阅读说明：本技术 一种汽车仪表盘 (Automobile instrument panel ) 是由 单利春 温洪亮 于 2021-08-17 设计创作，主要内容包括：本发明提供一种汽车仪表盘,包括外罩及设于外罩内部的显示器组件,外罩包括遮光罩及后壳,后壳具有前安装口；遮光罩包括开口部、遮光部及导光筒；导光筒的顶部形成有与遮光部相对的顶壁,顶壁设有窗口；显示器组件包括相互固定设置的上屏组件、反射镜组件以及后屏组件,反射镜组件包括半反射镜,半反射镜由上至下地向前倾斜设置,后屏组件设于半反射镜的后方,上屏组件设于半反射镜的上方；上屏组件设置在导光筒的顶壁与遮光部之间且与遮光罩非接触设置,上屏组件与后壳固定连接；反射镜组件与外罩非接触设置。本发明的汽车仪表盘的显示器组件内部部件相互固定且显示器组件整体悬空地仅与后壳固定连接,更易于保证装配质量与3D显示效果。(The invention provides an automobile instrument panel, which comprises an outer cover and a display assembly arranged in the outer cover, wherein the outer cover comprises a light shield and a rear shell, and the rear shell is provided with a front mounting opening; the light shield comprises an opening part, a light shield part and a light guide cylinder; the top of the light guide cylinder is provided with a top wall opposite to the shading part, and the top wall is provided with a window; the display assembly comprises an upper screen assembly, a reflector assembly and a rear screen assembly which are fixedly arranged with each other, the reflector assembly comprises a semi-reflecting mirror, the semi-reflecting mirror is arranged in a forward inclining mode from top to bottom, the rear screen assembly is arranged behind the semi-reflecting mirror, and the upper screen assembly is arranged above the semi-reflecting mirror; the upper screen assembly is arranged between the top wall of the light guide cylinder and the shading part and is arranged in a non-contact manner with the light shield, and the upper screen assembly is fixedly connected with the rear shell; the mirror assembly is disposed in non-contact with the housing. The internal parts of the display assembly of the automobile instrument panel are mutually fixed, and the display assembly is only fixedly connected with the rear shell in a whole suspended manner, so that the assembly quality and the 3D display effect are more easily ensured.)

1. An automobile instrument panel comprises an outer cover (100) and a display assembly (200) arranged inside the outer cover (100), wherein the outer cover (100) comprises a light shield (10) and a rear shell (20), the rear shell (20) is provided with a front mounting opening (21), and the light shield (10) covers the front mounting opening (21); it is characterized in that the preparation method is characterized in that,

the light shield (10) comprises an opening part (11), a light shield part (12) and a light guide cylinder (13), wherein the opening part (11) is annular, and the light shield part (12) is formed by extending backwards from the upper edge of the opening part (11); the light guide cylinder (13) is formed by extending backwards from the inner edge of the opening part (11); a top wall (141) opposite to the shading part (12) is formed at the top of the light guide cylinder (13), and a window (142) is arranged on the top wall (141);

the display assembly (200) comprises an upper screen assembly (50), a reflector assembly (60) and a rear screen assembly (70) which are fixedly arranged with each other, the reflector assembly (60) comprises a semi-reflecting mirror (61), the semi-reflecting mirror (61) is arranged in a forward tilting mode from top to bottom, the rear screen assembly (70) is arranged behind the semi-reflecting mirror (61), and the upper screen assembly (50) is arranged above the semi-reflecting mirror (61);

the upper screen assembly (50) is arranged between the top wall (141) of the light guide cylinder (13) and the shading part (12) and is arranged in a non-contact manner with the light shield (10); the display screen of the upper screen assembly (50) is exposed out of the window (142), and the upper screen assembly (50) is fixedly connected with the rear shell (20); the mirror assembly (60) is arranged in non-contact with the housing (100).

2. The instrument panel of claim 1, wherein the rear case (20) is provided with a front connection plate (22) extending in an up-down direction in the front mounting opening (21); the top surface of the upper screen component (50) is provided with a first lug (511), and the first lug (511) is attached to and fixedly connected with the front connecting plate (22).

3. The instrument panel of claim 2, wherein said front connection plate (22) is provided with a first screw hole (221) and a first positioning post (222), and said first lug (511) is provided with a first through hole (511a) adapted to said first screw hole (221), and a first positioning hole (511b) adapted to said first positioning post (222).

4. The instrument panel of claim 2 or 3, wherein a guide plate (23) is provided at an upper edge of the rear case (20), the guide plate (23) is disposed to be inclined forward from top to bottom, and the guide plate (23) is slidably overlapped with the shade portion (12) in the front-rear direction; the front connecting plate (22) extends downwards from the front edge of the guide plate (23).

5. The dashboard according to claim 4, wherein the middle of the guide plate (23) is provided with a space avoidance gap (231), the number of the front connecting plates (22) is two, and the two front connecting plates (22) are respectively arranged at two sides of the space avoidance gap (231); the number of the first lugs (511) is two, and the two first lugs (511) are arranged in one-to-one correspondence with the two front connecting plates (22).

6. The dashboard according to claim 2 or 3, wherein said upper screen assembly (50) comprises an upper cover (51), a base and an upper display screen (54); the base is provided with a cylindrical inner cavity which is through up and down, the upper display screen (54) is arranged in the inner cavity of the base, the upper cover (51) is fixedly covered at the upper end of the base, and the first lug (511) is arranged on the upper surface of the upper cover (51).

