Opening and Closing Device for a Motor Vehicle

Abstract

An opening and closing device (2) for a motor vehicle has a rotatably mounted flap (10), at least one latching element (84) and a latch (34) with a connecting link (42). The appertaining latching element (84) is arranged on an end of the flap (10) that faces away from a pivot bearing. A latch actuator (50) is provided to rotate the latch (34), while the connecting link (42) has a guide structure (92) for a latching end (86) of the appertaining latching element (84).

Claims

1. An opening and closing device for a rotatably mounted flap on a motor vehicle, comprising: at least one latching element arranged on an end of the flap that faces away from a pivot bearing associated with the flap; a latch with a connecting link, wherein the connecting link has a guide structure for a latching end of the latching element; and a latch actuator configured to rotate the latch.

2. The device according to claim 1, wherein the latch is built symmetrically relative to a central plane, and wherein two latching elements are provided, with each having a respective latching end, and each of which latching ends symmetrically engage on one side with the guide structure.

3. The device according to claim 2, wherein each of the latching ends is hook-shaped.

4. The device according to claim 1, wherein the latch actuator is an electric motor, and further comprising a gear drive configured to transmit the rotational speed of a motor shaft of the latch actuator to an output shaft that is rigidly joined to the latch.

5. The device according to claim 4, wherein the gear drive has a first gearwheel that is arranged on a drive shaft, and a second gearwheel that is arranged on the output shaft.

6. The device according to claim 5, wherein a transmission ratio between the latch actuator and the latch is between 1:150 and 1:500.

7. The device according to claim 1, wherein the connecting link has a functional surface.

8. The device according to claim 1, wherein the connecting link has a clearance.

9. The device according to claim 1, wherein the connecting link comprises an emergency latch-release mechanism.

10. The device according to claim 9, wherein the emergency latch-release mechanism comprises a rotary disk that is rigidly joined to the latch, whereby a cable is wound around said rotary disk.

11. The device according to claim 1, wherein the connecting link has a beveled open end.

12. The device according to claim 1, further comprising a drive housing in which the latch actuator and the latch are accommodated.

13. The device according to claim 1, wherein the flap is configured as a charging flap for an electric charging cradle.

14. A method for assisting opening and/or closing of a pivotably mounted flap associated with a motor vehicle, comprising: providing a device according to claim 1; rotating the latch to effect relative movement between the connecting link and the guide structure to either engage or disengage the latching end of the at least one latching element at the end of the flap to or from the latch.

Description

DESCRIPTION OF THE DRAWINGS

[0028] The following is depicted, at times schematically:

[0029] FIG. 1 an opening and closing device, in a lateral sectional view,

[0030] FIG. 2 parts of the device as shown in FIG. 1, in an exploded view,

[0031] FIG. 3 the device as shown in FIG. 1, in another lateral sectional view,

[0032] FIG. 4 the device as shown in FIG. 1, in an interior top view,

[0033] FIG. 5 the device as shown in FIG. 1, in a push-position,

[0034] FIG. 6 the device as shown in FIG. 1, in an open position,

[0035] FIG. 7 a device as shown in FIG. 1, and a cradle, in an exploded view,

[0036] FIG. 8 the edge of a flap with latching elements and a latch with a connecting link,

[0037] FIG. 9 two depictions of the latching position, and

[0038] FIG. 10 the device as shown in FIG. 1, in an emergency latch-release position.

[0039] Identical parts are provided with the same reference numerals in all of the figures.

DETAILED DESCRIPTION

[0040] FIG. 1 shows an opening and closing device 2 that has a cover or flap 10 which is mounted so that it can be rotated around a hinge pin 18 in an opening direction 22 by means of a hinge arm 14. The flap 10 can cover, for example, an electric charging port or a charging cradle or cradle 6 for a motor vehicle and it can be flipped away in the opening direction 22 to allow charging.

[0041] The device 2 also comprises a flap adapter 30 or cover adapter. The flap adapter 30 functions as an adapter for several car body models. This makes it possible to use the same basic module for various vehicles so that only the flap adapter 30 and the flap 10 are individually replaced as a function of the car body model.

[0042] The device 2 is configured to provide enhanced opening and closing force. For this purpose - in this context, also see FIG. 2 - a latch 34 is rotatably mounted around a latch pin 38. The latch 34 has a connecting link 42. Accommodated in a drive housing 46 are the latch 34 as well as a latch actuator 50 that is configured here as an electric motor, also a gear drive 54 having a first, here small, gearwheel 58 and a second, here large, gearwheel 62. The small gearwheel 58 is arranged on a drive shaft 64 that is driven by the latch actuator 50.

