DE102021103727B3 - Control unit for electrical devices in building management systems - Google Patents

Abstract

An operating unit for electrical building system technology devices is proposed with a housing 1 in which a voltage supply 2, further functional elements and an interface 3 suitable for the wireless transmission of operating variables are arranged in order to be able to influence at least one associated electrical device, wherein At least one acceleration sensor 5 provided with evaluation electronics 4 is arranged in the housing 1 for deriving the operating variables, which acceleration sensor uses at least measured values of the earth's gravitational field as a reference for deriving operating variables. For the purpose of creating a control unit that can be operated both mobile and localized, the risk of losing the control unit is reduced to a minimum and the control unit can also be easily integrated into existing, commercially available function modules, the housing 1 a coupling section K for releasably rotatable coupling to an associated functional module F having a pot-shaped depression V.

Description

The present invention is based on an operating unit designed according to the preamble of the main claim.

Control units are usually intended to influence a large number of electrical actuators installed in buildings (blind drives, lighting devices, sensors, monitors, etc.) as required. A wide variety of operating units such as switches, buttons, dimmers, etc. have become known for this purpose. For influencing, the user usually sets operating parameters on the operating units, which are transmitted to the assigned actuators for influencing them. The transmission can be wired or wireless z. B. be done by radio. For proper installation on or in a wall, such electrical installation devices often have a frame-like or plate-shaped support. Such electrical installation devices can thus be easily fastened both in or on an installation box or directly on a wall.

It is also known from other generally customary applications to provide local rotary actuators for operation, for example in order to implement a rotary dimmer. Operating units designed in this way usually consist of at least one stationary part and several functional components that are movably operatively connected to one another, which on the one hand limits mechanical degrees of freedom and on the other hand causes wear on the components that are movably operatively connected to one another.

In EP 2 511 890 A2 the concept of mobile operating units for electrical devices in building system technology, from which this invention is also based, has been described in detail. A voltage supply, several further functional elements and an interface suitable for the wireless transmission of operating parameters are arranged in the housing of such an operating unit in order to be able to influence at least one associated electrical device. To derive the operating parameters in the housing, at least one acceleration sensor equipped with evaluation electronics - including one that determines the inclination - is used, which uses at least measured values of the earth's gravitational field as a reference for deriving operating parameters. In particular, such a mobile operating unit allows not only the simple switching of light, but also the dimming level of lighting devices to be influenced by the acceleration sensor registering a rotation. Adjustment of blind drives is also possible.

In the case of previously known mobile operating units, it has turned out to be disadvantageous for the user in practice that this mobile operating unit can be lost or the user forgets where the operating unit is located. In contrast, local or stationary control units regularly attached to a wall have the advantage that they cannot be lost, but they do not offer the ease of use of a mobile control unit.

Based on operating units designed in this way, the present invention is based on the object of creating an operating unit and an arrangement comprising such an operating unit and a functional module, wherein the operating unit can be operated both mobile and localized, reducing the risk of losing the operating unit to a minimum and, moreover, a simple integration of the control unit into existing, commercially available function modules can be implemented.

Furthermore, the present invention is based on the object of providing two methods for operating electrical devices in building system technology, by means of which the above advantages are achieved.

According to the invention, this object is achieved by the features specified in the main claim and in the subordinate claims.

The control unit according to the invention for electrical devices in building system technology has a housing in which a voltage supply, further functional elements and an interface suitable for wireless transmission of control parameters are arranged in order to be able to influence at least one associated electrical device. In this case, at least one acceleration sensor provided with evaluation electronics is used in the housing to derive the operating parameters. This acceleration sensor uses at least measured values of the earth's gravitational field as a reference for deriving operating parameters.

It is particularly advantageous in this operating unit according to the invention that its housing has a coupling section for releasable, rotatable coupling to an associated functional module having a cup-shaped recess. Such a coupling section makes it possible for the operating unit to be releasably and rotatably coupled to a functional module having a cup-shaped recess. This coupling is of a purely mechanical nature. Controlling the electrical actuators take place wirelessly via the interface of the operating unit, which is suitable for the transmission of operating parameters. Due to the mechanical coupling, the control unit can be used both mobile and localized - i.e. inserted into the cup-shaped recess of the function module. This advantageously ensures that the control unit can be brought to a well-defined and retrievable location after its mobile use or purely local use of the control unit, for example as a switch and / or rotatable dimmer, is possible in the function module. This reduces the risk of losing the control unit to a minimum. Furthermore, the mechanical coupling described above allows a simple and, due to the engagement of the coupling section in the cup-shaped recess, a visually appealing integration of the operating unit into existing, commercially available functional modules. Such function modules (for example according to EP 3 503 309 B1 ) have long been known and are enjoying growing popularity in numerous private and commercial buildings thanks to their enormous flexibility and compatibility with different releasable and rotatably connectable consumers. The mobile operating unit (local use) inserted in the cup-shaped recess of the function module not only creates a low installation height but also a comfortable operating situation for the user, as the operating unit used differs only slightly in its functionality from conventional rotary dimmers or switches . In this way, due to its coupling section, the mobile operating unit according to the invention can be used easily and inexpensively in the above-described functional modules - no separate functional module has to be procured, but the functional modules that are already available for various applications can be used.

