DE102016110603A1 - Remote control for controlling at least one electric power controller - Google Patents

Abstract

The invention relates to a remote control (10) for controlling at least one electric power controller (101, 102, 103), with an adjustment system (12) for setting a desired value and with a communication system (14) for wireless transmission of the setpoint to the at least one power controller (10). 101, 102, 103). In order to further develop the remote control (10) in such a way that it has easier handling, it is proposed according to the invention that the adjustment system (12) has an actuating member (20) which is rotatable manually about a rotation axis (26), the setpoint value being dependent on the rotational movement of the actuator Actuator (20) is adjustable.

Description

The invention relates to a remote control for controlling at least one electric power controller, with a setting system for setting a desired value and with a communication system for wireless transmission of the setpoint to the at least one power controller.

With the help of electrical power controller, an electrical load can be controlled. Electrical power controllers are used, for example, to control the supply voltage of an electrical device, in particular a lighting device. They often have a phase control or a phase control section. Such power controllers are often also referred to as dimmers, with the aid of which the brightness of lighting devices can be varied.

Power controllers are known which comprise a manually operable actuator for setting a desired value. The desired value may, for example, correspond to a desired degree of dimming, and the actuating member may be positioned directly on a housing of the power controller. The actuator can be coupled for example with a rotary potentiometer or a sliding potentiometer.

It has also been proposed to control an electric power controller by means of a remote control, wherein the remote control has a setting system for setting a desired value for the power controller and also a communication system, with the aid of which the desired value can be transmitted to the power controller. The transmission can be conducted by line, but it has already been proposed remote controls for electric power controller, in which the transmission of the setpoints via a radio link.

For setting desired values, remote controls for power controllers usually have an actuator in the form of a button, wherein a setpoint can be set by a touch operation. In particular, a rocker switch with two touch surfaces can be used, wherein a setpoint can be continuously increased or reduced by more or less long operation of one of the two touch surfaces.

However, the use of an actuator in the form of a button has the disadvantage that the user can not recognize a change in the setpoint directly on the actuator at a touch operation and intuitive handling is rather difficult. For example, when changing the degree of brightness of a lighting device during the touch operation, the user must simultaneously observe the degree of brightness of the lighting device.

Object of the present invention is to develop a remote control of the type mentioned in such a way that it has a simpler handling.

This object is achieved in a remote control of the generic type according to the invention that the adjustment has a manually rotatable about a rotation axis actuator, wherein a desired value in dependence on the rotational movement of the actuator is adjustable.

By means of the remote control according to the invention, setpoint values can be wirelessly transmitted to at least one electric power controller, in particular to at least one dimmer, with the aid of which the brightness of a lighting device can be varied. In order to make it easier for the user to set a desired setpoint, the adjustment system of the remote control according to the invention comprises an actuator rotatable about an axis of rotation. This allows an intuitive operation, wherein depending on a rotational movement of the actuating member, a desired value can be set and changed. The setpoint can be transmitted wirelessly to at least one electric power controller. Based on the change in the angular position of the rotary actuator, the user can immediately detect a change in the setpoint. The diameter of the actuator can be ergonomically selected so that the user can easily grasp the actuator and rotate about the axis of rotation.

It is advantageous if the setpoint value can be transmitted to a plurality of electric power controllers by means of the communication system of the remote control. This allows the user to wirelessly transmit setpoint values by rotating a single actuator to a plurality of electric power controllers.

By turning the actuator, the user can change a setpoint virtually infinitely.

The wireless transmission of a desired value from the remote control to the at least one electric power controller can take place for example via an infrared connection or via an ultrasonic connection.

It is advantageous if the communication system has a radio transmitter. This allows To transmit setpoints from the remote control via a radio link to the at least one electric power controller.

The setpoint values can be incorporated into a radio telegram which is transmitted by the radio transmitter to a corresponding radio receiver of the at least one electric power controller. In addition to a desired desired value, the radio telegram may also contain further information, for example control commands for the electric power controllers and / or information about the radio transmitter and / or the radio receiver (s).

