CN218877114U - Ceiling screen - Google Patents

Abstract

The utility model relates to the technical field of auto-parts, in particular to inhale a screen, this inhale a screen includes: installing a base; the display screen assembly is characterized in that a rotating shaft bracket is fixedly arranged at one long side edge of the display screen assembly; the torsional spring rotating shaft assembly is suitable for rotatably mounting one end of the rotating shaft bracket on the mounting base; the unidirectional damping rotating shaft assembly is suitable for being installed at the other end of the rotating shaft bracket; the driving component is arranged on the mounting base and is suitable for driving the one-way damping rotating shaft component to drive the display screen assembly to rotate; when the display screen assembly is pushed by an external force, the joint of the unidirectional damping rotating shaft component and the driving component does not rotate; this inhale a screen can avoid the pivot support to drive its and drive assembly's junction to take place relative rotation and cause destruction to drive assembly's inner structure to make the display screen assembly both can open and shut through automatically controlled drive by drive assembly for the installation base, also can realize manual regulation that opens and shuts.

Description

Ceiling screen

Technical Field

The utility model relates to the technical field of auto-parts, in particular to inhale a screen.

Background

The ceiling screen is a vehicle-mounted comfortable and recreational device which is arranged on the top of a vehicle and is used for playing multimedia information.

The current electronic control vehicle-mounted ceiling screen can only open the display screen or adjust the opening amplitude of the display screen in an electronic control mode, and the display screen of the ceiling screen cannot be manually adjusted, so that the motor can be damaged once the display screen is manually broken or collided to rotate.

Therefore, it is necessary to design a ceiling screen to solve the problem that the motor is damaged when the display screen of the electric control ceiling screen rotates under an external force.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an inhale a screen to solve the automatically controlled display screen who inhales a screen and rotate the problem that can damage the motor under the exogenic action.

In order to solve the technical problem, the utility model provides an inhale a screen, include: installing a base; the display screen assembly is characterized in that a rotating shaft bracket is fixedly arranged at one long side edge of the display screen assembly; the torsional spring rotating shaft assembly is suitable for rotatably mounting one end of the rotating shaft bracket on the mounting base; the one-way damping rotating shaft assembly is suitable for being installed at the other end of the rotating shaft bracket; the driving component is arranged on the mounting base and is suitable for driving the one-way damping rotating shaft component to drive the display screen assembly to rotate; when the display screen assembly is pushed by an external force, the joint of the unidirectional damping rotating shaft component and the driving component does not rotate.

Further, the one-way damping spindle assembly comprises: one end of the first rotating shaft is fixedly arranged on the rotating shaft bracket, and the other end of the first rotating shaft is provided with a butt joint hole; one end of the second rotating shaft is provided with a butt joint bulge matched with the butt joint hole; the butt joint hole and the butt joint bulge are suitable for being in rotary connection through a one-way rotary damper, so that the first rotating shaft can rotate in one direction relative to the second rotating shaft.

Furthermore, one end of the second rotating shaft, which faces the driving assembly, is provided with a butt joint groove; the drive assembly includes: one end of the output shaft is provided with a butt joint strip matched with the butt joint groove; the output end of the speed reducer is suitable for being connected with the other end of the output shaft; and the output end of the motor is suitable for being connected with the input end of the speed reducer.

Further, the torsion spring pivot subassembly includes: the first rotating shaft support is fixedly arranged on the mounting base; one end of the rotating shaft is fixedly arranged on the first rotating shaft bracket; the second rotating shaft bracket is fixedly arranged on the rotating shaft bracket and is in rotatable fit with the other end of the rotating shaft; and the torsional spring is sleeved on the periphery of the rotating shaft, and two ends of the torsional spring are respectively fixed with the first rotating shaft support and the second rotating shaft support.

Further, a hollow part for accommodating a screen wire to pass through is formed inside the rotating shaft 32; and screen line outlet openings positioned at two ends of the rotating shaft are provided with chamfers.

Furthermore, screen line fixing buckles are respectively arranged on the first rotating shaft support and the second rotating shaft support.

Further, the display screen assembly further comprises: the display screen front frame, the display screen main body and the display screen rear shell are sequentially stacked and fixed; the rotating shaft bracket is suitable for being fixedly arranged at the joint of the display screen front frame and the display screen rear shell; the display screen front frame and the display screen rear shell are located the junction of pivot support both sides is provided with the strengthening rib respectively, and the tip of each strengthening rib is fixed mounting respectively in the both ends of pivot support.

