DE102021126433B3 - Installation element for electrical connection units - Google Patents

Abstract

The invention relates to an installation element (10) for electrical connection units (12), comprising a base housing (14), a flat upper housing part (16), a drive (24), an actuating device (30), the installation element (10) being designed in such a way that when the actuating device (30) is actuated, the upper housing part (16) and the closure element (22) are initially moved away from one another relative to one another along the axis (28) and then the upper housing part (16) and the closure element (22) are moved by means of the drive (24) a rotational movement of the upper housing part (16) and the closure element (22) relative to one another takes place, with an intermediate position being reached first, when it is reached a first axial position between the closure element (22) and the upper housing part (16) spaced apart along the axis (28) is reached and the closure element (22) and/or the housing upper part (16) are locked in this.

Description

The invention relates to an installation element for electrical connection units with the features of the preamble of claim 1.

Sockets as electrical installation devices are used as part of building installation technology and are usually installed in a fixed location. They provide the mains voltage for electricity consumers. Sockets in worktops, such as kitchen worktops, should often only be kept available for the duration of their use. To carry out work in the kitchen or for optical and safety reasons, it is desirable to cover the sockets when not in use. For this purpose, the sockets can be equipped with locking elements. These can close the socket in a closed position and prevent the connection of consumers and release the socket in an open position and allow the connection of consumers.

DE 10 2018 009 948 A1 discloses an installation element with the features of the preamble of claim 1. In this case, passage openings arranged on a housing upper part of the installation element are closed by means of a closure element in a closed position or made accessible in an open position.

CN 2 10 272 793 U and CN 1 13 258 388 A each disclose an installation element with features of claim 1.

The disadvantage here is that a reliable transfer of the closure element from the closed position to the open position cannot be guaranteed.

It is therefore the object of the present invention to provide an installation element in which a reliable transfer of the closure element from the closed position to the open position and vice versa can be guaranteed.

This object is achieved by an installation element for electrical connection units with the features of claim 1. The installation element can be designed in the form of a socket. An electrical connection unit can, for example, be a (safety contact) socket unit or an information connection, such as a B. USB (Universal Serial Bus).

The installation element comprises a base housing and a flat upper housing part. The base housing can be designed like a pot. The base housing defines an interior space which is delimited at an upper side of the base housing by the housing upper part.

At least one connection unit, in particular two or three connection units, is arranged inside the interior.

The upper part of the housing has at least one passage opening, in particular two or three passage openings. A connection unit is accessible through the passage opening. If there are several passage openings, in particular one connection unit is accessible through each passage opening.

The installation element further comprises a closure element, wherein the closure element is designed to close the through-opening in a closed position relative to the upper housing part and to release the through-opening in an open position relative to the upper housing part. In particular, the connection unit arranged within the interior can be closed or opened by means of the closure element.

The installation element further includes a drive. The drive can be in the form of an electric motor (electric machine).

The upper housing part and the closure element are designed to be movable relative to one another by means of the drive in a rotary manner about an axis running orthogonally to the planar extent of the upper housing part. In other words, the upper housing part and the closure element can be moved in rotation relative to one another. It is conceivable that only the upper part of the housing or only the closure element is moved. It is also conceivable that the upper part of the housing and the closure element can be moved at the same time.

The installation element further includes an actuating device. The actuating device is movably arranged in the installation element, in particular along the axis which runs orthogonally in the direction of the planar extension of the upper housing part.

To actuate the actuating device, the actuating device can be moved between an initial position and an actuating position. The actuation of the actuation device can be implemented by a manual push of an operator.

The installation element is designed in such a way that when the actuating device is actuated, the housing upper part and the closure element are first moved away from one another relative to one another along the axis and subsequently a rotational movement of the upper housing part and the closure element relative to one another takes place by means of the drive in order to convert the closure element from the closed position into the open position.