The adjustment system of the radio remote control according to the invention has an incremental encoder in an advantageous embodiment. Such encoders are also referred to as incremental encoders or incremental encoders and are known to those skilled in the art. They have sensors with which a rotation of the actuator can be detected about the axis of rotation.

In a particularly advantageous embodiment of the invention, the adjustment system on a button, wherein the communication system by pressing the button to be transmitted setpoint and / or a control command to be transmitted is provided. The provision of the button gives the user the ability to transmit a predetermined setpoint and / or a predetermined control command to the at least one electric power controller by a touch operation. It can be provided, for example, that a predetermined control command is configured as a switch-on or switch-off command, so that the at least one electric power controller can be switched on or off by a tactile actuation.

It is particularly advantageous if a switch-on command and a switch-on setpoint can be transmitted by a touch operation, so that the at least one power controller can be switched on by a touch operation and supplied with a switch-on setpoint to be taken after the switch-on process. This can be provided in particular, after a tactile operation by turning the actuator of the electrical power controller initially occupied switching-on value depending on the direction of rotation of the actuator and / or the rotational speed can be changed.

It is advantageous if by pressing the button a predetermined setpoint value, in particular a predetermined dimming value to which at least one electric power controller is wirelessly transferable and / or for example a command to turn on or off the at least one electric power controller.

It is particularly advantageous if the control system can be provided with different control commands and / or different setpoints by successive actuations of the pushbutton. For example, it may be provided that the switching system can be provided with a switch-on command for switching on the at least one power controller assigned to the remote control, and that a switch-off command can be provided to the communication system for switching off the at least one power controller by a second touch operation.

It can be provided that a first setpoint value, in particular a first dimming value, can be predetermined to the communication system by a first actuation of the button, and that a second setpoint value, in particular a second dimming value, can be predetermined by a subsequent second actuation of the button. The user thus has the option of transmitting different setpoint values to the at least one power controller by simple push-button actuations.

It is advantageous if the actuator forms the button, wherein the actuating member relative to the axis of rotation in the axial direction against a resilient restoring force is movable and the axial movement can be detected. In such a configuration, the user can not only rotate the actuator about the axis of rotation, but he can also move the actuator relative to the axis of rotation in the axial direction. Both a rotary movement and a lifting movement (axial movement) of the actuating member can be detected without contact or contact, and depending on the rotational or lifting movement signals from the communication system, in particular setpoints and / or control signals, wirelessly transmitted to the at least one electric power controller become.

In an advantageous embodiment of the invention, the adjustment system has at least one memory element for storing at least one desired value. This makes it possible, for example, in the manufacturer of the remote control and / or by a later - preferably carried out by the user - programming of the remote control and / or during use of the remote control to store at least one setpoint in the memory element, so that this setpoint, if necessary, retrieved from the memory element and the communication system may be provided for wireless transmission to the at least one power controller.

It is favorable if at least one stored nominal value can be retrieved by actuating the actuating member. For example, it can be provided that after a successful actuation of the actuator, a set value is stored in a memory member and this setpoint is retrieved in an immediately subsequent re-actuation of the actuator from the memory member and is then changed by the re-actuation of the actuator.

Advantageously, a stored setpoint is retrievable by a rotary movement of the actuator, and depending on the direction of rotation of the actuator of the retrieved setpoint depending on the rotation angle change of the actuator and / or the rotational speed of the actuator is either steigerbar or reduced. In such an embodiment of the invention, the triggering of a rotary movement of the actuator has the consequence that a stored setpoint value is retrieved from a memory element. This setpoint can then either be increased as a function of the direction of rotation of the actuator and in dependence on the rotation angle change and / or the rotational speed of the actuator, so be increased or reduced.

Preferably, a desired value can be increased by a rotational movement of the actuating member in the clockwise direction and reduced by a rotational movement in the counterclockwise direction. This allows a particularly simple intuitive handling of the remote control.

It is particularly advantageous if either a maximum or a minimum setpoint can be called up by sudden rotation of the actuating member as a function of the direction of rotation. By a sudden rotation is meant a rotation of the actuator with a rotational speed exceeding a predetermined maximum rotational speed. By a sudden rotation of the actuator, the user in such an embodiment of the invention has the ability to retrieve either a maximum setpoint or a minimum setpoint value from a memory element depending on the selected direction of rotation.

