EP3895255A1

EP3895255A1 - Installation element for socket elements

Info

Publication number: EP3895255A1
Application number: EP19845575.0A
Authority: EP
Inventors: Berthold Kalkus; Hans-Peter Frank
Original assignee: Individual
Current assignee: BACHMANN GmbH
Priority date: 2018-12-13
Filing date: 2019-12-10
Publication date: 2021-10-20
Also published as: CN113508500A; DE102018009948A1; US20220029344A1; CN113508500B; US11973290B2; WO2020119845A1

Abstract

The invention proposes an installation element for electrical connections having a base housing (01), a housing top part (10) having through openings (11), at least one socket unit (02) and an operating device (45, 60, 101), the housing top part (10) being fixed to the base housing (01) and a rotatable apparatus (30) being arranged within the base housing (01) in such a way that by operation of the operating device (45, 60, 101), the rotatable apparatus (30) can be positioned in an open position or a closed position for the through openings (11) for releasing electrical connections.

Description

Installation element for socket elements

description

The invention an installation element for socket elements.

State of the art

Sockets as electrical installation devices are used in the context of building installation technology and are usually installed in a fixed position. They provide the mains voltage for electricity consumers. Sockets in work surfaces such as kitchen work surfaces should often only be kept available for the duration of their use. The sockets should be covered for carrying out work in the kitchen or for optical and safety-related reasons. The devices can usually be opened to connect the consumers. When the devices are opened, the mains voltage connections emerge from the plate in which they are installed and are therefore visible. In this position, the connections can be connected to the socket insert. This has the disadvantage that the socket insert and the connections are always visible on the plate, for example a kitchen plate. Depending on the application and purpose, the sockets can be covered with the above-mentioned hinged covers to prevent penetration to avoid foreign bodies and also to prevent unauthorized access.

DE 24 58 243 A1 discloses a protective device for installation elements such as sockets and switches with an automatically closing cover flap that hides the installation element. A rotatable cover plate with a safety latch is arranged on the cover flap, which enables the cover flap to be opened by turning the cover plate into an effective and ineffective position by rotating the cover plate.

There are also known from a plate or the floor pivotable Vorrichtun gene, which are embedded, for example, under the plate. Opening the cover is required for actuation.

DE 202 09 189 U1 discloses an underfloor connection box for electrotechnical purposes with a cover and a cord outlet with a closing flap which can be pivoted about a pivot axis on the cover side into an open position, where the closing flap has a lever below the cover and a push button can be actuated that the lever and thus the closing flap can be pivoted into an open position by pressing the push button.

A disadvantage of the known covers is that the lids are in front of both the closed position and the open position via the other components, for example of the piece of furniture, into which sockets are to be integrated. Movable lids also wear out and lose their functionality. There may be a clatter.

The object of the invention is therefore to provide a cover which enables a closable, flat structural unit for a socket construction. Disclosure of the invention

The invention is disclosed by the features of the main claim. Embodiments and further developments are the subject of further claims following the main claim.

An installation element for electrical connections, in particular sockets of different types, as well as USB or other connections, is disclosed. This is in particular a socket element. The socket element has an outer or base housing with openings and an inner housing with one or more sockets arranged therein. Different options for covering the sockets are described below.

The socket element has the outer fixed base housing, that is to say the outer housing, with a fixed upper housing cover. Openings are formed in this fixed upper housing panel, which should allow access to the sockets.

Furthermore, the socket element has a rotatable device with which the above-mentioned openings of the housing panel can be opened or closed. The rotatable device is a rotatable turntable arranged on the base housing or a stationary inner housing. As an alternative to the turntable, the rotatable device can be designed in any other suitable shape, for example as a rotary wing, rotary bone or the like.

