CN221418130U - Multi-action sliding screen movement structure and automobile - Google Patents

Abstract

The utility model relates to a multi-action sliding screen movement structure, which comprises a screen assembly, wherein the screen assembly comprises a screen bracket and a screen, and further comprises a movement adjusting mechanism for enabling the screen assembly to slide in a multi-action manner, the movement adjusting mechanism comprises a transverse moving module and a sliding assembly, the transverse moving module is provided with the sliding assembly which transversely moves along the transverse moving module, the sliding assembly comprises two groups of nut assemblies which move longitudinally, the two groups of nut assemblies are relatively distributed on a sliding frame of the transverse moving module, and driving ends of the two groups of nut assemblies are respectively and rotatably connected with corresponding positions of the screen bracket. The utility model has flexible adjustment universality, has more technological sense, meets the use requirement of users, and has better user experience.

Description

Multi-action sliding screen movement structure and automobile

Technical Field

The utility model belongs to the field of sliding mechanisms, and relates to sliding and overturning of a vehicle-mounted display screen, which comprises but is not limited to the use in the field of automobiles.

Background

With the development of automobile industry, the use of vehicle-mounted entertainment display screens is more and more common, and automobiles pay more attention to customer experience and technological sense, so that important interaction parts (such as display screens) in the automobiles gradually tend to be multiple in movement, so that the movable forms of the interaction parts are multiple, at present, the vehicle-mounted center control screen is usually only one and is positioned beside a steering wheel and is close to a main driving side, however, with the requirement of secondary driving on video-audio entertainment and auxiliary driving, if a multimedia screen is additionally arranged on the secondary driving side, the cost of the whole automobile can be greatly improved, and in the prior art, a screen structure is provided, and the screen can transversely move on the center control console to overcome the problems, but with the improvement of the living standard of people, the user brings higher requirements on the space, the distance, the angle and the like of the screen, and only the transverse movement of the screen can not meet the requirements of the user.

Disclosure of utility model

The utility model provides a multi-action sliding screen movement structure and an automobile, and provides the multi-action sliding screen movement structure which can be applied to the automobile, can be used for transversely moving, ejecting and rotating an adjustment angle on a center console of the automobile, has flexible adjustment universality, is more scientific and technological, meets the use requirements of users, and has better user experience.

In order to achieve the above object, the following technical solutions are adopted.

The utility model discloses a multi-action sliding screen movement structure, which comprises a screen assembly, wherein the screen assembly comprises a screen bracket, a screen and a movement adjusting mechanism for enabling the screen assembly to slide in multiple actions, the movement adjusting mechanism comprises a transverse moving module and a sliding assembly, the transverse moving module is provided with the sliding assembly which transversely moves along the transverse moving module, the sliding assembly comprises two groups of nut assemblies which move longitudinally, the two groups of nut assemblies are relatively distributed on a sliding frame of the transverse moving module, and driving ends of the two groups of nut assemblies are respectively connected with corresponding positions of the screen bracket in a rotating way.

In the above-mentioned technical scheme, sideslip module passes through sliding component with the screen support and is connected, the screen support can be used to the installation of screen fixedly, sideslip module can drive the screen support and take place lateral shifting at the travel direction of sideslip module, and then drive the screen and also take place lateral shifting, through the setting of sideslip module, the user can nimble adjustment screen's position in order to reach an optimal viewing position, through setting up two sets of nut subassemblies, the nut subassembly is located sideslip module relatively side by side, the drive end of nut subassembly is connected with the both ends of screen support, through drive nut subassembly, the drive end of nut subassembly can take place to extend or shrink, under the cooperation of two sets of nut subassemblies of parallel distribution, stretches out different length through the drive end of nut subassembly, can make the screen support to the drive end of nut subassembly stretch out the shorter one side of length and deflect, and then adjust screen pivoted angle, can adjust the user and the distance of screen simultaneously, makes user's use experience better, possesses the sense of science and technology.

Further, the nut assembly comprises a connecting rod driving piece, a telescopic rod and a connecting rod fixing seat, the connecting rod fixing seat is arranged on the sliding frame, the connecting rod fixing seat is sleeved outside the telescopic rod, the connecting rod driving piece is arranged on the side edge of the connecting rod fixing seat, and the connecting rod driving piece penetrates through the connecting rod fixing seat to be connected with the telescopic rod in a matched mode.

