DE202010000968U1 - Handle for windows, doors or the like. - Google Patents

Abstract

Handle for a window, a door or the like with a measuring sensor (18, 20, 44), an evaluation device and a display device (56), the measuring sensor (18, 20, 44) being designed and arranged to prevent an external, to generate an output signal dependent on the handle, and the evaluation device is designed to evaluate the output signal and to control the display device (56) as a function of the output signal.

Description

The present invention relates to a handle for a window, a door or the like.

Handles for windows, doors or the like comprise a handle via which a fitting gear coupled to the handle can be actuated. With built-in handle, a user can switch the window or the door or the like between different locking states by turning the handle. For this purpose, the handle of the handle via the fitting gear with one or more locking devices of the window or the door is coupled

As a result of signs of wear, corrosion or contamination in the fitting mechanism or, in general, on the fitting, the operation via the handle can become stiff, so that the functionality of the window or the door is limited over time. In the worst case, this can lead to the fact that the fitting can no longer be operated and that the function of the handle is no longer guaranteed.

It is an object of the invention to provide a handle that monitors the health of a handle of a window, door or the like and allows for early detection or prediction of performance degradation or malfunction. The invention further relates to a fitting system with such a handle.

To achieve this object, a handle for a window, a door or the like is provided, which comprises a sensor and an evaluation device and a display device, wherein the sensor is designed to generate a dependent of an external, acting on the handle torque output signal and wherein the evaluation device is designed to evaluate the output signal and to control the display device depending on the output signal.

By the sensor, a torque or torque monitoring can be realized by generating an evaluated by an external, acting on the handle torque output signal and evaluated. By this monitoring and evaluation of the external torque acting on the handle, a load of the fitting mechanism and thereby in particular an actuation of the handle for switching the locking state of the window or the door can be detected.

Since an actuation of the handle is accompanied by a torque occurring in the handle, an actuation of the handle can be detected via the torque monitoring and, for example, by counting the operations a statement about the functional state are derived. Likewise, a stiffness of the handle can be detected by an exerted on actuation of the handle increased torque, from which also a statement about the functional state of the handle can be derived.

The information thus obtained can be communicated to the user directly via the display device connected to the evaluation device. This allows the user to initiate maintenance or similarly remedial action in the event of a critical health condition of the handle, so as to maintain operability and, in particular, avoid fatigue or destruction of the hardware or other hardware due to excessive loading. As a display device according to the invention can be understood both optical and acoustic display devices.

Advantageous embodiments of the invention are described in the subclaims.

Preferably, the handle including the sensor, the evaluation and the display device of the handle is designed so that the handle allows monitoring of the torque in a stand-alone operation. This means that the handle is designed such that the measuring sensor, evaluation device and display device form a unit with the handle and in particular are integrated in the latter. In particular, it is preferred if the handle is designed such that the torque monitoring can be implemented independently of components arranged outside of the handle. In this case, the handle according to the invention can readily be attached to conventional windows, doors or the like and provide the desired torque monitoring without the need for further changes to the window besides the mounting of the handle.

For the above-mentioned purposes, the handle may comprise a power supply device, in particular integrally formed with the handle, such as a battery or in particular also one or more solar cells which are connected to the sensor, the evaluation device and the display device in order to supply them with electricity.

According to the invention, the sensor of the handle is designed and arranged to produce an output signal dependent on an external torque acting on the handle. In the context of the invention, therefore, in principle any sensor is suitable which, with a suitable arrangement on the handle such torque can directly or indirectly, for example, by a deformation of the handle caused by the rotational force, to detect to generate a dependent on the rotational force, electrical output signal.

In this case, it is preferable if the sensor is designed and arranged such that it reacts with increased sensitivity to a rotational force which is directed around a rotation axis of the handle. The axis of rotation of the handle is defined for example by an axis about which a handle and / or a pin of the handle are rotatable.

According to an advantageous embodiment, the sensor is designed and arranged to measure the degree of rotation of a first portion of the handle relative to a second portion of the handle about an axis of rotation of the handle. In particular, the first section of the handle and the second section of the handle can be arranged in alignment with one another in the direction of the axis of rotation. The measurement of such a rotation of a first portion of the handle relative to a second portion of the handle can be particularly reliable information about the rotational force or the torque acting on the handle give. In addition, the sensor does not have to be attached directly to a point or several points of application of the torque on the handle, since the torque is measured indirectly. This is advantageous because such points of attack can be subject to increased wear.