The turntable arranged on the base housing or the permanently installed inner housing can be rotated with respect to the outer, stationary housing or its housing cover which is firmly connected to it. The upper housing panel of the fixed outer housing has size-appropriate insertion holes for the consumers or plugs of consumers depending on the number of sockets installed in the socket element. These are usually two or three sockets per socket element, i.e. either a duplex or a triplex arrangement. However, it is also possible to arrange one or more than three sockets. The turntable is arranged on the fixed inner housing so that the individual socket devices are positioned exactly in this fixed inner housing in a manner corresponding to the corresponding openings in the fixed upper housing panel of the outer housing, so that the corresponding plugs or connections of the consumers in after opening by the turntable the sockets are insertable. Only the turntable fixed to the inner housing is rotated so that the openings are either covered or opened, and thus the connections, ie the sockets, are accessible from outside the fixed outer housing. When the sockets are not in use, the turntable can be actuated again and the openings of the fixed upper cover of the outer housing can be covered by changing the position of the turntable so that perforated covers formed on the turntable can retract or snap into the openings in the housing cover and can The surface of the socket element is thereby covered flat or flush.

The turntable can be rotated by different turning mechanisms. The rotating mechanisms can be: a) A fixed inner housing with a movable turntable according to the "ballpoint pen principle": The outer housing has two fixing domes on the inside, which are arranged so that they protrude into the inner housing and are screwed to it. A cavity is thus created between the inner housing and the outer housing, in which the turntable is movably arranged. The cover can also be attached to the base housing alternatively by means of screw connections which are provided radially on the circumference, or else by means of latching connections which are arranged between the cover and the base housing. The actuation is based on the "ballpoint pen principle", whereby an actuation device such as a button is designed. Several parts form the cover of the socket. The turntable is turned on the inside around a rotating axis. In the lower area of the socket element is a pressure or. Torsion spring arranged. The turntable is opened using the "ballpoint pen principle". In particular, three guide ribs act against special three recesses. This releases the turntable and pulls it down to unlock the sockets. The torsion spring acts on the axis of rotation with a certain torque. When you release the button, it moves towards the top of the outer case.

The compression spring strikes this upper area. Thus, the opening opens automatically with respect to the outer fixed housing and the socket is usable. The button protrudes to operate. The guide ribs are guided in the axis of rotation. Using the button, the turntable is turned and the torsion spring is preloaded. Because of the game, the button is moved down and the sockets are just covered again. In the interaction of the button with the guide ribs, the turntable functions upwards as a cover plate. Two springs can be formed. b) Helical gears: The turntable, which is arranged on the fixedly arranged inner housing, can be rotated by helical gears, for example two helical gears, and rotated for example> 90 ° by means of a rotating sleeve. By pressing an operating button, the turntable is released from its locking and the torsion spring, which is a connection to the rotating sleeve and the housing base under tension, can relax and rotate the rotating sleeve. An axially movable axis is arranged in the interior of the rotary sleeve and engages in the helical passages of the rotary sleeve via formations. The axially movable axis has an angular geometry in its interior, which protrudes from the housing base with a shape in the axis. Thus, the axis is pushed out of the base housing by rotating the rotary sleeve and brings the actuating button into a raised position. Likewise, the turntable is rotated from a closed to an open position with the rotation of the rotary sleeve, via drivers which are arranged at the end of the axis of rotation of the turntable and are in engagement with the rotary sleeve. By depressing the actuating button, the rotating sleeve is turned in the opposite direction of rotation via the movable axis, the torsion spring is pretensioned and the turntable is turned into the closed end position. A compression spring, which is arranged between the rotary sleeve and the turntable, presses the turntable into the locking position. The function of the spiral principle is that guide elements that engage in the Helical gears are located, convert an axial movement into a rotating movement. c) Alternative helical gears: Another type of helical gear principle is as described in b) initially, by pressing the actuation button down and releasing the locking of the turntable. The arrangement of the spiral gears in the rotating sleeve allows the turntable to be rotated into the open or closed position for covering.