In the above technical scheme, the connecting rod fixing seat is arranged on the sliding frame, so that the nut component can transversely move together with the sliding hole, the connecting rod driving piece passes through the connecting rod fixing seat and is connected with the telescopic rod piece in a matched manner, the telescopic rod piece can be driven to slide on the connecting rod fixing seat, and then the screen support can deflect, the connecting rod fixing seat has the functions of stabilizing and limiting the telescopic rod piece, and the telescopic rod piece is more stable when sliding, so that the screen support is more stable when adjusting the angle and the position.

Further, the telescopic rod piece comprises a first screw rod and a screw connecting rod, the screw connecting rod is sleeved outside the first screw rod, a first screw is fixedly connected in the screw connecting rod, and threads matched with the first screw are arranged on the first screw rod.

In the above technical scheme, the screw connecting rod cover is located outside the first lead screw, simultaneously with first screw embedded in the screw connecting rod, be connected through the cooperation of first lead screw and the screw connecting rod that is equipped with first screw for be connected between first screw and the first lead screw more firm, this kind of threaded connection mode can provide certain fastening force, has certain self-locking function, prevents that telescopic link from appearing not hard up or the condition of inefficacy in the course of the work, and simultaneously screw and first lead screw complex transmission efficiency and precision are higher, make the user can more high-efficient more accurate adjustment to suitable viewing angle, user experience is better.

Further, the first screw rod is connected with the connecting rod driving piece in a matched mode through a coupler.

In the above technical scheme, through the setting of shaft coupling makes first lead screw and connecting rod driving piece cooperate and be connected, can effectively transmit power, reduces energy loss and improves transmission efficiency to can ensure driven accuracy and stability for mechanical parts's motion is more accurate motion precision, realizes rotating steadily, and convenient subsequent maintenance simultaneously, when needing maintenance or change part, only need pull down the shaft coupling, need not dismantle whole transmission system, has saved maintenance time and cost greatly.

Further, the nut connecting rod is in sliding connection with the connecting rod fixing seat, one end of the nut connecting rod extends out of the connecting rod fixing seat and is connected with the screen support, a connecting shaft seat is arranged at the connecting end of the nut connecting rod and the screen support, and the screen support is in rotary connection with the connecting shaft seat through the connecting shaft.

According to the technical scheme, the screw connecting rod is in sliding connection with the connecting rod fixing seat, the connecting shaft seat of the screw connecting rod is in rotating connection with the screen support, when the first screw rod of the connecting rod driving piece rotates, the screw connecting rod slides relatively with the connecting rod fixing seat along the length direction of the first screw rod, and one end of the screen support is pushed to rotate under the cooperation of the two groups of screw assemblies, so that flexible rotation and adjustment functions are realized, and a user can freely adjust the angle and the position of the screen as required, so that the best visual experience is obtained; meanwhile, the position of the screen support after adjustment can be kept stable, the screen is prevented from shaking or sliding down, and the safety and stability of the screen are ensured.

Further, the sideslip module includes mount pad, lead screw driving piece and second lead screw removal module, in lead screw driving piece and the second lead screw removal module located the mount pad, the second lead screw removes the module and includes second lead screw and second screw, the lead screw driving piece is connected with the cooperation of second lead screw, the second lead screw passes the second screw and is connected with the cooperation of second screw.

In the above-mentioned technical scheme, the mobile module includes the mount pad, the mount pad has fixed and supporting role to whole multi-action screen motion structure that slides, the lead screw driving piece is installed in second lead screw mobile module one side, is connected through the cooperation of lead screw driving piece and second lead screw, realizes the accurate control to the second lead screw mobile module, the second lead screw can take place to rotate under the drive of lead screw driving piece, the second screw is connected with the cooperation of second lead screw, the second screw can take place relative slip with the second lead screw under the cooperation connection with the carriage, and simultaneously, the cooperation connection of second lead screw and second screw can reduce friction and vibrations and have higher load bearing capacity, provides stable running state, reduces the influence that noise and vibration produced.