The first and second portions of the handle are preferably formed by first and second portions of a pin of the handle extending in the direction of the axis of rotation. The pin can be designed in particular as a square pin. Such a pin may be rotatably mounted in a conventional manner in a base part of the handle about the axis of rotation and be connected for rotation by a user with a handle of the handle. An end portion of the pin is preferably formed for coupling with a fitting mechanism of the window or the door or the like. For example, the end of the pin can engage in a nut of a fitting gear, thus enabling the fitting to be driven via this handle.

The degree of rotation between the first and the second section should be at least large enough for manual operation usual rotational forces that a sufficiently sensitive measurement of the rotation is possible. For this purpose, the first and the second portion are preferably connected to each other via a connecting portion, which is formed so as to allow an elastic rotation of the first portion relative to the second portion of the handle about the axis of rotation of the handle.

In this case, the connecting portion may comprise a material which has a lower torsional rigidity than a material of the first portion of the handle and / or as a material of the second portion of the handle. The first and second sections may be made of metal, for example, and thus have a comparatively low torsional rigidity. If the connecting portion has a comparatively small torsional rigidity, a relatively large twist occurs in the connecting portion, which enables a correspondingly sensitive measurement.

In particular, the connecting section may be formed as a connecting layer extending between the first and the second section of the handle. Such a connection layer can be formed, for example, by a plastic part connected to the first and second sections, in particular adhesively bonded or screwed on.

According to a further embodiment, the connecting portion has a cross-sectional area which is reduced with respect to the cross-sectional area of the first portion of the handle and / or the cross-sectional area of the second portion of the handle. In this way, it can likewise be ensured that the connecting section as a whole offers a lower torsional resistance than the first and the second grip section, so that in turn a comparatively high torsion can occur in the connecting section.

The connecting portion may in principle be formed integrally with the first portion and the second portion of the handle. In this case, the connecting portion may consist of a taper of the first and second portion forming material, such as may be made by milling.

Alternatively, the connecting portion may include a projection non-rotatably connected to the first or second portion of the handle, which engages in a recess of the other of the first and second portion so as to cause a rotational drive between the first and the second portion about the axis of rotation. In this case, the projection may in particular be designed in the form of a pin and taper in the direction of the axis of rotation. The projection preferably has a non-round cross section, for example a substantially oval cross section.

According to an advantageous embodiment, at the first and / or the second section of the Handle provided obliquely to the axis of rotation inclined surface. By providing such inclined surfaces, the contact surface or connecting surface between the first and / or second portion and connecting portion can be increased, resulting in a more reliable connection, in particular when connecting the handle portions by extending between the handle portions layer. In addition, such a chamfer can partially deflect a rotation of the first and second sections caused by a rotational force into a displacement of both sections in the direction of the axis of rotation, as a result of which a particularly sensitive measurement can result.

According to an advantageous embodiment of the invention, an overload protection is provided, which is designed such that it restricts a rotation of the first portion of the handle relative to the second portion of the handle about the rotational direction to a maximum value. In particular, the overload protection on reaching the maximum value of the rotation, the first and the second portion of the handle for common rotation rotatably coupled with each other. If due to excessive rotational forces of the connecting portion is damaged or destroyed, so that no rotationally fixed connection between the first and second section longer exists, can be ensured in this way further unrestricted operability of the handle. The overload protection limits a rotation of the first portion relative to the second portion and thus enforces a rotational drive between the two grip portions when reaching the maximum value of the rotation.

Preferably, the overload protection comprises an attachment of the first or second portion of the handle, which abuts against a stop of the other of the first and second portions of the handle, when the rotation between the first and the second portion of the handle reaches the maximum value about the axis of rotation. In this way, a particularly effective rotational drive between the first and second section can be ensured.

According to a further advantageous embodiment, the measuring sensor comprises a strain gauge, which is fastened in a first region to the first portion of the handle and is fastened in a second region to the second portion of the handle. In the case of a rotation of the first portion relative to the second portion, the strain gauge mounted on both sides of the first and second portions is stretched to provide an output dependent on the rotational force causing the rotation. In order to optimize the sensitivity of this measurement, the strain gauge is preferably oriented along the axis of rotation.

