(19)
(11)EP 3 549 826 A1

(12)EUROPEAN PATENT APPLICATION
published in accordance with Art. 153(4) EPC

(43)Date of publication:
09.10.2019 Bulletin 2019/41

(21)Application number: 17876415.5

(22)Date of filing:  17.11.2017
(51)International Patent Classification (IPC): 
B60R 11/02(2006.01)
(86)International application number:
PCT/CN2017/111693
(87)International publication number:
WO 2018/099278 (07.06.2018 Gazette  2018/23)
(84)Designated Contracting States:
AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR
Designated Extension States:
BA ME
Designated Validation States:
MA MD

(30)Priority: 30.11.2016 CN 201611086395

(71)Applicant: BYD Company Limited
Shenzhen, Guangdong 518118 (CN)

(72)Inventors:
  • ZHANG, Xiaoru
    Shenzhen Guangdong 518118 (CN)
  • CAI, Qing
    Shenzhen Guangdong 518118 (CN)
  • BAI, Sheng
    Shenzhen Guangdong 518118 (CN)
  • XU, Xiaofang
    Shenzhen Guangdong 518118 (CN)
  • DU, Juhua
    Shenzhen Guangdong 518118 (CN)

(74)Representative: m patent group 
Postfach 33 04 29
80064 München
80064 München (DE)


(56)References cited: : 
  
      


    (54)VEHICLE DISPLAY DEVICE AND VEHICLE


    (57) The present disclosure relates to a vehicle-mounted display screen device and a vehicle. The vehicle-mounted display screen device includes a display screen, a motor and a transmission system. The motor drives the display screen to rotate through the transmission system. The transmission system includes a first shaft, a second shaft, a first semi-clutch, a second semi-clutch and an elastic component, the first shaft and the second shaft are coaxially arranged, the first semi-clutch is slidably sleeved on the first shaft axially, the second semi-clutch is connected to the second shaft, a first tooth is formed on an end surface of the first semi-clutch facing the second semi-clutch, a second tooth is formed on an end surface of the second semi-clutch facing the first semi-clutch, and the elastic component applies axial elastic force to the first semi-clutch to enable the first tooth and the second tooth to be engaged. Through the mode, on the one hand, switching between a horizontal screen and a vertical screen can be realized, and on the other hand, power transmission can be interrupted in time when an overload condition of the system occurs so as to prevent the motor and the transmission system from being damaged.




    Description

    CROSS-REFERENCE TO RELATED APPLICATIONS



    [0001] This application claims priority to and benefits of Chinese Patent Application Serial No. 201611086395.7, filed with the China National Intellectual Property Administration on November 30, 2016. The entire content of the above-referenced application is incorporated herein by reference.

    FIELD



    [0002] The present disclosure relates to a vehicle-mounted display screen device and also relates to a vehicle with the vehicle-mounted display screen device.

    BACKGROUND



    [0003] With the advent of the intelligent era, function applications of vehicle multimedia are more and more extensive, and the human-machine operation of vehicle multimedia receives more and more attention as a focus of product design.

    [0004] At present, vehicle-mounted multimedia display screens become bigger and bigger. Common vehicle-mounted multimedia display screens comprise a horizontal screen and a vertical screen, and arrangement modes are related to interior decorations of vehicles. The existing vehicle-mounted multimedia display screen is fixedly mounted on a cab dashboard in a horizontal screen state or a vertical screen state, but the horizontal screen and the vertical screen cannot be switched at will, so that operating habits of users for different applications cannot be met, causing poor user experience.

    SUMMARY



    [0005] The present disclosure is directed to a vehicle-mounted display screen device which can realize switching between a horizontal screen and a vertical screen and has an overload protection function.

