DE19514565C1 - Thermally insulating polymer foam profile for fluid-carrying or empty pipes - Google Patents

Abstract

Fluid carrying pipes are thermally insulated by a body (16) of a thermally insulating material, pref. polyurethane foam or cross-linked polyethylene foam,which rests on a base (12) and has a recess to receive the pipe (38). The body is reinforced by a rigid polyethylene film reinforcing member (26). <

Description

The invention relates to a thermal insulation profile for pipes, especially for fluid-carrying pipes or empty pipes.

For reasons of energy saving and due to the Erfor requirements of the thermal insulation regulation, it is necessary Heating and installation lines with one heat to lay insulation. You also go for new buildings increasingly about heating or installation to lay pipes on the raw concrete floor to closing after application of thermal insulation and Impact sound insulation to apply the screed layer.

For laying heat-insulated pipes on the raw concrete floors are a variety of thermal insulation profiles known. Examples of these profiles can be found in DE 42 19 305 A1, DE 41 10 124 A1, DE 38 00 646 A1, DE 34 48 295 C2 and DE 34 10 838 C2.

A problem for those who install thermal insulation Insulator is the connection of the thermal insulation panels to the  already installed by the installer at this point insulated heating or installation lines. It is namely desirable, the thermal insulation boards in poss flat area system on the installation or Heating pipe insulation profile to be laid adjacent. Two rooms would have to be filled with pearlites or the like be filled, which requires additional assembly effort means.

The invention has for its object a heat insulation profile for fluid-carrying pipes or empty pipes create in which the laying of the thermal barrier coating with already on the heat-insulating surface lying thermal insulation profile in the connection area to the sem is much easier.

To solve this problem, the invention Thermal insulation profile proposed, which is provided with

• - A thermal insulation body made of a thermal insulation Material that has a support page to rest on a heat-insulating surface, one of the up top side facing away from the layer and the support and has top surfaces connecting side surfaces,
• - A recess for receiving a tube and
• - one in the area of at least one of the transition edges between the side surfaces on the one hand and the top on the other hand on the thermal insulation body arranged stiffener for guiding a Cutting tool for cutting one sideways to be arranged adjacent to the thermal insulation body Thermal insulation.

In the thermal insulation profile according to the invention Thermal insulation body in at least one of the two over corridors between the top and one of the two  Longitudinal surfaces on a stiffener around the Transition edge is pulled around. This stiffening has a round or angular profile in cross section. For trimming a thermal insulation board that is adjacent be installed on the already installed thermal insulation body must and after laying on the long side surface of the Thermal insulation body should lie, the thermal insulation board te on the top and the stiffening of the thermal insulation body trimmed with a cutting tool ten or trimmed, the stiffening to guide the Cutting tool is used. This will make a decision simplification when laying a floor heat Insulation with heat also leading over the floor insulated heating or insulation pipes achieved by the assembly effort is reduced and costs are reduced be saved.

The stiffening can be an integral part of the heat be insulating body, for example in the area of Stiffening greater hardness than in the rest of the area having. However, it is useful for stiffening around a separate part or profile, the with the thermal insulation body, in particular by gluing or welding is firmly connected.

Advantageously, the top and the one Side surface that ver with the stiffening see transition edge is connected at an angle of essentially 90 °. This results in a 90 ° Leading edge, which is the reliable and simple guide guaranteed cutting tool.

In a further advantageous embodiment of the invention it is provided that both transition edges between Top and the two adjacent side surfaces with  are each provided with a stiffener. To that extent for the production of the thermal insulation profile is expedient if the stiffener looks like a strip-like part is formed, the longitudinal edges of which are folded. On such stiffener can be easily on the Put on top of the thermal insulation body and with it firmly connect, the folded longitudinal edges of the Stiffening part on the top pointing towards the top Apply to the edge of the long side surfaces. In further before partial embodiment of the invention is provided that the thermal insulation body from a foam material, ins special made of PUR foam or a foam made of ver wetted polyethylene. The choice of this materia lien allow the thermal insulation body as an extrusion to manufacture part. Alternatively, it is also possible that the thermal insulation body is manufactured as a molded part.

