CN107107721A - The drive mechanism of vehicle ceiling and the ceiling equipment including it - Google Patents

Abstract

A kind of drive mechanism for vehicle ceiling, including：The pedestal (1) that can be slided in the guiding rail (8) of the ceiling；First rotating arm (2), an end of the first rotating arm can be rotatably connected to the pedestal and the first rotating arm another end be adapted to be coupled to the ceiling panel (10) front side；Second turning arm (3), an end of second turning arm can be rotatably connected to the pedestal and another end of second turning arm is provided with connector so that the rear side with the panel is connected；The drive member being connected with the first rotating arm and the second turning arm, rotates to drive above and below the first rotating arm and the second turning arm difference；And fixing component (7), the fixing component by the drive mechanism suitable for being locked to the guiding rail or unblock with can discharging.Vehicle ceiling includes guiding rail and the drive mechanism arranged in guiding rail.

Description

The drive mechanism of vehicle ceiling and the ceiling equipment including it

Technical field

The present invention relates to the drive mechanism for vehicle ceiling.Set the invention further relates to the ceiling including this drive mechanism It is standby.

Background technology

Traditionally, the drive mechanism of vehicle ceiling includes two parts, one be turning arm 100 another be to be used to drive The driving sliding block 200 of turning arm 100, as shown in Figure 1.During the opening or closing of ceiling, moved before and after driving sliding block 200 Move to drive turning arm 100 to lift or reduce.Fig. 1 to 3 respectively illustrates the ceiling in closing, opening and lifting status.

Turning arm 100 is rotatable around a rotation axis X, and the rotation axis is set in an end of turning arm Put, as shown in Figures 1 to 3.Thus, the other end of turning arm 100 can rotate up and down.Sliding block 200 itself is driven in ceiling It can be slided in guiding rail.There is sliding pin in an end of driving sliding block 200, the sliding pin is in turning arm 100 Groove 101 in be slidable.Groove 101 is longitudinally extended along turning arm 100.Slided in driving sliding block 200 in guiding rail It is dynamic and thus sliding pin in groove 101 when sliding, turning arm 100 is actuated to rotate up and down.

The deficiency of traditional drive mechanism is that the glass panel of ceiling is in inclined position when it is rotated down, such as Shown in Fig. 2.It occupies bigger space during opening.

In addition, as shown in Figures 1 to 3, because rotation axis X is away from glass panel, the glass surface in oblique upper position Plate by cause glass panel seal and BIW (white body) at the top of between severe jamming.In order to solve the problem, for driving Mechanism sets guide member to move after drive mechanism is caused during rotating up.However, this scheme be it is complicated and And potentially cause anti-(anti-pitching) function variation of jolting of ceiling, because this will cause unstable friction Power.

In the presence of the above-mentioned drive mechanism of improvement so that less pressure applies to the demand of the seal of glass panel.

The content of the invention

In view of above mentioned problem, the purpose of the present invention is the performance for improving drive mechanism so as to the movement for drive mechanism Need less space on vertical direction.

Therefore, the present invention proposes a kind of drive mechanism for vehicle ceiling, including：

The pedestal that can be slided in the guiding rail of the ceiling；

First rotating arm a, end of the first rotating arm can be rotatably connected to the pedestal and described Another end of one turning arm is adapted to be coupled to the front side of the panel of the ceiling；

Second turning arm a, end of second turning arm can be rotatably connected to the pedestal and described Another end of two turning arms is provided with connector so that the rear side with the panel is connected；

The drive member being connected with the first rotating arm and the second turning arm, to drive the first rotating arm and Rotated above and below two turning arms difference；And

Fixing component, the fixing component is suitable to the drive mechanism being locked to the guiding rail with can discharging.

According to one embodiment of present invention, the drive mechanism includes the first sliding component and the second sliding component, institute State the first sliding component and second sliding component synchronizing moving in the guiding rail.

