CN115723680A - Automobile and screen assembling device - Google Patents

Abstract

The invention relates to an automobile and a screen assembling device. The screen assembling apparatus includes: the mounting base, first drive assembly, the second drive assembly, rotating assembly, first transmission assembly, second transmission assembly and supporting component, when control screen in need of looking up when driver drives the car, the driver can realize the removal of supporting component on the mounting base through the transmission cooperation of first drive assembly and first transmission assembly, and/or realize the rotation of rotating component on supporting component through the transmission cooperation of second drive assembly and second transmission assembly, thereby angle and/or distance between control screen and the driver in the change, make the driver can more conveniently, look up control screen in the effective.

Description

Automobile and screen assembling device

Technical Field

The invention relates to the technical field of automobile assembly, in particular to an automobile and a screen assembly device.

Background

Nowadays, the automobile is a very popular vehicle, and consumers have higher experience and pursuit for the automobile. At present, because there is the difference in the height size of different drivers, the driver needs to stretch out and draw back the removal or rotate the regulation to the accuse screen in the use that guarantees the driver more convenient. However, when the central control screen is installed in the automobile, the central control screen is often directly embedded in the automobile central control console, and the driver cannot effectively adjust the central control screen, so that the driving experience of the driver is influenced.

Disclosure of Invention

In view of this, it is necessary to provide a screen assembling apparatus for solving the problem that the driver cannot effectively adjust the center control screen.

A screen assembling apparatus. The screen assembling apparatus includes: mounting base, first drive assembly, second drive assembly, rotating assembly, first drive assembly, second drive assembly and supporting component, the mounting base is used for installing inside the car, the movably installation of supporting component is in on the mounting base, first drive assembly passes through first drive assembly with the supporting component transmission cooperation, rotating assembly rotationally installs on the supporting component, rotating assembly is used for with well accuse screen installation cooperation, second drive assembly passes through second drive assembly with the rotating assembly transmission cooperation.

The automobile comprises the screen assembling device, an automobile body and a central control screen, wherein the screen adjusting device is arranged inside the automobile body, and the central control screen is arranged on the screen adjusting device.

In one embodiment, the mounting base comprises a fixed mounting frame, a support mounting frame and an accepting plate, the fixed mounting frame is used for being fixedly matched with a center console of the automobile, one end of the support mounting frame is connected with one end of the fixed mounting frame, the accepting plate is installed between the fixed mounting frame and the support mounting frame, one end of the accepting plate is fixedly matched with the fixed mounting frame, the other end of the accepting plate is fixedly matched with the support mounting frame, and the support assembly is movably matched with the accepting plate.

In one embodiment, the first driving assembly comprises a first driving motor and a first assembling seat, the first driving assembly comprises a first driving screw rod and a driving seat, the first assembling seat is mounted on one side of the supporting assembly, which deviates from the supporting assembly, the fixed mounting support is provided with a first mounting opening for the first assembling seat to pass through, the fixed mounting support is fixedly attached to the first assembling seat, the first driving motor is mounted on the first assembling seat, one end of the first driving screw rod is inserted into the first assembling seat and is in transmission fit with the driving motor, a threaded hole in transmission fit with the first driving screw rod is formed in the driving seat, the driving seat is movably sleeved on the outside of the supporting plate, and the driving seat is in fixed fit with the supporting assembly.

In one embodiment, the supporting assembly comprises a moving plate, a driving mounting seat and a positioning mounting seat, a sliding rail is arranged on the receiving plate along the length direction of the receiving plate, a sliding groove in sliding fit with the sliding rail is formed in the moving plate, the positioning mounting seat and the rotating assembly are both arranged on the moving plate, the driving mounting seat is in rotatable fit with the positioning mounting seat, the second driving assembly is in transmission fit with the second transmission assembly through the driving mounting seat, the positioning mounting seat is provided with a positioning hole for the second transmission assembly to pass through, and the driving mounting seat and the rotating assembly synchronously rotate through the second transmission assembly.

In one of them embodiment, the second drive assembly includes second driving motor and adaptation gear, the second drive assembly includes second transmission lead screw, second driving motor installs on the drive mount pad, the adaptation gear is installed second driving motor's output, the one end of second transmission lead screw is inserted in the drive mount pad, the adaptation gear with the transmission of second transmission lead screw is contradicted, the other end of second transmission lead screw pass through the positioning hole with rotating component installation fit.

