CN204109751U - Skylight device for vehicle - Google Patents

Abstract

The utility model provides skylight device for vehicle, can easily suppress rocking of rotating band with simple structure and not cause sliding resistance to increase.As the band maintaining part (32) of holding member being arranged at front case (23), there is the retention groove (31) of the slip road L of formation rotating band (25).In addition, front case (23) possesses the cover (33) covered the peristome (31a) of the retention groove (31) along its slip road L.Be configured to using this cover (33) as pressing component, the Width end (25a) of the rotating band (25) relative with the peristome (31a) of each retention groove (31) is flexibly pressed.

Description

Skylight device for vehicle

Technical field

The utility model relates to skylight device for vehicle.

Background technology

In the past, in for motor vehicle skylight device, exist and driven by band and make the portable plate being arranged at this roof opening portion carry out the device of on-off action.Such as, the skylight device described in patent documentation 1 possesses: be arranged at the both sides, vehicle-width direction in roof opening portion guide rail and can along the moving body of vehicle fore-and-aft direction movement on above-mentioned guide rail.In addition, the flexible rotating band that has that can move back and forth along bearing of trend is connected to above-mentioned moving body.In addition, this rotating band is used to the known tooth bar band with the rack tooth engaged with driven wheel.And, based on the power of the drive source (motor) transmitted via this tooth bar band, the moving body on each guide rail is moved, thus the portable plate of the top being supported on this each guide rail can be made to carry out on-off action.

In addition, the skylight device of this conventional example possesses holding member, and this holding member has the retention groove on the slip road forming above-mentioned rotating band.In addition, be formed at the open end of the retention groove along this slip road and there is eaves shape and from the sidewall portion of a side towards multiple press sections that the side, sidewall portion of the opposing party is outstanding.And, the anticreep of this rotating band can be realized thus.

Patent documentation 1: Japanese Unexamined Patent Publication 2010-47225 publication

But, in the above-mentioned structure like that rotating band is contained in retention groove, because this rotating band bends in a thickness direction, rock as undulation, thus likely make above-mentioned rotating band contact with the internal face of retention groove in the mode of collision, be separated.And contact sound likely produced thus occurs as abnormal sound.Therefore for retention groove, be preferably formed to: the groove width between reducing along its thickness direction the both sides wall portion clamping rotating band, makes the gap of above-mentioned each sidewall portion and rotating band reduce as far as possible.

But, avoid the increase of sliding resistance and that the groove width of the best of rocking of rotating band as described above can be suppressed to be set between two sidewall portions will be very difficult.And not only its groove width, for the thickness of rotating band, also still need high-precision qualitative control, therefore in this, still remain room for improvement.

Utility model content

The utility model completes to solve the problem, and its object is to provides a kind of skylight device for vehicle, can with simple structure, easily suppresses rocking of rotating band and does not cause the increase of sliding resistance.

The skylight device for vehicle solving above-mentioned problem preferably possesses: rotating band, and it drives the portable plate in the roof opening portion being arranged at vehicle; Holding member, it has the retention groove on the slip road forming described rotating band; Pressing component, it is fixed on described holding member, by covering the peristome of the described retention groove along described slip road, thus flexibly can press the Width end of the described rotating band relative with this peristome.

According to said structure, with simple structure, rotating band can be clamped and do not cause sliding resistance to increase between this pressing component (press surface) and retention groove (diapire face).And, can easily suppress rocking of rotating band thus, and without the need to high-precision qualitative control.

Solve the skylight device for vehicle of above-mentioned problem, preferably, described retention groove has between buckled zone, and described pressing component forms the area pressed of the described rotating band comprised between described buckled zone.

That is, the contact sound produced between rotating band and the internal face of retention groove, between buckled zone, situation about specifically occurring at its borderline region is more.Therefore according to said structure, sliding resistance can be suppressed to increase, and can more effectively suppress rocking of rotating band.

Solve the skylight device for vehicle of above-mentioned problem, preferably, described retention groove has the side wall surface of toppling over to the direction becoming outside in described buckled zone.

According to said structure, rotating band is toppled in the mode of the side wall surface of toppling over along this.And also can utilize the two side walls clamping rotating band of retention groove thus, its result can more effectively suppress rocking of rotating band.

