Opening and Closing Device for a Motor Vehicle

Abstract

An opening and closing device (2) has a flap (24) that is rotatably arranged on a hinged arm, and an actuator (72) to actuate the flap (24). The actuator (72) is coupled to a rotatable spindle (62) that is coupled to a flap actuating element (12). As the spindle (62) is rotated, a translational and rotational movement is performed to close and move the flap (24).

Claims

1. An opening and closing device (2), comprising: a flap (24) that is rotatably fastened to a hinge arm, a flap actuating element (12), a rotatable spindle (62) that is coupled to the flap actuating element (12) such that the flap actuating element (12) performs a translational and rotational movement to lock and move the flap (24) when the spindle (62) rotates, and an actuator (72) coupled to the rotatable spindle (62) and configured to rotate the rotatable spindle (62).

2. The device (2) according to claim 1, wherein the actuator (72) is an electric motor with a gear screw (70) that actuates a worm gear (66) arranged on the rotatable spindle (62), and wherein the gear screw (70) is arranged vertically in relation to the axial direction of the rotatable spindle (62).

3. The device (2) according to claim 1, wherein the flap actuating element (12) has a key element (16) with an inner thread (44) that engages with an outer thread (40) of the rotatable spindle (62), and wherein a locking sleeve (14) is provided that sectionally surrounds the key element (16), and wherein the locking sleeve (14) has a guide groove (18) and the key element (16) has a cam (42) movable therein.

4. The device (2) according to claim 3, wherein the guide groove (18) has a first region and/or section (26) extending in an axial direction (22) of the locking sleeve (14) and an adjacent second region and/or section (30) extending at an angle to the axial direction (22).

5. The device (2) according to claim 3, wherein the key element (16) on one end has at least one locking element that can be engaged in a lock (38) on the flap (24).

6. The device (2) according to claim 5, wherein two locking elements are provided that are each adapted as locking hooks (50).

7. The device (2) according to claim 1, further comprising an emergency unlocking device (94).

8. The device (2) according to claim 7, wherein the emergency unlocking device (94) has teeth (102) that engage with teeth (98) of a locking sleeve (14) that sectionally surrounds the key element (16), and wherein the locking sleeve (14) has a guide groove (18) and the key element (16) has a cam (42) movable therein.

9. The device (2) according to claim 1, further comprising at least one button (100) and/or sensor on the end of the spindle (62) facing away from the flap (24).

10. The device (2) according to claim 1, further comprising a housing (6), wherein the spindle (62) is braced in axial direction on the housing (6) by a compression spring (78).

11. The device (2) according to claim 10, wherein the key element (16) and the spindle (62) are arranged in the housing (6) to be axially translatable together.

12. The device (2) according to claim 1, wherein the flap (24) is adapted as a charging flap for an electrical charging port.

13. A method for assisted opening and/or closing a rotatably arranged flap with the device (2) according to claim 1, comprising: rotating the rotatable spindle (62) with the actuator (72), wherein the rotatable spindle (62) is coupled to the flap actuating element (12), so that as the rotatable spindle (62) is rotated, the flap actuating element (12) performs a translational and rotational movement to axially actuate the flap (24) and thereby close the flap (24).

14. A method for assisted opening and/or closing of a rotatably arranged flap (24), comprising: rotating a rotatable spindle (62) with an actuator (72), wherein the rotatable spindle (62) is coupled to a flap actuating element (12), so that as the rotatable spindle (62) is rotated, the flap actuating element (12) performs a translational and rotational movement to axially actuate the flap (24) and thereby close the flap (24).

Description

DESCRIPTION OF THE DRAWINGS

[0028] An embodiment of the invention is explained in greater detail based on the drawings. All described and/or depicted features per se or in any combination constitute the subject matter of the present invention, regardless of their summary in the patent claims or their back-reference. Partially schematically, the drawings show in:

[0029] FIG. 1 an opening and closing device with a flap, a housing, and an actuator in a preferred embodiment,

[0030] FIG. 2 components of the device according to FIG. 1 in an exploded view,

[0031] FIG. 3 components of the device according to FIG. 1 in a side view, and

[0032] FIG. 4 a cross section through FIG. 3.