In one embodiment, the rotating assembly comprises an adjusting seat, a rotating shaft and a screen support, the adjusting seat is installed on the moving plate, the screen support is rotatably installed on the adjusting seat through the rotating shaft, and the screen support is used for being fixedly matched with the central control screen.

In one embodiment, the screen support comprises a screen support and a transmission part, the screen support is rotatably arranged on the adjusting seat through the rotating shaft, the transmission part is arranged on the screen support, and the transmission part is provided with an assembling hole for inserting the transmission screw rod.

In one embodiment, the screen support further comprises an adjusting wheel, an adjusting rail is arranged on the side portion of the adjusting seat along the circumferential direction of the adjusting seat, the adjusting wheel is rotatably arranged on the transmission portion, and the adjusting wheel is in rotating fit with the adjusting rail.

In one embodiment, the rotating assembly further comprises an auxiliary fixing disc, the auxiliary fixing disc is used for being fixedly arranged on the central control screen cover, a first splicing block is arranged on one side, away from the central control screen, of the auxiliary fixing disc, a second splicing block is arranged on the screen support, and the first splicing block and the second splicing block are spliced and fixed.

When the screen assembling device is used, the different interior structure of different automobiles is considered, so that the corresponding structure or the installation size of the installation base is determined according to the interior structure of the automobile, and the installation base can be effectively installed in the automobile. For example: the structure of the mounting base is designed pertinently according to the structure of the automobile center console so as to realize the mounting of the mounting base on the automobile center console. Further, the support assembly is movably mounted on the mounting base, for example: can set up slide rail or spout on mounting base, the supporting component passes through slide rail or spout and mounting base realization removal cooperation. First drive assembly passes through first drive assembly and supporting component transmission cooperation, and when first drive assembly was the motor, the driver can carry out automatic movement through applying the instruction to first drive assembly, utilizing the motor to drive the supporting component. When the first driving component is a roller, the driver can directly rotate the roller to realize the movement of the supporting component. Install the rotating component rotationally on supporting component, simultaneously, the second drive assembly can cooperate with the rotating component transmission through second transmission assembly, and when the second drive assembly was the motor, the driver can carry out the automatic rotation through applying the instruction to the second drive assembly, utilizing the motor to drive the rotating component. When the second driving assembly is a roller, a driver can directly rotate the roller to realize the rotation of the rotating assembly. Finally, when a driver drives an automobile and needs to see the central control screen, the driver can realize the movement of the supporting component on the mounting base through the transmission matching of the first driving component and the first transmission component, and/or realize the rotation of the rotating component on the supporting component through the transmission matching of the second driving component and the second transmission component, so that the angle and/or the distance between the central control screen and the driver are changed, and the driver can more conveniently and effectively see the central control screen.

When the automobile is assembled, the screen assembling device is arranged on the automobile body. When a driver drives an automobile and needs to see the central control screen, the driver can realize the movement of the supporting component on the mounting base through the transmission matching of the first driving component and the first transmission component and/or realize the rotation of the rotating component on the supporting component through the transmission matching of the second driving component and the second transmission component, so that the angle and/or the distance between the central control screen and the driver are changed, and the driver can more conveniently and effectively see the central control screen.

Drawings

FIG. 1 is a schematic view of a screen mounting apparatus shown from one perspective;

FIG. 2 is a schematic view of a screen mounting apparatus from another perspective;

fig. 3 is a schematic structural view of the screen assembling apparatus.