7. The instrument panel for a vehicle of claim 6,

the base comprises a middle frame (52) and a lower frame (53), the upper display screen (54) is a code breaking screen, and the upper screen assembly (50) further comprises an upper circuit board (55), an upper light guide component and a first sealing ring (56);

the middle frame (52) is annular and is vertically communicated, the upper circuit board (55) covers the upper end of the middle frame (52), and the upper cover (51) covers the upper circuit board (55) and is fixedly connected with the middle frame (52);

the upper display screen (54) is mounted at the lower end of the middle frame (52), and the lower frame (53) is abutted against the lower surface of the edge part of the upper display screen (54) and fixedly connected with the middle frame (52);

a light source is arranged on the lower surface of the upper circuit board (55), and the upper light guide component is arranged between the upper circuit board (55) and the upper display screen (54) and used for guiding light beams emitted by the light source to the pattern of the upper display screen (54); the first sealing ring (56) is arranged between the upper display screen (54) and the middle frame (52).

8. The instrument panel of claim 1, wherein said display assembly (200) further comprises a screen attachment arm assembly (80), said screen attachment arm assembly (80) fixedly attaching said upper screen assembly (50) and said rear screen assembly (70).

9. The instrument panel for a vehicle of claim 8,

the screen connecting arm group (80) comprises a middle connecting arm (81) and two side connecting arms (82), the middle connecting arm (81) and the side connecting arms (82) extend along a reference surface perpendicular to the left-right direction and are arranged along the left-right direction, wherein the two side connecting arms (82) are respectively positioned at the left side and the right side of the middle connecting arm (81);

well linking arm (81) with the front end of side linking arm (82) extend to the upper surface of last screen assembly (50) and with last screen assembly (50) fixed connection, well linking arm (81) and the rear end of side linking arm (82) extend to the rear surface of back screen assembly (70) and with the fixed connection of back screen assembly (70).

10. The instrument panel for a vehicle of claim 9,

the front end of the middle connecting arm (81) is provided with a first strip-shaped hole (811), the front end of the side connecting arm (82) is provided with a second strip-shaped hole (821), and the length directions of the first strip-shaped hole (811) and the second strip-shaped hole (821) are consistent with the front-back direction;

a first connecting column (512) is arranged on the top surface of the upper screen component (50) corresponding to the first strip-shaped hole (811), and a first fixing hole (512a) is arranged on the upper end surface of the first connecting column (512); the top surface of going up screen subassembly (50) still corresponds second bar hole (821) is equipped with second spliced pole (513), the up end of first spliced pole (512) is equipped with second fixed orifices (513 a).

11. The instrument panel of claim 10, wherein said middle connecting arm (81) has two said first strip-shaped holes (811) at its front end side by side in the left-right direction; the top surface of the upper screen component (50) is provided with two first connecting columns (512) corresponding to each first strip-shaped hole (811).

12. The instrument panel for a vehicle of claim 11,

a positioning cavity (811a) is formed in the middle section of the first strip-shaped hole (811) in the front-back direction, and a second positioning column (514) is arranged on the top surface of the upper screen assembly (50) corresponding to the positioning cavity (811 a); the length of the positioning cavity (811a) in the front-back direction is greater than the outer diameter of the second positioning column (514), and the second positioning column (514) is in limit fit with the positioning cavity (811a) in the left-right direction;

the top surface of the upper screen assembly (50) is further provided with an annular first reinforcing rib (515), the first reinforcing rib (515) is connected with two circumferentially adjacent first connecting columns (512), and the circumferentially adjacent first connecting columns (512) and second positioning columns (514).

13. The instrument panel of any one of claims 10 to 12, wherein the rear end of the side connection arm (82) is provided with a third through hole (822), and the rear surface of the rear screen assembly (70) is provided with a third fixing hole (711) corresponding to the third through hole (822).

14. The instrument panel of claim 13, wherein a rear end of the center connecting arm (81) is provided with a plurality of second through holes (812) extending in the front-rear direction and a plurality of second positioning holes (813) extending in the front-rear direction; a third connecting column (712) is arranged on the back surface of the rear screen assembly (70) corresponding to the second through hole (812), and a third positioning column (713) is arranged corresponding to the second positioning hole (813); and a fourth fixing hole (712a) is formed in the rear end face of the third connecting column (712).

15. The instrument panel for a vehicle of claim 1,

the reflector assembly (60) further comprises a reflector bracket (62), the reflector bracket (62) is in a ring shape which is penetrated in the front and back direction, and the front end of the reflector bracket (62) is provided for the semi-reflecting mirror (61) to be installed;

the rear screen assembly (70) comprises a rear cover (71), a front frame (72) and a rear display screen (73), the front frame (72) is annular and penetrates in the front and the rear direction, the rear display screen (73) is installed at a front opening of the front frame (72), and the rear cover (71) covers the rear opening of the front frame (72) and is fixedly connected with the front frame (72); the rear end of the reflector bracket (62) is fixedly connected with the rear cover (71) and the front frame (72).

16. The instrument panel of claim 15, wherein said reflector bracket (62) is provided with a plurality of first fixing posts (621) extending rearward, and a rear end surface of said first fixing posts (621) is provided with a fifth fixing hole (621 a); the inner wall surface of the front frame (72) is provided with a second through hole (721) matched with the fifth fixing hole (621a), and the rear cover (71) is provided with a third through hole (714) matched with the second through hole (721).

17. The dashboard according to claim 16, wherein the outer edge of the rear end of the reflector holder (62) is provided with a plurality of resilient pieces (622) along the circumferential direction, each resilient piece (622) is provided with a locking hole (622a), and the outer circumferential surface of the front frame (72) is provided with a buckle (722) corresponding to each resilient piece (622) and locked with the locking hole (622 a).

18. The instrument panel according to any of claims 15 to 17, characterized in that said mirror support (62) is suspended with respect to the inner wall of said rear shell (20); gaps are formed between the light guide cylinder (13) and the semi-reflecting mirror (61) bracket, and between the light guide cylinder (13) and the reflecting mirror bracket (62).

Technical Field

The invention relates to the technical field of automobile accessories, in particular to an automobile instrument panel.

