DE102020120557A1 - storage compartment - Google Patents

Abstract

The invention relates to a storage compartment, in particular a storage compartment of a vehicle. This storage compartment has a container and a cover that is pivotably mounted on the container about an axis. A damping device that dampens an opening movement of the lid is arranged on the axis and has the following components: - a linear damper with a plunger, - a wedge that is mounted in a torsion-proof manner relative to the container, and - a rotary wedge that contacts the wedge and, together with the pivotable cover is rotatable relative to the wedge.

Description

The invention relates to a storage compartment, in particular for a vehicle, for example a glove box for a car.

Storage compartments are usually provided in a vehicle, which in many cases are integrated into the dashboard of the respective vehicle. These storage compartments have a cover which folds down after a lock has been released, with this opening taking place about an axis of rotation.

It is already known to dampen this unfolding of the lid by means of a damping device. Without such a damping device, after the closure was released by gravity, the lid would fall down while rotating about the axis of rotation and would hang dangling or hit a trim part of the vehicle or an occupant of the vehicle.

From the DE 10 2006 032 747 B4 a motor vehicle interior trim part is already known which has a cover, a rotation angle sensor for detecting the open position of the cover and a control device. The control device has a non-volatile memory. The interior trim part also has a hysteresis brake for braking a movement of the cover, the control device being designed to adjust the braking torque of the hysteresis brake by adjusting the excitation current for the hysteresis brake at least as a function of an open position of the cover. Said memory contains a look-up table in which an excitation current for the hysteresis brake is defined for each angular range of the opening angle of the cover.

From the DE 103 41 969 A1 a delay device for braking an opening movement of a flap of a storage container is known. This device has a brake wheel which is rotatably mounted in a housing filled with a braking medium in order to generate a braking torque. The brake wheel and the housing are coupled to the flap in such a way that the braking torque generated can be transmitted directly to the flap.

The object of the invention is to specify a storage compartment with a cover whose opening movement is damped by means of a space-saving, inexpensive damping system that is easy to install.

This object is achieved by a storage compartment with the features specified in claim 1. Advantageous refinements and developments are specified in the dependent claims.

• - einen Lineardämpfer mit einem Stößel,
• - einen Keil, der gegenüber dem Behälter verdrehsicher gelagert ist, und
• - einen Drehkeil, der den Keil kontaktiert und zusammen mit dem schwenkbaren Deckel relativ zum Keil verdrehbar ist.

According to the present invention, a storage compartment for a vehicle is provided, which storage compartment has a container and a cover which is mounted on the container so that it can pivot about an axis, a damping device which dampens an opening movement of the cover being arranged in the axis and having the following components:

• - a linear damper with a plunger,
• - a wedge which is mounted against rotation relative to the container, and
• - a rotating wedge which contacts the wedge and is rotatable together with the hinged cover relative to the wedge.

The components mentioned above, arranged on the axis, form a cost-effective and robust damping system that dampens the opening movement of the cover, which is space-saving and easy to assemble and shows robust behavior in practical operation.

The axis can be arranged essentially horizontally and also in the area of the lower edge of the container. The function of damping the opening movement of the damper is shown by the fact that the lid opens downwards, using gravity. However, the functionality is also guaranteed under a non-horizontal axis if this does not exceed a certain angle from the horizontal, preferably 30°.

The lid can open downwards. Depending on the course of the axis, however, an oblique pivoting movement of the cover may also be possible, but this essentially points downwards in the direction of gravitation.

The mutually facing end faces of the wedge and the rotary wedge can be formed obliquely. The damping properties of the damping device depend on the facing faces of the wedge and the rotary wedge. A small skew results in a small movement of the ram, while a large skew results in a large movement of the ram. The mutually facing end faces of the wedge and the rotary wedge can have a curved, for example concave, convex or S-shaped course. As a result, the course of force during the opening movement on the damper can be optimized, with a steep incline being provided initially, for example, in order to give the cover a certain acceleration and towards the end of the opening movement, the incline flattens out in order to achieve a higher braking force. Reversed or force curve-optimized curves are then to be selected or adapted to the requirements of the storage compartment.

The wedge and the rotary wedge are exposed to high frictional torques and can be designed as separate components and attached to the container or lid or molded onto the container and lid. The material selection of the wedge and rotating wedge can differ from that of the container or the lid. If they are designed as separate components, worn wedges can be replaced easily, quickly and inexpensively.

