EP4376750A1 - Input unit for a medical instrument, and medical system comprising an input unit - Google Patents

Abstract

The invention relates to an input unit (10) for operating a medical instrument (12), comprising: a hollow shaft (14) extending along a longitudinal axis (L) for receiving steering wires (20); a tool (16) which is located on the distal side of the shaft (14) and is formed along an extension axis (E); and a control unit (18), which is located on the proximal side of the shaft (14), for manipulating the tool (16) by means of the steering wires (20). The input unit comprises first input means (22) for continuously converting, in a pivotal and/or rotational manner and preferably without interruption and/or absolutely, an ergonomically limited user input, in particular a natural user movement of movable first operating means, into an adjusting movement of the tool (16) in a first handling mode in order to pivot the tool to a limited extent relative to the longitudinal axis (L) and/or to rotate it to a limited extent about the extension axis (E) by means of the control unit (18).

Description

KARL STORZ SE & Co. KG

Input unit for a medical instrument and medical system with an input unit

The present invention relates to an input unit for operating a medical instrument according to the preamble of claim 1. The present invention also relates to a medical system having at least one input unit according to the invention and at least one medical instrument.

A generic input unit for operating a medical instrument is known from US Pat. No. 5,454,827 A, for example. The known medical instrument comprises a hollow shaft extending along a longitudinal axis for receiving steering wires, the shaft having a tool formed along an axis of extension on the distal side and a control unit on the proximal side, which is designed to manipulate the tool using the steering wires. The control unit has a spatially adjustable disk which is coupled to four steering wires and can pivot the tool relative to the longitudinal axis via pivoting members arranged on the distal side.

To control the manipulation of the medical instrument, a generic input unit with first input means is provided, which can be operated by the operator's hand. Ergonomic user inputs from the operator are thus implemented continuously, i.e. true to pivot and/or rotation, in the manipulation of the tool. In addition to simply pivoting the tool to influence the alignment, the tool can also be manipulated using operating means interacting with the index finger of the operator, for example to adjust a tool designed as a jaw part between an open and a closed state. Furthermore, a limited rotation of the tool can be implemented by rotating the gripped input unit, the rotation being represented by the natural freedom of movement of the hand and/or arm of the operator.

When controlling the medical instrument, the adjustment movements of the tool always follow the natural movements of the operator's hand or arm, specifically in an uninterrupted and/or absolute manner. In other words, the mechanically coupled tool continuously follows the operator's ergonomically limited user input, so that the operator is always in control of the tool and thus precise work is made possible during operational use.

As a result, the generic input units enable the precise implementation of minimally invasive medical operations, for example in order to take tissue samples, sew up tissue or carry out other operational actions in a sensitive environment.

A disadvantage of the known input unit is the limited and/or limited manipulation of the tool, since the mapping is true to pivoting and rotation of the natural movement of the user, which is why, in addition to the mechanical and/or structural limitation of the tool, there is also a limitation due to the degree of natural freedom of movement of the operator.

Furthermore, medical instruments are also known which, by means of a spindle, enable a range of mechanically limited rotations of the tool for a limited range of rotation. Input units are used for the control, which enable the tool to be controlled in a rotationally accurate manner, with the control being interrupted in order to overcome the operator's restricted freedom of movement, in that the operator grasps the first input means, or there is a brief interruption and/or decoupling between the input unit and the tool for resetting and/or returning the first input means, which is always associated with a momentary loss of control over the tool.

Furthermore, there is now a promising further development of the medical instrument described, which is described in DE 102019 121 092 A1 by the applicant. To put it simply, improved mechanics now make it possible for the tool to rotate endlessly about its axis of extension. Advantageously, the rotation of the tool can also be carried out independently of the pivoting of the tool, which is why the field of application of the medical instrument is significantly expanded. The control of such a further developed medical instrument is now problematic, since the control of an endless rotation can no longer be carried out by the pivoting and/or rotation-true mapping of the user movement. Since in operational use two tools are usually controlled using one hand of the operator, control using two-hand operation is ruled out. Furthermore, the operator should always retain control of the tool, so that there is always an uninterrupted coupling between the first input means and the tool, independently of the control of the endless rotational movement of the tool, so that the user movements can be pivoted and/or rotated on the tool with accuracy to map.

The present invention is therefore based on the object of proposing an input unit which overcomes the disadvantages known from the prior art. In particular, it is the object of the present invention to specify an input unit which, despite the continuous, pivoting and/or rotationally accurate conversion of a user input allows the control of an endless rotation of the tool.

Furthermore, the task consists in specifying a medical system with at least one input unit according to the invention and at least one medical instrument.

