DE102011090205A1 - Plug element for locking openable aperture that is utilized as e.g. tank recess for accommodation of tank connecting piece of electric vehicle, has displaceable element displaced into movement section of superimposed movements by drive unit - Google Patents

Abstract

The element (1) has an operation device (2) for actuating the element. The element is actuated from a closing position into an intermediate position by a translational movement (3) and from the intermediate position into an open position by the superimposed translational movement and a rotary movement (4). An axially displaceable element (5) is displaced into a movement section in the translational movement within a guide device (6) by an electromagnetic drive unit and into another movement section of the superimposed translational and rotary movements by the drive unit.

Description

Technical area

The invention relates to a closure element having an actuating device for actuating the closure element from a closed position to an open position or vice versa, wherein the actuation of the closure element from the closed position takes place in an intermediate position in a translational movement and from the intermediate position to the open position by a superimposed translational and rotational movement takes place, in particular according to the preamble of claim 1.

State of the art

The EP 1 090 796 A2 discloses a tank cap which is displaceable both in the axial direction and in the direction of rotation, wherein two relatively arranged sleeves are provided, which are acted upon by a compression spring and wherein on one of the two sleeves a cam track is arranged, which is followed by a follower element, so that due to the application of force to a coil spring, the two elements, the housing and the fuel cap, both in the axial direction and in the rotational direction are acted upon to release an opening for a fuel cap.

The actuation in the open position takes place in that a securing element is displaced from a securing position in order to use the stored energy in the compressed energy accumulator to actuate the flap. The fuel cap is closed by manual application against the force of the energy storage.

The FR 2 949 394 A1 discloses a fuel cap actuator with a drive motor and a transmission, wherein a worm wheel is present, in which a cam of a cover assembly engages, so that the lid in the axial direction and in the rotational direction can be acted upon. The arrangement is provided with a plurality of components and thus constructed very complicated, since in addition to the worm assembly and a reduction arrangement is provided for the drive motor.

The mentioned tank actuation devices according to the prior art are either not automatically actuated or they have a complicated structure with a high number of parts, which are not acceptable due to the resulting costs.

Presentation of the invention, object, solution, advantages

It is the object of the invention to provide a closure element with an actuator that is simple and inexpensive and yet is well controlled.

This is achieved with the features of claim 1, wherein a closure element is provided with an actuating device for actuating the closure element from a closed position to an open position or vice versa, wherein the actuation of the closure element from the closed position takes place in an intermediate position in a translational movement and of the intermediate position in the open position by a superimposed translational and rotational movement takes place, wherein the actuating device has an axially displaceable element in a guide element, which is displaceable by an electromagnetic drive unit in a first movement section in a translational movement within the guide element and by means of the drive unit in a second movement section of the translatory movement a rotational movement is superimposed. As a result, a simple yet inexpensive device for opening and closing an opening can be realized, which can be easily controlled.

It is particularly advantageous if the guide element is arranged on a housing which has an opening which can be closed or opened by means of the closure element. It is preferred if the opening is an opening of a tank recess for receiving the filler neck and the tank lid of a motor vehicle or a trough for receiving an electrical connection unit, such as a plug or a socket, for supplying a motor vehicle with electrical energy. The housing is advantageously a tank trough or a trough for receiving the electrical connection unit.

It is particularly advantageous if the closure element is rotatably connected to the displaceable element. In this case, the closure element with the

Furthermore, it is advantageous if the displaceable element is connected to the guide element via a guide track with an engagement element engaging in the guide track, in order to effect the translational as well as the translational and rotational movement of the displaceable element in the guide element. This is achieved in which the electromagnetic drive unit causes a translatory movement and by the design of the guideway and Engagement element is in a movement section from the purely translational movement a superimposed translational and rotational movement. For this purpose, it is advantageous if the guideway winds helically around the guide element or about the displaceable element and the engagement element extends into this guideway, so that results in a superimposed movement in an axially and translationally acting drive.

It is also advantageous if the guide track is arranged on the displaceable element and the engagement element on the guide element, or that the guide track is attached to the guide element and the engagement element on the displaceable element.

It is also expedient if the electromagnetic drive unit is integrated in the guide element and in the displaceable element.

