The present invention relates to a tool holder for a chipping hammer.
Tool holders with a lock for chipping hammers are known from EP 1 872 913 A2, among other places. The tool holder may accommodate two of the conventional designs for tools and secure the tools by setting a bar. Provision is also made for the bar to be locked in a position in which the tool may be inserted in the tool holder or may be removed from it.
The bar is fastened on a rotatable shaft by means of pins. Strong forces act on the pins during the percussive operation of the chipping hammer. As a result, the pins are manufactured of highly resistant materials.
One object is making another tool holder available.
The tool holder according to the invention for a chipping hammer has a tool receptacle for receiving a tool and a tool securing device for securing the tool in the tool receptacle. The tool securing device has a shaft having an eccentrically arranged mandrel and at least one end piece and a bar having at least one eye, into which the end piece engages in a form-fitting manner. The eye has a non-circular cross-section. The tool securing device can be pivoted into at least one first position for inserting and removing the tool and into at least one second position for securing the tool.
The non-circular cross-section of the eye and of the end pieces, which preferably conform to one another, ensures that the bar and shaft cannot twist relative to each other.
The forces that occur during impact are introduced to the shaft essentially over the entire circumference of the eye. This may result in low levels of stress to the materials.
The end piece preferably has a larger cross-section than the shaft between the end pieces. The tool holder may have a bearing for mounting the shaft, with a cross-section of the bearing being the same as a cross-section of the end pieces. This facilitates a simple assembly. The shaft is inserted into the bearing and the bar is placed on the shaft. Additional fastening with pins may be omitted.
According to one embodiment, the bar has a contour line perpendicular to the shaft, the contour line having four rectilinear sections, and a flat stop face is provided; in each of the first and second positions, one of the four rectilinear sections rest on the flat stop face.
The following description explains the invention on the basis of exemplary embodiments and figures.
Unless otherwise indicated, the same or functionally equivalent elements are identified by the same reference characters in the figures.
The longitudinal sections in
The longitudinal sections in
The tool holders 1 are constructed for accommodating tools, in particular chisels. The known chisels 2 have two different designs with respect to how they are secured in a tool receptacle 4. The first design of the tool 2 is depicted schematically in
The second design of the tool 12 is depicted in the longitudinal sections in
The bar 6 and the mandrel 15 are arranged pivotably around an axis in order to be able to remove/insert the tool 2, 12 from/into the tool holder 1 and lock it.
The mandrel 15 is arranged on a shaft 16. The shaft 16 is inserted into a bearing 17, in which the shaft 16 is freely rotatable. The shaft 16 has a circular cross-section within the bearing 17. On its two ends, the shaft 16 has two end pieces 18 having a non-circular cross-section. The cross-section of the end pieces 18 may have a greater surface area than the cross-section within the bearing 17.
The bar 6 is connected to the shaft 16 in a form-fitting manner. Two eyes 19 are positioned laterally in the bar 6 into which the end pieces 18 of the shaft 16 are inserted. The cross-section of the end pieces 18 corresponds to the cross-section of the two eyes 19. The non-circular cross-sections ensure that the bar 6 cannot be twisted relative to the shaft 16 without requiring fastening or securing pins. Thus, pivoting the bar 6 causes the shaft 16 to rotate.
The bar 6 has a contour line 20 having four sections 21, 22, 23, 24. The contour line 20 runs perpendicular to the shaft 16, with the center of each of the sections 21, 22, 23, 24 being at approximately the same distance from the shaft 16. Arranged on the bearing 17 is a block 25, which has a flat surface 26. The contour line 20 and the block 25 are constructed in such a way that four positions of the bar 6 result in which the bar 6 engages on the block 25. The four engagement positions will be depicted on the basis of
Pivoting the bar 6 out of an engaged position is accomplished by an elastic mounting of the shaft 16 in the bearing 17. The bearing 17 is designed to be oblong in a direction perpendicular to the axis of shaft 16 in such a way that the shaft 16 is displaceable in this direction. A ring 30 made of an elastic material holds the shaft 16 in a central position of the bearing 17. The ring 30 may support itself on the tool holder 1 or on the bearing 17 in a circular receptacle 31.
When the bar 6 is pivoted, the elastic ring 30 is squeezed until a subsequent engagement position is reached by a planar contact of one of the rectilinear sections 21, 22, 23, 24 on the flat surface 26.
Number | Date | Country | Kind |
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10 2009 008 191.7 | Jan 2009 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP10/50658 | 6/21/2010 | WO | 00 | 10/24/2011 |