CN203793244U - Supporting device, display system comprising supporting device and lining element - Google Patents

Abstract

The utility model discloses a supporting device, a display system comprising the supporting device and a lining element. The supporting device is used for a motor vehicle and used for supporting a functional element. The supporting device (4) comprises at least two side walls (10) and a supporting element (44). The supporting element moves along the side walls (10) in the horizontal movement direction and moves between the retraction position and the stretching position in the rotating direction through at least one shaft body (54). The shaft bodies move in at least one first guide rail (16), and the first guide rails stretch on one side wall (10). The first guide rails (16) comprise first section parts (28) and second section parts (32), the first section parts (28) basically stretch between upstream ends (18) and transition points (30) in the stretching direction of the supporting element (44), and the second section parts (32) incline relative to the first section parts (28) and stretch between the transition points (30) and downstream ends (20). By the adoption of the supporting device, it is guaranteed that the display device is firmly locked in the stretching position of the supporting device, so that the supporting device is stable in the stretching position, and user experience is improved.

Description

Bearing set, the display system that comprises this bearing set and liner element

Technical field

The utility model relates to a kind of bearing set with the functional element that can be unfolded for self-propelled vehicle, and described bearing set comprises: at least two side, and described at least two side is parallel substantially and defines each other an inner space, and supporting member, described supporting member is for bearing function element, described supporting member along sidewall aspect translation, be activity and between advanced position and expanded position, be movable around being substantially perpendicular to aspect the rotation of axis of sidewall, in described advanced position, functional element is used for extending to inner space, in described expanded position, functional element is for protruding and extend from inner space, supporting member moves between advanced position and expanded position by least one axis body, described at least one axis body and supporting member is connected together and movable at least one the first guide track, described at least one the first guide track extends on one of sidewall, axis body and actuating device are connected together, actuating device is set up so that axis body moves in described at least one the first guide track.

The utility model also relates to a kind of display system that comprises this class bearing set.

The utility model is for example applicable to display system, and described display system allows the information of the driving that shows auxiliary machine motor-car, or is applicable to the bearing set of mobile terminal.

Background technology

Near the known display system that arranges automobile driver, to provide to chaufeur about state of motor vehicle, about audio system, about the much information of motor-driven vehicle going etc.This type systematic is for example arranged on the gauge panel of self-propelled vehicle and comprises screen, and described screen protrudes and extends for the surface from gauge panel, and being seen by chaufeur, chaufeur does not need sight line to remove from road.

For safety and reason attractive in appearance, read out instrument is set to be movable between advanced position and expanded position, in advanced position, read out instrument extends and is not visible from the outside of gauge panel in gauge panel, in expanded position, read out instrument is visual, as mentioned before.

For this reason, read out instrument and bearing set are connected together, and described bearing set is integrated in gauge panel neutralization and is suitable for according to suitable kinematics mobile display device between advanced position and expanded position.

Mobile conventionally control described motor is configured in guide rail or conduit---being suitable for according to the kinematics mobile display device of expecting---one or more connecting rods that middle movement and read out instrument are connected together by a motor.

The direction being deployed in from the upstream of bearing set downstream of read out instrument is carried out, and in the time that read out instrument launches, read out instrument is positioned at the downstream of this device.Therefore, on this device the applied application force from downstream directed upstream can cause the retraction of read out instrument or at least this device to the movement of its advanced position.

But, in the time that this device is configured to control by its front, as this is the situation for for example touch-screen, this application force can itself be applied by the user who installs.In this case, when user is on device while pressing, device is tending towards moving to its advanced position, and does not provide stable and impression firmly to user, and this weakens the quality of being felt by user.

Utility model content

One of the purpose of this utility model is to eliminate this drawback by proposing a kind of failure-free bearing set, and described bearing set ensures the firm locking of read out instrument in its expanded position, is stable to make device in this expanded position.

For this reason, the utility model relates to a kind of bearing set for self-propelled vehicle of aforementioned type, it is characterized in that, the first guide track comprises first paragraph portion and second segment portion, first paragraph portion extends between end, upstream and point of transition along the expansion direction of supporting member substantially, in end, upstream, central axis is positioned at advanced position, near point of transition central axis is positioned at expanded position, second segment portion tilts with respect to first paragraph portion and tilts and extend between point of transition and downstream end with respect to the expansion direction of supporting member, be arranged in expanded position at downstream end central axis.

At expanded position, cause that the axis body of the motion of bearing set is arranged in the second segment portion of the first guide track, the second segment portion of the first guide track extends transverse to expansion direction and the retraction direction of bearing set.Therefore, lean on if user applies to prop up in the retraction direction of bearing set, axis body locks and resists the movement of bearing set in second segment portion.Expanded position is from but stable, and in the time that user presses on bearing set, this increases by the quality of user institute perception.