According to one embodiment of present invention, first sliding component and the second sliding component each include sliding pin, institute First rotating arm is stated provided with the first chute, second turning arm is provided with the second chute, first sliding component and second are slided The sliding pin of dynamic component can be slided in first and second chute respectively, to enable first and second turning arm Simultaneously or sequentially tilted upward.

According to one embodiment of present invention, first and second chute each includes inclined part, wherein, in institute In the normal position for stating the pent drive mechanism of panel, the inclined part of first and second chute substantially exists Extend in same direction.

According to one embodiment of present invention, the described first and/or second chute also includes and the inclined part phase Approximate horizontal part even, to enable first and second turning arm tilted upward successively.

According to one embodiment of present invention, first chute also includes approximate horizontal part, described approximate horizontal Part be connected with the inclined part of first chute, the rear end of part of the inclined part from the level is upper Rear is inclined upwardly, and the inclined part of second chute includes being connected with each other and each comfortable upper rear is acclivitous The inclined part of front and rear.

According to one embodiment of present invention, in the normal position of the pent drive mechanism of the panel, institute It is that approximate horizontal and described second chute includes inclined part to state the first chute.

According to one embodiment of present invention, the pedestal is single part, and first and second turning arm is via each From be pivotally attached to the pedestal.

According to one embodiment of present invention, place is connected to the first rotating arm, Yi Ji to the pedestal in its back-end The front end of second turning arm is connected at its front end.

According to one embodiment of present invention, the pedestal includes two rigidly connected parts each other, one of portion One of part and described first and second turning arm are connected, and another phase of another part and first and second turning arm Even.

According to one embodiment of present invention, the fixing component is from the first rotating arm or from second turning arm Suspend, and the lower end of the fixing component is adapted to project into the fluting in the guiding rail, to be led described The drive mechanism movement is limited on the longitudinal direction of rail.

According to one embodiment of present invention, the fixing component is integrally formed with the first rotating arm.

Using above-mentioned construction, drive mechanism of the invention, which will save more overhead spaces, to be used for occupant and improves ceiling Sealing persistence.In addition, because the rotation axis of panel during the lifting of ceiling closer to panel, will be notable Interference value between reducing at the top of seal and BIW.It therefore, it can omit in the prior art in order to which this is reduced in the front side in ceiling Plant guiding rail necessary to interference.So that the drive mechanism of the present invention is simpler and reliable.

The invention also provides a kind of vehicle ceiling equipment, it includes guiding rail and foregoing drive mechanism.

Brief description of the drawings

The preferred embodiment of this specification is described referring to the drawings, wherein：

Fig. 1 to 3 shows the conventional drive mechanism of ceiling, and ceiling is respectively at closing, opened and lifting status；

Fig. 4 a are the front views of the drive mechanism according to an embodiment of the invention being in normal position；

Fig. 4 b are the views of the drive mechanism in Fig. 4 a, in being wherein closed shown in the glass panel of ceiling；

Fig. 5 a are Fig. 4 a front views in the tiltedly drive mechanism of upper position；

Fig. 5 b are the views of the drive mechanism of Fig. 5 a in tiltedly upper state shown in glass panel；

Fig. 6 a are Fig. 4 a front views in the tiltedly drive mechanism of lower position；

Fig. 6 b are the views of the drive mechanism of Fig. 6 a in tiltedly lower state shown in glass panel；

Fig. 7 is the stereogram of drive mechanism according to an embodiment of the invention；

Fig. 7 a are the enlarged drawings by square A marked portions in Fig. 1；

Fig. 8 a are the remodeling views of the pedestal of drive mechanism；

Fig. 8 b are the remodeling views of the turning arm of drive mechanism；And

Fig. 9 to 12 diagrammatically illustrates the variously-shaped of the chute of drive mechanism.

Embodiment

Hereinafter, forward and backward, upper and lower direction is the side that the driver taken a seat from the operating seat of vehicle looks over To.This is in order at the convenience of description and is absolutely not to present invention limitation.