[0033] In all figures, the same parts are labeled with the same reference symbols.

DETAILED DESCRIPTION

[0034] FIG. 1 and FIG. 2 show an opening and closing device 2 that has a housing 6 that can be closed with a housing lid 10. A locking sleeve 14 is rotatably guided in the housing 6 of the device 2. The locking sleeve 14 has a connecting link guide and/or a guide groove 18, which in a first section and/or region 26 runs parallel to an axial direction 22 of the locking sleeve 14, and then in a second section and/or region runs in an S shape, and in a third section and/or region 34 again runs parallel to the axial direction 22.

[0035] A key element 16 that has a cam 42 is regionally arranged in the locking sleeve 14. The key element 16 acts as a flap actuating element 12. The guide groove 18 is adapted to match the locking geometry. It results from the angle of the required rotation to securely engage the key element 16 in the lock and from the axial motion within which the increased force of the opening/closing action of the flap is required.

[0036] The third section 34 of the guide groove 18 is used to insert the key element 16 into the locking sleeve 14. The two sections 26 and 30 of the guide groove are relevant for the functionality of the device 2 because they facilitate an axial actuation of a flap 24 and a locking action of the flap 24.

[0037] The device 2 accordingly has a flap 24 that is connected to a lock 38. The lock 38 can be fastened to the flap 24. The flap 24 and lock 38 can also be formed integrally.

[0038] A key element 16 has a cam 42 that engages into the guide groove 18. The connecting link guide rotates the locking sleeve 14 in the motion about its length axis. The key element 16 also has a head region 46 with preferably two locking hooks 50 (the Figure only shows one locking hook 50), which in the extended position of the locking sleeve 14 engage in the lock 38 based on the key-lock principle.

[0039] When the flap 24 is closed, the locking hooks 50 are forcibly rotated by the connecting link guide and/or guide groove 18 into an undercut 38. In this manner the required tensile forces can be transferred during the closing action of the flap 24. The locking sleeve 14 furthermore has an end part 104 with a flange 108. The flange 108 of the locking sleeve 14 is initially circumferential, but is then cut back in order to circumcise around the teeth, which engage into an emergency unlocking device 94, and cut back again to permit and/or limit the rotation when the emergency unlocking feature is actuated.

[0040] The device 2 comprises a spindle 62 that is connected rotationally fixed with a worm gear 66. The spindle 62 and the worm gear 66 can also be formed integrally. The spindle 62 is driven by an actuator 72 with a gear screw 70. The actuator 72 and the gear screw 70 then form a worm drive. The gear screw 70 and the spindle 62 with the gear 66 form a robust, two-stage gearbox with a straightforward design. The spindle 62 and the gear screw 70 and/or drive screw supply the required self-locking effect in the system, such that a separate locking feature, for example with the assistance of a furthermore/actuator, can be omitted.

[0041] The spindle 62 has an outer thread 40, and the key element 12 has a corresponding inner thread 44. The outer thread 40 of the spindle 62 preferably has a pitch in the range from 2 mm to 8 mm, in particular 5 mm.

[0042] As mentioned above, the device 2 has the emergency unlocking device 94, which is substantially rod-shaped and has teeth 102 that engage with teeth 98 on the worm gear 66. In this manner, the emergency unlocking device 94 prevents the rotation of the locking sleeve 14 when the device 2 is in normal operating mode, e.g., when the actuator 72 is operable.

[0043] The axial components of the device 2, e.g., the key element 16, the locking sleeve 14, and the spindle 62 are held at rest by a compression spring 78. The worm gear 66 and the locking sleeve 14 are blocked and/or fixed in the housing by the housing lid 10. The spring 78 presses the spindle 62 against the locking sleeve 14, therefore holding the spindle 62 at rest. The engagement of the thread connects the key element 16 to the spindle 62, therefore also holding key element 16 at rest.

