DE102006011336A1 - Thermal insulation unit for e.g. balcony, has traction force units arranged in upper region of insulating body, and compressive force units arranged in lower region of insulating body - Google Patents

Abstract

The unit has traction force units (4) provided in a horizontal direction against an insulating body (12) and arranged in an upper region of the insulating body. Compressive force units (5) are arranged in a lower region of the insulating body. Another insulating body (14) is arranged adjacent to the insulating body (12). Tension force units (15) are provided in a lower half of the insulating body (12) for providing temblor force.

Description

The The invention relates to a structural element for thermal insulation between two building parts, especially between a building ceiling or wall and one opposite the building projecting component, such as a balcony, at least existing from an insulating body and the insulator traversing and each connected to both components reinforcing elements, being arranged as reinforcing elements at least in the upper region of the insulating body and opposite the insulator in particular horizontally projecting traction elements and in the lower Area of the insulating body arranged pressure force elements are provided.

In certain applications of such components exist for thermal insulation strict regulations regarding seismic safety; in this connection have to the adequate known components for thermal insulation additional can absorb dynamic loads, which so far in the usual Requirements hardly or not at the center of attention. Serves, for example the component for thermal insulation, To support cantilever balcony slabs and to design in such a way that it own weights and from the outside can absorb forces and moments acting on the balcony plate, so come now in the opposite direction acting forces and Add moments, for example, by the fact that the to the device adjacent components accelerated to different degrees by the earthquake shocks and, for example, being pulled apart; or the projecting one Component is contrary to the direction of action of the weight of a vertical upward force or moment component due to subjected to a tilting movement, the commonly used pressure bars in the lower Isolierkörperbereich and tension rods in the upper Isolierkörperbereich can not stand alone.

It would be now Although possible in a simple manner, the number of reinforcing elements in the thermal insulation component drastically to increase and to arrange them in various positions, so that each one Force or torque application position with a corresponding reinforcement element stocked is; that would but not only the material costs of such a component drastically elevated, but also the thermal insulation properties would go through the corresponding enlarged cross-sectional area of between the two adjacent components extending reinforcing elements significantly worsened.

Of these, The present invention is based on the object, a component for thermal insulation of initially mentioned type available to make that targeted using conventional components and only piecemeal successive enlargement of the Reinforcement element number allows and thus a static and dynamic oversizing of the reinforcement elements on the one hand and the thermal insulation properties impairing Magnification of the Cross-sectional areas extending between the two adjacent components On the other hand, reinforcing elements are avoided.

These Task is inventively characterized solved, that horizontally adjacent to the insulating body at least one with this aligned further insulating body is arranged, that the further insulating body in the region of its lower half for earthquake loads provided further tensile elements, in the horizontal direction compared to the insulator protrude. By combining a conventional thermal insulation component with one for Earthquake loads provided further insulating body, the has only further traction elements in the lower insulator region, In particular, the following advantages arise: The conventional Components for thermal insulation are as previously used, the normal static and dynamic To absorb burdens; on the dimensioning and equipping of the usual Components for thermal insulation have thus the aligned adjacent further insulator no Influence what the planning, dimensioning and installation of the combined component simplified for thermal insulation.

Of the in alignment adjoining further insulating body requires only the above further tensile elements to in the lower Isolierkörperbereich at Earthquake loads occurring to absorb tensile forces that over the in this altitude range usually existing pressure force elements and transverse force rods are not collected or transmitted can be. Advantageously, the traction elements arranged in the conventional insulating body function in case of earthquake also for pressure transmission in the area of the upper Insulating half and / or for lateral force transmission. So have to So the other insulator except the other traction elements no further reinforcing elements exhibit. It goes without saying that the attached further insulator with the other traction elements alone no sufficient function - neither for earthquake loads yet for normal loads - take over or ensure can and that he only works together with the adjacent conventional Components for thermal insulation its fulfilled tasks to him.

As far as the further traction elements are concerned, they are expedient in a manner known per se ßigerweise rod-shaped and are on the other insulating body outward to hineinzuerstrecken far into the adjacent components and to be anchored in this accordingly well.

The can further tensile elements about that In addition, at least at one end face a plate-shaped force introduction profile have, in particular, substantially in the vertical plane parallel to the insulator level extends. As a result, the necessary force application area is significantly shortened, which For example, there is an advantage, if in for the other traction elements intended installation area other components such as columns etc. are present, in which the other traction elements are not to be allowed to enter.

Advantageous the further insulating body has two with horizontal distance juxtaposed further traction elements on. Thus, the further insulating body is only with two others Traction elements fitted, but nevertheless for the sufficiently dimensioned to him assigned tasks.

Horizontal adjacent to the further insulating body is aligned with this second insulator arranged with integrated tensile and compressive force elements, so that a continuous series of conventional components for thermal insulation only by a short section of another insulating body with in particular, only two other traction elements is interrupted.

