The invention relates to a road finisher according to the preamble of claim 1.
The screed fastened to a road finisher has the task of uniformly compacting the paving material over the entire paving width and of producing a closed, planar structure. To prevent the bituminous paving material in the warm state from remaining stuck to the base plate of the screed, the screed has a heater. Conventionally, the screed is heated with a gas or electric heater. As a result, the material can be optimally laid and compacted.
As known from DE 203 05 577 U1, the electrical variant is usually implemented by means of electrical heating bars of which a plurality are arranged distributed on the base plate of the screed. The heating bars are connected to a power source. The amount of heat required for heating the base plate is in this case introduced into the base plate via heat transfer through contact. A disadvantage is that the heat distribution of the heat input is not sufficiently uniform, thereby having a disadvantageous effect on the heating-up time which determines the readiness of use of the road finishers. Furthermore, the heating bars used have a tendency to break. The replacement of defective heating bars leads to undesired downtimes of the road finisher, with the result that the maintenance requirement is increased.
The object of the invention is therefore to provide a road finisher according to the preamble of claim 1 whose screed heater improves a heat distribution of the base plate, is low-maintenance and has a good heating capacity.
This object is achieved according to the invention by the features of claim 1.
As a result, a road finisher is provided whose screed has an improved electrical heating element. The round-tube heating body is particularly robust. The fastening of the round-tube heating body on the base plate by the clamping according to the invention surprisingly provides a more uniform heating pattern of the base plate. This is achieved in particular in that the fastening bolts are incorporated directly for heat transfer.
For this purpose, the round-tube heating body can preferably be positioned on the base plate in a loop to the right and left of the fastening bolts. The heat exchange then takes place from the heating bar to the base plate and from the heating bar via the thermal links to the base plate. Different circumferential regions of the heating bar are used as contact surface for transporting heat to the base plate.
Furthermore, it is advantageous that the heat energy can be introduced over a relatively large area as a function of the thickness of the bolts. This promotes the more uniform heating of the base plate.
To fix the heating element, a clamping plate is preferably provided. Such a clamping plate makes it possible to reduce the radiant emission of the heat.
Further refinements of the invention can be found in the following description and in the subclaims.
The invention will be explained in more detail below with reference to the exemplary embodiments illustrated in the appended drawings.
The road finisher 1 shown in
The two adjacent heating bars 12 of a heating element 11 contact the bolts 13 in that they are supported on the bolts 13. This contact results in a heat transfer from the heating bars 12 to the bolts 13. The bolts 13 have a good thermal conductivity since they are preferably made of metal and therefore transfer heat to the base plate 8, with which the bolts 13 are also in contact through their fastening. The heat energy can be introduced over a relatively large area as a function of the thickness of the bolts 13, although the round-tube heating bodies of the heating bars 12 have, by contrast with flat-tube heating bodies, a reduced bearing surface on the base plate 8 via which the heat conduction takes place.
In order to clamp the heating element 11 onto the base plate 8, at least one clamping plate 14 is preferably provided which is seated in a roof-shaped manner on the heating filament folded over at least once. The clamping plate 14 thus covers, at least along a part of the length or width (depending on the orientation of the heating elements 11 with respect to the dimensions of the base plate 8) of the base plate 8, the heat transfer system consisting of two adjacent heating bars 12 with integrated bolt 13. According to
The two heating bars 12 have, offset in the circumferential direction with respect to the heat-conducting links of the bolts 13, a respective heat exchange surface with respect to the base plate 8, for which purpose the heating bars 12 contact the base plate 8. The heating bars 12 preferably lie directly on the base plate 8.
In the contact region with the heating bars 12, the bolts 13 can be designed with a smooth shaft 17 or as screw bolts with a screw shaft. The second exemplary embodiment represented in
The number of heating elements 11 which are clamped onto the upper side 9 of the base plate 8 is selectable. Preferably, at least two heating elements 11 arranged with a spacing from one another are provided which each ensure a wide-area heat transfer by means of a heat transfer system consisting of two adjacent heating bars 12 with integrated bolts 13.
According to the third exemplary embodiment of the invention represented in
According to the fourth exemplary embodiment represented in
To simplify the mounting and removal of the clamping plate 14, as represented in the fifth exemplary embodiment of
In all of the above-described exemplary embodiments, the round-tube heating body preferably comprises a metal tube in which a heating conductor 18 guided in an insulating material is arranged. The heating element 11 can be connected to a power supply in a known manner via a respective connecting block.
According to a sixth exemplary embodiment represented in
Finally,
Number | Date | Country | Kind |
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10 2008 024 083.4 | May 2008 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2009/003134 | 4/30/2009 | WO | 00 | 8/13/2010 |