Fig. 4 a and 4b show the drive mechanism of the ceiling in ceiling closed mode.Drive mechanism can be attached to top The guiding rail 8 of canopy, has a guiding rail in each cross side of ceiling, to drive such as glass surface of panel 10 of ceiling Plate goes movement.

As shown in fig. 4 a, drive mechanism includes pedestal 1, first rotating arm 2, the second rotation with connector (link) 4 Arm 3, the first sliding component 5, the second sliding component 6 and steady pin 7.

Pedestal 1 can be slided in the guiding rail 8 of ceiling.According to one embodiment of present invention, pedestal 1 is single portion Part.First and second turning arms 2,3 can be rotatably connected to pedestal 1 by corresponding pivot.Alternatively, two turning arms 2, 3 are pivotally connected to pedestal 1 by what is shared, and the shared axle is fixed to the pedestal 1.In this case, two turning arms 2nd, 3 can rotate independently of one another relative to the axle.In a word, the first and second turning arms 2,3 should respectively independently of one another It can rotate.

In addition, pedestal can include two parts 11,12, both parts are linked together by rigid member 13, such as Shown in Fig. 8 a, to adapt to the ceiling of different longitudinal sizes.It is rigidly connected using this, two parts 11,12 can be in guiding Synchronizing moving in guide rail 8.For this purpose, it is also contemplated that the two turning arms 2,3 are interlaced with each other relative to pedestal 1, such as Shown in Fig. 8 b.That is, the first rotating arm 2 that the front side with ceiling is connected is connected to the rear end of pedestal 1, and will be with ceiling Connected the second turning arm 3 of rear side be connected to the front end of pedestal 1.The two turning arms 2,3 can be connected in a similar way Extremely include the pedestal 1 of two parts 11,12.That is, first rotating arm 2 is connected to part 12, and the second turning arm 3 is connected To part 11.

First rotating arm 2 can be rotationally mounted to pedestal 1 with one end thereof 21, especially be attached to before pedestal 1 End.First rotating arm 2 is fixed to the preceding cross side of glass panel 10 at the other end 22 via fixing component 9.Fixing component 9 It is well known in the art.First rotating arm 2 is formed with the first chute 23, and the first sliding component 5 then illustrated is described It can be slided in first chute.Chute 23 includes approximate horizontal part 231 and inclined part 232, and they are connected with each other. The part 231 of level substantially horizontally extends in the longitudinal direction along turning arm 2, and inclined part 232 upper rear to On tilted from the rear end of the part 231 of the level.

Similarly, the second turning arm 3 can be rotationally mounted to pedestal 1 with one end thereof 31, especially be attached to base The rear end of seat 1.Difference with first rotating arm 2 is that the second turning arm 3 is connected to connector 4 in another end 32 with it.Connection Fitting 4 is fixed to the rear cross side of glass panel 10 via similar fixing component 9.Using this connector 4, the two are consolidated Determining the distance between component 9 can keep constant in the operating process of ceiling.

Second turning arm 3 is also formed with the second chute 33, and the second sliding component 6 then illustrated is in second chute It can slide.Chute 33 includes the part 331 of top rake and the part 332 of rear-inclined, and they are connected with each other.The portion of top rake 331 are divided to be inclined upwardly along turning arm 3 at upper rear, then the rear end of inclined part 331 of inclined the past of part 332 also exists Upper rear is inclined upwardly.

First sliding component 5 can have similar structure with the second sliding component 6.Especially, as shown in fig. 7, first Sliding component 5 has the piston shoes 51 that can be slided in guiding rail 8 and the sliding pin 52 that can be slided in the first chute 23. Piston shoes 51 are connected with sliding pin 52 via bar 53.Piston shoes 51 can be driven by the driving cable of ceiling.Similarly, the second sliding component 6 have the piston shoes (not shown) being connected via bar 63 and sliding pin 62.The piston shoes of second sliding component 6 can also be by ceiling Driving cable driving.In addition, the first and second sliding components 5,6 can be moved synchronously in guiding rail 8.Thus, When first and second sliding pins 52,62 are slided in respective chute 23,33, the first and second sliding components 5,6 can be by synchronization Driving.