This object is solved by an input unit with the features of claim 1 ge. Furthermore, the object is achieved by a medical system according to the invention.

Advantageous developments of the invention are specified in the dependent claims. All combinations of at least two features disclosed in the description, the claims and/or the figures fall within the scope of the invention.

An input unit with first input means and second input means is provided within the scope of the present invention. The input unit according to the invention is designed for operating a medical instrument with a hollow shaft extending along a longitudinal axis for receiving guide wires, with a tool being arranged at a first or distal soapy end of the shaft, which extends along an axis of extension. Furthermore, a control unit for manipulating the tool by means of the steering wires is provided on a second or proximal end of the shaft. The first input means according to the invention are designed for the continuous, pivoting and/or rotationally accurate conversion of an ergonomically limited user input from an operator into an adjustment movement of the tool in a first handling mode, in order to move the tool relative to the longitudinal axis by the first input means using the steering wires via the control unit pivot and/or rotate about the extension axis. Due to the structural design of the shank, which is designed to be rigid in some areas, pivoting of the tool in relation to the longitudinal extension of the shank is only possible over a limited pivoting range. Furthermore, the rotation of the tool is only possible over a limited range of rotation, which is due to the natural mobility of the operator, in particular a hand of the operator gripping the first operating means, which then in relation to the continuous, i.e. absolute introduction of a rotation due to the structure of the human arm is limited in terms of range of rotation.

According to the invention, operating means for manipulating the tool are provided as the first input means, which are continuously, ie without an interruption in the coupling ment between the operating means and the tool, a translation, implementation and/or transformation of the ergonomically limited user input into the manipulation of the tool.

According to the present invention, the first input means are formed by a tweezers element coupled to a cardanic suspension via a carrier element, the tweezers element having two leg sections which are suspended via a bearing unit so that they can pivot relative to one another such that an operator of the input unit according to the invention enters Pivoting the two legs from sections can realize by gripping the two tweezer elements between thumb and forefinger to introduce a force to manipulate the tool. In this context, it is preferably provided within the scope of the present invention if the tool is designed as a jaw part, the closed position of the jaw part being controllable by pivoting the two legs from sections.

Furthermore, the tweezer element according to the invention comprises a pistol grip section which is arranged and/or aligned relative to the two leg sections such that the palm of the operator's hand is supported when performing the ergonomically limited user input in the first handling mode. According to the invention, the control of the tool in the first handling mode improves here, since when the pivoting and/or rotational movements are carried out, the force input from the operator's hand to the first input means through the pistol grip section is improved, which is why the tweezers element together with the pistol grip section is precise the three swivel axes of the gimbals can be moved.

Furthermore, the second input means are designed for at least partially, non-absolutely converting at least one further user input into an endless rotational movement of the tool about its axis of extension in a second handling mode.

Advantageously according to the invention, the second input means are arranged as second operating means either directly on the pistol grip section or in one of the two leg sections.

The pistol grip section advantageously enables the handling and/or ergonomics of the tweezer element according to the invention to be improved, in particular in the case of long to enable precise control of the tool during service times. Furthermore, the pistol grip section, which has a positive effect on the first handling mode, also makes it possible to accommodate the second operating means, which are designed to control the tool in the second handling mode.

In a development of the present invention, the second operating means are formed by a rotating element, in particular a rotary wheel, a feeler wheel or a rocker element that can be rotated in certain areas, which is accommodated by the pistol grip section, in particular by a lateral outer surface of the pistol grip section, in such a way that it protrudes in certain areas, such that it can be operated in the working position of the operator by means of the remaining fingers of the hand used to pivot the legs from sections, i.e. can be rotated or actuated, in order to detect the further user reingabe by operating the rotating element.

The trained rotating element, which can be operated independently of the tweezers element and the cardanic suspension, allows the tool to be operated in the second handling mode independently of the first handling mode, in order to control the endless rotation of the tool.

In a further development, it is provided in this context that the rotating element is mounted such that it can rotate about an axis of rotation and the axis of rotation extends essentially parallel to a longitudinal extension of the pistol grip section. The rotating element can thus advantageously be rotated by means of the free, ie unused fingers of the operator's hand. The alignment enables a particularly ergonomic operation of the second input means for controlling the tool in the second handling mode.

The rotating element is preferably designed as a rotary wheel or as a feeler wheel. The rotary wheel is preferably endlessly rotatable about the axis of rotation, the endless rotation of the tool being controllable by the direction of rotation and the rotational speed of the rotary wheel.