    [0006] In order to realize the foregoing objective, the present disclosure provides a vehicle-mounted display screen device, including a display screen, a motor and a transmission system. The motor drives the display screen to rotate through the transmission system. The transmission system includes a first shaft, a second shaft, a first semi-clutch, a second semi-clutch and an elastic component, the first shaft and the second shaft are coaxially arranged, the first semi-clutch is slidably sleeved on the first shaft axially, the second semi-clutch is connected to the second shaft, a first tooth is formed on an end surface of the first semi-clutch facing the second semi-clutch, a second tooth is formed on an end surface of the second semi-clutch facing the first semi-clutch, and the elastic component applies axial elastic force to the first semi-clutch to enable the first tooth and the second tooth to be engaged.

    [0007] The present disclosure also provides a vehicle, including the above-mentioned vehicle-mounted display screen device.

    [0008] Through the above technical solution, on the one hand, the display screen can rotate relative to a vehicle dashboard, thereby realizing the switching between a horizontal screen and a vertical screen, better meeting the operating habits of users for different applications, and improving the user experience. On the other hand, by arranging the clutch with an overload protection function in the transmission system, when an overload condition of the system occurs, power transmission can be interrupted in time, thereby preventing the motor and the transmission system from being damaged and prolonging the service life of the vehicle-mounted display screen device.

    [0009] Other features and advantages of the present disclosure are described in detail in the Detailed Description part below.

    BRIEF DESCRIPTION OF THE DRAWINGS



    [0010] The accompanying drawings are used to provide further understanding of the present disclosure, constitute a part of this specification, and are used, together with the following specific implementations, to explain the present disclosure, but do not constitute limitations to the present disclosure. In the accompanying drawings:

    FIG. 1 is a three-dimensional view of a vehicle-mounted display screen device according to one embodiment of the present disclosure;

    FIG. 2 is a top view of a vehicle-mounted display screen device according to one embodiment of the present disclosure;

    FIG. 3 is a front view of a vehicle-mounted display screen device according to one embodiment of the present disclosure;

    FIG. 4 is an AA cross-sectional view of FIG. 3;

    FIG. 5 is a partial enlarged view of FIG. 4;

    FIG. 6 is a cross-sectional view of a first semi-clutch;

    FIG. 7 is a cross-sectional view of a second semi-clutch;

    FIG. 8 is a cross-sectional view of a first shaft; and

    FIG. 9 is a front view of a fixed rack.

    Description of Reference Numerals:
    1 Fixed rack 2 Motor
    3 Speed reducer 31 Output shaft
    4 First shaft 41 Annular boss
    42 Central shaft hole 5 Circlip for shaft
    6 First bearing 7 Second bearing
    8 Positioning shaft sleeve 9 Elastic component
    10 First semi-clutch 101 First tooth
    11 Second semi-clutch 111 Second tooth
    12 Second shaft 13 First contact switch
    14 Second contact switch 15 Contact terminal
    16 Bracket behind screen 17 Display screen

    DETAILED DESCRIPTION



    [0011] Specific implementations of the present disclosure are described in detail below with reference to accompanying drawings. It should be understood that the specific implementations described herein are merely used to describe and explain the present disclosure rather than limit the present disclosure.

    [0012] As shown in FIG. 1 to FIG. 9, according to a first aspect of the present disclosure, a vehicle-mounted display screen device is provided. The vehicle-mounted display screen device includes a display screen 17, a motor 2 and a transmission system. The motor 2 drives the display screen 17 to rotate through the transmission system, so that the display screen 17 can be switched between a horizontal screen state and a vertical screen state. The transmission system includes a first shaft 4, a second shaft 12 and a clutch, and the torque is transmitted between the first shaft 4 and the second shaft 12 through the clutch. As shown in FIG. 5 to FIG. 7, the clutch includes a first semi-clutch 10, a second semi-clutch 11 and an elastic component 9. The elastic component 9 is fitted over the first shaft 4, the first shaft 4 and the second shaft 12 are coaxially arranged, the first semi-clutch 10 is slidably sleeved on the first shaft 4 axially, the second semi-clutch 11 is connected to the second shaft 12, a first tooth 101 is formed on an end surface of the first semi-clutch 10 facing the second semi-clutch 11, and a second tooth 111 is formed on an end surface of the second semi-clutch 11 facing the first semi-clutch 10.