Steady pin 7 is generally L-shaped, as shown in Figure 7a.Steady pin 7 is vertically suspended from first rotating arm 2, and at it Flip horizontal is to extend into the fluting 81 in guiding rail 8 at lower end.Due to being guided between steady pin 7 and guiding rail 8 Interference on the longitudinal direction of guide rail 8, drive mechanism is locked along same direction.It is required that drive mechanism is unlocked along longitudinal direction When, steady pin 7 is vertically moved together with first rotating arm 2, to be disengaged from fluting 81.

The operation of drive mechanism is described hereinafter with reference to Fig. 4 a, 4b, 5a, 5b, 6a and 6b.

Primitively, as shown in Figs. 4a and 4b, drive mechanism is in its normal position, and the glass panel 10 of ceiling is tieed up Hold in being closed.Now, the first sliding pin 52 of the first sliding component 5 is sat idly in the part of the level of the first chute 23 231 and the connecting portion office of inclined part 232.Similarly, the second sliding pin 62 of the second sliding component 6 is sat idly in the second chute The part 331 of 33 top rake and the connecting portion office of the part 332 of rear-inclined.Steady pin 7 is locked in the fluting of guiding rail 8 In 81.

It is expected that the first and second sliding components 5,6 can be driven by driving cable when lifting ceiling with so that vehicle is ventilated Move to move forward.Specifically, the first sliding pin 52 slides into its front end in the part 231 of level along forward direction, and the Two sliding pins 62 slide into its front end in the part 331 of top rake, as shown in figure 5a and 5b.In the moving process of sliding pin 52,62 In, first rotating arm 2 remain stationary as and the second turning arm 3 rotate up, i.e. counterclockwise rotates.Thus, glass panel 10 Rear side move up to lift ceiling, as shown in Figure 5 b.When expecting to close ceiling, sliding pin 52,62 is along opposite side To, moved along rearwardly direction, reach the centre position of respective chute 23,33.

When expecting to open ceiling, the first and second sliding components 5,6 can be moved rearwards by by the driving of driving cable.Tool Body, the first sliding pin 52 slides into its rear end in inclined part 232 along rearwardly direction, and the second sliding pin 62 is in hypsokinesis Its rear end is slid into oblique part 332, as shown in figure 6 a and 6b.In the moving process of sliding pin 52,62, the first and second rotations Pivoted arm 2,3 is all rotated down, thus causes that glass panel 10 is downward as shown in Figure 6 b.Now, steady pin 7 removes guiding rail 8 Fluting 81, and thus drive mechanism bootstrap guide rail 8 is unlocked.Then, drive mechanism is actuated to together with glass panel 10 Ceiling is continuously moved backward to by partially or even wholly open position.In order to be again switched off ceiling, drive mechanism is driven Move to move forward to ceiling opening directly below.Then, sliding pin 52,62 in the respective chute 23,33 along forward Direction is slided, to cause turning arm 2,3 to rotate up.Thus, glass panel 10 is moved upward to close ceiling opening.

In the operating process of ceiling, steady pin 7 is always locked in guiding rail 8, unless drive mechanism is by backward Move partially or completely to open ceiling opening.In other words, in the normal position of turning arm 2,3, steady pin 7 is led in guiding It is locked in rail 8.On tiltedly in position, the second turning arm 3 will steady pin 7 be locked still in guiding rail 8 by upper oblique.Only Only two turning arms 2,3 all by it is oblique when, steady pin 7 loses the constraint of guiding rail 8 and drive mechanism can move from Open to realize the opening function of ceiling.

