body is also provided with a kinetic energy power generation module and a function control module, and the kinetic energy power generation module is connected with the LED power input port and provides electric energy for the LED lamp panel.

As a further improvement of the utility model, the function control module is arranged in the kinetic energy power generation module, and the function control module and the kinetic energy power generation module are fixed on the bottom basin middle shaft by installing a rubber ring; the mounting rubber ring is fixed on the middle shaft groove.

As a further improvement of the utility model, the function control module is used for controlling the switch of the LED lamp panel and is provided with a Bluetooth receiver for receiving the control signal of the switch of the APP of the mobile phone.

As a further improvement of the utility model, the center of the bottom plate is provided with a tire central axis hole, and the bottom plate is also provided with a tire screw hole.

As a further improvement of the utility model, the bottom basin middle shaft and the wheel cover body are connected and installed by a bearing.

As a further improvement of the present invention, the mounting frame and the wheel cover body are fixedly connected by welding or screws.

The utility model has the following beneficial effects: compared with the common automobile, the automobile provided with the non-synchronous rotating automobile floating wheel cover has the advantages that after the wheel cover is arranged, the distance from the edge of the wheel cover body to the ground is only 1-2cm, the distance from the edge of a wheel shell of the common automobile to the ground is generally 7-8cm, black thick lines are avoided visually, the wheel cover is larger and more attached to the ground, the appearance is more attractive, when the tire rotates, the wheel cover keeps static, and the design is more obvious; the wheel cover can shine and be equipped with the light efficiency change, has fashion hi-tech when driving night very much.

In the asynchronous rotation automobile floating wheel cover, the wheel cover body is only contacted with the bottom basin in the middle shaft of the bottom basin, the bearing is arranged between the wheel cover body and the bottom basin, and the suspension gyroscope is arranged below the middle shaft of the bottom basin between the wheel cover body and the bottom basin, so that the effect of top-down weight is realized, the wheel cover body cannot be driven to rotate when the shaft center rotates, and the wheel cover body is kept static and does not rotate when the automobile moves in appearance.

In the non-synchronous rotating automobile floating wheel cover, the central point can be moved away when the outer wheel cover body hits the roadside, so that the self-protection effect is achieved, the common tire can deform when being elastically hit by a hard object but the wheel cover is hard and cannot deform. In addition, the wheel cover can be opened outwards for a certain angle and distance when the wheel cover is collided with a hard object to move, so that the wheel cover is prevented from colliding with the edge of the vehicle body, and the vehicle body can be protected. Under the effect of spring, the wheel cover body is pulled back to the original position very fast, keeps original position state, and the outward appearance remains unchanged.

In the non-synchronous rotating automobile floating wheel cover, the flower shape on the surface of the wheel shell body can be freely designed, and the wheel shell can also adopt a bright form, can be common monochromatic light or colorful light, is more cool and attractive, and is popular with more consumers. The bottom basin is provided with a kinetic energy power generation module, and can store electricity and supply power to the control module, so that the power is supplied to the LED lamp panel module. Meanwhile, the LED lamp panel can be remotely controlled through the mobile phone App, so that the LED lamp panel is more convenient and free.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view showing a structural change of a tire mounted with a floating wheel cover of an asynchronously rotating automobile according to the present invention, which encounters an obstacle;

FIG. 2 is a schematic view of a tire mounted floating wheel cover of a non-synchronously rotating vehicle according to the present invention in an obstacle;

FIG. 3 is a schematic view of the structure for mounting the floating wheel cover of the asynchronous rotary automobile of the present invention;

FIG. 4 is a schematic view of the structure of the installation angle base;

FIG. 5 is a schematic view of a tire having a floating wheel cover of a non-synchronously rotating vehicle according to the present invention installed thereon;

FIG. 6 is a schematic cross-sectional view of a floating wheel cover of an asynchronous rotary vehicle according to the present invention;

FIG. 7 is a sectional view of the floating wheel cover of the asynchronous rotary vehicle according to the present invention;

FIG. 8 is a left side perspective assembly view of the non-synchronously rotating automotive floating wheel cover in accordance with the present invention;

