DE102015225723A1 - Hand machine tool device - Google Patents

Abstract

The invention is based on a handheld power tool device having at least one operating unit (10a-p). It is proposed that the operating unit (10a-p) has at least one form-flexible operating element (12a-p; 14a, 14e-n; 16a-g, 16i, 16j, 16l-n, 16p; 18a, 18e-g, 18j, 18m , 18n).

Description

State of the art

Hand tool machines are known from the prior art, which comprise an operating unit, which have an operator-operable operating element. The operating element can be designed as a push button, as a pawl and / or as a slide switch.

Disclosure of the invention

The invention is based on a handheld power tool device having at least one operating unit.

It is proposed that the operating unit has at least one formflexibles operating element. In this context, a "handheld power tool device" should be understood as meaning, in particular, at least one part, in particular a subassembly, of a handheld power tool. In particular, the handheld power tool device may also comprise the entire handheld power tool. The hand tool can be designed as any, advantageously electrically trained, hand tool, such as gardening equipment, as a milling cutter, planer, as a drill, as a combination hammer, as a drill and / or chisel, as a drill, as a cordless screwdriver, as a battery Drill, as a saw and / or as a grinding machine or the like. In addition, the handheld power tool device can in particular at least one, advantageously designed as a machine housing, housing unit, which advantageously at least one, preferably exactly one handle portion, in particular for holding the power tool defines at least one, advantageously at least partially disposed in the housing unit, electronics unit, at least a, preferably at least partially arranged in the housing unit, drive unit, and / or a control unit, in particular for controlling an operation of the power tool, comprise.

Furthermore, a "control unit" should be understood to mean, in particular, a unit, in particular arranged on the housing unit, advantageously in operative connection with the electronic unit, the drive unit and / or the control unit, which unit is provided in particular depending on an actuation, a touch and / or by means of an input of parameters, at least one, advantageously exactly one, function to perceive, exercise, trigger and / or affect a state of a standing in operative connection with the operating unit and / or change. For this purpose, the operating unit particularly preferably comprises a plurality of operating elements, in particular at least two, at least three, at least four and / or at least five operating elements, which are advantageously provided to perceive and / or trigger a same function. By "provided" is intended to be understood in particular specially programmed, designed and / or equipped. The fact that an object is intended for a specific function should in particular mean that the object fulfills and / or executes this specific function in at least one application and / or operating state. By the fact that an object "influences" another object should in this context be understood in particular that the further object in the absence and / or inactivity of the object another state, another course, another quantity and / or another situation , in particular position and / or orientation, and / or assumes as in the presence and / or activity of the object.

Furthermore, an "operating element" should be understood to mean, in particular, an element that is advantageously directly operable, advantageously elongate and / or round, in particular by an operator, which is in particular provided to receive an input quantity from the operator during an operating procedure and, at least, advantageously one, advantageously exactly one, provides actuating surface. The control element can be designed as any control element, such as a locking switch, in particular to one, in particular optional, initiation of a lock, as a switch, in particular to a selection of an operating mode, as a release switch, in particular to a release of the drive unit, and / or advantageous as a power switch, which is particularly intended to be touched and / or operated by the operator, at least during a switch-on process and / or advantageously during operation of the power tool. Advantageously, the control element, in particular at least in the case of training as a power switch, it is designed as a deadman switch and in particular, in particular without actuation and / or locking, automatically moved back into an off position.

In this context, a "form-flexible operating element" should be understood to mean, in particular, an operating element which has at least two different, advantageously substantially different, in particular outer, shapes and / or can assume at least one operating state. Advantageously, the different outer shapes correspond to different operating positions, advantageously at least one off position and one on position, of the operating element. Preferably, the operating element by means of a control and / or advantageously a, in particular exerted on the actuating surface, in particular external, stimulus, such as For example, a change in temperature, a change in humidity, a change in brightness, a change in conductivity, a change in pressure, a capacitance change, an electromagnetic field, a voltage in the material and / or advantageously a mechanical force, from a first form in at least one, advantageously exactly one, second form can be transferred and / or movable. In particular, the form-flexible operating element is different from a, in particular translationally movable, push button and / or slide switch or the like. Advantageously, the form-flexible operating element is designed as a soft elastic layer, in particular with or without a harder edge layer. By the fact that two forms are "essentially different", it should be understood in particular that contours and / or surface contents of the shapes, in particular when viewed in at least one direction, are at least 2.5%, advantageously at least 5%, preferably at least at least 7.5%, and more preferably at least 10%, from each other. In particular, flexibility can be improved by a corresponding configuration of the handheld power tool device. In particular, an operating element can be positioned in a particularly flexible manner, whereby a space requirement can be reduced and / or an embodiment of the handheld power tool can be improved. In this case, in particular, a handheld power tool device can be provided, which is advantageously adaptable to different fields of use and / or can be used in different fields of application. In addition, advantageously, a reliability can be improved. In addition, in particular an almost space-neutral and advantageously robust control unit can be provided, which can also be advantageously used in existing hand-held power tools, in particular without having to make extensive design-technical changes to existing constructions. In addition, a service life and / or a fatigue strength can be particularly advantageously improved and, in particular, maintenance can be facilitated. Furthermore, advantageously, an efficiency, in particular a packaging space efficiency, a component efficiency, a production efficiency and / or a cost efficiency, can be improved.