When the actuating device is moved from the starting position to the actuating position, an intermediate position is first reached. When the intermediate position is reached, a first axial position, spaced apart along the axis, is reached between the closure element and the upper housing part. The closure element and/or the upper part of the housing are latched in this first axial position. Thus, the distance along the axis between the closure element and the upper part of the housing is also partially maintained by the latching during the subsequent rotational movement. The rotational movement is only brought about by the drive after the intermediate position has been reached (or after the first axial position has been reached).

In the present case, an axis means an axis running orthogonally to the planar extension (extension plane) of the upper housing part and in particular running through the center point of the base housing. In the present case, this axis represents the axis of rotation for the rotational movement of the closure element or the upper part of the housing. Correspondingly, “axial” means a position, movement, etc. oriented along this axis or parallel to this axis.

Due to the fact that the closure element and/or the upper housing part lock in the first axial position before the drive is activated, the actuating device can be released directly after the actuating position has been reached and the drive activated. By latching the closure element and/or the upper housing part in the first axial position, an axial distance is maintained between the upper housing part and the closure element, so that a trouble-free rotational movement can be initiated. It is therefore not necessary to press down and in particular hold the actuating device after activating the drive.

The upper part of the housing can be firmly connected to the base housing, in particular in a rotationally fixed manner. In this case, in particular, the closure element is movably arranged in the base housing, it can also be movably connected to it. Alternatively, the closure element can also be firmly connected to the base housing, in particular in a rotationally fixed manner. In this case, in particular, the upper part of the housing is movably connected to the base housing.

The installation element can include an activation button, arranged in particular in the interior, for activating the drive. The installation element can also include an actuating arm coupled to the actuating device and/or to the closure element. The actuating arm can be designed to actuate the activation button, in particular when the actuating device is in the actuating position. In particular, pressing the activation button activates the drive. In other words, the drive can be started using the activation button.

The installation element can include a control device, in particular in the form of a control board (or printed circuit board, PCB (Printed Circuit Board)) for controlling the drive. The activation button for activating the drive can be arranged (directly) on the control device.

The base housing may comprise a lower housing part and a middle housing part. In particular, the base housing can be designed in two parts.

The closure element can be arranged between the base housing and the housing upper part. In other words, the closure element can be arranged within the interior space delimited by the base housing and the upper housing part.

The actuating device can be biased into the starting position. This can be implemented in particular by means of a first spring (e.g. spiral or leaf spring). In other words, the first spring can push the actuator to the home position. As a result, the actuating device can be pressed back into the starting position after it has been released by the user.

The closure element can be pretensioned, in particular axially, against the upper part of the housing by means of a second spring (e.g. spiral or leaf spring). In other words, the second spring can press the closure element against the upper part of the housing. Alternatively, the upper housing part can be pretensioned, in particular axially, against the closure element by means of the second spring (eg spiral or leaf spring). In other words, the second spring can press the upper part of the housing against the closure element.

The closure element can have at least one projection. The lead can be complementary to the through-opening and extend into the through-opening in the closed position.

In particular, the (axial) height of the projection corresponds to the (axial) thickness of the upper part of the housing (or the passage opening). In this way, the closure element can end flush with the surface of the upper part of the housing in the closed position. As a result, in the closed position of the closure element, a surface that is level (flush) over the entire upper part of the housing can be achieved.

The closure element can have at least one first latching lug, in particular two first latching lugs. The closure element can be locked in the first axial position by means of the first locking lug. Alternatively or additionally, the upper part of the housing can have at least one first latching lug, in particular two first latching lugs. The upper part of the housing can be locked in the first axial position by means of the first locking lug.

The base housing can have at least one first guide groove, in particular two first guide grooves, designed to complement the first detent. The first guide groove can be designed in such a way that the first latching lug and the first guide groove are arranged in engagement with one another during a first section of the rotational movement of the closure element and/or the upper housing part starting from the first axial position. In other words, during the first portion of the rotational movement, the closure element and the upper housing part can be held in the first axial position. In particular, the axial distance between the closure element and the upper housing part does not change during the first portion of the rotational movement and corresponds to the distance between the closure element and the upper housing part in the first axial position. It can thereby be ensured that from the first axial position the rotational movement of the closure element and/or the upper part of the housing can be initiated without interference (obstacle-free).

