NL1009773C2 - Slide and tilt mechanism for vehicle sun roof includes fixed frame and guide rails with motor=driven slide operating tilting and retracting mechanism - Google Patents

Abstract

The roof closure panel (4) is mounted in the opening (2) in a fixed frame (3) which includes guide rails (5). The operating mechanisms on each side are driven by a slide connected by a pivot (8) to an arm (7) linked to slots in guide track arms (10,16) which when fully forward, tilt the panel (4) upwards to the ventilating position. As the slide pivot (8) moves rearwards, the panel drops to the closed position, and then to the lowered position before moving back under the fixed roof (1).

Description

NL 2413-Me / tk

Open roof construction for a vehicle

The invention relates to an open roof construction according to the preamble of claim 1.

Such open roof constructions are already known, for example from DE-A-39 30 756 and DE-A-36 03 314. With these 5 known roofs, an extension lever is provided which converts the movement of the slide into a movement in height direction of the closing member. With the aid of this adjusting lever, the vertical displacement of the closing member is increased compared to panels in which a fixed pin 10 moves in a slot in the baffle plate and thus adjusts the closing member in the height direction. The delay lever cannot provide independent support to the panel without being subjected to bending and is therefore sensitive to forces on the panel, which may give rise to clearances. In principle, the guide slot of the baffle plate on the panel itself does not contribute to the height movement of the closing member.

The object of the present invention is to provide an improved open roof construction of the type mentioned in the preamble.

For this purpose, the open roof construction according to the invention is characterized in that the slide is provided with a height-adjustable part which is equipped with the guide pin and which also engages with a further, height-extending guide slot in a with the stationary part connected backstage.

By using two guide slots simultaneously, an increase in the height adjustment of the closing member can be achieved, without this having to take up the mounting height, while it is also not necessary to use an adjusting lever. However, the slide must be provided with a height-adjustable part, in order to adapt the engagement between the slide and the guide slot of the baffle to the height variation of the guide slot along its length.

It is advantageous if the height-adjustable part of the slide is provided with a rocker connected via a horizontal hinge to the slide, while it is of great advantage if the baffle plate goes on the valve and the baffle of the stationary part, and preferably the lead slots thereof may overlap in height direction in the lower positions of the closing member.

Due to the overlapping of the baffle plate and the baffle, or the guide slots thereof, a very small construction height for the operating mechanism can be achieved.

It is advantageous if a second guide pin is formed on the height-adjustable part, which meshes with the guide slot in the baffle, and wherein the two guide pins are at least approximately one above the other, and the guide slots have at least approximately the same length.

In this way a direct transmission of forces from the panel to the guide rail can take place without bending forces on the rocker arm.

The invention is in particular advantageously applicable in an open roof construction, wherein the closing member comprises at least one rigid panel, which can be pivoted at an angle upwards to a ventilation position on the one hand and can be lowered and backwards under the fixed roof on the other hand. with the guide pins in their forward position in the corresponding guide slots when the panel is in the ventilation position.

Because a great height adjustment is possible, the guide slots can be positioned at maximum backwards on the panel 1009773 3 and there will still be a great distance between the pipes in the front position of the slide, with the panel in the ventilation position. pins and a front pivot point of the panel, thereby providing very stable support of the panel and holding the panel over a relatively great length.

The movement mechanism according to the invention offers an additional possibility in the event that an electric motor is provided for driving the slide, because in this case the course of one and / or other guide slot can be selected such that the load of the movement mechanism -new on the electric motor is at least approximately constant during the entire displacement of the slide.

This has the great advantage that the electric motor will maintain a constant speed when adjusting the panel, which gives a reliable acoustic impression and causes the least noise nuisance. It also benefits the life of the electric motor. In areas of the adjustment of the panel where the resistance is relatively high, for example when passing through the closed position, a larger transmission ratio will temporarily be chosen, as a result of which the panel moves more slowly through this difficult area. The occupants of the vehicle will hardly notice this.

The invention will be further elucidated hereinafter with reference to the drawings which schematically represent an embodiment of the invention.

Fig. 1, 2 and 3 are longitudinal sections of the exemplary embodiment of the open roof construction according to the invention in three different positions.

Fig. 4 is a perspective exploded view of the main parts of the open roof construction operating mechanism of FIG. 1.

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Fig. 5, 6 and 7 are perspective views of the mechanism of Figure 4 in positions corresponding to Figures 1-3.

The drawings, and initially fig. 1-3, show an exemplary embodiment of the open roof construction according to the invention, which is built into a vehicle of which the fixed roof 1 is provided with a roof opening 2. The open roof construction is provided of a frame 3 or other stationary part which can be attached to the fixed roof 1. This frame 3 supports in a manner to be described in more detail a closing member 4 which can optionally close or at least partially release the roof opening 2.