Background

The dashboard of a vehicle comprises a display core and an outer cover for providing support and shading for the display core, the outer cover is generally divided into a light shield and a rear shell, so that a shell structure surrounding the display core is formed in a front-rear clamping manner.

In order to realize the naked eye 3D display effect of automobile instrument information, the prior art provides such an automobile instrument panel: this motormeter dish's display core includes first display, half mirror and second display, the setting is leaned forward by half mirror from top to bottom, the rear of half mirror that first display located, the top of half mirror is located to the second display, the first image of the forward projection of first display can see through the half mirror and propagate forward, the second image of second display downward projection propagates forward equally behind the half mirror reflection, form predetermined interval between the real image of first image and the virtual image of second image, thereby constitute the degree of depth that the 3D display effect corresponds.

It can be understood that, in the dashboard of the automobile, ensuring high position accuracy among the first display, the half mirror and the second display is very important for the 3D display effect. However, the automobile instrument panel with the naked eye 3D display effect adopts the technical scheme in the aspect of the fixing structure of the display core: the first display and the half mirror are fixed on the rear shell together, and the second display is fixed on the light shield in a suspended mode, so that on one hand, the position accuracy among the first display, the half mirror and the second display is very dependent on the assembly accuracy between the light shield and the rear shell, but the assembly accuracy between the light shield and the rear shell is low, the high position accuracy among the first display, the half mirror and the second display is difficult to guarantee, and the designed assembly quality is difficult to guarantee; on the other hand, the light shield is easy to vibrate relative to the rear shell along with the automobile, so that the second display vibrates relative to the half mirror and the first display in the driving process of the automobile, and even if the initial assembly quality meets the requirement, the 3D display effect can be reduced in the using process.

Disclosure of Invention

Based on the current situation, the invention mainly aims to provide an automobile instrument panel which is easy to ensure the assembly quality and has a stable 3D display effect in a vibration environment.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

an automobile instrument panel comprises an outer cover and a display assembly arranged in the outer cover, wherein the outer cover comprises a light shield and a rear shell, the rear shell is provided with a front mounting opening, and the light shield covers the front mounting opening;

the light shield comprises an opening part, a light shielding part and a light guide cylinder, wherein the opening part is annular, and the light shielding part is formed by extending backwards from the upper edge of the opening part; the light guide cylinder extends backwards from the inner edge of the opening part; the top of the light guide cylinder is provided with a top wall opposite to the shading part, and the top wall is provided with a window;

the display assembly comprises an upper screen assembly, a reflector assembly and a rear screen assembly which are fixedly arranged with each other, the reflector assembly comprises a semi-reflecting mirror, the semi-reflecting mirror is arranged in a forward inclining mode from top to bottom, the rear screen assembly is arranged behind the semi-reflecting mirror, and the upper screen assembly is arranged above the semi-reflecting mirror;

the upper screen assembly is arranged between the top wall of the light guide cylinder and the shading part and is arranged in a non-contact manner with the shading cover; the display screen of the upper screen assembly is exposed out of the window, and the upper screen assembly is fixedly connected with the rear shell; the mirror assembly is disposed in non-contact with the housing.

Preferably, the rear shell is provided with a front connecting plate extending in the vertical direction in the front mounting opening; the top surface of the upper screen component is provided with a first lug, and the first lug is attached to and fixedly connected with the front connecting plate.

Preferably, the front connecting plate is provided with a first screw hole and a first positioning column, and the first lug is provided with a first through hole matched with the first screw hole and a first positioning hole matched with the first positioning column.

Preferably, a guide plate is arranged at the upper edge of the rear shell, the guide plate is arranged obliquely forwards from top to bottom, and the guide plate and the shading part are in slidable lap joint along the front-back direction; the front connecting plate is formed by extending downwards from the front edge of the guide plate.

Preferably, the middle part of the guide plate is provided with two avoidance gaps, and the two front connecting plates are respectively arranged at two sides of the avoidance gaps; the first lugs are arranged in two numbers, and the two first lugs are arranged in one-to-one correspondence with the two front connecting plates.

Preferably, the upper screen assembly comprises an upper cover, a base and an upper display screen; the base is provided with a cylindrical inner cavity which is communicated up and down, the upper display screen is arranged in the inner cavity of the base, the upper cover is fixedly covered at the upper end of the base, and the first lug is arranged on the upper surface of the upper cover.

Preferably, the base comprises a middle frame and a lower frame, the upper display screen is a code breaking screen, and the upper screen assembly further comprises an upper circuit board, an upper light guide component and a first sealing ring;

the middle frame is annular and is vertically communicated, the upper circuit board covers the upper end of the middle frame, and the upper cover covers the upper circuit board and is fixedly connected with the middle frame;

the upper display screen is arranged at the lower end of the middle frame, and the lower frame is abutted against the lower surface of the edge part of the upper display screen and is fixedly connected with the middle frame;

the lower surface of the upper circuit board is provided with a light source, and the upper light guide component is arranged between the upper circuit board and the upper display screen and is used for guiding light beams emitted by the light source to the patterns of the upper display screen; the first sealing ring is arranged between the upper display screen and the middle frame.

Preferably, the display assembly further comprises a screen connecting arm set, and the screen connecting arm set is fixedly connected with the upper screen assembly and the rear screen assembly.

Preferably, the screen connecting arm set includes a middle connecting arm and two side connecting arms, the middle connecting arm and the side connecting arms extend along a reference plane perpendicular to the left-right direction and are arranged along the left-right direction, wherein the two side connecting arms are respectively located at the left side and the right side of the middle connecting arm;

well linking arm with the front end of side linking arm extends to the upper surface of last screen assembly and with last screen assembly fixed connection, well linking arm extends to with the rear end of side linking arm the rear surface of rear screen assembly and with the fixed connection of rear screen assembly.