FIG. 9 is a right side perspective assembly view of the non-synchronously rotating automotive floating wheel cover of the present invention;

wherein, 100, the wheel cover body; 101. a light-transmitting hole; 102. a light-transmitting film; 103. a silica gel sheet; 104. a first screw mounting hole; 105. mounting screws; 106. a first screw mounting hole; 107. a bottom basin; 108. checking the mounting hole; 109. a bottom basin middle shaft; 110. a middle shaft groove; 111. a spring hook of the bottom basin; 112. a conical concave position of the bottom basin; 113. a bearing fixing groove; 114. a second screw mounting hole; 130. a kinetic energy power generation module; 131. a power outlet; 140. a function control module; 141. a power supply input port; 142. a power outlet; 143. a Bluetooth receiver; 150. installing a rubber ring; 160, an LED lamp panel; 161 LED power input port; 170. hanging a gyroscope; 171. a second screw mounting through hole; 180. a bearing; 200. an angle base; 201. a negative film; 202. a tire screw hole; 203. a tire central shaft hole; 204. a bevel support blade; 300. installing a frame; 301. installing a frame spring hook; 302. a spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, 6-9, a non-synchronously rotating floating wheel cover for a vehicle, comprising:

a bottom basin 107, wherein a bottom basin conical concave position 112 is arranged in the middle of the bottom basin 107, a bottom basin center shaft 109 is arranged in the center of the bottom basin conical concave position 112, and a center shaft groove 110 is arranged on the bottom basin center shaft 109; a bottom basin spring hook 111 is arranged on the opposite side of the bottom basin 107;

a wheel cover body 100; a bearing 180 is arranged between the bottom basin middle shaft 109 and the wheel cover body 100; a hanging gyroscope 170 is arranged between the wheel cover body 100 and the bottom basin 107 below a bottom basin middle shaft 109; the top bracket 170 is provided with a second screw mounting hole 171, and is fixed on the wheel cover body 100 through a screw passing through the second screw mounting hole 171 and the second screw mounting hole 114 on the wheel cover body 100.

The angle base 200 comprises a bottom plate 201 and two or more bevel angle supporting blades 204, wherein the bevel angle supporting blades 204 form a convex position and are buckled with the conical concave position 112 of the bottom basin;

the mounting frame 300, the mounting frame 300 is fixedly connected with the wheel cover body 100; the mounting frame 300 is provided with a mounting frame spring hook 301, and the mounting frame spring hook 301 is hooked with the bottom basin spring hook 111 through a spring 302.

Referring to fig. 6-9, in the asynchronous rotation automobile floating wheel cover of the present invention, the wheel cover body 100 and the bottom basin 107 only contact on the bottom basin center shaft 109, and a bearing 180 is arranged between the wheel cover body 100 and the bottom basin 107, a suspension peg 170 is arranged below the bottom basin center shaft 109, the wheel cover body 100 and the bottom basin 107 are connected by the bearing 180 only on the bottom basin center shaft 109, the wheel cover body 100 is lighter than heavier than the upper due to the weight of the suspension peg 170 when the wheel rotates, and does not rotate along with the wheel, so as to realize the effect of lighter than heavier, so that the axle does not drive the wheel cover body 100 to rotate when the axle rotates, and the wheel cover body 100 keeps static and does not rotate when the automobile moves in appearance, thereby forming a unique driving visual effect.

Compared with the common automobile, the automobile provided with the non-synchronous rotating automobile floating wheel cover has the advantages that after the wheel cover is installed, the distance from the edge of the wheel cover body to the ground is only 1-2cm, the distance from the edge of a wheel shell of the common automobile to the ground is generally 7-8cm, black thick lines are avoided visually, and the wheel cover is larger, more attached and more attractive.

Referring to fig. 1-2, the bottom basin 107 has a bottom basin conical concave 112, and when the wheel cover body 100 hits an obstacle on the road surface by matching with the angle bottom 200, the center point of the wheel cover body 100 can be immediately moved away from the axle center point of the wheel housing and is expanded outward by a certain distance at a specific angle, so as to prevent the wheel cover body 100 from being damaged by the impact, prevent the wheel cover body 100 from hitting the edge of the vehicle body, protect the vehicle body, and then the spring 302 can be pulled back to the axle center to reset, thereby playing a role of floating protection of the wheel cover.

Preferably, referring to fig. 6-9, the rim of the wheel cover body 100 is fixedly connected with the bottom basin 107 through a silicone sheet 103. The silicon sheet 103 is fixed with the bottom basin 107 through a mounting screw 105 passing through a screw mounting hole 104 and a screw mounting hole 106 on the silicon sheet 103.

Preferably, referring to fig. 6 to 9, a light hole 101 is formed in the wheel cover body 100, and a light-transmitting film 102 is installed at the light hole 101. In the synchronous rotation automobile floating wheel cover, the flower shape on the surface of the wheel shell body can be freely designed.

Preferably, referring to fig. 6 to 9, an LED lamp panel 160 is disposed in the wheel cover body 100; an LED power input port 161 is arranged on the LED lamp panel 160. The synchronous rotating automobile floating wheel cover can adopt a bright form, can be common monochromatic light or colorful light, is cool and attractive, and is popular with more consumers.

Preferably, referring to fig. 6 to 9, the inside of the wheel cover body 100 is further provided with a kinetic energy power generation module 130 and a function control module 140, the kinetic energy power generation module 130 is provided with a power output port 131, and the kinetic energy power generation module 130 is connected with an LED power input port 161 to provide electric energy for the LED lamp panel 160. The bottom basin 107 carries the kinetic energy power generation module 130, and can store electricity and supply power to the control module, so that the power is supplied to the LED lamp panel 160.