In the exemplary embodiment shown, the open roof construction is designed as a so-called lifting-sliding roof, wherein the closing member 4 is in the form of a rigid panel which, from the closed position in the roof opening 2 (fig. 2), on the one hand to an obliquely raised ventilation position (fig. 1) can be moved and on the other hand slid downwards and then backwards under the fixed roof 1 (fig. 3).

For the purpose of these movements, the panel 4 is provided on both longitudinal edges with an operating mechanism, one of which is shown in the drawings, but it should be considered, however, that the same operating mechanism is arranged in mirror image on the other longitudinal edge of the panel 4. The operating mechanisms are housed in guide rails 5 which are mounted or integrated in the frame 3 and run underneath the fixed roof 1 on either side of the roof opening 2 and backward thereof. Each actuation mechanism is actuated by a carriage 6 (see FIGS. 4-7) which is guided in the guide rail 5 and is slidable along the guide rail 5 using a pull-push cable or other connector not shown which is connected in 1009773 with a driving device such as an electric motor, hand crank or the like.

Attached to the carriage 6 is a height-adjustable part in the form of a tumbler 7, which 5 is connected to the carriage 6 by means of a horizontal, transversely extending hinge 8. The rocker arm 7 of the carriage 6 is provided with a first guide pin 9 which meshes with a guide slot 10 formed in a sliding plate 11 mounted against the bottom of the panel 4 and extending in the longitudinal direction thereof. At the front, the baffle plate 11 is provided with a horizontal, transversely extending hinge 12, with which the panel 4 can pivot around its front. The hinge 12 is supported near the front of a baffle slide 13 to be further described. The hole in the baffle plate 11 through which the hinge pin of the hinge 12 protrudes is somewhat elongated, in order to allow shifts of the hinge 12 in the longitudinal direction upon pivoting of the panel 4, these longitudinal movements are determined by a connecting arm 14 which is pivotally connected to the baffle carriage 13 and the baffle plate 11.

In addition to the lead pin 9, the rocker arm 7 is formed with a second lead pin 15, which in this case is double and meshes with two parallel lead slots 16 in the baffle carriage 13. The lead slots 10 and 16 are of substantially equal length while they are also at least approximately one above the other and have an approximately equal, but opposite, vertical direction. As can be seen in Figs. 4-7, the baffle carriage 13 has a U-30 cross-section and is symmetrical with respect to a longitudinal axis, each leg of the U being provided with a guide slot 16. The distance between the legs of the U of the baffle slide 13 is such that the baffle plate 11 fits between them and the baffle plate 11 and the baffle slide 1009773 6 13 and also the guide slots 10, 16 thereof can partially overlap when the baffle plate 11 is pivoted under the influence of the movement of the guide pin 9 of the rocker arm 7 through the guide slot 10.

The guide pins 9 and 15 are fastened one above the other to the rocker arm and together with the hinge 8 a force triangle is formed which can provide a very stable support to the panel 4. Due to the arrangement of the guide pins 9 and 15, forces on the panel 4 can be transmitted directly to the guide rail via the rocker arm 7 without bending forces being exerted thereon.

As can be seen in Figs. 4-7, the baffle carriage 13 is provided with sliding shoes 17, with which the baffle carriage 13 is slidable in the guide rail 5. The shifting of the sliding carriage 13 only takes place for the purpose of the rearward shifting of the panel 4 to below the fixed roof 1 and with the other movements of the panel 4 in the height direction, the sliding carriage 13 must remain stationary and the carriage 6 move relative to the breech carriage 13. When the panel 4 is moved backwards, the slide 6 and the sliding slide 13 move as one unit.

Special blocking means are provided for blocking and releasing the baffle slide 13, which are shown in particular in Fig. 4. It can be seen that a blocking member 18 is arranged near the rear end of the breech carriage 13. This blocking member 18 comprises a blocking cam 19 which is hingedly connected to the breech carriage 13 by means of a resilient body 20. A transverse water channel 21 mounted above the sliding carriage 13 and moving with the sliding carriage 13 acts on the resilient body 20 and loads the blocking cam 19 downwards. In the forward position of the sliding carriage 100977¾ 7 13, the blocking cam 19 can engage with a recess (not shown) in the guide rail 5, in order to block the sliding carriage 13 with respect to the guide rail 5 and precisely the blocking or coupling between the cou-5 lisse slide 13 and slide 6.