The advantages described above are achieved in particular in the arrangement according to the invention comprising an operating unit according to the invention and a functional module. The functional module has a pot-shaped recess in which an electrical circuit board provided with several circularly arranged electrical sliding tracks is preferably arranged, the coupling section of the operating unit being releasably and rotatably coupled to the one pot-shaped recess of the functional module. The functional module basically serves for the rotatable and releasable coupling of electrical consumers, for example lamps, by inserting the cup-shaped recess of the functional module, in which an electrical circuit board provided with several circularly arranged electrical sliding tracks is arranged, which sliding tracks are electrically connected to a coupled electrical consumer. The advantage of the control unit according to the invention is that the control unit - although it is not a consumer that can be electrically coupled to the function module, for example a rotatable lamp - the coupling section, due to its shape, allows coupling with a cup-shaped recess having function modules that are already widespread on the market.

• 1: prinziphaft eine solche Bedieneinheit räumlich von oben betrachtet;
• 2: prinziphaft eine solche Bedieneinheit räumlich von unten betrachtet;
• 3: prinziphaft das Innere einer solchen Bedieneinheit;
• 4: prinziphaft eine solche Bedieneinheit mit einem das Innere der Bedieneinheit verschließenden Deckel;
• 5: prinziphaft eine in ein eine topfförmige Vertiefung aufweisendes Funktionsmodul eingesetzte Bedieneinheit im Querschnitt;
• 6: prinziphaft eine in ein eine topfförmige Vertiefung aufweisendes Funktionsmodul eingesetzte Bedieneinheit in der Draufsicht und
• 7: prinziphaft ein zur Aufnahme einer erfindungsgemäßen Bedieneinheit geeignetes Funktionsmodul mit einem an das Funktionsmodul angeschlossenen Einsatz-Funktionsmodul.

Further advantageous configurations of the subject matter according to the invention are specified in the subclaims. The invention will be explained in more detail in principle on the basis of several exemplary embodiments. Show:

• 1 : in principle, such a control unit viewed spatially from above;
• 2 : in principle, such a control unit viewed spatially from below;
• 3 : in principle the interior of such a control unit;
• 4th : In principle, such an operating unit with a cover that closes the interior of the operating unit;
• 5 : In principle, an operating unit inserted into a functional module having a cup-shaped recess in cross section;
• 6th : In principle, an operating unit inserted into a function module having a cup-shaped recess in the top view and
• 7th : in principle a functional module suitable for receiving an operating unit according to the invention with an insert functional module connected to the functional module.

In the various figures, the same parts are always provided with the same reference numerals and are therefore usually only named or mentioned once.

A control unit according to the invention B. has a housing 1 , in which a power supply 2 and an interface provided for the wireless transmission of operating parameters 3 are arranged. To derive operating parameters is in the housing 1 also one with evaluation electronics 4th provided acceleration sensor 5 arranged, which uses measured values of the earth's gravitational field as a reference for the derivation of operating parameters. It is also in the housing 1 a circuit board L. arranged with the power supply having an energy store 2 is in connection and on which the interface provided for wireless transmission of operating parameters or information 3 , the evaluation electronics 4th and the accelerometer 5 are arranged. The evaluation electronics 4th contains a microcontroller that also on the circuit board L. is arranged. It is also through the accelerometer 5 the inclination of the control unit was also determined.

1 shows in particular the housing 1 the control unit B. , which appears cylindrical in plan view (this can, however, also have other shapes such as a cuboid shape, for example). On one of its two end faces there are two switching elements designed as capacitive buttons 6a present that is functional with the one in the housing 1 arranged printed circuit board L. keep in touch. At one point on the housing 1 An end surface and the adjacent lateral surface can be provided with a flattening (not shown) in order to be able to place the operating device in a simple and convenient manner, for example on a table, in a defined rest position. The location of the rest position is also determined by the acceleration sensor 5 determined because this is suitable for detecting tilting of the operating unit from one of the three axes of rotation perpendicular to the acceleration due to gravity. If the operating device is motionless in one place for a certain period of time, the operating mode can be automatically switched to an energy-saving stand-by mode.

