EP2612308A1 - Radio remote control with position sensor system - Google Patents

Abstract

The present invention relates to a radio remote control for a machine with at least one machine drive, which can be actuated by the radio remote control, for a movable machine part, comprising a handheld device (10) with a control unit, a transmitting device and at least one movement sensor, wherein the control unit is configured to transmit control commands brought about by a user to a transmitting device, and to cause the transmitting device to transmit the control commands to the machine, in particular an associated receiving device, and wherein movements of the handheld device (10) in the space around at least one tilting axis or inclination axis (KA, DA) can be sensed by means of the movement sensor, such that in a movement operating mode the sensed movements can be converted by the control unit into control commands which can be transmitted to the machine, wherein the movement operating mode can be activated after a user-side input at the handheld device (10). According to the invention it is proposed that the control unit is also configured in such a way that when the movement operating mode is activated, the current position (I) of the handheld device (10) in space is sensed as the current reference position (I), with the result that movements relative to this current reference position (I) can be sensed by the movement sensor and can be transmitted by the control unit as control commands to the machine. In addition, the invention relates to an operating method for a radio remote control according to the invention.

Description

 Radio remote control with position sensor Description

The present invention relates to radio remote control of a machine having at least one controllable by the radio remote control machine drive a movable machine part comprising a machine associated with the radio receiving device, a handset with a control unit, a transmitting device and at least one motion sensor, wherein the control unit is adapted to caused by a user To transmit control commands to the transmitting device and to cause the transmitting device for transmitting the control commands to the receiving device, and wherein by means of the motion sensor movements of the handset in space around at least one tilting or tilting axis (KA, DA) are detected, such that in one Movement mode of operation, the detected movements are converted by the control unit into control commands, which are transmitted to the machine by radio transmission between the transmitting device and the receiving device, the Bewegungsbetrie bsmodus can be activated by a user input on the handset.

A particularly preferred although not exclusive field of application of the present invention is the control of cranes and hoists. In the example of a jib crane, such as a construction crane, e.g. the orientation of the boom (rotation angle), the movement of the cat and the movement of the hook are controlled with a suitably designed radio remote control according to the invention.

The control of devices via position sensors in a remote control or a similar remote control component is known. It is pointed out, for example, on game consoles or the like. Position sensors are today, for example, installed in mobile phones, so that the orientation of such a device, in particular determines its display can be used to adjust the display in the display according to the orientation of the device.

In order to be able to optimally use a radio remote control for a machine, it is necessary that movements of the handheld device in the room can be detected precisely. Furthermore, care must be taken that the radio remote control by means of the handset allows a user-intuitive machine control, especially if the user is to operate the machine by moving the handset.

The object of the invention is to improve a generic radio remote control in terms of intuitive operation by a user.

For this purpose, it is proposed according to a first aspect that the control unit is set up so that upon activation of the motion mode, the current position of the handset is detected in space as the current reference position, so that movements relative to this current reference position detected by the motion sensor and by the control unit Control commands can be transmitted to the machine.

In such an embodiment of the control unit, it is possible to determine the current reference position in a comfortable hand position for a user. A handset of a radio remote control is often not kept exactly horizontal, but a natural attitude of the human hand causes the handset is held with a slight inclination in the upward direction. This natural attitude can then be set as the current reference position or as a kind of neutral position, so that movements detected by the motion sensor, such as turning, tilting or tilting of the handset, can be detected and converted into control commands. Based on such a natural position of the human hand also results in an optimal utilization of the possible movements by the user for the purpose of controlling a corresponding machine drive. According to a second aspect of the invention, it is proposed that the radio remote control is set up such that upon activation of the motion mode, the current position of the handset in space is detected and compared with a predetermined reference position, and that detected movements only as control commands to the Machine can be transmitted, if the radio remote control has been brought at least approximately in the predetermined reference position, which are detected relative to the predetermined reference position for generating control commands movements.