In a second section of the rotational movement of the closure element and/or the housing upper part following the first section, the first latching lug can be moved away from the first guide groove and axially (along the axis) in the direction of the base housing. In other words, the first detent and the first guide groove are no longer in engagement with one another and are axially spaced apart from one another during the second portion of the rotational movement. In particular, the closure element and/or the upper part of the housing is/are not latched by means of the first latching lug during the second section of the rotational movement.

The closure element and/or the upper part of the housing can have at least one second latching lug, in particular two second latching lugs. In particular, the second latching lug can be longer than the first latching lug. The second latching lug can be set up to latch the closure element and/or the upper housing part in a second axial position. In particular, the axial distance between the closure element and the upper housing part in the second axial position is smaller than the axial distance between the closure element and the upper housing part in the first axial position.

In particular, the closure element and the upper housing part are held in the second axial position by means of the second latching lug during the second section of the rotational movement of the closure element and/or the upper housing part, which follows the first section. In particular, the axial distance between the closure element and the upper housing part does not change during the second section of the rotational movement and corresponds to the axial distance between the closure element and the upper housing part in the second axial position.

The base housing can have at least one second guide groove, in particular two second guide grooves, designed to complement the second latching lug. The second guide groove can be designed in such a way that the second latching lug and the second guide groove are arranged in engagement with one another during the second section of the rotational movement of the closure element and/or the housing upper part that follows the first section. In other words, during the second portion of the rotational movement, the closure element and the upper housing part can be held in the second axial position.

In particular, when the closure element is arranged in the closed position, the closure element and/or the upper housing part can be arranged in the second axial position. In particular during the transfer from the closed position to the open position, the first latching lug can be arranged outside of the first guide groove and at an axial distance from the first guide groove. In particular, the first latching lug and the first guide groove are not in engagement with one another during the rotational movement from the closed position into the open position. In particular, the closure element and/or the upper housing part are not held in the first axial position during the rotational movement from the closed position to the open position, so that the Ver Closing element and the upper part of the housing can be moved towards one another axially until the closed position of the closing element is assumed again.

• 1 eine perspektivische Explosionsdarstellung des Installationselements von oben;
• 2 eine perspektivische Explosionsdarstellung des Installationselements gemäß 1 von unten;
• 3 eine Seitenansicht der Explosionsdarstellung gemäß 1;
• 4 eine zur Seitenansicht aus 3 orthogonal orientierte Seitenansicht des Installationselements;
• 5 eine Unteransicht auf das Installationselement gemäß 1 in einem ersten Zustand;
• 6 eine Schnittansicht auf das Installationselement gemäß dem in 5 dargestellten Schnitt A-A;
• 7 eine perspektivische Ansicht von unten der Schnittansicht gemäß 6;
• 8 eine Unteransicht auf das Installationselement gemäß 1 in einem zweiten Zustand;
• 9 eine Schnittansicht auf das Installationselement gemäß dem in 8 dargestellten Schnitt A-A;
• 10 eine Unteransicht auf das Installationselement gemäß 1 in einem dritten Zustand;
• 11 eine Schnittansicht auf das Installationselement gemäß dem in 10 dargestellten Schnitt A-A;
• 12 eine Unteransicht auf das Installationselement gemäß 1 in einem vierten Zustand;
• 13 eine Schnittansicht auf das Installationselement gemäß dem in 12 dargestellten Schnitt A-A;
• 14 eine Unteransicht auf das Installationselement gemäß 1 in einem fünften Zustand und
• 15 eine Schnittansicht auf das Installationselement gemäß dem in 14 dargestellten Schnitt A-A;

Further features, details and advantages of the invention result from the wording of the claims and from the following description of an exemplary embodiment with reference to the drawings. Show it:

• 1 an exploded perspective view of the installation element from above;
• 2 according to an exploded perspective view of the installation element 1 from underneath;
• 3 a side view of the exploded view according to 1 ;
• 4 one for side view 3 orthogonally oriented side view of the installation element;
• 5 according to a bottom view of the installation element 1 in a first state;
• 6 a sectional view of the installation element according to in 5 illustrated section AA;
• 7 a perspective view from below according to the sectional view 6 ;
• 8th according to a bottom view of the installation element 1 in a second state;
• 9 a sectional view of the installation element according to in 8th illustrated section AA;
• 10 according to a bottom view of the installation element 1 in a third state;
• 11 a sectional view of the installation element according to in 10 illustrated section AA;
• 12 according to a bottom view of the installation element 1 in a fourth state;
• 13 a sectional view of the installation element according to in 12 illustrated section AA;
• 14 according to a bottom view of the installation element 1 in a fifth state and
• 15 a sectional view of the installation element according to in 14 Section AA shown;

In the following description and in the figures, corresponding components and elements have the same reference symbols. For the sake of better clarity, not all reference numbers are reproduced in all figures.

The installation element 10 is in the 1 until 4 shown in an exploded view. while showing 1 an exploded perspective view from above and 2 an exploded perspective view from below.

3 and 4 each show orthogonal side views of the exploded views.

In the present case, the installation element 10 is designed for two connection units 12 in the form of two protective contact socket units. The installation element 10 comprises a base housing 14 and a flat upper housing part 16. The base housing 14 and the upper housing part 16 delimit an interior space 18 in which the two connection units 12 are arranged. The upper housing part 16 has a square shape in the present case.

In the present case, the base housing 14 comprises a central housing part 40 and a lower housing part 38. The central housing part 40 has an intermediate wall 15, the two connection units 12 being firmly fixed to the intermediate wall 15 (e.g. by means of a screw or adhesive connection). In the present case, the middle part 40 of the housing and the intermediate wall 15 are designed in one piece.

In the present case, the upper housing part 16 has two passage openings 20 through which one of the two connection units 12 is accessible in each case.

The installation element 10 has a closure element 22 . The closure element 22 is designed to close the passage openings 20 in a closed position. For this purpose, the closure element 22 has two projections 44 designed to complement the passage openings 20 . When the closure element 22 is in the closed position, these can protrude into the passage openings 20 so that they end flush with the surface of the upper housing part 16 .

The installation element 10 has a drive 24 . In the present case, this is in the form of an electric motor 26 . The drive 24 is mounted in the interior 18 of the installation element 10 by means of a holder 27 .

In the present case, the upper housing part 16 is designed to be firmly connected to the base housing 14 . The closure element 22 is designed to be rotatable about an axis 28 . The axis 28 is in the 1 until 4 indicated by a dashed line. The rotational movement of the closure element 22 is implemented by means of the drive 24 . For this purpose, the drive 24 has a drive pinion 29 which is held in a receptacle 31 provided for this purpose in the closure element 22 in a rotationally fixed but axially displaceable manner. In other words, the drive 24 and the closure element 22 are presently connected to one another in a torque-proof manner.

The installation element 10 has an actuating device 30 . The actuating device 30 is designed in the form of a button and is biased into an initial position by means of a first spring 42 . In the starting position, the actuating device 30 is flush with the surface of the upper part 16 of the housing.

The actuating device 30 can be moved from the starting position into an actuating position. During the movement from the starting position to the actuating position, the actuating device 30 presses on the closure element 22 and moves it axially away from the upper housing part 16 (ie in the direction of the drive 24).

The installation element 10 has a control device 36 for controlling the drive 24, which is designed in the form of a control circuit board and is fastened in the interior 18. An activation button 32 for activating the drive 24 is arranged on the control device 36 . The activation button 32 can be activated by means of an activation arm 34 .

In the present case, the actuating arm 34 is rotatably arranged on the closure element 22 and is accommodated in a guide 33 in an axially guided manner. The actuating arm 34 is thus firmly coupled to the closure element 22 in the axial direction. In other words, an axial movement of the closure element 22 causes a similar axial movement of the actuating arm 34.