Solve the skylight device for vehicle of above-mentioned problem, preferably, borderline region between described buckled zone has between transition region, is the region that the interval in the press surface of described pressing component and the diapire face of described retention groove under the state not configuring described rotating band in described retention groove gradually changes along the bearing of trend on described slip road between this transition region.

According to said structure, the change sharply of sliding resistance when the end of rotating band can be suppressed to enter between buckled zone.And, its action smoothly can be ensured thus.

Solve the skylight device for vehicle of above-mentioned problem, preferably, described pressing component is formed as can the tabular of elastic deformation.

According to said structure, by make use of the simple structure of the elastic force of this pressing component, and flexibly rotating band can be pressed.

Solve the skylight device for vehicle of above-mentioned problem, preferably, described pressing component possesses to have the cantilever position of free end to press the press section of described rotating band.

According to said structure, can more effectively flexibly press rotating band.

Solve the skylight device for vehicle of above-mentioned problem, preferably, described retention groove has shallow slot portion, and the groove depth in this shallow slot portion is set as more shallow than the bandwidth of described rotating band.

Solve the skylight device for vehicle of above-mentioned problem, preferably, described area pressed is formed as comprising the described curve supplying the end of described rotating band to pass through.

Solve the skylight device for vehicle of above-mentioned problem, preferably, described rotating band is formed by having elastomeric resin.

Solve the skylight device for vehicle of above-mentioned problem, preferably, described rotating band is the tooth bar band with the rack tooth engaged with driven wheel.

Solve the skylight device for vehicle of above-mentioned problem, preferably, between described transition region be: more more widen away from the distance between the surface of the position between described buckled zone then between the press surface of described pressing component and the diapire face of described retention groove.

According to said structure, with simple structure, easily rotating band can be clamped between this pressing component (press surface) and retention groove (diapire face).

According to the utility model, with simple structure, easily can suppress rocking of rotating band and do not cause sliding resistance to increase.

Accompanying drawing explanation

Fig. 1 is the block diagram of the schematic arrangement representing skylight device.

Fig. 2 is the birds-eye view of skylight device.

Fig. 3 is the exploded perspective view of the pressing structure representing rotating band.

Fig. 4 is the birds-eye view of band maintaining part.

Fig. 5 is the cutaway view (the V-V section of Fig. 4) of the pressing structure representing rotating band.

Fig. 6 is the amplification view (the V-V section of Fig. 4) of the pressing structure representing rotating band.

Fig. 7 be set in retention groove transition region between instruction diagram.

Fig. 8 is the instruction diagram of the pressing structure representing other examples.

Description of reference numerals: 1 ... vehicle; 2 ... roof hoard; 3 ... roof opening portion; 10 ... portable plate; 11 ... skylight device; 12 (12A, 12B) ... device for driving opening/closing body; 13 ... motor; 15 ... actuating device; 21 ... guide rail; 22 ... moving body; 23 ... front case (holding member); 25 (25A, 25B) ... rotating band; 25a ... Width end; 25e ... end; 27 ... driven wheel; 30 ... tooth bar band; 30a ... rack tooth; 31 ... retention groove; 31a ... peristome; 31b, 31c ... side wall surface; 31s ... diapire face; 32 ... band maintaining part (holding member); 32s ... tabular surface; 33 ... cover (pressing component); 33s ... press surface; 34 ... connecting hole; 35,35a ~ 35c ... locking teat; 36 ... shallow slot portion; 37 ... press section; 37a ... front end; 38 ... dip plane; 39 ... pressing teat; L ... slip road; L1 ... connecting end Slideslip road; L2 ... free end side slip road; Sc ... between buckled zone; α ... area pressed; β ... borderline region; D ... groove depth; W ... bandwidth; X ... distance between the surface; Sd ... between transition region.

Detailed description of the invention

Below, with reference to the accompanying drawings an embodiment of skylight device for vehicle is described.

As shown in Figure 1, the roof opening portion 3 of substantially rectangular shape is formed at the roof hoard 2 of vehicle 1.In addition, being provided with in this roof opening portion 3 can the portable plate 10 of substantially planar in the above-mentioned roof opening portion 3 of opening and closing.And, be provided with at this vehicle 1 and make portable plate 10 carry out the skylight device 11 of on-off action as drive source in motor (omitting diagram).