Preferably, the front end of the middle connecting arm is provided with a first strip-shaped hole, the front end of the side connecting arm is provided with a second strip-shaped hole, and the length directions of the first strip-shaped hole and the second strip-shaped hole are consistent with the front-back direction;

the top surface of the upper screen assembly is provided with a first connecting column corresponding to the first strip-shaped hole, and the upper end surface of the first connecting column is provided with a first fixing hole; the top surface of the upper screen component is also provided with a second connecting column corresponding to the second strip-shaped hole, and the upper end surface of the first connecting column is provided with a second fixing hole.

Preferably, the front end of the middle connecting arm is provided with two first strip-shaped holes side by side along the left-right direction; the top surface of the upper screen component corresponds to each first strip-shaped hole and is provided with two first connecting columns.

Preferably, a positioning cavity is arranged at the middle section of the first strip-shaped hole in the front-back direction, and a second positioning column is arranged on the top surface of the upper screen assembly corresponding to the positioning cavity; the length of the positioning cavity in the front-back direction is greater than the outer diameter of the second positioning column, and the second positioning column is in limit fit with the positioning cavity in the left-right direction;

the top surface of the upper screen assembly is also provided with annular first reinforcing ribs, and the first reinforcing ribs are connected to two first connecting columns adjacent in the circumferential direction, and the first connecting columns and the second positioning columns adjacent in the circumferential direction.

Preferably, the rear end of the side connecting arm is provided with a third through hole, and a third fixing hole is formed in the back face of the rear screen assembly corresponding to the third through hole.

Preferably, the rear end of the middle connecting arm is provided with a plurality of second through holes extending along the front-rear direction and a plurality of second positioning holes extending along the front-rear direction; a third connecting column is arranged on the back surface of the rear screen assembly corresponding to the second through hole, and a third positioning column is arranged corresponding to the second positioning hole; and a fourth fixing hole is formed in the rear end face of the third connecting column.

Preferably, the mirror assembly further comprises a mirror support, the mirror support is in a ring shape and penetrates through the mirror support from front to back, and the half mirror is mounted at the front end of the mirror support;

the rear screen assembly comprises a rear cover, a front frame and a rear display screen, the front frame is annular and is communicated from front to back, the rear display screen is arranged at the front opening of the front frame, and the rear cover covers the rear opening of the front frame and is fixedly connected with the front frame; the rear end of the reflector bracket is fixedly connected with the rear cover and the front frame.

Preferably, the reflector bracket is provided with a plurality of first fixing columns extending backwards, and the rear end faces of the first fixing columns are provided with fifth fixing holes; the inner wall surface of the front frame is provided with a second through hole matched with the fifth fixing hole, and the rear cover is provided with a third through hole matched with the second through hole.

Preferably, the outer edge of the rear end of the reflector bracket is provided with a plurality of elastic sheets along the circumferential direction, each elastic sheet is provided with a clamping hole, and the outer circumferential surface of the front frame is provided with a buckle which is clamped with the clamping hole and corresponds to each elastic sheet.

Preferably, the reflector bracket is arranged in a suspended manner relative to the inner wall of the rear shell; gaps are formed between the light guide cylinder and the semi-reflecting mirror bracket as well as between the light guide cylinder and the reflecting mirror bracket.

According to the automobile instrument panel, the display assembly is only fixedly connected with the rear shell as a whole, so that even if the assembly precision between the light shield and the rear shell is poor, the position relation among the upper screen assembly, the half mirror and the rear screen assembly in the display assembly cannot be influenced, namely, the assembly error cannot be transmitted to the position precision among the upper screen assembly, the half mirror and the rear screen assembly, and therefore high initial assembly quality is guaranteed. Furthermore, the display assembly is fixedly connected with the rear shell only through the upper screen assembly, and all components of the display assembly are fixedly arranged with each other, so that even if the display assembly shakes relative to the rear shell in a vibration environment, the 3D display effect of the automobile instrument panel cannot be influenced. Therefore, the automobile instrument panel is easier to ensure the assembly quality and can keep a stable 3D display effect in a vibration environment.

Other advantages of the present invention will be described in the detailed description, and those skilled in the art will understand the technical features and technical solutions presented in the description.

Drawings

Preferred embodiments of an instrument panel for a vehicle according to the present invention will be described below with reference to the accompanying drawings. In the figure:

FIG. 1 is a schematic perspective view of a preferred embodiment of an instrument panel for a vehicle according to the present invention;

FIG. 2 is a front view of the instrument panel of the vehicle of FIG. 1;

FIG. 3 is a schematic cross-sectional view taken along line III-III of FIG. 2;

FIG. 4 is an enlarged view of a portion A of FIG. 3;

FIG. 5 is an enlarged view of a portion B of FIG. 3;

fig. 6 is a schematic view of a part of the enlarged structure at C in fig. 3.

FIG. 7 is a schematic view of an exploded view of the dashboard of the vehicle of FIG. 1;

FIG. 8 is a schematic view of an exploded view of the instrument panel of the vehicle of FIG. 1 from another angle;

FIG. 9 is an enlarged view of a portion of the structure of FIG. 8 at D;

FIG. 10 is a schematic front perspective view of the rear housing of FIG. 7 or FIG. 8;

FIG. 11 is an enlarged view of a portion E of FIG. 10;

FIG. 12 is a schematic view of a rear structure of a display assembly of the dashboard of the vehicle of FIG. 7 or FIG. 8;

FIG. 13 is a side view of the display assembly of FIG. 12;

FIG. 14 is an exploded view of the display assembly of FIG. 12;

FIG. 15 is an enlarged view of a portion of FIG. 14 at F;

FIG. 16 is an enlarged view of a portion of FIG. 14 at G;

FIG. 17 is a schematic view of the mating structure of the top shield assembly and the shield attachment arm assembly of FIG. 14;