In the spiral principle described, guide elements in the spiral paths of the link part or the rotation sleeve lead to rotation through an axial degree of freedom. This principle of spiral gears is also conceivable in that the link part or the rotary sleeve represent a partial area of the turntable or the actuating element. d) Electrical: The locking of the turntable is released by pressing the actuating button against the pressure of a compression spring which is arranged between the axle bearing of the turntable and an electric drive. When bottom dead center of the actuation button fes, a switch is actuated, which switches on the electric motor.

The electric motor turns the turntable to the open end position on the stop via an axis connection. When the turntable stops in the end position, the current increases, an overload switch sets the switch to zero, switches off the motor and reverses the polarity of the DC connections. The compression spring pushes the turntable into a locked position. The closing can be done in the same way by depressing the operating button as opening. The overload circuit is designed in such a way that it realizes the reversal of the direction of rotation on the one hand and on the other hand represents a pinch protection.

Another type of turntable control in electronic form is the use of an IC timer. If the locking position of the turntable is not reached within a specified time, the electronics will reverse the polarity of the DC connections, thereby reversing the direction of rotation and thus protecting against jamming. In all of the above-mentioned rotating mechanisms, a swiveling or rotatable device arranged inside the fixed outer housing, the turntable designed for this purpose is rotated, but not an upper cover of the fixed outer housing for covering or releasing the sockets or other electrical connections formed in the plug element . There is no need to loosen the top cover. It can thus prevent wear and tear or rattling of the cover within the insert opening. Alternatively, three springs can be arranged.

The socket or sockets arranged in the inner housing serve as electrical connectors between lines. They are used for the power supply. The wired power connector systems form the interface between electrical consumers and the power source supplying them. Devices with single-phase 230 volt or three-phase alternating current (three-phase current) are usually supplied with 400 volts via sockets, there are also standardized sockets for 12 V direct current. A Schuko (protective contact) household socket supplies a voltage of 230 V and up to 16 amps, i.e. up to a power of about 3680 watts. If this power is exceeded, the fuse usually switches off. A socket used for the power connection in the household is connected to a distributor of the building installation and usually carries one of three outer conductors, the neutral conductor and the protective conductor. Live sockets with a “female” design that have contact openings pointing inwards are also known as sockets or couplings. According to the invention or the like in the socket element on USB ports. to get integrated. Likewise, socket variants such as socket units of foreign design such as Italian, English, French or Swiss design can be integrated.

The coverable socket element is arranged in particular on a kitchen worktop or any other worktop, for example a desk or the like. The kitchen worktop designates the work surface in the kitchen. It is usually permanently installed and forms the horizontal end of fitted kitchens with a depth of approximately 60 cm and a working height of 85 cm to 110 cm. The kitchen worktop can also be used for so-called island kitchens. The cover according to the invention has the advantage that, by simple actuation, a secure, easy-to-use and trouble-free covering of the openings for sockets is achieved.

Further advantages and advantageous embodiments of the invention can be found in the following description of the figures, the drawings and the claims.

An exemplary embodiment of the solution according to the invention is explained in more detail below with reference to the attached schematic drawings. It shows:

1 shows an installation or socket element in an isometric view,

2 shows a basic housing in an isometric view,

3 shows individual parts of an embodiment a) in an exploded view,

4 shows the upper housing part in an isometric view,

5 shows the housing bottom in an isometric view,

6 shows a turntable in a top view,

7 shows the turntable in a sectional view,

8 shows an actuation button in an isometric view,

9 shows the rotating sleeve in an isometric view,

10 shows the socket element in a sectional view,

1 1 shows the individual parts of an embodiment b) in an exploded view,

12 shows the housing base in an isometric view,

13 shows the turntable in an isometric bottom view,

14 shows the turntable in a sectional view,

15 shows the actuation button in an isometric view, 16 shows a sliding body in an isometric view,

17 shows a central axis body in an isometric view,

18 shows an isometric view of a spiral backdrop,

19 shows the socket element as a complete assembly in a sectional view,

20 shows the complete assembly with an electric motor in an exploded view,

Fig. 21 shows the complete assembly with the electric motor in a bottom view and

22 shows the complete assembly with the electric motor in a sectional view.

