EP2119537A1 - Electric hand tool - Google Patents

Abstract

The portable power tool (10) has a housing section (14) for the drive gear or motor and a second housing section (16) as the handle (18). A coil spring (24) followed axially by a rubber damper (28) are between the housing sections at least at one bonding point (20,22) between them.

Description

The invention relates to an electric hand tool device comprising a first housing part in particular for receiving a gear and / or a drive motor for a tool and a second housing part to form a handle for guiding the electric hand tool, wherein the first and the second housing part connected to each other, but vibration technology from each other at least partially can be decoupled by at least one spring and damping element is disposed between the housing parts at least one connection point.

So it is often provided in electric hand tools that two housing parts are used, wherein a housing part for receiving z. As the transmission or the engine or for receiving both the transmission and the Motor is used and the second housing part in particular forms a grip area or handle, by means of which the electric hand tool device can be held and guided. In particular, both housing parts may be made of plastic or alternatively, a housing may be designed as a metal housing.

In electric hand tool devices, an increasing emphasis has recently been placed on the provision of vibration damping. It has already been disclosed in the prior art to provide vibration-damped auxiliary handles. Such a system is for example from the DE 40 11 124 A1 previously known.

In a variety of electrical hand tool devices, the motor housing also forms a main handle. To dampen the vibrations here, it is for example from the U.S. Patent 5,027,910 known to arrange a shock absorbing elastomeric material between an inner and an outer housing. The disadvantage here is that especially when the motor housing should be designed as a handle, the size of the motor housing is greatly limited in terms of the scope, so that the electric hand tool can still be used well.

Furthermore, from the DE 23 35 867 A1 an electric hand tool device with a housing made of plastic, in which in particular the noise secretion is to be reduced by an existing plastic outer housing is connected via Schalldämmbrücken with a support housing. Here is also disadvantageous that the required space is significantly increased and beyond the production cost compared to an uninsulated electric hand tool is relatively large.

Finally, the reveals DE 102 44 793 a portable power tool housing unit, in particular for a hand grinder, which comprises at least two housing elements, which are connected to each other with a vibration damping element. In electric hand tool devices, in which the motor housing at the same time represents the handle element, this offers no advantage. In addition, the reveals DE 102 44 793 a vibration damping system, wherein a pure vibration damping system has the problem that by the damping of the vibration longer continued to remain in the system.

In addition, from the DE 100 55 395 A1 a system is known in which a gas cushion is provided between two housing parts. A corresponding embodiment is already comparatively complicated.

Finally, the reveals EP 5 019 474 A1 an electric hand tool device of the generic type, wherein the motor is fixed to the gear housing and arranged freely in the motor housing and the gearbox housing is vibration-decoupled from the motor housing connected thereto.

In particular, several spring damping systems can be provided in this case, wherein the spring and damping element is formed in particular by a spring element made of rubber or a rubber-elastic material. Furthermore, it is previously known that the spring and damping element has a different spring stiffness in the axial spring direction than in the oscillating direction.

Based on this prior art, it is an object of the invention, another vibration-reduced electric hand tool, in particular a drill or Screwdriver or hammer drill or impact drill to provide, in which a vibration transmission is reduced to a handle.

This object is achieved by an electric hand tool in which the spring and damping element comprises a coil spring with at least one downstream rubber or rubber-elastic damping element.

By provid- ing both a helical spring and a damping element or buffer, which can be made of rubber or a rubber elastic material, viewed from the tool, it is possible to ensure that both damping in the axial direction, ie the direction of the machine main axis, and also can take place in a transverse direction. It can be achieved by the special selection of these two elements of the damping system particularly easy the desired vibration decoupling. In addition, the combination of spring and damping elements quickly calms the vibration in the system. The design of the spring and damping element also allows a resilient movement as a pitching movement of the first relative to the second housing part.

In particular, in electric hand tool devices having a movable in a plane or a rotating tool, such as angle grinder but also drills, generated vibrations that are not only directed in one direction, but stimulate the electric hand tool in more than one spatial direction to vibrate. By a spring / damping arrangement according to the invention, the vibration can be reduced in all three axes.

It may preferably be provided that the damping element can be formed either of rubber or a cellular elastomer, which shows a rubber-elastic behavior.

The coil spring is designed as a compression spring.