Further feature according to bearing set of the present utility model:

-supporting member comprises the receiving surface of receiving functional element, described receiving surface is the expansion direction extension along supporting member substantially in advanced position, in expanded position, in the plane substantially tilting with respect to this expansion direction and protrude with respect to inner space, extends;

The second segment portion of the-the first guide track extends along a direction on the receiving surface that is arranged essentially parallel to the supporting member that is arranged in expanded position;

The-the first guide track forms by guide rail, and axis body can move in the inside of guide rail;

The width of-guide rail reduces near the downstream end of the first guide track, and becomes at downstream end the diameter that is substantially equal to axis body mobile in the first guide track, and to lock axis body in expanded position, downstream end forms the locking groove seat of axis body;

-the axis body that is connected together with supporting member is movable in two the first guide tracks, and each the first guide track extends respectively on one of sidewall, and the first guide track is parallel to each other and is of similar shape;

At least a portion of-each the first guide track and the corresponding part of another the first guide track separate the first distance, extend until near the downstream end of the first guide track from the end, upstream of the first guide track, the first distance is configured to allow axis body to move in the first guide track, and being spaced from each other second distance extension at downstream end, second distance is less than the first distance and is configured to eliminate the gap between axis body and sidewall in the time that supporting member is in its expanded position;

-each the first guide track comprises a rib, described rib protrudes to another first guide track from the first guide track, axis body comprises roller, each end of described roller and axis body is adjacent and extend face to face with described rib, described rib be spaced from each other be greater than distance that roller and axis body are separated with distance, extend from the end, upstream of the first guide track until near the downstream end of described track, and rib is spaced from each other a distance extension that is substantially equal to the distance that roller and axis body are separated at the downstream end of the first guide track;

-described bearing set also comprises two the second guide tracks, the second guide track extends face to face with the first guide track respectively on one of sidewall, rotating shaft and supporting member are connected together, the end of rotating shaft be arranged in respectively one of the second guide track upper, move on the second guide track the mobile end that drives rotating shaft of supporting member;

-distance that the second guide track is separated is greater than rotating shaft from the end, upstream of the second guide track until near the length downstream end of the second guide track, with the length being substantially equal to from rotating shaft to downstream end, to eliminate the gap between rotating shaft and sidewall in the time that supporting member is in its expanded position;

The each locking groove seat that comprises of downstream end of the-the second guide track, the width of locking groove seat is substantially equal to the diameter of the end of rotating shaft, to lock rotating shaft in expanded position;

The locking groove seat of the-the second guide track is along such direction orientation: the locking groove seat of this direction and the first guide track therein directed direction is substantially contrary;

-actuating device comprises the first arms, the first arms at its upstream end is connected together with the rotating shaft of being rotated by driven by motor, with be hinged on the second arms at its downstream end, this is hinged on the second arms on the axis body being connected together with supporting member in its downstream end, the downstream end of the second arms approaches the end, upstream of the first arms at advanced position, open with the downstream end of the second arms and the upstream end portion of the first arms in the time changing to expanded position owing to being rotated by the rotating shaft of driven by motor, axis body is promoted to the downstream end of the first guide track when mobile,

-bearing set comprises valve, valve is movable between make position and open position, in make position, in the time that supporting member is positioned at advanced position, at least a portion of valve covering internal, in open position, in the time that supporting member is positioned at expanded position, valve is released the passage of opening to inner space.

The utility model also relates to a kind of display system, and described display system comprises: for the read out instrument of self-propelled vehicle, described read out instrument has display panel, and described display panel can generate and show image; Bearing set as described above, wherein, it is movable that read out instrument is fixed on supporting member and between advanced position and expanded position, in advanced position, read out instrument extends in the inner space of bearing set, in expanded position, at least display panel protrudes and extends to the inner space of bearing set from sidewall.

The utility model also relates to a kind of liner element, and it is for self-propelled vehicle, and described liner element comprises bearing set as described above, and the inner space of described bearing set is covered by the coating of described liner element at least in part.

Brief description of the drawings

By reading ensuing explanation that be given as examples and that carry out with reference to accompanying drawing, other side of the present utility model and advantage will be shown, in accompanying drawing:

-Fig. 1 is the perspective schematic view according to display system of the present utility model, and read out instrument is arranged in its expanded position,

-Fig. 2 is the perspective schematic view of seeing from rear side of the display system of Fig. 1,

-Fig. 3 is the schematic diagram of the bearing set that uses in the display system of Fig. 1 and Fig. 2, and without supporting member, bearing set is arranged in advanced position,

-Fig. 4 is the schematic diagram that is arranged in the bearing set of Fig. 3 of expanded position, and

-Fig. 5 and Fig. 6 are the schematic side elevations of one of sidewall of bearing set in the time that supporting member is positioned at advanced position and expanded position.

Detailed description of the invention

See figures.1.and.2, describe a display system 1, described display system comprises read out instrument 2 and bearing set 4.Although bearing set 4 is with reference to being described according to display system 1 of the present utility model, certain, this bearing set 4 can be suitable for the functional element of other type of supporting and moving, as the control setup of audio system or other system.

Read out instrument 2 can be the device of any appropriate properties, as phone or the touch homing advice of flat type or screen or the mobile terminal of mobile management device.Read out instrument 2 can be fixed on regularly on bearing set 4 or be fixed on movably on bearing set.Read out instrument 2 comprises display panel 6, and display panel can generate and show image, connects, to show image on display panel with the control electronic component of the control signal that can generate display panel 6.Display panel 6 can be touch type, allows to control by touch display panel 6 function of read out instrument 2 or self-propelled vehicle.