Due to above-mentioned construction, drive mechanism of the invention is slided in three location points in pedestal 1 and first and second Guiding rail 8 is connected at component 5,6.Therefore, the rigidity of whole mechanism is improved, this is special for large-sized ceiling It is not favourable.In addition, drive mechanism is preferably made of steel to extend its life-span.

Further, since the first and second sliding components 5,6 are synchronized with the movement, the two turning arms 2,3 are rotated down simultaneously, So as to which glass panel 10 is moved down in the way of it will not rotate.Therefore, compared with prior art, glass panel 10 will be vertical Smaller space is occupied on direction.This saves bigger space in opening procedure for occupant.Also for the sealing of ceiling Persistence is more favourable.

In addition, because the rotation axis of glass panel during the lifting of ceiling closer to glass panel, will Interference value between substantially reducing at the top of glass seal and BIW (white body).Therefore, it is this in order to be reduced in the front side of ceiling Interference and necessary guide member can be omitted in the prior art.So that the drive mechanism of the present invention is simple and reliable.

According to the above embodiments, the first and second turning arms 2,3 are driven by the first and second drive members 5,6 respectively. It will be clear however that other drive members can be used for turning arm.The drive member of replacement can be connected to the first He Second turning arm, to drive them to rotate up and down, so as to operate ceiling.In this case, slided without being set in turning arm Groove.

In addition, it is not desired to which the chute of two turning arms is limited to the above.That is, chute can change size And/or shape.For example, the height of the inclined part 232 of the first chute 23 can be with the rear-inclined of the second chute 33 part 332 height is identical, so that glass panel 10 will not rotate during it is moved down.However, each height can be with It is different to be set as.In this case, glass panel 10 slightly can be moved down rotatably.

Fig. 9 to 11 diagrammatically illustrates the different shape of chute.In these remodeling, the first and second chutes 23,33 are all With inclined part.In the normal position of drive mechanism, corresponding inclined part is substantially parallel to one another, so that the One and second turning arm can be along same direction tilted upward.In addition, chute can also have approximate horizontal part, so that First and second turning arms can tilted upward successively because when sliding pin is slided in the part of level, corresponding rotation Pivoted arm will not be moved and another turning arm rotates.Specifically, as shown in figure 9, the first sliding groove 23 is including approximate horizontal Part and the inclined part from the rear end of the part of the level along lower rear to extension, second chute 33 include Inclined part and the approximate horizontal part extended from the rear end of the inclined part.Due to this shape, glass surface The front and rear side of plate will successively by it is upper tiltedly, and finally, glass panel will be due to tiltedly be opened on both sides.As shown in Figure 10, One and second chute 23,33 be included in the inclined part that lower rear is upwardly extended.Due to this shape, glass panel will be by In on both sides tiltedly and be opened.As shown in figure 11, the first and second chutes 23,33 are included in the inclination that rear is upwardly extended Part.Due to this shape, glass panel will be because front and rear sides all decline and are opened.However, approximate horizontal part The inclined part in Figure 10,11 can be desirably added to, so that the both sides of glass panel will be inclined in the different time Tiltedly.

Figure 12 further schematically show another shape of chute.Specifically, the first chute 23 is approximate horizontal And the second chute 33 is or including inclined part.In this case, only the second turning arm tilts up or down, and the One turning arm 23 will be remained stationary as or somewhat moved, so as to improve sealing property.

In addition, steady pin 7 can be shaped differently, as long as it can be locked to guiding rail 8.Steady pin may be used also With integrally formed with first rotating arm 2.Furthermore it is also possible to which it is envisioned that steady pin 7 is formed on the second turning arm 3.

The invention further relates to the ceiling equipment of vehicle.Ceiling equipment includes guiding rail 8 and set in guiding rail 8 Drive mechanism.

Although the illustrative examples of this specification are described referring to the drawings, described above, disclosure with And accompanying drawing should not be construed as limitation and only specific embodiment is illustrated.It is therefore understood that the present invention is not limited In those specific embodiments, and on the premise of the scope of the present invention or spirit is not departed from, those skilled in the art can realize Various other changes and remodeling.