100. The mounting base, 110, the fixed mounting frame, 120, the support mounting frame, 130, the accept board, 131, the slide rail, 200, first drive assembly, 210, first driving motor, 220, first assembly seat, 300, the second drive assembly, 310, the second driving motor, 320, the adaptation gear, 400, the rotating assembly, 410, adjust the seat, 411, adjust the rail, 420, the pivot, 430, the screen support, 431, the screen support, 432, the transmission part, 433, adjust the runner, 440, the auxiliary fixing disk, 450, first concatenation piece, 460, the second concatenation piece, 500, first transmission assembly, 510, the transmission seat, 600, the second transmission assembly, 700, the supporting component, 710, the movable plate, 720, the drive mount pad, 730, the positioning mount pad.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be interconnected within two elements or in a relationship where two elements interact with each other unless otherwise specifically limited. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

Referring to fig. 1 to 3, in one embodiment, the screen mounting apparatus includes: mounting base 100, first drive assembly 200, second drive assembly 300, rotating component 400, first drive assembly 500, second drive assembly 600 and supporting component 700, the mounting base is used for installing inside the car, supporting component 700 is movably installed on mounting base 100, first drive assembly 200 passes through first drive assembly 500 with supporting component 700 transmission cooperation, rotating component 400 rotationally installs on supporting component 700, rotating component 400 be used for with well accuse screen installation cooperation, second drive assembly 300 passes through second drive assembly 600 with rotating component 400 transmission cooperation.

When the screen assembling apparatus is used, the corresponding structure or installation size of the mounting base 100 is determined according to the interior structure of the automobile in consideration of the difference in the interior structure of different automobiles, thereby ensuring that the mounting base 100 can be effectively installed in the interior of the automobile. For example: the structure of the mounting base 100 is specifically designed according to the structure of the automobile center console, so that the mounting base 100 is mounted on the automobile center console. Further, the support assembly 700 is movably mounted on the mounting base 100, for example: a sliding rail 131 or a sliding groove may be provided on the mounting base 100, and the support assembly 700 is movably engaged with the mounting base 100 through the sliding rail 131 or the sliding groove. The first driving assembly 200 is in transmission fit with the supporting assembly 700 through the first transmission assembly 500, and when the first driving assembly 200 is a motor, a driver can drive the supporting assembly 700 to automatically move by applying an instruction to the first driving assembly 200 through the motor. When the first driving assembly 200 is a roller, the driver may directly rotate the roller to realize the movement of the support assembly 700. The rotating assembly 400 is rotatably mounted on the supporting assembly 700, and meanwhile, the second driving assembly 300 can be in transmission fit with the rotating assembly 400 through the second transmission assembly 600, when the second driving assembly 300 is a motor, a driver can drive the rotating assembly 400 to automatically rotate by applying a command to the second driving assembly 300 through the motor. When the second driving assembly 300 is a wheel, the driver may directly rotate the wheel to realize the rotation of the rotating assembly 400. Finally, when a driver drives an automobile and needs to view the central control screen, the driver can realize the movement of the support assembly 700 on the mounting base 100 through the transmission matching of the first driving assembly 200 and the first transmission assembly 500, and/or realize the rotation of the rotating assembly on the support assembly 700 through the transmission matching of the second driving assembly 300 and the second transmission assembly 600, so that the angle and/or the distance between the central control screen and the driver can be changed, and the driver can more conveniently and effectively view the central control screen.

Referring to fig. 1 and fig. 2, in an embodiment, the mounting base 100 includes a fixing and mounting frame 110, a support and mounting frame 120, and a receiving plate 130, the fixing and mounting frame 110 is used for being fixedly matched with a console of the automobile, one end of the support and mounting frame 120 is connected with one end of the fixing and mounting frame 110, the receiving plate 130 is installed between the fixing and mounting frame 110 and the support and mounting frame 120, one end of the receiving plate 130 is fixedly matched with the fixing and mounting frame 110, the other end of the receiving plate 130 is fixedly matched with the support and mounting frame 120, and the support assembly 700 is movably matched with the receiving plate 130. Specifically, the shape and size of the fixed mount 110 are first determined according to the design shape of the center console of the automobile or the shape of the target installation site in the interior of the automobile, for example: the fixed mounting frame 110 can be ensured to be fixedly attached to the automobile center console. In this embodiment, one side of the fixing frame 110 can be in full contact with the top of the console, and the fixing effect of the fixing frame 110 and the console is improved by using bolts or screws. Then, the installation length of the receiving plate 130 and the moving range of the support assembly 700 on the receiving plate 130 are determined according to the driving habits of the driver, and at the same time, after the support mounting bracket 120 is selected, the fixing of the two ends of the receiving plate 130 is realized by using the fixing mounting bracket 110 and the support mounting bracket 120, so that the receiving plate 130 can be effectively fixed. Further, after the receiving plate 130, the fixing and mounting frame 110 and the supporting and mounting frame 120 are mounted, the fixing and mounting frame 110 and the supporting and mounting frame 120 may be directly connected and fixed, that is, the receiving plate 130, the fixing and mounting frame 110 and the supporting and mounting frame 120 form a triangular structure, so that the overall stability of the mounting base 100 can be improved, and the mounting space of the mounting base 100 in the vehicle can be reduced.