The sensor may also include a resistance sensor comprising a support having a resistance material applied to the support and a sliding contact member, the support being fixed to one and the sliding contact member being attached to the other of the first and second portions of the handle such that the sliding contact member in contact with the resistance material. Resistance carrier and sliding contact element form a potentiometer together with the first and the second handle portion. The resistance material preferably describes a portion of a circular path circulating about the axis of rotation. A relative rotation of the first and second handle portions may then be measured by a change in electrical resistance due to a change in the position of the sliding contact member relative to the resistance member.

Likewise, the sensor may include an incremental encoder, in particular an optical incremental encoder. In this case, the sensor provides a signal that depends on the change in relative rotation between the first and second handle portions, thereby providing an indication of the torque applied to the handle. In order to determine the absolute value of the rotation, the signal of the sensor can be monitored over a period of time and in particular integrated.

According to a further embodiment, the sensor comprises a pressure sensor, which is provided on a surface of a coupling portion of the handle, wherein the surface is formed to form an undercut with a surface of the negative feedback portion for rotationally fixed coupling of the coupling portion with a counter coupling portion of a fitting gear. By such a sensor, the rotational force can be measured directly at the point of application of the rotational force, which can result in a particularly accurate and selective measurement. The surface of the coupling portion may be formed by, for example, a surface in an end portion of a square pin. The surface of the negative feedback portion may be formed, for example, by the inner surface of a nut of a fitting gear of a window or a door or the like.

The evaluation device of the handle is preferably designed to monitor, on the basis of the output signal of the measuring transducer, whether a rotational force exerted on the handle exceeds a first threshold value. Additionally or alternatively, the evaluation device can be designed to monitor whether a rotational force exerted on the handle exceeds a second threshold value, in particular, wherein the second threshold is higher than the first threshold.

Preferably, the first threshold is adjusted to correspond to a torque value that is slightly less than the torque that a user must apply to actuate the mounted handle when the handle and fitting are functioning normally and have no increased wear, contamination, or soiling. , Signs of corrosion or fatigue.

If an exceeding of the first threshold value is detected, an actuation of the handle by a user can thus be concluded. From the sum of the operations performed by a user can then be concluded on a functional state of the handle and fitting and thus on a need for maintenance. Preferably, the evaluation device is therefore designed to count a number of transgressions of the first threshold value and to effect a corresponding display on the display device when a predetermined number is exceeded. Such a display may consist, for example, in the lighting of a corresponding LED of the display device. Additionally or alternatively, the exact count of the operations can be displayed. Preferably, the handle comprises a control element with which a detected number of actuations can be reset to a predetermined value.

The second threshold is preferably adjusted to correspond to the rotational force that a user must exert to operate the mounted handle when there is a stiffness of the handle due to wear, corrosion, contamination, fatigue, or the like, which is in need of service points. Preferably, the evaluation device is designed to generate a corresponding display on the display device even when the second threshold value is exceeded once by the rotational force. This display may consist, for example, in the lighting of an LED of the display device.

The display device may include a plurality of LEDs to generate the different displays. It is also possible to use multicolored LEDs or to use an LED flashing to realize a plurality of user-distinguishable displays with the same LED.

Preferably, the handle comprises an operating element with which a calibration of the rotational force determined by the evaluation device in the current state of the grip can be carried out.

The invention further relates to a fitting arrangement for a window, a door or the like with a handle as described above. Preferably, the handle is mounted on the window or the door or the like and coupled with a fitting that by turning the handle about its axis of rotation is an actuation of one or more locking elements of the fitting.

Hereinafter, the present invention will be described purely by way of example with reference to an advantageous embodiment with reference to the accompanying drawings. Show it:

1 a schematic longitudinal section through a portion of a pin of a handle according to the invention according to a first embodiment;

2 a schematic longitudinal section through a portion of a pin of a handle according to the invention according to a second embodiment;

3 a schematic longitudinal section through a portion of a pin of a handle according to the invention according to a third embodiment;

4 a schematic longitudinal section through a portion of a pin of a handle according to the invention according to a fourth embodiment;

5a a schematic longitudinal section through a portion of a pin of a handle according to the invention according to a fifth embodiment;

5b one along the line AA 'of 5a cut view of the pen of 5a ;

6a a schematic longitudinal section of a portion of a pin of a handle according to the invention according to a sixth embodiment;

6b a cross section along the line AA 'of 6a ;

7 a plan view of a portion of a pin of a handle according to the invention according to a seventh embodiment;

