WO2010031786A1 - Bed plate for placement of products during the manufacture thereof and for storing the same in a shelf or the like - Google Patents

Abstract

The invention relates to a bed plate for placement of products during the manufacture thereof and for storing the same in a shelf or the like. In order to create a bed plate in which the weight and thickness of the plate is reduced while at the same time meeting all mechanical and climatic requirements, wherein the manufacturing costs of the plate are also substantially reduced in comparison to conventional plates, and the costs involved with the manufacture of a system using said plates turn out to be lower, the bed plate (13) comprises two equal plate sections (14) that are mutually disposed one on top of the other and connected together. Each plate section (14) comprises a flat, closed side (15) on one side and on the other side comprises a structure (16) that has a plurality of depressions (17) and a plurality of protruding lugs (18). After the two plate sections are mutually placed onto one another and connected, the protruding lugs (18) of one plate section (14) engage in a form fit with the recesses (17) of the other plate section (14). In the process, the flat, closed sides (15) of the plate sections (14) form the top (19) and the bottom (20) of the bed plate (13).

Description

 Equimax AG

description

Cover plate for the application of products during their production as well as for the storage of the same on a shelf or the like.

The invention relates to a base plate for supporting products during their production and storage of the same on a shelf or the like ..

Such backing plates are e.g. in the manufacture of concrete products such as paving stones, curbs, bricks, etc. needed. I.d.R. Plates of different sizes (about 700 x 700 mm to 1500 x 1500 mm) used. The plates are fed by means of a conveyor belt of a molding plant. Subsequently, the concrete products corresponding forms are placed on the plates and filled with the material (concrete). Thereafter, and also during the filling, the entire material to be compacted is shaken and thereby subjected to high frequencies (up to 50 Hz). High accelerations have an effect on the entire system, whereby a static load also acts through the mold pressure.

After compacting the material, the molds are removed and the plates with the compacted products are transferred to a drying rack. Here, the drying (curing) of the material takes place, the drying time is usually 24 hours. Depending on the product height, up to 40 plates can be stacked in the drying shelves. Subsequently, the finished products are transferred from the plates to stacking pallets. Then the plates are cleaned, turned over and, if no further direct use of the plates is provided, stacked and stored.

The plates have on the one hand a supporting function. On the other hand, the vibration energy must be transferred to the material to be compacted as completely as possible during the compaction by the vibration below the plate. In addition, at a maximum load of approx. 800 kg / m ² , the boards must not exceed a deflection of 3 mm in their center, even after a drying time of 24 hours. This is due to the width or length of the concrete products, which may break due to the bending or due to the deflection, the dimensional accuracy not comply.

Other important aspects are air humidity, which can be up to 100%, and outside temperatures up to 70 ⁰ C.

There are currently three types of plates, all of which are solid. On the one hand, these are steel plates with a thickness of 12-16 mm. On the other hand, the plates may be made of hard or softwood, which may also be formed as composite systems with a glued tongue and groove connection and with a plastic coating and have a thickness of 50 - 60 mm. However, the wood panels can also, as described in DE 10 2006 005 011 Al, have at least one steel sheet as the support skin on the top and bottom thereof. Third, plastic plates are known, the z.T. are reinforced by a metallic support frame and have a thickness of 60 mm.

All panels have to meet geometric requirements in terms of height, length and width tolerances. Considering the requirements such as static and dynamic load and especially climatic conditions such as high humidity and temperatures up to 70 ⁰ C, these are only fully satisfied by massive steel plates, since the mechanical properties of the steel in wide temperature ranges are constant. The plastic panels meet the climatic conditions with regard to moisture resistance. Maintaining the mechanical stability at higher temperatures is achieved here by the reinforcement by means of the steel frame. Solid wood panels fulfill the mechanical properties, but lose their geometry due to moisture absorption. To prevent this, they are often covered with a plastic layer.