Further, a guide space matched with the sliding frame is formed in the mounting seat, and the second nut is fixedly connected with the sliding frame.

In the above technical scheme, the setting of direction space on the mount pad makes the carriage take place to slide and can realize accurate positioning, improvement stability and guide performance on the direction space, makes screen assembly more stable when the motion, second screw and carriage fixed connection make the second screw can spacing in the tangential direction with second lead screw cooperation pivoted, make the second screw change in the position of second lead screw, and then can change screen assembly's transverse position.

The utility model also provides an automobile, comprising a center console of the cab and the multi-action sliding screen movement structure, wherein the transverse moving module is arranged in the center console of the cab, the center console is provided with a movable space for a sliding component to pass through, and the screen component is arranged outside the center console through the sliding component.

Among the above-mentioned technical scheme, many actions slip screen motion structure installs in the car, can make screen assembly take place the sideslip in the car in the accuse bench, but the sideslip is close to main driving position and supplies the main driving to navigate or look over screen information, also can sideslip to the copilot position supply copilot's user to carry out amusement or assisted driving, can pull in the distance of screen and the angle about the adjustment screen through the slip subassembly simultaneously, the universality of more nimble adjustment, make user experience more, supply slip subassembly and screen assembly through setting up an activity space, set up the sideslip module in the car in the accuse bench inside, space occupancy to the automobile cab is low, more accord with modern car's technological sense and simple design sense.

Compared with the prior art, the multi-action sliding screen movement structure and the automobile have the following beneficial effects:

The utility model provides a multi-action sliding screen movement structure, which realizes that screen components have adjustability in space, distance and angle, a screen can transversely move through the arrangement of a transverse moving module, the screen can be ejected out through the arrangement of two groups of screw components which are distributed in parallel, and the two groups of screw components can be ejected out for different lengths to coordinate with the deflection of the angle of the screen; the utility model also provides an automobile, the multi-action sliding screen movement structure is arranged in the central console of the automobile, so that the screen assembly can transversely move on the central console of the automobile, can transversely move close to a main driving position for navigation by a main driver or view screen information, can transversely move to a co-driving position for entertainment or auxiliary driving by a user of the co-driver, can simultaneously pull in the distance of the screen and adjust the left and right angles of the screen through the sliding assembly, has more flexible adjustment universality, ensures that the user experience is more, and can set a transverse moving module in the central console of the automobile through the sliding assembly and the screen assembly by arranging an active space, thereby having low space occupancy rate on the cab of the automobile and more conforming to the technological sense and the simple design sense of modern automobiles.

Drawings

FIG. 1 is a front three-axis view of a multi-action sliding screen motion structure of the present utility model;

FIG. 2 is a front three-axis view of a screen assembly and slide assembly of the present utility model;

FIG. 3 is a cross-sectional view of a screen assembly and slide assembly of the present utility model;

FIG. 4 is a schematic diagram of the cooperation of the console and a multi-action sliding screen motion structure of the present utility model.

Reference numerals illustrate: 1-a traversing module; 2-a screen assembly; 3-a sliding assembly; 4-a central console; 10-a movement adjustment mechanism; 11-a mounting base; 12-screw drive; 13-a second screw rod; 14-a carriage; 15-guiding space; 16-a second nut; 21-a screen support; 22-screen; 31-a nut assembly; 311-link drive; 312-coupling; 313-telescoping rod members; 3131-a nut link; 3132—a first screw; 314-a connecting rod fixing seat; 315-a first nut; 316-connecting shaft seat; 317-connecting shaft; 41-active space.

Detailed Description

The following describes a multi-action sliding screen movement structure and an automobile according to the present utility model in further detail with reference to specific embodiments and drawings.