In particular, it can be provided that the communication system can be provided in the clockwise direction by a sudden rotation of the actuator a maximum setpoint, which is wirelessly transferable from the communication system to the at least one power controller, and by sporadically rotating the actuator counterclockwise, the communication system can provide a minimum setpoint which can be transmitted wirelessly to the at least one power controller.

In an advantageous embodiment of the invention, the adjustment system has a detection device, wherein a rotation angle change of the actuating member and / or a rotational speed of the actuating member and / or an axial stroke movement of the actuating member can be detected by means of the detection device. As already mentioned, the detection can be carried out without contact or touch. By detecting a lifting movement, the actuator forms a button, and by detecting a rotation angle change and / or a rotational speed, the actuator forms a rotary encoder.

The detection device preferably has at least one signal transmitter which is rigidly connected to the actuating member and to which a multiplicity of detectors are assigned, wherein by means of the detectors a movement of the at least one signal generator can be detected.

It is particularly favorable if the detection device has two signal transmitters which are rigidly connected to the actuating device, wherein a plurality of rotation detectors uniformly distributed over a circumference are associated with a first signal transmitter for detecting a rotational movement of the first signal transmitter, and at least one stroke detector is associated with a second signal transmitter is for detecting a lifting movement of the second signal generator.

The rotation detectors and / or the stroke detector can be designed, for example, as contact fields, which can be contacted by the associated signal transmitter during a movement of the actuating member for generating detection signals.

The rotation detectors preferably form a first turntable and a relative to the axis of rotation of the actuator axially offset from the first turntable second turntable, each rotation detector of the first turntable axially and circumferentially offset offset rotary detector of the second turntable is assigned. The provision of the two coaxial with the axis of rotation of the actuator aligned rotary rings makes it possible to generate a first and a second signal sequence by an actuator corresponding rotation of the first signal generator, wherein the second signal sequence with respect to the first signal sequence has a phase shift. This in turn gives a simple way the ability to detect not only a rotation angle change of the actuator but also its rotational speed and direction.

The detection device is advantageously followed by an evaluation device, wherein detection signals can be transmitted to the evaluation device as a function of the rotation angle change and / or the rotational speed and / or the lifting movement of the actuating element, and the setpoint values can be determined by the evaluation device on the basis of the detection signals and the communication system are available. The evaluation device processes detection signals of the detection device and thereby determines setpoint values that the evaluation device provides to the communication system so that the communication system can wirelessly transmit the provided setpoint values to the at least one electrical power controller that is assigned to the remote control.

The evaluation device can be designed, for example, in the form of a microcontroller.

It can be provided that the evaluation device in combination with the communication system forms a common circuit arrangement, in particular an integrated circuit. Alternatively it can be provided that the evaluation device and the communication system are designed in the form of separate components of the remote control.

It is advantageous if the evaluation device processes detection signals, which it receives after receiving a first detection signal within a predetermined time interval, to a desired value and makes it available to the communication system. The predetermined time interval can last fractions of a second, for example 10 ms, 50 ms or, for example, also 100 ms or 200 ms. The time interval is started upon receipt of a first detection signal, and all detection signals received within the predetermined time interval are processed by the evaluation device to a common setpoint, which is provided to the communication system for wireless transmission to the at least one power controller after the expiration of the time interval. This makes it possible to reduce the number of radiotelegrams transmitted by the communication system, and this in turn has the consequence that the energy consumption of the radio control according to the invention can be kept low.

In an advantageous embodiment of the invention, the remote control on a rest state and a working state, the remote control automatically goes to non-operating the actuator in the idle state and automatically goes into operation on actuation of the actuator in the working state, the energy consumption of the remote control is at rest less than in working state. The energy consumption of the remote control can be kept very low overall. If the actuator is not operated by the user for a predetermined period of at least one second, preferably two to five seconds, then the remote control goes into its idle state, and by re-actuation of the actuator, the remote control automatically switches to its working state in which the Operation of the actuator is detected and evaluated and at least one setpoint is transmitted to the at least one electric power controller, which is assigned to the remote control.