Preferably, the operating element has an actuating surface of at least 3 cm ² , advantageously of at least 6 cm ² , preferably of at least 8 cm ² and particularly preferably of at least 12 cm ² , and is therefore designed in particular as a large-scale control element. In this way, in particular a particularly simple actuation of the operating element can be achieved.

Furthermore, it is proposed that the handheld power tool device has at least one housing unit, in particular the housing unit, which has already been mentioned, advantageously designed as a machine housing, and with which the operating element is integrally formed. In this context, "integral" should be understood to mean, in particular, at least materially bonded and / or formed with one another. The material bond can be produced for example by an adhesive process, a Anspritzprozess, a welding process, a soldering process and / or another process. Advantageously, it should be understood to be integrally formed in one piece and / or in one piece. Preferably, this is a piece of a single blank, a mass and / or a casting, such as in an extrusion process, in particular a single and / or multi-component extrusion process, and / or an injection molding process, in particular a one and / or multi-component injection molding process, produced. In particular, this makes it possible to provide a particularly robust and / or cost-effective handheld power tool device.

If the operating element is integrated flush in the housing unit, in particular a particularly inconspicuous and / or intuitively operated handheld power tool device can be provided. In addition, advantageously a particularly space-saving operating unit can be provided. The phrase "flush integrated" is to be understood in particular as meaning that the operating element forms part of the housing unit and / or steadily continues the housing unit, in particular without shoulders, gaps and / or elevations.

In one embodiment of the invention, it is proposed that the handheld power tool device has at least one housing unit, in particular the housing unit, which is advantageously designed as a machine housing, wherein the operating element is viewed in at least one cross section through the housing unit over at least 20%, advantageously over at least 40 %, preferably over at least 60%, and more preferably over at least 80%, of at least one entire contiguous circumferential length of the housing unit in the cross-section. In this context, it is particularly conceivable that the housing unit, in particular depending on a considered cross section through the housing unit, has exactly one, in particular contiguous, circumferential element and / or a plurality, in particular separate, circumferential elements. Particularly preferably, an actuating force for actuating the actuating surface of the operating element, in particular when held in the grip area, is at least essentially the same at least at a majority of all points of the actuating area. Under the phrase "at least substantially equal" should in particular It should be understood that an actuation force deviates from an actuation force averaged over the actuation surface by at most 20%, advantageously by at most 10%, preferably by at most 5% and particularly preferably by at most 2.5%. A "majority of all points" should be understood to mean in particular at least 70%, preferably at least 80% and particularly preferably at least 90% of all points. In this way, in particular a particularly simple operation can be achieved, which is advantageous at least substantially independent of a holding position of the power tool.

In addition, it is proposed that the handheld power tool device has at least one housing unit, in particular the previously mentioned, advantageously designed as a machine housing housing unit, which defines at least one handle area, in particular the previously mentioned grip area, in which the operating element at least partially, preferably at least a large part and particularly preferably completely. At least 55%, advantageously at least 65%, preferably at least 75%, particularly preferably at least 85% and particularly advantageously at least 95% are to be understood by the term "for at least a large part". In this way, in particular, an ergonomically particularly advantageous operation can be achieved.

Furthermore, it is proposed that the operating unit has at least one further operating element which has a different orientation relative to the operating element. The fact that two operating elements have a "deviating orientation" relative to one another is to be understood in particular as meaning that main extension planes of the operating elements and / or actuating surfaces of the operating elements include an angle, in particular a minimum, between 0 ° and 180 ° and advantageously between 30 ° and 150 ° and / or intersect. In particular, the main extension planes of the operating elements and / or actuating surfaces of the operating elements have a different orientation from one another in a parallel orientation relative to one another. A "main extension plane" of an object should be understood to mean, in particular, a plane which is parallel to a largest side surface of a smallest, in particular imaginary, cuboid, which just completely surrounds the object, and advantageously by a center, in particular a geometric center, of Quader runs. Advantageously, the further control element has a form-flexible design and preferably has an actuating surface of at least 3 cm ² , advantageously of at least 6 cm ² , preferably of at least 8 cm ² and particularly preferably of at least 12 cm ² . In this case, the further operating element is particularly advantageously arranged at least partially, preferably at least to a large extent and particularly preferably completely, in the grip area. In this way, in particular, a functional scope of the handheld power tool can be increased and / or an operation configured at least substantially independently of a stop position of the handheld power tool can be achieved.

A particularly flexible and / or efficient operation can be achieved, in particular, if the further operating element is at least substantially identical to the operating element. The term "at least substantially identical" should be understood to mean, in particular, apart from manufacturing tolerances, in the context of production engineering possibilities and / or within the scope of standardized tolerances.

It is also proposed that the handheld power tool device has at least one housing unit, in particular the previously mentioned, advantageously designed as a machine housing housing unit, which defines at least one handle area, in particular the previously mentioned grip area, over which the control unit to at least a large part and advantageous completely extends. In particular, the operating unit has exactly one, in particular large-scale and / or contiguous, operating element or advantageously several, in particular separate and / or objectionable, operating elements, in particular at least two, at least three, at least four and / or at least five controls, which in particular the handle area are arranged distributed. As a result, in particular a particularly user-friendly and / or ergonomic operation can be achieved, in particular independently of a holding position of the handheld power tool and / or a working position of the operator. In addition, an operation by left-handed and right-handed users can advantageously be made equally safe.

