DE1786247U - FEATHER. - Google Patents

Description

Feather Feathers are known, which are made of an elastic material and metal parts are composed, rubber usually being used as the elastic material. With such springs it is known to layer individual rubber bodies on top of one another. ten and to stress these layers under pressure. Further it is known the rubber pad to reinforce with metal parts or to vulcanize the metal parts to the rubber thereby preventing the rubber from migrating. For centric guidance of the superimposed In many cases, the rubber body is used by a bolt that passes through the perforated rubber pad is inserted through. All these known springs form a component with certain Load possibilities and a certain spring characteristic.

The innovation has set itself the goal. for elastic springs the To create the possibility of being able to assemble these from individual parts as desired, depending on the loads required. It provides for this that the spring from Metal parts and superimposed elastic layers and the new consists in the fact that the spring can be composed of layers which are attached to its Guide the outer circumference or through inner bores or recesses centrally. In order to a spring is created which is made up of individual standard parts according to the modular principle can be put together and adapted to the respective loads.

Another valuable aspect of the innovation is that the spring a. consists of polyurethane layers and metal sheet intermediate layers, Polyurethane is particularly suitable for springs of this type, as this plastic is not ages, has extremely high strengths and yet is sufficiently elastic. In addition, he has the particular advantage that he is in the centric leadership occurring forces can easily be accepted because of its abrasion resistance is unsurpassed and therefore a long service life for the spring can be achieved can.

The innovation provides different design options for the centric Leadership before. On the one hand, this consists in the fact that they interlock with one another in the manner of a tongue and groove Adjacent polyurethane layers takes place and on the other hand it is enables pins provided in the metal plates to be inserted into the inner bore of the elastic layers protrude. In both cases, the spring remains from the individual parts can be put together or it can be enlarged or reduced as required.

According to a further valuable embodiment of the innovation, the elastic layers and metal plates are housed in a tubular housing and the spring can be stretched to such an extent. that the outer circumference of the elastic layers touches the housing wall, it being possible for different diameters to be provided. This embodiment has the particular advantages that the spring characteristic, when touching the housing wall, is given a steeper bend from an initially uniformly increasing characteristic, ie the spring becomes harder with greater loads and shorter spring travel. All embodiments have the particular advantage over the usual rubber cushions in common that flow can occur between the polyurethane layers and the intermediate sheets, which is prevented in the case of rubber-metal compounds, which results in increased frictional resistance on the polyurethane surface and the intermediate sheet. In this way, too, a much greater opportunity to take up work is achieved than in the known embodiments. The drawing illustrates the innovation in an exemplary embodiment, namely: Fig. 1 side view of a spring in section Fig. 2 Side view of a spring in section with an embodiment modified from Fig. 1 Figs. 3 and 4 side views of the spring with compared to Figs. 1 and 2 modified embodiments. on According to Fig. 1 / a base plate 1, a metal disk 2 is placed. which carries a polyurethane disk 3. The polyurethane disk 3 carries a central plug 4 in one piece, which is inserted through a perforated metal disk 5 and at the same time is received by a central groove of a further polyurethane layer 6, so that a tongue-and-groove connection between the three parts arises.

Further metal disks 7 and polyurethane layers 8 follow in succession which are identical to the disks 5 and the disks 6. An upper one Support plate 9 forms the end of the spring. The lowermost polyurethane layer 3 and the uppermost polyurethane layer 8 can with the metal plates 2 and 7 by gluing or Like. Be connected so that no evasion of the spring is possible at these points. Otherwise, the central guidance takes place solely through the central plug 4 and the corresponding recesses in the polyurethane layer.

According to Fig * 2, a metal layer 2a is placed on the base plate 1 and in this a pin 10 is provided in the center, which is in a bore 11 of a polyurethane disc 3a protrudes, here too, further metal plates 7a and polyurethane layers follow bs on top of each other in identical design. The centric guidance takes place here through the pins 10 in cooperation with the bore 11.

According to Figs. 3 and 4, a spring is shown in the untensioned and in the tensioned state. A tube 12 with a bottom 13 receives a lower metal part 2b and intermediate metal plates 7a which separate the polyurethane layers 3b and Sb from one another. Here, however, the layers 3b have a smaller diameter Sc ser on than the / hichten Sb. When the spring is loaded in the sense of the arrow, the polyurethane layers are pressed so that the layers touch the inner wall of the tube 12, as shown in Fig. 4, while the layers 3b are only strongly compressed and flow on the intermediate plates 7b causing strong frictional forces.

Claims (6)

Protection claims - "Vi" j (.? - - ". jy"'- / - ", 7 u ((ÍIL. \, (LU / 1Z.} Ùh! I'L J'j. J, I --- Je7 L & 11 "'C & -i ",, 1. Pedals made of metal parts and placed one on top of the other elastic layers characterized in that the spring can be assembled from the layers, which are particularly centered on their outer circumference or through inner bores or recesses. 2. Spring according to claim 1, characterized in that it consists of polyurethane layers and metal plate liners. 3 spring according to claims 1 and 2, characterized in that the central guidance through tongue-like and groove-like interlocking adjacent. lying Polyurethane layers are made. 4. Spring according to claims 1 and 2, characterized in that Pins provided in the metal plates into the inner bore of the elastic layers protrude. 5. Spring according to claims 1 and 2, characterized in that the elastic layers and metal plates housed in a tubular housing are and the spring can be stretched so far that the outer circumference of the elastic layers touch the housing wall. 6. Spring according to claim 5t, characterized in that that the elastic layers have different outer diameters.