In the preferred embodiment of the rotating element as a feeler wheel, the direction of rotation of the tool is defined by two areas of rotation of the feeler wheel. So the jockey wheel is rotatable from a central rest position in two opposite directions of rotation in each case at least one end position or setting position, wherein it is in the respective End position or setting position for activating a permanent rotational movement of the tool comes. Particularly preferably, two or more setting positions are also provided, in which the permanent rotation of the tool can be activated at different rotational speeds.

In an alternative, preferred embodiment of the present invention, the second operating means are formed by at least one switching element, which is formed for switching between the first handling mode and the second handling mode. The rotation mechanism of the cardanic suspension can thus advantageously also be used for controlling the second handling mode in addition to detecting rotational movements in the first handling mode. After activating the control of the second handling mode by actuating the switching element, the tweezers element can be rotated together with the pistol grip section into a left setting position and a right setting position, with the left setting position activating an endless rotary movement of the tool on the left and the right one Setting position activating a right endless or permanent rotation movement of the tool is activated. In this case, there is thus a decoupling between user movement and rotational movement of the tool.

On the other hand, in the first handling mode, there is a rotation-true mapping of the user's movement onto the tool, which can therefore only be rotated as far as the freedom of movement of the hand and/or arm of the operator allows.

Alternatively, the second operating means can also be formed by a first switching element and a second switching element. In this context, it is preferred if the first switching element is designed in such a way that a first switching state can be activated by the permanent or brief actuation of the first switching element in order to activate a permanent left rotary movement of the tool and if the second switching element is designed in such a way that a second switching state can be activated by the permanent or brief actuation of the second switching element in order to activate a permanent right rotation movement of the tool. Furthermore, the first and the second switching element are designed in such a way that in a third switching state the tool does not perform any rotational movement, so that in the third switching state in the preferred embodiment of the tool as a jaw part, a gripping and/or cutting functionality can be achieved by means of the thumb and forefinger interacting to control tweezer element. differently pressed is preferably activated by the permanent or brief actuation of the first switching element, a rotational movement of the tool in the left direction and permanent or brief actuation of the second switching element is a Rotati onsbewegung of the tool in the right direction can be activated. In this context, the two switching elements are preferably arranged in the pistol grip section, more preferably in an outer side area of the pistol grip section that can be freely reached by the remaining fingers of the operator's hand when rotating and/or pivoting the cardanically suspended tweezers element.

In a further alternative embodiment of the present invention, the leg section comprises an upper leg section and a lower leg section, the upper leg section and the lower leg section being pivotable together about a first pivot axis, in particular to manipulate the tool designed as a jaw part. In addition, the upper leg section is mounted so that it can pivot about a second pivot axis relative to the lower leg section, the second pivot axis being in particular aligned orthogonally to the first pivot axis. In other words, the control of the second handling mode can preferably be implemented by interlacing the upper leg section relative to the lower leg section in order to control the endless or permanent rotation of the tool.

The preferred orthogonal alignment of the first pivoting axis to the second pivoting axis advantageously enables the first handling mode to be controlled and/or operated independently of the second handling mode. In other words, at the same time as introducing a pivoting movement for pivoting the upper leg section and the lower leg section together, a further pivoting movement for pivoting the upper leg section relative to the lower leg section can be introduced into the tweezers element in order to immediately stop the endless rotation of the tool to control or to activate the second handling mode.

In a further development of the present invention, the leg section includes a finger loop in an end region, which is preferably ring-shaped in order to be able to introduce an opposing force for returning the leg sections to the tweezers element when the leg sections are pivoted. The finger loop is therefore arranged at the end of the leg section to accommodate the finger and the thumb and is dimensioned in terms of diameter in such a way that it is designed to accommodate an index finger and/or a thumb.

Particularly preferably, the finger loops are arranged at the ends of the upper leg section, since a force for pivoting the upper section's relative to the lower leg section can thus also be introduced into the tweezers element particularly easily.

Finally, as part of a further preferred embodiment, it is provided that the tweezer element comprises energy storage means, with the leg sections being able to be pivoted against the force of the energy storage means from the rest position about the first pivot axis and/or the second pivot axis, after manual pivoting of the leg sections to realize automated and / or automatic resetting of the leg sections in the rest position by the energy storage means. In this context, it is particularly preferred if the energy storage means are designed as a spring element, in particular a tension spring or compression spring. Operating the first handling mode and/or the second handling mode for controlling the tool is thus advantageously simplified, since the operator only has to apply a unidirectional force, ie a force directed in one direction, to the leg sections.

In addition, within the scope of the present invention, protection is claimed for a medical system, in particular an end effector and/or a surgical robot, which has at least one input unit according to the invention and a medical instrument.

