The invention relates to a hand-held power tool such as a chainsaw, a hedge trimmer or the like, comprising a motor housing as well as a grip housing with a longitudinal support wherein the grip housing and the motor housing are connected to one another by antivibration elements. When looking at the power tool in the usual working position, a forward grip pipe is fixedly connected by a screw connection in the area of an connecting end to the longitudinal support of the grip housing, wherein at least one fastening screw of the connecting end is arranged at least approximately in a vertical direction of the power tool.
Hand-held power tools such as chainsaws, hedge trimmers or the like are held and guided in operation by the operator by means of several grips. Using a chainsaw of a known configuration as an example, in the usual working or operating position a rear grip facing the operator and a forward grip facing the saw chain are provided for supporting, carrying and guiding the chainsaw.
In operation, the drive motor and the cutting tool generate vibrations that must be kept away from the grips. For this purpose, a two-part configuration with a motor housing and a separate grip housing is provided wherein the grip housing and the motor housing are connected to one another by means of antivibration elements. The rear grip and the forward grip pipe are connected to the grip housing and decoupled from the motor housing in regard to vibrations by means of the antivibration elements.
In order to provide an ergonomic gripping in different grip positions, the forward grip pipe extends in an arc shape about the motor housing and is attached with a lower connecting end to a longitudinal support at the bottom of the grip housing. With regard to the size of the motor housing and in particular the total height of the power tool, the longitudinal support has only a minimal height. The grip pipe is also flattened in the area of the lower connecting end and is fixedly screwed from below to the longitudinal support of the grip housing.
In a widely used configuration two fastening screws pass with their longitudinal axis extending in a vertical direction through the connecting end of the grip pipe and are screwed by self-tapping action from below in the upward direction into plastic screw receptacles of the longitudinal support. For a satisfactory load capacity of this screw connection, an appropriate screwing depth must be provided. This screwing depth determines the thickness of the longitudinal support in the area of the screw connection and adds to the cross-sectional thickness of the grip pipe in this area. In addition to the aforementioned total height, a vertical gap between the longitudinal support and the motor housing must also be taken into account; this gap enables an elastic vibrational movement of the comparatively rigid assembly comprised of grip housing and grip pipe relative to the motor housing. The space for this is limited. In particular, an oil tank, for example, for oil for lubricating the chain, is often provided in this area, and the tank itself requires an appropriate space. In the desired compact configuration, in particular, compact in the vertical direction, this may lead to the thick longitudinal support of the grip housing coming into contact with the motor housing in the area of the screw receptacles as a result of a vibration-caused movement; this leads to cancellation of the vibration-decoupling action of the antivibration elements.
It is an object of the present invention to configure a hand-held power tool of the aforementioned kind in such a way that a highly loadable connection of the grip pipe and the longitudinal support of the grip housing is possible at reduced size.
In accordance with the present invention, this is achieved in that the fastening screw is fixedly screwed into a screw receptacle of a metal insertion part wherein the insertion part is received in the longitudinal support made from plastic material so as to be located entirely within the contour of the longitudinal support.
The metal insertion part requires only a minimal height as a result of the selected material (metal) in order to securely hold a fastening screw to be screwed into the insertion part. By means of the arrangement within the contour of the longitudinal support, the height of the insertion part does not add to the height of the longitudinal support. The longitudinal support can be constructed with regard to its thickness or its height solely based on requirements with regard to bending resistance so that a flat cross-section is made possible. While taking into consideration a sufficiently large free gap relative to the motor housing, a compact configuration can be achieved.
The screw receptacle of the insertion part can be a spring bracket or a soft sheet metal part into which the self-tapping thread of the fastening screw can be screwed. However, a ready-made thread can also be provided. In a preferred configuration, the screw receptacle is a threaded bore for receiving particularly a metric outer thread of the fastening screw. In addition to a high load capacity and a compact configuration, a simple assembly requiring only minimal screwing forces is enabled.
In an advantageous configuration, the insertion part is a thin sheet metal part with a sleeve-shaped screw receptacle formed as a unitary part. The sheet metal part can be produced as a monolithic stamped part or monolithic folded part; it is lightweight and space-saving. The monolithic formed sleeve-shaped screw receptacle provides space for a suitable number of turns of the thread; this provides a safe receiving action of the fastening screws even when it is screwed in and removed several times.
The insertion part is expediently a spring bracket, in particular made of spring steel, wherein the spring bracket has two spring legs that engage by clamping an inner mounting rib of the longitudinal support. Mounting is easy by simply inserting the spring bracket. In the screwed state, the spring legs are pressed against both sides of the mounting rib and are therefore fixedly secured so as not to slide. Advantageously, the connecting end of the grip pipe rests flat on one of the two spring legs and the opposite spring leg supports the screw receptacle. The spring leg adjoining the connecting end of the grip pipe serves as an intermediate layer between the connecting end and the mounting rib made from plastic so that the mounting rib is relieved of excessively high local surface pressures.