Referring to fig. 1 and 2, in an embodiment, the first driving assembly 200 includes a first driving motor 210 and a first assembling seat 220, the first driving assembly 500 includes a first driving screw rod and a driving seat 510, the first assembling seat 220 is installed on one side of the supporting assembly 700 deviated from the receiving plate 130, a first mounting opening for the first assembling seat 220 to pass through is reserved on the fixed mounting bracket, the fixed mounting bracket is fixedly attached to the first assembling seat 220, the first driving motor 210 is installed on the first assembling seat 220, one end of the first driving screw rod is inserted into the first assembling seat 220 and is in transmission fit with the driving motor, a threaded hole in transmission fit with the first driving screw rod is formed in the driving seat 510, the driving seat 510 is movably sleeved on the outside of the receiving plate 130, and the driving seat 510 is in fixed fit with the supporting assembly 700. Specifically, the first driving motor 210 may be a servo motor or an ac motor. The first transmission assembly 500 may be a transmission screw or a telescopic rod. The first driving assembly 500 is driven to move telescopically along the target direction by the bidirectional rotation of the first driving motor 210. The first assembly seat 220 can provide an effective installation space for the first driving motor 210, and ensure the use effect of the first driving motor 210. Further, when the first mounting seat 220 is fixed, a first mounting opening is reserved on the fixed mounting frame 110, and the fixed mounting frame 110 is attached and fixed to the first mounting seat 220. The above-mentioned embodiment realizes the surrounding fixation of the first mounting seat 220 through the bearing plate 130 and the fixed mounting frame 110, so that the first mounting seat 220 can effectively avoid the looseness caused by external force (for example, vibration caused by the operation of the first driving motor 210). Furthermore, according to the installation position of the first driving motor 210 on the first assembly seat 220 and the transmission direction of the first driving motor 210, a transmission gear or a transmission shaft may be optionally added in the first assembly seat 220, that is, the transmission effect between the first driving motor 210 and the transmission screw rod is ensured through the transmission gear or the transmission shaft. When the driver needs to adjust the position of the center control screen, the driver can apply an instruction (for example, directly perform a key operation on the first driving motor 210 or automatically control the first driving motor 210 by a center control program in the center control console) to the first driving motor 210 to control the operation of the first driving motor 210. That is, the first driving motor 210 drives the driving screw to rotate in two directions along the axial direction (the axial direction of the driving screw), and at this time, the driving seat 510 can drive the supporting assembly 700 to move forward or backward along the moving plate 710.

In one embodiment, the first driving assembly 200 includes a driving gear set and a second assembly seat, the second assembly seat is installed on one side of the supporting plate 130 deviating from the supporting assembly 700, the fixed mounting bracket leaves a second mounting opening for the second assembly seat to pass through, and the fixed mounting bracket is fixed to the second assembly seat, the driving gear set is installed on the second assembly seat, and one end of the first driving assembly 500 extends into the second assembly seat and the first driving motor 210 for transmission matching. Specifically, the first transmission assembly 500 may be a transmission screw or a telescopic rod. The first transmission assembly 500 is driven to move telescopically along the target direction by the bidirectional rotation of the driving gear set. Utilize the second mount pad can provide effectual installation space to drive gear set, guarantee drive gear set's result of use. Further, when the second assembling seat is fixed, a second mounting opening is reserved on the fixed mounting frame 110, and the fixed mounting frame 110 is attached and fixed to the second assembling seat. The above-mentioned embodiment realizes the enclosing and fixing of the second mounting seat through the bearing plate 130 and the fixed mounting frame 110, so that the second mounting seat can effectively avoid looseness caused by external force (for example, vibration caused by rotation of the driving gear set).