8a a perspective view of a handle according to the invention according to an eighth embodiment;

8b a side view of the handle of 8a ;

9a a perspective view of a pin of a handle according to the invention according to a ninth embodiment;

9b an exploded view of the first and second handle portions of 9a ;

9c a longitudinal section along the line AA 'of 9a ;

9d each a front view of the first handle portion and the second handle portion of 9a c;

10a an exploded view of a first and a second portion of a handle according to the invention according to a tenth embodiment;

10b a longitudinal section of the handle of 10a ;

10c each a front view of the first handle portion and the second handle portion of 10a , b;

11a a perspective view of a square pin of a handle according to the invention according to an eleventh embodiment;

11b an exploded view of the first and second portions of the handle of 11a ;

11c a longitudinal section of the handle of 11a , b; and

11d each a front view of the first handle portion and the second handle portion of 11a c.

1 shows a plan view of a portion of a pin of a handle according to the invention according to a first embodiment. The pin is a square pin 10 or, for example, a polygonal pin extending in the direction of a rotation axis 11 extends from the pen. In principle, however, it would also be possible to use a pin with a round or polygonal cross-section.

The square pencil 10 includes a first section 12 and a second section 14 passing through a connecting section 16 connected to each other.

The connecting section 16 has a layer of permanently elastic material extending between the first and second sections 12 . 14 extends and is with the first and the second section 12 . 14 connected to an elastic twisting of the first section 12 relative to the second section 14 around the axis of rotation 11 to enable.

The first and second sections 12 . 14 point in the area of the connection section 16 each roof-shaped inclined surfaces 17 on, which are complementary to each other. Due to the oblique design of the connecting surfaces 17 to the rotation axis 11 will be the interface between the first section 12 , the second section 14 and the connection section 16 increases, whereby the reliability of the connection is increased.

For measuring a rotational force acting on the handle is designed as a measuring transducer Dehmessstreifen 18 provided, which is parallel to the axis of rotation 11 is oriented. Be the first and the second section 12 . 14 relative to each other about the axis of rotation 11 twisted, the strain gauge is 18 stretched, so that it provides an output signal at its output, which represents the acting torque. Due to the inclined surfaces 17 will be a twist of the sections 12 and 14 each other in addition to a shift of both sections 12 . 14 to each other along the axis of rotation 11 implemented, causing the strain gauge 18 is stretched. The strain gauge 18 is near an outer edge of the square pin 10 arranged. This has the advantage that the strain gauge a relatively large distance from the axis of rotation 11 having. By this arrangement relative to the axis of rotation in a rotation, a particularly large strain of the strain gauge 18 and thus ensures a particularly large deflection of the output signal, so that the sensitivity of the torque measurement is increased.

In addition to the strain gauge 18 is as a further sensor a resistance sensor 20 provided a carrier 22 as well as one on the carrier 22 applied resistance material 24 includes that with the first section 12 are firmly connected. Furthermore, the resistance sensor comprises 20 a sliding contact element 26 that with the second section 14 firmly connected and with the resistance material 24 in contact. With a rotation of the first and the second section 12 . 14 relative to each other about the axis of rotation 11 the position of the sliding contact element changes 26 relative to the resistance material 24 , so that a change in the electrical resistance between the contact element 26 and one with the resistor material 24 connected electrode, which is at the output of the Widerstandaufnehmers 20 can be detected as an output signal.

The in 1 So handle shown so includes two sensors for measuring the force exerted on the handle torque. Both the strain gauge 18 as well as the resistance sensor 20 but can also be used alone. In principle, embodiments are within the scope of the invention possible with one sensor, two sensors or more than two sensors.

In the area of the connection is an overload protection 28 formed, one at the first pin portion 12 molded approach 30 includes. The approach 30 thus engages in a recess 32 of the second section 14 a that he is a rotational drive between the first and the second section 12 . 14 causes as soon as a twist of first and second section 12 . 14 exceeds a maximum value. For this purpose, the recess 32 in the radial direction an excess over the approach 30 on, so the approach 30 in the absence of an external torque in the recess 32 is freely rotatable and thus no rotational drive between the first and the second section 12 . 14 causes. Only from a certain twist the approach is tilted 30 so with the recess 32 delimiting, lateral inner walls 34 of the second section 14 in that, in a further relative rotation, a rotational drive between the first and the second section 12 . 14 he follows.