Bearing set 4 is suitable at least display panel 6 of supporting and moving read out instrument 2 or read out instrument.

Bearing set 4 is for example for being disposed in the gauge panel of self-propelled vehicle or the liner element of another type.Bearing set can form the component part of this liner element or be attached on liner element.Or bearing set 4 can form independently housing.

Bearing set 4 comprises two side 10, and two side is substantially parallel to each other and is spaced from each other, for example, be spaced from each other according to the width of display panel 6.Sidewall 10 for example extends along the front-rear direction of the self-propelled vehicle that bearing set 4 is installed therein substantially.

In ensuing specification sheets, the direction that sidewall 10 extends from upstream downstream along it will be called as expansion direction.The direction contrary with expansion direction is named as retraction direction, and is called as lifting direction perpendicular to direction expansion direction and retraction direction and that extend along the height of sidewall 10.Term "up" and "down" limits with respect to this lifting direction.

The space of extending between two side 10 forms the inner space 12 of bearing set 4, and in this inner space, read out instrument 2 is for extending to advanced position, as in the back by description.Sidewall 10 mainly extends perpendicular to display panel 6.According to the embodiment shown on accompanying drawing, sidewall is connected by base wall 14, at least a portion in base wall closed interior space 12 and below sidewall 10 and between extend.

At least one of sidewall 10 is on its surface, and---it extends in inner space 12 1 sides---above comprises that the first guide track 16, the first guide tracks extend to along sidewall 10 near the top portion of this sidewall 10, in the side relative with base wall 14 of sidewall 10.The first guide track 16 extends between end, upstream 18 and downstream end 20 along expansion direction substantially.

The first guide track 16 for example forms by guide rail, and described guide rail protrudes and extends to another sidewall 10 from sidewall 10.This class guide rail comprises that two wall body 22, two wall bodies are parallel to each other, and in height on sidewall 10, diverges to and is substantially perpendicular to sidewall and extend, to limit the path (trajet) of the first guide track 16 between two wall bodies.The wall body 22 of guide rail engages downstream end 20, and to form locking groove seat 24, the concave surface (concavit é) of locking groove seat is towards top with towards downstream, as more particularly visual on Fig. 4 and Fig. 5.According to the embodiment shown on accompanying drawing, the upper wall body 22 of guide rail also comprises rib 26, and rib protrudes and extends in the prolongation of upper wall body from upper wall body 22.

The first guide track 16 comprises: first paragraph portion 28, and first paragraph portion extends to from end, upstream 18 and is arranged near the point of transition 30 of downstream end 20; With second segment portion 32, second segment portion extends to downstream end 20 from point of transition 30.

First paragraph portion 28 extends along expansion direction substantially.First paragraph portion 28 for example has the shape of arc substantially, and for example radius is constant substantially.The arcuate shape of first paragraph portion 28 forms the concave surface towards top.

Second segment portion 32 tilts with respect to first paragraph portion 28 with respect to expansion direction.Tilt to refer to second segment portion 32 and extend along a direction different from the direction of first paragraph portion, to make forming crank throw perpendicular to point of transition 30 between first paragraph portion 28 and second segment portion 32.More particularly, tilt to refer to second segment portion 32 and form with first paragraph portion 28 angle that is more than or equal to 45 °.As at Fig. 2 to as shown on Fig. 6, second segment portion 32 is to base wall 14 orientations, second segment portion 32 extends to base wall 14 from point of transition 30.

According to the embodiment shown on accompanying drawing, bearing set 4 comprises two the first guide tracks 16, and these two first guide tracks are arranged on each sidewall 10 respectively.

The first guide track 16 is substantially symmetrical with respect to the plane that is parallel to sidewall 10, and this plane extends to 12 center, inner space.Therefore, the first guide track 16 is of similar shape and substantially extends face to face in parallel to each other.Separately the distance of two the first guide tracks 16 is from end, upstream 18 until be constant substantially near downstream end 20 and reduce perpendicular to downstream end 20 locking groove seat 24.

According to an embodiment, separately the distance of two the first guide tracks 16 reduces perpendicular to rib 26, and the thickness of rib 26 increases at downstream end 20 places of the first guide track 16.Therefore, rib 26 extends from the end, upstream 18 of the first guide track 16 until near downstream end 20 to be spaced from each other the first distance, and is spaced from each other second distance at downstream end 20 and extends, and second distance is less than the first distance.

Or, this distance reduce can by form perpendicular to downstream end 20 guide rail of the first guide track 16 bottom near carrying out, for example by downstream end 20 sidewalls 10 perpendicular to the first guide track 16 mutually near carrying out.

Each sidewall 10 these external its surfaces of extending from inner space 12 1 sides comprise the second guide track 34, the second guide track extends to along sidewall 10 near the following portion of sidewall, be near the base wall 14 of bearing set 4, face mutually with the first guide track 16.The second guide track 34 along expansion direction between end, upstream 36 and downstream end 38 substantially the end from longitudinal wall 10 extend to the other end.