The stiffening is expedient a rigid polyethylene film strip.

The recess of the thermal insulation body, that of the receptacle the pipe to be insulated serves purpose moderately parallel to the side surfaces and the Upper and the supporting side of the thermal insulation body. The Recess can to one of the side surfaces or The top or top of the thermal insulation body is open his. However, the recess (to on the front ends of the thermal insulation body) all mutually completed.

To lock the pipe to be insulated in all sides To be able to insert this recess, it is advisable that the thermal insulation body with a closable Slot is provided through which the recess from the outside is accessible. By widening the slot can be  insert the tube into the recess. Here is the Thermally insulating bodies advantageously flexible det. Preferably, the slot leads to the top of the Thermal insulation body. After inserting the pipe the slot preferably by gluing or Ver welding closed. Other methods of connection the one in the area of the slot Diaphragm walls of the thermal insulation body are conceivable.

When leading to the top of the thermal insulation body This becomes slit after inserting the tube and the closing by the Ver stiffening part covered.

The thermal insulation profile is advantageously included of the tube inserted in its recess wraps brought to the installation site. Depending on the Bending stiffness of the stiffener is advisable to provide these with incisions so that otherwise flexible thermal insulation profile can be wound up. The before part of the delivery of the thermal insulation profile with already inserted pipe consists in the simplified laying and installation of the thermal insulation profile.

An embodiment is described below with reference to the figures game of the invention explained in more detail. In detail gene:

Fig. 1 shows a cross section through a heat-insulated floor structure insulated by the heat insulating profile pipe,

Fig. 2 shows the structure of the heat insulating profile having tube in exploded view,

Fig. 3 shows a cross section through the thermal insulation profile and

Fig. 4 is a perspective view to illustrate the function of stiffening the thermal insulation profile as a leading edge when cutting an adjacent thermal insulation panel.

With reference to FIG. 1 will briefly basically the thermally insulated floor structure using a heat-insulated pipe installation will be explained by means of the heat insulating profile 10. The thermal insulation profile 10 is in the example of the floor structure according to FIG. 1 in the corner area between the (raw concrete) floor 12 and a wall 14 laid. The thermal insulation profile 10 has an extrusion thermal insulation body 16 , which consists of PUR foam or a foamed cross-linked polyethylene. With its support side 18 , the heat insulating body 16 rests on the floor 12 . Adjacent to one of the two longitudinal side surfaces 20 , thermal insulation 22 is net, which otherwise rests on the floor 12 . The other longitudinal side surface 20 of the thermal insulation body 16 lies against the wall 14 . The top 24 facing away from the floor 12 is provided with a strip-shaped reinforcing element 26 , which is a rigid, chamfered polyethylene film which is connected to the thermal insulation body 16 by gluing. Inside the thermal insulation body 16 there is a recess 28 which is closed on all sides and extends in the longitudinal direction and is accessible via a closed slot 30 which leads to the upper side 24 and is closed on the one hand by gluing and is covered by the stiffening element 26 .

On the thermal insulation profile 10 and the adjacent thermal insulation 22 , an impact sound insulation layer 32 is brought up, above which there is a (moisture) barrier film 34 . A screed layer 36 is applied to the barrier film 34 . The task of the barrier film 34 is to protect the impact sound insulation and thermal insulation from the ingress of moisture when laying the screed 36 .

The structure of the Wärmedämmpro fils 10 already described above is shown in detail in FIGS. 2 and 3. It is indicated in Fig. 2, how will proceed in the manufacture of the thermal insulation profile 10 ren. For this purpose, a pipe 38 is inserted into the recess 28 in the extruded continuous heat insulation body 16 when the slot 30 is widened. This pipe 38 can be a media-carrying pipe (heating pipe or service water installation pipe) or an empty pipe. After inserting the tube 38 , the slot 30 is closed by gluing (indicated at 40 in FIG. 3). Then the film strip Ver stiffening element 26 is placed on the top of the Wärmedämmkör pers 16 and glued to it, which is indicated in Fig. 3 at 42 . The stiffening element 26 has bent longitudinal edges 44 , so that a substantially U-shaped profile arises in cross section. With its substantially folded at 90 ° longitudinal edges of the stiffening element 26 is located at the upper edge of the longitudinal side faces 20 (see Fig. 3). Thus, the stiffening element 26 covers the two transition edges between the longitudinal side surfaces 20 and the top 24 of the heat insulating body 16th

Referring to Fig. 4 illustrates how the stiffening element 26 and its beveled longitudinal edges 44 for guiding a cutting tool 46 during cutting of the thermal insulation can be used 22nd The thermal insulation 22 is shown in Fig. 4 as a plate element. In order to be able to achieve optimal thermal insulation, it is advisable in the adjoining area of the thermal insulation 22 for the thermal insulation profile 10 that a dense and filling from closing surface system between the thermal insulation 22 and the exposed longitudinal side surface 20 of the thermal insulation body 16 is provided. The adjacent thermal insulation 22 is placed obliquely on the top 24 of the thermal insulation body 16 . With the cutting tool 46 of the overlying and projecting edge is then cut off 48 of the insulation 22, wherein the cutting tool 46 of the stiffener 26 is guided during cutting of the folded edge of the exposed longitudinal edge 44th This makes it much easier for the insulator to lay the thermal insulation 22 , because due to incorrect cutting, remaining gaps between the thermal insulation 22 and the thermal insulation profile 10 , which then have to be filled with pearlites or the like. Thermal insulation material, can be avoided.

Claims (11)

1. Thermal insulation profile for pipes, in particular fluid-carrying pipes or empty pipes, with

• - A thermal insulation body ( 16 ) made of a thermally insulating material, the one support side ( 18 ) for support on a substrate ( 12 ), one of the support side ( 18 ) facing away from the top ( 24 ) and the support and the top ( 18 , 24 ) has connecting side faces ( 20 ),
• - A recess ( 28 ) for receiving a tube ( 38 ) and
• - A stiffener ( 26 ) arranged in the area of at least one of the transitions between the side surfaces ( 20 ) on the one hand and the upper side ( 24 ) on the other hand on the heat insulating body ( 16 ) for guiding a cutting tool ( 46 ) for cutting a side on the heat insulating body ( 16 ) adjacent thermal insulation ( 22 ).

2. Thermal insulation profile according to claim 1, characterized in that the top ( 24 ) and the side surface ( 20 ), which are connected by means of the stiffening ( 26 ) ver, are at an angle of substantially 90 ° union to each other. 3. Thermal insulation profile according to claim 1 or 2, characterized in that the stiffener ( 26 ) extends over the entire upper side ( 24 ) and is bent towards the adjacent side surfaces ( 20 ), being in these bent areas ( 44 ) on the side surfaces ( 20 ) is present. 4. Thermal insulation profile according to one of claims 1 to 3, characterized in that the stiffening ( 26 ) connected to the thermal insulation body ( 16 ), in particular is glued. 5. Thermal insulation profile according to one of claims 1 to 4, characterized in that the thermal insulation body ( 16 ) consists of a foam material, in particular PUR foam or a foam made of cross-linked poly ethylene. 6. Thermal insulation profile according to one of claims 1 to 5, characterized in that the stiffening ( 26 ) is a rigid PE film. 7. Thermal insulation profile according to one of claims 1 to 6, characterized in that the recess ( 28 ) extends parallel to the side surfaces ( 20 ) and the top and the bearing side ( 24 , 18 ) of the heat insulating body ( 16 ). 8. Thermal insulation profile according to claim 7, characterized in that the thermal insulation body ( 16 ) is flexible and for inserting the tube ( 38 ) has an expandable slot ( 30 ), one of the tenflächen Be ( 20 ), the top ( 24 ) or on the bearing side ( 18 ) connects to the recess ( 28 ). 9. Thermal insulation profile according to claim 8, characterized in that the slot ( 30 ) leads to the top ( 24 ). 10. Thermal insulation profile according to claim 8 or 9, characterized in that the slot ( 30 ) can be closed in particular by gluing ( 40 ). 11. Thermal insulation profile according to one of claims 1 to 10, characterized in that the thermal insulation body ( 16 ) is an extrusion part.