For the latter purpose, the locking member 18 is provided on both sides above the locking cam 19 with coupling pins 22 which can cooperate with forks 23 at the rear end of the rocker arm 7 of the carriage 6. These forks 10 23 each have a coupling slot 24 with a first input section and a barely visible obliquely upwardly extending coupling section which on the one hand serves as a wedge for lifting the blocking cam 19 out of the blocking recesses in the guide rail 5 when passing through the coupling-15 part of the coupling slot 24. On the other hand, the torque pins 22 locked in the coupling part of the coupling slot 24 if the blocking lug 19 has moved away from the blocking recess in the guide rail 5 and the blocking lug 19 is locked in the vertical direction and also in the horizontal direction relative to the rocker arm 7.

The operation of the movement mechanism of the open roof construction according to the invention shown in the drawings will be explained in more detail with reference to Figures 1-3 and 5-7.

In Figs. 2 and 6 the panel 4 is in the closed position and in Fig. 2 it can be seen that the guide pins 9 and 15 are located in relatively horizontal parts of the guide slots 10 and 16. This means that when the guide pins 9, 15 are moved through their associated guide slots 10, 16, the panel 4 with a large transmission ratio is moved relatively slowly. This is done because in this area of movement of the panel 4 the resistance is relatively high, in particular because the seal 25 clamps around the panel 4 in the roof opening 2. Despite this resistance, due to the large gear ratio, the load on the drive motor due to the resistance of the operating mechanism is not large, so that it can slide the carriage 6 without problems.

When the carriage 6 is moved forward from the position according to Fig. 2, the baffle plate 11 of the panel 4 and the baffle carriage 13 are, as it were, wedged apart when the guide pins 9 and 15 are moved through their associated guide slots 10 and 16, wherein the maximum ventilation position is reached in Fig. 1. In this position, the guide pins 9 and 15 are located at the front end of the associated guide slots 10, 16. In this position, the engagement between the rocker arm 7 and the panel 4 is at a relatively great distance from the hinge 12 at the front of the panel 4, whereby stable support of the panel 4 takes place and a relatively short part of the panel is cantilevered. As a result, relatively great forces can be resisted on the panel 4 without the risk of vibrations or the like. During the forward movement of the carriage 6 from the position of Fig. 2 to the position of Fig. 1, the rocker arm 7 is rotated about the hinge 8 in that the guide pin 9 is moved upwardly with respect to the carriage through the guide slot 10. 6. The pivoting movement of the panel 4 is caused both by the course of the two guide slots 10 and 16 and by the displacement of the guide pins in the direction of the front hinge 12 of the panel 4.

In Fig. 3, the tumbler has moved backward from the closed position of Fig. 2 and the guide pins 9, 30 and 15 have landed at the rear end of their associated guide slots 10 and 16, and the panel 4 is pivoted downwardly about the hinge 12. In this position, the baffle plate 11 and the baffle slide 13 and also the guide slots 10, 16 thereof overlap to a considerable extent by the baffle plate 11 being moved between the legs of the U-shaped baffle carriage 13. Due to this overlap, the panel 4 can be moved very close to the guide rail 5 of the frame 3, and the overall construction height of the open roof construction can hereby be kept very low, which minimizes the loss of headroom in the interior of the vehicle. The guide slots 10, 16 are formed in their rear portion so that the panel is first moved slowly, then quickly, and then slowly again with constant movement of the slide 6.

In the last part of the movement of the carriage 6 to the position according to Fig. 3, the locking cam 19 is lifted out of the locking recess in the guide rail 5 by the coupling slots 24 in the forks 23 and the coupling pins 22 pass through the coupling slots 24 and they are finally blocked in the oblique portion of these coupling slots 24. After a slight backward movement of the baffle carriage 13, made possible by the release of the blockage by the blocking cam 19, the blocking cam 19 is blocked in height by the guide rail 5 and a coupling takes place between the carriage 6 and the breech carriage 13 due to the locking of the coupling pins 22 in the oblique part of the coupling slots 24, so that the carriage 6 and the baffle carriage 13 move as one unit. Due to the engagement of the coupling pins 22 in the forks 23 of the rocker arm 7, the panel 4 is also locked against an upward movement. The water gutter 21 exerts a downward force on the blocking cam 19, so that when the baffle slide 13 returns to its forward position and the blocking cam 19 comes above the recess in the guide rail 5, the blocking cam 19 is forced by the downward force of the resilient body 20 will automatically move into the recess upon further forward movement of the carriage 6.

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From the foregoing it will be clear that the invention provides an open roof construction, which on the one hand excels in simplicity and a small installation height and on the other hand provides stable support and a favorable drive characteristic.

The invention is not limited to the exemplary embodiment shown in the drawings and described above, which can be varied in various ways within the scope of the invention. The invention is thus also applicable to other types of open roof constructions, such as lifting roofs, spoiler roofs and other types of roofs with panels or other types of single or multiple closing members. The height-adjustable portion of the carriage could also engage one lead pin or other guide member 15 with the lead slots of the closure member and the stationary portion. The guide pins and guide slots could also be reversed kinematically.