Referring to fig. 1 to 3, in an embodiment, the supporting assembly 700 includes a moving plate 710, a driving mounting seat 720 and a positioning mounting seat 730, a sliding rail 131 is disposed on the receiving plate 130 along a length direction of the receiving plate 130, a sliding groove slidably engaged with the sliding rail 131 is disposed on the moving plate 710, the positioning mounting seat 730 and the rotating assembly 400 are both disposed on the moving plate 710, the driving mounting seat 720 is rotatably engaged with the positioning mounting seat 730, the second driving assembly 300 is in transmission engagement with the second transmission assembly 600 through the driving mounting seat 720, the positioning mounting seat 730 is disposed with a positioning hole for the second transmission assembly 600 to pass through, and the driving mounting seat 720 is synchronously rotated with the rotating assembly through the second transmission assembly 600. Specifically, the number of the slide rails 131 on the receiving plate 130 is determined according to the installation requirement, in this embodiment, a slide rail 131 is additionally arranged in the middle of the receiving plate 130, and then a slide groove matched with the slide rail 131 is additionally arranged on the moving plate 710. According to the actual sliding effect, an auxiliary rotating wheel can be additionally arranged on one surface of the moving plate 710 facing the bearing plate 130, and the sliding effect of the moving plate 710 and the bearing plate 130 can be changed through the sliding fit of the auxiliary rotating wheel and the sliding rail 131. Further, the moving plate 710 may drive the rotating assembly 400, the second driving assembly 300, and the second transmission assembly 600 to move synchronously, that is, the rotating assembly 400, the second driving assembly 300, and the second transmission assembly 600 may move forward or backward relative to the mounting base 100. Further, the second driving assembly 600 may be a telescopic rod or a driving screw. The fixed position of the positioning mount 730 on the moving plate 710 is determined according to the mounting position of the rotating assembly 400 on the moving plate 710 and the length of the second transmission assembly 600. Further, the positioning installation seat 730 can be an installation frame or a seat body provided with an installation cavity, the driving installation seat 720 is installed inside the positioning installation seat 730, and the relative rotation between the driving installation seat 720 and the positioning installation seat 730 is realized through the rotating shaft 420 or the bearing. At this moment, after the second driving assembly 300 and the second transmission assembly 600 are installed on the driving installation seat 720, the second driving assembly 300 provides power for the second transmission assembly 600, the second transmission assembly 600 drives the rotating assembly to rotate, because the second transmission assembly 600 is connected with the driving installation seat 720 and the rotating assembly 400 at the same time, the driving installation seat 720 can synchronously rotate along with the rotating assembly 400, and simultaneously, the hole caliber of the positioning hole can be correspondingly designed according to the swinging condition of the second transmission assembly 600, namely, the positioning hole reserves a swinging space for the second transmission assembly 600 in the positioning hole.

Referring to fig. 1 to 3, in an embodiment, the second driving assembly 300 includes a second driving motor 310 and an adapting gear 320, the second driving assembly 600 includes a second driving screw, the second driving motor 310 is mounted on the driving mounting seat 720, the adapting gear 320 is mounted at an output end of the second driving motor 310, one end of the second driving screw is inserted into the driving mounting seat 720, the adapting gear 320 is in transmission contact with the second driving screw, and the other end of the second driving screw passes through the positioning hole and is mounted and matched with the rotating assembly 400. Specifically, the second driving motor 310 may be a servo motor or an ac motor. The second driving assembly 600 is driven by the bidirectional rotation of the second driving motor 310 to perform a telescopic movement (forward or backward movement) along a target direction. The driving mounting seat 720 can provide an effective mounting space for the second driving motor 310, and ensure the use effect of the second driving motor 310. Further, consider that second driving motor 310 is limited with the mounted position of second transmission assembly 600 on mounting base 100, install adaptation gear 320 additional at the output of second driving motor 310, can be more effectual contradict with the transmission screw transmission through adaptation gear 320, simultaneously, the hole bore in the positioning hole can correspond the design according to the swing condition of transmission screw, and the swing space that supplies transmission screw in the positioning hole is reserved in the positioning hole promptly. In addition, the second driving assembly 300 may also be a driving gear set, and the second transmission assembly 600 is driven to move telescopically along the target direction by the bidirectional rotation of the driving gear set.