It is also expedient if the guide element is provided with at least one coil for the controllable generation of a magnetic field or the guide element is provided with a permanent magnet for generating a magnetic field. The magnetic field generated by the coil and / or the permanent magnet serves to interact with another field of the permanent magnet and / or the coil of the displaceable element in order to displace the displaceable element axially or translationally.

It is particularly advantageous if the displaceable element is provided with at least one coil for the controllable generation of a magnetic field or the displaceable element is provided with a permanent magnet for generating a magnetic field.

It is also particularly expedient if a control unit is provided for controlling the electromagnetic drive unit. In this case, due to an initial signal, the magnetic coil of the guide element and / or the displaceable element can be controlled such that the generated magnetic field or the magnetic fields generated cause an axial or translational displacement of the displaceable element, such that the closure element axially and rotationally is displaced to open or close the opening of the housing.

It is advantageous if at least one actuating unit is provided for initiating a controlled by the control unit opening or closing of the closure element. The actuating unit is advantageously a switch or the like, which can be actuated by the interior of the vehicle or on the outside of the vehicle. Also, the actuator unit may be a wireless radio controlled unit to open the shutter element remotely controlled.

Further advantageous embodiments are described by the following description of the figures and by the subclaims.

Brief description of the drawings

The invention will be explained in more detail on the basis of at least one embodiment with reference to the drawings. Show it:

1 a schematic view of a closure element according to the invention with an actuating device,

2 a schematic view of a closure element according to the invention with an actuator with a housing with closable opening, and

3 a schematic view of a closure element according to the invention in a frontal view.

Preferred embodiment of the invention

The 1 shows a closure element 1 with an actuator 2 for actuating the closure element 1 from a closed position to an open position or vice versa, this operation of the closure element 1 from the closed position into or over an intermediate position in a translational, in particular axial, movement takes place and takes place from the intermediate position to the open position by a superimposed translational and rotational movement. The axial, translatory movement is characterized by the arrow 3 , wherein the rotational movement about a rotation axis by the arrow 4 is characterized.

As can be seen, the actuating device 2 a displaceable element 5 and a guide element 6 on.

The guide element 6 is designed as a hollow cylindrical element, in the hollow interior of the displaceable element 5 is received as a cylindrical element. The particular cylindrical displaceable element 5 can in the axial direction according to the arrow 3 within the guide element 6 axially displaced, wherein the displaceable element 5 can also move in a rotational movement within the guide element. In this regard, the rotational direction of movement would be the direction of the arrow 4 correspond.

The closure element 1 is with the movable element 5 over a connection 7 connected, this connection may be configured, for example, as a positive or cohesive connection. However, the connection can also be designed such that the two parts are integrally connected to each other or formed as a one-piece component, such as are injected into a part.

The actuator 2 points in the area of the guide element 6 a first element 8th on that a magnetic field can generate or generate, whereby also the displaceable element 5 an element 9 that generates or can generate a magnetic field.

In the embodiment of 1 includes the displaceable element 5 a permanent magnet as an element 9 with the poles north pole 10 and South Pole 11 which is in the displaceable element 5 preferably in a central bore 12 is included. The element 8th for generating a magnetic field of the guide element 6 is in the embodiment of 1 formed as a coil, which can generate a predictable magnetic field in the interior of the coil due to controllable current flows, this due to the interaction of the magnetic fields of the element 8th with the magnetic field of the element 9 the movable element 5 in the axial direction within the guide element 6 can be displaced because an axial force acts on the displaceable element.

Furthermore, either the displaceable element 5 or the guide element 6 a guideway 13 in which an engaging element 14 of the guide element 6 or the movable element 5 can intervene.

In the embodiment of 1 is the guideway 13 on the movable element 5 provided as a groove, wherein the engagement element 14 on the guide element 6 is provided as radially inwardly projecting cam, in the guideway 13 intervenes.

Will now be the movable element 5 within the guide element 6 axially displaced, the movement of the displaceable element follows 5 the geometry of the guideway 13 , In a first phase of movement of the movable element 5 within the guide element 6 follows the engagement element 14 a guideway extending in the axial direction 13 , so that only an axial, translational movement of the displaceable element 5 and thus also the closure element 1 results.