When the lid is closed, the sloping end faces of the wedge and the rotary wedge can run parallel to one another and rest against one another.

The ram can have an end region protruding from the linear damper and can be displaced in the longitudinal direction of the axis, with a spring acting on the ram.

The spring can be designed as a compression spring. One end of the spring is supported in or on the linear damper, the other end of the spring acts on the plunger, the plunger being moved against the force of the spring during the opening movement of the cover. The interior of the linear damper can also be filled with gas, a foam or a gel that is reversibly compressed when the lid is opened.

During the opening movement of the cover, the rotary wedge can be rotated about the axis together with the cover and can move the wedge in the longitudinal direction of the axis.

During the opening movement of the cover, the rotary wedge can be rotated about the axis together with the cover and can be displaced in the longitudinal direction of the axis via the wedge.

The closing movement of the lid can be undamped. The wedges can separate from each other during the closing movement. This can be prevented if, instead of wedges, threaded sections or spindle elements are used, which always engage in one another even during a closing movement.

Further advantageous properties of the invention result from the following exemplary explanation based on the figures.

• 1 eine schematische Darstellung eines ersten Ausführungsbeispiels für ein Ablagefach bei geschlossenem Deckel und eine Längsschnittdarstellung zur Veranschaulichung des Dämpfungssystems bei geschlossenem Deckel,
• 2 eine schematische Darstellung des ersten Ausführungsbeispiels bei teilweise geöffnetem Deckel und eine Längsschnittdarstellung zur Veranschaulichung des Dämpfungssystems bei teilweise geöffnetem Deckel,
• 3 eine schematische Darstellung des ersten Ausführungsbeispiels bei geöffnetem Deckel und eine Längsschnittdarstellung zur Veranschaulichung des Dämpfungssystems bei geöffnetem Deckel,
• 4 eine schematische Darstellung eines zweiten Ausführungsbeispiels für ein Ablagefach bei geschlossenem Deckel und eine Längsschnittdarstellung zur Veranschaulichung des Dämpfungssystems bei geschlossenem Deckel,
• 5 eine schematische Darstellung eines dritten Ausführungsbeispiels für ein Ablagefach bei geschlossenem Deckel und eine Längsschnittdarstellung zur Veranschaulichung des Dämpfungssystems bei geschlossenem Deckel und
• 6 eine detaillierte Darstellung des in der 4 gezeigten zweiten Ausführungsbeispiels.

It shows:

• 1 a schematic representation of a first embodiment of a storage compartment with the lid closed and a longitudinal sectional representation to illustrate the damping system with the lid closed,
• 2 a schematic representation of the first embodiment with the cover partially open and a longitudinal sectional view to illustrate the damping system with the cover partially open,
• 3 a schematic representation of the first embodiment with the lid open and a longitudinal sectional representation to illustrate the damping system with the lid open,
• 4 a schematic representation of a second embodiment of a storage compartment with the lid closed and a longitudinal sectional representation to illustrate the damping system with the lid closed,
• 5 a schematic representation of a third embodiment of a storage compartment with the lid closed and a longitudinal sectional view to illustrate the damping system with the lid closed and
• 6 a detailed account of the 4 shown second embodiment.

the 1 shows in its upper area a schematic representation of a first exemplary embodiment for a storage compartment with the cover closed and in its lower area a longitudinal section to illustrate the damping system with the cover closed.

As shown in the illustration above 1 As can be seen, the storage compartment 10 shown, which in the exemplary embodiment shown is a glove box of a car, has a container 20 which is closed by a cover 30 . This lid 30 is locked in its closed state in or on the container 20, which is in the 1 is not shown. Once unlocked, the lid pivots downwards, this pivoting being about an axis A located at the bottom of the container 20 and extending in the horizontal direction. On this axis A, a damping device D is arranged, which dampens a resistance-free falling of the lid when the lid 30 is opened. This damping device D is based on the lower representation of 1 explained in more detail.

• - einen Lineardämpfer 40, der einen in Längsrichtung der Achse verschiebbaren Stößel 41 aufweist, der einen aus dem Lineardämpfer 40 herausragenden Endbereich hat,
• - eine auf den Stößel 41 einwirkende Feder 42, die als Druckfeder ausgebildet ist und deren eines Ende sich im Lineardämpfer abstützt und deren anderes Ende auf den Stößel 41 wirkt,
• - einen Keil 43, der gegenüber dem Behälter 20 verdrehsicher gelagert ist, und
• - einen Drehkeil 44, der den Keil 43 kontaktiert und zusammen mit dem schwenkbaren Deckel 30 relativ zum Keil 43 verdrehbar ist.