Preferably, referring to fig. 6 to 9, the function control module 140 is disposed in the kinetic energy power generation module 130, the function control module 140 is provided with a power input port 141 and a power output port 142, and the function control module 140 and the kinetic energy power generation module 130 are fixed on the bottom basin central shaft 109 by installing a rubber ring 150; the mounting rubber ring 150 is fixed on the middle shaft groove 110.

Preferably, referring to fig. 6 to 9, the function control module 140 is configured to control the switch of the LED lamp panel 160, and is provided with a bluetooth receiver 143 configured to receive a control signal of the mobile APP switch. The LED lamp panel 160 can be remotely controlled through a mobile phone App, and is more convenient and free.

Preferably, referring to fig. 4, the bottom sheet 201 is provided with a tire central axis hole 203 at the center. Better laminating film and tire axis.

Preferably, referring to fig. 4, the bottom plate 201 is further provided with a tire screw hole 202. Better laminating film and tire axis.

Preferably, the mounting frame 300 is fixedly connected to the wheel cover body 100 by welding or screws. The wheel housing body 100 may be an off-the-shelf product or a custom.

Referring to fig. 3-5, the installation method of the present invention first welds or screws the installation frame 300 to the wheel housing body 100, installs the angle base 200, then closes the installation frame 300, and fastens the spring 302 for fixing.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. A floating wheel cover for a non-synchronously rotating automobile, comprising:

the improved basin comprises a bottom basin (107), wherein a bottom basin conical concave position (112) is arranged in the middle of the bottom basin (107), a bottom basin center shaft (109) is arranged in the center of the bottom basin conical concave position (112), and a center shaft groove (110) is arranged on the bottom basin center shaft (109); a bottom basin spring hook (111) is arranged on the opposite side of the bottom basin (107);

a wheel cover body (100); a bearing (180) is arranged between the bottom basin middle shaft (109) and the wheel cover body (100); a suspended gyroscope (170) is arranged between the wheel cover body (100) and the bottom basin (107) and below a bottom basin middle shaft (109);

the angle base (200), the said angle base (200) includes the negative (201) and two or more oblique angle supports the blade (204), the said oblique angle supports the blade (204) and forms a convex position, with the said base basin conical concave position (112) lock;

the mounting frame (300), the mounting frame (300) and the wheel cover body (100) are fixedly connected; the mounting frame (300) is provided with a mounting frame spring hook (301), and the mounting frame spring hook (301) is hooked with the bottom basin spring hook (111) through a spring (302).

2. The non-synchronous rotating automobile floating wheel cover is characterized in that the edge of the wheel cover body (100) is fixedly connected with a bottom basin (107) through a silicon sheet (103).

3. The non-synchronous rotating automobile floating wheel cover according to claim 2, characterized in that the wheel cover body (100) is provided with a light hole (101), and a light-transmitting film (102) is installed at the light hole (101).

4. The non-synchronous rotating automobile floating wheel cover according to claim 3, characterized in that an LED lamp panel (160) is arranged on the inner side of the wheel cover body (100); and an LED power supply input port (161) is arranged on the LED lamp panel (160).

5. The non-synchronous rotating automobile floating wheel cover according to claim 4, wherein a kinetic energy power generation module (130) and a function control module (140) are further arranged on the inner side of the wheel cover body (100), and the kinetic energy power generation module (130) is connected with the LED power input port (161) to provide electric energy for the LED lamp panel (160).

6. The non-synchronously rotating automobile floating wheel cover according to claim 5, characterized in that the function control module (140) is arranged in the kinetic energy power generation module (130), and the function control module (140) and the kinetic energy power generation module (130) are fixed on the bottom basin center shaft (109) through a rubber ring (150); the mounting rubber ring (150) is fixed on the middle shaft groove (110).

7. The non-synchronous rotating automobile floating wheel cover according to claim 6, wherein the function control module (140) is used for controlling the switch of the LED lamp panel (160), and is provided with a Bluetooth receiver (143) for receiving the control signal of the mobile phone APP switch.

8. The non-synchronous rotating automobile floating wheel cover is characterized in that the bottom basin middle shaft (109) and the wheel cover body (100) are connected and installed through a bearing (180).

9. The non-synchronously rotating automobile floating wheel cover according to claim 8, wherein a tire center shaft hole (203) is formed in the center of said bottom plate (201), and a tire screw hole (202) is further formed in said bottom plate (201).

10. The floating wheel cover of asynchronous rotation automobile according to claim 1, characterized in that the mounting frame (300) is fixedly connected with the wheel cover body (100) by welding or screws.

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