DE19746651A1 - Support device for pipe heat and sound insulation - Google Patents

Abstract

A pipe (14) or passage is noise and/or heat insulated by a jacket of insulating material (13) which is retained by a metal strap (12). The strap is elevated from the outer surface of the insulation material by dovetailed spacers (10) and a noise-dampening cushion (8). The spacers rest on a base with a harpoon (1, 2, 3) head (15) inserted into the insulation material.

Description

The invention relates to a fastening device and a Process for fastening insulating sheet metal to pipelines and round channels with a support device and a receptacle element for holding a heat and sound insulating head piece kes and a clamping ring for fastening the insulating sheet.

For pipelines used for the transfer of heat transport Media are used, it is very important that the heat losses along this route can be kept to a minimum. For this, the space between the pipes and the outer insulating sheet with heat-insulating and / or sound filled damping materials.

A well-known, self-supporting insulation panel is made of Foam existing insulating pipes of different inner diameters and wall thicknesses for thermal insulation of heating systems in residential buildings.

Furthermore, the usual cladding of larger pipe diameters knives where mineral wool is applied as thermal insulation is and this is clad with rounded sheet metal pieces. In these cases, this outer cladding is made using spacers kept at a constant distance from the pipeline. Since this Ab stands mainly made of metal, will also be between the spacers and an outer ring a thermal separation attached in the form of thin plates. This connection between the Spacer, thermal separator plate and the outer clamping ring consists primarily of a metallic riveted joint. As after part can be seen here that this rivet connection is part of the thermi separation.

It is also known that to accommodate thermal expansion the pipelines, so-called omega brackets are used or the Spacers in the outer area abge by a certain angle is curved and this creates an L-shape. Stay in both cases however, there are disadvantages that the thermal separation is incomplete  is permanent and these complete spacer rings are made to measure beforehand Need to become.

Another disadvantage is the cumbersome assembly of the insulation, because the complete clamping rings, consisting of the spacers, the thermal insulating plate and the inner and / or outer clamping must first be installed around the pipelines before the mineral insulation is applied.

Proceeding from this, the invention is based on the object Insulating sheet metal device and a method for fastening the Insulating sheet metal to create a compared to the state of the Technology simplified assembly of the insulating sheet and the manufac highly heat and sound insulating cladding of pipes and round ducts.

This object is achieved in that special Insulation bars in the previously completed mineral insulation ring in the form of a certain distance into the insulation the so that the tip of the insulating web rests on the pipeline and the head of the insulating web points radially outwards. The length of the iso liersteges depends on the strength of the insulation and is dimensioned that the head just sticks out of the isolation. To this iso lierstege a tension band is then placed and stretched until secure by pressing the insulating webs against the pipe wall Attachment arises. To allow easy penetration of the insulating bars ensure these are wedge-shaped. Prevent further the, like barbs, narrow sides of the web, a Her fail from the mineral insulation during assembly. This type of assembly allows one over the prior art simple application of the mineral insulation and a subsequent che assembly of the substructure of the insulating sheet.

Another effect according to the invention for optimal heat and Sound insulation is provided by the special design of the insulating bridge reached. As already mentioned, the insulating web essentially exists from a wedge-shaped piece of flat steel. The con invention structure of the insulating web head guaranteed by different Dimensioning of the thermal bridge or the soundproofing Component an optimal adaptation of the insulation values to the given Requirements. For this, a specially shaped, poorly warm conductive insulating head piece with the inserted spring on the tra  pez-shaped design of the metallic web head pressed and snapped into place. The special shape of the spring prevents a side ch falling out.

On the other side of the insulating head piece is an elastic ver malleable cushioning cushion pushed over the head piece. The trapezoidal bulge of the outer surface of the damping ski sens is used to hold and hold the outer chip ring. On the one hand, the damping cushion has the task of mechanical To dampen vibrations, on the other hand, the linear expansion here due to varying temperatures be compared.

For the insulation of low-temperature cables in which the Pro The thermal expansion is not relevant or a sound insulation is not required is a simple version of the Iso lier head piece conceivable, which consists of a plastic molded part, that is put over the bridge head and by means of a simple tra pezfeder is held. The sideways slipping is here by prevents the trough-shaped formation of the plastic part. The Damping cushions can be omitted in such applications.