Example 1

Referring to fig. 1 to 3, in a non-limiting embodiment of the present utility model, a multi-action sliding screen movement structure includes a screen assembly 2, the screen assembly 2 includes a screen bracket 21 and a screen 22, and further includes a movement adjusting mechanism 10 for enabling the screen assembly 2 to slide in multiple actions, the movement adjusting mechanism 10 includes a traversing module 1 and a sliding assembly 3, the traversing module 1 is provided with the sliding assembly 3 that moves laterally along the traversing module 1, the sliding assembly 3 includes two groups of nut assemblies 31 that all move longitudinally, the two groups of nut assemblies 31 are relatively distributed on a sliding frame 14 of the traversing module 1, and driving ends of the two groups of nut assemblies 31 are respectively connected with corresponding positions of the screen bracket 21 in a rotating manner. In the above technical scheme, sideslip module 1 is connected through sliding component 3 with screen support 21, screen support 21 can be used to the installation of screen 22 fixedly, sideslip module 1 can drive screen support 21 and take place lateral shifting at the travel direction of sideslip module 1, and then drive screen 22 and also take place lateral shifting, through setting up of sideslip module 1, the user can nimble adjustment screen 22's position in order to reach an optimal viewing position, through setting up two sets of nut subassemblies 31, nut subassembly 31 is located on sideslip module 1 in parallel, the drive end of nut subassembly 31 is connected with the both ends of screen support 21, through drive nut subassembly 31, the drive end of nut subassembly 31 can take place to extend or shrink, under the cooperation of two sets of nut subassemblies 31 of parallel distribution, stretches out different length through the drive end of nut subassembly 31, can make screen support 21 to the drive end of nut subassembly 31 stretch out the shorter one side of length and deflect, and then adjust screen 22 pivoted angle, can adjust the distance of user and screen 22 simultaneously, make user's use experience better, possesses more and feel.

Referring to fig. 1 to 3, in a non-limiting embodiment of the present utility model, the nut assembly 31 includes a link driving member 311, a telescopic member 313 and a link fixing seat 314, the link fixing seat 314 is mounted on the carriage 14, the link fixing seat 314 is sleeved outside the telescopic member 313, the link driving member 311 is mounted on a side edge of the link fixing seat 314, and the link driving member 311 passes through the link fixing seat 314 to be connected with the telescopic member 313 in a matching manner. In the above technical solution, the link fixing seat 314 is mounted on the sliding frame 14, so that the nut assembly 31 can move transversely with the sliding hole, the link driving member 311 passes through the link fixing seat 314 and is connected with the telescopic rod 313 in a matched manner, so that the telescopic rod 313 can be driven to slide on the link fixing seat 314, and further the screen bracket 21 can be deflected, and the link fixing seat 314 has a stabilizing and limiting function on the telescopic rod 313, so that the telescopic rod 313 is more stable when sliding, and the screen bracket 21 is more stable when adjusting the angle and the position. The link driving member 311 of this embodiment is preferably a motor assembly, the motor assembly is cooperatively connected with the telescopic rod member by a coupling, the combination of the nut assembly 31 is stable and has higher precision, and the motor assembly can also be a double-stroke cylinder, and the screen bracket 21 is driven to eject or deflect by arranging two groups of double-stroke cylinders to equivalently replace the link driving member 311 and the telescopic rod member 313, so that the nut assembly 31 is not limited to the transmission mode, but also can be pulley transmission, wire rope transmission and the like.

Referring to fig. 1 to 3, in a non-limiting embodiment of the present utility model, the telescopic rod 313 includes a first screw rod 3132 and a nut connecting rod 3131, the nut connecting rod 3131 is sleeved outside the first screw rod 3132, a first nut 315 is fixedly connected in the nut connecting rod 3131, and threads matched with the first nut 315 are provided on the first screw rod 3132. Among the above-mentioned technical scheme, screw connecting rod 3131 cover is located outside first lead screw 3132, simultaneously with first screw 315 embedded in screw connecting rod 3131, be connected through the cooperation of first lead screw 3132 and the screw connecting rod 3131 that is equipped with first screw 315, make the connection between first screw 315 and the first lead screw 3132 more firm, this kind of threaded connection mode can provide certain fastening force, have certain self-locking function, prevent that telescopic link 313 from appearing not hard up or the condition of inefficacy in the course of the work, simultaneously screw and first lead screw 3132 complex transmission efficiency and precision are higher, make the user can more high-efficient more accurate adjustment to suitable viewing angle, user experience is better.

Referring to fig. 1 to 3, in a non-limiting embodiment of the present utility model, the first screw 3132 is cooperatively connected with the link driving member 311 through a coupling 312. In the above technical scheme, through the setting of shaft coupling 312 makes first lead screw 3132 and connecting rod driving piece 311 cooperate and be connected, can effectively transmit power, reduces energy loss and improves transmission efficiency, and can ensure driven accuracy and stability for mechanical parts's motion is more accurate motion precision, realizes rotating steadily, and convenient subsequent maintenance simultaneously, when needing maintenance or change part, only need pull down shaft coupling 312, need not dismantle whole transmission system, has saved maintenance time and cost greatly.

Referring to fig. 1 to 3, in a non-limiting embodiment of the present utility model, the nut link 3131 is slidably connected to the link fixing base 314, one end of the nut link 3131 extends out of the link fixing base 314 and is connected to the screen support 21, a connecting shaft seat 316 is disposed at a connection end of the nut link 3131 and the screen support 21, and the screen support 21 and the connecting shaft seat 316 are rotatably connected by the connecting shaft 317. In the above technical solution, through the sliding connection between the screw connecting rod 3131 and the connecting rod fixing seat 314 and the rotational connection between the connecting shaft seat 316 of the screw connecting rod 3131 and the screen bracket 21, when the first screw rod 3132 of the connecting rod driving member 311 rotates, the screw connecting rod 3131 slides relatively to the connecting rod fixing seat 314 along the length direction of the first screw rod 3132, and under the cooperation of the two groups of screw assemblies 31, one end of the screen bracket 21 is further pushed to rotate, so that flexible rotation and adjustment functions are realized, and a user can freely adjust the angle and position of the screen 22 as required, so as to obtain optimal visual experience; meanwhile, the screen support 21 can be kept stable at the adjusted position, the screen 22 is prevented from shaking or sliding down, and the safety and stability of the screen 22 are ensured.

Referring to fig. 1 to 3, in a non-limiting embodiment of the present utility model, the traversing module 1 includes a mounting seat 11, a screw driving member 12 and a second screw moving module, the screw driving member 12 and the second screw moving module are disposed in the mounting seat 11, the second screw moving module includes a second screw 13 and a second nut 16, the screw driving member 12 is cooperatively connected with the second screw 13, and the second screw 13 passes through the second nut 16 and is cooperatively connected with the second nut 16. In the above technical scheme, the movable module includes mount pad 11, mount pad 11 has fixed and supporting role to whole multi-action screen motion structure that slides, lead screw driving piece 12 installs in second lead screw movable module one side, is connected through the cooperation of lead screw driving piece 12 and second lead screw 13, realizes the accurate control to the second lead screw movable module, second lead screw 13 can take place to rotate under the drive of lead screw driving piece 12, second nut 16 is connected with second lead screw 13 cooperation, second nut 16 can take place relative slip with second lead screw 13 under the cooperation connection with carriage 14, and simultaneously, the cooperation connection of second lead screw 13 and second nut 16 can reduce friction and vibrations and have higher load bearing capacity, provides stable running state, reduces the influence that noise and vibration produced. In this embodiment, the screw driving member 12 is preferably a motor assembly, and the moving module is not limited to the second screw moving module, but may be a moving module with other driving modes such as a driving cylinder, a belt wheel driving, a wire rope driving, and the like.

Referring to fig. 1 to 3, in a non-limiting embodiment of the present utility model, the mounting seat 11 is provided with a guiding space 15 matched with the sliding frame 14, and the second nut 16 is fixedly connected with the sliding frame 14. In the above technical scheme, the setting of the guiding space 15 on the mount pad 11 makes the carriage 14 slide on the guiding space 15 and can realize accurate positioning, improve stability and guiding performance, makes the screen assembly 2 more stable when moving, second nut 16 and carriage 14 fixed connection make second nut 16 spacing in the tangential direction with the cooperation pivoted of second lead screw 13, make second nut 16 change in the position of second lead screw 13, and then can change the transverse position of screen assembly 2.