The predetermined reference position may be, for example, a substantially horizontal orientation of the handset in space. This predetermined reference position must be reached or adjusted starting from a position of the handset in the room in which the motion control is activated. Once the handset has been brought into a current position or is already in activating the motion control, which corresponds approximately to the predetermined reference position, d. H. meets this predetermined reference position within a tolerance range, then further movements of the handset are detected based on the predetermined reference position and converted into control commands that can be transmitted to the machine.

Both of the above-mentioned aspects of the invention enable an intuitive operation and control of a machine by means of a hand-held device which contains motion sensors and whose control unit makes it possible to transmit detected movements as a control command to the machine.

It should be noted in this regard to two different control modes of operation, which may be implemented in respective embodiments of a radio remote control according to the present invention. In a first control mode, the activation of the motion mode is performed by operating a switch. This is preferably a possibly existing safety relay or the like. The machine unlocked and it follows the referencing of the handset according to one of the aforementioned referencing options. By moving the handset relative to the detected reference position is then the specification of the controlled movement of the machine part, whereby by opposite directions of movement of the handset relative to the reference position control commands can be generated, which also cause the machine part to move in corresponding opposite directions. By the amplitude of the movement of the handset relative to the reference position then the amount of the movement to be controlled, so about the speed amount or amount of acceleration can be specified. An example of this is given, for example, in that both the direction and the amount of the movement of the machine part to be controlled are predetermined by turning the hand-held device relative to a reference position detected when the motion operating mode is activated by +/- 30 ^0, for example. Area represents a direction of movement and the minus area represents the opposite direction of movement of the machine part.

A second control mode provides that e.g. two contacts or push buttons are provided, which are to be actuated to activate the movement mode of operation, wherein one of the keys associated with a direction of movement of the machine part, whereas the other button is associated with the opposite direction of movement of the machine part. The movement of the handset relative to the respective reference position would then be e.g. specify only the amount of the controlled speed of the machine part.

For user input can be provided on the handset eg push button. Thus, according to one embodiment of the invention, the motion mode of operation is triggered by actuation of a switch on the handset and maintained by continued contact of that switch to control the movement of the machine part. Releasing this switch then causes no further control commands be transmitted to control the movement of the machine part. It is therefore a kind of deadman circuit.

According to another embodiment of the invention, latching switches are provided for user input on the handset, by means of which the user can activate the movement mode of operation by an active switching operation on such a latching switch.

In a further development, it is proposed that the radio remote control comprise at least one output device assigned to the handset, which is configured such that it generates at least one output perceptible to the user in response to detected movements, in particular an optical and / or acoustic and / or haptic signal on the handset ,

An output perceivable to the user of the handset improves the intuitive remote control of a machine. Particularly in the case of acoustic and / or haptic signals, the user can be supported in an intuitive manner during machine operation by means of movements of the handheld device. The output is a kind of feedback to the user, so that the human-machine interface can be optimized.

For this purpose, it is in particular proposed that the output means are set up such that the output perceptible to the user is generated as a function of signals output by the motion sensor.

The output means may be arranged to generate the output perceptible to the user in a stepwise manner in response to the achievement of certain signal strengths output by the motion sensor. This makes it possible, for example, to indicate leaving the reference position and, when a certain relative position is reached in space, to specify a further signal by means of which the achievement of a first movement or control level is specified. Another signal could be for example, when an extreme value of the possible movement is reached.

Alternatively, the output means may be arranged to generate the output perceptible to the user in proportion to the signal strength output by the motion sensor. Here, in particular, it is thought that, starting from a reference position, increasing tilting or tilting in one direction is represented by a reinforcing acoustic and / or haptic signal, so that the user can learn and evaluate, in which current position, on the basis of this output holding the handset relative to the detected or predetermined reference position.

The output perceptible to the user may be generated according to a predetermined characteristic as a function of the signal strength output by the motion sensor. The characteristic curve can be optimized depending on the type of control, so that the dependence of the output perceptible to the user on the signal strength output by the motion sensor is directly proportional, ie linear, or degressive or progressive. In particular, a logarithmic characteristic also comes into question.