According to the embodiment shown on accompanying drawing, the end, upstream 36 of the second guide track 34 is substantially perpendicular to the end, upstream 18 of the first guide track 16 and arranges, and the downstream end 38 of the second guide track 34 extends to the downstream of the downstream end 20 of the first guide track 16, these downstream ends 20 and 38 diverge to mutually along expansion direction.According to the embodiment shown on accompanying drawing, downstream end 20 and 38 aligns along expansion direction in addition.Be that downstream end 20 and 38 is arranged substantially on the identical straight line extending along expansion direction.

Each the second guide track 34 comprises a channelled rail 40, for example track of tooth bar type, as at Fig. 3 to as shown on Fig. 6.Channelled rail 40 refers to such track: described track comprises multiple teeth 41 adjacent one another are, described multiple teeth in the whole length of track, distribute and be substantially perpendicular to track length direction extend, as shown in more particularly on Fig. 5 and Fig. 6.According to the embodiment shown on these accompanying drawings, tooth extends towards the top of sidewall 10, contrary with base wall 14.

Channelled rail 40 has arcuate shape, the radius substantial constant that for example had, and its concave surface is towards top, the direction of extending therein along tooth 41.The arcuate shape of channelled rail 40 is arranged essentially parallel to the shape of the first paragraph portion 28 of the first guide track 16.According to an embodiment, the radius that the second guide track 34 has is substantially equal to the radius of the first paragraph portion 28 of the first guide track 16.

At its downstream end 38, each the second guide track 34 comprises a recess, and described recess comprises such part: the having toothed portion to extend face to face and form locking groove seat 42 with there being toothed portion of described part and downstream end 38, and as in the back by description.The concave surface of groove seat 42 is towards the end, upstream 38 of the second guide track with towards base wall 14, as shown on Fig. 5 and Fig. 6.Therefore, the concave surface of locking groove seat 42 along such direction towards 24 of: the locking groove seats of described direction and the first guide track 16 towards opposite direction.

Each the second guide track 34 also comprises a groove 43, and described groove is adjacent with channelled rail 40 and in sidewall 10, form a recess, extends channelled rail 40 with the direction along perpendicular to sidewall 10.Groove 43 does not have tooth and has the shape substantially the same with channelled rail, as at Fig. 5 to as shown on Fig. 6.

The second guide track 34 is substantially symmetrical with respect to the plane that is parallel to sidewall 10, and this plane extends to 12 center, inner space.Therefore, the second guide track 34 is of similar shape and substantially extends face to face in parallel to each other.Separately the distance of two the second guide tracks 34 is from end, upstream 36 until be constant substantially near downstream end 38 and reduce perpendicular to downstream end 38 locking groove seat 42.According to an embodiment, separately the distance of two the first guide tracks reduce implement perpendicular to groove 43, the bottom of described groove 43 is mutually close at the downstream end 38 of the second guide track 34.According to a detailed description of the invention, to implement by rib this reducing of the distance of the bottom of 38 points of recessings 43 of downstream end of the second guide track 34, described rib protrudes and extends to another groove from each bottom portion of groove.

Bearing set 4 also comprises supporting member 44, and described supporting member passes through the first guide track 16 and the second guide track 34 activities between sidewall 10.

Supporting member 44 only illustrates on Fig. 1 and Fig. 2, comprising: receive surface 46, described receiving surface is used for receiving a functional element, i.e. at least display panel 6 of the read out instrument 2 in the scope of previously described display system; With convex shoulder 48, described convex shoulder extends from receiving surface 46 to protrude, for example, be substantially perpendicular to and receive surface.Convex shoulder 48 is being received surperficial bottom and is being extended in receiving surface 46 1 sides relative with a side for receiving functional element.Convex shoulder 48 comprises and connects end 50 and free end 52, and described coupling end portion is positioned at and receives surface 46 1 sides, is connected to this surface 46, and described free end is positioned at a side relative with connecting end 50.Receive surface 46 and convex shoulder 48 substantially extend to another sidewall and are arranged between these sidewalls from a sidewall 10 on width.

Near the free end 52 of convex shoulder 48, supporting member 44 comprises axis body 54, axis body and supporting member 44 be connected together and at least one of its end 56 be arranged in the first guide track 16.Axis body 54 is substantially perpendicular to sidewall 10 and extends, and extends along the axis A that is substantially perpendicular to expansion direction.According to the embodiment shown on accompanying drawing, in each of being arranged in the first guide track 16 in both ends 56 of axis body 54.The end 56 of axis body 54 for example forms by pin, and described pin inserts in the guide rail that forms the first guide track 16, between the wall body 22 of these guide rails, as shown in more particularly on Fig. 5 and Fig. 6.

Axis body 54 carries two rollers 58 in addition, two rollers are adjacent with each end 56 of axis body 54 respectively, and its diameter is greater than the distance that wall body 22 and guide rail are separated, so that each roller 58 and the rib 26 being arranged on the upper wall body 22 of each guide rail are extended face to face.Near the downstream end 20 of end, upstream 18 to first guide tracks 16, the first distance that rib 26 and the first guide track 16 are separated is slightly larger than the distance that the surface of the roller 58 extending face to face with these ribs 26 is separated, so that axis body 54 can be moved in the first guide track, for example, between the wall body 22 of guide rail, slide.Near the downstream end 20 of the first guide track 16, separately the second distance of rib 26 reduces, and is substantially equal at downstream end 20 places until become distance that the surface of the roller 58 extending face to face with these ribs 26 is separated.Therefore,, in the time that the end 56 of axis body 54 is arranged in the locking groove seat 24 of the first guide track 16,58, roller leans on rib 26 and between roller 58 and the first guide track 16, does not have gap along the direction perpendicular to sidewall 10.