The medical instrument includes a hollow shaft extending along a longitudinal axis, a control unit, and a tool for operative use.

The shank is configured to receive steering wires for mechanically steering the tool, the tool being disposed at a distal end of the shank and extending along an axis of extension.

At the proximal end of the shank is the control unit, which is in operative connection with the tool via the steering wires, in order to guide the tool in a first To pivot handling mode, in particular to pivot limited and to rotate be limited, the tool can also be rotated endlessly via the control unit in a second handling mode.

A preferred medical instrument is described in DE 102019 121 092 A1 by the applicant, with full reference being made to the corresponding disclosure and the disclosed features of the medical instrument as being for the invention as part of a further development are hereby incorporated in their entirety into the application. be obtained.

The medical instrument preferably has a spatially adjustable disk in order to pivot the steering wires along the longitudinal axis of the shaft, the disk being rotatable about the longitudinal axis together with the shaft and the steering wires, and the control unit preferably being designed to pivot the disk.

The tool is preferably designed as a jaw part, in particular a jaw clamp, forceps, intestinal forceps, scissors, a needle holder, a probe hook or the like.

Further advantages and details of the invention result from the following description of preferred embodiments of the invention and on the basis of only schematic drawings.

Other embodiments, as well as some of the advantages associated with these and other embodiments, will become apparent and better understood through the following detailed description with reference to the accompanying figures. Items or parts thereof that are substantially the same or similar may be given the same reference numbers. The figures are only a schematic Dar position of an embodiment of the invention. In the drawings, an embodiment is shown as an example of the invention. The drawings, the description and the claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into further meaningful combinations. Show it:

1 shows a perspective view of a medical instrument with an input unit according to the invention shown purely symbolically, in

2a to FIG. 2c: a perspective view of a tool of the medical instrument according to FIG

3a to FIG. 3c: a perspective view of the known tool from FIG

4 shows a first embodiment of the input unit according to the invention, in

FIG 5: a second embodiment of the input unit according to the invention and in

6 shows a third embodiment of the input unit according to the invention.

Identical elements or elements with the same function are provided with the same reference numbers in the figures.

FIG. 1 shows a medical system 1000 with a medical instrument 12 which can be operated using an input unit 10 according to the invention designed as a black box. The medical instrument 12 has a hollow shaft 14, the soapy proximal or at a proximal end 30 also represented only as a black box illustrated control unit 18 and distally or at a distal end 32 includes a tool 16, wherein the tool 16 with the Control unit 18 is connected via steering wires 20 in Wirkver.

The control unit 18 enables an endless rotational drive of the tool 16 shown in the figure, which is pivoted by 90°.

The tool 16 is a tool 16 provided with jaw elements 34, in particular a jaw part 17, the jaw elements 34 also being controlled by the control unit 18 are ver adjustable like pliers between an open state and a closed state in order to realize the gripping functionality of the jaw part 17 .

The tool 16 can be swiveled relative to the longitudinal axis L of the shank 14 via a joint mechanism 36, the joint mechanism 36 being formed by swivel members 38 arranged at the distal end 32 of the shank 14, which are connected via steering wires 20 running in the longitudinal direction L of the shank 14 are connected to a drive 40 (not shown in the figure) arranged at the proximal end 30 of the shaft 14, such that a movement of the drive 40 on the proximal side and a corresponding relative movement of the pivoting members 38 on the distal side cause the tool 16 to pivot.

A corresponding drive 40 is known, for example, from the already mentioned DE 102019 121 092 A1 of the applicant. The steering wires 20 are connected on the proximal side to a disk, not shown in the figure, which can be spatially pivoted and rotated by means of the drives 40 . The pivoting of the disc causes the steering wires 20 to partially stretch along the longitudinal axis L of the shaft 14 and that the tool 16, which extends in a z-direction of a Cartesian coordinate system, pivots proportionately about the spatial axes x, y of the Cartesian coordinate system by means of the joint mechanism 36 permit. The pivoting movements co _x , (about the spatial axes x, y thus enable a spatial alignment of the tool 16.

Due to the rotation of the shaft 14 together with the steering wires 20 about the longitudinal axis L, the tool 16 can also be rotated permanently or endlessly relative to the control unit 18 . By using the pivotable and rotatably mounted disc, the tool 16 can also be adjusted along the longitudinal axis L by the steering wires 20 at the same time for permanent rotation about the longitudinal axis L. As a result, the spatial orientation of the tool 16 can be compensated for during the permanent rotation of the shaft 14, with the tool 16 rotating about its axis of extension E with a rotation movement COE. If the tool 16 is in a non-pivoted state, the axis of extension E of the tool 16 corresponds to the longitudinal axis L of the shaft 14, ie it extends in the z-direction of the Cartesian coordinate system.