In an advantageous further configuration, the spring bracket is bent to a U-shape thus providing the two spring legs. A bottom section of the U-shape connecting the spring legs is wider than the thickness of the mounting rib; the two spring legs, beginning at the bottom section, converge toward one another. This configuration avoids a local clamping action in the area of the bottom section and displaces the clamping action into the area of the free ends of the spring legs where they have a sufficiently large elastic spring travel. Thickness tolerances of the mounting rib can therefore be compensated easily.
The spring leg supporting the screw receptacle is expediently made from two spring strips between which a contact section with the screw receptacle is provided; the contact section has independent spring action and is approximately parallel to the opposed spring leg. While maintaining the elastic spring travel in the area of the free end of the spring legs, the contact section and the parallel extending, opposed spring leg rest flat against the opposed sides of the mounting rib. The flat contact generates a high load capacity with minimal surface pressures.
At least one of the two spring legs has expediently a widening mounting ramp that simplifies manual or even automatic threading of the spring bracket onto the mounting rib. Each fastening screw of the connecting end has advantageously correlated therewith a separate spring bracket. The spring brackets can be produced in large numbers as a standard component and can be used in power tools having various configurations of screw connections.
In an expedient alternative, the metal insertion part is a thick, plane insertion sheet metal plate with a through bore provided as a screw receptacle. In particular, the insertion sheet metal plate has two screw receptacles for one fastening screw each. The insertion sheet metal plate can be produced in a simple way without requiring forming steps. When providing an appropriate thickness of the insertion sheet metal plate, the through bore has a suitable depth for a sufficient number of thread turns without added material thickness being required in this area. By arranging two screw receptacles in one insertion sheet metal plate, their spacing and position relative to one another are predetermined. Additional measures for positional adjustment in the longitudinal support of the grip housing are not required. For the purpose of weight reduction, the arrangement of a cutout between the two screw receptacles can be expedient.
Advantageously, the insertion sheet metal plate is secured in particular by a clamping action in a pocket-shaped receptacle of the longitudinal support. For this purpose, the pocket-shaped receptacle has expediently at least one clamping rib. For assembly, only a simple insertion of the insertion sheet metal part into the pocket-shaped receptacle is required. In the receptacle, the sheet metal plate is reliably secured in its position by means of the clamping rib until the subsequent positional fixation is realized by means of the screw connection connecting the end of the grip pipe and the longitudinal support.
The hand-held power tool 17 illustrated in
In the usual operating position of the power tool 17, there is a forward orientation facing away from the operator and indicated by arrow 26 in which the guidebar 19 with the saw chain 20 are positioned in front of the motor housing 1. On a grip housing 2 that is separate from the motor housing 1 a rear grip 21 is provided that, relative to the direction 26, is positioned to the rear of the power tool and behind the motor housing 1. A forward grip pipe 4 surrounding the motor housing 1 is attached to the forward area of the grip housing 2.
The motor housing 1 surrounds at a spacing approximately like a āUā a longitudinal support 5, shown in dashed lines, of the grip housing 2. A longitudinal axis 6 of the longitudinal support 5 extends approximately parallel to the forward direction 26. Relative to the illustrated usual operating position, an upward vertical direction is indicated by arrow 7. The longitudinal axis 6 of the longitudinal support 5 extends centrally through the bottom of the motor housing 1 relative to the arrows 26, 7 and a transverse direction extending transversely to the illustrated arrows 26, 7.
The grip housing 2 and the motor housing 1 are connected to one another by means of several antivibration elements 3 wherein, for simplifying the illustration, only one antivibration element 3 is indicated as an example. The illustrated antivibration element 3 is arranged in front of a connecting end 8 of the grip pipe 4 between the longitudinal support 5 and the motor housing 1. By means of the antivibration elements 3, the grip housing 2, considered as a substantially rigid unit together with the rear grip 21 formed thereon and the fixedly screwed-on grip pipe 4, is vibrationally decoupled from the motor housing 1.
Above the longitudinal support 5 in the area of the connecting end 8 and the antivibration elements 3 positioned in front thereof, an oil tank 57 is arranged in the motor housing 1; the tank 57 contains lubricating oil for the saw chain 20. A lid 58 closes off the filling socket that opens into the oil tank 57 for filling in lubricating oil. Above the longitudinal support 5 and also in the two lateral directions between the longitudinal support 5 and the motor housing 1 with oil tank 57, a vibration gap 59 is provided (indicated by dotted lines); the gap 59 enables a vibration-caused movement of the module comprising the grip housing 2 relative to the module comprising the motor housing 1. In the case of a minimal height in the vertical direction 7, a sufficiently large vibration gap 59 relative to the motor housing 1 in the area of the oil tank 57 is desirable, in particular in the area of the connecting end 8.
