EP1379363B1 - Manual machine tool - Google Patents

Abstract

Manual machine tool, in particular a hammer drill and/or chipping hammer, comprising a striking train (14), driven by an electric motor (12) in a housing (10), by means of which an insert tool (18), arranged in a tool mounting (16), may be percussion driven and a sensor unit (30), by means of which a parameter for a neutral position is determined. The electric motor (12) and thus the striking train (14) may be actively braked by a motor control unit (22) with a recognised neutral position.

Description

State of the art

The invention relates to a hand tool according to the preamble of claim 1.

From the EP 0 303 651 B2 is a hand tool, namely a hammer drill, with a drivable by an electric motor percussion known, in which a clutch arranged in the drive train on reaching a sensed by a sensor detected movement amount automatically depressed, namely for interrupting a Schlagantriebtät the percussion in an idle position. As a movement amount located on an idle stroke path position of a striking mechanism part or an insertion tool is detected. When leaving this position, the clutch engages again automatically. The sensor activates upon reaching this path position, a control device, which in turn leads a control pulse to an electromagnetic disengaging actuator which engages the clutch and disengages.

Advantages of the invention

The invention relates to a hand tool, in particular a drill and / or chisel hammer, drivable in a housing of an electric motor Schlagwerk over which an arranged in a tool holder insert tool is driven in a knocking manner, and with a sensor unit via which a characteristic for an idle position can be detected.

It is proposed that when the idling position is detected via an engine control unit, the electric motor and thus the striking mechanism can be actively braked. An additional idle clutch and a catcher for a racket can be avoided and additional components, weight, space, installation costs and costs can be saved. Wear problems on an additional idle clutch are avoidable. It can be structurally simple a short idle travel and thus a short design of the power tool and a low wear on the tool holder can be achieved.

Furthermore, a high level of comfort can be achieved, in particular by an idle spring can be completely dispensed with, for example, by a pressure sensor, a contact pressure of the insert tool is determined against an object to be processed, or by running an idle spring at least slightly and with a small force can, so that advantageously a small operating force to achieve a working position is sufficient.

The impact mechanism is advantageous interpretable exclusively on its impact function, and an idle function can be disregarded, resulting in constructive degrees of freedom. The impact mechanism is robust by eliminating idle or vent holes executable, and it is an advantageous seal against dirt and lubricant loss can be achieved.

From the idle position, a targeted and fast startup of the percussion can be realized, and the startup behavior can be easily matched by a corresponding control of the electric motor on the percussion. The solution according to the invention is basically applicable to all hand tool machines whose application tools are driven in a hammering manner, in particular in impact drills, rotary hammers, chisel hammers, etc.

In principle, all electric motors which appear to be suitable to a person skilled in the art can be actively decelerated via a special motor control unit, such as asynchronous motors, synchronous motors or direct current motors, etc., via a brake control. However, the electric motor is particularly advantageously formed by an electronically commutated motor. The brushless, electronically commutated motors, in particular reluctance motors, are particularly overloadable and can be loaded for a short time with a large torque and thus with a large braking torque. A large current can flow without the danger of a brush fire.

Further, an armature of the electronically commutated electric motor may be implemented with an armature winding having an overall lower mass due to a missing armature winding compared to an armature of a conventional electric motor. The armature of the electronically commutated electric motor thereby stores during operation a lower rotational energy and can be braked quickly with little energy. The electronically commutated electric motor can advantageously be braked with a large DC link capacitor or with a brake chopper in a brake circuit.

If the hammer mechanism can be braked with a separate brake unit, the active braking of the electric motor can be supported and a standstill of the electric motor or percussion mechanism can be achieved particularly quickly. The separate brake unit can be designed in various ways, for example, this may be formed by a mechanical or an electromechanical unit, etc.

Particularly advantageously, a drive piston of the percussion mechanism is decelerated to a standstill between 0.1 and 3 beat cycles of the percussion mechanism, whereby wear of the impact mechanism can be reduced and comfort can be increased, in particular by avoiding unnecessary vibrations.

If the percussion mechanism has a pot piston, a cost-effective piston can be achieved in which a racket and the piston can be connected by friction. Due to the direct contact between the pot piston and the racket of the racket on the pot piston advantageous in the transition accelerated from an idle position to a working position in a short time and delayed by the inventive solution by the active braking of the electric motor in the transition from a working position to an idle position in a short time. In principle, however, the solution according to the invention can also be used in percussion devices which have a piston guided in a cylinder or in a hammer tube.

If a motor control unit is embodied at least partially in one piece with an already existing power control unit of the electric motor, it is advantageously possible to save components, installation space and weight. Particularly in the case of electronically commutated motors, the engine control unit can be implemented in one piece with a power control unit of the electric motor in a simple manner.