For power supply, the remote control advantageously has at least one electric battery, which is preferably arranged interchangeably in a housing.

It is favorable if the remote control comprises at least one rechargeable battery.

In an advantageous embodiment, the remote control according to the invention for controlling at least one electric power controller on an incremental encoder with integrated pushbutton, wherein the encoder comprises a detection device and a downstream evaluation provides detection signals from the evaluation with respect to the rotation angle change and the rotational speed and the Direction of rotation of the actuator to be evaluated. Also, a touch operation of the actuator can be detected by means of the detection device, and by a tactile actuation caused detection signals can also be supplied to the evaluation. On the basis of the detection signals, which are received by the evaluation device after receipt of a first detection signal within a predetermined time interval, the evaluation device determines a desired value, which can be transmitted wirelessly from the communication system to the at least one electric power controller. The determination of the setpoint value can take place taking into account setpoint values which are stored in at least one memory element assigned to the evaluation device. For example, depending on the direction of rotation, a first stored setpoint can be increased or decreased, and the increased or decreased setpoint can then be stored as a new setpoint in the memory element. After expiration of the predetermined time interval, the setpoint will be transmitted and in subsequent non-actuation of the actuator, the remote control can automatically go from its working state to its idle state in which the energy consumption is extremely low.

It can be provided that the energy consumption at rest is only a few microwatts or milliwatts.

The evaluation of the rotational speed makes it possible to keep the number of transmitted radio telegrams low, since the change of desired values can take place as a function of the rotational speed. A high rotational speed can result in a large change in target values, for example a rapid increase and decrease, and a low rotational speed can result in a slow change of nominal values, for example, a slow increase and decrease.

At low rotational speeds, a fine adjustment of nominal values may preferably be carried out. In particular, it can be provided that setpoint values can be changed in 1% steps at low rotational speeds. This makes it possible, for example, to adjust the brightness values of a lighting device very finely.

A transition from the idle state to the working state of the remote control can be carried out in an advantageous embodiment of the invention by a tactile actuation or by a rotary movement of the actuator. By subsequent key actuations, for example, switch-on commands and switch-off commands can then be transmitted successively to the at least one electric power controller.

It can be provided that, after the transmission of a switch-off command, a subsequent rotation of the actuator does not result in a change of setpoint values and no transmission of setpoint values or radio telegrams.

It is particularly favorable if the adjustment system is programmable. For example, it can be provided that setpoint values stored in at least one memory element can be set by programming.

It can be provided that during the transmission of a switch-on to the at least one electric power controller, a desired value is gradually increased to a predetermined level, so that, for example, a lighting device which is connected to the electric power controller, turned on and gradually gentle to the eye except for a predetermined Brightness value is brightened.

The following description of an advantageous embodiment of the invention is used in conjunction with the drawings for further explanation. Show it:

1 a schematic representation of a control system with multiple power controllers and an advantageous embodiment of a remote control;

2 : an enlarged schematic representation of the remote control 1 ;

3 : An illustration of the operation of an incremental remote control encoder.

In 1 schematically a control system is shown with an advantageous embodiment of a remote control according to the invention, in total with the reference numeral 10 is occupied, and with three identically designed electric power controllers 101 . 102 and 103 , which are each formed as a dimmer and to each of which an electric lighting device 104 . 105 respectively. 106 connected.

The electric power controller 101 . 102 and 103 each have a radio receiver 108 on, with the radio signals can be received. In addition, the electric power controller 101 . 102 and 103 each a power electronics 110 on, at the exit 112 a lighting device 104 . 105 and 106 connected. Every power electronics 110 is powered by a known per se and therefore to achieve a better overview in the drawing power supply network with energy. From the respective power electronics 110 can the connected lighting device 104 . 105 respectively 106 be provided a variable supply power, so that the degree of brightness of the lighting devices 104 . 105 and 106 by means of the power controller 101 . 102 and 103 can be changed.

The control of the electric power controller 101 . 102 and 103 is based on setpoints provided by the remote control 10 to be provided. The remote control 10 has an adjustment system 12 to set setpoints and a communication system 14 for wireless transmission of the setpoint values to the electric power controllers 101 . 102 and 103 , The transmission of the setpoint is wireless. For this purpose, the communication system has a radio transmitter 16 up to the set points to the radio receivers 108 transfers.