Between the forward grip pipe 4 and the guidebar 19, a lever 23 of a braking device for the saw chain is arranged; it is pivotably supported on the motor housing 1 and, as needed, is actuated by the operator's hand that grips the forward grip pipe 4. For starting the combustion engine 18, a cable pull starter 24 is provided.
For screwing the grip pipe 4 to the grip housing 2 on the end (not illustrated) opposite the illustrated connecting end 8, the grip housing 2 is provided with two screw receptacles 25 that enable an overall rigid screw connection of the grip pipe 4 and the grip housing 2.
The contact section 36 is essentially plane; however, a screw receptacle 10 in the form of a cylindrical sleeve projects out of the plane of the contact section 36 as a monolithic part and extends in the direction away from the spring leg 32. The sleeve is provided with an inner thread (not illustrated). The contact section 36 with its unitary sleeve-shaped screw receptacle 10, with the mounting ramp 39, and the two spring strips 35 forms the second spring leg 33 that, like the spring leg 32, projects from the bottom section 34. Together, the legs 32, 33 and the bottom section 34 provide the U-shape. The surface of the plane contact section 36 is positioned approximately parallel to the surface of the plane spring leg 32. Starting here, the mounting ramp 39 widens relative to the spring leg 32 into a V-shape in a direction oriented away from the bottom section 34.
The two spring brackets 13 are arranged relative to one another in the mounting position in such a way that the two mounting ramps 39 point toward one another while the two bottom sections 34 and the free edges 56 face away from one another.
In
In the area of the grip pipe screw connection the topside 46 is formed by a closed supporting cover surface 50 below which an intermediate space 49 is provided. In the downward direction, the intermediate space 49 is delimited by a mounting rib 15 with two bores 43. In the illustration according to
In the lateral direction on the right side illustrated in
The mounting rib 15 is essentially plane and has a constant thickness or height d. With reference to
The aforementioned arrangement with mounted spring brackets 13 is illustrated in
For demonstration purposes, a fastening screw 9 (
When the fastening screws 9 are screwed in and tightened in the threaded bores 12, their screw heads 51 force the connecting end 8 against the spring leg 32 which, in turn, is pressed against the mounting rib 15. At the opposite side, the spring leg 33 shown in
For positional fixation of the insertion sheet metal plate 16 the pocket-shaped receptacle 37 is provided with two clamping ribs 38 that project from the cover surface 50 inwardly into the pocket-shaped receptacle 37 and extend lengthwise in the transverse direction; the insertion sheet metal plate 16 can be secured by a clamping action between the clamping ribs 38 and the oppositely positioned bottom 55.
Alternatively or additionally, aside from the clamping fixation of the insertion parts shown in
In the embodiment according to
While specific embodiments of the invention have been shown and described in detail to illustrate the inventive principles, it will be understood that the invention may be embodied otherwise without departing from such principles.
Number | Date | Country | Kind |
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10 2005 047 882 | Oct 2005 | DE | national |
This application is a divisional of application Ser. No. 11/538,472 having a filing date of Oct. 4, 2006 the disclosure of which is incorporated by reference in its entirety. This application claims foreign priority benefits under 35 USC 119 of German patent application DE 10 2005 047 882.4 having a filing date of Oct. 6, 2005 the disclosure of which is incorporated by reference in its entirety.
Number | Name | Date | Kind |
---|---|---|---|
2672905 | Hartman et al. | Mar 1954 | A |
2781073 | Trafton | Feb 1957 | A |
3358729 | Munse | Dec 1967 | A |
3414035 | Munse | Dec 1968 | A |
4141143 | Hirschkoff et al. | Feb 1979 | A |
4296553 | Dirks et al. | Oct 1981 | A |
4684305 | Dubost | Aug 1987 | A |
5039264 | Benn | Aug 1991 | A |
5306091 | Zaydel et al. | Apr 1994 | A |
6287064 | Jhumra et al. | Sep 2001 | B1 |
6553619 | Chen | Apr 2003 | B2 |
6799373 | Menzel et al. | Oct 2004 | B2 |
6994068 | Menzel et al. | Feb 2006 | B2 |
Number | Date | Country | |
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20100071925 A1 | Mar 2010 | US |
Number | Date | Country | |
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Parent | 11538472 | Oct 2006 | US |
Child | 12627280 | US |