The diameter of the end 56 of axis body 54 is slightly less than guide rail from the end, upstream 18 of the first guide track near width downstream end 20.At downstream end 20 places, the width of guide rail reduces, until become the diameter of the end 56 that is substantially equal to axis body 54.Therefore,, in the time that the end 56 of axis body 54 is arranged in the locking groove seat 24 of the first guide track 16, the end 56 of axis body 54 is locked by the wall body 22 of guide rail along lifting direction.Thereby in the time that the end 56 of axis body 54 is arranged in locking groove seat 24, between the end 56 of axis body 54 and the guide rail of the first guide track 16, there is not gap along the lifting direction of sidewall 10.

Near the connection end 50 of convex shoulder 48, two teeth parts 60 are activity installation aspect rotation on supporting member 44, and on each of being arranged in respectively the second guide track 34.Director element 60 is being movable around being substantially perpendicular to aspect the rotation of same axis B of sidewall 10, and axis B is arranged essentially parallel to the axis A of axis body 54 along its extension.According to the embodiment shown on Fig. 3 and Fig. 4, teeth parts 60 are installed in the end portion of rotating shaft 62, and rotating shaft extends to another sidewall and installs in activity aspect the rotation around axis B with respect to supporting member 44 from a sidewall 10.Thereby rotating shaft 62 is passed supporting member 44 near it connects end, and is connected together with two teeth parts 60 aspect rotation, i.e. the rotation of rotating shaft 62 causes the synchronous rotation of two teeth parts 60 around same axis B.Or each teeth parts are independent of another teeth parts and directly rotate installation on supporting member 44.In this case, the pivot center of the pivot center of each teeth parts 60 and another teeth parts 60 coincides.

Each teeth parts 60 form by gear or miniature gears, and the tooth 64 of gear or miniature gears radially extends and is suitable for engaging with the tooth 41 of channelled rail 40 around pivot center B.Therefore, the tooth pitch of the tooth in succession 64 of each teeth parts 60 equals the tooth pitch of the tooth in succession 41 of each channelled rail 40.

Each teeth parts 60 are by a pin 65(Fig. 5) extend, described pin be substantially columniform, there is no tooth and extend around pivot center B.In the time that arrangement of gears is on channelled rail 40, pin 65 extends in groove 43, as more particularly visual on Fig. 5 and Fig. 6.The diameter of pin 65 is slightly less than groove 43 from the end, upstream of the second guide track near width downstream end 38.At downstream end 38 places, the width of groove 43 reduces until become the diameter that is substantially equal to pin 65.Similarly, at the downstream end 38 of the second guide track 34, the distance of the bottom of point recessing 43 is substantially equal to the length of the free end of rotating shaft 62 along pivot center B from a pin 65 to the free end of another pin 65.Therefore, in the time that teeth parts 60 are arranged in the locking groove seat 42 of the second guide track 34, due to the size from groove 43 and in the distance adjustment between groove 43 to the size of pin 65 and the distance pin 65, teeth parts in this groove seat along the direction perpendicular to sidewall 10 with along the lifting direction locking of sidewall 10.Thereby at the downstream end 38 of the second guide track 34, between pin 65 and groove 43, there is not gap along lifting direction with along the direction perpendicular to sidewall 10.

Axis body 54 can be moved in the first guide track 16 in the effect of motorized actuating device.

Actuating device comprises motor 66, and motor is arranged to drive rotating shaft 68 to rotate around the axis C perpendicular to sidewall 10, and described rotating shaft is installed and extends between these sidewalls 10 in activity aspect rotation on sidewall 10.The first arms 70 is connected to rotating shaft 68 and is being connected together with this rotating shaft 68 aspect rotation by its end, upstream 72.The first arms 70 is hinged on the end, upstream 76 of the second arms 78 around the axis perpendicular to sidewall 10 at its downstream end 74.The end, upstream 80 of the second arms 78 is own around the axis A perpendicular to sidewall 10 hinged on axis body 54 (Fig. 3).

Bearing set 4 also comprises valve 81, and described valve is arranged the part with covering internal space 12, to block bearing set 4 at advanced position.The part that valve 81 covers of passing through of inner space 12 is for example extended face to face with the downstream part of sidewall 10, and define by an opening, described opening forms in a part, and described part is for being integrated in exterior visual the covering internal space 12 of liner element wherein from bearing set 4.Therefore, opening can for example form at the coating of liner element for the location that extends to expanded position at areal of support 46 therein.Opening can directly be implemented or form for the cover part being integrated on liner element in the coating of liner element.

