DE10257892A1 - Vibrating plate used as a tamping plate for compacting the ground, especially sand or snow, comprises supporting components forming a base plate with a natural resonance frequency that is greater than the frequency of its vibration - Google Patents

Abstract

Vibrating plate (1) comprises a base plate (2) set in vibration by a driving device (9) and having as support components at least one bottom plate (3), an upper plate (4) and a cell structure (5) arranged between the bottom plate and the upper plate to reinforce the base plate. The supporting components form a base plate with a natural resonance frequency at least 2-5 times, preferably at least 3-4 times the frequency of its vibration. An Independent claim is also included for a base plate of the above vibrating plate. Preferred Features: The supporting components are welded together to form a self-supporting body.

Description

The invention relates to a vibrating plate a base plate which can be vibrated by an excitation device, which has a base plate. The underside of the base plate works flat and vibrate on the material to be compacted. Due to the The base plates are usually subjected to high dynamic loads Made from massive thick steel plates, which if necessary continue via welded beams be stabilized.

The well-known vibration plates are successful in soil compaction in many areas of application used. However, it has been shown that when using the usual Slabs, among other things, in the compression and uniform narrowly graded sands for grain refinement due to grain breaks and Abrasion is coming. The disadvantage here is that grain refinements due to the mechanical action during installation the soil mechanics Properties of the mixture, e.g. Permeability, sensitivity to frost, Change compaction characteristics.

Smooth running is also a problem the known vibration plates. So it can with increasing compression of the underground to irregular vibrations and tilting movements of the conventional Vibration plates are coming.

The invention is therefore the object based, a vibration plate with one of an excitation device create vibratable base plate when using it there is no longer any grain refinement and its smoothness at the same time is improved.

According to the invention, this object solved, that a vibrating plate with one from an excitation device is created in vibratable base plate, the one Has base plate, which at least in regions with a cell structure is understood.

This is known from aircraft construction Stiffening and lightweight construction technology can be used for that Base plate due to the stiffening much thinner than known to date. This leads to considerable weight savings. A vibration plate according to the invention therefore has a significantly lower vibrating mass. This has the advantage that the necessary amplitude to ensure the sufficient Compression with lower centrifugal forces can be generated. Therefore can lower unbalance masses are used, which in turn is a smaller one Have weight and are driven with less power can. So can the unwanted Grain refinements can be reduced and at the same time the excitation device operated more economically.

Furthermore, the running properties improve the vibration plate clearly. Trials have shown that the Base plate vibrates longer and longer with increasing compaction of the subsurface before becoming irregular and undesirable Tumbles or tilts.

This also makes it clear Weight reduction the use of the vibration plate for compaction of piles of a more general kind. Pile means one in this context one of more or less unequal sizes and loosely arranged single grains, loose structure with large pore spaces. By Compression can transform this loose structure into a pore-filling graded tight and void-free storage structure are transferred. The grains e.g. Sand or gravel but also be snow and ice crystals. So can the vibration plate according to the invention also in care and preparation of ski slopes, cross-country trails or ski jumping runs to achieve longer standing times be used without sinking into the snow. This area of application is the conventional one Vibration plates due to the massive design of the base plates and the resulting high weights are not available.

The lighter design also allows the panels to be made much wider without making handling too difficult due to the excessive overall weight. Base plates made of thin, high-strength steel with a width of approx. 2.25 m and a footprint of approx. 10000 cm ^{2 can be produced} , which lead to a total weight of the vibration plate of less than 400 kg. The corresponding surface pressure of such a vibration plate is then only 0.4 N / cm ² instead of the usual 5 N / cm ² .

The base plate is vibrated with the help of an excitation device. This can e.g. one on or also circular exciters or directional oscillators mounted in the base plate his. In this context, excitement is also conceivable a single exciter or several hydraulically or mechanically synchronized exciters. Alternatively, are continuous Waves with one or more exciter weights as circular exciters or directional rocker can be used. Also eccentrically mounted shafts can be used here.

In an advantageous development, the cell structure has at least partially different cell shapes. This has the advantage that the stiffening effect of the cell structure can be varied over the base plate. This can be done to adjust the rigidity to the load situation. This would result in a cell structure with a particularly large number of small cells in areas with particularly high loads, for example at the edge of the base plate or used in the field of vibration excitation. More complicated geometries of the base plate can also be produced with different cell shapes. For example, the cell structure can be adapted to a drop-shaped cross section of the base plate.

The cell structure advantageously has at least partially closed cells with polygonal bases. Execution the cell structure from partially closed cells leads to a further stiffening. Execution with different polygonal bases has the advantage that the cell structure also complies with more complicated geometries of the floor plan can be adapted to the base plate. Three, four, five, or six and more angular regular or irregular shapes.

In another embodiment can the cell structure at least partially closed cells with round base areas at least in some areas. This is it possible also rounded base areas to provide the base plate with a cell structure. It is too advantageous that the cell structure is made from tubes, whereby individual pipe sections are simply joined together. To do this e.g. circular cylindrical tubes can also be used.

In a particularly preferred embodiment becomes a top plate on the cell structure at least in some areas arranged. This leads to firm connection with the cell structure for further stiffening the base plate. The cell structure is also covered upwards, so that there is no material to be compressed in the cell structure can accumulate. This keeps the weight of the vibrating plate or the base plate even with a longer period Use constant. weight changes through accumulations of the material to be compacted not a change the vibration characteristics of the vibration plate. Still relieved the top plate cleaning the vibrating plate. It is advantageous accordingly a removable top plate.