In 2 the control unit is in accordance with 1 shown spatially viewed from below, in particular the coupling section K of the housing 1 for releasable, rotatable coupling to an associated cup-shaped recess V having functional module F. is shown. Here is the coupling section K essentially cylindrical. By such a shape of the coupling section K both the rotatability, in particular for rotary dimming and blind applications, as well as due to the support of the outer surface of the coupling section is relevant K on the side wall of the cup-shaped recess V of the assigned function module F. ensures a good user experience. The user experience can be further improved if the coupling section K is designed so that it is positively locked in and / or non-positively on the cup-shaped recess V of the function module F. is held.

3 gives an insight into the inside of the case 1 the control unit according to the invention B. , being a recording room A. for electrical / electronic components such as power supply 2 , Interface 3 , Evaluation electronics 4th , Accelerometer 5 or circuit board L. provided. Furthermore, the interior of the housing 1 Holding means H to, for example, one in the recording room A. recorded circuit board L. even when the control unit is moved B. hold in position.

As in 4th is shown, the recording room A. through a lid D. to be covered. Furthermore, the cover D. elements 6b to interact with the switching elements 6a on, with an actuation of the switching elements 6a about the elements 6b to the one behind the lid in the receiving space A. arranged circuit board L. is passed on.

In 5 is one in a cup-shaped recess V having functional module F. used control unit B. shown in cross section. It is provided that the control unit B. rotatable and releasable via their coupling section K in the recess V is stored. Here is the coupling section K designed so that it is positively locked in and / or non-positively on the cup-shaped recess V of the function module F. is held. The functional module F. a permanent magnet (not shown).

Inside the case 1 the control unit is the circuit board L. arranged, which on the one hand with the acceleration sensor 5 and associated evaluation electronics 4th , and which on the other hand with the power supply 2 is provided. Also is an element M. made of ferromagnetic material in the housing 1 housed to ensure safe storage of the control unit B. on the permanent magnet of the function module F. to guarantee. The control unit is located B. in the cup-shaped recess V , this position is used as a rest position by the acceleration sensor 5 determined and if this position is maintained for a certain period of time, the operating mode is automatically switched to an energy-saving stand-by mode.

In the in 5 shown inexpensive to manufacture and optically elegant design of the control unit according to the invention B. is the entire case 1 including the coupling section K is substantially cylindrical, the diameter D (K) of the coupling section smaller than the diameter D (V) of the associated, a cup-shaped recess V having function module ( F. ) is.

6th shows in principle a cup-shaped recess in a V having functional module F. used control unit B. in top view. In such an arrangement, the mobile operating unit B. can be used like a conventional rotary dimmer, using the accelerometer 5 it is determined in which direction the control unit B. has been adjusted or twisted. In the present case it is the control unit B. intended to influence the degree of dimming of lighting equipment. Rotation in one or the other direction means in this context that the lighting device can be set from its off state with appropriate intermediate values to its maximum brightness or can be set back to its off state from its maximum brightness with appropriate intermediate values . It is advantageous that the mobile control unit B. also locally in a function module F. can be used. This ensures that the control unit B. can be brought to a well-defined and retrievable location after their mobile use or purely local use of the control unit B. , for example as a switch and / or rotatable dimmer, in the function module F. becomes possible. This reduces the risk of losing the control unit B. reduced to a minimum. Furthermore, the mechanical coupling of the control unit allows B. with a function module F. a simple one and due to the engagement of the coupling section K into the cup-shaped recess V Visually appealing integration of the control unit that requires a low installation height B. in existing, commercially available function modules F. which thus has a further function - namely the mechanical coupling of an operating unit according to the invention B. - can be supplied.

In 7th is in principle one for receiving an operating unit according to the invention B. suitable function module F. with one to the function module F. connected insert function module E. shown. The functional module F. a cup-shaped depression V on, in which preferably one with several circularly arranged electrical sliding tracks S. provided electrical circuit board is arranged. This allows the function module F. basically the coupling of electrical consumers, such as rotating lamps. The coupling section can advantageously K the control unit B. mechanically with the cup-shaped recess V be brought into engagement to the control unit according to the invention B. in the function module F. to be used, alternatively the function module F. can also be designed as a compact device for connection to an installation system of a building (not shown).

That to the operational function module E. connected function module F. includes a cup-shaped recess V for coupling the control unit according to the invention B. or electrical consumers, an electrical circuit board, concentric electrical sliding tracks S. , one of a design frame R. surrounded central piece Z , a screw 7th for fixation, as well as a locking device Y .