In Fig. 1 an installation or socket element is shown as an overall assembly in an isometric view from the outside. The socket element is designed as a duplex in this embodiment. The socket element has a fixed base housing 01. The base housing 01 has a fixed upper housing panel, the upper housing part 10. An actuation button 45 is arranged approximately in the middle of the socket element.

Fig. 2 shows a base housing 01 for the embodiment a) descriptive. Socket units 02 are formed within the base housing 01. Switches and / or USB shapes can also be formed. At least one socket unit 02 is formed. Furthermore, a plug insertion aid 03 is formed. A turntable is provided in this basic housing 01. The turntable is arranged via a turntable holder 04. A support edge 05 is formed. Receiving openings 06 are formed for fastening the upper housing part 10. 3 to 10 show the individual components for the embodiment a) of the description. The actuation button 45 is designed as a push button. The housing base 20 is shown. A spring is positioned there, which is designed as a compression torsion spring 59. This compression torsion spring 59 is arranged within the base housing 01. A turntable 30 is placed on the compression torsion spring 59, on which the compression torsion spring 59 acts. A compression spring 58 acts on the turntable 30 from above. The compression spring 58 can be compressed with the actuating button 45 via a rotary sleeve 50. The upper housing part 10 is arranged on the upper side.

FIG. 4 shows the upper housing part 10 with the passage openings 11. The fastening domes 12 described under FIG. 3 are shown. The actuating device, that is to say the actuating button 45 from FIG. 3, has a guide 13 and a stop 14. Radial position securing ribs 15 are also formed.

5 shows the housing base 20 with the rotary compression spring receptacle 21.

6, the turntable 30 is shown. The turntable 30 has passage openings 31. Pinholes 32 are formed. The pinhole 32 can NEN from the openings of the upper housing part 10 and rotated again to the openings openings. Position securing grooves 33 are arranged opposite one another.

Fig. 7 shows the turntable 30 with an axis enveloping body 34 and a pressure surface 35 for the axial deflection. A control link 36 is formed. Numeral 37 denotes an axial stop position. A passage channel 38 is also formed. A torsion spring receptacle 40 is formed in the direction of the compression torsion spring 59.

8 shows the actuation button 45 with control segments 46, a driver flank 47 for the compression spring 58, and with a stop plane 48.

9 shows the rotary sleeve 50 with guide ribs 51, guide pin 52, a control segment receptacle 53 and a guide bore 54. Fig. 10 shows the complete assembly in section. The compression spring 58 and the compression torsion spring 59 are shown in particular. Force is exerted on the compression spring 58 via the actuation button 45. A rotary sleeve guide 49 is formed within the axis envelope body 34. A support surface 41 is formed for the rotary sleeve 50. By actuating the turntable 30 can be set in motion and rotated relative to the upper housing part 10 who the.

In the second exemplary embodiment b) the movable turntable 30 is thus arranged, which is actuated according to the “ballpoint pen principle”. The base housing 01 has, for example, in particular two fastening domes 12 on the inside, which are arranged such that they protrude into the inner housing 07 and are screwed to it. A cavity is thus formed between the inner housing 07 and the base housing 01, in which the turntable 30 is movably arranged. The actuation takes place according to the “ballpoint pen principle”, an actuating device such as the actuating button 45 being designed. Several parts form the cover of the socket. The turntable 30 is rotated on the inside about an axis of rotation. In the lower area of the socket element, the pressure or. Torsion spring 59 arranged. The turntable 30 is opened by the "ballpoint pen principle". In particular, three guide ribs 51 act against, in particular, three cutouts. This releases the turntable 30 and pulls it downwards to unlock the sockets. The torsion spring 59 acts on the axis of rotation with a certain torque. When the actuating button 45 is released, it moves in the direction of the upper side of the outer housing 01. The compression spring 58 strikes this upper region. Thus, the opening automatically opens with respect to the outer fixed housing 01 and the socket is usable. The actuation button 45 stands out for actuation - as with a ballpoint pen. The guide ribs 51 are guided in the axis of rotation. By means of the actuation button 45, the turntable 30 is rotated and the torsion spring 58 is biased. Due to the game, the operating button 45 is moved down and the sockets are just covered again. In the interaction of the operating button 45 with the guide ribs 51, the turntable 30 is performed in its function as a cover plate upwards. Two springs 58, 59 can be formed. The turntable 30 has openings which correspond to the passage openings of the upper housing part 10 in such a way that they are actuation of the operating button 45 can be rotated into an open or a closed position.