According to a preferred embodiment of the invention, the perceptible for the user output of the at least one output means is dif ferentiell, ie only when the signal strength emitted by the motion sensor changes. Such a differential or dynamic output normally provides the user with a sufficient subjective feedback feeling of the radio remote control and, on average, places a relatively small burden on the power supply of the handset since during the phases of constant signal output of the motion sensor the output means need not be activated. According to a variant of the invention, it is provided that with regard to the generation of the output perceptible for the user, it is possible to switch over between the above-mentioned operating modes, for example between a differential mode and a static-mode proportional mode.

The control unit is preferably set up in such a way that movements detected by the movement sensor or a movement sensor in a working rotation or tilting range of a maximum of about -45 ° to + 45 °, in particular -30 ° to + 30 °, cause an associated horizontal rotation or tilting movement . Tilting axis are converted into control commands for the machine. Such a limitation of the range of motion convertible into control commands for the machine serves, on the one hand, for ergonomic handling of the handheld device since movements in a larger angular range are inconvenient by means of the human hand. Furthermore, an angular range defined in this way can also serve to define positions of the handset in which the motion control is switched off by means of the handheld device and no further control commands are sent to the machine due to detected movements. For this purpose, it is in particular proposed that the output means is set up in such a way that it indicates an approximation to the maximum rotational or tilting movement and / or leaving the working rotary or tilting range by a corresponding output perceptible to the user.

In a further development, the control unit can be set up in such a way that no further control commands due to detected movements are generated when leaving the work turning or tilting area until further notice. According to a variant of the invention, however, safety-related control commands, eg stop commands, can be sent from the hand-held device to the machine when the working rotation or tilting region is left. In this connection, it should be noted that leaving a preferred angular range or movement range preferably affects only the machine control by means of movement of the handset, but not the activation of the machine by means of any other controls on the handset, such as push buttons, joystick or the like Furthermore, it is also pointed out that when leaving the working rotation or tilting range in the machine control system, it is determined whether the machine is then in operation remains in its current state or is brought into a neutral position. It is also to be determined whether the movements of all controllable by the radio remote machine parts in the case of leaving the Arbeitsdreh- or tilting should be stopped or whether only those drives which are controlled by the motion control, stopped. Such operating concepts can be determined taking into account corresponding security concepts and standards.

According to a preferred development of the invention, the receiving device has a feedback transmitter and is configured to activate the feedback transmitter for the transmission of feedback information upon receipt of control commands, the handset having a receiving receiver for receiving the feedback information and connected to the control unit. The receiving device with feedback transmitter and the transmitting device of the handset with feedback receiver thus form a bidirectional radio remote control system with improved security features. Preferably, the handset has an audible and / or optical and / or haptic display device controlled by the control unit, by means of which operating function information of the radio remote control can be displayed by the acknowledgment transmitter in accordance with the receipt of feedback signals. Such a display device thus represents an output means which can inform the user about faults. The aspect of the radio feedback, in particular in combination with the aforementioned display device and the features of the preamble of claim 1 is possibly independent inventive importance, and the applicant reserves the right to make a corresponding independent claim.

Another advantageous and in combination with the features of the preamble of claim 1 and possibly independent invention aspect is given by the features of claim 5, namely that a data on the respective actual position of the movable machine part and / or on the Moving state detecting sensor device - and the data of this sensor device as a feedback information sending feedback message is provided on the machine, and that the handset has a set up for receiving the feedback information and connected to the control device feedback receiver. For this purpose, the hand-held device preferably has an optical unit controlled by the control unit, the respective actual position and / or the actual deviation of the actual position from the desired position determined by the current position of the hand-held device and / or the optical speed of the moving machine part. and acoustic and / or haptic display device. This display device can therefore inform the user about the respective position, direction of movement and speed of movement of the machine part. Preferably, the display device comprises a display, eg LCD display, on which the information can be represented graphically as pictures or pictograms or videos and / or numerically as numbers and letters.