Valve 81 extends to another sidewall and installs in activity aspect translation with respect to sidewall 10 from a sidewall 10.For this reason, valve 81 comprises at least one pin 84 at its downstream end, and described at least one pin 84 is from the downstream end of valve 81 along protruding and extend perpendicular to a direction of sidewall, and is arranged in the guide rail 86 forming in 10 1 of sidewalls.The shape of guide rail 86 limits the mobile route of valve 81.According at Fig. 1 to the embodiment shown on Fig. 4, valve 81 comprises that two pin 84, two pins protrude and extend and each being arranged in respectively in the guide rail 86 being arranged on each sidewall from valve in valve both sides.

The end, upstream of valve 81 is hinged on first connecting rod 88, and described first connecting rod is activity installation aspect the rotation of the axis around perpendicular to sidewall 10 on one of sidewall 10.Connecting rod 88 is connected to the downstream end 89 of the control stalk 90 extending along expansion direction in addition.The end, upstream 92 of control stalk 90 is hinged on second connecting rod 94, and second connecting rod is activity installation aspect rotation on the sidewall identical with the first connecting rod 88 of the axis around perpendicular to sidewall 10 10.Arrange a branch of limit element 96 around the pivot center of second connecting rod 94, to retrain second connecting rod 94, to make second connecting rod apply pulling force along a direction contrary with expansion direction on control stalk 90.Second connecting rod 94 also comprises actuator surface 98, and described actuator surface can resist the constrained force being applied on second connecting rod 94 by bundle limit element 96 and be promoted by the first arms 70.

Describe the operation of bearing set mentioned above 4 now with reference to Fig. 3 to Fig. 6, be removed so that better understand in a part for described accompanying drawing upper support device 4.

On Fig. 3, bearing set 4 is shown in the advanced position of supporting member 44.In this advanced position, supporting member 44 extends in inner space 12 completely.Receive surface 46 particularly to extend face to face and along expansion direction with base wall 14.Convex shoulder 48 extends along the lifting direction of sidewall 10 substantially, and to make the end 56 of axis body 54 be arranged in the end, upstream 18 of the first guide track 16, and teeth parts 60 are arranged in the end, upstream 36 of the second guide track 34, as shown on Fig. 5.In this advanced position, the downstream end 80 of the second arms 78 of actuating device approaches the end, upstream 72 of the first arms 70, and the first arms 70 upstream extends from downstream in a direction contrary with expansion direction.By pressing on actuator surface 98, on first arms 70 these external second connecting rods 94, apply a pressure, be arranged in the downstream end of guide rail 86, as shown on Fig. 3 control stalk 90 is pushed in direction of actuation and protrudes from the downstream end of valve 81 pin 84 extending.In this advanced position, thereby extending to opening, valve 81 neutralizes the inner space 12 of blocking bearing set 4.

For supporting member 44 is transformed in its expanded position, motor 66 activated, to drive in a first direction rotating shaft 68 to rotate, described first direction is configured to move first arms 70 around the rotation of the axis C perpendicular to sidewall 10 to expansion direction by execution on the first arms 70.In the process of this motion, the first arms 70 is applied thrust on the second arms 78, and the downstream end 80 of the second arms separates and moves downstream on expansion direction with the end, upstream 72 of the first arms 70, as shown in Fig 4.Thereby the second arms 78 promotes axis body 54 along expansion direction, and move in the first paragraph portion 28 of the first guide track 16 end 56 of axis body.Thereby cause that with the axis body 54 that supporting member 44 is connected together supporting member moves on expansion direction, this moves and rotates movement by causing the translation of teeth parts 60 on the second guide track 34 coordinating of the tooth 64 of teeth parts 60 and the tooth 41 of channelled rail 40, as shown on Fig. 5 and Fig. 6.

Due to the arcuate shape of first paragraph portion 28 and the arcuate shape of the second guide track 34 of the first guide track 16, supporting member 44 moves and rotates mobile around the axis that is substantially perpendicular to sidewall 10 along expansion direction translation downstream, described movement is configured to lift to the top of inner space 12 receives surface 46, and this causes that the corresponding of convex shoulder 48 vert.

, immediately rotate after mobile beginning at the first arms 70, the first arms is thrown off and is stopped at second connecting rod from the actuator surface 98 of second connecting rod 94 and applies support meanwhile.Thereby bundle limit element 96 drives second connecting rod 94 to rotate, and second connecting rod is along a direction tractive control stalk 90 contrary with expansion direction.Control stalk 90 drives first connecting rod 88 to rotate, and first connecting rod is tractive on the end, upstream of valve 81, and this causes that pin 84 upstream moves in guide rail 86, as shown on Fig. 1, Fig. 2 and Fig. 4.Thereby valve 81 is positioned at open position and disengages opening.

The motion of supporting member 44 is proceeded, and receives surface 46 to be bonded in opening, with go out from inner space from.

At the stroke end of actuating device, as shown on Fig. 1 and Fig. 2, supporting member 44 is arranged in expanded position, in expanded position, receives surface 46 to protrude and extend from inner space 12 through opening, and extends in the plane tilting with respect to expansion direction.This clinoplane is for example vertical or with respect to upstream low dip slightly of vertical line substantially, so that proper bearing set 4 while installing in gauge panel, receives surface 46 to extend in the visual field of chaufeur.