The sensor unit can have various sensors which appear suitable to a person skilled in the art, for example electronic, electromechanical and / or mechanical sensors, via which, however, in particular a contact force of the insert tool against an object to be machined and / or a position of the insert tool or a component moved with the insert tool should be detectable. Particularly advantageously, the sensor unit has at least one electronic sensor. This is small and easy to carry out and can be integrated to save space on small hand tool machines particularly advantageous. The information from the sensor to the engine control unit can be transmitted via electrical lines, via radio, optically and / or mechanically, etc.

drawing

Further advantages emerge from the following description of the drawing. In the drawing, an embodiment of the invention is 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.

Description of the embodiment

Fig. 1 shows a schematic representation of a partial section through a hammer drill with a drivable in a housing 10 by an electric motor 12 striking mechanism 14, wherein the electric motor 12 is formed by an electrically commutated motor.

On a rotational axis of an insert tool 18 facing the end of a shaft 34 of the electric motor 12, a pinion 36 is integrally formed, which meshes with a mounted on a bearing pin 38 spur gear 40. On the spur gear 40, an eccentric pin 42 is fixed, via which a pot piston 24 of the percussion mechanism 14 can be driven. In the pot piston 24, a racket 26 is slidably mounted, which acts via an anvil 46 on the mounted in a tool holder 16 insert tool 18 or on a fixed in the tool holder 16 drill.

Furthermore, the hammer drill has a sensor unit 30, with an electronic sensor 20, via which a characteristic for an idle position can be detected.

According to the invention, the electric motor 12 and thus the percussion mechanism 14 can be actively braked via a motor control unit 22 when the idling position is detected, with the engine control unit 22 being largely integral with an already existing power control unit 28 of the electric motor 12.

If lifted by the electric motor 12 via the eccentric pin 42, the pot piston 24, the racket 26 and the striker 46 striking driven insert tool 18 from an object to be processed, presses a non-illustrated idle spring in operative connection with the insert tool 18 and in the tool holder 16 axially displaceably mounted striker 46 in an initial position axially in the direction of the object to be processed. The electronic sensor 20 of the sensor unit 30 fastened in the housing 10 in the area of the tool holder 16 detects an idle position or the neutral position of the striker 46 and sends a signal via a signal line 32 to an evaluation unit 48, which in turn sends a pulse via a signal line 44 to the engine control unit 22 forwards.

The engine control unit 22 causes an active braking of the electric motor 12, in such a way that electromagnetically generated forces of the electric motor 12 counter to the direction of rotation of the shaft 34 and the pot piston 24 of the act Schlagwerks 14 comes to a standstill after a detected idle position approx.

If the insert tool 18 is again pressed against an object to be processed and the striker 46 is moved from the neutral position to its working position, the electronic sensor 20 sends a signal via the signal line 32 to the evaluation unit 48 and this in turn sends a signal via the signal line 44 to the engine control unit 22, which causes a targeted, tuned to the present percussion 14 start-up of the electric motor 12.

reference numeral

10

casing

12

electric motor

14

striking mechanism

16

tool holder

18

application tool

20

sensor

22

Engine control unit

24

drive piston

26

bat

28

Power control unit

30

sensor unit

32

signal line

34

wave

36

pinion

38

bearing bolt

40

spur gear

42

eccentric

44

signal line

46

Döpper

48

evaluation

Claims (7)

1. Portable power tool, in particular a hammer drill and/or rotary demolition hammer, having a percussion mechanism (14) which can be driven in a housing (10) by an electric motor (12) and via which an application tool (18) arranged in a tool holder (16) can be driven in a percussive manner, and having a sensor unit (30), via which a characteristic quantity for an idling position can be detected, characterized in that, if an idling position is detected, the electric motor (12) and thus the percussion mechanism (14) can be actively braked via a motor control unit (22).
2. Portable power tool according to Claim 1, characterized in that the electric motor (12) is formed by an electronically commutated motor.
3. Portable power tool according to Claim 1 or 2, characterized in that, after an idling position is detected, a drive piston (24) of the percussion mechanism (14) is braked to a stop between 0.1 and 3 percussion cycles of the percussion mechanism (14).
4. Portable power tool according to one of the preceding claims, characterized in that the percussion mechanism (14) can be braked using a separate braking unit.
5. Portable power tool according to one of the preceding claims, characterized in that the percussion mechanism (14) has a drive piston (24) formed by a pot-type piston.
6. Portable power tool according to one of the preceding claims, characterized in that the motor control unit (22) is designed at least partly in one piece with a power control unit (28), already present, of the electric motor (12).
7. Portable power tool according to one of the preceding claims, characterized in that the sensor unit (30) has at least one electronic sensor (20).

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