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Claims (11)

1. Open roof construction for a vehicle with an opening (2) in the fixed roof (l), provided with a stationary part (3) to be attached to the roof with stationary guide rails (5) 5 extending on either side of the roof opening sliding slides (6) with movement mechanisms, an adjustable closing member (4) supported by the movement mechanisms, which is adjustable between a closing position in which it closes the roof opening and an open position in which it at least partially releases the roof opening, wherein each movement mechanism is provided with a sliding plate (11) attached to the closing member with a guide slot (10), in which a guide pin (9) connected to the slide engages, characterized in that the slide (6) is provided with a height-adjustable part (7) which is equipped with the guide pin (9) and which also engages with a further height-extending guide slot (16) in a baffle (13) connected to the stationary part (3). Open roof construction according to claim 1, wherein the height-adjustable part (7) of the carriage (6) is provided with a rocker arm connected to the carriage via a horizontal hinge (8). Open roof construction according to claim 2, wherein the baffle plate (11) on the closing member (4) and the baffle (13) of the stationary part (3), and preferably its lead slots (10, 16), are in one another height direction may overlap in lower positions of the closing member. Open roof construction according to any one of the preceding claims, wherein a second guide pin (15) is formed on the height-adjustable part (7), which meshes with the guide slot (16) in the baffle (13), and 1009773, the two guide pins (9, 15) are at least approximately above each other, and the guide slots (10, 16) have at least approximately the same length. Open roof construction according to any one of the preceding 5 claims, wherein the two guide slots (10, 16) have a height-varying course deviating from a straight line. Open roof construction according to any one of the preceding claims, wherein the closing member (4) comprises at least one rigid panel, which can be pivoted at an angle upwards to a ventilation position on the one hand and can be moved downwards and backwards under the fixed roof (1) on the other hand. the guide pins (9, 15) being in their forward position in the associated guide slots (10, 16) when the panel is in the vent position. Open roof construction according to any one of the preceding driving claims, wherein an electric motor is arranged for displacing each slide (6), and wherein the course of one and / or other guide slot (10, 16) is such that the load on the electric motor by the movement mechanism is at least approximately constant during the entire displacement of the slide. 8. Open roof construction according to claim 6 or 7, wherein the baffle (13) is formed by a baffle slide which can be moved in the guide rail (5) for the sliding movement of the panel (4), such that the carriage (6 ) and the baffle carriage (13) move together during sliding movements of the panel and the carriage relative to the substantially stationary baffle carriage during height movements of the panel, the baffle carriage being equipped with a first blocking member (18) for blocking the baffle slide relative to the guide rail during height movements of the panel, and the height-movable part (7) of the slide is provided with a coupling member (23, 24) for coupling the slide 1009773 (6) and the sliding carriage (13) during the sliding movements of the panel. Open roof construction according to claim 8, wherein the blocking member (18) is provided with a downwardly spring-loaded blocking cam (19), which is connected to the sliding carriage (13) and engages in a recess in the guide rail (5) in its blocking position. while the coupling member (23, 24. is provided with a wedge lifting the blocking cam (19) out of the recess, such as an oblique coupling slot (24), which forcibly remains in engagement with the blocking cam as long as it extends outside the recess in the guide rail located. 10.Open-roof construction for a vehicle with an opening (2) in the fixed roof (1), provided with a roof-mounted stationary part (3) with stationary guide rails (5) running on both sides of the roof opening, sliding slides (6) with movement mechanisms, an adjustable closing member (4) supported by the movement mechanisms, which is adjustable between a closing position in which it closes the roof opening and an open position in which it at least partially releases the roof opening, each movement mechanism comprising a baffle plate (11) attached to the closing member with a guide slot (10), in which a guide pin (9) connected to the slide engages, characterized in that the slide (6) is formed with a height-adjustable part (7) engaging at three points with the carriage (6), the closing member (4) and the stationary part (3) and forces the closing member in all positions of the closing member at least practically without bending forces on the adjustable part (7) to the stationary part (3). 11.Open-roof construction for a vehicle with: opening (2) in the fixed roof (1), fitted with a roof-mounted stationary part (3) with stationary '10097-? 3' on either side of the roof opening guide rails (5) with electric motors sliding slides (6) with moving mechanisms, an adjustable closing member (4) supported by the moving mechanisms, which is adjustable between a closing position in which it closes the roof opening and an open position in which it opens at the roof opening at least in part, characterized in that the transmission ratio of the movement mechanism is variable over the adjustment path of the carriage (6) such that the load on the electric motor by the movement mechanism is at least approximately constant throughout the movement of the carriage. 1009773