From a reached intermediate position between the closed position and the open position changed the guide cock 13 their geometry, allowing a kind of screw geometry of the guideway 13 results and thus due to the axial movement of the displaceable element 5 in the guide element 6 a translational motion results, which is superimposed on a rotational movement.

This means that in a first movement phase, the closure element 1 lifts from the housing in the axial direction to demonstrate from an intermediate position and in addition to the axial translational movement a rotational movement to the opening of the housing by pivoting the closure element 1 release.

In further embodiments, it may be advantageous if instead of the permanent magnet of the example of 1 also the movable element 5 has a controllable coil as a magnetically active element. Also, it may be advantageous if instead of the spool of the guide element 6 In this regard, a permanent magnet is used or a series of permanent magnets are arranged distributed on the circumference of the guide element in order to generate a magnetic field. In this context, it would be advantageous if the magnetically active element of the displaceable element 5 a coil for controllable change of the magnetic field would be.

The 2 shows the arrangement of the guide element 6 and the movable element 5 relative to the housing 15 , so that due to the axial displacement according to arrow 16 over a first movement stroke 17 the closure element 1 from the opening 18 of the housing 15 lifts off before it rotates in the direction of 19 from the opening 18 pans away to release them. It is particularly advantageous if the guide element 6 and the case 15 , this in 2 is shown as a pot-like element, are connected to each other or are formed integrally with each other.

The 3 shows the case 15 and the opening 18 that with the closure element 1 can be opened or closed. It is inside the case 15 an element 20 provided by the closure of the opening 18 should be protected. This element 20 may advantageously be a tank filler neck or a gas cap or a connection of an electrical power supply, for example, for an electric vehicle or for a hybrid vehicle.

As can be seen, the closure element 1 around the axis of rotation 21 of the axially displaceable element 5 be twisted, so it according to the arrows 22 pivoted.

LIST OF REFERENCE NUMBERS

1

closure element

2

actuator

3

Move

4

Move

5

element

6

guide element

7

connection

8th

first element

9

element

10

North Pole

11

South Pole

12

drilling

13

guideway

14

engaging member

15

casing

16

shift

17

movement stroke

18

opening

19

Move

20

element

21

axis of rotation

22

pivoting

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 1090796 A2 [0002]
• FR 2949394 A1 [0004]

Claims (10)

Closure element with an actuating device for actuating a closure element from a closed position to an open position or vice versa, wherein the actuation of the closure element from the closed position takes place in an intermediate position in a translational movement and takes place from the intermediate position to the open position by a superimposed translational and rotational movement, characterized in that the actuating device comprises a guide element in an axially displaceable element which is displaceable by an electromagnetic drive unit in a first movement section in a translational movement within the guide member and by means of the drive unit in a second movement section of the translational movement, a rotational movement is superimposed. Closure element according to claim 1, characterized in that the guide element is arranged on a housing which has an opening to be closed by means of the closure element. Closure element according to claim 1 or 2, characterized in that the closure element is rotatably connected to the displaceable element. Closure element according to one of the preceding claims, that the displaceable element is connected to the guide element via a guideway with an engaging in the guideway engagement element, for effecting the translational and the translational and rotational movement of the displaceable element in the guide element. Closure element according to claim 4, characterized in that the guide track is arranged on the displaceable element and the engagement element on the guide element, or in that the guide track is attached to the guide element and the engagement element on the displaceable element. Closure element according to one of the preceding claims, characterized in that the electromagnetic drive unit is integrated in the guide element and in the displaceable element. Closure element according to one of the preceding claims, characterized in that the guide element is provided with at least one coil for the controllable generation of a magnetic field or the guide element is provided with a permanent magnet for generating a magnetic field. Closure element according to one of the preceding claims, characterized in that the displaceable element is provided with at least one coil for the controllable generation of a magnetic field or the displaceable element is provided with a permanent magnet for generating a magnetic field. Closure element according to one of the preceding claims, characterized in that a control unit is provided for controlling the electromagnetic drive unit. Closure element according to one of the preceding claims, characterized in that at least one actuating unit is provided for initiating an opening or closing of the closure element which is triggered by means of the control unit.

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