Furthermore, two sides of the front frame of the display screen are respectively provided with a first supporting strip towards the rear shell of the display screen; two second supporting strips which are staggered with the first supporting strips are arranged on two sides of the display screen rear shell towards the display screen front frame respectively; two sides of the main body part of the reinforcing rib are respectively provided with a long bending part and a short bending part towards the rear shell of the display screen; the tops of the two second supporting strips and the top of the first supporting strip are respectively abutted against the two sides of the main body part of the corresponding reinforcing rib, and the outer sides of the two second supporting strips are respectively abutted against the inner sides of the long bending part and the short bending part of the corresponding reinforcing rib.

Furthermore, a mounting bracket matched with the vehicle roof is further arranged on one side, close to the vehicle roof, of the mounting base; and one side of the mounting base towards the rear of the vehicle is detachably provided with a key support.

Furthermore, a groove matched with the appearance of the display screen assembly is further formed in the other side, located on the mounting support, of the mounting base; the groove faces the display screen assembly, at least two screen locking buckles are arranged at intervals on the groove, and buckle supports matched with the screen locking buckles are arranged on the display screen assembly.

The beneficial effects of the utility model are that, the utility model discloses an one-way damping pivot subassembly can avoid the pivot support to drive its junction with drive assembly to take place relative rotation and cause destruction to drive assembly's inner structure at the display screen assembly when being broken off with the fingers and thumb or receiving the striking manually to make the display screen assembly both can open and shut through automatically controlled drive by drive assembly for the installation base, also can realize the manual regulation that opens and shuts.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

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 embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are 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 perspective view of the ceiling screen of the present invention in a closed state;

FIG. 2 is a top view of the ceiling screen of the present invention in a closed state;

FIG. 3 isbase:Sub>A cross-sectional view taken along A-A of FIG. 2 andbase:Sub>A partially enlarged schematic view thereof;

FIG. 4 is a schematic view of the junction of the torsion spring shaft assembly and the shaft bracket of the ceiling screen of the present invention;

FIG. 5 is a perspective view of the open position of the ceiling screen of the present invention;

fig. 6 is a side view of the display screen assembly of the present invention;

fig. 7 is a partial sectional view of fig. 6 taken along the direction B-B and a partially enlarged schematic view thereof.

In the figure:

the device comprises a mounting base 1, a mounting bracket 11, a key bracket 12 and a screen locking buckle 13;

the display screen assembly comprises a display screen assembly 2, a rotating shaft support 21, a display screen front frame 22, a first support strip 221, a display screen main body 23, a display screen rear shell 24, a second support strip 241, a reinforcing rib 25, a main body part 251, a long bending part 252, a short bending part 253 and a buckle support 26;

the torsion spring rotating shaft component 3, the first rotating shaft bracket 31, the rotating shaft 32, the hollow part 321, the chamfer 322, the second rotating shaft bracket 33, the torsion spring 34 and the screen line fixing buckle 35;

the one-way damping rotating shaft component 4, a first rotating shaft 41, a butt joint hole 411, a second rotating shaft 42, a butt joint bulge 421 and a butt joint groove 422;

drive assembly 5, output shaft 51, butt joint strip 511, speed reducer 52, motor 53.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 to 3, the present embodiment provides a ceiling screen, including: installing a base 1; the display screen assembly 2 is fixedly provided with a rotating shaft bracket 21 at one long side edge; a torsion spring rotating shaft component 3 which is suitable for rotatably mounting one end of a rotating shaft bracket 21 on the mounting base 1; a one-way damping rotating shaft component 4 which is suitable for being arranged at the other end of the rotating shaft bracket 21; the driving component 5 is arranged on the mounting base 1 and is suitable for driving the one-way damping rotating shaft component 4 to drive the display screen assembly 2 to rotate; when the display screen assembly 2 is pushed by an external force, the joint of the unidirectional damping rotating shaft component 3 and the driving component 5 does not rotate.

In this embodiment, the one-way damping rotating shaft component 4 can prevent the rotating shaft support 21 from driving the joint of the rotating shaft support and the driving component 5 to rotate relatively and damage the internal structure of the driving component 5 when the display screen assembly 2 is manually broken or impacted, so that the display screen assembly 2 can be opened and closed through electric control driving by the driving component 5 relative to the installation base 1, and manual opening and closing adjustment can also be realized.