The closure element 22 is prestressed against the upper housing part 16 by means of a second spring 43 . In other words, the second spring 43 presses the closure element 22 in the direction of the housing upper part 16.

the 5 until 15 show different states of the installation element 10, which illustrate the rotational movement of the closure element 22 from the closed position to an open position. For the sake of clarity, the upper housing part 16, the lower housing part 38, the drive 24, the bracket 27, the second spring 43, and the two connection units 12 in the 5 until 15 not shown.

5 shows a bottom view of the installation element 10 according to FIG 1 in a first state, 6 a sectional view of the installation element 10 according to FIG 5 illustrated section AA and 7 a perspective view from below according to the sectional view 6 . In the first state shown, the closure element 22 is in the closed position. The two passage openings 20 are therefore closed by the closure element 22 .

In the present case, the closure element 22 has two first latching lugs 46 and the housing middle part 40 has two first guide grooves 48 in order to latch the closure element 22 in a first axial position. The closure element 22 also has two second latching lugs 50 and the housing middle part 40 has two second guide grooves 52 in order to latch the closure element 22 in a second axial position. The two first latching lugs 46 and the two second latching lugs 50 are distributed symmetrically around the axis 28 on the closure element 22 . The two first guide grooves 48 and the two second guide grooves 52 are distributed symmetrically around the axis 28 on the middle part 40 of the housing.

In the in the 5 until 7 In the illustrated closed position of the closure element 22, the first latching lugs 46 are not in engagement with the first guide grooves 48 and are arranged at an axial distance from the first guide grooves 48. The second latching lugs 50 are also not in engagement with the second guide grooves 52 and are arranged at an axial distance from the second guide grooves 52 . The actuating arm 34 is arranged at a distance from the activation button 32 .

8th shows a bottom view of the installation element 10 according to FIG 1 in a second state and 9 a sectional view of the installation element 10 according to FIG 8th illustrated section AA. The state shown corresponds to the first axial position. In this first axial position, the closure element 22 is in the axial direction from the housing upper part 16 (cf. 1 ) has been moved away. The two first latching lugs 46 are in engagement with the two first guide grooves 48. The actuating arm 34 has also been moved away from the upper housing part 16 in the axial direction and towards the activation button 32 by means of the closure element 22. In the illustrated position, the actuating arm 34 does not actuate the activation button 32 (yet).

In order to reach the first axial position, the actuating device 30 was moved into an intermediate position by being pressed down by an operator.

10 shows a bottom view of the installation element 10 according to FIG 1 in a third state and 11 a sectional view of the installation element according to in 10 illustrated section AA. The third state shown corresponds to the operating position of the operating device 30. For this purpose, the operating device 30 is in the 8th and 9 shown intermediate position by pressing the actuating device 30 further in the direction away from the housing upper part 16 (cf. 1 ) emotional.

The closure element 22 and thus also the actuating arm 34 are thus moved further in the axial direction away from the upper housing part 16 . In the actuation position shown, the activation button 32 is actuated by means of the actuation arm 34 . After actuating the activation button 32 and thus after activating the drive 24, the actuating device 30 can be released. The first spring 42 (cf. 1 ) pushes the actuating device 30 back into the starting position after being released.

The closure element 22 is held in place by the second spring 43 (cf. 1 ) in the direction of the housing upper part 16 (cf. 1 ) is pressed and thus axially displaced and latched by the two first latching lugs 46 with the two first guide grooves 48 in the first axial position (cf. 8th and 9 ). The drive 24 activated by means of the actuating arm 34 (cf. 1 ) initiate the rotational movement of the closure element 22 about the axis 28 without interference. In a first section of the rotational movement of the closure element 22, the closure element 22 is held in the first axial position by means of the first latching lugs 46 and the first guide grooves 48.

12 shows a bottom view of the installation element 10 according to FIG 1 in a fourth state and 13 a sectional view of the installation element according to in 12 illustrated section AA. The state shown shows a second section of the rotational movement of the closure element 22 following the first section.