As in particular from 2 becomes clear, includes the adjustment system 12 an incremental encoder 18 with an actuator 20 , which in the illustrated embodiment on a lid 25 a housing 24 the remote control 10 around a rotation axis 26 rotatable and related to the axis of rotation 26 is held displaceably in the axial direction against a resilient restoring force. The lid 25 is at a top 22 of the housing 24 arranged and closes a mounting hole 27 of the housing 24 , With the help of a person skilled in the known and therefore only schematically shown to achieve a better overview in the drawing locking connection 29 is the lid 25 at the mounting hole 27 kept releasably connectable.

About a coaxial to the axis of rotation 26 aligned actuating shaft 28 is the actuator 20 with a transverse to the actuating shaft 28 aligned first signal generator 30 and one at a distance to the first signal generator 30 arranged second signal generator 32 rigidly connected.

The first signaler 30 and the second signal generator 32 is an overall reference numeral 36 assigned assigned detection device. The detection device 36 has a detection ring 38 on, the first buzzer 30 surrounds in the circumferential direction and the first detector ring 40 and one related to the axis of rotation 26 axially offset to the first detector ring 40 arranged second detector ring 42 having. The first detector ring 40 is made up of a plurality of uniform angularly spaced first rotary detectors 41 formed, and the second detector ring 42 is made up of a plurality of evenly spaced second rotary detectors 43 educated. The first turn detectors 41 and the second rotation detectors 43 are each configured as contact fields in the illustrated embodiment, which upon contacting the first signal generator 30 or the second signal generator 40 deliver a detection signal. This has the consequence that the first detection wreath 40 upon rotation of the actuator 20 around the axis of rotation 26 one in 3 schematically outputs the first signal sequence A, and that the second detector ring 42 upon rotation of the actuator 20 around the axis of rotation 26 one in 3 schematically outputs second signal sequence B. The signal sequences A and B consist essentially of successive rectangular pulses.

The encoder 18 is designed in the illustrated embodiment with sliding contacts for detecting a rotational movement. Alternatively, a non-contact detection of the rotational movement could be provided.

The second rotation detectors 43 are related to the circumferential direction of the first detector ring 40 and the second detector ring 42 offset to the first rotation detectors 41 arranged. As a result, that of the second rotary detectors 43 generated second signal sequence B has a phase shift α. The phase shift α is 90 ° in the illustrated embodiment. The phase shift α between the signal sequences A and B allows one of the detection device 36 downstream evaluation device 46 of the adjustment system 12 the direction of rotation of the actuator 20 to capture, that is, the evaluation 46 can detect if the actuator 20 clockwise or counterclockwise around the axis of rotation 26 is turned. From the number of square pulses that occur during a rotation of the actuator 20 around the axis of rotation 26 from the first turn detectors 41 and the second rotation detectors 43 can be generated, the evaluation 46 a rotation angle change of the actuator 20 detect, and from the frequency of the rectangular pulses, the evaluation device, the rotational speed of the actuator 20 to capture.

The evaluation device 46 has a timing member 48 on, which is started upon receipt of a first square pulse and specifies a subsequent time interval. Within the time interval, which is favorably programmable, the rectangular pulses provided by the rotation detectors are evaluated and based on the rectangular pulses is from the evaluation 46 determines a setpoint, which then the communication system 14 provided and by its radio transmitter 16 to the radio receivers 108 the electric power controller 101 . 102 and 103 is transmitted.

The evaluation device 46 is a memory member 50 assigned, in which predetermined setpoints can be stored. In this case, a plurality of desired values can be preset by the manufacturer, and a further desired value is stored in the form of the most recent desired value, that of a current rotation of the actuating member 20 around the axis of rotation 26 equivalent. Upon a renewed rotation of the actuator, the last stored setpoint value from the memory element 50 retrieved, and depending on the direction of rotation of the actuator 20 the retrieved setpoint is increased or decreased to then form a new setpoint, which in turn in the memory element 50 stored and with the help of the radio transmitter 16 to the radio receivers 108 is transmitted.