Preferably, the control unit has at least one pneumatically, hydraulically, electrically and / or optically formed detection unit, which is at least provided to detect actuation of the operating element, in particular pneumatically, hydraulically, electrically and / or optically, and advantageously to at least one further Unit, in particular the electronic unit, the drive unit and / or the control unit to forward. Advantageously, the detection unit has at least one active connection to the electronic unit, the drive unit and / or the control unit. In this way, in particular a particularly flexible detection of an operation can be achieved. In particular, in a pneumatic and / or hydraulic design can also advantageously a Influencing an operating unit by electromagnetic fields and / or electromagnetic interference can be minimized, resulting in particular an advantageously robust and / or durable construction results.

In a further embodiment of the invention it is proposed that the operating element and the detection unit are at least partially formed in one piece. In this context, it should be understood, in particular, that at least one component of the object and / or the object is integral with at least one component of the further object and / or the further object, such that an object with a further object is "at least partially formed in one piece" is trained. In this way, in particular a particularly space-neutral design can be achieved.

The hand tool device should not be limited to the application and embodiment described above. In particular, in order to fulfill a mode of operation described herein, the handheld power tool device may have a number different from a number of individual elements, components and units mentioned herein.

drawing

Further advantages emerge from the following description of the drawing. In the drawings, embodiments of the invention are shown. The drawing, 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 meaningful further combinations.

Show it:

1 a hand tool machine embodied as an angle grinder with a handheld power tool device, which comprises an operating unit with a plurality of operating elements, in a perspective view,

2 a first operating element and a second operating element of the operating unit in a first operating state in a sectional view,

3 the first operating element and the second operating element in a second operating state in the sectional view according to 2 .

4 a first operating element and a second operating element of an operating unit of a further hand-held power tool device in a first operating state in a sectional view,

5 the first control and the second control 4 in a second operating state in the sectional view according to 4 .

6 a first operating element and a second operating element of an operating unit of a further hand-held power tool device in a first operating state in a sectional view,

7 a first operating element and a second operating element of an operating unit of a further hand-held power tool device in a first operating state in a sectional view,

8th a hand tool machine designed as an angle grinder with a further handheld power tool device in a perspective view,

9 a hand tool machine designed as an angle grinder with a further handheld power tool device in a perspective view,

10 a hand tool machine designed as an angle grinder with a further handheld power tool device in a perspective view,

11 a hand tool machine designed as an angle grinder with a further handheld power tool device in a perspective view,

12 a trained as a cordless screwdriver hand tool with a further hand tool device in a perspective view,

13 a trained as a cordless screwdriver hand tool with a further hand tool device in a perspective view,

14 a trained as a cordless screwdriver hand tool with a further hand tool device in a perspective view,

15 a hand tool machine designed as a jigsaw with a further handheld power tool device in a perspective view,

16 a hand tool machine designed as a jigsaw with a further handheld power tool device in a perspective view,

17 a hand tool machine designed as a jigsaw with a further handheld power tool device in a perspective view,

18 a trained as an angle grinder hand tool with a further hand tool machine device, which includes a control unit with exactly one operating element, in a perspective view and

19 a first operating element and a second operating element of an operating unit of a further hand-held power tool device in a first operating state in a sectional view.

Description of the embodiments

1 shows a hand tool 36a in a schematic representation. The hand tool machine 36a is designed as a grinding machine, in the present case in particular as an angle grinder. The hand tool machine 36a is designed to be operated by a motor. In the present case, the hand tool is 36a designed as an electric hand tool. The hand tool machine 36a is wired and thus in particular mains operated. Alternatively, it is conceivable to design a hand tool as any other hand tool, such as a hammer drill, a chisel hammer, a percussion drill, a demolition hammer, a drill, a milling machine, a saw, a cordless screwdriver and / or gardening equipment. In addition, it is conceivable to form a handheld power tool wirelessly and thus in particular battery operated and / or battery operated.

The hand tool machine 36a has a handheld power tool device. The handheld power tool device comprises a housing unit 28a , The housing unit 28a is designed as a machine housing. The housing unit 28a is designed as an outer housing. Inside the housing unit 28a are at least a major part of the operation of the power tool 36a required components arranged. In addition, the housing unit defines 28a a grip area 30a , The grip area 30a is designed as a main grip area. The grip area 30a is on a side facing away from the front of the housing unit 28a arranged. The grip area 30a is at least substantially to a holding and / or guiding the power tool 36a intended

The handheld power tool device further comprises a processing unit 38a on. The processing unit 38a is in the front area of the housing unit 28a arranged. The processing unit 38a comprises at least one processing tool receptacle, which is used to receive an insert tool 39a is provided. Alternatively, it is conceivable that a processing unit directly corresponds to a processing tool.

For driving and / or operating the processing unit 38a the hand-held power tool device comprises a drive unit 40a , The drive unit 40a is inside the housing unit 28a arranged. The drive unit 40a includes a motor, in the present case in particular an electric motor. The drive unit 40a has at least one operative connection with the processing unit 38a on. For this purpose, the drive unit 40a include further units, such as at least one transmission. Alternatively, it is conceivable to design a drive unit as an internal combustion engine and / or hybrid engine.

For a power supply, the handheld power tool device further comprises a power supply unit 42a , The power supply unit 42a is designed in the present case as a grid connection. The power supply unit 42a has an operative connection with the drive unit 40a on. The power supply unit 42a is at least provided, in at least one operating state, the drive unit 40a to provide energy. Alternatively, it is also conceivable to form a power supply unit as a gasoline tank, as a fuel cell, as a battery and / or advantageously as an accumulator, in particular as an 18 V and / or 36 V accumulator. In particular, the power supply unit in this case can be permanently installed in a housing unit, in particular designed as a machine housing, and / or can advantageously be exchangeable and / or exchangeable.

