The present invention relates to a tubular handle for a manually guided implement, especially a power chain saw or the like, with an essentially circular cross section and with at least one mounting portion for fixing the tubular handle to the implement.
Manually guided implements, such as chain saws or the like, are provided with a tubular handle that is mounted on the implement for carrying and guiding the latter. During operation, for example of a power chain saw, the latter is guided with two hands, with one hand grasping a rear handle that is secured to the housing, and with the front tubular handle of the power chain saw being held and guided by the other hand. During operation of the power chain saw, considerable holding forces can occur at the tubular handle.
For the securement of the tubular handle to the implement, the tubular handle is provided with at least one mounting portion, whereby the tubular handle can, for example, be screwed to the housing of the implement. To absorb the operating forces at the screw mounting, the circular cross section is flattened in the mounting portion such that an essentially flat, double-walled cross section results. The two flat cross-sectional portions that rest against one another are in this connection pierced by one or more screw holes and have extending therethrough respective mounting screws that are guided through the corresponding screw hole.
A mounting portion that is flattened in this manner is provided, especially transverse to its plane, with only a low rigidity or bearing strength. The high degree of deformation of the material of the tube leads, during the manufacturing process, to a considerable flow of material. In the transition region between the deformed and nondeformed cross section of the tube, cracks or splits can result that adversely affect the bearing strength.
It is therefore an object of the present invention to further improve a tubular handle of the aforementioned general type in such a way that the bearing strength is increased in the region of the mounting portion.
This object, and other objects and advantages of the present invention, will appear more clearly from the following specification in conjunction with the accompanying schematic drawings, in which:
The present application proposes a tubular handle, the circular cross section of which, in the region of the mounting portion, is flattened to form an at least approximately planar abutment portion, whereby beyond the abutment portion a circular cross-sectional portion is retained. In this connection, the flattened abutment portion is provided for the securement of the tubular handle to the implement. The flattening of the cross section on one side leads to a flat or laminar engagement of the tubular handle against the implement, with such abutment providing a good transfer of forces that occur. Only a slight deformation of the cross section is necessary, thereby reducing the stress on the material during the deformation process. The circular cross-sectional portion that is retained leads, in conjunction with the flattened abutment portion, to a relatively high surface moment of inertia about all main axes, as a consequence of which a high rigidity and a high bearing strength result in all directions of stress or loading. Due to the securement of the tubular handle to the implement merely via the flat abutment surface, the circular cross-sectional portion that is retained is free of screwing or fastening forces. A cross-sectional deformation that reduces the bearing strength under operating loads is avoided.
Pursuant to an advantageous further development, the flattened abutment portion merges via a rounded section with the adjoining cross-sectional portion. An excessive material deformation is avoided in this region. The rounded portion contributes to the stiffening or reinforcement of the cross section.
Pursuant to one expedient embodiment, provided across from the planar abutment portion is a further abutment portion that is disposed in particular parallel thereto. Between the two abutment portions, the circular cross-sectional portion is retained. The supporting cross-section of the tubular handle is altered only slightly. There results the possibility of a two-sided securement relative to the cross section. In particular, a U-shaped holding bracket can be provided that spans the tubular handle in the region of the two oppositely disposed abutment portions. The two planar abutment portions form a positive securement against rotation. With a securement to the two oppositely disposed abutment portions, there results a central introduction of force with a double-shear screw connection. In addition to the appropriate tubular handle portion, the screw connection is also subjected to slight stress.
Pursuant to one expedient embodiment, adjoining both sides of the flattened abutment portion are two side legs that are disposed approximately parallel to one another. In this connection, the side legs are provided in particular with a radius of curvature that is considerably greater than a radius of the circular cross-sectional portion. There results in this region an approximately square or rectangular cross-sectional portion having a large enclosed surface accompanied by a high rigidity in strength. The curvature of the side legs exerts an effect that supports the cross-sectional shape and avoids a bulging transverse to the plane of the wall.
Pursuant to one advantageous embodiment, the circular cross-sectional portion in the mounting portion extends over a cross-sectional angle in the range of at least approximately 180° to approximately 270°. In this angle range, on the one hand the abutment portion is adequately large for a flat or laminar engagement. On the other hand, the circular cross-sectional portion is adequately large to exert its support effect, which is dictated by its shape.
The mounting portion is expediently produced by stamping of the circular cross section. The tubular handle can be manufactured from a tubular semi finished product having a circular cross section in a cost effective and rapid manner, and with little material stress. An expedient suitable material for the tubular handle is an aluminum alloy, and in particular AlZn4, 5Mg1. A good deformability with low tendency to tear and a high material strength at low weight are provided, even at high degrees of deformation.
Pursuant to an advantageous further development, the abutment portion has a screw hole, and the oppositely disposed circular cross-sectional portion has an insertion hole for the introduction of a mounting screw. The mounting portion is easy to attach, and possibly also detach, on and from the implement. In the mounted state, a head of the mounting screw is disposed within the tube cross section, and is protected against damage and contamination. On the whole, there results a space-saving manner of construction.