If describe in detail, then the skylight device 11 of present embodiment possesses: pair of right and left open/close driving device 12 (12A, 12B), they are arranged at both ends, vehicle-width direction 3a, the 3b in roof opening portion 3, thus can carry out driven for opening and closing to portable plate 10; Actuating device 15, motor 13 is driven each open/close driving device 12 as drive source by it.

As shown in Figure 2, each open/close driving device 12 possesses: the guide rail 21 that the fore-and-aft direction along vehicle extends and be set to can the moving body 22 of movement on this guide rail 21.In addition, actuating device 15 remains on the front case 23 in the front being arranged at roof opening portion 3.And, there is flexibility and the rotating band 25 (25A, 25B) that can slide along bearing of trend be connected to the moving body 22 of each open/close driving device 12.

That is, the actuating device 15 of present embodiment, converts the propulsive effort of motor 13 to rotating band 25 moving back and forth thus drives the moving body 22 on each guide rail 21.And each open/close driving device 12 can carry out driven for opening and closing based on the movable of above-mentioned each moving body 22 to the portable plate 10 of the top being supported on each guide rail 21.

In addition, the skylight device 11 of present embodiment can select following on-off action for its user, that is: namely: the inclination on-off action that the mode that portable plate 10 is lifted with its rear end is fascinated (being inclined upwardly) and the slide opening and closing action making portable plate 10 movable.And, actuating device 15 be configured to according to it by control content corresponding to any one on-off action selected, drive the moving body 22 on each guide rail 21.

If be described in further detail, then the front case 23 of present embodiment divides in its Width (being above-below direction in fig. 2) substantially central portion and keeps actuating device 15.In addition, the actuating device 15 of the present embodiment propulsive effort had by motor 13 carries out the driven wheel 27 that rotates.And, the known tooth bar band 30 that a mask has the rack tooth engaged with driven wheel 27 is used in each rotating band 25.

In addition, the front case 23 of present embodiment is formed and drives by motor and carry out the slip road L of each rotating band 25 moved back and forth.Specifically, for each rotating band 25, front case 23 forms the connecting end Slideslip road L1 extended outside Width towards each open/close driving device 12 from the driven wheel 27 of the actuating device 15 and free end side slip road L2 extended to the direction contrary with connecting end Slideslip road L1 from driven wheel 27 respectively.

In addition, in the present embodiment, form the tooth bar band 30 of the first rotating band 25A, engage from vehicle rear-side (being right side in fig. 2) with driven wheel 27, and the tooth bar band 30 forming the second rotating band 25B forms its slip road L in the mode engaged with driven wheel 27 from vehicle front side (in fig. 2 for left side).And the skylight device 11 of present embodiment becomes and drives this two rotating bands 25A, 25B thus simultaneously, thus the formation making open/close driving device 12A, 12B of the left and right being connected to above-mentioned rotating band 25A, 25B (moving body 22) synchronous.

(the pressing structure of rotating band)

Next, the pressing structure of the rotating band 25 of the skylight device 11 of present embodiment is described.

As shown in Fig. 3 ~ Fig. 5, in the skylight device 11 of present embodiment, front case 23 possesses: band maintaining part 32, its have form rotating band 25 slip road L, be specifically the free end side slip road L2 of the first rotating band 25A; Cover 33, it covers the peristome 31a along the retention groove 31 on this slip road L (L2).And, be configured to using this cover 33 as pressing component, Width end (being the end of the upside in Figure 5) 25a of the rotating band 25 relative with the peristome 31a of each retention groove 31 is flexibly pressed.

If describe in detail, then the band maintaining part 32 of present embodiment has the tabular surface 32s of the upside (being upside in Figure 5) being configured in vehicle 1.And retention groove 31 is in the mode of the periphery along this tabular surface 32s and to extend configuration from the mode being with the 32a side, front end of maintaining part 32 to move into 32c side, rear end.

That is, the retention groove 31 of present embodiment, has Sc between buckled zone at the side end 32b of band maintaining part 32, and between this buckled zone, Sc forms the bending slip road L that the bearing of trend of the rotating band 25 be configured in this groove is reversed.And cover 33 is configured to by being fixed on tabular surface 32s, thus in the area pressed α comprising Sc between the buckled zone passed through for the end 25e of this rotating band 25, the Width end 25a of pressing rotating band 25.