As shown in the illustration below 1 can be seen, the damping device D is on positioned along axis A and has the following components:

• - a linear damper 40, which has a ram 41 which can be displaced in the longitudinal direction of the axis and which has an end region protruding from the linear damper 40,
• - a spring 42 acting on the plunger 41, which is designed as a compression spring and one end of which is supported in the linear damper and the other end of which acts on the plunger 41,
• - A wedge 43 which is mounted against rotation relative to the container 20, and
• - a rotating wedge 44 which contacts the wedge 43 and is rotatable relative to the wedge 43 together with the pivotable cover 30.

The linear damper 40 is inserted into a receptacle 21 of the container 20. The longitudinal direction of the linear damper 40 corresponds to the longitudinal direction of the A axis. The ram 41 can be displaced in the longitudinal direction of the axis A, so that the right-hand end area of the ram 41 , which is designed as a piston, is positioned more or less far in the inner area of the linear damper 40 . In the closed state of the lid 30, which is in the lower part of the 1 is illustrated, the left-hand end portion of the plunger 41 is fixed to the wedge 43 or rests against this.

In the exemplary embodiment shown, the spring 42 acting on the tappet 41 is a compression spring arranged within the linear damper 40 . Its right-hand end area is supported in the linear damper 40 . The left-hand end area of the compression spring is supported on a right-hand end area of the plunger 41 designed as a piston. The ram 40 is guided in a guide 22 of the container 20 .

In the in the 1 When the cover 30 is in the closed state shown, the spring 42 is in a slightly prestressed state, in which it uses the tappet 41 to press the wedge 43, which has a sloping end face in its end region remote from the linear damper, with said prestressing force to a likewise sloping end face of the rotary wedge 44 presses. In this case, said sloping end face of the wedge 43 runs parallel to the likewise sloping adjacent end face of the rotary wedge 44, these two end faces bearing against one another.

The rotary wedge 44 is firmly connected to the cover 30 via a cover extension, so that it rotates about the axis A together with the cover 30 when the cover 30 is opened and closed. The rotary wedge 44 thus also rotates relative to the wedge 43, which is connected to the container 20 in a manner secured against rotation. This rotation of the rotary wedge 44 relative to the wedge 43 pushes the non-rotatable wedge 43 away from the rotary wedge 44, i.e. in the longitudinal direction of the axis A in the direction of the linear damper 40. This displacement of the wedge 43 also causes the plunger 41 to be displaced in the longitudinal direction of the axis A in the direction of the linear damper 40 . Furthermore, by moving the wedge 43 in the direction of the linear damper, the spring 42 is tensioned more and more.

By moving the plunger 41 in the direction of the linear damper 40, the opening process of the cover 30 is dampened.

As shown in the illustration below 1 It can also be seen that the lid 30 is supported on the container 20 using pins 31 and 32 . These pins can be designed as separate components or, alternatively, also be formed on the cover 30 or on the container 20 .

According to an alternative in which 1 In the embodiment that is not shown, the spring 42 is a compression spring that surrounds the plunger 41 , one end area of which is supported on the linear damper 40 and the other end area of which acts on the wedge 43 .

the 2 shows above a schematic representation of in the 1 shown storage compartment with the lid partially open and below a longitudinal section to illustrate the damping system with the lid partially open.

The one in the 2 shown device differs from that in FIG 1 shown device in that the rotary wedge 44 is slightly twisted relative to the wedge 43, whereby the rotary movement of the rotary wedge 44 that has taken place shifts the wedge 43 and thus also the plunger 41 in the direction of the linear damper 40, so that the right-hand end region of the plunger 41 slightly is shifted further into the interior of the linear damper 40 than in the case of the basis of 1 explained closed state of the lid 30.

In the in the 2 In the illustrated partially opened state of the cover 30, the spring 42 is at least slightly further compressed and is thus in a more tensioned state than in the closed state of the cover 30.

the 3 shows above a schematic representation of in the 1 shown storage compartment with the lid open and below a longitudinal section to illustrate the damping system with the lid open.