In this connection, there is expediently inserted on the inside of the tubular handle an insert that rests against the abutment portion and has a screw hole. The insert contributes to the reinforcement of the abutment portion. Force peaks during the screwing or tightening operation are uniformly distributed via the insert to the abutment portion. Localized load increases are avoided.
The abutment portion and the insert advantageously respectively have at least two screw holes that are associated with one another. The corresponding mounting portion is fixed in an appropriately spatially good manner, whereby even with, for example, an unintentionally loosened screw connection, an adequately high holding force remains.
In the region of the screw hole, the insert is expediently provided, on its side that faces the abutment portion, with a concave recess. Upon application of the screwing force, the insert can spring or deflect in an elastic manner. The screw connection can appropriately be provided with an elastic prestress, whereby the screw forces are retained even at high vibrational stresses. Burrs or the like on the inside of the screw holes of the tubular handle can extend into the recess without obstructing a flat abutment of the insert against the abutment portion.
Pursuant to one expedient embodiment, a plug, which is provided in particular with elastically resilient latching tongues, is provided for the insertion hole. This prevents penetration of dirt into the insertion hole, and hence into the interior of the tubular handle.
The screw connection is reliably protected against corrosion. In conjunction with the resilient latching tongues there results an easy ability to assemble.
Pursuant to an advantageous variation, a threaded portion, and in particular a blind rivet nut, is provided in the abutment portion. A screwing can be effected from the side of the implement into the corresponding threaded portion, in other words from the outside toward the inside. An insertion hole that weakens the cross section of the tubular handle is not required.
Further specific features of the present application will be described in detail subsequently.
Referring now to the drawings in detail,
The tubular handle 1 shown in
The side view of
The front view of
The further mounting portion 6, in the region of the pertaining flat or planar abutment portion 7, is provided with a threaded portion 16 that in the illustrated embodiment is embodied as a riveted-in blind rivet nut 17, and is provided for receiving a mounting screw 12 that is to be screwed inwardly from the outside, an anti-vibration element having a threaded portion, or the like. The threaded portion 16 can also be formed, for example, by a stamped-in, inwardly flanged hole having formed therein an internal thread.
The cross-sectional illustration of
During transformation of the circular cross section 3 into the cross-sectional shape shown here, the circular cross-sectional portion 8 retains its shape in conformity with the circular cross section 3. In this connection, the circular cross section 3 and the circular cross sectional portion 8 have the same radius R1. The two side legs 9 are only approximately planar, and in comparison to the R1 of the circular cross sections 3, 8 are curved with a relatively large radius of curvature R2. In the illustrated embodiment, the radius of curvature R2 is approximately four times the radius R1. The two side legs 9, including the thickness of the abutment portion 7, have a width B that is approximately ¾ of the radius R1, as a result of which a cross-sectional transformation can essentially be effected by bending while avoiding linear compression or elongation.
Disposed on the inside of the mounting portion 4 is an insert 14 that on the inner side rests in a flat manner against the abutment portion 7. On that side of the insert 14 that faces the abutment portion 7, a groove-shaped recess 15 extends centrally, and in an axial direction, over the entire length of the insert 14. The recess 15 is thus also provided in the region of the screw holes 10, 13 (see
The longitudinal cross-sectional illustration of
The abutment portion 7 is interrupted by two screw holes 10 that are spaced axially from one another and which have respectively associated therewith two screw holes 13 of the insert 14 that are associated with one another at the same spacing. Coaxial to the screw holes 10, 13, the circular cross-sectional portion 8 that is opposite the abutment portion 7 is provided with insertion holes 11. In the illustrated embodiment, only one mounting screw 12 is shown that extends outwardly from the inside through the corresponding screw holes 10, 13. The mounting screw 12, together with its head 23, was previously guided through the insertion hole 11. The head 23 of the mounting screw 12 rests upon the insert 14. When the tubular handle 1 is screwed to the implement 2 (
The perspective detailed view of
The perspective detailed view of
The cross-sectional illustration of
The longitudinal cross-sectional illustration of
The mounting portion 6 shown here can also be embodied with screw holes 10, 13, as well as with insertion holes 11, in conformity with
The schematic cross-sectional illustration of
The exploded illustration of
The perspective detailed view of
In the illustrated embodiment, the tubular handle 1 of FIGS. 2 to 12 is produced from an aluminum alloy, whereby AlZ4, 5Mg1 is selected as the material. It would also be possible to provide a tube made of steel or polymeric material.
The specification incorporates by reference the disclosure of German priority document 103 61 295.5 filed Dec. 24, 2003.
The present invention is, of course, in no way restricted to the specific disclosure of the specification and drawings, but also encompasses any modifications within the scope of the appended claims.
Number | Date | Country | Kind |
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103 61 295.5 | Dec 2003 | DE | national |