FIG. 18 is an exploded view of the mating structure of FIG. 17;

FIG. 19 is a top view of the mating structure of FIG. 17;

FIG. 20 is an enlarged partial view of FIG. 19 at H;

FIG. 21 is a schematic sectional view taken along line XXI-XXI in FIG. 19;

FIG. 22 is an enlarged view of a portion J of FIG. 21;

FIG. 23 is a schematic view of the mating structure of the upper shield assembly and the rear bracket of FIG. 14;

FIG. 24 is an exploded view of the mating structure of FIG. 23;

FIG. 25 is a bottom view of the mating structure of FIG. 23;

FIG. 26 is a rear view of the mating structure of FIG. 23;

FIG. 27 is a schematic cross-sectional view taken along line XXVII-XXVII in FIG. 26;

FIG. 28 is an enlarged view of a portion K of FIG. 27;

FIG. 29 is an exploded view of the upper shield assembly of FIG. 14;

fig. 30 is an exploded view of the rear panel assembly of fig. 14.

The reference numbers illustrate:

Detailed Description

Referring to fig. 1 to 3, fig. 7, fig. 8 and fig. 14, in an embodiment, an instrument panel of an automobile according to the present invention includes an outer cover 100 and a display assembly 200 disposed inside the outer cover 100, wherein the outer cover 100 includes a light shield 10 and a rear shell 20, the rear shell 20 has a front mounting opening, and the light shield 10 covers the front mounting opening;

the light shield 10 includes an opening 11, a light shield 12 and a light guide tube 13, wherein the opening 11 is annular, and the light shield 12 extends backward from the upper edge of the opening 11; the light guide tube 13 is formed by extending backwards from the inner edge of the opening part 11; a top wall 141 opposite to the light shielding part 12 is formed on the top of the light guide cylinder 13, and a window 142 is arranged on the top wall 141;

the display assembly 200 comprises an upper screen assembly 50, a reflector assembly 60 and a rear screen assembly 70 which are fixedly arranged with each other, wherein the reflector assembly 60 comprises a semi-reflecting mirror 61, the semi-reflecting mirror 61 is arranged to incline forwards from top to bottom, the rear screen assembly 70 is arranged behind the semi-reflecting mirror 61, and the upper screen assembly 50 is arranged above the semi-reflecting mirror 61;

the upper screen assembly 50 is arranged between the top wall 141 of the light guide cylinder 13 and the light shielding part 12 and is arranged in a non-contact manner with the light shield 10; the display screen of the upper screen assembly 50 is exposed out of the window 142, and the upper screen assembly 50 is fixedly connected with the rear shell 20; the mirror assembly 60 is disposed in non-contact with the housing 100.

In this embodiment, the housing 100 is used to form a relatively closed protective structure for the display assembly 200, wherein the rear housing 20 is the primary support structure; the light shield 10 serves to cover the front side of the display assembly 200, thereby forming the above-described protective structure in cooperation with the rear case 20. The driver can observe the meter information displayed on the instrument panel of the automobile through the opening 11 of the light shield 10. It will be appreciated that in the cab of the vehicle, if excessive ambient light is applied to the display screen of the dashboard of the vehicle, reflected light will be generated which will cause the information to be displayed indistinctly, and the light shield 10 is used to shield such a portion of the ambient light to ensure the reliability of the information display of the dashboard of the vehicle. Since the light shield 10 has a relatively complicated shape and is an exterior part, the light shield 10 is generally formed by splicing a plurality of parts, and the prior manufacturing process of the component parts of the light shield 10 is preferably an injection molding process.

It can be understood that, the light guide tube 13 can gather light and shade light from the inside, and in addition, a box-shaped space is formed by enclosing the light shading part 12 and the light guide tube 13, and a better protection effect can be also achieved on the upper screen assembly 50.

The upper screen assembly 50 is disposed in a non-contacting relationship with the light shield 10, i.e., the upper screen assembly 50 can be swung relative to the light shield 10 without colliding with the light shield 10. Preferably, in order to achieve a compact design and reduce the volume of the product, referring to fig. 4 and 5, a small gap is formed between the lower frame 53 of the upper screen assembly 50 and the top wall 141 of the light shield 10, so as to prevent collision and reduce dust entering the inner cavity of the light shield 10. Similarly, the mirror assembly 60 is disposed in non-contact with the housing 100, meaning that gaps or larger cavities are formed between the mirror assembly 60 and the light shield 10, and between the mirror and the rear housing 20.

It is understood that, in order to form a 3D display effect, the half mirror 61 serves to transmit a first image projected forward of the rear screen assembly 70 and to reflect a second image projected downward of the upper screen assembly 50 forward; forming a predetermined space between the real image of the first image and the virtual image of the second image to combine to form a 3D display effect;

in order to achieve both the display effect and the cost reduction of the dashboard of the automobile, the display screens of the upper screen assembly 50 and the rear screen assembly 70 are preferably segment code screens or TFT display screens. It will be appreciated that, in order to project the first image forwardly, the display screen of the rear screen assembly 70 is generally disposed forwardly; similarly, to project the second image downward, the display screen of the upper screen assembly 50 is disposed downward. In a particular implementation of the method of the invention,

the half mirror 61 has both reflectivity and transmissivity with respect to light, i.e., semi-transmissivity and semi-reflectivity. The half mirror 61 is typically a glass-coated member. The display screen of the top screen assembly 50 and the display screen of the rear screen assembly 70 are generally symmetrical about the half mirror 61, but for better naked-eye 3D display, one of the two display screens may also be slightly off the symmetrical position, for example, the angle between the rear code-breaking screen and the half mirror 61 is 45 °, and the angle between the code-breaking screen and the support of the half mirror 61 is 47 °.