Example 2

Referring to fig. 1 to 4, in a non-limiting embodiment of the present utility model, an automobile comprises a center console 4 of a cab, and the multi-action sliding screen movement structure of embodiment 1, the traversing module 1 is installed inside the center console 4 of the cab, the center console 4 is provided with a movable space 41 for a sliding component 3 to pass through, and the screen component 2 is installed outside the center console 4 through the sliding component 3. In the above technical scheme, the multi-action sliding screen movement structure is arranged in the automobile, so that the screen assembly 2 can transversely move on the console 4 in the automobile, the main driving position is used for navigation or viewing screen 22 information, the auxiliary driving position is used for entertainment or auxiliary driving of a user of the auxiliary driving, the screen 22 can be pulled in by the sliding assembly 3, the left and right angles of the screen 22 are adjusted, the universality of flexible adjustment is realized, the user experience is improved, the sliding assembly 3 and the screen assembly 2 are provided for passing through the movable space 41, the transverse moving module 1 is arranged inside the console 4 in the automobile, the space occupancy rate of the automobile cab is low, and the intelligent automobile is more in line with the technological sense and the simple design sense of modern automobiles.

In the description of the present utility model, it should be understood that the terms such as "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

The foregoing examples are merely exemplary embodiments of the present utility model, which are described in more detail and are not to be construed as limiting the scope of the utility model. It should be noted that modifications and improvements can be made by those skilled in the art without departing from the spirit of the utility model, and that these obvious alternatives fall within the scope of the utility model.

Claims (8)

1. The utility model provides a screen motion structure is slided in multi-action, includes the screen subassembly, the screen subassembly includes screen support and screen, its characterized in that: the screen assembly comprises a screen support, and is characterized by further comprising a movement adjusting mechanism for enabling the screen assembly to slide in multiple actions, wherein the movement adjusting mechanism comprises a transverse movement module and a sliding assembly, the sliding assembly is arranged on the transverse movement module and moves transversely along the transverse movement module, the sliding assembly comprises two groups of nut assemblies which move longitudinally, the two groups of nut assemblies are relatively distributed on a sliding frame of the transverse movement module, and driving ends of the two groups of nut assemblies are respectively connected with corresponding positions of the screen support in a rotating mode.

2. The multi-action sliding screen motion structure according to claim 1, wherein: the nut assembly comprises a connecting rod driving piece, a telescopic rod and a connecting rod fixing seat, wherein the connecting rod fixing seat is arranged on the sliding frame, the connecting rod fixing seat is sleeved outside the telescopic rod, the connecting rod driving piece is arranged on the side edge of the connecting rod fixing seat, and the connecting rod driving piece penetrates through the connecting rod fixing seat to be connected with the telescopic rod in a matched mode.

3. A multi-action sliding screen motion structure according to claim 2, wherein: the telescopic rod piece comprises a first screw rod and a screw connecting rod, the screw connecting rod is sleeved outside the first screw rod, a first screw is fixedly connected in the screw connecting rod, and threads matched with the first screw are arranged on the first screw rod.

4. A multi-action sliding screen motion structure according to claim 3, wherein: the first screw rod is connected with the connecting rod driving piece in a matched mode through a coupler.

5. A multi-action sliding screen motion structure according to claim 3, wherein: the screen is characterized in that the nut connecting rod is in sliding connection with the connecting rod fixing seat, one end of the nut connecting rod extends out of the connecting rod fixing seat and is connected with the screen support, a connecting shaft seat is arranged at the connecting end of the nut connecting rod and the screen support, and the screen support is rotationally connected with the connecting shaft seat through the connecting shaft.

6. The multi-action sliding screen motion structure according to claim 1, wherein: the sideslip module includes mount pad, lead screw driving piece and second lead screw removal module, in lead screw driving piece and the second lead screw removal module located the mount pad, the second lead screw removes the module and includes second lead screw and second screw, the lead screw driving piece is connected with the cooperation of second lead screw, the second lead screw passes the second screw and is connected with the cooperation of second screw.

7. The multi-action sliding screen motion structure according to claim 6, wherein: the mounting seat is provided with a guide space matched with the sliding frame, and the second nut is fixedly connected with the sliding frame.

8. An automobile, characterized in that: the multi-action sliding screen movement structure comprises a center console of a cab and the multi-action sliding screen movement structure according to any one of claims 1 to 7, wherein the transverse moving module is installed inside the center console of the cab, the center console is provided with a movable space for a sliding component to pass through, and the screen component is installed outside the center console through the sliding component.