The one in the 3 shown device differs from that in FIG 2 Device shown in that the rotary wedge 44 is rotated relative to the wedge 43 further than in FIG 2 , whereby the further rotational movement of the rotary wedge 44 has caused the wedge 43 and thus also the plunger 41 to be displaced further in the direction of the linear damper 40, so that the right-hand end area of the plunger 41 is displaced even further into the inner area of the linear damper 40 than in the case of the in the 2 explained partially open state of the lid 30.

In the in the 3 In the illustrated open state of the lid 30, the spring 42 is compressed even more than in the partially open state of the lid 30 and is therefore in an even more tensioned state than in the partially open state of the lid 30.

When the cover 30 is then closed, the plunger 41 is pressed out of the linear damper 40 in the direction of the wedge 43 as a result of the spring 42 being relaxed. Furthermore, when the lid 30 is closed, the rotary wedge 44 returns to its position in the 1 brought original rotational position shown, in which the oblique end faces of the two wedges 43 and 44 parallel to each other and directly abut each other over their entire end face.

The closing movement of the lid is undamped.

the 4 shows in its upper area a schematic representation of a second exemplary embodiment for a storage compartment with the cover closed and in its lower area a longitudinal sectional view to illustrate the damping system with the cover closed.

As shown in the illustration above 4 As can be seen, the storage compartment 10 shown, which in the exemplary embodiment shown is a glove box of a car, has a container 20 which is closed by a cover 30 . This lid 30 is locked in its closed state in or on the container 20, which is in the 4 is not shown. Once unlocked, the lid pivots downwards, this pivoting being about an axis A located at the bottom of the container 20 and extending in the horizontal direction. On this axis A, a damping device D is arranged, which dampens a resistance-free falling of the lid when the lid 30 is opened. This damping device D is based on the lower representation of 4 explained in more detail.

• - einen Lineardämpfer 40, der einen Stößel 41 aufweist, der einen aus dem Lineardämpfer 40 herausragenden Endbereich hat,
• - eine mit dem Stößel 41 kontaktierte Feder 42, die als Druckfeder ausgebildet ist und deren eines Ende sich im Lineardämpfer abstützt und deren anderes Ende mit dem Stößel kontaktiert ist,
• - einen Keil 43, der gegenüber dem Behälter 20 verdrehsicher gelagert ist, und
• - einen Drehkeil 44, der den Keil 43 kontaktiert und zusammen mit dem schwenkbaren Deckel 30 relativ zum Keil 43 verdrehbar ist.

As shown in the illustration below 4 As can be seen, in this embodiment the damping device D is positioned on the axis A and has the following components:

• - a linear damper 40, which has a plunger 41, which has an end region protruding from the linear damper 40,
• - A spring 42, which is in contact with the plunger 41 and is designed as a compression spring, one end of which is supported in the linear damper and the other end of which is in contact with the plunger,
• - A wedge 43 which is mounted against rotation relative to the container 20, and
• - a rotating wedge 44 which contacts the wedge 43 and is rotatable relative to the wedge 43 together with the pivotable cover 30.

The linear damper 40 is inserted into a guide 22 of the container 20 and can be displaced in the longitudinal direction of the axis A within this guide. The longitudinal direction of the linear damper 40 corresponds to the longitudinal direction of the A axis. The left-hand end area of the plunger 41 embodied as a piston is arranged inside the linear damper 40 and supports an end area of the spring 42 . The right-hand end area of the plunger 41 is inserted into a receptacle 21 of the container 20 . The left-hand end area of the spring 42 is supported on the inside of the left-hand boundary wall of the linear damper 40 .

The outside of the left-side boundary wall of the linear damper 40 is contacted with the right-hand outside wall of the wedge 43 or formed in one piece with it. The wedge 43 is arranged together with the linear damper 40 in a rotationally fixed manner relative to the housing 20, but is displaceable in the longitudinal direction of the axis A. When the wedge 43 is displaced together with the linear damper 40, the spring 42 is compressed and thus tensioned. The positioning of the plunger 41, whose right-hand end region is mounted in the receptacle 21 of the container 20, remains unchanged relative to the container 20. Alternatively, the right-hand end area of the plunger 41 can also only bear against a molded rib as a counter bearing. The receptacle 21 only serves to secure the free end of the plunger 41 against displacement or slipping and thus against the plunger 41 tilting within the linear damper 40. It is also possible to use the receptacle 21 or a rib for the stationary plunger 41 provided on the container 20 or the lid 30.