In another training course the underside of the base plate with at least some areas wear protection Mistake. This has the advantage that due to the target Weight reduction very thin executed Bottom plate not due to friction with the material to be compacted worn or damaged becomes. Such wear protection can e.g. a coating glued to the base plate a suitable plastic or even a clamped on the base plate Plastic or metal plate that is easy to replace. The attachment of the wear protection can e.g. by screws, rivets or clamps on the base plate respectively.

In another embodiment are on the outside of the base plate Profiled strips attached. this leads to on the one hand to further stiffen the base plate and on the other others to profile the underground. There are different profiles, such as. Trapezoid, triangle or wave profiles can be used. Also here the attachment e.g. by screws, rivets, clamps or stick to the base plate.

In a further advantageous embodiment the vibration plate has a vibration-insulated suspension Attachment to a self-propelled carrier device that can be operated via the Cell structure is connected to the base plate. Through this direct Connection to the cell structure makes it possible to attach another fastener to renounce. The vibration isolation of the suspension can doing e.g. about Rubber or spring-damper elements are made and leads to ensure that the vibrations of the vibration plate are not transmit the self-propelled carrier. Such a self-propelled carrier device can e.g. a tractor, a snow groomer or a single drum compactor for tillage.

In a particularly advantageous Further training is the vibration of the base plate with an amplitude of more than 0.1 mm and the amplitude is adjustable. It can the adjustment of the amplitude from a value of 0.1 mm to larger amplitude values continuously, step-wise or fixed in one step.

The vibration of the Base plate with a frequency of more than 35 Hz and the frequency is adjustable. The frequency of 35 Hz can also be used for larger frequency values continuously, step-wise or fixed in one step.

The invention is explained below of an embodiment shown in the drawing further explained. It show schematically:

1 the section AA through a vibration plate reinforced with a cell structure;

2 the top view of part of the in 1 vibration plate shown with representation of the internal cell structure; and

3 the partial representation of the section BB in 1 and 2 shown vibration plate.

In detail shows 1 the section AA through a vibration plate 1 for compacting and smoothing ski slopes. This includes a base plate 2 that with a cell structure 5 is stiffened, an excitation device 9 for generating vibrations and an equipment rack 10 , which is attached to a self-propelled carrier.

The base plate 2 includes a base plate in the embodiment shown here 3 , a top plate 4 and an intermediate cell structure 5 , The excitation device 9 is on two cross beams 8th attached, which in turn on the bottom plate 3 are attached. The cell structure 5 in this embodiment consists of cell longitudinal walls arranged at right angles to one another 6 and cell cross walls 7 that are fixed here with the base plate 2 and the top plate 4 are welded. In this embodiment, the base plate 2 bent upwards on the front side in the machining direction in order to press snow collecting in front of the vibration plate, under the vibration plate and to slide over bumps. Here is the bottom plate 3 with wear protection 12 Mistake. This is on the bottom plate 3 screwed on and prevents damage to the base plate 3 through sharp stones sticking out of the snow. At the rear end of the base plate 3 is located below the base plate 3 Profile rail mounted across the entire width across the direction of travel 13 , This is also interchangeably attached and serves to further stiffen the end section of the base plate 2 as well as the profiling of the compacted snow.

The coupling of the vibration plate 1 to a previous and self-propelled carrier device, such as a snow groomer in this case, is carried out via the device carrier 10 the snow groomer without making any modifications to the carrier. Here is the equipment carrier 10 on the vibration-insulated suspension 11 the vibration plate 1 appropriate.

From the in 2 shown top view of part of the in 1 vibration plate shown is the variation of the cell structure 5 recognizable in size, shape and cross-sectional dimensions. So are in the area below the excitation device 9 the cell walls 6 and also the cell transverse walls are arranged closer to each other. The edge of the base plate 2 is also with denser cell walls 7 Mistake. The remaining areas of the cell structure 5 have cells made up of thinner longitudinal cell walls 6 are formed and in which the support walls 8th or the bottom plate bent up front and back 3 form the transverse cell walls.

The cell structure 5 is on the side edges of the vibration plate 1 of side walls 14 limited, as in in 3 shown section BB can be seen. The profile bar 13 in this embodiment is a trapezoidal profile for producing a corrugated slope surface. The vibration-isolated suspension elements 11 are in this embodiment between the multi-part excitation devices 9 arranged and directly with the cell structure 5 connected.

Claims (11)

Vibration plate with a base plate which can be vibrated by an excitation device and which has a base plate, characterized in that the base plate ( 3 ) at least in some areas with a cell structure ( 5 ) is stiffened. Vibration plate according to claim 1, characterized in that the cell structure ( 5 ) has at least partially different cell shapes. Vibration plate according to one of claims 1 to 2, characterized in that the cell structure ( 5 ) has at least partially closed cells with polygonal bases. Vibration plate according to one of claims 1 to 2, characterized in that the cell structure ( 5 ) has at least partially closed cells with at least partially round base areas. Vibration plate according to one of the preceding claims, characterized in that on the cell structure ( 5 ) a top plate at least in some areas ( 4 ) is arranged. Vibration plate according to one of the preceding claims, characterized in that the underside of the base plate ( 3 ) with wear protection at least in some areas ( 12 ) is provided. Vibration plate according to one of the preceding claims, characterized in that on the base plate ( 3 ) a profile strip on the outside ( 13 ) are attached. Vibration plate according to one of the preceding claims, characterized in that it has a vibration-insulated suspension for attachment to a self-propelled carrier device, which is connected to the base plate via the cell structure ( 2 ) connected is. Vibration plate according to one of the preceding claims, characterized in that the vibration of the base plate ( 2 ) with an amplitude of more than 0.1 mm and the amplitude is adjustable. Vibration plate according to one of the preceding claims, characterized in that the vibration of the base plate ( 2 ) with a frequency of more than 35 Hz and the frequency is adjustable. Base plate of a vibration plate, which is a base plate according to one of the preceding claims.