The functional module advantageously has F. on the insert function module E. facing side on a receiving pocket in which a permanent magnet is fixed, which with the magnetic element ( M. ) of the control unit B. can interact holding to the force-fit connection of the control unit B. to the function module F. to ensure. It is particularly advantageous if the two magnetic elements E. and P are arranged in such a way, for example concentrically, that the operating unit is automatically located in the cup-shaped recess V of the function module F. centrally aligns. This enables a particularly uniform operating sensation locally in the function module F. used mobile control unit B. be ensured without an extremely precise dimension for the production to achieve an optimal form fit between the coupling section K and cup-shaped recess V to have to adhere to.

List of reference symbols

1

casing

2

Power supply

3

interface

4th

Evaluation electronics

5

Accelerometer

6a

Switching element

6b

element

7th

screw

A.

Recording room

B.

Control unit

D.

lid

D (K)

Diameter of the coupling section

D (V)

Diameter of the cup-shaped recess

E.

Insert function module

F.

Function module

I.

Installation system

H

Holding means

K

Coupling section

L.

Circuit board

M.

magnetic element

R.

Design frame

S.

Grinding tracks

V

cup-shaped recess

Y

Locking device

Z

Center piece

Claims (17)

Control unit for electrical devices in building system technology with a housing (1) in which a voltage supply (2), further functional elements and one for the wireless transmission of Interface (3) suitable for operating parameters are arranged in order to be able to influence at least one associated electrical device, with at least one acceleration sensor (5) provided with evaluation electronics (4) being arranged in the housing (1) to derive the operating parameters at least uses measured values of the earth's gravitational field as a reference for deriving operating parameters, characterized in that the housing (1) has a coupling section (K) for releasable, rotatable coupling to an associated functional module (F) having a cup-shaped recess (V). Control unit after Claim 1 , characterized in that the coupling section (K) is designed so that it is held positively in and / or non-positively on the cup-shaped recess (V) of the functional module (F). Control unit according to one of the Claims 1 or 2 , characterized in that the operating unit (B) has an element (M) made of ferromagnetic material for non-positive coupling to the functional module (F) which has a permanent magnet. Control unit according to one of the Claims 1 until 3 , characterized in that the operating unit (B) controls the dimming level of lighting devices. Control unit according to one of the Claims 1 until 4th , characterized in that the operating unit (B) has an essentially cylindrical coupling section (K). Control unit according to one of the Claims 1 until 5 , characterized in that the operating unit (B) has at least one switching element (6), in particular a capacitive and / or a manual switching element. Control unit according to one of the Claims 1 until 6th , characterized in that at least one inclination sensor is accommodated in the housing (1) of the operating unit (B). Control unit according to one of the Claims 1 until 7th , characterized in that at least one energy store is accommodated in the housing (1) of the operating unit (B) for supplying energy. Control unit according to one of the Claims 1 until 8th , characterized in that at least one outer surface of the housing (1) is provided with a display. Control unit according to one of the Claims 1 until 9 , characterized in that the entire housing (1) including the coupling section (K) is essentially cylindrical, the diameter D (K) being smaller than the diameter D (V) of the assigned functional module ( F) is. Arrangement comprising an operating unit according to one of the Claims 1 until 10 and a function module (F), the function module (F) having a cup-shaped recess (V), characterized in that the coupling section (K) of the operating unit (B) can be releasably and rotatably attached to the one cup-shaped recess (V) of the function module (F ) is coupled. Arrangement according to Claim 11 characterized in that the functional module (F) is designed as a compact device for connection to an installation system (I) of a building. Arrangement according to Claim 11 , characterized in that the functional module (F) is connected to an insert functional module (E) which is provided on the rear with connecting elements for connection to an installation system (I) of a building by the insert functional module (E) on the front with an electrical Connector part is provided, which electrical connector part is provided for connection to the functional module (F) to be arranged on the wall. Arrangement according to one of the Claims 11 until 13th , characterized in that the coupling section (K) of the operating unit (B) is held positively in and / or non-positively on the cup-shaped recess (V) of the functional module (A). Arrangement according to one of the Claims 11 , 13th or 14th , characterized in that the functional module (F) on the side facing the insert functional module (E) has a receiving pocket in which a coupling magnet is fixed, which can interact with the magnetic element (M) of the operating unit (B) in a holding manner. A method for operating electrical devices in building system technology, comprising the steps: - Operating the operating unit (B) in accordance with the Claims 1 until 10 for the operation of electrical devices of the building system technology in the arrangement according to Claims 11 until 13th . A method for operating electrical devices in building system technology, comprising the steps of: removing the operating unit (B) from the cup-shaped recess (V) of the functional module (F) according to the arrangement according to FIGS Claims 11 until 15th , - Operate the control unit (B) according to the Claims 1 until 10 for operating electrical devices in building system technology and - Insertion of the control unit (B) in the cup-shaped recess (V) of the function module (F) according to the arrangement according to the Claims 11 until 15th .

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