11 to 19 show the individual parts of exemplary embodiment c) from the description in an exploded view. A spiral link 80 is arranged on the housing base 20. A torsion spring 92 is attached to this. This is acted upon by a compression spring 91 of the actuating button 60. A center axle 74 is arranged thereon. A sliding body 65 is arranged thereon. The operating button 60 can slide along this. The actuation button 60 is used to actuate the turntable 30 or its axle casing 34. The socket element is covered by the upper housing part 10, which has fastening domes 12.

12 shows the housing base 20 with a spiral link receptacle 23, a vertical inner axis guide 24 and a torsion spring receptacle 25.

13 shows the turntable 30. Passage openings 31 for releasing the sockets or USB or other connections are formed. Driver formings 44 are formed on the axis enveloping body 34. Position securing grooves 33 are introduced on the rotary disk 30.

14 shows the turntable 30. A guide surface 41 for the actuation button 60 is formed. The guide surfaces 41 are limited by the pressure surface 42 for the axial deflection. The driver formations 44 are visible in section.

15 shows the actuation button 60 with a compression spring guide 61, the receptacle for the sliding body 62 and a recess for the latching of a sliding body 65, cf. Fig. 16.

16 shows the sliding body 65. A receptacle 66 for the actuation button 60 and locking lugs 67 for the actuation button 60 are formed. Guide ribs 68 are also formed. Also shown is the impact level 69 for the upper housing part 10 and the stop level 70 for the center axis 74th 17 shows the central axle 74 with its locking geometry 75. A cylindrical guide 76 is formed in the sliding body 65 and a further cylindrical guide 77 is formed in the spiral link 80. The central axle 74 has a pin shape 78 and the inner axle guide 79.

18 shows the spiral link 80 with a rotation guide wall 81, a driver receptacle 82, a center axle guide 83, a spiral guide 84, a torsion spring receptacle 85 and a compression spring stop 86 and a torsion spring guide 87.

19 shows the spiral link 80 in a complete view with the spiral link 80, as well as with a compression spring 90 for the actuation button 60, a compression spring 91 for the turntable 30 and a torsion spring 92 for the turntable 30.

The turntable 30 is rotated via helical gears. The turntable 30, which is arranged, for example, on a fixedly arranged inner housing or - as shown - within the base housing 01 with a play for freedom of movement, can be rotated by means of a rotation sleeve around spiral gears of the spiral backdrop 80, for example two spiral gears, and rotated for example> 90 ° become. By pressing the actuating button 60, the rotary disc 30 is released from its locking and the torsion spring 92, which provides a connection with preload with the rotating sleeve and the housing base 20, can relax and rotate the rotating sleeve. Inside the Rotati onshülse an axially movable axis is formed, which engage in formations in the spiral gears of the rotation sleeve. The axially movable axis has an angular geometry in its interior, which projects in a complementary manner from the housing base 20 into the axis. Thus, the axis is pushed out of the base housing 01 by rotation of the rotary sleeve and brings the actuating button 60 into a raised position. Likewise, the turntable 30 is rotated from a closed to an open position with the rotation of the rotation sleeve, via drivers 09, which are arranged at the end of the axis of rotation of the turntable 30 and are in engagement with the rotation sleeve. By depressing the operating button 60, the rotary sleeve is rotated in the opposite direction of rotation via the movable axis, the rotary the 30 biased and the torsion spring 92 rotated to the closed end position. A compression spring 91, which is arranged between the rotary sleeve and the turntable 30, presses the turntable 30 into the locking position. The turntable 30 has openings which correspond to the passage openings of the upper housing part 10 in such a way that it can be turned into an open or a closed position by actuating the actuating button 60.