The maximum value of the rotation, from which a rotational drive by the overload protection 28 is effected, this is significantly greater than the maximum rotation, in a normal operation and intact connection section 16 is to be expected. For example, this expected twist can only be fractions of one degree. Thus, the overload protection intervenes only when, for example, the connecting section 16 is broken and thus the function of the handle is no longer through the connecting section 16 can be guaranteed.

2 shows a plan view of a portion of a pin of a handle according to the invention according to a second embodiment.

This embodiment differs substantially only from the execution of 1 that instead of roof-shaped inclined surfaces continuous inclined surfaces 17 of the first and second sections 12 . 14 in the area of the connection section 16 are formed.

3 shows a plan view of a portion of a pin of a handle according to the invention according to a third embodiment.

The third embodiment differs substantially only in the configuration of the connection portion 16 of the first and second embodiments and in that no strain gauge is provided.

The connecting section 16 includes one piece with the first section 12 of the square pencil 10 trained lead 36 that in a recess 38 of the second section 14 of the pen 10 engages that he a rotational drive between the first and the second section 12 . 14 around the axis of rotation 11 causes. This can be the advantage 36 as well as the recess 38 have a different cross-sectional shape of the circular shape, for example, an elongated, oval, rectangular or square cross-sectional shape.

In that the lead 36 about which the first section 12 with the second section 14 is coupled, one opposite to the cross-sectional area of the first section 12 has reduced cross-sectional area, is the torsional rigidity of the pen 10 in the area of the connection section 16 reduced, so that an elastic twistability of the first section 12 relative to the second section 14 is guaranteed.

The lead 36 runs here in the of the first section 12 trailblazing direction. The recess 38 is completely complementary to the projection in the present embodiment 36 trained so that the projection 36 fully to the recess 38 bordering walls of the second section abuts. head Start 36 and recess 38 but could also be designed so that only partially a plant of projection 36 and recess 38 is guaranteed, the lead 36 and recess 38 rotatably coupled together for the purpose of rotational drive.

4 shows a plan view of a portion of a pin of a handle according to the invention according to a fourth embodiment.

The third embodiment differs substantially only in the configuration of the connection portion 16 from the third embodiment. The connecting section 16 is contrary to the execution of 3 one-piece with both the first section 12 as well as with the second section 14 executed. The connecting section 16 consists of a section of the pen 10 which is one opposite the cross-sectional areas of the first and second pin portions 12 . 14 has a reduced cross-sectional area. Such a connecting section can be produced, for example, by milling a pin which has a cross-sectional area substantially constant over the pin length.

5a shows a longitudinal section of a portion of a pin of a handle according to the invention according to a fifth embodiment. The fifth embodiment is substantially the same as in 4 illustrated fourth embodiment, wherein according to the fifth embodiment of the handle, the connecting portion 16 , as in 5b shown one Has cross-section around the axis of rotation 11 is symmetrical around and not to the edge of the cross section of the first or second pin portion 12 . 14 extends. For better clarity, the resistance sensor is in 5b not shown.

6a shows a longitudinal section of a portion of a pin of a handle according to the invention according to a sixth embodiment. This embodiment essentially corresponds to that in FIG 3 illustrated third embodiment, wherein according to the sixth embodiment, the connecting portion 16 a lead 36 of the first pin section 12 and a complementary shaped recess 38 of the second pin section 14 includes, wherein the projection 36 , as in 6b shown having an oval cross-section which is about the axis of rotation 11 runs around and not to the edge of the cross section of the first or second pin portion 12 . 14 extends. For better clarity, the resistance sensor is in 6b not shown.

7 shows a plan view of an area of a square pin 10 a handle according to the invention according to a seventh embodiment.

In this embodiment, the sensor is a pressure sensor 44 formed in one end portion of the square pin 10 on a surface 45 of the square pencil 10 is arranged and in the square pin 10 is admitted.

The end area of the pen 10 at which the pressure sensor 44 is arranged for non-positive reception in an in 7 dashed line indicated nut 46 with a recess also indicated by dashed lines 48 a fitting of a window, a door or the like formed around the pin 10 to couple the handle with the fitting.