If more Detailed Description, be then formed as by carrying out plastic working (punch process) to metallic material can the tabular of elastic deformation for the cover 33 of present embodiment.And band maintaining part 32 is provided with multiple locking teat 35, and this locking teat 35 has so-called snap-fit arrangement, and by engaging with the connecting hole 34 of cover 33 thus above-mentioned cover 33 can being fixed on above-mentioned tabular surface 32s.

In addition, as shown in Fig. 4 ~ Fig. 6, between above-mentioned buckled zone, Sc becomes shallow slot portion 36, and the groove depth D in this shallow slot portion 36 is set as more shallow than the bandwidth W of rotating band 25.And, thus in the present embodiment, in this retention groove 31 non-configuration driven band 25 state under, the interval (distance between the surface X) between buckled zone between the press surface 33s of the cover 33 of Sc and the diapire face 31s of retention groove 31 becomes the value (X<W) less than the bandwidth W of rotating band 25.

That is, in the present embodiment, utilize the elastic force of cover 33, the rotating band 25 in this shallow slot portion 36 is flexibly pressed.Specifically, above-mentioned each locking teat 35 is formed at the inner side of the retention groove 31 formed in the peripheral part of tabular surface 32s.And, the cover 33 of present embodiment is configured to thus: be configured in by the Width at this tabular surface 32s than being configured at outermost each locking teat 35a ~ 35c part in the outer part as press section 37, and with the cantilever position at its front end 37a with free end to press rotating band 25.

In addition, as shown in Fig. 4 and Fig. 7, in the present embodiment, between above-mentioned buckled zone Sc borderline region, be specifically the borderline region β of Sc between the buckled zone that passes through when entering Sc between buckled zone at the end 25e importing to the rotating band 25 in this free end side slip road L2, be formed with Sd between transition region that the above-mentioned distance between the surface X of bearing of trend along this slip road L (L2) gradually changes.

Specifically, between this transition region, Sd is formed as: the distance between the surface X more away from position then the press surface 33s of this cover 33 and the diapire face 31s of retention groove 31 of Sc between buckled zone is wider.That is, in the present embodiment, between this transition region in Sd, the value of distance between the surface X changes to the value X2 less than bandwidth W from the value X0 larger than bandwidth W via the value X1 equal with bandwidth W.And thus in the present embodiment, there is change sharply in sliding resistance when being configured to suppress the end 25e of rotating band 25 to enter Sc between buckled zone, thus ensures its action smoothly.

In addition, as shown in Figure 6, in the present embodiment, form in each side wall surface 31b, 31c of retention groove 31, between above-mentioned buckled zone, in Sc, be configured in the side wall surface 31b of the side of radial outside, be formed as the dip plane 38 (tiltangleθ) of toppling over to the direction become outside it.And the rotating band 25 of present embodiment is in the area pressed α at least comprising Sc between buckled zone thus, slide in retention groove 31 with the state of toppling over towards this side wall surface 31b side (in this example embodiment for being formed with the side of rack tooth 30a).

Next, the effect of the skylight device 11 formed in the above described manner is described.

In the present embodiment, be configured in the rotating band 25 in retention groove 31, the propulsive effort based on motor 13 slides in this retention groove 31.Now, rotating band 25, by the cover 33 of the peristome 31a of covering retention groove 31, flexibly presses the Width end 25a relative with this peristome 31a.And, the anticreep of this rotating band 25 can be realized thus, and suppress rocking of above-mentioned rotating band 25.

Above, according to the present embodiment, following effect can be obtained.

(1) as the band maintaining part 32 of holding member being arranged at front case 23, there is the retention groove 31 of the slip road L forming rotating band 25.In addition, front case 23 possesses the cover 33 covered the peristome 31a of the retention groove 31 along this slip road L.And be configured to: using this cover 33 as pressing component, the Width end 25a of the rotating band 25 relative with the peristome 31a of each retention groove 31 is flexibly pressed.

According to said structure, with simple structure, rotating band 25 can be clamped and do not cause sliding resistance to increase between the press surface 33s and the diapire face 31s of retention groove 31 of this cover 33.And, easily can suppress rocking of rotating band 25 thus and without the need to high-precision qualitative control.

(2) retention groove 31 have form bending slip road L buckled zone between Sc.And cover 33 forms the area pressed α of the rotating band 25 comprising Sc between buckled zone that the end 25e for this rotating band 25 passes through.

