AT10654U1 - MODULAR INSULATION SYSTEM - