EP0816581A1 - Construction element for heat insulation - Google Patents

Abstract

The component comprises an insulating body laid between concrete components and through which thrust members pass in the transverse direction, these working with the two components (A,B). Each thrust member (2) comprises a bar (2) divided into two or more sections (4,5) bearing against each other in the direction of the thrust load and via their free ends. Each sections is mounted in one of the components and they can slide horizontally in relation to each other, typically via dovetail joints, while being positively coupled together in the vertical direction. A horizontal bearing (6) with anti-friction faces can be used between the bar sections, the relative horizontal movement being restricted to prevent the sections coming apart.

Description

The invention relates to a component for thermal insulation between two components to be concreted, in particular between a building and a cantilevered outer part, consisting of one to be installed in between Insulating body with at least pressure elements that cross to the longitudinal extent of the insulating body through this run through and with both components in Active connection.

Such components are generally known to cantilever Components such as balconies with a corresponding ceiling of a building under extensive To exclude thermal bridges. The one here occurring pressure forces are absorbed by pressure elements, those for better reception and transmission of the Pressure forces are usually anchored in both components are.

However, this anchoring has the disadvantage that when lateral occurs, for example temperature-related changes in length of the cantilever External forces in relation to the building the printing elements are initiated because of this their stiffness the horizontal relative movements cannot follow unhindered.

However, if you do not anchor the Pressure elements in the concrete components by the pressure elements not over the insulating body in the component protrude, so there is a deteriorated Pressure force transmission the additional effect that in highly stressed connection area of the pressure elements to the Concrete components relative movements between these two Elements occur that wear the concrete component and in addition to a strong noise every time you overcome stiction between Guide pressure element and concrete component.

Proceeding from this, the present invention is the Task based on a component for thermal insulation To make available where the constraining forces, caused by relative movements of the two components in Horizontal direction arise from the printing elements be kept away.

This object is achieved in that the pressure elements in at least two separate ones, in Pressure rod parts supporting each other in the direction of pressure are divided that each of the two pressure rod parts is assigned to one of the two components, and that the pressure rod parts with their free end to each other lie against each other and perpendicular to their longitudinal extension are horizontally displaceable.

The pressure elements designed accordingly have the advantage that the pressure forces are always centered in the pressure rods initiated and horizontal transverse forces mutual displacement of the two pressure rod parts be intercepted. The mutual support of the two Free ends of the pressure rod parts are made here such that even in the loaded state the horizontal No greater resistance to transverse forces is by this transition area between the two Pressure rod parts is designed as a plain bearing.

So that the pressure elements the pressure forces reliably can transfer, it is advantageous that they are vertical are stiff and kink resistant, which is why the two pressure rod parts are in contact with each other in the vertical direction. This Requirement of compressive strength and flexibility for example from a dovetail guide met, the possible vertical components of the pressure force transfers safely from one pressure rod to the other, however, horizontal relative movements of the two components not disabled.

Although these lateral relative movements are at most in of the order of about ± 2 mm, it is at least expedient for assembly if in the plant area a lock to avoid the two pressure rod parts an excessive lateral offset between the two Pressure rod parts is arranged. Such failover can, for example, from a side Backsplash of the pressure element material consist of is arranged outside the displacement range, or but also from a mutual connection, in particular Gluing the two pressure rod parts, which is more advantageous Way after installing the first stronger lateral load breaks up to later lateral Relative movements of the two pressure rod parts are not to hinder more. If the offset were already during assembly of the component is too large, so would be with others Horizontal displacements of the two parts of the pressure rod due to the occurrence of an excessively offset load not to be excluded from horizontal transverse forces.

For the contact area between the two pressure rod parts it is recommended to use these well-known plain bearings to be provided with a sliding layer, for example from water-insoluble substances such as Graphite, Teflon, or fat can be used to make one to ensure lifelong lubrication of the bearing surfaces, the quality of which is also due to the insulating body environmental influences not worsening becomes.

As for the position of the contact area of the two pressure rod parts concerns, there are in particular two variants conceivable: On the one hand, the one compression rod part can only a plate-shaped contact profile, which is anchored in the adjacent component and on which Side facing away from the component has a bearing half, while the other pressure rod part is in the manner of a conventional pressure element starting from the other concrete component through almost the entire insulating body stretches and eventually with its than others Half of the bearing trained end in the first half of the bearing of the contact profile engages. On the other hand, however both parts of the pressure rod are also approximately to the middle of the insulating body and there under plant their free ends designed as bearing halves be coupled to each other.

Although the structure of the pressure rods for the through the area extending through the insulating body conventional designs, for example hollow profiles or rods made of solid material with various Cross section conceivable, but it is particularly advantageous if the pressure rod parts are oval to have circular cross-section, so the central Ensure pressure introduction and transmission. The oval cross-section, which is advantageous is arranged such that the pressure rod is wider than is high, causes the horizontal Shear forces in the direction of the transition area to other pressure rod, i.e. the horizontal drawer bearing, be centered.

For better absorption and transmission of the pressure forces with all possible shear force components, it is recommended in particular that the pressure rod parts on the respective Anchoring areas with the adjacent concrete components have plate-shaped contact profiles, whereby the pressure forces introduced increase and reduce the anchoring length with the respective component leaves. At the same time, however, can advantageously the pressure elements after crossing of these plate-shaped contact profiles in the respective Concrete part continue to transfer shear force components to increase on the respective pressure rod.

Figur 1

ein erfindungsgemäßes Druckelement eines Bauelementes zur Wärmedämmung in Seitenansicht;

Figur 2

das Druckelement aus Figur 1 in Draufsicht;

Figur 3

eine alternative Bauform des Druckelementes in Seitenansicht und

Figur 4

das Druckelement aus Figur 3 in Draufsicht.

Further features and advantages of the invention result from the following description of exemplary embodiments with reference to the drawings; show here

Figure 1

an inventive pressure element of a component for thermal insulation in side view;

Figure 2

the pressure element of Figure 1 in plan view;

Figure 3

an alternative design of the pressure element in side view and

Figure 4

the pressure element of Figure 3 in plan view.

In Figure 1 is a section of an inventive Component 1 shown for insulation, the between a building A and a cantilevered outer part B is arranged in the form of a balcony slab. Figure 1 shows a section through this component in the side View in the area of a pressure element 2, which is formed by an insulating body 3, which between the two components is arranged extends and in operative connection with both components stands. Any remaining components of the component, namely in particular those running over the printing elements Tension and shear bars are in the drawing not shown.

Each pressure element consists of two pressure rod parts 4 and 5 together, which face each other in the printing direction, So in the direction of the balcony slab B on the Building part A, support via a horizontal bearing 6, while their other free ends are over plate-shaped Contact profiles 7 and 8 in the adjacent Components are anchored. The horizontal bearing 6 is like this trained that the two pressure rod parts 4 and 5th horizontally displaceable, but vertically are positively anchored to each other. For this purpose is the part of the pressure rod starting from the balcony slab B. 5 roughly trapezoidal at its free end formed with increasing cross section and in an approximately dovetail-shaped guide 9 is added, which are arranged at the free end of the pressure rod part 4 is.

The dovetail guide 9 thus includes that free end of the pressure rod part 5 on three surfaces, whereby just a shift in the lateral horizontal direction, but not in the horizontal direction of the pressure rod as well as in the vertical direction is possible. How already mentioned above, the temperature-related Changes in length between the concrete slab and the building component on the order of about ± 2 mm what with a continuous and anchored compression rod the impressed deformation or curvature into constraining forces can lead. By the invention The design of the pressure element is the one that acts Compressive force always centered on the pressure rod part 5 on the Push rod part 4 without any cross component.

Figure 2 shows the detail of the component and adjacent Concrete components in top view and leaves together with Figure 1 in particular the design of the horizontal bearing 6 recognize.

It should also be mentioned that both contact profiles 7 or 8 each one further into the adjacent one Component A or B has protruding projection, thereby any transverse forces on the pressure element even better 2 can be transferred.

The embodiment of the component from FIG. 3 corresponds in large parts of that of Figure 1, however with the only difference that the position of the horizontal bearing moved towards the balcony slab B. has been. The component 11 shown in FIG. 3 accordingly has a horizontal bearing 16 that directly a pressure rod part reduced to a contact profile 18 15 attacks. Accordingly, a second extends Pressure rod part over almost the entire width of an insulating body 13, between the two components A and B is arranged. Corresponds to the greater length but the push rod part 14 the push rod part 4 from FIG 1.

Characterized in that the pressure rod part 15 to the length of Contact profile 18 is limited and no other rod-shaped extension in the direction of the pressure rod part 14 has that is also for those in the horizontal bearing 16 effective leverage decisive leverage reduced: Any perpendicular to the longitudinal extension of the Pressure rod parts transverse forces occurring in the horizontal direction are directly on the contact profile 18 on the Horizontal bearing 16 transmitted without a between Contact profile and horizontal bearing arranged compression rod part could be claimed in the transverse direction. Thus the length of the lever arm is almost zero reduced, which also corresponds to moments in the transverse direction smaller than in the embodiment according to Figure 1 are.

FIG. 4 finally shows the embodiment from FIG 3 in top view.

It can also be seen from FIGS. 3 and 4 that that the pressure rod part 14 at least in the horizontal direction wedge-shaped or conical in the direction of the horizontal bearing 16 tapered, creating better transmission possibly penetrating the horizontal bearing 16 Lateral forces is possible.

Finally, it can be seen that the contact profile 18 can be carried out in a conventional manner and none another projection extending into component B. - About similar to the projection 19 of the contact profile 17 - must have. In a similar way, of course also the contact profiles 7, 8 and 17 executed be.

In summary, the advantage of the invention is that that a pressure element is provided that is used only for the transfer of pressure forces, while not transfer any lateral force components, but compensated by horizontal movement will.

Claims (13)

Component for thermal insulation between two components to be concreted, in particular between a building (A) and a cantilevered outer part (B), consisting of an insulating body to be laid between them with at least pressure elements that run through the insulating body transversely to the longitudinal extent and each with both components in Active connection,
characterized,
that the pressure elements (2, 12) are divided into at least two separate pressure rod parts (4, 5, 14, 15) that support each other in the printing direction, that each of the two pressure rod parts is assigned to one of the two components, and that the pressure rod parts with their Free ends abut each other and are horizontally displaceable against each other perpendicular to their longitudinal extent. Component according to Claim 1,
characterized,
that the pressure rod parts (4, 5, 14, 15) are positively connected with their free ends in the vertical direction. Component according to Claim 1,
characterized in that the pressure rod parts (4, 5, 14, 15) are connected to one another by their free ends via a dovetail guide and are mounted so as to be horizontally displaceable. Component according to Claim 1,
characterized,
that the two pressure rod parts are supported against one another via a horizontal bearing (6, 16). Component according to Claim 4,
characterized in that the horizontal bearing (6, 16) has fail-safe devices to prevent extreme horizontal relative movements between the two pressure rod parts (4, 5, 14, 15). Component according to Claim 4,
characterized,
that the horizontal bearing (6, 16) is provided with a sliding layer on the respective contact surfaces. Component according to Claim 6,
characterized,
that the sliding layers consist of water-insoluble substances, in particular graphite, teflon or fat. Component according to Claim 4,
characterized,
that the horizontal bearing (6, 16) is arranged in the middle between the two concrete components (A, B). Component according to Claim 4,
characterized,
that the horizontal bearing (6, 16) is arranged on the edge of the insulating body (3, 13). Component according to Claim 1,
characterized,
that the pressure rod parts (4, 5, 14, 15) have a circular or oval cross section. Component according to Claim 1,
characterized,
that the compression rod parts (4, 5, 14, 15) are formed with a horizontal cross section that tapers in the direction of the horizontal bearing (6, 16). Component according to Claim 1,
characterized,
that the pressure rod parts (4, 5, 14, 15) have plate-shaped contact profiles (7, 8, 17, 18) at the ends facing the components (A, B). Component according to Claim 12,
characterized,
that the plate-shaped contact profiles (7, 8, 17, 18) are provided with projections projecting into the adjacent concrete component (A, B) and extending in the direction of the pressure rod parts (4, 5, 14, 15).

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