Claims (13)

1. a kind of drive mechanism for vehicle ceiling, including：

The pedestal (1) that can be slided in the guiding rail (8) of the ceiling；

First rotating arm (2), an end (21) of the first rotating arm can be rotatably connected to the pedestal (1) and Another end (22) of the first rotating arm is adapted to be coupled to the front side of the panel (10) of the ceiling；

Second turning arm (3), an end (31) of second turning arm can be rotatably connected to the pedestal (1) and Another end (32) of second turning arm is provided with connector (4) so that the rear side with the panel (10) is connected；

The drive member being connected with first and second turning arm (2,3), to drive the first rotating arm and second to revolve Rotated above and below pivoted arm difference；And

Fixing component (7), the fixing component is suitable to the drive mechanism being locked to the guiding rail with can discharging (8)。

2. drive mechanism according to claim 1, it is characterised in that the drive mechanism includes the first sliding component and the Two sliding components (5,6), first sliding component and second sliding component are synchronously moved in the guiding rail (8) It is dynamic.

3. drive mechanism according to claim 2, it is characterised in that first sliding component and the second sliding component (5,6) each include sliding pin (52,62), and the first rotating arm (2) is provided with the first chute (23), second turning arm (3) Provided with the second chute (33), the sliding pin (52,62) of first sliding component and the second sliding component (5,6) is respectively described One and second can slide in chute (23,33), make it that first and second turning arm (2,3) can be simultaneously or sequentially Tilted upward.

4. drive mechanism according to claim 3, it is characterised in that first and second chute (23,33) is each wrapped Inclined part is included, wherein, in the normal position of the pent drive mechanism of the panel (10), described first and The inclined part of two chutes (23,33) substantially extends in the same direction.

5. drive mechanism according to claim 4, it is characterised in that the described first and/or second chute (23,33) is also wrapped The approximate horizontal part being connected with the inclined part is included, make it that first and second turning arm (2,3) can be according to Secondary tilted upward.

6. drive mechanism according to claim 4, it is characterised in that first chute (23) also includes approximate horizontal Partly (231), the approximate horizontal part is connected with the inclined part (232) of first chute, the inclined portion Divide and be inclined upwardly from the rear end of the part (231) of the level at upper rear, and the inclined part bag of second chute Include and be connected with each other and each comfortable upper rear inclined part of acclivitous front and rear (331,332).

7. drive mechanism according to claim 3, it is characterised in that in the pent driving machine of the panel (10) In the normal position of structure, first chute (23) is that approximate horizontal and described second chute (33) includes inclined portion Point.

8. according to any described drive mechanism of claim 1 to 7, it is characterised in that the pedestal (1) is single part, institute State the first and second turning arms (2,3) and be pivotally attached to the pedestal via respective.

9. drive mechanism according to claim 8, it is characterised in that place is connected to described first to the pedestal in its back-end Turning arm (2), and it is connected at its front end second turning arm (3).

10. according to any described drive mechanism of claim 1 to 7, it is characterised in that the pedestal (1) includes two each other Rigidly connected part (11,12), one of one of part (11) and first and second turning arm (2,3) are connected, and Another part (12) is connected with another of first and second turning arm (2,3).

11. according to any described drive mechanism of claim 1 to 10, it is characterised in that the fixing component (7) is from described the One turning arm (2) is suspended from second turning arm (3), and the lower end of the fixing component is adapted to project into the guiding In fluting (81) in guide rail (8), to limit the drive mechanism movement on the longitudinal direction of the guiding rail (8).

12. drive mechanism according to claim 11, it is characterised in that the fixing component (7) and described first or the Two turning arms (2) are integrally formed.

13. a kind of vehicle ceiling equipment, including guiding rail (8) and according to any described driving machine of claim 1 to 12 Structure.