In the instrument panel of the invention, the display assembly 200 is fixedly connected with the rear shell 20 as a whole, so that even if the assembly precision between the light shield 10 and the rear shell 20 is poor, the position relation among the upper screen assembly 50, the half mirror 61 and the rear screen assembly 70 in the display assembly 200 is not influenced, namely, the assembly error is not transmitted to the position precision among the upper screen assembly 50, the half mirror 61 and the rear screen assembly 70, thereby ensuring higher initial assembly quality. Further, the display assembly 200 is fixedly connected to the rear case 20 only through the upper screen assembly 50, and the components of the display assembly 200 are fixedly disposed to each other, so that even if the display assembly 200 shakes with respect to the rear case 20 in a vibration environment, the 3D display effect of the dashboard of the vehicle is not affected. Therefore, the automobile instrument panel is easier to ensure the assembly quality and can keep a stable 3D display effect in a vibration environment.

Further, referring to fig. 3 to 5, 10 to 12, 17 and 18, 21 and 29 again, in an embodiment, the rear housing 20 is provided with a front connecting plate 22 extending in the vertical direction in the front mounting opening; the top surface of the upper screen assembly 50 is provided with a first lug 511, and the first lug 511 is attached and fixedly connected with the front connecting plate 22.

In this embodiment, the first lug 511 is connected to the rear case 20 to provide better connection strength and installation flexibility than the outer surface of the housing of the rear screen assembly 70, so as to better realize the "single-point suspension" fixing mode of the display assembly 200. That is, only the first protrusion 511 of the display module 200 is fixedly connected to the rear case 20, and the other portions are suspended from the housing 100.

Further, the front connecting plate 22 is provided with a first screw hole 221 and a first positioning column 222, and the first lug 511 is provided with a first through hole 511a adapted to the first screw hole 221 and a first positioning hole 511b adapted to the first positioning column 222.

In this embodiment, the first positioning posts 222 and the fastening member are matched to secure the upper screen assembly 50 and ensure sufficient assembly accuracy.

Further, a guide plate 23 is arranged at the upper edge of the rear shell 20, the guide plate 23 is arranged to incline forwards from top to bottom, and the guide plate 23 and the light shielding part 12 can be in sliding lap joint along the front-back direction; the front connection plate 22 is formed extending downward from the front edge of the guide plate 23.

In this embodiment, the guide plate 23 is provided to make the assembly of the rear cover smoother and reduce the shaking in the assembly process. In combination with this, since the guide plate 23 can better protrude above the upper screen assembly 50, when the front connection plate 22 is connected to the front edge of the guide plate 23, the first lug 511 can be correspondingly arranged forward, so that the connection position of the first lug 511 and the front connection plate 22 is closer to the upper screen assembly 50 in a top view projection and the center of gravity of the entire display assembly 200, thereby reducing the gravity overturning moment and relatively increasing the connection strength of the first lug 511 and the front connection plate 22.

Furthermore, the middle part of the guide plate 23 is provided with two avoidance gaps 231, and the two front connecting plates 22 are respectively arranged at two sides of the avoidance gaps 231; the first lugs 511 are provided in two, and the two first lugs 511 are provided in one-to-one correspondence with the two front connection plates 22.

In this embodiment, the middle position of the guide plate 23 is a relatively important installation space, and the clearance gap 231 is formed in the middle of the guide plate 23 to ensure that an important structural member passes through the clearance gap, such as the middle connecting arm 81 in the following embodiments. The two first lugs 511 provided on the guide plate 23 while the clearance gap 231 is opened are advantageous for dispersing the gravity load or acceleration load of the display assembly 200, such as acceleration or deceleration, thereby better ensuring the connection strength.

Further, the upper screen assembly 50 includes an upper cover 51, a base 52 and an upper display screen 53; the base 52 has a cylindrical cavity penetrating vertically, the upper display 53 is provided in the cavity of the base 52, the upper cover 51 is fixedly fitted over the upper end of the base 52, and the first lug 511 is provided on the upper surface of the upper cover 51.

In this embodiment, the housing of the top screen assembly 50 is provided as several separate parts, so that more complex inner cavities can be conveniently combined, and the assembly of the internal components of the top screen assembly 50 is facilitated. Since the upper cover 51 is the closest part to the guide plate 23, the provision of the first lug 511 on the upper surface of the upper cover 51 facilitates the simplification of the structure while ensuring the connection. Specifically, the upper cover 51 may be formed by an injection molding process, and the first lug 511 is integrally formed with the upper cover 51.

Further, the base 52 includes a middle frame 52 and a lower frame 53, the upper display 53 is a code breaking screen, the upper screen assembly 50 further includes an upper circuit board 55, an upper light guide (not shown), and a first sealing ring 56;

the middle frame 52 is annular and is penetrated up and down, the upper circuit board 55 is covered at the upper end of the middle frame 52, and the upper cover 51 is covered with the upper circuit board 55 and is fixedly connected with the middle frame 52;

the upper display screen 53 is arranged at the lower end of the middle frame 52, and the lower frame 53 is abutted against the lower surface of the edge part of the upper display screen 53 and fixedly connected with the middle frame 52;

the lower surface of the upper circuit board 55 is provided with a light source, and the upper light guide component is arranged between the upper circuit board 55 and the upper display screen 53 and used for guiding light beams emitted by the light source to the patterns of the upper display screen 53; the first seal ring 56 is disposed between the upper display 53 and the middle frame 52.

In the present embodiment, since the upper display screen 53 is provided toward the half mirror 61 below, the risk of falling off is greater than that of the rear display screen 73 arranged in the vertical direction. The base 52 is further divided into a middle frame 52 and a lower frame 53, so that the upper display screen 53 can be limited, and the upper display screen 53 is prevented from falling off. The first sealing ring 56 is disposed between the middle frame 52 and the upper display 53 to prevent moisture and dust from entering the light guide cavity between the upper circuit board 55 and the upper display 53.