In this embodiment, the unidirectional damping spindle assembly 4 comprises: a first rotating shaft 41, one end of which is fixedly installed on the rotating shaft bracket 21 and the other end of which is provided with a butt hole 411; a second rotating shaft 42, one end of which is provided with a docking protrusion 421 matching with the docking hole 411; wherein the abutting hole 411 and the abutting protrusion 421 are adapted to be rotationally connected through a unidirectional rotation damper, so that the first rotating shaft 41 can rotate unidirectionally relative to the second rotating shaft 42.

In the present embodiment, when the driving component 5 drives the display screen assembly 2 to open and close through electric control, the first rotating shaft 41 and the second rotating shaft 42 rotate synchronously; when the display screen assembly 2 is rotated and opened by an external force, the rotation shaft bracket 21 drives the first rotation shaft 41 to rotate relative to the second rotation shaft 42 through the unidirectional rotation damper, and the joint of the second rotation shaft 42 and the driving component 5 is kept static, so as to avoid the damage of the external force to the internal structure of the driving component 5.

In this embodiment, one end of the second rotating shaft 42 facing the driving assembly 5 is provided with a docking slot 422; the drive assembly 5 comprises: an output shaft 51, one end of which is provided with a docking bar 511 matching with the docking groove 422; a speed reducer 52, the output end of which is suitable for being connected with the other end of the output shaft 51; and a motor 53, the output end of which is suitable for being connected with the input end of the speed reducer 52.

As shown in fig. 3 and 4, in the present embodiment, the torsion spring rotary shaft assembly 3 includes: a first pivot bracket 31 fixedly mounted on the mounting base 1; a rotation shaft 32 having one end fixedly mounted on the first rotation shaft bracket 31; a second rotating shaft bracket 33 fixedly installed on the rotating shaft bracket 21, and rotatably engaged with the other end of the rotating shaft 32; and a torsion spring 34, which is sleeved on the periphery of the rotating shaft 32, and two ends of which are respectively fixed with the first rotating shaft bracket 31 and the second rotating shaft bracket 33.

In the present embodiment, when the driving component 5 drives the one-way damping rotating shaft component 4 to drive the rotating shaft bracket 21 to rotate or the display screen assembly 2 is subjected to an external force to drive the rotating shaft bracket 21 to rotate, the rotating shaft bracket 21 drives the second rotating shaft bracket 33 at the end portion thereof to rotate around the rotating shaft 32 fixedly installed on the first rotating shaft bracket 31, so as to facilitate the opening and closing of the display screen assembly 2 relative to the installation base 1; when the display screen assembly 2 is closed (as shown in fig. 1), the torsion spring 34 is at an initial position, and the torque is the largest and greater than the pivot damping of the one-way damping pivot component 4, so as to pull the pivot bracket 21 to drive the display screen assembly 2 to rotate, and when the display screen assembly 2 is popped up to be completely opened (as shown in fig. 5), the torque of the torsion spring 34 is gradually released and becomes smaller along with the rotation.

In this embodiment, a hollow portion 321 for accommodating the screen wire to pass through is formed inside the rotating shaft 32; and the screen wire outlet ports positioned at the two ends of the rotating shaft 32 are provided with chamfers 322, so that the screen wires can be prevented from being cut by the outlet ports at the two sides of the rotating shaft 32.

In this embodiment, the first rotating shaft support 31 and the second rotating shaft support 33 are respectively provided with a screen line fixing buckle 35, so that the position of the screen line can be fixed, the screen line is prevented from shaking and moving to cause friction damage, and the outside of the screen line can be provided with a wear-resistant material sleeve.

As shown in fig. 6 and fig. 7, in this embodiment, the display screen assembly 2 further includes: the display screen front frame 22, the display screen main body 23 and the display screen rear shell 24 are sequentially stacked and fixed; wherein the rotating shaft bracket 21 is suitable for being fixedly arranged at the joint of the display screen front frame 22 and the display screen rear shell 24; the display screen front frame 22 and the display screen rear shell 24 are respectively provided with reinforcing ribs 25 at the connection positions of the two sides of the rotating shaft support 21, and the end parts of the reinforcing ribs 25 are respectively fixedly installed at the two ends of the rotating shaft support 21.

