DE1428844A1 - Diving board made of fiberglass reinforced synthetic resin - Google Patents

Description

D e c e r o u t The invention relates to a diving board made of glass fiber reinforced synthetic resin, for example made of polyester.

There are known diving boards made of wood, steel or light metal are manufactured and have a hacking or plastic coating as surface protection; the latter sometimes also made of fiberglass-reinforced synthetic resin. In some versions the top has a rough coating made of quartz, corundum or sintered grains around a to achieve good surefootedness.

The quality of a diving board depends on its durability the material from which it is made, its elasticity and its capacity to absorb work away. In the case of diving boards made of steel or aluminum, the work capacity is very good, but the range of elasticity is small, so that it soon becomes permanent when overloaded Material fatigue and change in shape occurs. The wooden board has in addition to its value for money a good ratio of elasticity to work capacity, but it is extraordinary sensitive to moisture and its material structure is naturally quite different. borrowed.

The object of the invention was to create a diving board, Arbads - which with good absorption capacity and greatest elasticity has the best resistance to moisture with the lowest possible dead weight, which means that a long service life is achieved and the best jumping properties are guaranteed at the same time.

In addition, it should be possible to attach it to any conventional jumping facility without any special effort . In the case of the water diving board coming to the present application, the above-mentioned requirements were mainly due to a. new material structure made of fiberglass-reinforced synthetic resin, for example made of polyester.

The outer hanging profile of the springboard resembles the Brandsten profile that has been known for decades. It is from the support area -a- according to ABb: 1, which extends from the middle of the board up to 50 cm backwards, tapers towards the ends on the underside. The taper is stronger towards the tip of the board than towards the end of the board and causes a uniformly decreasing bending stress in the material of the board when it is bent.

The board profile in cross section -Fig-. 3- considered, represents from a static point of view a hollow profile with several cavities between an upper, a lower and two lateral Layers of material lie and * zd. By several material webs apart others are separated. These cavities run parallel to this figure along the entire length of the board. 2-. For manufacturing reasons, however, these cavities - according to Fig. 3 - are filled with lost cores -5- made of light material, for example balsa wood, which have no particular strength of their own and only have a very low weight.

The entire static structure of the board body consists - according to Fig. 3- of the glass fibers embedded in synthetic resin, e.g. polyester. In the top and bottom layer, between two glass fiber mats -1-, which consist of unoriented individual glass fibers, glass fibers oriented parallel to the longitudinal direction of the board in so-called roving strands -2-, the number of which depends on the required static values, which from the desired deflection the springboard are to be determined. : The lateral material layers -3- and the webs -4- contain unoriented glass fibers, which are coated with synthetic resin, e.g. with polyester, pressed and connected to the glass fiber mats -1- of the upper and lower surfaces. The glass fibers thus form an upright latticework in the webs -4- and side layers -3-, in which each individual fiber is subjected to bending when the board is loaded.

At the rear end of the diving board are, depending on requirements, several holes -6-, usually 4 pieces, poured into the fastening of the Serve a diving board on the diving board.

The top of the board is covered with a layer of quartz sand, which is set in the upper synthetic resin layer. This layer gives a good surefootedness, without the need for a special runner.

Claims (1)

Patent claims c. 1. Water springboard with any one-sided attachment and on the edition area -a- according to Fig. 1, which of the The middle of the board is up to 5o-cm backwards, beginning, tapering ends' which cause a uniformly decreasing bending stress, characterized in that it consists of a static hollow body made of glass fiber reinforced synthetic resin, for example polyester and this hollow body is divided by webs according to Fig. 2 and Fig. 3. which run parallel to the length of the board. Diving board according to claim 1, characterized in that the upper and lower surface according to Fig. 3 consists of a synthetic resin layer, for example polyester, in which between two glass fiber mats -1- made of unoriented glass fibers. Glass fiber strands -2-, running parallel to the board length, are embedded. Diving board according to claim 1 and 2 .ditzt that the side surfaces -3- and webs -4- according to Fig. 3 consist of unoriented glass fibers, which with synthetic resin, for example polyester, in the direction of the board width and with the glass fiber mats -1- the upper - and lower surfaces are pressed. A water springboard according to claims 1-3, characterized in that the cavities according to Fig. 3 contain lost cores -5- which are made of light material, for example balsa wood. Water diving board according to claim 1, characterized in that holes -6- of any type, number and arrangement are cast in at the board end for fastening the board on the diving system according to Fig. 2,