Further, referring to fig. 7 to 9, 12 to 22 and 26, in an embodiment, the display assembly 200 further includes a screen connecting arm set 80, and the screen connecting arm set 80 is fixedly connected to the upper screen assembly 50 and the rear screen assembly 70.

In this embodiment, it is more reliable to connect the rear screen assembly 50 and the rear screen assembly 70 by specially arranging the screen connecting arm set 80, compared with the case that the rear cover 71 of the rear screen assembly 70 is directly fixed to the upper cover 51 of the upper screen assembly 50 to maintain the relative positions of the rear screen assembly 70 and the upper screen assembly 50.

Further, the panel connection arm group 80 includes a middle connection arm 81 and two side connection arms 82, the middle connection arm 81 and the side connection arms 82 extending along a reference plane perpendicular to the left-right direction and being arranged along the left-right direction, wherein the two side connection arms 82 are respectively located at left and right sides of the middle connection arm 81;

the front ends of middle connecting arm 81 and side connecting arm 82 extend to the upper surface of upper screen assembly 50 and are fixedly connected with upper screen assembly 50, and the rear ends of middle connecting arm 81 and side connecting arm 82 extend to the rear surface of rear screen assembly 70 and are fixedly connected with rear screen assembly 70.

In this embodiment, the screen connecting arm group 80 may balance the stress by arranging a plurality of connecting arms in parallel, and ensure sufficient connection strength. In addition, a plurality of linking arms set up side by side along left and right sides direction, and the space that wholly occupies is also relatively flat like this, and with this adaptation, the upper wall of backshell 20 also can be followed left and right direction and extended gently relatively, can not form the recess that the atress is concentrated to overall structure is more compact not only, and the intensity of backshell 20 is also better.

Furthermore, a first strip-shaped hole 811 is formed in the front end of the middle connecting arm 81, a second strip-shaped hole 812 is formed in the front end of the side connecting arm 82, and the length directions of the first strip-shaped hole 811 and the second strip-shaped hole 812 are consistent with the front-back direction;

a first connecting column 512 is arranged on the top surface of the upper screen component 50 corresponding to the first strip-shaped hole 811, and a first fixing hole 512a is arranged on the upper end surface of the first connecting column 512; the top surface of the upper screen assembly 50 is further provided with a second connecting column 513 corresponding to the second strip-shaped hole 812, and the upper end surface of the first connecting column 512 is provided with a second fixing hole 513 a.

In the present embodiment, the upper screen assembly 50 and the middle and side connecting arms 81 and 82 can be fixed by engaging fasteners, such as screws or bolts, with the first fixing holes 512a and the second fixing holes 513a, respectively, as an example. By aligning the first fixing holes 512a with different positions of the first bar-shaped holes 811 and aligning the second fixing holes 513a with different positions of the second bar-shaped holes 812, the upper screen assembly 50 can be fixed after adjusting the position of the upper screen assembly 50 in the front-back direction, thereby ensuring correct projection of the first image and avoiding display of the image in a staggered manner.

Furthermore, two first strip-shaped holes 811 are arranged at the front end of the middle connecting arm 81 side by side along the left-right direction; two first connecting columns 512 are arranged on the top surface of the upper screen component 50 corresponding to each first strip-shaped hole 811.

In this embodiment, through setting up two first bar holes 811 and collocation setting up four first connecting posts 512, so, can form the multiple spot between well linking arm 81 and last screen assembly 50 after adopting the fastener and cooperating with first fixed orifices 512a and fix, a plurality of fixed points form the face to the ability that prevents to screen assembly 50 and rock has been strengthened.

Furthermore, a positioning cavity 811a is arranged at the middle section of the first strip-shaped hole 811 in the front-back direction, and a second positioning column 514 is arranged on the top surface of the upper screen assembly 50 corresponding to the positioning cavity 811 a; the length of the positioning cavity 811a in the front-back direction is greater than the outer diameter of the second positioning column 514, and the second positioning column 514 is in limit fit with the positioning cavity 811a in the left-right direction;

the top surface of the upper screen assembly 50 is further provided with a ring-shaped first reinforcing rib 515, the first reinforcing rib 515 connects two circumferentially adjacent first connecting columns 512, and the circumferentially adjacent first connecting columns 512 and second positioning columns 514.

In this embodiment, the second positioning post 514 can slide in the positioning cavity 811a in the front-back direction, but the positioning cavity 811a can limit the movement of the second positioning post 514 in the left-right direction, so as to ensure the accuracy of the position of the upper screen assembly 50 in the left-right direction. The strength of the first connecting column 512 and the second positioning column 514 can be increased at the same time by providing the first reinforcing rib 515, so that the connecting strength and the position accuracy are ensured.

Further, a third through hole 822 is formed at the rear end of the side connecting arm 82, and a third fixing hole 711 is formed on the rear surface of the rear panel assembly 70 corresponding to the third through hole 822.

In this embodiment, the connection between the side connecting arms 82 and the rear panel assembly 70 is simplified on the premise that the upper panel assembly 50 can be adjusted, for example, a fastener is used to pass through the third through hole 822 and cooperate with the third fixing hole 711 to fixedly connect the rear panel assembly 70 and the side connecting arms 82, so that the relative position between the upper panel assembly 50 and the rear panel assembly 70 is adjusted with reference to the rear panel assembly 70, thereby simplifying the adjustment operation.

Further, the rear end of the middle connecting arm 81 is provided with a plurality of second through holes 812 extending in the front-rear direction, and a plurality of second positioning holes 813 extending in the front-rear direction; the back of the rear screen assembly 70 is provided with a third connecting column 712 corresponding to the second through hole 812 and a third positioning column 713 corresponding to the second positioning hole 813; the rear end surface of the third connecting column 712 is provided with a fourth fixing hole 712 a.