That is, rocking of rotating band 25 exists in the easy maximized trend of its end 25e.And the contact sound produced between rotating band 25 and the side wall surface (31b, 31c) of retention groove 31 appears at Sc between buckled zone, specifically for the situation of its borderline region is more.Therefore according to said structure, the increase of sliding resistance can be suppressed, and can more effectively suppress rocking of rotating band 25.

(3) form the side wall surface 31b of retention groove 31 to be formed as between its buckled zone in Sc towards the dip plane 38 that the direction becoming radial outside is toppled over.

According to said structure, rotating band 25 is to topple over along the mode of its dip plane 38.And these two side wall surfaces 31b, 31c can be utilized thus to clamp rotating band 25, and its result can more effectively suppress rocking of rotating band 25.

(4) between buckled zone, the borderline region β of Sc is formed with Sd between transition region, between this transition region, Sd is: in this retention groove 31, be not configured with the distance between the surface X between the press surface 33s of the cover 33 of the state of the rotating band 25 and diapire face 31s of retention groove 31, and the bearing of trend along slip road L gradually changes.

According to said structure, there is change sharply in the sliding resistance when end 25e of rotating band 25 can be suppressed to enter Sc between buckled zone.And, its action smoothly can be ensured thus.

(5) be formed as can the tabular of elastic deformation for cover 33.Thereby, it is possible to the simple structure of the elastic force that make use of this cover 33, flexibly press rotating band 25.

(6) press section 37 that the cantilever position that cover 33 possesses to have free end presses rotating band 25.Can more effectively flexibly press rotating band 25 thus.And, by combining with the structure of above-mentioned (5), more significant effect can be obtained.

(7) retention groove 31 has shallow slot portion 36, and the groove depth D in this shallow slot portion 36 is set as more shallow than the bandwidth W of rotating band 25.By forming such structure, easily rotating band 25 can be clamped between the press surface 33s and the diapire face 31s of retention groove 31 of this cover 33 simply to form.

In addition, above-mentioned embodiment also can change as follows.

In the above-described embodiment, can the cover 33 of tabular of elastic deformation as pressing component, based on the elastic force of this cover 33, the rotating band 25 in retention groove 31 is flexibly pressed.But be not limited to this, if by covering the peristome 31a along the retention groove 31 of this slip road L, thus flexibly can press the Width end 25a of the rotating band 25 relative with this peristome 31a, then the shape of this pressing component also can have any shape.Such as, also can for the structure using elastomeric element to exert a force to pressing component.And, for this press section 37, also can be cantilever position.

In addition, the material of cover 33 also can at random change.Such as, cover 33 also can be the structure formed by resin.In addition, rotating band 25 also can be by the structure having elastomeric resin and formed.Effectively can utilize the elasticity of this rotating band 25 thus, thus more effectively suppress sliding resistance to increase.

In the above-described embodiment, to being set as that the shallow slot portion 36 that groove depth D is more shallow than the bandwidth W of rotating band 25 sets.And thus, when under the state not being configured with rotating band 25 in this retention groove 31, distance between the surface X between the press surface 33s of the cover 33 of Sc between buckled zone and the diapire face 31s of retention groove 31 is set to the value less than the bandwidth W of rotating band 2S, thus forms the area pressed α comprising the rotating band 25 of Sc between this buckled zone.

But be not limited to this, such as, as shown in Figure 8, the pressing teat 39 that the peristome 31a from retention groove 31 is outstanding in groove be arranged at the press section 37 of cover 33.And thus, also can be the structure distance between the surface X between the press surface 33s of this cover 33 and the diapire face 31a of retention groove 31 being set to the value less than the bandwidth W of rotating band 25.Even if form such structure, also can be same with above-mentioned embodiment with simple structure, easily draw between 31s at the press surface 33s of this cover 33 and the diapire of retention groove 31 and clamp rotating band 25.And, also can be by this pressing teat 39 and shallow slot portion 36 structure also.

In addition, the forming part of area pressed α also can at random be changed.Such as, between this buckled zone, Sc also can make the bearing of trend of the rotating band 25 be configured in the groove of retention groove 31 reverse.In addition, also can not pass through for the end end 25e of rotating band 25.In addition, area pressed α can comprise a part of Sc between buckled zone.And, be also not precluded within the situation that this area pressed a does not comprise Sc between pressing area.