Due to the thus-detected actual values, the predetermined reference position in the embodiment of the radio remote control according to claim 2 can be e.g. each time the controller is switched on, each time it is determined as a function of the instantaneous position of the movable machine part. In such an embodiment, the handset first interrogates the feedback information from the acknowledgment transmitter on the machine before sending out new control commands.

Furthermore, according to a variant of the radio remote control according to the invention, it is provided that the control unit is set up to modify control commands for the machine as a function of the received feedback information. An example of this could be that, when the movable machine part approaches its nominal position, an automatic reduction of the speed of the machine part or / and a greater resolution of the control characteristic in the sense of more sensitive control takes place. In the context of the invention, further feedback options may be provided in the radio remote control according to the invention or a machine equipped therewith, such as the display of certain machine reactions or certain dynamic states of movement of the machine or the movable machine part, which eg by control operations or switching operations from another Control source as the radio remote control conditional. Thus, for example, a machine may be to control in which the movable machine part between two opposite end positions is movable and in which a limit switching off the machine drive as soon as the movable machine part reaches the end position or this approaching to a small distance. The approach of the machine part to the end position can be transmitted via a feedback signal by radio to the handset and there lead to a relevant optical and / or audible and / or haptic display, so that the user to the situation of the Machine is alerted.

Another example of such overdrive feedback is e.g. a crane or hoist with a so-called load oscillation damping, in which the trolley or possibly the crane boom automatically executes compensatory movements in order to counteract an undesired oscillation of the load hanging on the crane. Such compensatory movements can be displayed to the latter via wireless feedback from the crane to the handset. In particular, a haptic and / or acoustic display on the handset is advantageous in order to inform the user accordingly.

The invention further relates to an operating method for a radio remote control of a machine having at least one machine drive of a movable machine part which can be controlled by the radio remote control, comprising the steps:

Transmitted by a user to a handset of the radio remote Control caused control commands from a transmitting device of the handset to the machine, in particular an associated receiving device, and

 Detecting movements of the handset in space about at least one tilt axis, the detected movements being converted in a motion mode of operation into control commands transmitted to the machine,

wherein the movement mode of operation is activated by a user input on the handset, which is proposed according to the invention that when activating the movement mode, the current position of the handset is detected in space as the current reference position, so that movements relative to this current reference position can be detected and as control commands the machine can be transmitted.

Another inventive aspect of the operating method is seen in the fact that when activating the Bewegungsbetriebsmodus the current position of the handset is detected in space and compared with a predetermined reference position, and detected movements can only be transmitted as control commands to the machine when the handset has been brought at least approximately in the predetermined reference position, wherein for the generation of control commands movements are detected relative to the predetermined reference position.

In a further development, it is proposed that, in response to detected movements, at least one output perceptible to the user, in particular an optical and / or acoustic and / or haptic signal, be generated on the handheld device.

Further features proposed in relation to the radio remote control described above can also be implemented within the context of the operating method according to the invention. This applies in particular to the bidirectional modes of operation with the transmission of feedback information and its evaluation. The invention will be described below with reference to the accompanying figures by way of example and not limitation with reference to an embodiment.

Fig. 1 shows a simplified schematic perspective view of a

 Handset of a radio remote control.

2 shows in the partial figures a) and b) different elevational views of the handset of FIG. 1.

Fig. 3 shows highly simplified and schematically movement positions of a handset in the case of a first type of control.

4 shows in the subfigures a) and b) different movement positions of a handheld device of a second type of control.

Fig. 5 is a flow chart of a possible control method.

Fig. 1 shows a simplified schematic perspective view of a handset 10 of a radio remote control for a machine. Under a machine devices are understood to have moving components that can be changed by appropriate control in their respective situation. It is particularly intended for the remote control of cranes, boom of concrete pumps, hydraulically powered loading bridges on trucks and the like.