In this embodiment, the rotating shaft bracket 21 between the front frame 22 and the rear housing 24 can increase the anti-distortion strength of the rotating position of the display assembly 2 relative to the mounting base 1, the two sides of the front frame 22 and the rear housing 24 form a front cover and a rear cover, and the reinforcing ribs 25 are arranged inside the front cover and the rear cover to increase the anti-distortion strength of the two sides of the display.

In this embodiment, the two sides of the front frame 22 are respectively provided with a first supporting bar 221 facing the rear shell 24; two second supporting bars 241 staggered with the first supporting bars 221 are respectively arranged on two sides of the display screen rear shell 24 facing the display screen front frame 22; the two sides of the main body 251 of the reinforcing rib 25 are respectively provided with a long bending part 252 and a short bending part 253 facing the display screen rear shell 24; the tops of the two second supporting bars 241 and the first supporting bar 221 respectively abut against two sides of the main body portion 251 of the corresponding reinforcing rib 25, and the outer sides of the two second supporting bars 241 respectively abut against the inner sides of the long bending portion 252 and the short bending portion 253 of the corresponding reinforcing rib 25.

In the present embodiment, the display panel main body 23 is prevented from bending and deforming under the condition of stress at a single-side corner by two bending designs of the long bending portion 252 and the short bending portion 253 of the reinforcing rib 25 and the strength of the plastic shell additionally added on the display panel front frame 22 and the display panel rear shell 24.

In the embodiment, a mounting bracket 11 matched with the roof is further arranged on one side, close to the roof, of the mounting base 1; and one side of the mounting base 1 towards the rear of the vehicle is detachably provided with a key support 12.

In the embodiment, the mounting bracket 11 is detachably arranged, can be clamped on a corresponding metal bracket at the top in the carriage and is pre-fixed, after the angle of the display screen is adjusted, the whole mounting base 1 is mounted on the mounting bracket 11, four corners are fixed through screws, and the screws are prevented from falling off by plugging rubber plugs; the key holder 12 is used for mounting a key assembly detached from the vehicle cabin.

In this embodiment, all install the relevant position at installation base 1 for mainboard, buckle subassembly, speaker etc. of inhaling the top screen to cover in the mainboard outside and establish a shade in order to protect the mainboard.

In this embodiment, a groove matched with the appearance of the display screen assembly 2 is further arranged on the other side of the mounting bracket 11 of the mounting base 1; the groove faces the display screen assembly 2 and is provided with at least two screen locking buckles 13 at intervals, and the display screen assembly 2 is provided with buckle supports 26 matched with the screen locking buckles 13.

In this embodiment, can set up press switch control lock screen buckle 13, when the display screen closes the screen, lock screen buckle 13 stretches out with corresponding buckle support 26 joint, withdraws through press switch when lock screen buckle 13, then breaks away from with corresponding buckle support 26, then display screen assembly 2 pops out.

In summary, when the display screen assembly 2 is rotated and opened by an external force, the rotation shaft bracket 21 drives the first rotation shaft 41 to rotate relative to the second rotation shaft 42 through the unidirectional rotation damper, and the joint of the second rotation shaft 42 and the driving component 5 is kept stationary, so as to prevent the external force from damaging the internal structure of the driving component 5. When the display screen assembly 2 is closed, the torsion spring 34 is in the initial position, the torsion force is the largest and is greater than the rotating shaft damping of the one-way damping rotating shaft component 4, the rotating shaft support 21 can be pulled to drive the display screen assembly 2 to rotate, and when the display screen assembly 2 is popped up to be completely opened, the torsion force of the torsion spring 34 is gradually released and reduced along with the rotation. The design of bending the long bending part 252 and the short bending part 253 of the reinforcing rib 25 and the strength of the plastic shell additionally added on the front frame 22 and the rear shell 24 of the display screen enable the main body 23 of the display screen to be prevented from bending deformation under the condition of stress at a single-side corner.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. A ceiling screen, comprising:

a mounting base (1); and

a rotating shaft bracket (21) is fixedly arranged at one long side edge of the display screen assembly (2);

the torsion spring rotating shaft assembly (3) is suitable for rotatably mounting one end of the rotating shaft bracket (21) on the mounting base (1);

a one-way damping rotating shaft component (4) which is suitable for being arranged at the other end of the rotating shaft bracket (21);

the driving component (5) is arranged on the mounting base (1) and is suitable for driving the one-way damping rotating shaft component (4) to drive the display screen assembly (2) to rotate; wherein

When the display screen assembly (2) is pushed by an external force, the joint of the unidirectional damping rotating shaft component (4) and the driving component (5) does not rotate.