[0043] The large gearwheel 62 is arranged on an output shaft 66 that is rigidly joined to the latch 34.

[0044] The transmission ratio between the latch actuator 50 and the latch 34 is preferably within the range from 1:150 to 1:500, especially 1:300. This transmission ratio is not depicted in the drawings, the gearwheels are depicted symbolically and schematically. On the side of the latch 34 opposite to the large gearwheel 62, there is a rotary disk 70 that is rigidly joined to the output shaft 66, whereby a cable 74 is wound around said rotary disk 70. Together, the rotary disk 70 and the cable 74 form an emergency latch-release mechanism 80. FIG. 10 shows the device 2 in an emergency latch-release position.

[0045] Two hook-shaped latching elements 84 are rigidly joined to the flap 10 and they are configured to each be guided with their respective latching ends 86 in a guide structure 92 of the connecting link 42. The appertaining latching end 86 is configured here so as to be hook-shaped. Since the piece of the latching element 84 that adjoins the appertaining latching end 86 is configured here so as to be essentially straight, the latching elements 84 as a whole are likewise configured so as to be hook-shaped.

[0046] The latching elements 84 preferably protrude perpendicularly to the flap 10 in the direction of the latch 34. In their straight pieces, the latching elements 84 run parallel to the lateral surfaces of the latch 34.

[0047] A rotation of the drive shaft 64 causes the output shaft 66 to likewise rotate, so that the latch 34 is set into rotation. When the latch 34 is rotated in the rotational closing direction 96, the flap 10 rotates in the closing direction 100 until it is completely closed. This is achieved in that the latching elements 84 run in the guide structure 92. The latch pin 38 and the course of the guide structure 92 are designed in such a way that a rotation of the latch 34 or of its connecting link in the rotational closing direction 96 causes the flap 10 to rotate in the closing direction 100.

[0048] The radial helical constriction of the guide structure 92 causes a force increase as a function of the rotational angle of the latch 34. The gradient of this constriction effectuates the force and can be designed in accordance with the requirements. A different gradient in the connection link 42 can be applied in the closing direction and in the opening direction, as a result of which, at the same rotational speed, the forces and times in the opening and closing directions differ.

[0049] The guide structure 92 has an open end 102 on which the end of the latching element 84 facing away from the flap 10 is located when the flap 10 is in a closed state. In this state, the flap 10 can be manually opened by means of the emergency latch-release mechanism 80 in that the operator pulls on the cable 74 or cable control. This causes the rotary disk 70 to rotate, along with an emergency latch-release shaft 106 that is non-rotatably joined to the rotary disk 70. The emergency latch-release shaft 106, in turn, is rigidly or non-rotatably joined to the latch 34 and/or to the output shaft 66. In this manner, pulling on the cable 74 causes the latch 34 to rotate in such a way that the latching element 84 leaves the guide structure 92 at the open end 102 and the flap 10 can then be opened.

[0050] By means of the selection of the beveling of the open end 102 relative to the guide structure 92, it is possible to set the force that is needed for the release. The cable end 74 that is not arranged on or fastened to the rotary disk 70 is arranged outside of the drive housing 46 so that the user can reach it if it becomes necessary to release the flap 10 in an emergency.

[0051] Since two latching elements 84 are provided in the present embodiment, the latch 34 has a connection link 42 with a guide structure 92 on each side, so that the above-mentioned description applies accordingly to both sides of the latch.

[0052] In FIG. 1, the device 2 is shown in a position in which the flap 10 is at a distance of approximately 10 mm from the completely closed end position, as seen in the closing direction 24. In this position, the appertaining latching element 84 is engaged with the guide structure 92 of the connection link 42 of the latch 34. As soon as the flap 10 is in this position, the latch 34 is rotated in the rotational closing direction 96 by means of the latch actuator 50, see FIG. 2, so that the flap 10 is moved further in the direction of its completely closed position. This assists the user when the flap is being closed. In the opposite rotational direction, the user receives assistance when the flap is being opened. The distance of 10 mm is given by way of an example and can also be chosen differently; in particular, it can be between 5 mm and 20 mm. The position of 10 mm before the closed position is detected in that the rotary actuator that drives the hinge pin 18 has a sensor which detects the angular position of the flap. By the same token, the angular movement of the flap in the push-to-open function is detected, in response to which the latch actuator 50 is then activated.