The handset 0 comprises in its housing 12 at least one sensor, not shown, by means of which movements of the handset 10 in space can be detected. In particular, it is contemplated that the motion sensor or the motion sensors can or can detect rotational movements about a rotational or tilting axis DA and tilting movements about a tilting axis KA. The detection of the movements of the Handset 10 can be done by means of appropriate angle and position sensors. Preferably, the position or movement sensors used react to gravity or gravitational attraction and therefore have an angle-dependent resolution or maximum signal strength depending on the rotational or tilting movement of the hand-held device. Depending on the selected installation position of Lagebzw. Motion sensors in the housing 12 of the handset may be the maximum output at deflection about the horizontal and increasingly be at zero when turning or tilting in the vertical.

The hand-held device shown purely by way of example here can have a type of joystick 14, which can generally be operated with a thumb of a user's hand in order to remotely control corresponding machine parts. Furthermore, two operation buttons 16, 18 are shown, which can be actuated to activate further control options. One of these operating buttons 16, 18 can be used, for example, to activate a movement operating mode in which movements detected by the motion sensors, not shown, are actually converted into control commands in order to be able to control the machine as a function of performed movements. This button can be assigned in the manner of a flip-flop circuit on re-pressing and switching off this motion mode of operation. Alternatively, the Einbzw. Shutdown via different control buttons done. On a handset 10 may also be provided an emergency stop switch, which is not shown in the present example, however. The hand-held device shown is purely exemplary and can be configured differently both with regard to its external shape and with regard to further or other operating elements.

2, the handset 10 can be rotated or pivoted about its axis of rotation DA (tilt axis), which is indicated by the double arrow. Furthermore, the handset 10 (FIG. 2 b)) can also be tilted or pivoted about its tilting axis KA, which is also indicated by the double arrow. The movements about the axis of rotation DA or Tilting axis KA are detected by the motion sensor (s) and, when the motion operating mode is activated accordingly, converted into control signals, which are transmitted to the machine to be remotely controlled.

It can be provided according to a variant of the invention that simultaneously detects the pivoting of the handset about the axis of rotation DA and the tilting axis KA and is converted by the control unit into corresponding control commands. It may be provided according to a further development of this variant that optionally one of these control options can be temporarily switched off by a relevant input on the handset 10, so that e.g. due to the pivoting of the handset about the axis of rotation DA no corresponding control commands are transmitted to the machine and only the pivoting about the tilt axis KA is detected for control and implemented. The same applies to the reverse case that the rotation about the tilt axis KA is passively switchable as a control default, so that then trigger only rotations about the axis of rotation DA relevant control commands for the machine. The selection of these control modes of operation according to a further variant of the invention by active connection to the handset 10, such as by pressing a push-button, done. Such key switches may e.g. be provided in the lower recessed grips 40, 42, 44 (see Figure 2a). Other switching elements, such as toggle switches, rotary wheel switches, etc., may also be provided for selection of respective control options.

In the case of a crane, for example, it could be thought that the lowering or raising of the crane hook is controlled by the pivoting movement about the axis of rotation DA. A tilting movement about the tilting axis KA could for example be used to control the displacement of the trolley along the boom. Of course, other control options for a crane are conceivable depending on the design of the crane or depending on the configuration of the radio remote control or the associated handset.

Although it is assumed in FIGS. 1 and 2 that rotational or tilting movements about two mutually orthogonal axes can be detected, it is entirely conceivable that in a simpler version the associated motion sensor system only moves about one of the axes DA or KA can capture. In such a case, it would be conceivable, for example, that when the handset 10 is tilted about the tilting axis KA, the crane is rotated about its axis of rotation and the lifting or lowering of the crane hook and the movement of the crane trolley are effected by actuating the joystick 14.