[0044] The compression spring 78 is arranged in axial direction between a button 100 and the spindle 62. The push force is substantially determined by the compression spring 78 together with the resistance of the actuator (not shown) for the total motion of the flap 24 and the flap gasket.

[0045] FIG. 2—which does not show the flap 24 for better comprehension—shows the device 2 with the flap 24 in a closed position. For assisted opening of the flap 24, the actuator 72 rotates the gear screw 70, causing the worm gear 66 to rotate. This also causes the spindle 62 to rotate and causes the key element 16 to perform an axial stroke and to move in an opening direction 52 as long as the cam 42 travels in the first region 26 of the guide groove 18. The flap 24 can be lifted in this manner. The locking hooks 50 are in this case engaged in the lock 38.

[0046] As the spindle 62 continues to rotate, the cam 42 travels into the second region, which not only extends in axial direction 22, but also has a component vertical thereto. This causes the key element 16 to simultaneously perform an axial motion and/or translation and a rotation. In this manner, the locking hooks 50 are disengaged in the lock 38, and the flap 24 can be opened. The flap 24 is closed by moving the components in the respectively opposite direction and/or rotational direction.

[0047] In order to realize a push-to-open function the key element 16—together with the spindle 62—is arranged in the locking sleeve 14 to be translationally moved by a push path. When the user pushes on the flap 24 in push direction 74, the key element 16 and the spindle 62 are together translated in this direction against the pressure of the compression spring 78 until the button 100 is actuated. When the button 100 is actuated, the actuator 72 can be actuated such that the regular opening process is initiated, which includes starting assisted opening.

[0048] The device 2 can also comprise two or several buttons 100 that have different functions and are actuated at a different axial stroke of the spindle 62 and key element 16.

[0049] In a preferred embodiment, a sensor is used in place of a button. In this embodiment, a pin that extends through the spindle 62 up to the sensor is preferably installed and/or inserted in the key element 16. In this manner, the sensor detects the axial position of the key element 16, which represents the position of the flap 24 within the actuating path. Other functionalities can then also be realized apart from the push-to-open functionality.

[0050] According to the example, the requirement can be met that as the flap 24 is closed, the latter travels beyond the closed position by a predetermined path, e.g., 2 mm to pre-compress the gasket, and then travels back to the final closed position. A button with several actuating points can also be used in place of a sensor or a pin. This functionality can also be omitted, and only the push can be detected by a simple button.

[0051] In normal operating mode, the emergency unlocking device 94 ensures that the locking sleeve 14—which determines the movement of the key element 16 with its guide groove 58—does not rotate. For emergency unlocking, the emergency unlocking device 94 is moved in an emergency unlocking direction 110 such that the mutual engagement of the teeth 98, 102 together rotates the key element 16, therefore unlocking the lock 38. The ability of the locking sleeve 14 to rotate can in this manner realize the emergency unlocking function for a self-locking actuator 72.

[0052] The device 2 preferably comprises a bellows (not shown in the figures) as protection against external influences, and therefore represents a fully encapsulated system.

[0053] FIGS. 3 and 4 show components of the device according to FIG. 1 in a side view and in a cross-sectional view.

REFERENCE NUMERALS

[0054] 2 Opening and closing device [0055] 6 Housing [0056] 10 Housing lid [0057] 12 Cover actuating element [0058] 14 Locking sleeve [0059] 16 Key element [0060] 18 Guide groove [0061] 22 Axial direction [0062] 24 Flap [0063] 26 First section [0064] 30 Second section [0065] 34 Third section [0066] 38 Lock [0067] 40 Outer thread [0068] 42 Cam [0069] 44 Inner thread [0070] 46 Head section [0071] 50 Locking hook [0072] 52 Opening direction [0073] 62 Spindle [0074] 66 Worm gear [0075] 70 Gear screw [0076] 72 Actuator [0077] 74 Push direction [0078] 78 Compression spring [0079] 94 Emergency unlocking device [0080] 98 Teeth [0081] 100 Button [0082] 102 Teeth [0083] 104 End section [0084] 108 Flange [0085] 110 Emergency unlocking direction