[0053] FIG. 3 shows the device 2 in a lateral sectional view in a closed position. The drive housing 46 accommodates the latch actuator 50, the gear drive 54 and the latch 34. The drive housing 46 provides these components with protection against external influences and they can be pre-installed in this housing 46.

[0054] FIG. 4 shows the device 2 in a top view. The reference numeral 110 depicts a geometrical design in the cradle 6. The reference numeral 112 depicts an area of the rotational axis in the cradle 6 as the component. Moreover, this figure shows a rotary actuator receptacle 114 in the cradle 6 as well as a rotary actuator 116 with the sensor that serves to detect the angular position.

[0055] FIG. 5 shows the device 2 in a lateral view in a push-position, that is to say, the user presses onto the flap 10 or activates it. This is possible since the connecting link 42 has a clearance 150 (see FIG. 8) into which the appertaining latching element 84 can be pressed. The clearance 150 is configured as an indentation oriented essentially perpendicular to the guide structure 92.

[0056] The clearance 150 or the push-clearance in the connecting link allows the rotation of the hinge arm 14 around the rotational pin 18. The latch actuator 50 that drives the rotational pin 18 or the shaft has a sensor which detects this rotational movement and, in response, initiates the opening movement.

[0057] FIG. 6 shows the device 2 in a lateral view in a position 10 mm before the closed position from which the connecting link goes into function.

[0058] The appertaining latching element 84 is arranged in the open end 102 of the appertaining guide structure 92. As described in conjunction with FIG. 2, actuation of the emergency latch-release mechanism 80 allows the latching element 102 to be rotated out of the open end so that it is no longer engaged with the guide structure 92. The flap 10 can then be opened purely manually by the user. The flap 10 or the charging flap that runs in the connecting link guide with the latching elements 84 is raised by approximately 10 mm when the eccentric connecting link is rotated. At this point, the connecting link 42 is then opened towards the top and the lid or the flap 10 is thus released for opening.

[0059] FIG. 7 shows in an exploded view the cradle 6, the flap 10, the hinge arm 14, a first adapter 120 between the cradle and the car body, a second adapter or flap adapter 30 between the flap 10 and a cover 132 (coated external part of the car body), a bearing 126 as well as the latch actuator 50 and the latch 34. Likewise shown is the area of the latch actuator 116 that drives the hinge arm 14, in the cradle.

[0060] FIG. 8 shows a perspective view of a section of the flap 10 with the attached latching elements 84 having hook-shaped latching ends 86 which are guided in the trough-shaped guide structure 92 of the connecting link 42 of the latch 34. Rotation of the latch 34 by means of the latch actuator 50 around a latch shaft 140 causes the flap to be moved into an opening or closing position as appropriate and assists the user when the flap 10 is being opened or closed. Likewise shown are the clearance 150 and the functional surface 146 that transmits force for enhanced closing force in the last interval, preferably in the last 10 mm, before the closed position.

[0061] FIG. 9 shows on the left and on the right two different positions of the latch 34 and of the flap 10. In the left-hand depiction, the flap 10 is completely closed whereas in the right-hand depiction, it is approximately 10 mm away from the completely closed position. As can be seen in a comparison of both figures, a distance A between the appertaining latching end 86 of the latching elements 84 and the latch shaft 140 is considerably smaller than a distance B (right-hand depiction) between the latching end 86 of the latching elements 84 and the latch shaft 140. Between the position on the right and the position on the left, this distance diminishes continuously from B to A as the latch 34 is rotated. The guide structure becomes constricted in a somewhat helical form so that the latch makes it possible to guide the flap 10 between these two positions. The position of the latch shaft 140 and the contour of the connecting link 42 can be selected depending on the specific technical requirements and the desired selection of the distances A and B.

TABLE-US-00001 List of reference numerals 2 opening and closing device 6 cradle 10 flap, cover 14 hinge arm 18 hinge pin 22 opening direction 24 closing direction 30 flap adapter 34 latch 38 latch pin 42 connecting link 46 drive housing 50 latch actuator 54 drive gear 58 first gearwheel 62 second gearwheel 64 drive shaft 66 output shaft 70 rotary disk 74 cable 80 emergency latch-release mechanism 84 latching element 86 latching end 92 guide structure 96 rotational closing direction 100 closing direction 102 open end 106 emergency latch-release shaft 110 geometry 112 rotational axis area 114 rotary actuator receptacle 116 rotary actuator 120 adapter 126 bearing 132 cover 140 latch shaft 146 functional surface 150 clearance A distance B distance