FIG. 3 shows a schematic rectangular representation of different positions of movement of the handheld device 10 about its axis of rotation DA. In a first control mode or a first type of control, a current position I of the handset 10 in space can be assumed as the reference position. As can be seen from FIG. 3, this reference position I in the example case is slightly inclined with respect to a horizontal. A comfortable position of such a handheld device is usually in an angular range of +/- 20 ° around the horizontal. In the example of FIG. 3, when activating a so-called movement operating mode, for example by pressing an actuating button 16 or 18 (FIG. 1), the current position I of the hand-held device 10 is detected in space and assumed as the reference position for the subsequent movement detection. Rotary or pivotal movements of the handset 10 about the axis of rotation DA in positions II and III can then be evaluated with reference to the reference position I and converted into control commands, which are transmitted to the machine to be remotely controlled. The movement position IV illustrates a position of the hand-held device 10, in which a maximum angle of rotation relative to the reference position I has been exceeded. When the handset 10 is brought from the reference position or a movement position II or III in such a movement position IV, the generation of control commands due to the detected movements can be interrupted (termination of the motion mode). A movement position IV can be achieved, for example, when a user, who holds the handset 10 in his hand while angling his arm, stretches it down so that the handset is oriented substantially vertically toward the ground.

Fig. 4 shows in the sub-figures a) and b) another type of control or another control mode. Assuming that the movement operating mode is activated starting from a movement position IV, the handset must first be brought into a movement position II or ΙΓ, which corresponds approximately to a preset reference position I of the handset 10. As soon as the hand-held device 10 reaches a position which, for example, corresponds to the movement position,, the then-detected movements of the hand-held device are again converted into control commands, which can be transmitted to the machine. This is indicated in Fig. 2 b) by the movement positions III and V. Turning off the motion mode of operation so that the sensed motions are no longer converted to control commands may be accomplished by operating a control knob 16, 18 on the handset 10 or, as described above with reference to FIG. 3, leaving a predetermined angular range and Handset is brought, for example, in the movement position IV.

5 shows a simplified flowchart for a control type according to FIG. 3, in which a current position in space is determined as the reference position. In a first step 20 is detected by a control unit, which is normally housed in the housing 12 of the handset 10, whether the motion mode is turned on, for example by pressing a button on the operation buttons 16, 18. After switching on the motion mode, which serves To convert detected movements into control commands and to transmit these control commands to the machine, the current position (see I in FIG. 3) of the handset in space is determined as the reference position (step 22). Subsequently, in step 24, the current position is detected and set in relation to the reference position I. An action is taken at step 26 Inquire whether the motion mode has been turned off. If this is not the case (N), it is checked in step 28 whether the movement of the handset has taken place within a predetermined turning / tilting range. If the spin / tilt region has been left (N), the motion mode is turned off in step 34 and, if applicable, a user detectable signal is generated on the handset 10. If the movement is within the turning / tilting range (J) in step 28, a control command calculated as a function of the detected movement is generated in step 30 and transmitted to the machine to be remotely controlled or to a machine component to be driven. The steps 24-30 are usually repeated several times in succession with the motion operating mode switched on in order to be able to detect continuously changing movement positions of the handheld device 10 and to be able to generate corresponding control commands. This loop is indicated by the arrow 31.

Preferably, the handset also comprises an output means, not shown in the figures, which is arranged to generate at least one output perceptible to the user in response to sensed movements, in particular an optical and / or audible and / or haptic signal on the handset , This is done by way of example in step 32. This step 32 extends the multiple loop through the steps 24-32, which is indicated by the dashed arrows 33, bypassing the arrow 31st By generating a perceptible to the user signal during the angular deflection generating rotation or tilting movement of the handset 10 and the control command generated audible or perceptible or visually perceptible a sensitively experiencable feedback can be given to the user, which subjectively by the User experiences controllable security, as he knows this example by remote control using joystick or push buttons or the like and was used to. The generation of a perceptible for the user signal can, for. B. when leaving the reference position and when reaching a first stage, which corresponds for example to a speed of the machine part to be remotely controlled. If this first level is sufficient and a further tilting or rotational movement of the handset takes place, for example, a second stage of a speed control (fast speed) can be achieved, which is perceptible by another, especially more intense experience signal by the user. If the speed level II is left again and returned to level I, this can also be made perceptible to the user by means of a corresponding signal. When the user perceivable signal is haptically and / or acoustically configured, the user may be visually focused on the remote components of the machine when remotely controlling the machine and is not required to direct his gaze to the handset 10. The movements he makes with the handset 10 are brought to his perception by acoustic or / and haptic signals in a kind of feedback so that he can perform further movements or countermovements with the handset 10 according to the sensed signals to the desired Remote control of the machine to make.