In this second section of the rotational movement of the closure element 22, the first latching lugs 46 are moved outside of the first guide grooves 48 so that they are no longer in engagement with one another. The second latching lugs 50 are brought into engagement with the second guide grooves 52 in the second section of the rotational movement of the closure element 22 . The closure element 22, due to the prestressing by means of the second spring 43 (cf. 1 ) moves axially towards the housing upper part 16. The second latching lugs 50 come into engagement with the second guide grooves 52 and latch the closure element 22 in a second axial position. In the second axial position, the closure element 22 is thus arranged axially closer to the upper housing part 16 than in the first axial position. In other words, the axial distance between the closure element 22 and the upper housing part 16 (cf. 1 ) is greater in the first axial position than in the second axial position.

During the second section of the rotational movement of the closure element 22, the closure element 22 is held in the second axial position by means of the second latching lugs 50 and the second guide grooves 52. During the second section of the rotational movement of the closure element 22, the first latching lugs 46 and the first guide grooves 48 are arranged at an axial distance from one another.

14 shows a bottom view of the installation element 10 according to FIG 1 in a fifth state and 15 a sectional view of the installation element 10 according to FIG 14 illustrated section AA. The fifth state shown corresponds to the open position of the closure element 22. In this position, the closure element 22 is still latched in the second axial position by means of the second latching lugs 50 and the second guide grooves 52.

the 5 until 15 thus illustrate the transfer of the closure element 22 from the closed position to the open position by a rotational movement.

For the transfer of the closure element 22 from the in the 14 and 15 From the open position shown back into the closed position, the actuating device 30 is pressed again up to the actuating position, in which the activation button 32 is activated by means of the actuating arm 34 (cf. 10 and 11 ) is actuated and the drive 24 is activated.

The direction of rotation of the drive 24, and thus the direction of rotation of the closure element 22, during the transition from the closed position to the open position and the rotational movement of the drive 24, and thus the direction of rotation of the closure element 22, during the transition from the open position to the closed position are opposite to one another .

When the closure element 22 rotates back from the second axial position (closure position), the first latching lugs 46 and the first guide groove 48 are spaced axially from one another (cf. first, second axial position), so that during the reverse rotation of the closure element ments 22 these do not engage with each other.

As soon as the second latching lugs 50 are moved out of the second guide grooves 52 while the closure element 22 is rotating back, they disengage. This is the case when the closure element 22 with its two projections 44 (cf. 1 ) is arranged directly below the respective passage openings 20, but spaced axially therefrom.

After neither the first latching lugs 46 nor the second latching lugs 50 latch the closure element 22 axially with the respective first or second guide grooves 48, 52, the prestress applied by the second spring 43 forces the closure element 22 axially in the direction of the upper housing part 16 (cf. 1 or. 5 ) and thus in the closed position.

Claims (15)