In this expanded position, as shown on Fig. 4 and Fig. 6, after in the second segment portion 32 that is bonded on the first guide track 16, the end 56 of axis body 54 is arranged in the locking groove seat 24 of these the first guide tracks 16, and teeth parts 60 are arranged in the locking groove seat 42 of the second guide track 34.Because these locking groove seats 24 and 42 are in the corresponding position of the downstream end 20 of the first guide track 16 and the downstream end 38 of the second guide track 34, thereby the convex shoulder 48 of supporting member 44 extends along expansion direction substantially, as shown on Fig. 1 and Fig. 2.

Supporting member 44 is attended by the cooperation between two teeth parts 54 and channelled rail 40 enduringly in the movement between its advanced position and its expanded position.This cooperation allows to avoid bearing set 4 in the midway location between advanced position and expanded position, to block any risk of locking with supporting member 44 in described midway location, ensure simultaneously along with and in any moment mobile between advanced position and expanded position, supporting member 44 remains in good position.

By activation motor 66, to drive rotating shaft 68 in the second direction contrary with first direction, supporting member 44 moves to advanced position from expanded position to carry out according to a kind of kinematics contrary with kinematics mentioned above.This motion has the effect of the end, upstream 36 with the end, upstream 18 to the first guide track and the second guide track by the end of axis body 54 56 and teeth parts 60, thereby and supporting member 44 is transformed in its advanced position.At the stroke end of the first arms 70, the first arms is exerted pressure on the actuator surface 98 of second connecting rod 94, this has the effect that makes valve 81 be placed in again its make position, and in this make position, valve seals opening and blocks inner space 12 and the mechanism of bearing set 4.

As pointed above, in expanded position, between axis body 54 and sidewall 10, there is not gap along lifting direction with along the direction perpendicular to sidewall 10, the rib 26 and because form the width constriction of guide rail of the first guide track 26 because roller 58 reclines; And there is not gap between teeth parts 60 and sidewall 10, because the distance between groove 43 reduces and the width constriction of groove 43.Therefore,, in expanded position, supporting member 44 is along lifting direction with along tightly keeping with respect to sidewall perpendicular to the direction of sidewall 10.Expanded position from but stable especially, and receive surface 46, and if needed, display panel 6 is inactive, or even operates while receiving surface with display panel if needed as user.Especially, if apply twisting resistance on receiving surface 46, receive surface 46 not to be moved, and the special resistance to vibrations that resist the running that is derived from self-propelled vehicle well.

In addition, at expanded position, the end 56 of axis body 54 is arranged in the second segment portion 32 of the first guide track 16, and described second segment portion is downward-sloping with respect to expansion direction.This configuration provides stability along the retraction direction contrary with expansion direction to expanded position.In fact, if user applies application force along retraction direction on receiving surface 46, for example, when read out instrument 1 is during with touch control, thus the lower wall 22 of 56 of ends by the guide rail of formation the first guide track 26, and avoid any movement of supporting member 44 to advanced position.Therefore, in the time that user presses on receiving surface 46, receive surface to keep motionless, user has firmly impression.Can notice, second segment portion 32 receives a direction of surperficial 46 clinoplanes that extend at expanded position therein to extend along being arranged essentially parallel to for this reason.This configuration further improves the stability of supporting member 44 at expanded position.

Finally, because the downstream end 20 of the first guide track 16 and the downstream end 38 of the second guide track 34 do not extend but the fact mutually diverged in same vertical plane, this stability is further improved, and this provides the better resistance along retraction direction applied external force of application on receiving surface 46.

Thereby bearing set mentioned above 4 especially firmly and reliable and the stiff stability of read out instrument in expanded position be provided.

Claims (16)

1. a bearing set (4), the functional element that it can be unfolded for self-propelled vehicle, supporting, bearing set comprises: at least two side (10), parallel sidewalls also defines an inner space (12) each other, and supporting member (44), supporting member is for bearing function element, supporting member (44) is being movable aspect translation and aspect the rotation of the axis around perpendicular to sidewall (10), is being movable between advanced position and expanded position along sidewall (10), in advanced position, functional element is used for extending to inner space (12), in expanded position, functional element is for from inner space, (12) protrusion extends, supporting member (44) moves between advanced position and expanded position by least one axis body (54), axis body and supporting member (44) are connected together and are movable at least one the first guide track (16), the first guide track is upper an extension of sidewall (10), axis body (54) is connected together with actuating device, actuating device is set up so that axis body (54) is mobile in the first guide track (16),

It is characterized in that, the first guide track (16) comprises first paragraph portion (28) and second segment portion (30), first paragraph portion (28) extends between end, upstream (18) and point of transition (30) along the expansion direction of supporting member (44), be positioned at advanced position at end, upstream central axis (54), near point of transition central axis (54) is positioned at expanded position, second segment portion (32) tilts with respect to first paragraph portion (28) and tilts and extend between point of transition (30) and downstream end (20) with respect to the expansion direction of supporting member (44), be arranged in expanded position at downstream end central axis (54).

2. bearing set according to claim 1, it is characterized in that, supporting member (44) comprises the receiving surface (46) of receiving functional element, receive surface (46) expansion direction along supporting member (44) in advanced position to extend, in expanded position, in the plane tilting with respect to this expansion direction and protrude with respect to inner space (12), extend.