In addition to the above-mentioned output of user-detectable signals when certain levels are reached, such signals can also be output in proportion to the detected movements. It is conceivable, for example, that this makes the enlargement or reduction of the detected turning or tilting angle acoustically / haptically tangible, it being entirely possible for a different signal to be output for the enlargement of the angle than for the reduction of the angle. If the handset is held steady in a certain angular position, the corresponding signal will not be output, but only when the handset is set in motion. Alternatively, it is conceivable that an acoustic and / or haptic signal is output constantly during the entire movement operating mode and is preferably also configured proportionally to the detected rotational or tilting angle. For example, it is conceivable that a user will feel only a slight vibration when holding the handset in or near the reference position. If the handset rotates or tilts, the vibration decreases increasing pivoting of the handset, so that the user can feel the removal of the reference position haptically. Of course, this signaling can also be done acoustically.

The proportional output of a user perceivable signal is not limited to a direct proportional dependence between sensed motion and signal strength. Rather, it is also thought of a logarithmic signal distribution, which is better suited for human perception. Both the acoustic and the haptic or vibration feedback signal (signal perceptible by the user) can consist, for example, of vibration impulses or short burst chains of vibration impulses, the distance of which decreases with increasing rotational or tilting angles and thus their perceived intensity increases would.

An acoustic and / or haptic and / or optical output on the handset can also be output when the reference position is reached or when a shutdown situation is reached, for example, when reaching angles of about +/- 45 ° with respect to the reference position.

According to an extended variant of the invention not shown in the figures, the handset 10 includes a return receiver, which is adapted to receive feedback information from the machine to be controlled, in which case it is assumed that such feedback information sending return message transmitter is provided on the machine. In the simplest case, the receiving device on the machine may comprise a check-back transmitter which acknowledges the receipt of control commands, so that the feedback information is confirmation of the receipt of control commands. If these expected radio reception acknowledgments are not registered by the handset 10, a respective output means of the handset 10 may alert the user to any trouble. In a further expansion stage of the radio remote control according to the invention, this has a data on the respective actual position of the movable machine part and / or on the motion state detecting sensor device - and the data of this sensor device as feedback information sending feedback to the machine, wherein the feedback receiver of Handgerätes receive this feedback information and can pass it to the control unit. The latter can then according to a variant of the invention modify control commands for the machine in dependence on the received feedback information. Also, the output means can be designed in the form of a display device so that they represent the respective actual position and / or the current deviation of the actual position of the determined by the current position of the handset target position and / or the speed of movement of the movable machine part , Also in this regard is an optical and / or acoustic and / or haptic display or output in question.

Claims

claims

Radio remote control of a machine with at least one controllable by the radio remote control machine drive a movable machine part, comprising

a radio receiving device associated with the machine,

a handheld device (10) having a control unit, a transmitting device and at least one motion sensor,

wherein the control unit is adapted to transmit control commands caused by a user to the transmitting device and to cause the transmitting device to transmit the control commands to the receiving device, and

wherein by means of the motion sensor movements of the handset (10) in space around at least one tilting or tilting axis (KA, DA) can be detected, such that in a movement operating mode, the detected movements are convertible by the control unit into control commands, which to the Machine can be transmitted by radio transmission between the transmitting device and the receiving device, wherein the movement operating mode can be activated by a user input on the handset (10),

characterized in that

the control unit is further configured such that upon activation of the motion mode, the current position (I) of the handset (10) in space as the current reference position (I) is detected, so that movements relative to this current reference position (I) detected by the motion sensor and be transmitted by the control unit as control commands to the machine.

Radio remote control according to the preamble of claim 1, characterized in that the radio remote control is further configured such that upon activation of the movement operation mode, the current position (IV) of the handset (10) is detected in space and with a pre- Be detected reference position (I) is compared, and that detected movements are only as control commands to the machine can be transmitted when the radio remote control has been at least approximately (II, Ι) brought in the predetermined reference position (I), wherein for the generation of control commands movements relative to the specified reference position.