In addition, the handheld power tool device comprises further units for operating the handheld power tool 36a , such as an electronic unit (not shown) and / or a, in particular electrical, control unit 44a , In the present case, the power supply unit 42a to a power supply of the electronic unit and the control unit 44a intended.

The handheld power tool device also has an operating unit 10a on. The operating unit 10a is on the housing unit 28a arranged. The operating unit 10a extends over much of the grip area 30a , In the present case, the operating unit extends 10a over much of the housing unit 28a , The operating unit 10a is intended to perform at least one function depending on an operation. This includes the operating unit 10a at least one operating element 12a . 14a . 16a . 18a , In the present case, the operating unit includes 10a a Plurality of controls 12a . 14a . 16a . 18a , in particular eight controls 12a . 14a . 16a . 18a , where in 1 only four of the controls 12a . 14a . 16a . 18a are shown. The controls 12a . 14a . 16a . 18a are elongated. The controls 12a . 14a . 16a . 18a each have an actuating surface 20a . 22a . 24a . 26a of at least 3 cm ² . The controls 12a . 14a . 16a . 18a are integral with the housing unit 28a educated. The controls 12a . 14a . 16a . 18a are flush in the housing unit 28a integrated. The controls 12a . 14a . 16a . 18a form part of the housing unit 28a , The controls 12a . 14a . 16a . 18a are arranged such that they at least a major part of the housing unit 28a cover. A switching force to operate the controls 12a . 14a . 16a . 18a is between 15 N and 50 N and preferably between 25 N and 35 N, so in particular the controls 12a . 14a . 16a . 18a when placing the power tool 36a not by a weight of the power tool 36a be operated. In addition, the controls are 12a . 14a . 16a . 18a formed in the present case, at least substantially identical. The controls 12a . 14a . 16a . 18a are formed flexible. The controls 12a . 14a . 16a . 18a consist of an elastic material. In the present case, the controls exist 12a . 14a . 16a . 18a made of a thermoplastic elastomer (TPE). Alternatively, it is conceivable to design at least one operating element differently. In this case, an operating element could for example be round and / or have any other shape. Furthermore, the control element could for example have a different shape from a flexible design embodiment, have an actuating surface smaller than 3 cm ² and / or protrude beyond a housing unit and thus in particular not be flush integrated into the housing unit. In addition, an operating unit could have a different number of operating elements, such as exactly one operating element and / or at least four, at least six and / or at least twelve operating elements. It is also conceivable that the controls consist at least partially of a different material from a thermoplastic elastomer, such as rubber or the like.

In the present case, the operating unit includes 10a two groups of controls 12a . 14a . 16a . 18a where each of the groups of controls 12a . 14a . 16a . 18a in each case a plurality, in the present case in particular four, of the operating elements 12a . 14a . 16a . 18a are assigned and the different groups associated controls 12a . 14a . 16a . 18a are selectively operable and thereby trigger in particular a same function.

A first control 12a the controls 12a . 14a . 16a . 18a is a first group of groups of controls 12a . 14a . 16a . 18a assigned. The first control 12a is on one of the processing unit 38a and / or the insertion tool 39a opposite side of the housing unit 28a arranged. The first control 12a has a first actuating surface 20a with an area of about 16 cm ² . The first control 12a and / or the first actuating surface 20a extends over at least 25% of a main extension length of the housing unit 28a , In the present case, the first control element extends 12a and / or the first actuating surface 20a moreover, at most 75 % of the main extension length of the housing unit 28a , Furthermore, the first operating element 12a completely in the grip area 30a arranged. In this case, the first operating element extends 12a and / or the first actuating surface 20a over at least 90% and preferably over at least 95% of a major extension length of the grip region 30a , The first control 12a and / or the first actuating surface 20a further extends in a cross section through the housing unit 28a , especially the grip area 30a the housing unit 28a , considered at least 20% of an entire circumferential length of the housing unit 28a in the cross section. The first control 12a is designed as a power switch. The first control 12a is intended, in particular optionally, for operation of the power tool 36a to be operated by a server. The first control 12a has an operative connection with the drive unit 40a on. The first control 12a is intended to be an input size of an operator to control the drive unit 40a take. In addition, the first operating element 12a designed as a deadman switch.

Another first control 14a the controls 12a . 14a . 16a . 18a is the first group of groups of controls 12a . 14a . 16a . 18a assigned. The other first control element 14a is at least substantially identical to the first control element 12a educated. The other first control element 14a is spaced from the first operating element 14a arranged. The other first control element 14a is on a side wall of the housing unit 28a arranged. The other first control element 14a has a relative to the first control element 12a deviating orientation. In the present case, a main extension plane of the further first operating element closes 14a with a main extension plane of the first operating element 12a an angle of about 90 °. The other first control element 14a has a further first actuating surface 22a with an area of about 16 cm ² . The other first control element 14a and / or the further first actuating surface 22a extends over at least 25% of the main extension length of the housing unit 28a , In the present case, the further first operating element extends 14a and / or the further first actuating surface 22a moreover, at most 75% of the main extension length of the housing unit 28a , Furthermore, the further first operating element 14a completely in the grip area 30a arranged. In this case, the further first operating element extends 14a and / or the further first actuating surface 22a over at least 90% and preferably over at least 95% of the main extension length of the handle portion 30a , The other first control element 14a and / or the further first actuating surface 22a further extends in a cross section through the housing unit 28a , especially the grip area 30a the housing unit 28a , considered at least 20% of an entire circumferential length of the housing unit 28a in the cross section. The other first control element 14a is also designed as a power switch. The other first control element 14a is intended, in particular optionally, for operation of the power tool 36a to be operated by a server. The other first control element 14a has an operative connection with the drive unit 40a on. The other first control element 14a is intended to be an input size of an operator to control the drive unit 40a take. In addition, this is the first additional control element 14a designed as a deadman switch.