Installation element (10) for electrical connection units (12), in particular socket outlets, comprising - a base housing (14), in particular pot-shaped, and a flat upper housing part (16), - the base housing (14) defining an interior space (18) which is attached to a The upper side of the base housing (14) is delimited by the housing upper part (16), - at least one connection unit (12), in particular two or three connection units (12), being arranged inside the interior (18), - the housing upper part (16) having at least has a passage opening (20), in particular two or three passage openings (20), through which a connection unit (12) is accessible in each case, - a closure element (22), wherein the closure element (22) is designed to be in a closed position opposite the Upper housing part (16) to close the through-opening (20) and to release the through-opening (20) in an open position relative to the upper housing part (16), - a drive (24), in in particular in the form of an electric motor (26), - the upper housing part (16) and the closure element (22) being designed to be rotatable relative to one another by means of the drive (24) about an axis (28) running orthogonally to the flat extension of the upper housing part (16). , - an actuating device (30), in particular which is arranged in the installation element (10) so that it can move along the axis (28), which runs orthogonally to the flat extension of the housing upper part (14), - the actuating device (30) for actuating - the installation element (10) is designed in such a way that when the actuating device (30) is actuated, the upper housing part (16) and the closure element (22) are initially moved along of the axis (28) are moved away from each other relative to each other and subsequent rotational movement of the housing use upper part (16) and the closure element (22) relative to one another by means of the drive (24) in order to transfer the closure element (22) from the closed position to the open position, characterized in that when the actuating device (30) is moved from the initial position in the actuating position is first reached an intermediate position, when it is reached a first axial position between the closure element (22) and the housing upper part (16) spaced apart along the axis (28) is reached and the closure element (22) and/or the housing upper part (16) in this position be locked, so that the distance along the axis (28) between the closure element (22) and the housing upper part (16) is also partially maintained by the locking during the subsequent rotational movement and the rotational movement only after the intermediate position has been reached by the drive (24) is effected. Installation element (10) after claim 1 , characterized in that the upper housing part (16) or the closure element (22) is fixed to the base housing (14), in particular non-rotatably connected. Installation element (10) after claim 1 or claim 2 , characterized in that the installation element (10) comprises an activation button (32) arranged in particular in the interior (18) for activating the drive (24), the installation element (10) further having an activation device (30) and/or with the actuating arm (34) coupled to the closure element (22), the actuating arm (34) being designed to actuate the activation button (32), in particular when the actuating device (30) is in the actuating position. Installation element (10) after claim 3 , characterized in that the installation element (10) comprises a control device (36), in particular in the form of a control circuit board, for controlling the drive (24), in particular the activation button (32) being arranged on the control device (36). Installation element (10) according to one of the preceding claims, characterized in that the base housing (14) comprises a housing lower part (38) and a housing middle part (40). Installation element (10) according to one of the preceding claims, characterized in that the closure element (22) is arranged between the base housing (14) and the housing upper part (16). Installation element (10) according to one of the preceding claims, characterized in that the actuating device (30) is prestressed into the starting position, in particular by means of a first spring (42). Installation element (10) according to one of the preceding claims, characterized in that the closure element (22) is prestressed against the housing top part (16) or the housing top part (16) against the closure element (22) by means of a second spring (43). Installation element (10) according to one of the preceding claims, characterized in that the closure element (22) has at least one projection (44) which is complementary to the through-opening (20) and extends into the through-opening (20) in the closed position. Installation element (10) according to one of the preceding claims, characterized in that the closure element (22) and/or the housing upper part (16) has at least one first latching lug (46), in particular two first latching lugs (46), by means of which the closing element ( 22) and/or the housing upper part (16) can be locked in the first axial position. Installation element (10) after claim 10 , characterized in that the base housing (14) has at least one first guide groove (48) designed to complement the first detent (46), in particular two first guide grooves (48), the first guide groove (48) being designed in such a way that the the first latching lug (46) and the first guide groove (48) are arranged in engagement with one another during a first section of the rotational movement of the closure element (22) and/or the upper housing part (16) starting from the first axial position. Installation element (10) after claim 11 , characterized in that in a second section of the rotational movement of the closure element (22) and/or the housing upper part (16) following the first section, the first latching lug (46) moves out of the first guide groove (48) and along the axis (28) in Direction is moved away from the base housing (14), so that the first detent (46) and the first guide groove (48) are no longer in engagement with each other. Installation element (10) according to one of Claims 10 until 12 , characterized in that the closure element (22) and/or the upper housing part (16) has at least one second latching lug (50), in particular two second latching lugs (50), the second latching lug (50) being in particular longer than the first latching lug (46), is set up to hold the closure element (22) and/or the upper housing part (16) in a second axial position, in particular during the second section of the rotational movement of the closure element (22) following the first section and/or of the upper part of the housing (16). Installation element (10) after Claim 13 , characterized in that the base housing (14) has at least one second guide groove (52) designed to complement the second detent (50), in particular two second guide grooves (52), the second guide groove (52) being designed in such a way that the second The locking lug (50) and the second guide groove (52) are arranged in engagement with one another during the second section of the rotational movement of the closure element (22) and/or the housing upper part (16) which follows the first section. Installation element (10) after Claim 13 or 14 , characterized in that in the closed position of the closure element (22), the closure element (22) and/or the housing upper part (16) are arranged in the second axial position and during the transfer from the closed position to the open position the first latching lug (46) is outside of the first guide groove (48) is arranged so that the first detent lug (46) and the first guide groove (48) are not arranged in engagement with one another.

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