By moving the linear damper 40 in the guide 22 of the container 20, the rela tive positioning of the stationary mounted plunger 41 in the linear damper 40 changed.

In the closed state of the lid 30, which is in the lower part of the 4 is illustrated, the left-hand end area of the linear damper 40 is firmly connected to the wedge 43 or rests against it, with the spring 42 being in a slightly prestressed state in which it drives the wedge 43, which in its end area remote from the linear damper at an angle has trained end face, on a likewise obliquely designed end face of the rotary wedge 44 presses. In this case, said sloping end face of the wedge 43 runs parallel to the likewise sloping adjacent end face of the rotary wedge 44, these two end faces bearing against one another.

The rotary wedge 44 is firmly connected to the cover 30 so that it rotates about the axis A together with the cover 30 when the cover 30 is opened and closed. The rotary wedge 44 thus also rotates relative to the wedge 43, which is connected to the container 20 in a manner secured against rotation. This rotation of the rotary wedge 44 relative to the wedge 43 pushes the non-rotatable wedge 43 away from the rotary wedge 44 in the longitudinal direction of the axis A. As a result of this displacement of the wedge 43, the spring 42 arranged within the linear damper is compressed and thus tensioned. This dampens the opening process of the lid.

As shown in the illustration below 4 It can also be seen that the lid 30 is supported on the container 20 using pins 31 and 32 . These pins can be designed as separate components or, alternatively, also be formed on the cover 30 or on the container 20 .

The closing movement of the lid is undamped.

the 5 shows in its upper area a schematic representation of a third exemplary embodiment for a storage compartment with the cover closed and in its lower area a longitudinal section to illustrate the damping system with the cover closed.

As shown in the illustration above 5 As can be seen, the storage compartment 10 shown, which in the exemplary embodiment shown is a glove box of a car, has a container 20 which is closed by a cover 30 . This lid 30 is locked in its closed state in or on the container 20, which is in the 5 is not shown.

Once unlocked, the lid pivots downwards, this pivoting being about an axis A located at the bottom of the container 20 and extending in the horizontal direction. On this axis A, a damping device D is arranged, which dampens a resistance-free falling of the lid when the lid 30 is opened. This damping device D is based on the lower representation of 5 explained in more detail.

• - einen Lineardämpfer 40, der einen in Längsrichtung der Achse A verschiebbaren Stößel 41 aufweist, der einen aus dem Lineardämpfer 40 herausragenden Endbereich hat,
• - eine auf den Stößel 41 einwirkende Feder 42, die als Druckfeder ausgebildet ist und deren eines Ende sich im Lineardämpfer 40 abstützt und deren anderes Ende auf den Stößel 41 wirkt,
• - einen Keil 43, der gegenüber dem Behälter 20 verdrehsicher gelagert ist, und
• - einen Drehkeil 44, der den Keil 43 kontaktiert und zusammen mit dem schwenkbaren Deckel 30 relativ zum Keil 43 verdrehbar ist.

As shown in the illustration below 5 As can be seen, in this embodiment the damping device D is positioned on the axis A and has the following components:

• - a linear damper 40, which has a ram 41 which can be displaced in the longitudinal direction of the axis A and which has an end region protruding from the linear damper 40,
• - A spring 42 acting on the plunger 41, which is designed as a compression spring and one end of which is supported in the linear damper 40 and the other end of which acts on the plunger 41,
• - A wedge 43 which is mounted against rotation relative to the container 20, and
• - a rotating wedge 44 which contacts the wedge 43 and is rotatable relative to the wedge 43 together with the pivotable cover 30.

The linear damper 40 is connected to the pivotable cover 30, is inserted into a receptacle 33 of the cover and rotates about the axis A when the cover is opened. The longitudinal direction of the linear damper 40 corresponds to the longitudinal direction of the axis A. The left end area of the plunger 41 designed as a piston is arranged inside the linear damper 40 and supports an end area of the spring 42 . The other end area of the spring 42 is supported on the inside of the left-hand boundary wall of the linear damper 40 . The plunger 41 is guided in a guide 34 of the cover 30 so as to be longitudinally displaceable. The right-hand end area of the plunger 41 is firmly connected to the rotating wedge 44 . Consequently, when the lid 30 is opened, both the linear damper 40 and the plunger 41 as well as the rotary wedge 44 rotate. This rotation of the rotary wedge 44 relative to the wedge 43, which is connected to the container 20 so that it cannot rotate, causes the rotary wedge 44 to be displaced together with the Plunger 41 in the longitudinal direction of the axis A, so that the spring 42 positioned in the linear damper 42 is compressed. This dampens the opening process of the lid 30.