A disadvantage of these plates is, inter alia, that the specified requirements depending on the material used, a certain minimum thickness is required. Accordingly, the weight of the solid plates is between 90 kg (wooden plates) and 180 kg (steel plates). This means that the system components, especially conveyor belts and drying systems, must be dimensioned accordingly, which in turn leads to higher system costs. The use of different materials also determines the service life of the plates. Steel plates usually last longer (up to 15 years) than plastic plates (up to 10 years), which in turn last longer than wood plates (up to 6 years}.

The invention is therefore an object of the invention to provide a base plate of the specified genus, in which at the same time meeting all mechanical and climatic requirements on the one hand the weight and on the other hand, the thickness of the plate is reduced, in addition, the manufacturing cost of the plates Compared to conventional plates are substantially reduced and also the cost of producing a plant working with the plates are lower.

This object is achieved by a base plate with the characterizing features of claim 1.

Advantageous developments of the invention are characterized in the subclaims.

Advantages of the invention will become apparent from the following description with reference to the invention reproducing and illustrated in the drawings embodiments. It shows

1 shows a first embodiment of a base plate,

FIG. 2 schematically shows the base plate according to FIG. 1 in an exploded view; FIG.

3 shows schematically a second embodiment of a base plate,

4 shows schematically the base plate according to FIG. 3 in an exploded view, FIG.

Fig. 5 is a partial section through a third

Embodiment of a base plate,

6 is a partial section of the base plate of FIG. 5 in exploded view, 7 is a partial section of a plate member of the base plate of FIG. 5,

8 is a view in the direction of the arrow VIII in FIG.

Fig. 9 in plan view, the structure of the plate member of FIG. 5 in the corner region thereof and

FIGS. 10a to 10e schematically different geometric shapes of the recesses or openings and / or the approaches.

The illustrated in Figures 1 and 2, the first embodiment of a base plate 1 for supporting products during their production and storage of the same in a shelf or the like., Comprises a plate member 2, in which a plurality of preferably the same, the plate member 2 penetrating Openings 3 are provided. On the top 4 and the bottom 5 of the plate member 2, a flat, closed cover layer 6 is applied in each case and connected to the same.

In the second embodiment of a base plate 7 shown in Figures 3 and 4, it consists of two identical, mutually superimposed and interconnected plate members 8, each plate member 8 on the one hand a flat, closed side 9 and on the other hand, a plurality of recesses 10 has. After the mutual juxtaposition and joining of both plate parts 8, the flat, closed sides 9 of the plate parts 8 form the upper side 11 and the lower side 12 of the underlay plate 7. Figures 5 to 9 show a third embodiment of a base plate 13, which also consists of two identical, mutually superimposed and interconnected plate parts 14. In this case, each plate member 14 on the one hand also on a flat, closed side 15 and on the other hand, a structure 16, which consists of a plurality of recesses 17 and a plurality of protruding lugs 18. The projecting lugs 18 of a plate member 14 engage after the mutual juxtaposition and joining of both plate members 14 in the recesses 17 of the other plate member 14 form-fitting, wherein the flat, closed sides 15 of the plate members 14, the top 19 and the bottom 20 of the base plate thirteenth form.

For centering of both plate members 14 in mutual assembly and further increase the stability of the base plate 13, the recesses 17 and the protruding projections 18 are conical, with 18 further recesses 21 are provided or molded to save weight in the above approaches.

Preferably, all the base plates 1, 7, 13 and the plate parts 2, 8, 14 and the cover layers 6 made of plastic, which may be formed naturally and / or synthetic fiber reinforced.

The joining of the plate part 2 with the flat, closed cover layers 6, the two plate parts 8 with each other or the plate parts 14 with each other can be done for example by gluing, welding or other methods of joining and / or connection technology. As in Figs. 10a to 10e, the openings 3 of the base plate 1 and the plate part 2 according to FIGS. 1 and 2, the recesses 10 of the base plate 7 and the plate parts 8 according to FIGS. 3 and 4 and the recesses 17 and lugs 18 of the base plate 13 and the plate parts 14 according to FIGS. 5 to 9 have different geometric shapes. For example, these may be honeycomb-shaped (Fig. 10a) _/ triangular (Fig. 10b), rectangular (Fig. 10c), circular (Fig. 10d), elliptical (not shown), or diamond-shaped (Fig other geometric shapes as well as mixed geometric shapes possible.