These elements can be adjusted particularly well in the spring or damping characteristic and vary in terms of their rigidity in wide ranges, both by the geometric shape and by the properties of the material itself, in particular the rubber hardness for the damping element can be selected accordingly. In this way, a simple adaptation of a rubber damping element to different applications and vibration characteristics of various electric hand tool devices is possible. It is also possible, the damping element in such a way that the required grip stiffness is maintained, especially in oscillating direction. In this case, the damping element must not turn out to be particularly soft in the oscillating direction, in order to prevent a spongy feeling when working with the electric hand tool.

The particular advantage lies in the series connection of the two different elements, wherein the rubber or rubber-elastic damping element of the coil spring is connected downstream. The axial vibration can be compensated by the spring element, which is preferably mounted on a guide rod to prevent tilting, the vibration in the directions perpendicular thereto by the rubber or rubber-elastic element, which is particularly well in the handle housing, in particular if it is a two-shell housing, can set.

It may be particularly advantageous if the coil spring äufweist has a different spring stiffness than the at least one rubber or rubber-elastic damping element. In this case, the two elements of the spring and damping element form a coupling oscillator with different frequencies, wherein a range may be predetermined in which an optimal vibration isolation takes place. The width of this frequency range, ie the isolation range, experience has shown that the individual case of application can be optimized depending on the respective excitation frequency and the grip mass and the damping factors taking into account the evaluation of hand and arm vibrations that different spring rates for the second Elements, namely coil spring and rubber or rubber-elastic damping element, can be selected to achieve optimum vibration isolation. The spring system is interposed between the housing parts and decouples them in this way.

By the series connection in the axial direction, ie the main direction, namely the drilling axis, for example, ensures that the spring and the damping element is used in the axial direction and in the perpendicular axes exclusively the rubber or rubber-elastic damping element acts. As a result, the handle is stiffer in these vertical axes than along the drilling axis, and no spongy feeling is produced when working. This can be set even more intensified and defined by the selection of suitable spring rates.

Particularly preferably, it can be provided that two attachment points are provided for the two housing halves are, so that a particular D-shaped handle is formed by the second housing part, which is formed like a bow and is coupled on both sides of the bracket to the electric power tool and there to the first housing part. In such a handle design can be provided that either at both attachment points a spring and damping system comprising a coil spring and a rubber elastic or rubber damping element is provided or it can alternatively only one, especially in the application of the upper connection point, a spring and damping element comprising a Be provided coil spring and a rubber-elastic or rubber-damping element and at the second connection point only a damping element consisting of one or more rubber dampers or rubber-elastic damping elements, which may be formed or in particular of a cellular elastomer, may be provided. The upper attachment point is preferably in the range of a tool shaft.

If the housing part (s) is formed as two-shell housing parts consisting of two adjoining housing shells, wherein the contact surface extends in particular axially, the damping element or elements can be arranged between the housing shells, wherein the shells have a receptacle which receives the damping element, wherein the Recording is preferably located in the parting plane of the shells.

In addition, it can also be provided that the one or more spring elements can be set and biased consisting of the coil spring independently of the damping element. The coil spring can be guided on a guide pin, which it encloses. As a result, a vibration absorption in purely axial direction ensured. The guide pin may preferably be adjustable in length and follow their change in length when adjusting the spring rate of the coil spring. In general, the spring tension can be adjustable.

The damping element may be an annular damping element. In this case, a sleeve can be provided in the central opening of the damping element, via which a bias voltage can be applied to the coil spring. The design of the required installation space for the spring / damper element can be optimized.

In this case, the spring and damping element can be fixed to the two housing parts as follows. On the housing part, which forms the handle, the spring and damping element as stated above can be accommodated in a form-fitting manner in a receptacle. On the other housing part, it may be attached via a plug, screw or material connection, in particular of the guide pin.

The invention is fundamentally applicable to all electric hand tool devices, but in particular for drills, rotary hammers and impact drills, but also for chisels and screwdrivers.

Further advantages and features of the invention will become apparent from the remaining application documents. The invention will be explained in more detail below with reference to a drawing.

• Figur 1 eine schematische Darstellung eines Bohrhammers und
• Figur 2 einen Ausschnitt D aus Figur 1.

Showing:

• FIG. 1 a schematic representation of a hammer drill and
• FIG. 2 a cutout D off FIG. 1 ,

FIG. 1 shows in its entirety a hammer drill, which is provided with the reference numeral 10. The hammer drill in this case has a main machine axis 12, which indicates the axial direction of the device. The hammer drill 10 comprises a first housing part 14 and a second housing part 16, wherein the two housing parts 14 and 16 together form the overall housing of the hammer drill 10. In this case, in the first housing part 14 of the motor of the electric hand tool and a gear for the translation of the motor drive power to a drill spindle (not shown) is provided. The second housing part 16 is formed as a handle in the form of a bow handle, wherein the handle carries the reference numeral 18 and is fixed with two attachment points 20 and 22 on the first housing part.