In addition, the operating unit points 10a two more first, the first group of groups of controls 12a . 14a . 16a . 18a associated, controls, which to the first control element 12a and the other first operating element 14a are formed at least substantially identical and on a to the first control element 12a and the other first operating element 14a opposite side of the housing unit 28a are arranged. Accordingly, on all sides of the grip area 30a at least substantially identically formed and designed in particular as a power switch and deadman switch first controls 12a . 14a arranged, each of the first controls 12a . 14a optionally to an operation of the power tool 36a is operable by an operator. As a result, the power tool 36a be operated in all holding positions and in particular also using a deadman switch in an ergonomic manner, which advantageously occupational safety can be increased. In addition, an operation by left-handed and right-handed users can advantageously be made equally safe. In addition, especially in the operating sequence: Hand tool 36a Take hold, hold and switch on, occupy working position, hold forces and torques, hold and switch off, hand tool machine 36a lay down; a particularly flexible operation and a working and operating safety are guaranteed.

A second control 16a the controls 12a . 14a . 16a . 18a is a second group of groups of controls 12a . 14a . 16a . 18a assigned. The second control 16a is on the processing unit 38a and / or the insertion tool 39a opposite side of the housing unit 28a arranged. The second control 16a has a second actuating surface 24a with an area of about 3 cm ² . The second control 16a and / or the second actuating surface 24a extends over about 3% to 5% of the main extension length of the housing unit 28a , Furthermore, the second operating element 16a outside the grip area 30a arranged. The second control 16a and / or the second actuating surface 24a extends in a cross section through the housing unit 28a considered at least 20% of a total circumferential length of the housing unit 28a in the cross section. The second control 16a is designed in the present case as a release switch and allows in particular a two-way switching. The second control 16a is intended, in particular optionally, to a release of an operation of the power tool 36a to be operated by a server. The second control 16a is intended to be an input size of an operator to a release of the drive unit 40a take.

Another second control 18a the controls 12a . 14a . 16a . 18a is the second group of groups of controls 12a . 14a . 16a . 18a assigned. The second control element 18a is at least substantially identical to the second control element 16a educated. The second control element 18a is spaced from the second operating element 16a arranged. The second control element 18a is on the side wall of the housing unit 28a arranged. The second control element 18a has a relative to the second control element 16a deviating orientation. In the present case, a main extension plane of the further second operating element closes 18a with a main extension plane of the second operating element 16a an angle of about 90 °. The second control element 18a has a further second actuating surface 26a with an area of about 3 cm ² . The second control element 18a and / or the further second actuating surface 26a extends over about 3% to 5% of the main extension length of the housing unit 28a , Furthermore, the other second operating element 18a outside the grip area 30a arranged. The second control element 18a and / or the further second actuating surface 26a extends in a cross section through the housing unit 28a considered at least 20% of a total circumferential length of the housing unit 28a in the cross section. The second control element 18a is also designed as a release switch and allows in particular a two-way switching. The second control element 18a is intended, in particular optionally, to a release of an operation of the power tool 36a to be operated by a server. The second control element 18a is intended to be an input size of an operator to a release of the drive unit 40a take.

In addition, the operating unit points 10a two more second, the second group of groups of controls 12a . 14a . 16a . 18a associated, controls, which to the second control element 16a and the other second operating element 18a are formed at least substantially identical and on a to the second control element 16a and the other second operating element 18a opposite side of the housing unit 28a are arranged. Accordingly, on all sides of the housing unit 28a at least substantially identically formed and designed in particular as a release switch second controls 16a . 18a arranged, each of the second controls 16a . 18a optionally to a release of an operation of the power tool 36a is operable by an operator. As a result, the power tool 36a be operated in all stop positions in an ergonomic way.

Alternatively, however, it is also conceivable to design operating elements and / or actuating surfaces of the operating elements of a group of operating elements in one piece and / or to provide only one, in particular a large-area, operating element. In addition, each group of controls could include a different number of controls. It is also conceivable to dispense with operating elements designed as a release switch, to execute operating elements designed as a release switch with a different feel and / or to actuate them in a direction deviating from a control element designed as a power-on switch. In addition, could be completely dispensed with different groups of controls. Furthermore, it is conceivable to design at least one operating element as a locking switch and / or changeover switch. In this context, it is also conceivable that an operating element can be provided for triggering a plurality of functions. Different functions, such as a locking switch function and a deadman switch function, can, for example, by means of a sequence of several actuations of the control element and / or several controls in a predetermined period, a size of an operating force acting on the control element, a movement, for example, at least one finger of an operator , in particular on an actuating surface, or the like, take place.