Radio remote control according to claim 1 or 2, characterized in that the receiving device has a feedback transmitter - and is adapted to activate upon receipt of control commands the feedback transmitter for sending feedback information, and wherein the handset is set up to receive the feedback information and connected to the control unit Receiving recipient has.

Radio remote control according to claim 3, characterized in that the handset has a controlled by the control unit audible and / or optical and / or haptic display device by means of which operating function information of the radio remote control in accordance with the reception of feedback signals from the feedback transmitter can be displayed.

Radio remote control according to one of the preceding claims, characterized in that a data on the respective actual position of the movable machine part and / or on the movement state detecting sensor device - and the data of this sensor device as feedback information sending feedback message transmitter is provided on the machine, and that Handset has a set up for receiving the feedback information and connected to the control device feedback receiver.

Radio remote control according to claim 3 or 5, characterized in that the control unit is adapted to control commands for the depending on the received feedback information.

Radio remote control according to claim 5 or 6, characterized in that the handset is controlled by the control unit, the respective actual position and / or the current deviation of the actual position of the determined by the current position of the handset target position or / and the speed of movement of the Having movable machine parts performing optical and / or acoustic and / or haptic display device.

Radio remote control according to one of the preceding claims, characterized in that it comprises at least one output device associated with the handset (10), which is arranged such that in response to detected movements of the handset at least one output perceptible to the user, in particular an optical or / and acoustic and / or haptic signal generated on the handset. 9. Radio remote control according to claim 8, characterized in that the output means are arranged such that the perceptible for the user output is generated in response to signals output by the motion sensor. 10. Radio remote control according to claim 9, characterized in that the output means is set up such that the perceptible for the user output is generated stepwise depending on the achievement of output from the motion sensor specific signal strengths.

1 1. Radio remote control according to claim 10, characterized in that the output means is set up such that the output perceptible to the user is proportional to the output signal from the motion sensor. given signal strength is generated.

12. Radio remote control according to one of the preceding claims, characterized in that the control unit is arranged such that 5 detected by the or a movement sensor movements in a working rotation or tilting range of a maximum of about -45 ° to + 45 °, in particular -30 ° to + 30 °, to convert an associated horizontal turning or tilting axis into control commands for the machine. 13. Radio remote control according to claim 12 and one of claims 8 to

 1 1, characterized in that the output means is adapted to indicate an approximation to the maximum rotational or tilting movement and / or a leaving of the working rotation or tilting range by a corresponding perceptible to the user output i5.

14. Radio remote control according to claim 12 or 13, characterized in that the control unit is set up such that when leaving the working rotation or tilting area no further control commands

20 reason of detected movements are generated.

15. Operating method for a radio remote control of a machine with at least one controllable by the radio remote control machine drive a moving machine part, comprising the steps:

25 transmitted by a user to a handset (10) of the

 Radio remote control caused control commands from a transmitting device of the handset to the machine, in particular an associated receiving device, and

Detecting movements of the handset (10) in space by at least one tilt axis (KA, DA), wherein the sensed motions are converted in a motion mode of operation into control commands communicated to the machine, the motion mode of operation a user-defined input be (20) is activated on the handset (0),

 characterized in that when activating the movement operating mode (20), the current position of the handset in space is detected as the current reference position (22), so that movements relative to these 5 s current reference position can be detected (24) and as control commands to the machine can be transmitted (30).

16. Operating method according to the preamble of claim 15, characterized in that when activating the motion mode io current position of the handset is detected in space and compared with a predetermined reference position, and detected movements can only be transmitted as control commands to the machine when the handset has been brought at least approximately in the predetermined reference position, are detected to generate i5 of control commands movements relative to the predetermined reference position.

17. Operating method according to claim 15 or 16, characterized in that in response to detected movements at least one for the

20 user perceivable output, in particular an optical and / or acoustic and / or haptic signal is generated on the handset.