The invention relates to a floor plate, in particular for portable, handheld tools with combustion engine, in particular according to the preamble to claim 1.
Portable, handheld tools with combustion engine are sufficiently known in prior art. For example, DE 28 06 107 A1 has become known, and discloses tools with combustion engine, in which a floor plate is provided with air inlet holes. The tank of the tools is placed on this floor plate and connected with the latter, and as a result is definitely exposed to outer influences, for example flying sparks, so that it must be specially protected. For example, double-walled tanks are known from prior art for protecting the tank contents.
A floor plate configuration has further become known in which a very intricate floor plate design is provided. This floor plate configuration provides for the incorporation of a tank that must be double-walled to be sufficiently safeguarded. Also provided is another spill plate, the objective of which is to catch incandescent particles, so that they do not penetrate into the tank. However, the incandescent particles are not removed right away. While holes are present in the floor plate, they can only become active upon impact and deflection. However, since a collar is present, the particles and sparks are held back above the sheet. In addition, the spill plate is designed in such a way that not all particles can be retained. Further, the known spill plate does not exhibit the desired properties with respect to affording protection against sharp rocks and the like, along with providing the desired level of stiffening.
The object of the invention is to provide a floor plate, in particular for portable, handheld tools with combustion engine, in particular according to the preamble to claim 1, which ensures the removal of particles, and at the same time is improved with respect to furnishing protection against mechanical/dynamic loads, such as those encountered during the impact of sharp rocks, and with respect to stiffening properties.
This is achieved with the features in claim 1.
The invention here provides that the at least one edge of an opening exhibits an element that projects at an inclined angle, or that the element protrudes from the edge, wherein the element serves as a baffle plate, in particular for incandescent or hot particles. The design of the openings advantageously reduces the weight of the floor plate, wherein the stiffness is increased at the same time by pulling up or beading the edge.
The floor plate is here advantageously designed with an essentially flat surface having an outer, continuous edge, and is provided with at least one opening with a related edge and a second opening with a related edge. To increase the stiffness of the floor plate, at least the continuous outer edge of the floor plate and/or the edge of at least one opening is at least sectionally beaded or pulled up.
To allow the element serving as a baffle plate to effectively remove incandescent or hot particles or sparks through an opening, the projecting element protrudes at an inclination over the at least one opening. As a result, the sparks or particles are removed directly with the airflow through the opening, or deflected upon colliding with the element and then diverted through the opening.
The element has an angle α relative to the plane of the floor plate of between 80° and 20°, preferably of 45°.
The floor plate preferably consists of metal, such as sheet metal, wherein the cutting process and forming process can here advantageously take place in a single operation, for example in a progressive die. It makes sense for the floor plate to be made out of sheet steel, so that it can satisfy the requirements placed on the floor plate in terms of strength and life. In like manner, aluminum or another light metal can be used to further reduce the weight.
In another exemplary embodiment, the floor plate is made out of plastic, in particular for weight considerations. It is especially advantageous for the floor plate to be comprised of carbon-reinforced plastic. This yields both a reduction in weight and an elevated stiffness. An especially heat-resistant material is here used.
According to the invention, it is also especially advantageous for the floor plate to be coated. In this case, the coating can be selected in such a way as to achieve an improved cooling and/or extinguishing of incandescent particles.
Additional advantageous embodiments and effects can be gleaned from the features of the specification and subclaims.
The invention will be explained in greater detail below based on an exemplary embodiment using the drawings. The purely diagrammatic depictions show:
The floor plate 100 is connected at its end in proximity to the area 12 with a high edge or surface 24. Among other things, the latter is used to connect the housing (not shown). In addition, the floor plate 100 has an essentially flat area 12 on which the receptacle 21 and mount for the handle strap element 13 are provided. In addition, the floor plate 100 has an opening 14 used for weight reduction purposes. Provided next to the opening 14 is another opening 15, which essentially takes up the entire width of the floor plate 100, wherein yet another respective web of material for increasing the stiffness remains at the edges of the floor plate 100.
An element 16 placed at an upward incline is provided at the front edge of the opening 15, preferably fashioned out of the material of the floor plate 100, and in the drawing is depicted at the top rear, and is in a built-in state toward the front, i.e., facing a work tool like a chain saw chain or cutoff wheel, set up toward the top and front at an angle α most preferably of 45° relative to the plane of the floor plate 100. This element 16 is used to route flying sparks from inside the casing from the back out of area 12 toward the front through the opening 15 and outside the housing. The element here also serves as a baffle plate, so that the sparks bounce off the element 16 and are diverted outside through the opening 15.
Situated in front of the opening 15 and protected by the element 16 is an essentially flat area 17, in which a tank (not shown) can be arranged. Arranging the tank in the direction in which the sparks fly behind the element 16 in area 17 protects the tank against flying sparks, and makes it possible make it lighter, for example since it no longer must be double-walled or have thicker walls. Also provided for securing the tank are attachment elements 18. In order to further enhance stiffness while still keeping the weight of the floor plate low, the edges 19 are pulled up and beaded on the side of the openings 14 and 15, while the edges 14a, 15a are pulled up and beaded in the area of the openings 14 and 15, making it possible to achieve a higher bending stiffness for the floor plate 100. This lowers the cost of production, while simultaneously increasing the stiffness, as in the case of a tubular frame or square frame.
The width of the floor plate 100 then tapers off again to value D as viewed on the left side of
The floor plate 100 is advantageously made out of a sheet metal or plastic material. The sheet metal can here advantageously be stamped, making it possible, in addition to tailoring the sheet metal, to simultaneously achieve a shaping process that yields the elevated edge areas and/or the elevated baffle plate. For example, steel can be selected as the material. Preferably a carbon-reinforced plastic can be selected as the plastic material.
It is further advantageous for the floor plate 100 or at least partial areas thereof, for example the element 16 that serves as the baffle plate, to be coated, thereby yielding an improved or safe removal of sparks or particles by reducing or avoiding adhesion to these coated regions. For example, such a coating can result in the sparks or incandescent particles being effectively dissolved form the surface of the element 16 acting as the baffle plate. Such a coating can advantageously result in a rapid cooling, since it has a high specific heat, and as such can absorb a high level of thermal energy.
Number | Date | Country | Kind |
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20 2009 006 860.9 | May 2009 | DE | national |