20 to 22 show the configuration with an electric motor.

20 shows the housing base 20. An electric motor 100 is arranged thereon within the base housing 01. A control board 105 with a transformer and a switch 104 are arranged. A compression spring 103 is arranged on the electric motor 100. A running disk 102 is arranged between the compression spring 103 and the turntable 30. An actuating button 101 can be operated between the running disk 102 and the upper housing part 10 from the top of the upper housing part 10.

21 shows the switch 104 for the electric motor 100 and the control board 105 with the transformer.

22 shows the electric motor 100 with the actuating button 101, the running disk 102, the compression spring 103, the switch 104, the control board 105 with the transformer and the upper cover, the upper housing part 10.

The locking of the turntable 30 is released by depressing the actuating button 101 against the pressure of the compression spring 90, which is arranged between the axle bearing of the turntable 30 and an electric drive, the electric motor 100. When the bottom dead center of the actuation button 101 is reached, the switch 104 is actuated, which switches on the electric motor 100. The electric motor 100 rotates the rotary disc 30 into the open end position to the stop via an axis connection. When the turntable 30 stops in the end position, the current increases, an overload switch sets the switch 104 to zero, switches off the electric motor 100 and reverses the polarity of the DC connections. The compression spring 90 presses the turntable 30 into a locked position. The closing can take place in the same way as the opening of the actuation button 101. The overload circuit is designed so that on the one hand it realizes the reversal of the direction of rotation and on the other hand it represents a pinch protection.

All of the features shown in the description, the following claims and the drawings can be essential to the invention both individually and in any combination with one another.

Reference symbol list

01 basic housing

02 socket unit

03 Plug insertion aid

04 Recording turntable

05 support edge

06 Receptacle opening of the housing attachment

10 upper housing part

1 1 through openings Upper housing part

12 fortification dome

13 Actuation button guide

14 Actuation button stop

15 radial position securing ribs

20 case back

21 Torsion spring mounting

30 turntable

31 through openings turntable

32 pinholes

33 position securing grooves

34 axle envelopes

35 Axial deflection pressure surface

36 control link

37 axial stop position

38 culvert

39 compression spring mount

40 Torsion spring seat turntable

41 contact surface rotating sleeve

42 Axial deflection pressure surface

43 axial guide groove 44 Driver formation

45 operating button

46 tax segment

47 drive flank

48 stop plane

49 rotating sleeve guide

50 rotating sleeve

51 guide rib

52 guide pins

53 Control segment admission

54 guide bore

58 compression spring

59 compression torsion spring

60 operating button

61 Pressure spring guide

62 Slider body

63 recess detent sliding body

65 sliding bodies

66 Actuation button holder

67 Latch actuation button

68 guide rib

69 Top part of the housing

70 center axis stop plane

74 center axis

75 center geometry

76 cylindrical guide in the sliding body

77 cylindrical guide in spiral setting

78 Pin formation

79 inner axle guide 80 spiral backdrop

81 rotating guide wall

82 Carrier mount

83 Center axis guide 84 Spiral guide

85 torsion spring mounting

86 compression spring stop

87 Torsion spring guide

Compression spring actuation button

91 compression spring turntable 30

92 torsion spring

100 electric motor

101 operating button

102 wheel

103 compression spring

104 switches

105 control board with transformer

Claims

Expectations

1. Installation element for electrical connections with a base housing (01), an upper housing part (10) having through openings (11), at least one socket unit (02) and an operating device (45, 60, 101), characterized in that

the upper housing part (10) is fixedly connected to the base housing (01) and a rotatable device (30) is arranged within the base housing (01) such that the rotatable device (30) is actuated by actuating the operating device (45, 60, 101) in an open position or a closed position for the passage openings (11) for releasing electrical connections.