In addition to the first detector ring 40 and the second detector ring 42 has the detection device 36 a stroke detector 52 on, the second buzzer 32 is assigned and a lifting movement (axial movement) of the actuator 20 can capture by the second signal generator 32 contacted the stroke detector. This gives the possibility of using the stroke detector a tactile actuation, that is, an axial movement of the actuator 20 capture.

The detection of the lifting movement takes place in the illustrated embodiment touched. Alternatively, a non-contact detection of the lifting movement could be used.

Detector signals of the stroke detector 52 also become the evaluation device 46 fed. The evaluation device 46 Represents the communication system 14 due to the detector signals of the stroke detector 52 Control commands prepared by the radio transmitter 16 to the radio receivers 108 be transmitted wirelessly. The control commands are switch-on commands and switch-off commands that are used for a lifting operation of the actuator 20 be provided consecutively. A first lifting operation of the actuator 20 As a result, a switch-on command from the radio transmitter 16 to the radio receivers 108 is transferred together with the last in the memory element 50 stored setpoint, so that by means of the electric power controller 101 . 102 and 103 the lighting equipment 104 . 105 and 106 switched on and the transferred setpoint in the form of a degree of dimming is gradually taken eye-friendly. A subsequent second lifting operation of the actuator 20 As a result, the evaluation device 46 the communication system 14 provides a switch-off command by means of the radio transmitter 16 to the radio receivers 108 is transferred so that the electric power controller 101 . 102 and 103 the lighting equipment 104 . 105 and 106 turn off again.

After the transmission of a switch-on command, the last stored and together with the switch-on command to the electric power controller 101 . 102 and 103 transmitted setpoint by turning the actuator 20 around the axis of rotation 26 Depending on the direction of rotation can be increased and decreased.

Will the actuator 20 moved abruptly in the clockwise direction, so is the evaluation 46 one in the memory element 50 stored maximum setpoint and the communication system 14 for transmission to the electric power controller 101 . 102 and 103 provided. As a result, the lighting equipment 104 . 105 and 106 take their maximum degree of brightness. This can then, if desired by the user, by turning the actuator 20 counterclockwise, whereby the user can make a fine adjustment by the actuator 20 rotates at a very low rotational speed.

Will the actuator 20 turned by the user abruptly counterclockwise, so is the evaluation 46 one in the memory element 50 stored minimum setpoint recalled. This minimum setpoint will then be sent to the communication system 14 provided for transmission to the electric power controller 101 . 102 and 103 , As a result, the lighting equipment 104 . 105 and 106 take their minimum degree of brightness. By a rotation of the actuator 20 clockwise, the user then has the opportunity to increase the minimum setpoint, where he can make a fine adjustment by the actuator 20 rotates at a low rotational speed.

The transmission of setpoints from the radio transmitter 16 to the radio receivers 108 takes place in the form of radio telegrams, which may contain additional information in addition to the respective desired setpoint. In particular, it can be provided that the radio telegram contains information that it the electric power controllers 101 . 102 and 103 make it possible to decide whether a received radio telegram is actually intended for it or whether this radio telegram is intended for other, not shown in the drawing power controller. For this purpose, the radio telegram, for example, information about the sending radio transmitter 16 included, so that the electric power controller 101 . 102 and 103 to respond to received setpoints only if this from the radio transmitter 16 come.

The remote control 10 is characterized in particular by an intuitive handling, which allows the user in a very simple way, the electric power controller 101 . 102 and 103 to control wirelessly.

The power supply of the remote control 10 takes place by means of an energy source, in the illustrated embodiment in the form of a battery 54 is designed.