When turning the pen 10 becomes the pressure sensor 44 against a surface of the nut 46 pressed, with which the pressure sensor 44 forms an undercut, so that on the pin 10 acting torque at the pressure sensor 44 can be measured. The pressure sensor 44 is to the center of the pen surface 45 spaced apart. This is advantageous because in the area of the edges of the pen the greatest pressure forces result, so that a particularly high sensitivity results.

8a shows a perspective view of a handle according to the invention according to an eighth embodiment. 8b shows a side view of the handle of 8a ,

The handle includes a handle 50 facing a base formed as a handle rosette 52 the handle is rotatably mounted. The base part 52 is designed for attachment of the handle to a window, a door or the like and includes for this purpose fastening elements, which in the present embodiment as screws 54 are formed.

The handle 50 is rotatable with a pen 10 connected. In this case, the pin can in particular correspond to the pin according to one of the above-described embodiments 1 to 6 or according to one of the embodiments 9 to 11 described below. The sensor (s) are in 8a , b not shown for clarity. handle 50 and pen 10 are in the base part 52 around the axis of rotation 11 rotatably mounted. The output signal of one in the region of the connection section 16 arranged, in 8a , b sensor, not shown, of one in the base part 52 evaluated evaluation arranged evaluated. Depending on the evaluation, a display device with LEDs 56 , which is visible from the outside on a front side of the base part 52 are located, controlled.

The connecting section 16 can in principle also be in a section of the pen 10 which is enclosed by the base part so that the connection section 16 is protected from external influences by the base part.

9a -D show a square pin 10 a handle according to the invention according to a ninth embodiment. As in 9b -D is the first pen section 12 in the area of the connection section 16 formed truncated pyramid. The second pin section 14 is designed to be complementary in the region of the connection. At the top of the truncated pyramid 58 of the first section 12 is an approach 30 molded, with a corresponding recess 32 of the second pin section 14 an overload protection 28 forms. The recess 32 points opposite to the approach 30 an excess.

10a -C show a pen 10 a handle according to the invention according to a tenth embodiment. The sensor is in the 10a C is not shown, and may, for example, analogous to the embodiments of the 1 to 6 or 9 be formed and arranged.

The pencil 10 has in the present embodiment on a round cross-section. The second pin section 12 goes at one end into a square pin section 60 over, which is designed for frictional engagement in a nut of a fitting.

In the area of the connection section 16 is the first pen section 12 truncated cone-shaped. The second pin section 14 is complementary to the truncated cone 62 educated.

At the top of the truncated cone 62 of the first section 12 is an approach 30 molded, with a corresponding recess 32 of the second pin section 14 an overload protection 28 forms. The recess 32 points opposite to the approach 30 an excess.

At the in 10a C illustrated embodiment are the first and the second section 12 . 14 of the pen 10 and in addition the truncated cone 62 rotationally symmetric to the axis of rotation 11 educated. This has the advantage that at a rotation of the first and second sections 12 . 14 relative to each other about the axis of rotation 11 no tilting of the two sections 12 . 14 results. Such a design with truncated cone is also conceivable when the first and the second section 12 . 14 as in the embodiments 1 to 6 are formed by sections of a square pin.

11a -D show a pen 10 a handle according to the invention according to an eleventh embodiment. The training of the pen 10 is essentially the same as in 2 illustrated embodiment, wherein according to the in 11a -D shown eleventh embodiment, the overload protection 28 not to the edge of the cross section of the first and second pin section 12 . 14 extends.

LIST OF REFERENCE NUMBERS

10

Square spindle

11

axis of rotation

12.14

pin section

16

connecting portion

17

sloping surface

18

Strain

20

resistive sensors

22

carrier

24

resistance material

26

sliding contact

28

Overload protection

30

approach

32

recess

34

inner wall

36

head Start

38

recess

44

pressure sensor

45

surface

46

nut

48

recess

50

handle

52

base

54

screw

56

LED

58

truncated pyramid

60

Square spindle section

62

truncated cone

Claims (18)