The following is now with reference to the 2 and 3 an operation of the first operating element 12a and the second operating element 16a described in more detail, the following description, in particular due to the at least substantially identical construction of the controls 12a . 14a . 16a . 18a also on the other controls 14a . 18a can be taken. The 2 and 3 show the example of the first control 12a and the second control 16a in two operating states in a lateral sectional view.

The first control 12a and the second control 16a are designed as form-flexible controls and in particular have at least two substantially different outer shapes (see also 2 and 3 ). A first outer shape corresponds in each case to a first operating position and a second outer shape to a second operating position of the operating elements 12a . 16a ,

In the present case, the second operating element 16a in an operation by means of a mechanical force at least from the first operating position, in the present case in particular a blocking position, (see. 2 ) in the second operating position, in the present case in particular a release position, (see. 3 ) movable. In the second operating position of the second operating element 16a there is a release of the power tool 36a , whereby a drive of the drive unit 40a is possible.

In addition, the first operating element 12a when actuated by means of a mechanical force at least from the first operating position, in the present case in particular an off position, (see. 2 ) in the second operating position, in the present case in particular an on position, (see. 3 ) movable. In the second operating position of the first operating element 12a takes place in at least one operating state, in particular in a release and / or, in particular briefly, after a release, a control of the drive unit 40a ,

To a detection of the operation of the controls 12a . 16a includes the operating unit 10a at least one detection unit 32a . 34a , In the present case, the operating unit includes 10a several detection units 32a . 34a , with each of the controls 12a . 16a exactly one of the detection units 32a . 34a assigned. The detection units 32a . 34a are at least substantially identical to each other. The detection units 32a . 34a are hydraulically formed. The detection units 32a . 34a are to provided, an operation of the associated control element 12a . 16a hydraulically detect.

These include the detection units 32a . 34a in each case at least one sensor element 50a . 52a , The sensor elements 50a . 52a are designed as hydraulic-electric switch. In addition, the detection units include 32a . 34a in each case one, in the present case in particular as a detection fluid, formed detection element 46a . 48a such as gel, oil or the like. The detection elements 46a . 48a In this case, they correspond advantageously to electrically non-conductive liquids, whereby in particular electrical safety can be ensured. The detection elements 46a . 48a are each between the respective control element 12a . 16a and the respective sensor element 50a . 52a arranged. The detection elements 46a . 48a are each intended to an actuation and / or one on the respective actuating surface 20a . 24a the controls 12a . 16a exerted pressure, in the present case, in particular via a fluid line, to the sensor elements 50a . 52a forward. In the present case, the sensor elements 50a . 52a each intended to an actuation of the associated control element 12a . 16a by means of an increase in pressure in the detection element designed as a detection fluid 46a . 48a to sense and in an electrical signal, in particular for the release and / or control of the drive unit 40a to change. Alternatively, it is conceivable to design detection units of different operating elements differently. It is also conceivable that an operating unit has exactly one detection unit, in particular for all operating elements, and / or at least one detection unit for at least two, at least three and / or at least four operating elements. In addition, a detection unit could be designed pneumatically, wherein in particular air and / or any other gas can be used as the detection fluid. In addition, a detection unit could be at least partially formed electrically and / or optically. It is also conceivable that a control unit may be provided to deactivate a detection unit in at least one operating state, for example by removing a detection element and / or blocking a sensor element, whereby in particular an actuation of an associated operating element in the operating state can be prevented and in particular If the detection element is removed, it can also be signaled to a user, in particular optically and / or haptically. In addition, it is conceivable to vary a pressure point and / or switching point of operating elements, in particular by means of a pressure change of a detection fluid.

In the 4 to 19 Further embodiments of the invention are shown. The following description and the drawings are essentially limited to the differences between the exemplary embodiments, with reference in principle to the drawings and / or the description of the other exemplary embodiments, in particular those relating to identically named components, in particular with regard to components having the same reference numbers 1 to 3 , can be referenced. To distinguish the embodiments of the letter a is the reference numerals of the embodiment in the 1 to 3 readjusted. In the embodiments of the 4 to 18 the letter a is replaced by the letters b to p.

In the 4 and 5 a further embodiment of the invention is shown. The embodiment of 4 and 5 the letter b is added. The further embodiment of the 4 and 5 differs from the previous embodiment, at least substantially by a detection unit 32b . 34b a control unit 10b ,

In the present case are detection units 32b . 34b optically formed. The detection units 32b . 34b are therefore intended to actuate an associated control element 12b . 16b visually detect.

These include the detection units 32b . 34b one each as a light guide, in particular for light, formed detection element 46b . 48b , Furthermore, sensor elements 50b . 52b designed as light sensors and in particular each provided to actuate the associated control element 12b . 16b by means of attenuation of the light in the detection element 46b . 48b to sense and to convert into an electrical signal.

In the present case, the effect is used that when the light is reflected within the respective detection element 46b . 48b a half-wave of a sine wave of the light at least temporarily out of the detection element 46b . 48b exit. If this is an absorbent material, in the present case, in particular the respective control element 12b . 16b , which consists in particular of a, in particular soft, plastic, with the respective detection element 46b . 48b brought into contact, this results in a weakening of a measurable light intensity and thus in particular a damping of the light.

In 6 a further embodiment of the invention is shown. The embodiment of 6 the letter c is adjusted. The further embodiment of the 6 differs from the previous embodiments, at least substantially by a detection unit 32c . 34c a control unit 10c ,

In the present case, the detection units 32c . 34c each at least partially integral with associated controls 12c . 16c educated.