Since the steering wires 20 can rotate about the longitudinal axis L together with the shaft 14, an endless rotation about the longitudinal axis L or the extension axis E by means of the Drive 40 can be implemented without the steering wires 20 twisting into one another to form a cord and limiting or preventing control of the pivoting movement co _x , co _y .

In FIGS. 2a to 2c, to illustrate the functioning of the first input means 22 of the input unit 10 according to the invention, the principle of action when converting an ergonomically limited user input by an operator into a manipulation of the tool 16 designed as a jaw part 17 is shown schematically.

In FIG. 2a, the input unit 10 and the jaw part 17 are shown in a rest position or a basic position, each with markings 42 to clarify the alignment.

The first input means 22 are presently designed as a tangible cylinder, which is in operative contact with the control unit 18, not shown, by means of a cardanic suspension, not shown.

For simplification, it is assumed that the ergonomically limited user input is only limited to a rotation of the jaw part 17 about the axis of extension E in the first handling mode, which is why the degree of freedom of movement of the arm or hand limits the range of rotation.

In the first handling mode, the rotational movement w _z of the first input means 22 and the rotational movement COE of the tool 16 are rotationally true to one another, ie they have the same angular speeds in terms of amount.

In FIG. 2b, the first input means 22 were rotated counterclockwise by a first angular range XI, with this rotational movement being transmitted to the jaw part 17 at the correct angle. 2c from the position shown in FIG. 2b clockwise by a second angular range X2, the jaw part 17 also following the rotational movement of the first input means 22 at the correct angle.

With the ergonomically limited user input, the operator's hand always remains in contact with the first input means 22. In the first handling mode, there should therefore be no gripping or brief interruption between the input unit and the tool, since a continuous and preferably uninterrupted mapping of the first input means 22 introduced rotational movement w _z - in the Rotational movement COE of the jaw part 17 is to be realized. An operator therefore has continuous and uninterrupted control over the adjustment movement of the tool 16, in particular in order to be able to carry out precise, complex, minimally invasive interventions and/or medical operations in a sensitive field.

Due to the physiology of the human hand, the range of rotation is limited to a maximum angle of rotation of about ±90° around the resting position and thus a total of about 180° around the resting or basic position.

In FIG. 3a to FIG. 3c, in addition to the control of the tool release in the first handling mode, the tool 16 is also controlled via the second input means 24 in the second handling mode.

In the present case, the second input means 24 are formed by the identical tangible cylinder in order to realize the control of the tool 16 both in the first handling mode and in the second handling mode.

In FIG. 3a, as in FIG was mapped true to rotation and causes a corresponding rotation. The tool is thus controlled in the first handling mode.

In FIG 3b, the cylinder was rotated by a further user movement around the third angular range X3, which is larger than the first angular range XI, as a result of which the second input means 24 were guided to an end stop 44, in which an endless rotational movement of the jaw part was activated 17 is coming. The jaw part 17 thus rotates endlessly about its axis of extension E as a result of the additional user input 21.

The endless rotation of the tool 16 is interrupted again by returning the second input means 24 to the basic position according to FIG. 3c. The tool 16 does not follow the movement of the second input means 24 back into the basic position, so that the position of the markings 42 of the tool 16 and the input unit 10 can be adjusted relative to one another. It is thus advantageously made possible in the second handling mode by the second input means 24 that, in contrast to the operating principle of the first input means described with reference to FIGS. 2b and 2c in the first handling mode, the speed of the rotational movement COE is converted, at least in sections, not true to rotation in accordance with the further user input. However, further user input is still continuously coupled to the rotational movement COE of the tool 16 in order to always ensure complete control over the tool movement. Advantageously, the ergonomically operable range of rotation is expanded as desired from approximately ±90° to the rest position or basic position by the second input means 24 without the operator losing control of the jaw part 17 in the process.

FIG. 4 shows a first embodiment of the input unit 10 according to the invention for operating the endlessly rotatable medical instrument 12 known from FIG.

The illustrated input unit 10 according to the invention comprises first input means 22, which are designed for the continuous, pivoting and/or rotationally accurate detection and mapping of an ergonomically limited user input from the operator into an adjustment movement of the tool 16 in a first handling mode, around the tool 16 relative to the longitudinal axis L limited to pivot the shaft 14 and / or to rotate the extension axis E of the tool 16 limited to it.

The first input means 22 comprise first operating means for detecting the ergonomically limited user input of the operator, which in the present case are formed by a cardanically suspended tweezer element 200 .