The electric hand tool device is essentially held and guided by way of the handle 18.

At the two connection points 20 and 22 elements are now provided, which serve for a connection of the two housing parts 14 and 16 together and at the same time lead to the vibration-decoupling of the two housing parts 14 and 16, which contributes to a vibration-reduced work with the electric hand tool.

It is provided at the connection point 22 that one end of a guide pin 4, which is fixed with its two ends on the one hand in the housing part 16 and the other in the housing part 14 and is variable in its length in the axial direction, is wound by a coil spring 24, which is designed as a compression spring and the two housing parts 14 and 16 biases against each other. In Direction of a tool that can be provided at one end 26 of the electric power tool 10, the helical compression spring 24 is below a damping element 28 is arranged, which together with the coil spring 24 forms a spring and damping element. In the damping element 28 is an annular elastomeric elastomeric element made of a cellular elastomer or rubber, which is slidably mounted in the housing part 16 and here between two shells of the clam shell part 16. By the displacement of the elastomeric damping element 28 whose damping effect can be variably adjusted.

The guide pin 4 is arranged in the central bore of the damping element 28, wherein the guide pin 4 is enclosed by a sliding sleeve 5, which forms the actual system for the damping element 28. In this case, a bias voltage can be applied to the helical compression spring 24 via the sliding sleeve 5, without the damping element 28 being influenced thereby. This mechanism can be used in particular FIG. 2 can be seen, via the sliding sleeve 5, a plate 6 can be moved in the direction of the coil spring 24 and to adjust the sliding sleeve, a screw member 7 is provided which is movable in the axial direction and via the sliding sleeve 5 on the plate 6 on the turns of the screw member 24, a bias voltage can be applied.

By selecting the spring stiffness of both the helical compression spring 24 and the damping element 28, the stiffness of the spring and damping element can be adjusted so that the stiffness in the axial direction 12 is less than in the oscillating direction, wherein under pendulum direction, the directions perpendicular to axial direction 12 is understood. In this way, a spongy feeling when working can be avoided and yet in the main direction of the load, namely in the axial direction, a good vibration damping can be achieved.

In this way, the vibration reduction is achieved on the handle 18 in particular in the main axis 12.

In the directions perpendicular to the main axis 12 acts exclusively the damping element 28, whereas in the axial direction, both the spring element 24 and the damping element 28 acts and so a greater softness can be adjusted.

It can be provided at the second connection point 20 that only one damping element 30 is provided here, which reduces the attenuation in all three spatial directions. In this way, greater rigidity is provided in this area.

In the manner described above, it is particularly easy to provide an electric hand tool which provides a good damping characteristic.

Claims (9)

Electric hand tool device comprising a first housing part (14) in particular for receiving a gear and / or a drive motor for a tool and a second housing part (16) for forming a handle (18) for guiding the electric hand tool device (10), wherein the first (14) and the second (16) housing part can be connected to one another and at least partially decoupled from one another by at least one spring and damping element being arranged between the housing parts (14, 16) at at least one connection point (20, 22), characterized in that and damping element is a helical compression spring (24) with at least one, viewed from a tool side, in an axial direction downstream rubber or rubber-elastic damping element (28) is provided. Electric hand tool according to claim 1, characterized in that at least one damping element (28) is formed of cellular elastomer. Electric hand tool according to one of the preceding claims, characterized in that the helical compression spring (24) has a different spring stiffness than the at least one rubber-elastic or rubber-damping element (28). Electric hand tool according to one of the preceding claims, characterized in that the second housing part (16) via two connection points (20, 22) on the first housing part (14) is fixed, wherein the second connection point (20) is provided in particular only a rubber-elastic or rubber-damping element (30). Electric hand tool according to one of the preceding claims, characterized in that the at least one damping element (28) is designed as a ring element. Electric hand tool according to one of the preceding claims, characterized in that the bias of the helical compression spring (24) is in particular continuously adjustable. Electric hand tool according to one of the preceding claims, characterized in that the damping element (28, 30) is held in the second housing part (16) between two housing shells thereof. Electric hand tool according to one of the preceding claims, characterized in that the damping element (28, 30) in the second housing part (16) is axially displaceable. Electric hand tool according to one of the preceding claims, characterized in that it is in particular a hammer drill or a percussion drill.

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