In the present case, each case is a detection element 46c . 48c integral with the controls 12c . 16c educated. In addition, the detection units include 32c . 34c in each case a plurality of sensor elements designed in particular in the present case as pressure sensors 50c . 52c , In the present case, a first detection unit comprises 32c , which in particular a first operating element 12c is assigned, at least five first sensor elements 50c , Furthermore, a second detection unit comprises 34c which in particular a second operating element 16c is assigned, at least two second sensor elements 52c ,

In 7 a further embodiment of the invention is shown. The embodiment of 7 the letter d is readjusted. The further embodiment of the 7 differs from the previous embodiments, at least substantially by a detection unit 32d . 34d a control unit 10d ,

In the present case are detection units 32d . 34d at least partially magnetically formed. The detection units 32d . 34d are therefore intended to actuate an associated control element 12d . 16d to detect by means of a change of a magnetic field size. There are detection elements for this purpose 46d . 48d the detection units 32d . 34d from a magnetic particles offset, in particular elastic, plastic. There are also sensor elements 50d . 52d designed as magnetic sensors. The sensor elements 50d . 52d are each intended to an actuation of the associated control element 12d . 16d by means of a change of the magnetic field size by the detection elements 46d . 48d to sense and to convert into an electrical signal.

In 8th a further embodiment of the invention is shown. The embodiment of 8th the letter e is readjusted. The further embodiment of the 8th differs from the previous embodiments at least substantially by an arrangement of controls 12e . 14e . 16e . 18e a control unit 10e ,

In the present case is another first control element 14e at least partially on a side wall of a housing unit 28e , in particular a grip area 30e arranged. In addition, this is the first additional control element 14e at least partially on a processing unit 38e and / or an insertion tool 39e facing side of the housing unit 28e arranged.

In 9 a further embodiment of the invention is shown. The embodiment of 9 the letter f is readjusted. The further embodiment of the 9 differs from the previous embodiments, at least substantially by an arrangement and a number of controls 12f . 14f . 16f . 18f a control unit 10f ,

In the present case, the operating unit includes 10f fourteen controls 12f . 14f . 16f . 18f , wherein at least ten of the controls 12f . 14f . 16f . 18f in a grip area 30f a housing unit 28f are arranged.

A first control 12f and / or a first actuating surface 20f extends over at least 10% and at most 40% of a main extension length of the housing unit 28f , In the present case, the first control element extends 12f and / or the first actuating surface 20f over about 20% of the main extension length of the housing unit 28f , In addition, the first control element extends 12f and / or the first actuating surface 20f over at least 5% and at most 30% of a main extension length of the grip area 30f , In the present case, the first control element extends 12f and / or the first actuating surface 20f over about 25% of the main extension length of the grip area 30f , The same applies to a further first operating element 14f and for more in the grip area 30f arranged controls.

In 10 a further embodiment of the invention is shown. The embodiment of 10 the letter g is readjusted. The further embodiment of the 10 differs from the previous embodiments, at least substantially by an arrangement and a number of controls 12g . 14g . 16g . 18g a control unit 10g ,

In the present case, a first control element extends 12g ring around a housing unit 28g and in particular a grip area 30g the housing unit 28g , Thus, the first operating element extends 12g in at least one cross section through the housing unit 28g considered over an entire contiguous circumferential length of the housing unit 28g in the cross section. In addition, another first control element 12g in the direction of a side facing away from a front region of the housing unit 28g offset parallel and / or longitudinally offset to the first control element 12g arranged.

In 11 a further embodiment of the invention is shown. the Embodiment of 11 the letter h is readjusted. The further embodiment of the 11 differs from the previous embodiments, at least substantially by an arrangement and a number of controls 12h . 14h a control unit 10h ,

In the present case, the controls 12h . 14h the control unit 10h unevenly across a housing unit 28h and in particular a grip area 30h distributed.

In the 12 to 14 Further embodiments of the invention are shown. The embodiments of the 12 to 14 the letters i to k are readjusted.

The other embodiments of the 12 to 14 differs from the previous embodiments, at least substantially by an embodiment of a hand tool 36i . 36j . 36k as a cordless screwdriver.

In the 15 to 17 Further embodiments of the invention are shown. The embodiments of the 15 to 17 the letters l to n are readjusted. The other embodiments of the 15 to 17 differs from the previous embodiments, at least substantially by an embodiment of a hand tool 36l . 36m . 36n as a jigsaw.

In 18 a further embodiment of the invention is shown. The embodiment of 18 the letter o is readjusted. The further embodiment of the 18 differs from the previous embodiments, at least substantially by an embodiment of an operating element 12o a control unit 10o ,

In the present case, the operating unit includes 10o exactly one control element 12o , The operating element 12o is designed as a power switch. The operating element 12o is also designed as deadman switch. The operating element 12o is as an increase relative to a housing unit 28o educated. The operating element 12o is also outside a grip area 30o the housing unit 28o arranged. The operating element 12o extends in at least one cross section through the housing unit 28o considered over an entire contiguous circumferential length of the housing unit 28o in the cross section. The operating element 12o is thus actuated from a variety of different directions. An actuating force for actuating an actuating surface 20o of the operating element 12o in particular when held in the grip area 30o , is at least a majority of all points of the actuating surface 20o at least essentially the same.