2. The ceiling screen of claim 1,

the unidirectional damping spindle assembly (4) comprises:

a first rotating shaft (41), one end of which is fixedly arranged on the rotating shaft bracket (21), and the other end of which is provided with a butt joint hole (411);

a second rotating shaft (42) with one end provided with a butt joint bulge (421) matched with the butt joint hole (411); wherein

The butt joint hole (411) and the butt joint protrusion (421) are suitable for being in rotary connection through a one-way rotary damper, so that the first rotating shaft (41) can rotate in one direction relative to the second rotating shaft (42).

3. The ceiling screen of claim 2,

one end of the second rotating shaft (42) facing the driving component (5) is provided with a butt joint groove (422);

the drive assembly (5) comprises:

an output shaft (51) provided with a docking strip (511) at one end thereof, which is fitted to the docking groove (422);

a speed reducer (52) with an output end suitable for being connected with the other end of the output shaft (51); and

and the output end of the motor (53) is suitable for being connected with the input end of the speed reducer (52).

4. The ceiling screen of claim 3,

the torsion spring rotating shaft assembly (3) comprises:

a first pivot bracket (31) fixedly mounted on the mounting base (1);

a rotating shaft (32) one end of which is fixedly arranged on the first rotating shaft bracket (31);

the second rotating shaft bracket (33) is fixedly arranged on the rotating shaft bracket (21) and is in rotatable fit with the other end of the rotating shaft (32); and

and the torsion spring (34) is sleeved on the periphery of the rotating shaft (32), and two ends of the torsion spring are respectively fixed with the first rotating shaft bracket (31) and the second rotating shaft bracket (33).

5. The ceiling screen of claim 4,

a hollow part (321) for accommodating the screen wire to pass through is formed in the rotating shaft (32); and

and screen line outlet openings positioned at two ends of the rotating shaft (32) are provided with chamfers (322).

6. The ceiling screen of claim 5,

and screen line fixing buckles (35) are respectively arranged on the first rotating shaft bracket (31) and the second rotating shaft bracket (33).

7. The ceiling screen of claim 1,

the display screen assembly (2) further comprises:

the display screen front frame (22), the display screen main body (23) and the display screen rear shell (24) are sequentially stacked and fixed; wherein

The rotating shaft bracket (21) is suitable for being fixedly arranged at the joint of the display screen front frame (22) and the display screen rear shell (24);

the display screen front frame (22) and the display screen rear shell (24) are located joints of two sides of the rotating shaft support (21) are respectively provided with reinforcing ribs (25), and end portions of the reinforcing ribs (25) are respectively fixedly installed at two ends of the rotating shaft support (21).

8. The ceiling screen of claim 7,

two sides of the display screen front frame (22) are respectively provided with a first supporting strip (221) towards the display screen rear shell (24);

two second supporting strips (241) staggered with the first supporting strips (221) are arranged on two sides of the display screen rear shell (24) towards the display screen front frame (22);

two sides of the main body part (251) of the reinforcing rib (25) are respectively provided with a long bending part (252) and a short bending part (253) towards the display screen rear shell (24); wherein

The tops of the two second supporting strips (241) and the top of the first supporting strip (221) are respectively abutted against the two sides of the main body part (251) of the corresponding reinforcing rib (25), and the outer sides of the two second supporting strips (241) are respectively abutted against the inner sides of the long bending part (252) and the short bending part (253) of the corresponding reinforcing rib (25).

9. The ceiling screen of claim 8,

a mounting bracket (11) matched with the vehicle roof is further arranged on one side, close to the vehicle roof, of the mounting base (1); and

one side of the mounting base (1) towards the rear of the vehicle is detachably provided with a key support (12).

10. The ceiling screen of claim 9,

a groove matched with the appearance of the display screen assembly (2) is further formed in the other side, located on the mounting support (11), of the mounting base (1);

the groove faces to the display screen assembly (2) and is provided with at least two screen locking buckles (13) at intervals, and buckle supports (26) matched with the screen locking buckles (13) are arranged on the display screen assembly (2).

Images