Referring to fig. 1 to 3, in one embodiment, the rotating assembly 400 includes an adjusting base 410, a rotating shaft 420 and a screen support 430, the adjusting base 410 is mounted on the moving plate 710, the screen support 430 is rotatably mounted on the adjusting base 410 through the rotating shaft 420, and the screen support 430 is configured to be fixedly engaged with the central control screen. Specifically, the installation angle between the screen support 430 and the adjusting base 410 is determined according to the installation requirement, that is, after the central control screen is installed on the screen support 430, the central control screen has a preset inclination angle. The screen support 430 can rotate relative to the adjusting base 410 through the rotating shaft 420, so that the rotation of the central control screen is realized.

As shown in fig. 1 to 3, in one embodiment, the screen support 430 includes a screen support 431 and a transmission part 432, the screen support 431 is rotatably installed on the adjusting base 410 through the rotating shaft 420, the transmission part 432 is installed on the screen support 431, and an assembly hole for inserting the transmission screw rod is formed in the transmission part 432. Specifically, the transmission part 432 may be a transmission block or a transmission plate, and the transmission part 432 is additionally installed on the screen bracket 431, so that the connection of the transmission screw rod and the rotating assembly 400 is more convenient. Through set up the pilot hole on transmission portion 432, guaranteed the connection effect of transmission lead screw and transmission portion 432. In addition, after the transmission screw rod is inserted into the assembly hole, the transmission screw rod positioned in the assembly hole can be further fixed through a bolt or a buckle.

Referring to fig. 1 to 3, in an embodiment, the screen support 430 further includes an adjusting wheel 433, an adjusting rail 411 is disposed at a side portion of the adjusting seat 410 along a circumferential direction of the adjusting seat 410, the adjusting wheel 433 is rotatably mounted on the transmission portion 432, and the adjusting wheel 433 is rotatably engaged with the adjusting rail 411. Specifically, the side shape of the adjusting base 410 may be determined according to the rotation track of the screen bracket 431 on the adjusting base 410, for example: the side portion of the adjustment seat 410 is designed as an arc-shaped side, or the side portion of the adjustment seat 410 is directly designed as an arc surface. At this time, the adjusting wheel 433 is rotatably engaged with the lateral adjusting rail 411 of the adjusting base 410, so that the rotation of the screen bracket 431 and the adjusting base 410 is smoother. Further, according to the installation requirement, adjusting wheels 433 can be additionally arranged at both ends of the transmission part 432.

With reference to fig. 1 to 3, in an embodiment, the rotating assembly 400 further includes an auxiliary fixing disk 440, the auxiliary fixing disk 440 is used for being fixed to the central control screen cover, a first splicing block 450 is disposed on a side of the auxiliary fixing disk 440 away from the central control screen, a second splicing block 460 is disposed on the screen support 431, and the first splicing block 450 is spliced and fixed to the second splicing block 460. In particular, considering that the structure or shape of the center screen is often changed according to user's needs, the fixing of the screen adjusting apparatus to the center screen may be achieved only by changing the size and shape of the auxiliary fixing disk 440. Further, when the first splicing block 450 and the second splicing block 460 are spliced and fixed, the auxiliary fixation can be performed by means of a buckle or a bolt.

In one embodiment, when the automobile is assembled, the screen assembling device is arranged on the automobile body. When a driver drives an automobile and needs to view the central control screen, the driver can realize the movement of the support assembly 700 on the mounting base 100 through the transmission matching of the first driving assembly 200 and the first transmission assembly 500, and/or realize the rotation of the rotating assembly on the support assembly 700 through the transmission matching of the second driving assembly 300 and the second transmission assembly 600, so that the angle and/or the distance between the central control screen and the driver can be changed, and the driver can more conveniently and effectively view the central control screen.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is specific and detailed, but not to be understood as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A screen assembling apparatus, characterized by comprising: mounting base, first drive assembly, second drive assembly, rotating assembly, first drive assembly, second drive assembly and supporting component, the mounting base is used for installing inside the car, the movably installation of supporting component is in on the mounting base, first drive assembly passes through first drive assembly with the supporting component transmission cooperation, rotating assembly rotationally installs on the supporting component, rotating assembly is used for with well accuse screen installation cooperation, second drive assembly passes through second drive assembly with the rotating assembly transmission cooperation.