The underlay boards 1, 7, 13 according to the invention are characterized i.a. characterized in that they do not consist of solid material in contrast to the already described conventional backing plates. Through the use of plastics and the plurality of openings 3 and depressions 10, 17, 21 an enormous weight reduction is achieved, whereby the molding plants on which the base plates 1, 7, 13 are used, are spared. New molds and shelves can be designed more cost-effective due to lower loads by the weight reduction in their construction.

The special design of the plate parts 2, 8, 14 with the openings 3 and depressions 10, 17, 21 of different geometries ensures a very high stability of the base plates 1, 7, 13 made of plastic, through which at maximum load a maximum deflection in the Center of the backing plates 1, 7, 13 is guaranteed within the required tolerances and also a high life cycle is achieved. The fact that the base plates 1, 7, 13 and the plate parts 2, 8, 14 are created by extrusion, extrusion, die casting, injection molding or injection compression, production processes can also be made more cost-effective.

A further cost savings through the underlay boards 1, 7, 13 according to the invention is achieved in the transport costs, as u.a. Energy is saved by the weight savings on the base plates 1, 7, 13. During the manufacturing process, additional energy is saved by saving weight.

It goes without saying that the above-described application of the base plates 1, 7, 13 represents only one example. Of course, the base plates 1, 7, 13 can also be used elsewhere.

Claims

claims 1. base plate for supporting products during their production and for storing the same in a rack or the like ,, characterized in that the base plate (1) consists of a plate part (2) / in which a plurality of preferably same, the plate part ( 2) penetrating openings (3) are provided, and that on the upper side (4) and the underside (5) of the plate part (2) each have a flat, closed cover layer (6) is applied and connected to the same. 2. Base plate for supporting products during their production and storage thereof in a shelf or the like., Characterized in that the base plate (7) consists of two same, mutually superimposed and interconnected plate parts (8), each plate member (8) on the one hand a flat, closed side (9) and on the other hand a plurality of recesses (10), and wherein after the mutual juxtaposition and joining of both plate parts (8), the flat, closed sides (9) of the plate parts (8) Form the top (11) and the bottom (12) of the base plate (7). 3. Base plate for supporting products during their production and storage thereof in a shelf or the like., Characterized in that the base plate (13) consists of two same, mutually superposed and interconnected plate parts (14), wherein each plate member (14) on the one hand a flat, closed side (15) and on the other hand, a structure (16) consisting of a plurality of recesses (17) and a plurality of projecting lugs (18), and in that the projecting lugs (18) of one plate part (14) engage in positive engagement after the mutual juxtaposition and joining of both plate parts (14) into the depressions (17) of the other plate part (14); closed sides (15) of the plate parts (14), the top (19) and the bottom (20) of the base plate (13) form. 4. underlay plate according to claim 3, characterized in that, the recesses (17) and the protruding projections (18) are conical. 5. Base plate according to claim 3 or 4, characterized in that in the above lugs (18) further recesses (21) are provided. 6. base plate according to one of claims 1 to 5, characterized in that the recesses (10, 17) or the openings (3) and the protruding projections (18) are honeycomb-shaped. 7. Base plate according to one of claims 1 to 5, characterized in that the recesses (10, 17) or the openings (3) and the protruding projections (18) are triangular in shape. 8. Base plate according to one of claims 1 to 5, characterized in that the recesses (10, 17) or the openings (3) and the protruding projections (18) are rectangular. 9. underlay plate according to one of claims 1 to 5, characterized in that the recesses (10, 17) or the Openings (3) and the protruding projections (18) are formed circular or elliptical. 10. Underlay plate according to one of claims 1 to 5, characterized in that the recesses (10, 17) or the openings (3) and the protruding projections (18) are diamond-shaped. 11. Underlay plate according to one of claims 1 to 10, characterized in that the base plate (1, 7, 13) or the plate parts (2, 8, 14) consist of plastic. 12. base plate according to claim 11, characterized in that the plastic is formed natural and / or synthetic fiber reinforced.