This application is a 35 USC 371 application of PCT/EP 2007/061689 filed on Oct. 30, 2007.
1. Field of the Invention
The invention relates to a striking mechanism of an electric handheld power tool, in particular a rotary and/or percussion hammer.
2. Description of the Prior Art
An electric hand-held power tool of this kind is known, for example, as a rotary hammer. Rotary hammers in lower weight classes are most often embodied in pistol form. This is characterized by the motor axis of an electric drive motor extending parallel to the working spindle to which a tool, for example a drill bit, can be coupled. The pistol design is characterized by a relatively large overall length. Rotary hammers with an L design have a shorter overall length than those with the pistol design. The L design is characterized by the motor axis of the electric drive motor extending at an angle to the working spindle. For some applications, however, even the shorter overall length of the rotary hammer with the L design is still too large. If there is sufficient space available offset from the drilling axis, then an angled drilling head equipped for hammering transmission (angled hammer drilling head) is used as an attachment. There are known angled hammer drilling heads, which can be mounted as needed onto the rotary hammer and which transmit both the rotation and the hammering motion by 90°. In the known angled hammer drilling head, the hammering motion of the impact mechanism is transmitted to a striking pin with a 45° bevel. Due to the significant friction losses at the bevels that slide against each other, this transmission of force requires a high degree of production precision and the use of high-cost tool steels. Due to the powerful heating that occurs during operation, the hammering transmission of the angled drilling head is accompanied by a low efficiency. In addition, the mechanically rigid angled transmission permits there to be only one fixed drive output angle, thus limiting a universal applicability. In addition, the rigid angled transmission does not have a complete impact decoupling, therefore requiring the operator to exert a more powerful manual pressure in the drilling direction. This results in considerable operating disadvantages.
The object of the invention is to create an electric handheld power tool whose overall length can be reduced. To that end, a center axis of a shaft of the transmission or a center axis of a drive shaft of the drive motor constitutes a pivot axis around which the drive motor can be pivoted in order to reduce the overall length of the electric handheld power tool. The pivotability of the drive motor permits a reduction in overall length both of an electric handheld power tool with a pistol design—in which the center axis of the drive shaft of the drive motor extends parallel to the working spindle—and of an electric handheld power tool with an L design—in which the drive shaft of the drive motor extends at an angle to the working spindle. In this context, “overall length” is understood to mean the space available in the working direction, i.e. in the direction that the working spindle is oriented. The possibility of pivoting the drive motor around the pivot axis in relation to the working spindle and impact mechanism permits an infinitely variable angle setting within a large angular range. The pivoting around the pivot axis established by the center axis of a shaft of the transmission or the drive shaft of the drive motor permits a hammering or hammer drilling operation without hammering energy losses due to a change in the hammering direction, despite the pivoting action. The pivoting makes it possible to implement an overall length that is short enough to permit access to very cramped locations. The device is ready for immediate use because no additional parts have to be mounted. Another advantage of the electric handheld power tool according to the invention is a small width across corners since the width across corners is largely independent of the diameter of the drive motor. Preferably, the electric handheld power tool is a rotary hammer and/or percussion hammer. It can be a pure rotary hammer, a rotary hammer for drilling and/or chiseling operation (combination hammer), or a pure percussion hammer.
In particular, the electric handheld power tool has a housing that is composed of a drive housing part containing the drive motor and an impact mechanism housing part containing the working spindle and the impact mechanism. The working spindle and the impact mechanism are mounted in the impact mechanism housing part and the drive motor is mounted in the drive housing part. There is thus a first machine unit of the electric handheld power tool, which has the impact mechanism housing part, impact mechanism, and spindle, and a second machine unit of the electric handheld power tool, which has the drive housing part and drive motor and is able to pivot around the pivot axis in relation to the first machine unit.
The transmission is advantageously associated with the drive housing part and the impact mechanism housing part. As a result, the transmission is part of both the first machine unit and the second machine unit of the electric handheld power tool. In this case, there are in particular components of the transmission that are exclusively associated with the first machine unit and other components that are exclusively associated with the second machine unit.
According to a modification of the invention, the electric handheld power tool has a hinge, which is provided between the drive housing part and the impact mechanism housing part to allow the drive motor to pivot. The hinge is composed, for example, of two swivel bearings.
In particular, the working spindle and impact mechanism have a common movement axis around which the working spindle rotates and/or along which a hammering mass of the impact mechanism moves. A common movement axis of the rotation and hammering operation is implemented, for example, in an electric handheld power tool embodied in the form of a rotary hammer; for example, the hammering mass is a component of a reciprocating striking element.
The movement axis is advantageously situated perpendicular to the pivot axis. The perpendicular arrangement optimally selects the pivot axis for shortening the overall length.
According to a modification of the invention, the center axis of the drive shaft is arranged perpendicular to a pivoting plane of the drive motor. The pivoting plane is the plane perpendicular to the pivot axis in which the drive motor is pivoted. This embodiment of the electric handheld power tool according to the invention is an electric handheld power tool with an L design.
Alternatively, the center axis of the drive shaft is arranged parallel to a pivoting plane of the drive motor. With a parallel arrangement of the center axis of the drive shaft, the electric handheld power tool is in particular an electric handheld power tool with a pistol design.
According to another embodiment, a component, in particular a hammer tube, of the impact mechanism constitutes the drive spindle or constitutes part of the drive spindle. The rotary drive of the tool is consequently carried out by means of a component of the impact mechanism. In particular, this component is the hammer tube of the impact mechanism.
tric handheld power tool has at least one clutch for selectively connecting the drive motor to the working spindle and/or to the impact mechanism. If there are two separate drive paths, for example, for driving the impact mechanism and the working spindle, each with a clutch embodied as a separating clutch, then it is possible to selectively implement a rotating and/or hammering operation of the electric handheld power tool.
The invention will be explained in greater detail below in conjunction with the drawings.
In both exemplary embodiments (
The foregoing relates to the preferred exemplary embodiments of the invention, it being understood that other variants and embodiments thereof are possible within the spirit and scope of the invention, the latter being defined by the appended claims.
Number | Date | Country | Kind |
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10 2006 061 625 | Dec 2006 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2007/061689 | 10/30/2007 | WO | 00 | 6/26/2009 |
Publishing Document | Publishing Date | Country | Kind |
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WO2008/080664 | 7/10/2008 | WO | A |
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Number | Date | Country | |
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