In the above-described embodiment, in each side wall surface 31b, 31c of forming retention groove 31, side wall surface 31b that only Sc is configured at the side of radial outside between above-mentioned buckled zone is dip plane 38, and this dip plane 38 is toppled over towards the direction become outside it.But be not limited to this, the side wall surface 31c being configured in the side of radially inner side between above-mentioned buckled zone in Sc also can for identical dip plane 38.And, do not get rid of the structure that this each side wall surface 31b, 31c are not such dip plane 38 yet.

In the above-described embodiment, between buckled zone, the borderline region β of Sc is formed with the region that the distance between the surface X between the press surface 33s of Sd between transition region, i.e. the cover 33 and diapire face 31s of retention groove 31 gradually changes along the bearing of trend of slip road L, but does not also get rid of the structure without Sd between such transition region.

In the above-described embodiment, the known tooth bar band 30 that a mask has the rack tooth 30a engaged with driven wheel 27 is used in rotating band 25.But the kind of rotating band 25 and type of drive thereof may not be defined in this.Also can be such as in the two-sided structure with rack tooth 30a.And, do not get rid of the structure that this rotating band 2S is driven by roller, cylinder etc. yet.

Next, the technological thought can held by above embodiment is recorded together with effect.

A () is characterized in that, above-mentioned area pressed is formed as comprising the above-mentioned curve supplying the end of above-mentioned rotating band to pass through.That is, rocking of rotating band exists in the easy maximized trend of its end.Therefore, sliding resistance can be suppressed thus to increase, and more effectively suppress rocking of rotating band.

B () is characterized in that, above-mentioned rotating band is formed by having elastomeric resin.Effectively can utilize the elasticity of this rotating band thus, thus more effectively suppress sliding resistance to increase.

C () is characterized in that, above-mentioned rotating band is the tooth bar band with the rack tooth engaged with driven wheel.

D () is characterized in that, for more away from the position between above-mentioned buckled zone between above-mentioned transition region, then the distance between the surface between the press surface of above-mentioned pressing component and the diapire face of above-mentioned retention groove is more widened.

E the holding device of () a kind of rotating band, possesses: holding member, it has the retention groove on the slip road forming rotating band; Pressing component, it is fixed on above-mentioned holding member, by covering the peristome of the above-mentioned retention groove along above-mentioned slip road, thus flexibly can press the Width end of the above-mentioned rotating band relative with this peristome.

Claims (11)

1. a skylight device for vehicle, is characterized in that, possesses:

Rotating band, it drives the portable plate in the roof opening portion being arranged at vehicle;

Holding member, it has the retention groove on the slip road forming described rotating band; And

Pressing component, it is fixed on described holding member, by covering the peristome of the described retention groove along described slip road, thus flexibly can press the Width end of the described rotating band relative with this peristome.

2. skylight device for vehicle according to claim 1, is characterized in that,

Described retention groove has between buckled zone,

Described pressing component forms the area pressed of the described rotating band comprised between described buckled zone.

3. skylight device for vehicle according to claim 2, is characterized in that,

Described retention groove has the side wall surface of toppling over to the direction becoming outside in described buckled zone.

4. the skylight device for vehicle according to Claims 2 or 3, is characterized in that,

Borderline region between described buckled zone has between transition region, is the region that the interval in the press surface of described pressing component and the diapire face of described retention groove under the state not configuring described rotating band in described retention groove gradually changes along the bearing of trend on described slip road between this transition region.

5. skylight device for vehicle according to claim 1, is characterized in that,

Described pressing component is formed as can the tabular of elastic deformation.

6. skylight device for vehicle according to claim 1, is characterized in that,

Described pressing component possesses to have the cantilever position of free end to press the press section of described rotating band.

7. skylight device for vehicle according to claim 1, is characterized in that,

Described retention groove has shallow slot portion, and the groove depth in this shallow slot portion is set as more shallow than the bandwidth of described rotating band.

8. skylight device for vehicle according to claim 2, is characterized in that,

Described area pressed is formed as comprising the described curve supplying the end of described rotating band to pass through.

9. skylight device for vehicle according to claim 1, is characterized in that,

Described rotating band is formed by having elastomeric resin.

10. skylight device for vehicle according to claim 1, is characterized in that,

Described rotating band is the tooth bar band with the rack tooth engaged with driven wheel.

11. skylight device for vehicle according to claim 4, is characterized in that,

Between described transition region be: more more widen away from the distance between the surface of the position between described buckled zone then between the press surface of described pressing component and the diapire face of described retention groove.