The invention is based on the following description of a before drafted application example with reference to the accompanying Drawings explained further. Show it

Figure 1 is an insulating wedge web of a preferred embodiment of the substructure according to the invention for Rohrleitun conditions and round channels as an exploded drawing.

Fig. 2 shows a schematic structure of a pipe insulation using the substructure according to the invention.

Fig. 1 shows the metallic wedge web ( 2 ) with the indicated Wi derhaken ( 1 ) and the dovetail-shaped head region ( 3 ) ei ner preferred embodiment of the pipeline substructure. The wedge shape facilitates the insertion of the wedge web ( 2 ) into the previously attached insulation ( 13 ), and the barbs prevent the wedge web ( 2 ) from falling out of the insulation ( 13 ), especially when installing overhead.

In the heat insulating head ( 8 ), the z. B. can consist of a ceramic material, the wedge spring ( 4 ) is engaged. The special shape of this spring with the two ears ( 5 ) and the tabs ( 6 ) ensure a secure fit in the ceramic head piece ( 8 ).

The parts ( 4 ) and ( 8 ) assembled in this way are then placed over the wedge web ( 2 ), the tabs ( 7 ) also preventing the spring ( 4 ) from sliding sideways away from the wedge web ( 2 ). A damping cushion ( 10 ) is now pressed onto this head piece ( 8 ). The dovetailed shape (9) of the head piece (8) holds the damping cushion (10), and the bilateral extensions (11) to prevent the damping pad (10) a lateral slipping of the Dämp Fung cushion (10) from the head piece (8).

These complete insulating wedge webs ( 15 ) are then inserted radially into the insulation ( 16 ), distributed over the circumference. The number of insulating wedge webs ( 15 ) depends on the size of the circumference. The individual insulating wedge webs ( 15 ) are pressed onto the pipe ( 14 ) to be insulated with the clamping ring ( 12 ), which is inserted and held in the damping cushion ( 10 ).

The clamping ring ( 12 ) is thus fixed at a constant distance from the pipeline ( 14 ) and then serves as a carrier element for subsequent insulation sheet metal ( 16 ).

Claims (7)

1. Fastening device for the production of heat and sound insulating substructures for pipes, characterized in that a plurality of insulating wedge webs ( 15 ) consisting of wedge-shaped, barbed ( 1 ) flat iron ( 2 ) and egg ner trapezoidal head formation ( 3 ) which by means of a spring device ( 4 ) heat-insulating head pieces ( 8 ) which contain dovetail-shaped receiving chambers ( 9 ) which serve to receive damping cushions ( 8 ), and that these again contain dovetail-shaped receiving chambers for receiving a clamping ring ( 12 ), evenly on the circumference ver divides, inserted radially into the previously attached insulation ( 13 ) and fixed against the pipe ( 14 ) by means of the clamping rings ( 12 ). 2. Substructure according to claim 1, characterized in that the heat-insulating head piece ( 8 ) consists of a flat ceramic molded part, which has a dovetail-shaped bulge ( 9 ) at both ends, which on one side for the spring device ( 4 ) and on the other hand to the absorption cushion ( 8 ). 3. Substructure according to claim 1, characterized in that the spring device ( 4 ) in the receiving chamber ( 17 ) of the insulating head piece ( 8 ) engages and are held by the side tabs ( 5 , 6 ) so that lateral slipping is prevented and is provided with further lateral tabs ( 7 ) which prevent the insulating head piece ( 8 ) from sliding sideways after hooking onto the wedge web ( 2 ). 4. Substructure according to claim 1, characterized in that the damping cushion ( 8 ) consists of a compressible, resilient Ma material. 5. Substructure according to claim 1 and 4, characterized in that the damping cushion ( 8 ) consists of a non-combustible Me tallgestrickkissen. 6. Substructure according to claim 1 and 2, characterized in that the insulating head piece ( 8 ) consists of a plastic part. 7. A method for attaching insulation panels to pipes and round ducts, comprising the steps:

• a) Insert the insulating wedge webs ( 15 ) in the insulation ( 13 ) of the fully insulated pipes, radially distributed in a line on the circumference.
• b) Attaching and screwing the clamping ring ( 12 ) around the insulating wedge webs ( 15 ) for fixing the insulating wedge webs on the pipes to be insulated.
• c) repetition of steps a) and b) at a certain distance from the pipeline.
• d) attaching the outer sheet to the tension rings.