The cardanic suspension 214 comprises a stationary, L-shaped stand element 215, which fixes and aligns the tweezer element 200 by means of at least two pivot bearings by a support element 202 comprised by the tweezer element 200.

The tweezer element 200 comprises two leg sections 204 which can be pivoted relative to one another about a common pivot axis or two pivot axes aligned parallel to one another, such that the two leg portions 204 move towards one another when pivoting.

Advantageously, the two leg sections 204 extend in such a way that they can be gripped between the thumb and forefinger in a working position of the operator in order to introduce a force into both leg sections 204 and thus out of the figurative illustrated rest position 206 to pivot. By pivoting the two leg sections 204, the tool 16 is advantageously manipulated, in which case it is particularly preferred if the tool 16 is designed as a jaw part 17 or equivalent action unit, which can thus be manipulated between an open and a closed position in order to in particular to control a cutting and/or gripping functionality.

Furthermore, the tweezer element 200 according to the invention comprises a pistol grip section 208, the longitudinal extent of which is essentially transverse to the longitudinal extent of the leg sections 204. The pistol grip section 208 of the tweezers element 200 serves as a hand rest for the operator in the working position, which is why precise and ergonomic operation of the tweezers element 200 is made possible.

In the context of detecting the ergonomically limited user input, it is provided not only that the two leg sections 204 will be pivoted, but also that the entire tweezer element 200 will be displaced from the illustrated rest position 206 due to the cardanic suspension, with the pivoting and/or Rotational movements of the tweezer element 200, that is to say all adjustment movements from the rest position 206 illustrated in the figure in the first handling mode, are recorded and are mapped onto the tool 16 true to pivoting and rotation.

Furthermore, the pistol grip section 208 comprises second input means 24 according to the invention, which are arranged as second operating means 210 on a side face of the pistol grip section 208 . The second operating means 210 are in the present case formed by a disc-shaped, round rotating element 212, which protrudes radially beyond the cylindrical pistol grip section 208 in some areas in such a way that it is advantageously possible for the operator to rotate the rotating element 212 in the working position using the remaining fingers of the fingers required to pivot the Leg portions 204 used hand can be operated. When supporting the operator's hand with the pistol grip section 208, both the adjustment of the tweezers element 200 is thus advantageously possible, with the second input means 24 also being able to be operated. Advantageously, this leads to an ergonomic configuration of the input unit 10 in order to enable precise control of the tool 16 in the first handling mode and in the second handling mode even during longer operations. The rotating element 212 shown in the figure can be rotated endlessly in the present case, with the rotational movement of the rotating element 212 being reproduced on the tool 16 in a manner that is true to the rotation or scaled. In addition, the tweezer element 200 preferably includes switching means in order to switch the transfer function in the second handling mode between an absolute and/or unscaled and a scaled transfer or between a first scaling and a second scaling.

An alternative embodiment of rotating element 212 is also preferably provided, in which rotating element 212 can be rotated from a rest position along a first direction of rotation into a first end position, with the first end stop activating an endless rotation of tool 16 in a first direction becomes. To end the rotational movement, the rotating element 212 must then be returned to the rest position. For activating an opposite rotational movement of the tool 16, the rotating element 212 has to be rotated from the rest position along a second, opposite direction of rotation into a second end position.

Furthermore, in an end portion of the leg sections 220 ring-shaped Fingerschlau fen 224 are arranged for receiving thumb and forefinger, which allow the return of the leg portions 220 in the rest position 206 by the introduction of a counterforce.

In addition, the tweezer element 200 includes energy storage means 226, not shown in detail, which allow the automated return of the legs from sections 204 to the rest position.

FIG. 5 shows a further embodiment of the present input unit 10 according to the invention. The input unit 10 shown in the figure comprises first input means 22 according to the invention and second input means 24 according to the invention.

The first input means 22 for the continuous, pivoting and/or rotationally accurate conversion of an ergonomically limited user input into an adjustment movement of the tool 16 in the first handling mode are also formed by a cardanically suspended tweezers element 200, which is why reference is made to the previous exemplary embodiment to avoid repetition . In contrast to the previous exemplary embodiment, the second input means 24 according to the invention are now formed by a first switching element 216 and a second switching element 218 which are arranged in a side surface of the pistol grip section 208 . The two switching elements 216, 218 can be actuated by applying a force in order to activate endless rotation of the tool 16. The direction of rotation of the tool 16 depends on the indexing element 216, 218 being pressed. Furthermore, a permanent rotation is possible through the subsequent pressing of the other switching element.

The direction of rotation can thus first be selected by actuating one of the two switching elements 216, 218, with a continuous rotation of the tool 16 then being able to be activated by actuating the switching element 216, 218 which has not yet been actuated. The tool 16 can thus advantageously be operated particularly precisely and ergonomically in the second handling mode.

Finally, FIG. 6 shows a further preferred embodiment of the input unit 10 according to the invention. The input unit 10 shown comprises a cardanically suspended tweezer element 200 for the design of the first input means 22, which, together with a pistol grip, section 208 relative to the stand element 215 of the cardanic suspension 214 is adjustable in order to map all ergonomically limited user inputs, such as pivoting and/or rotational movements, to the tool 16 in a true pivoting and/or rotational manner in the first handling mode.

As is already known in relation to the other exemplary embodiments, in addition to rotating and pivoting the entire forceps element 200, the two leg sections 204 can also be pivoted relative to one another in order to manipulate the tool 16, in particular to control the closed position of the jaw part 17 .

In the embodiment now shown, the second input means 24 are formed by a further pivoting mechanism of the leg sections 204 . For example, leg section 204 includes an upper leg section 220 and a lower leg section 222, which can be pivoted relative to a limited extent about a second pivot axis SW2, in order to thus detect the additional user input for controlling tool 16 in the second handling mode. The upper leg section 220 and the lower leg section 222 can also be pivoted together about a first pivot axis SW 1 in order to implement the pivot-true manipulation of the tool 16 in the first handling mode. Independent of this pivoting movement, it is also possible to pivot the upper leg section 220 relative to the lower leg section 222 about the second pivot axis SW2 Pivot axis SW2 runs.

Furthermore, in this embodiment, too, a finger loop 224 is provided at the end of kelabschnittes's 204 in order in particular to introduce a force for pivoting the upper leg section 220 relative to the lower leg section 222 .

The drawings, the description and the claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into further meaningful combinations. The invention relates to an input unit 10 for operating a medical instrument 12 with a hollow shaft 14 extending along a longitudinal axis L for receiving guide wires 20, with a tool 16 arranged on the distal side of the shaft 14 and formed along an axis of extension E, and a Control unit 18 arranged proximally on the shaft 14 for manipulating the tool 16 by means of the steering wires 20, comprising first input means 22 for the continuous, pivoting and/or rotationally accurate, preferably uninterrupted and/or absolute, implementation of an ergonomically limited user input, in particular a natural user movement of movable first operating means, into an adjustment movement of the tool 16 in a first handling mode, in order to pivot the tool 16 by means of the control unit 18 relative to the longitudinal axis L to a limited extent and/or to rotate it to a limited extent about the axis of extension E. Reference List

10 input unit

12 medical instrument

14 shank

16 tools

17 jaw part

18 control unit

20 steering wires

22 first input means

24 second input means

30 proximal end of the shaft

32 distal end of shaft

34 Jaw element of the tool

36 linkage mechanism

38 pivot link

40 drive

42 mark

44 end stop

200 gimballed forceps

202 carrier element

204 thigh sections

206 Rest position of the forceps element

208 pistol grip section

210 second controls

212 rotating element

214 gimbal see suspension

215 stand element of gimbal suspension

216 first switching element

218 second switching element

220 cut off upper leg

222 lower leg section

224 finger loop 226 force storage means

1000 medical system

E Tool extension axis

L Longitudinal axis of the stem

R axis of rotation

R2 axis of rotation of the rotating element

L2 Longitudinal axis of pistol grip portion

SW 1 first swivel axis

SW2 second swivel axis z' extension axis of the input unit x, y spatial axes of the medical instrument

COE rotation of the tool coz' rotation of the input unit cox, pivoting of the tool co _y pivoting of the tool

Claims

patent claims

1. Input unit (10) for operating a medical instrument (12) with a hollow shaft (14) extending along a longitudinal axis (L) for receiving steering wires (20), with a shaft (14) arranged on the distal side an extension axis (E) and a control unit (18) arranged proximally on the shaft (14) for manipulating the tool (16) by means of the steering wires (20), comprising first input means (22) for continuous, pivoting and / or rotationally accurate, preferably uninterrupted and / or absolute, conversion of an ergonomically limited user input, in particular a natural user movement of movable first operating means, into an adjustment movement of the tool (16) in a first handling mode in order to move the tool (16) by means of the control unit (18 ) to pivot relative to the longitudinal axis (L) to a limited extent and/or to rotate to a limited extent about the axis of extension (E), characterized in that d that the input unit (10) comprises second input means (24) for at least partially, non-absolutely converting at least one further user input into an endless rotational movement of the tool (16) about its axis of extension (E) in a second handling mode, the first input means (22) are formed by a tweezers element (200) gimballed via a carrier element (202) and comprising at least two leg sections (204) which are aligned and formed in such a way that they can be gripped between the thumb and forefinger of an operator in a working position in order to move the two Leg sections (204) are moved towards one another from a rest position (206) by means of an application of force in order to manipulate the tool (16), in particular a jaw part (17), the tweezer element (200) having one designed for placing the palm of the operator's hand on it in the working position comprises a pistol grip portion (208) and wherein the second ins operating means (24) are formed as second operating means (210) either on the pistol grip section (208) or on one or both leg sections (204).