As shown in the illustration below 5 It can also be seen that the lid 30 is supported on the container 20 using pins 31 and 32 . These pins can be used as separate components be executed or alternatively also be formed on the lid 30 or on the container 20.

The closing movement of the lid is undamped.

In the case of the 5 In the exemplary embodiment explained, the wedge 43 is connected to the container 20 in a torsion-proof manner and, moreover, cannot be displaced in the longitudinal direction of the axis A. On the other hand, in this exemplary embodiment, the rotary wedge 44 can be rotated about the axis A together with the cover 30 and also be displaced in the longitudinal direction of the axis A.

In contrast, with the based on the 1 - 4 In the exemplary embodiments explained, the wedge 43 is likewise connected to the container 20 in a manner secured against rotation, but is displaceable in the longitudinal direction of the axis A. Furthermore, in the case of the 1 - 4 In the exemplary embodiments explained, the rotary wedge 44 can be rotated about the axis A together with the cover 30, but cannot be displaced in the longitudinal direction of the axis A.

the 6 shows a detailed representation of the based on the 4 explained second embodiment.

Also from this illustration it can be seen that the components belonging to the damping system, which include a linear damper 40 with a plunger 41, a wedge 43 and a rotary wedge 44, are positioned on axis A, which is the axis of rotation of the cover are. Furthermore, in the 6 a part of the container 20, the seat 21 of the container 20, the guide 22 of the container 20, a part of the lid 30 and the positioning of the pin 31 is illustrated.

Reference List

10

academic subject

20

container

21

admission

22

guide

30

lid

31

pen

32

pen

33

admission

34

guide

40

linear damper

41

pestle

42

feather

43

first turning wedge

44

second turning wedge

A

axis

D

damper system

QUOTES INCLUDED IN DESCRIPTION

This list of documents cited by the applicant was 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.

Patent Literature Cited

• DE 102006032747 B4 [0004]
• DE 10341969 A1 [0005]

Claims (10)

Storage compartment which has a container (20) and a cover (30) mounted on the container (20) so that it can pivot about an axis (A), characterized in that - in the axis (A) a damping device dampens an opening movement of the cover (30). (D) is arranged, which has the following components: - a linear damper (40) with a tappet (41), - a wedge (43) which is mounted to prevent rotation relative to the container (20), and - a rotating wedge (44), which contacts the wedge (43) and is rotatable together with the pivotable cover relative to the wedge (43). storage compartment after claim 1 , characterized in that the axis (A) runs essentially horizontally and is arranged in the region of the lower edge of the container (20). storage compartment after claim 2 , characterized in that the lid (30) opens downwards. Storage compartment according to one of the preceding claims, characterized in that mutually facing end faces of the wedge (43) and the rotating wedge (44) are formed obliquely. storage compartment after claim 4 , characterized in that the sloping end faces of the wedge (43) and the rotary wedge (44) run parallel to one another and rest against one another when the lid is closed. Storage compartment according to one of the preceding claims, characterized in that - the plunger (41) has an end region which projects out of the linear damper (40) and can be displaced in the longitudinal direction of the axis (A) and - a spring (42) on the plunger (41) acts. storage compartment after claim 6 , characterized in that the spring (42) is designed as a compression spring, one end of the spring (42) is supported in or on the linear damper (40), the other end of the spring (42) acts on the ram (41) and the ram (41) is moved during the opening movement of the lid (30) against the force of the spring (42). storage compartment after claim 7 , characterized in that during the opening movement of the lid, the rotary wedge (44) rotates together with the lid (30) about the axis (A) and the wedge (43) moves in the longitudinal direction of the axis (A). storage compartment after claim 7 , characterized in that during the opening movement of the cover, the rotary wedge (44) rotates together with the cover (30) about the axis (A) and is displaced in the longitudinal direction of the axis (A) via the wedge (43). Storage compartment according to one of the preceding claims, characterized in that the closing movement of the cover (30) is undamped.

Images