Further Features and advantages of the present invention will become apparent the following description of an embodiment with reference to the Drawing; show here

1 an inventive component for thermal insulation in a perspective side view; and

2 the device according to the invention for thermal insulation in a schematic front view.

In 1 is an inventive component for thermal insulation 1 represented, consisting of a combination of two conventional components for thermal insulation 2 with a provided for earthquake loads component for thermal insulation 3 consists. The conventional components 2 have an insulating body 12 on as well as reinforcing elements, the insulating body 12 are assigned and extend through this in a plane extending substantially perpendicular to its longitudinal plane, relative to the insulating body 12 but only partially project. As reinforcing elements are in the embodiment of 1 in the conventional components 2 upper tension rods running in the horizontal direction 4 , Bottom approximately flush with the Iso lierkörper final thrust bearing 5 and obliquely from top to bottom through the insulating body extending and bent outside of this insulating body in the horizontal direction transverse force rods 6 intended. These conventional reinforcing elements are - as out 1 can be seen - arranged according to a predetermined and adaptable to the respective loads or adapted grid. The insulator of such a device for thermal insulation 2 is usually divided in the horizontal direction in the area of the reinforcing elements to facilitate the mounting or positioning of the reinforcing elements.

Between the two conventional components for thermal insulation 2 is another insulator 14 arranged in the vertical plane of the adjacent insulating body 12 extending flush with these and for receiving earthquake loads only in the lower Isolierkörperbereich extending further tensile elements 15 which is parallel to the tensile bars 4 the conventional components 2 , but run in a lower height section.

2 shows a schematic front view of parts of the conventional components for thermal insulation 2 as well as the inserted between the other insulator 14 with the other traction elements 15 , wherein the further insulating body and the further traction elements form the extra provided for earthquake loads component for thermal insulation.

Out 2 It can be seen how adjacent to this element for earthquake loads, the reinforcing elements in the form of tensile bars 4 , Shear bars 5 and compressive force elements 5 are provided. While the compressive force element 5 For the special additional earthquake loads can take no or hardly any other function, in particular serve the traction elements 4 to absorb pressure and shear forces occurring in seismic events. This is mathematically limited at least to those adjacent to this element for earthquake loads 3 arranged tension rods.

It is easy to see that both the calculation and dimensioning with the structure of the conventional components for thermal insulation non-changing components for earthquake loads is very simple and that the mounting or installation of these components for earthquake loads can be done in a very simple manner that one after mounting or installing the conventional components for Thermal insulation in each case attaches a component for seismic loads.

In summary This results in the advantage that with simple means and minimal additional assembly conventional Components for thermal insulation so retrofitted or supplemented can be that they are for Seismic loads are designed, according to the invention reinforcing elements the conventional one Components take over additional tasks, which inherited from the element for earthquake loads would have to but simply at least mathematically on the adjacent reinforcing elements the conventional one Components can be distributed.

Claims (9)

Component for thermal insulation between two parts of the building, in particular between a building ceiling and a component projecting beyond the building, such as a balcony, at least consisting of an insulating body ( 12 . 14 ) and the insulating body passing through and connected to each of the two components reinforcing elements ( 4 . 5 . 6 . 15 ), wherein as reinforcing elements at least in the upper region of the insulating body ( 12 ) arranged and relative to the insulating body in particular horizontally projecting traction elements ( 4 ) and arranged in the lower region of the insulating pressure force elements ( 5 ) are provided, characterized in that horizontally adjacent to the insulating body ( 12 ) at least one aligned with this further insulating body ( 14 ) is arranged, and that the further insulating body provided in the region of its lower half for earthquake loads further traction elements ( 15 ), which project in the horizontal direction relative to the insulating body. Component according to at least claim 1, characterized in that in the insulating body ( 12 ) arranged tensile elements ( 4 ) act to transmit pressure in case of earthquake. Component according to at least one of the preceding claims, characterized in that in the insulating body ( 12 ) arranged traction elements for transverse force transmission in seismic case function. Component according to at least one of the preceding claims, characterized in that the insulating body ( 12 ) additionally lateral force rods ( 6 ) has as reinforcing elements. Component according to at least one of the preceding claims, characterized in that the further traction elements ( 15 ) are rod-shaped. Component according to at least one of the preceding Claims, characterized in that the further traction elements at least at a front end a plate-shaped force introduction profile have, in particular, substantially in the vertical plane parallel to the insulator level extends. Component according to at least one of the preceding claims, characterized in that in the insulating body ( 12 ) arranged pressure force elements ( 5 ) substantially flush with the outer sides of the insulating body ( 12 ). Component according to at least one of the preceding claims, characterized in that the further insulating body ( 14 ) two horizontally spaced juxtaposed further traction elements ( 15 ) having. Component according to at least one of the preceding claims, characterized in that horizontally adjacent to the further insulating body ( 14 ) an aligned with these second insulating body ( 2 ) with integrated tensile and compressive force elements ( 4 . 5 ) is arranged.