In this embodiment, the rear end of the middle connecting arm 81 is fixed to the rear panel assembly 70 without adjustment, which simplifies the adjustment of the positional relationship between the upper panel assembly 50 and the rear panel assembly 70, similarly to the previous embodiment. Through setting up a plurality of third spliced poles 712 can disperse the atress and increase joint strength, and the cooperation that sets up third reference column 713 and second locating hole 813 that combines together is favorable to guaranteeing the position precision of being connected between linking arm 81 and the rear screen subassembly 70.

Further, referring to fig. 3, fig. 5 to fig. 8, fig. 12 to fig. 14, fig. 23 to fig. 28, and fig. 30, in an embodiment, the mirror assembly 60 further includes a mirror holder 62, the mirror holder 62 is in a ring shape penetrating from front to back, and a half mirror 61 is mounted at a front end of the mirror holder 62;

the rear screen assembly 70 comprises a rear cover 71, a front frame 72 and a rear display screen 73, wherein the front frame 72 is annular and penetrates in the front and the rear direction, the rear display screen 73 is installed at the front opening of the front frame 72, and the rear cover 71 covers the rear opening of the front frame 72 and is fixedly connected with the front frame 72; the rear end of the mirror holder 62 is fixedly connected to the rear cover 71 and the front frame 72.

In this embodiment, compared with the half mirror 61 and the display screen of the rear screen assembly 70 or the upper screen assembly 50 sharing the same support frame, in this embodiment, the half mirror 61 is mounted on the mirror support 62, which is beneficial to modular assembly and simplification of the corresponding support frame, and the molding difficulty and manufacturing cost of the support frame are reduced.

To facilitate the assembly of the display assembly 200 as a whole, it is preferable that the inner cavity of the rear case 20 is provided with a plurality of sliding docking structures (not numbered) having sliding docking surfaces extending in the front-rear direction, and the display assembly 200 further includes a rear bracket (not numbered) fixedly disposed at the rear surface of the rear screen assembly 70; the back bracket has a plurality of sliding structures (not numbered) extending out of the back of the rear panel assembly 70 along a reference plane perpendicular to the front-to-back direction in the rear panel assembly 70 and the back bracket; the sliding structure has a sliding mating surface extending in the front-rear direction and slidably mating with the sliding mating surface, the display module 200 is fixedly connected to the rear case 20, and the lower end of the rear bracket is fixedly connected to the rear end of the mirror bracket 62.

Specifically, in an embodiment, the rear panel assembly 70 further includes a rear circuit board 74, a second sealing ring 75, an upper limiting plate 76, a lower limiting plate 77, and a rear light guide member, the front frame 72 is annular and penetrates forward and backward, the rear circuit board 74 covers the rear end of the front frame 72, the rear combination screen is mounted at the front end of the front frame 72, and the upper limiting plate 76, the lower limiting plate 77 and the front frame 72 are fixedly connected and abut against the front surface of the edge portion of the rear combination screen. The front surface of the rear circuit board 74 is provided with a light source, and the rear light guide member is arranged between the rear broken code screen and the rear circuit board 74 and used for guiding light beams emitted by the light source to the pattern of the rear section code screen.

Further, the reflector bracket 62 is provided with a plurality of first fixing posts 621 extending backwards, and a rear end surface of the first fixing posts 621 is provided with a fifth fixing hole 621 a; the inner wall surface of the front frame 72 is provided with a second through hole 721 fitted to the fifth fixing hole 621a, and the rear cover 71 is provided with a third through hole 714 fitted to the second through hole 721.

In this embodiment, the first fixing post 621 extending into the inner cavity of the front frame 72 is disposed on the reflector bracket 62, and then the second through hole 721 and the third through hole 714 are disposed at the positions where the front frame 72 and the rear cover 71 are overlapped and correspond to the fixing posts, so that a fastener is disposed to pass through the third through hole 714 and the second through hole 721 and to be matched with the second fixing hole 513a, so as to fix the three components of the reflector bracket 62, the front frame 72, and the rear cover 71 together, thereby simplifying the corresponding assembly and realizing the compact design of the structure. Preferably, in order to pre-fix the reflector holder 62 and the front frame 72 holder, a plurality of elastic pieces 622 are arranged on the outer edge of the rear end of the reflector holder 62 along the circumferential direction, each elastic piece 622 is provided with a clamping hole 622a, and a buckle 722 clamped with the clamping hole 622a is arranged on the outer circumferential surface of the front frame 72 corresponding to each elastic piece 622. In this way, the rear end of the mirror support 62 and the front frame 72 can be clamped in advance, so that the three parts of the mirror support 62, the front frame 72 and the rear cover 71 can be fixed together conveniently by further using fasteners such as screws to pass through the third through holes 714 and the second through holes 721 and to be matched with the second fixing holes 513 a.

Further, referring to fig. 3, fig. 10 and fig. 11 again, in order to connect the light shield 10 and the rear shell 20, the inner wall of the light shield 10 is provided with a plurality of second fixing posts 13 extending rearward, and the rear end surface of the second fixing posts 13 is provided with sixth fixing holes 131; the inner cavity of the rear housing 20 is provided with a plurality of fourth through holes 211 adapted to the sixth fixing holes 131 in the circumferential direction of the front mounting opening.

Further, referring to fig. 3, fig. 5 and fig. 6 again, in order to realize the compact design of the dashboard of the automobile, the reflector bracket 62 is suspended in the air relative to the inner wall of the rear shell 20; gaps are formed between the light guide tube 13 and the half mirror 61 holder, and between the light guide tube 13 and the mirror holder 62.

It will be appreciated by those skilled in the art that the above-described preferred embodiments may be freely combined, superimposed, without conflict.

It will be understood that the embodiments described above are illustrative only and not restrictive, and that various obvious and equivalent modifications and substitutions for details described herein may be made by those skilled in the art without departing from the basic principles of the invention.