For detecting an actuation of the operating element 12o includes the operating unit 10o Furthermore, a pneumatically trained detection unit 32o , The detection unit 32o is intended to actuate the operating element 12o to detect pneumatically. This includes the detection unit 32o a trained as a pneumatic electrical switch sensor element 50o and one with the sensor element 50o in operative connection, in the present case in particular as a detection fluid, formed detection element 46o such as air and / or any other gas. Alternatively, however, it is also conceivable to design a detection unit hydraulically and a detection element as an electrically nonconducting fluid, such as gel and / or oil, whereby a defined pressure point can advantageously be achieved. In addition, it is conceivable to provide a further operating element which is advantageously designed at least substantially identically to the operating element and which is designed, for example, as a release switch and / or locking switch, whereby in particular a switch-on lock can be realized. If the operating element and the further operating element are pneumatically and / or hydraulically actuated, it is conceivable, in particular, to implement a switch-on logic for releasing and / or unblocking a drive unit by means of valves and / or a valve system. In this case, for example, a valve only forward pressure from an operating element designed as a power-on switch when it has been enabled by a control element designed as a release switch.

In 19 a further embodiment of the invention is shown. The embodiment of 19 the letter p is readjusted. The further embodiment of the 19 differs from the previous embodiments, at least substantially by an embodiment of controls 12p . 16p a control unit 10p ,

In the present case, the controls 12p . 16p at least essentially as sensory layers and in particular in one piece with detection units 32p . 34p educated. In this case, each of the controls 12p . 16p at least two at least partially different outer shapes, wherein contours and / or areas of the forms, in particular in an operation of the controls 12p . 16p to distinguish about 1% from each other.

Claims (12)

Handheld power tool device with at least one operating unit ( 10a -P), characterized in that the operating unit ( 10a -P) at least one form-flexible operating element ( 12a -p; 14a . 14e -n; 16a -G, 16i . 16j . 16l -n, 16p ; 18a . 18e -G, 18j . 18m . 18n ) having. Hand machine tool device according to claim 1, characterized in that the operating element ( 12a -p; 14a . 14e -n; 16a -G, 16i . 16j . 16l -n, 16p ; 18a . 18e -G, 18j . 18m . 18n ) an actuating surface ( 20a . 20f . 20o ; 22a ; 24a ; 26a ) of at least 3 cm ² . Hand machine tool device according to claim 1 or 2, characterized by at least one housing unit ( 28a . 28e -O), with which the operating element ( 12a -p; 14a . 14e -n; 16a -G, 16i . 16j . 16l -n, 16p ; 18a . 18e -G, 18j . 18m . 18n ) is integrally formed. Hand machine tool device according to claim 3, characterized in that the operating element ( 12a -n, 12p ; 14a . 14e -n; 16a -G, 16i . 16j . 16l -n, 16p ; 18a . 18e -G, 18j . 18m . 18n ) flush into the housing unit ( 28a . 28e -N) is integrated. Hand machine tool device according to one of the preceding claims, characterized by at least one housing unit ( 28a . 28e -O), whereby the operating element ( 12a -p; 14a . 14e -n; 16a -G, 16i . 16j . 16l -n, 16p ; 18a . 18e -G, 18j . 18m . 18n ) in at least one cross section through the housing unit ( 28a . 28e -O) considers at least 20% of at least an entire contiguous circumferential length of the housing unit ( 28a . 28e -O) extends in the cross section. Hand machine tool device according to one of the preceding claims, characterized by at least one housing unit ( 28a . 28e -O), which at least one grip area ( 30a . 30e -O), in which the operating element ( 12a -p; 14a . 14e -N) is at least partially arranged. Hand machine tool device according to one of the preceding claims, characterized in that the operating unit ( 10a -n, 10p ) at least one further operating element ( 12a -n, 12p ; 14a . 14e -n; 16a -G, 16i . 16j . 16l -n, 16p ; 18a . 18e -G, 18j . 18m . 18n ), which relative to the operating element ( 12a -n, 12p ; 14a . 14e -n; 16a -G, 16i . 16j . 16l -n, 16p ; 18a . 18e -G, 18j . 18m . 18n ) has a different orientation. Hand machine tool device according to claim 7, characterized in that the further operating element ( 12a -n, 12p ; 14a . 14e -n; 16a -G, 16i . 16j . 16l -n, 16p ; 18a . 18e -G, 18j . 18m . 18n ) to the operating element ( 12a -n, 12p ; 14a . 14e -n; 16a -G, 16i . 16j . 16l -n, 16p ; 18a . 18e -G, 18j . 18m . 18n ) is formed at least substantially identical. Hand machine tool device according to one of the preceding claims, characterized by at least one housing unit ( 28a . 28e -N), which at least one grip area ( 30a . 30e -N) over which the operating unit ( 10a -n, 10p ) extends to at least a majority. Hand machine tool device according to one of the preceding claims, characterized in that the operating unit ( 10a -P) at least one pneumatically, hydraulically, electrically and / or optically formed detection unit ( 32a -d, 32o . 32p ; 34a -d, 34p ), which is provided at least to an actuation of the operating element ( 12a -p; 14a . 14e -n; 16a -G, 16i . 16j . 16l -n, 16p ; 18a . 18e -G, 18j . 18m . 18n ) capture. Hand machine tool device according to claim 10, characterized in that the operating element ( 12c . 12d . 12p ; 16c . 16d . 16p ) and the detection unit ( 32c . 32d . 32p ; 34c . 34d . 34p ) are formed at least partially in one piece. Hand tool machine ( 36a . 36i -O) with at least one hand power tool device according to one of the preceding claims.

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