2. Input unit according to Claim 1, characterized in that the second operating means (210) are formed by a rotating element (212) or rocker element, in particular a rotary wheel, a feeler wheel or a rocker switch, which is attached to the pistol grip section (208), in particular on a lateral outer surface of the pistol grip section (208) and/or arranged so that it protrudes in areas in such a way that it can be rotated or actuated in the operating position of the operator by the remaining fingers of the hand used to pivot the leg sections (204) in order to to serve the further user input.

3. Input unit according to claim 2, characterized in that the rotating element (212) can be rotated about an axis of rotation (R2) which runs essentially parallel to a longitudinal axis (L2) of the pistol grip section (208).

4. Input unit according to one of Claims 2 to 3, characterized in that the rotating element (212) can be rotated from a rest position along a positive angular range into a positive end stop and along a negative angular range into a negative end stop in order to rotate the tool (16) in the rotate positive end stop in a first direction and negative end stop in a second direction opposite to the first direction by further user input.

5. Input unit according to Claim 1, characterized in that the second operating means (210) are formed by at least one switching element for switching between the first handling mode and the second handling mode, wherein in the second handling mode the tweezers element (200) moves from the rest position (206) into a left end stop and into a right end stop, a permanent left rotary movement of the tool (16) being able to be activated in the left end stop and a permanent right rotary movement of the tool (16) being activatable in the right end stop.

6. Input unit according to Claim 1, characterized in that the second operating means (210) comprise a first switching element (216) and a second switching element (218), the first switching element (216) being designed in such a way that permanent or brief actuation of the first switching element (216) a first switching state can be activated in order to activate a permanent left rotary movement of the tool (16) and wherein the second switching element (218) is designed in such a way that by permanently or briefly actuating the second switching element (218) a second switching state can be activated in order to activate a permanent right rotary movement of the tool (16).

7. Input unit according to Claim 6, characterized in that the at least one switching element (214) or the first switching element (216) and the second switching element (218) are arranged on the pistol grip section (208), in particular on a side surface of the pistol grip section (208). is/are that in the operating position of the operator it can be rotated by the remaining fingers of the corresponding hand provided for pivoting the leg sections (204).

8. Input unit according to one of claims 1 to 7, characterized in that the leg section (204) comprises an upper leg section (220) and a lower leg section (222), the upper leg section (220) and the lower leg section (222) can be pivoted together about a first pivot axis (SW1), in particular to manipulate the jaw part (17), and wherein the upper leg section (220) can be pivoted relative to the lower leg section (222) about a second pivot axis (SW2). to control the further user input, in particular to rotate the jaw part (17), wherein the second pivot axis (SW2) is aligned in particular orthogonally to the first pivot axis (SW1).

9. Input unit according to one of Claims 1 to 8, characterized in that the leg section (204), in particular the upper leg section (220), comprises a finger loop (224), in particular an annular one, which in particular extends from the section (204) at the end of the leg is arranged.

10. Input unit according to one of Claims 1 to 9, characterized in that the tweezer element (200) comprises energy storage means (226), the leg sections (204) being pivotable out of the rest position (206) counter to the force of the energy storage means (226).

11. Medical system (1000), in particular end effector and / or surgical robot, with at least one input unit (10) according to the invention, which is designed according to one of claims 1 to 10, and with at least one medical instrument (12) comprising a hollow, itself shaft (14) extending along a longitudinal axis (L) for receiving guide wires (20) for a tool (16), the tool (16) for a medical application arranged on the distal side of the shaft (14) and configured along an axis of extension (E). on patients, a control unit (18) arranged proximally on the shaft (14), which is operatively connected to the tool (16) via the steering wires (20), in order to operate the tool (16) in a first handling mode and in a second handling mode to move.

12. Medical system according to claim 11, characterized in that the medical system (1000) comprises a spatially adjustable disc which is in operative contact with the steering wires (20) in order to guide the tool (16) by means of the steering wires (20) along the longitudinal axis (L) of the shank (14), the disc being endlessly rotatable about the longitudinal axis (L) together with the shank (14) and the steering wires (20).