Handle for a window, a door or the like with a sensor ( 18 . 20 . 44 ), an evaluation device and a display device ( 56 ), the sensor ( 18 . 20 . 44 ) and arranged to generate an output signal dependent on an external rotational force acting on the handle, and wherein the evaluation device is designed to evaluate the output signal and the display device ( 56 ) depending on the output signal. Handle according to claim 1, characterized in that the sensor ( 18 . 20 . 44 ) is arranged and arranged to reduce the degree of rotation of a first portion of the handle relative to a second portion of the handle about an axis of rotation (Fig. 11 ) of the handle, in particular wherein the first portion of the handle and the second portion of the handle in the direction of the axis of rotation ( 11 ) are arranged in alignment one behind the other. Handle according to claim 2, characterized in that the handle extends in the direction of the axis of rotation ( 11 ) extending pin ( 10 ), in particular a square pin, wherein the first portion of the handle by a first section ( 12 ) of the pen ( 10 ) and the second section of the handle is formed by a second section ( 14 ) of the pen ( 10 ) is formed. Handle according to claims 2 or 3, characterized in that the first and the second section via a connecting portion ( 16 ) configured to elastically twist the first portion of the handle relative to the second portion of the handle about the axis of rotation (Fig. 11 ) of the handle. Handle according to claim 4, characterized in that the connecting portion ( 16 ) has a material which has a lower torsional rigidity than a material of the first portion of the handle and / or as a material of the second portion of the handle, in particular wherein the connecting portion ( 16 ) is formed as a connecting layer extending between the first and second portions of the handle. Handle according to claim 4 or 5, characterized in that the connecting portion ( 16 ) has a cross-sectional area that is opposite the cross-sectional area of the first portion of the handle and / or the cross-sectional area of the second portion of the handle is reduced. Handle according to claim 6, characterized in that the connecting portion with the first portion and the second portion of the handle is integrally formed. Handle according to claim 6, characterized in that the connecting portion ( 16 ) by a non-rotatably connected to the first or second portion of the handle projection ( 36 ) is formed so in a recess ( 38 ) of the respective other of the first and second sections engages in that it receives a rotational drive between the first and second sections about the axis of rotation ( 11 ) causes. Handle according to at least one of claims 2 to 8, characterized in that at the first and / or the second portion of the handle an obliquely to the axis of rotation ( 11 ) running oblique surface ( 17 ) is provided. Handle according to at least one of claims 2 to 9, characterized in that an overload protection ( 28 ) is provided which is adapted to a rotation of the first portion of the handle relative to the second portion of the handle about the axis of rotation ( 11 ) is limited to a maximum value, in particular by non-rotatably coupling the first and the second portion of the handle for mutual rotation when the maximum value of the rotation is reached. Handle according to claim 10, characterized in that the overload protection ( 28 ) an approach ( 30 ) of the first or second portion of the handle which abuts against a stop ( 34 ) abuts the other of the first and second portions of the handle when the rotation between the first and second portions of the handle reaches the maximum value about the axis of rotation. Handle according to at least one of claims 2 to 11, characterized in that the sensor ( 18 . 20 . 44 ) a strain gauge ( 18 ), wherein the strain gauge ( 18 ) is secured in a first region to the first portion of the handle and secured in a second region to the second portion of the handle. Handle according to at least one of claims 2 to 12, characterized in that the sensor ( 18 . 20 . 44 ) a resistance sensor ( 20 ) comprising a support ( 22 ) with one on the support ( 22 ) applied resistance material ( 24 ) and a sliding contact element ( 26 ), the carrier ( 22 ) on one and the sliding contact element ( 26 ) are attached to the other of the first and second portions of the handle such that the sliding contact element ( 26 ) in contact with the resistance material ( 24 ) and / or that the sensor ( 18 . 20 . 44 ) comprises an incremental encoder, in particular an optical incremental encoder. Handle according to at least one of claims 1 to 13, characterized in that the sensor ( 18 . 20 . 44 ) a pressure sensor ( 44 ) which is attached to a surface ( 45 ) is provided a coupling portion of the handle, wherein the surface ( 45 ) is formed to form an undercut with a surface of the negative feedback portion for non-rotatable coupling of the coupling portion with a negative feedback portion of a fitting gear. Handle according to at least one of the preceding claims, characterized in that the evaluation device is designed to monitor whether a torque exerted on the handle exceeds a first threshold, and / or is designed to monitor whether a torque applied to the handle exceeds a second threshold, in particular wherein the second threshold is higher than the first threshold. Handle according to claim 15, characterized in that the evaluation device is designed to count a number of transgressions of the first threshold value and to effect a corresponding display on the display device when a predetermined number is exceeded. Handle according to claim 15 or 16, characterized in that the evaluation device is designed to generate a corresponding display on the display device when the second threshold value is exceeded. Fitting arrangement for a window, a door or the like with a handle according to at least one of the preceding claims.

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