    [0013] Under normal working conditions, the elastic component 9 applies elastic force along the axial direction of the first shaft 4 to the first semi-clutch 10 to press the first semi-clutch 10 and the second semi-clutch 11 to each other, the first tooth 101 and the second tooth 111 are engaged and do not relatively rotate, and the clutch is in an engaged state. Under the condition of system overload (for example, an occupant twists the display screen 17 by hand), at this moment, the axial component of the tooth surface pressing force of the first tooth 101 and the second tooth 111 is greater than the axial elastic force applied by the elastic component 9 to the first semi-clutch 10, the first semi-clutch 10 axially moves away from the second semi-clutch 11 to be disengaged from the second semi-clutch 11, the clutch is in a disengaged state, and the torque transmission is interrupted, thereby forming overload protection for the system. After the overload condition disappears, the first semi-clutch 10 is reset again under the action of the elastic component 9 and is engaged with the second semi-clutch 11 again, and the clutch returns to the engaged state, so that the torque can be normally transmitted.

    [0014] Through the above technical solution, on the one hand, the display screen 17 can rotate relative to a vehicle dashboard, thereby realizing the switching between a horizontal screen and a vertical screen, better meeting the operating habits of users for different applications, and improving the user experience. On the other hand, by arranging the clutch with an overload protection function in the transmission system, when the overload condition of the system occurs, the power transmission can be interrupted in time, thereby preventing the motor 2 and the transmission system from being damaged and prolonging the service life of the vehicle-mounted display screen device.

    [0015] In the present disclosure, the first tooth 101 and the second tooth 111 can have various proper tooth shapes as long as the tooth surface pressing force has an axial component. For example, the tooth shapes of the first tooth 101 and the second tooth 111 can be trapezoidal, involute, triangular, or the like.

    [0016] In the present disclosure, the first semi-clutch 10 can be connected to the first shaft 4 through multiple proper modes. For example, as shown in FIG. 5 and FIG. 6, the first semi-clutch 10 can be connected to the first shaft 4 through splines. For another example, the first shaft 4 can have a non-circular cross section convenient for transmitting the torque, and the first semi-clutch 10 is sleeved on the first shaft 4 in a matched mode.

    [0017] In the present disclosure, the second semi-clutch 11 can be connected to the second shaft 12 through multiple proper modes. For example, as shown in FIG. 5 and FIG. 7, the second semi-clutch 11 can be connected to the second shaft 12 through splines. For another example, the second semi-clutch 11 can be connected to the second shaft 12 through interference fit. For another example, the second semi-clutch 11 can be directly welded to the second shaft 12.

    [0018] In the present disclosure, in order to facilitate the positioning of the elastic component 9, as shown in FIG. 5 and FIG. 8, an annular boss 41 extending along a circumferential direction of the first shaft 4 is formed on the first shaft 4, and two ends of the elastic component 9 are respectively supported on the first semi-clutch 10 and the annular boss 41. Specifically, the first semi-clutch 10 can be connected to the elastic component 9 through splines, one end of the elastic component 9 is unilaterally limited through the annular boss 41 of the first shaft 4, and the other end of the elastic component 9 is connected to the end surface of the first semi-clutch 10. For example, the elastic component 9 is a spring or an elastic sleeve fitted over the first shaft 4.

