DE2339884A1 - Prefabricated component reinforced-concrete high-diving-board - with beams under jump-off panels and uprights statically forming storey-frame together - Google Patents

Abstract

The assembly, of prefabricated components erected at the swimming-pool edge, incorporates jump-off panels, joined to balustrades, screwed onto two transverse beams. The latter in turn are joined by screws to vertical support elements, to be set up parallel to the panel's length so as to provide a statically effective frame in conjunction with them. Components, none of which is excessively heavy on its(own) can be rapidly assembled on site, providing jump-off boards at heights between 1 and 10m, without the labour involved in site-concrete construction; it is non-corroding, and can be dismantled and moved to a different position.

Description

B E T O N- and M O N I E R B A U A-G Corporation

Pat-568-BuM

Pat ent registration

Jump tower system that can be assembled from prefabricated parts for Swimming pools

The invention relates to jumping tower systems for Swimming pools.

Jump tower systems require a high level of corrosion protection because they are constantly in a wet or damp environment. In addition, they should be so stiff that the various take-off plates do not cross one another Affect vibrations. Such systems are therefore often built in reinforced concrete, because both of these conditions are good Fulfills. Such systems in reinforced concrete provide a sufficiently rigid support for the jump boards up to 3 m high and for the greater heights of up to 10 m, the take-off plates prove to be immediately sufficient stiff. A disadvantage of the jump tower systems made of reinforced concrete involves the considerable effort involved in forming such systems in in-situ concrete. It therefore existed Task, a technically and economically less complex one To find a system for the diving board system.

The object is achieved according to the invention by a Jump tower system for swimming pools that can be assembled with prefabricated components, characterized by one made of prefabricated reinforced concrete elements Composable jumping facility consisting of

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from jump plates connected to the parapets (l), underlay (2) and supports (3) »where the take-off plates on two transversely to the longitudinal direction of the plates Beams are fastened with screws (4) and the beams in turn with through-hole screws (5) are connected to support elements to be arranged parallel to the longitudinal direction of the take-off plates in such a way that that the beams together with the supports statically form the floor frame.

By means of the three main, prefabricated according to the invention Reinforced concrete parts, it is possible to create jump systems with take-off plates at heights of 1.0 to 10.0 m to create in no time. Each of the components is not too heavy on its own.

The components are explained in FIGS. 1-3 and show a schematic representation of S.

Fig. 1 plan view of the take-off plate in connection with the beams and a column

Fig. 2 cross section through a take-off plate with a view of a beam and a support

Fig. 3 longitudinal section through a take-off plate with two beams with which the take-off plate is screwed.

The hatched areas represent a section through the parapets.

A "jumping facility built with these components." is composed as follows. The take-off plates 1

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consist of the base plate and the parapet connected to it. The usual railings can be considered massive Parapets are included in the take-off plates from the manufacturing process and create the great rigidity that is desirable for jumping tower facilities. The take-off plate rests on beams 2 and is screwed to them 4 connected. The beams 2 are in turn connected to the support 3 by the screws 5. Form the beams 2 together with the supports 3 statically a story frame.

The jump-off device made of precast concrete parts made from the few components avoids the large one Formwork expenditure for an in-situ concrete structure and yet allows the required variety in the lengths of the take-off plates give away. A formwork that is as long as the longest prefabricated part is sufficient for each structural element, because all take-off plates have the same cross-section. The pass length is calculated from the maximum length with a Barrier reached. Have jumping tower systems from the prefabricated parts assembled according to the invention Considerable advantages over a version made of steel, taking into account the risk of corrosion. if one will dismantle and relocate such a system again "5 is easily possible.

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Claims (1)

-4 patent entitlement Jump tower system for swimming pools that can be assembled from prefabricated parts, characterized by a jump system that can be composed of prefabricated reinforced concrete parts, consisting of jump plates (1) connected to the parapets, beams (2) and supports (3)) with the jump plates on two beams with screws arranged transversely to the longitudinal direction of the plates (4) and the joists in turn are connected by means of through bolts (5) with support elements to be arranged parallel to the longitudinal direction of the take-off plates in such a way that the joists together with the supports statically form the floor frame. 509808/0137