3. bearing set according to claim 2, is characterized in that, the second segment portion (32) of the first guide track (16) extends along a direction on the receiving surface (46) that is parallel to the supporting member (44) that is arranged in expanded position.

4. bearing set according to claim 1, is characterized in that, the first guide track (16) forms by guide rail, and axis body (54) can move in the inside of guide rail.

5. bearing set according to claim 4, it is characterized in that, the width of guide rail reduces near the downstream end (20) of the first guide track (16), with the diameter that becomes the axis body (54) that equals mobile in the first guide track (16) at downstream end (20), to lock axis body (54) in expanded position, downstream end (20) forms the locking groove seat (24) of axis body (54).

6. bearing set according to claim 1 and 2, it is characterized in that, the axis body (54) being connected together with supporting member (44) is movable in two the first guide tracks (16), each the first guide track (16) is respectively upper an extension of sidewall (10), and the first guide track (16) is parallel to each other and is of similar shape.

7. bearing set according to claim 6, it is characterized in that, the corresponding part of at least a portion of each the first guide track (16) and another the first guide track (16) separates the first distance, extend until near the downstream end (20) of the first guide track from the end, upstream (18) of the first guide track, the first distance is configured to allow axis body (54) mobile in the first guide track (16), and be spaced from each other second distance extension at downstream end (20), second distance is less than the first distance and is configured to eliminate the gap between axis body (54) and sidewall (10) in the time that supporting member (44) is arranged in its expanded position.

8. bearing set according to claim 7, it is characterized in that, each the first guide track (16) comprises a rib (26), rib protrudes to another first guide track from its first guide track, axis body (54) comprises roller (58), each end (56) of roller and axis body is adjacent and extend face to face with rib (26), rib (26) is to be spaced from each other a distance that is greater than the distance that the roller of axis body (54) (58) is separated, extend until near the downstream end (20) of the first guide track from the end, upstream (18) of the first guide track (16), and rib is spaced from each other a distance extension that equals the distance that the roller of axis body (54) (58) is separated at the downstream end (20) of the first guide track (16).

9. bearing set according to claim 5, it is characterized in that, bearing set also comprises two the second guide tracks (34), the second guide track above extends with the first guide track (16) face to face at one of sidewall (10) respectively, rotating shaft (62) is connected together with supporting member (44), the end of rotating shaft (62) be arranged in respectively one of the second guide track (34) upper, the mobile end of rotating shaft (62) that drives of supporting member (44) is upper mobile at the second guide track (34).

10. bearing set according to claim 9, it is characterized in that, the distance that the second guide track (34) is separated is from the end, upstream (36) of the second guide track until be greater than rotating shaft (62) length near the downstream end (38) of the second guide track, with the length equaling in downstream end (38) rotating shaft (62), to eliminate the gap between rotating shaft (62) and sidewall (10) in the time that supporting member (44) is arranged in its expanded position.

11. according to the bearing set described in claim 9 or 10, it is characterized in that, the each locking groove seat (42) that comprises of downstream end (38) of the second guide track (34), the width of locking groove seat (42) equals the diameter of the end of rotating shaft (62), to lock rotating shaft (62) in expanded position.

12. bearing sets according to claim 11, it is characterized in that, the locking groove seat (42) of the second guide track (34) is along such direction orientation: the locking groove seat (24) of this direction and the first guide track (16) directed opposite direction therein.

13. bearing sets according to claim 1 and 2, it is characterized in that, actuating device comprises the first arms (70), the first arms at its upstream end (72) is connected together with the rotating shaft (68) of being rotated by motor (66) drive, with be hinged on the second arms (78) at its downstream end (74), this is hinged on the second arms on the axis body (54) being connected together with supporting member (44) in its downstream end (80), the downstream end (80) of the second arms (78) approaches the end, upstream (72) of the first arms (70) at advanced position, with due to rotating shaft (68) by motor (66) drive rotate and while changing to expanded position and the upstream end portion of the first arms open, axis body (54) is promoted to the downstream end (20) of the first guide track (16) when mobile.

14. bearing sets according to claim 1 and 2, it is characterized in that, bearing set comprises valve (81), valve is movable between make position and open position, in make position, in the time that supporting member (44) is positioned at advanced position, the at least a portion in valve covering internal space (12), in open position, in the time that supporting member (44) is positioned at expanded position, valve is released the passage of opening to inner space (12).

15. 1 kinds of display systems, display system comprises: read out instrument (2), read out instrument has display panel (6), and display panel can generate and show image; With according to the bearing set for self-propelled vehicle described in any one in claim 1 to 14 (4), it is characterized in that, read out instrument (2) is fixed on supporting member (44) above and is movable between advanced position and expanded position, in advanced position, read out instrument (2) extends in the inner space (12) of bearing set (4), in expanded position, at least display panel (6) protrudes and extends to the inner space (12) of bearing set (4) from sidewall (10).

16. 1 kinds of liner elements, it is for self-propelled vehicle, and liner element comprises according to the bearing set described in any one in claim 1 to 14, and the inner space (12) of bearing set (4) is covered by the coating of liner element at least in part.