2. The screen assembling device of claim 1, wherein the mounting base comprises a fixing mounting frame, a supporting mounting frame and a receiving plate, the fixing mounting frame is used for being fixedly matched with a console of the automobile, one end of the supporting mounting frame is connected with one end of the fixing mounting frame, the receiving plate is arranged between the fixing mounting frame and the supporting mounting frame, one end of the receiving plate is fixedly matched with the fixing mounting frame, the other end of the receiving plate is fixedly matched with the supporting mounting frame, and the supporting assembly is movably matched with the receiving plate.

3. The screen assembling device according to claim 2, wherein the first driving assembly comprises a first driving motor and a first assembling seat, the first driving assembly comprises a first driving screw rod and a driving seat, the first assembling seat is installed on one side, away from the supporting assembly, of the receiving plate, the fixed mounting bracket is provided with a first mounting opening for the first assembling seat to pass through, the fixed mounting bracket is fixedly attached to the first assembling seat, the first driving motor is installed on the first assembling seat, one end of the first driving screw rod is inserted into the first assembling seat and is in transmission fit with the driving motor, a threaded hole in transmission fit with the first driving screw rod is formed in the driving seat, the driving seat is movably sleeved outside the receiving plate, and the driving seat is in fixed fit with the supporting assembly.

4. The screen assembling device according to claim 3, wherein the supporting assembly includes a moving plate, a driving mounting seat and a positioning mounting seat, a sliding rail is disposed on the receiving plate along a length direction of the receiving plate, a sliding groove slidably engaged with the sliding rail is disposed on the moving plate, the positioning mounting seat and the rotating assembly are both disposed on the moving plate, the driving mounting seat is rotatably engaged with the positioning mounting seat, the second driving assembly is in transmission engagement with the second driving assembly through the driving mounting seat, the positioning mounting seat is provided with a positioning hole for the second driving assembly to pass through, and the driving mounting seat is synchronously rotated with the rotating assembly through the second driving assembly.

5. The screen assembling device of claim 4, wherein the second driving assembly comprises a second driving motor and an adaptive gear, the second driving assembly comprises a second transmission screw rod, the second driving motor is installed on the driving installation seat, the adaptive gear is installed at the output end of the second driving motor, one end of the second transmission screw rod is inserted into the driving installation seat, the adaptive gear is in transmission interference with the second transmission screw rod, and the other end of the second transmission screw rod is in installation fit with the rotating assembly through the position adjusting hole.

6. The screen assembling apparatus of claim 4, wherein the rotating assembly comprises an adjusting seat, a rotating shaft, and a screen support, the adjusting seat is mounted on the movable plate, the screen support is rotatably mounted on the adjusting seat via the rotating shaft, and the screen support is used for being fixedly matched with the central control screen.

7. The screen assembling apparatus according to claim 6, wherein the screen support includes a screen bracket rotatably mounted on the adjusting base via the rotating shaft, and a transmission portion mounted on the screen bracket, the transmission portion having an assembling hole for inserting the transmission screw.

8. The screen assembling apparatus according to claim 7, wherein said screen support further comprises an adjusting wheel, an adjusting rail is provided at a side portion of said adjusting seat along a circumferential direction of said adjusting seat, said adjusting wheel is rotatably mounted on said transmission portion, and said adjusting wheel is rotatably engaged with said adjusting rail.

9. The screen assembling device according to claim 7, wherein the rotating assembly further comprises an auxiliary fixing disc, the auxiliary fixing disc is used for being fixed to the central control screen cover, a first splicing block is arranged on one side, away from the central control screen, of the auxiliary fixing disc, a second splicing block is arranged on the screen support, and the first splicing block and the second splicing block are spliced and fixed.

10. An automobile, characterized by comprising the screen assembling device of any one of claims 1 to 9, and further comprising an automobile body and a central control screen, wherein the screen adjusting device is arranged inside the automobile body, and the central control screen is arranged on the screen adjusting device.

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