    [0019] In consideration of the driving and riding experience of an occupant, the display screen 17 can rotate at a relatively low rotation speed. Therefore, as shown in FIG. 1, FIG. 2, FIG. 4 and FIG. 5, a speed reducer 3 can be arranged between the motor 2 and the display screen 17. Under such condition, as an embodiment, the first shaft 4 can be an output shaft 31 of the speed reducer 3, that is, the first shaft 4 and the output shaft 31 of the speed reducer 3 are the same shaft, the second shaft 12 can be fixed on the display screen 17, and then, the second shaft 12 drives the display screen 17 to rotate. As another embodiment, the first shaft 4 and the output shaft 31 of the speed reducer 3 are respectively two shafts, the first shaft 4 is in transmission connection with the output shaft 31 of the speed reducer 3, the second shaft 12 can be fixed on the display screen 17, and then, the second shaft 12 drives the display screen 17 to rotate. In the two embodiments, the first shaft 4 is a driving shaft, and the second shaft 12 is a driven shaft. In other embodiments not shown, the first shaft 4 can be a driven shaft, and the second shaft 12 can be a driving shaft. The embodiments are all within the protection scope of the present disclosure.

    [0020] In the present disclosure, the speed reducer 3 can be of any proper type. However, in order to enable the display screen 17 to rotate at a very low rotation speed, the speed reducer 3 is required to have a larger transmission ratio. Therefore, the present disclosure preferably adopts a small-tooth-difference planetary gear reducer which not only ensures a larger transmission ratio, but also ensures that the speed reducer is simple and compact in structure, small in volume and light in weight, so that the transmission is smoother, the noise is lower and the bearing capability is better.

    [0021] In one embodiment, the first shaft 4 can be in transmission connection with the output shaft 31 of the speed reducer 3 through multiple proper modes. For example, as shown in FIG. 8, the first shaft 4 can be provided with a central shaft hole 42, an internal spline is formed on a hole wall of the central shaft hole 42, an external spline engaged with the internal spline is arranged on the output shaft 31 of the speed reducer 3, and the output shaft 31 of the speed reducer 3 is connected to the first shaft 4 through splines so as to realize power transmission. For another example, the first shaft 4 can be provided with a central shaft hole 42, and the first shaft 4 is in interference fit to the output shaft 31 of the speed reducer 3 through the central shaft hole 42. For another example, the first shaft 4 can be provided with a central shaft hole 42, the first shaft 4 is sleeved on the output shaft 31 of the speed reducer 3 through the central shaft hole 42, and a positioning pin penetrates through the first shaft 4 along a radial direction and is inserted into the output shaft 31.

    [0022] As shown in FIG. 4 and FIG. 5, the vehicle-mounted display screen device of the present disclosure may further include a fixed rack 1, the motor 2 and the speed reducer 3 that are mounted on the fixed rack 1, the fixed rack 1 can be provided with mounting holes, bearings can be arranged in the mounting holes, and the first shaft 4 is supported on the fixed rack 1 through the bearings. By utilizing the bearings to support the first shaft 4, the structural stability of the first shaft 4 can be enhanced, bending deformation of the first shaft 4 can be prevented, and the stability and reliability of power transmission can be ensured.

    [0023] As shown in FIG. 5, the bearings may include a first bearing 6 and a second bearing 7 which are arranged in a spaced manner along the axial direction of the first shaft 4, the annular boss 41 extending along the circumferential direction of the first shaft 4 can be formed on the first shaft 4, one side of the first bearing 6 away from the second bearing 7 can abut against the annular boss 41, a positioning shaft sleeve 8 can be arranged between the first bearing 6 and the second bearing 7, and one side of the second bearing 7 away from the first bearing 6 can be fixed through a circlip 5 for the shaft. By adopting the first bearing 6 and the second bearing 7 to realize double-bearing support, an axial load can be borne, a radial load can also be borne, and the transmission system has sufficient support strength and rigidity, thereby providing guarantee for stability and vibration resistance of the whole device. Specifically, both the first bearing 6 and the second bearing 7 can be deep groove ball bearings, so that the axial load can be borne, and the radial load can also be borne.