Claims (18)

Remote control for controlling at least one electric power controller ( 101 . 102 . 103 ), with an adjustment system ( 12 ) for setting a desired value and with a communication system ( 14 ) for wireless transmission of the setpoint value to the at least one power controller ( 101 . 102 . 103 ), characterized in that the adjustment system ( 12 ) manually about a rotation axis ( 26 ) rotatable actuator ( 20 ), wherein the desired value in dependence on the rotational movement of the actuating member ( 20 ) is adjustable. Remote control according to claim 1, characterized in that the communication system ( 14 ) a radio transmitter ( 16 ) having. Remote control according to claim 1 or 2, characterized in that the adjustment system ( 12 ) an incremental encoder ( 18 ) having. Remote control according to one of the preceding claims, characterized in that the adjustment system ( 12 ) has a button, the communication system ( 14 ) by pressing the button a control command to be transmitted and / or a setpoint to be transmitted is provided. Remote control according to claim 4, characterized in that the communication system ( 14 ) by successive actuations of the key different control commands and / or different setpoints are provided. Remote control according to claim 4 or 5, characterized in that the actuating member ( 20 ) forms the button, the actuator relative to the axis of rotation ( 26 ) Is movable in the axial direction against a resilient restoring force and the axial movement is detected. Remote control according to one of the preceding claims, characterized in that the adjustment system ( 12 ) at least one memory element ( 50 ) for storing at least one setpoint. Remote control according to claim 7, characterized in that by actuation of the actuating member ( 20 ) at least one stored setpoint is retrievable. Remote control according to claim 8, characterized in that by a rotational movement of the actuating member ( 20 ) stored in a setpoint value and depending on the direction of rotation of the actuator ( 20 ) is either steigerbar or reducible. Remote control according to claim 7, 8 or 9, characterized in that by sudden rotation of the actuating member ( 20 ) Depending on its direction of rotation optionally a maximum or a minimum setpoint is available. Remote control according to one of the preceding claims, characterized in that the adjustment system ( 12 ) a detection device ( 36 ), wherein a rotation angle change of the actuating member ( 20 ) and / or a rotational speed of the actuating member ( 20 ) and / or an axial lifting movement of the actuating member ( 20 ) by means of the detection device ( 36 ) is detectable. Remote control according to claim 11, characterized in that the detection device ( 36 ) at least one signal generator ( 30 . 32 ), which is rigid with the actuator ( 20 ) and a plurality of detectors ( 41 . 43 . 52 ), whereby by means of the detectors ( 41 . 43 . 52 ) a movement of the at least one signal generator ( 30 . 32 ) is detectable. Remote control according to claim 12, characterized in that the detection device ( 36 ) two with the actuator ( 20 ) rigidly connected signaling devices ( 30 . 32 ), wherein a first signal transmitter ( 30 ) a plurality of uniformly distributed over a circumference arranged rotary detectors ( 41 . 42 ) are assigned for detecting a rotational movement of the first signal transmitter ( 30 ), and wherein a second signal generator ( 32 ) at least one stroke detector ( 52 ) is assigned for detecting a stroke movement of the second signal generator ( 32 ). Remote control according to claim 13, characterized in that the rotation detectors ( 41 . 43 ) a first turntable ( 40 ) and one related to the axis of rotation ( 26 ) of the actuator ( 20 ) axially offset from the first turntable ( 40 ) arranged second turntable ( 42 ), each rotary detector ( 41 ) of the first turntable ( 40 ) an axially and circumferentially staggered rotary detector ( 43 ) of the second turntable ( 42 ) assigned. Remote control according to one of claims 11 to 14, characterized in that the detection device ( 36 ) an evaluation device ( 46 ), wherein the detection device ( 36 ) in dependence on the rotation angle change and / or the rotational speed and / or the stroke movement of the actuating member ( 20 ) Detection signals to the evaluation device ( 46 ) are transferable, and wherein the evaluation device ( 46 ) based on the detection signals setpoints and the communication system ( 14 ) are available. Remote control according to claim 15, characterized in that the evaluation device ( 46 ) Detection signals, which it receives after receiving a first detection signal within a predetermined time interval, processed to a desired value and this the communication system ( 14 ). Remote control according to claim 16, characterized in that the evaluation device ( 46 ) a timing member ( 48 ) which is settable upon receipt of a first detection signal. Remote control according to one of the preceding claims, characterized in that the remote control in non-actuation of the actuating member ( 20 ) automatically into a state of rest passes and upon actuation of the actuator ( 20 ) automatically enters a working state, wherein the energy consumption of the remote control ( 10 ) is lower at rest than at work.

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