2. Installation element according to claim 1, characterized in that the rotatable device (30) is designed as a turntable (30).

3. Installation element according to one of the preceding claims, characterized in that the operating device (45, 60, 101) is an actuating button (45, 60, 101).

4. Installation element according to one of the preceding claims, characterized in that the rotatable device (30) has perforated screens (32) which are arranged such that the opening in the open position and the closing in the closed position of socket units (02) by the change the position of the rotatable device (30) and thus the pinhole (32) relative to the passage openings (11) of the upper housing part (10) for the socket units (02), with the pinhole (32) in the passage openings (11) for closing Upper part of the housing (10) can be retracted and so the socket unit (02) is just covered.

5. Installation element according to one of the preceding claims, characterized in that a cavity is formed between the upper housing part (10) and the base housing (01), in which the rotatable device (30) is movably arranged.

6. Installation element according to one of the preceding claims, characterized in that a compression torsion spring (59) is arranged in a region of the installation element, and that by actuating the operating device (45) via guide ribs (51) guided in an axis of rotation, the rotatable device (30) is rotatable from a position for opening or closing the passage openings (11).

7. Installation element according to claim 6, characterized in that three Füh approximately ribs (51) act against three recesses to free the rotatable A device (30).

8. Installation element according to one of claims 1 to 5, characterized in that guide elements, which are in the engagement of spiral gears, umwan an axial movement in a rotating movement.

9. Installation element according to claim 8, characterized in that the rotatable device (30) can be rotated by actuating the operating device (60) via the helical gears of a helical link (80) and the position of the rotatable device (30) by a compression spring (91) and / or a torsion spring (92) can be changed into an open or a closed position.

10. Installation element according to claim 8, characterized in that the rotatable device (30) is rotatable by means of a rotary sleeve around spiral gears of the Wen delkulisse (80).

1 1. Installation element according to one of claims 8 to 10, characterized in that the spiral gears of the spiral link (80) are arranged in the device (45).

12. Installation element according to one of claims 8 to 10, characterized in that the spiral gears of the spiral link (80) are arranged within the rotary device (30).

13. Installation element according to one of claims 1 to 5, characterized in that the rotatable device (30) can be rotated by actuating the operating device (101) driven by an electric motor (100) via an axle connection.

14. Installation element according to claim 13, characterized in that the release of the locking of the rotatable device (30) is carried out by depressing the operating device (101) against the pressure of a compression spring (90) which between the axle bearing of the rotatable device (30) and the electric motor (100) is arranged.

15. Installation element according to one of claims 13 or 14, characterized in that when the bottom dead center of the operating device (101) is reached, a switch (104) for switching on the electric motor (100) can be actuated, and that the rotatable device (30) with the Electric motor (100) can be turned into an open end position against the stop.

16. Installation element according to claim 15, characterized in that when the rotatable device (30) stops in the end position, the current increases, an overload circuit setting the switch (104) to zero, so that the electric motor (100) is switched off and the DC connections are reversed are so that the compression spring (90) fixes the rotatable device (30) in a locked position.

17. Installation element according to one of the preceding claims 13 to 16, characterized in that the electric motor is rotatable through 360 ° and the end position positions of the rotatable device (30) are controlled via a cam with suitable recesses and the overload circuit when the end position is not reached within one predetermined time unit is triggered by an electronic timer.

18. Installation element according to one of the preceding claims, characterized in that the installation element is arranged integrated in a kitchen worktop or office furniture.