    [0024] The vehicle-mounted display screen device of the present disclosure can have any proper control strategy. As an embodiment, as shown in FIG. 5 and FIG. 9, the fixed rack 1 can be provided with a first contact switch 13 and a second contact switch 14, and a contact terminal 15 is fixed on the display screen 17; when the display screen 17 is in a horizontal screen state, the contact terminal 15 is in contact with the first contact switch 13; and when the display screen 17 is in a vertical screen state, the contact terminal 15 is in contact with the second contact switch 14. The vehicle-mounted display screen device may further include a motor controller. After receiving a display screen rotating instruction, the motor controller is used for firstly judging whether the display screen 17 is in a horizontal screen state or a vertical screen state according to the conducting condition of the two contact switches; if the display screen 17 is in a horizontal screen state (the contact terminal 15 is in contact with the first contact switch 13), the motor controller controls the motor 2 to rotate forward to drive the display screen 17 to clockwise rotate, after the display screen 17 rotates for 90 degrees, the contact terminal 15 is in contact with the second contact switch 14 to send a stop signal, and then, the motor 2 stops rotating and is locked in place, thereby completing switching from the horizontal screen to the vertical screen; otherwise, if the display screen 17 is in a vertical screen state (the contact terminal 15 is in contact with the second contact switch 14), the motor controller controls the motor 2 to rotate backward to drive the display screen 17 to counterclockwise rotate, after the display screen 17 rotates for 90 degrees, the contact terminal 15 is in contact with the first contact switch 13 to send a stop signal, and then, the motor 2 stops rotating and is locked in place, thereby completing switching from the vertical screen to the horizontal screen. It should be noted that the terms "forward rotation", "backward rotation", "clockwise", "counterclockwise" and the like are only used for representing two opposite directions and do not represent a specific direction.

    [0025] As shown in FIG. 1, FIG. 2 and FIG. 4, the vehicle-mounted display screen device of the present disclosure may further include a bracket 16 behind the screen, fixed on the back surface of the display screen 17, the second shaft 12 and the bracket 16 behind the screen can be integrally formed, and the contact terminal 15 can be fixed on the bracket 16 behind the screen.

    [0026] According to another aspect of the present disclosure, a vehicle is further provided. The vehicle is provided with the vehicle-mounted display screen device of the present disclosure.

    [0027] Although specific implementations of the present disclosure are described in detail above with reference to accompanying drawings, the present disclosure is not limited to specific details in the foregoing implementations. Various simple variations can be made to the technical solutions of the present disclosure within the scope of the technical idea of the present disclosure, and such simple variations all fall within the protection scope of the present disclosure.

    [0028] It should be further noted that the specific technical features described in the foregoing specific implementations can be combined in any appropriate manner provided that no conflict occurs. To avoid unnecessary repetition, various possible combination manners will not be otherwise described in the present disclosure.

    [0029] In addition, various different implementations of the present disclosure may alternatively be combined randomly. Such combinations should also be considered as the content disclosed in the present disclosure provided that these combinations do not depart from the idea of the present disclosure.


    Claims

    1. A vehicle-mounted display screen device, comprising a display screen (17), a motor (2) and a transmission system, wherein the motor (2) drives the display screen (17) to rotate through the transmission system, the transmission system comprises a first shaft (4), a second shaft (12), a first semi-clutch (10), a second semi-clutch (11) and an elastic component (9), the first shaft (4) and the second shaft (12) are coaxially arranged, the first semi-clutch (10) is slidably sleeved on the first shaft (4) axially, the second semi-clutch (11) is connected to the second shaft (12), a first tooth (101) is formed on an end surface of the first semi-clutch (10) facing the second semi-clutch (11), a second tooth (111) is formed on an end surface of the second semi-clutch (11) facing the first semi-clutch (10), and the elastic component (9) applies axial elastic force to the first semi-clutch (10) to enable the first tooth (101) and the second tooth (111) to be engaged.
     
    2. The vehicle-mounted display screen device according to claim 1, wherein the first semi-clutch (10) is connected to the first shaft (4) through splines.
     
    3. The vehicle-mounted display screen device according to claim 1 or 2, wherein the second semi-clutch (11) is connected to the second shaft (12) through interference fit.
     
    4. The vehicle-mounted display screen device according to any one of claims 1 to 3, wherein the second semi-clutch (11) is connected to the second shaft (12) through splines.
     
    5. The vehicle-mounted display screen device according to any one of claims 1 to 4, wherein an annular boss (41) extending along a circumferential direction of the first shaft (4) is formed on the first shaft (4), and the elastic component (9) is arranged between the first semi-clutch (10) and the annular boss (41).
     
    6. The vehicle-mounted display screen device according to any one of claims 1 to 5, wherein the transmission system comprises a speed reducer (3), the motor (2) is in transmission connection with the speed reducer (3), the first shaft (4) is an output shaft (31) of the speed reducer (3), and the second shaft (12) is fixed on the display screen (17).
     
    7. The vehicle-mounted display screen device according to any one of claims 1 to 5, wherein the transmission system comprises a speed reducer (3), the motor (2) is in transmission connection with the speed reducer (3), the first shaft (4) is in transmission connection with an output shaft (31) of the speed reducer (3), and the second shaft (12) is fixed on the display screen (17).
     
    8. The vehicle-mounted display screen device according to claim 7, wherein the first shaft (4) is provided with a central shaft hole (42), an internal spline is formed on a hole wall of the central shaft hole (42), and the output shaft (31) of the speed reducer (3) is provided with an external spline engaged with the internal spline.
     
    9. The vehicle-mounted display screen device according to any one of claims 6 to 8, wherein the vehicle-mounted display screen device further comprises a fixed rack (1), the motor (2) and the speed reducer (3) are mounted on the fixed rack (1), the fixed rack (1) is provided with mounting holes, bearings are arranged in the mounting holes, and the first shaft (4) is supported on the fixed rack (1) through the bearings.
     
    10. The vehicle-mounted display screen device according to claim 9, wherein the bearings comprise a first bearing (6) and a second bearing (7) which are arranged in a spaced manner along an axial direction of the first shaft (4).
     
    11. The vehicle-mounted display screen device according to claim 10, wherein an annular boss (41) extending along the circumferential direction of the first shaft (4) is formed on the first shaft (4), one side of the first bearing (6) away from the second bearing (7) abuts against the annular boss (41), a positioning shaft sleeve (8) is arranged between the first bearing (6) and the second bearing (7), and one side of the second bearing (7) away from the first bearing (6) is fixed through a circlip (5) for the shaft.
     
    12. The vehicle-mounted display screen device according to claim 10, wherein the fixed rack (1) is provided with a first contact switch (13) and a second contact switch (14), and a contact terminal (15) is fixed on the display screen (17). When the display screen (17) is in a horizontal screen state, the contact terminal (15) is in contact with the first contact switch (13). When the display screen (17) is in a vertical screen state, the contact terminal (15) is in contact with the second contact switch (14).
     
    13. The vehicle-mounted display screen device according to claim 12, wherein the vehicle-mounted display screen device further comprises a motor controller. After receiving a display screen rotating instruction, if the contact terminal (15) is in contact with the first contact switch (13), the motor controller is used for controlling the motor (2) to rotate forward until the contact terminal (15) is in contact with the second contact switch (14); and if the contact terminal (15) is in contact with the second contact switch (14), the motor controller is used for controlling the motor (2) to rotate backward until the contact terminal (15) is in contact with the first contact switch (13).
     
    14. The vehicle-mounted display screen device according to claim 12, wherein the vehicle-mounted display screen device further comprises a bracket (16) behind the screen, fixed on a back surface of the display screen (17), the second shaft (12) and the bracket (16) behind the screen are integrally formed, and the contact terminal (15) is fixed on the bracket (16) behind the screen.
     
    15. A vehicle, comprising the vehicle-mounted display screen device according to any one of claims 1 to 14.
     




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    Cited references

    REFERENCES CITED IN THE DESCRIPTION



    This list of references cited by the applicant is for the reader's convenience only. It does not form part of the European patent document. Even though great care has been taken in compiling the references, errors or omissions cannot be excluded and the EPO disclaims all liability in this regard.

    Patent documents cited in the description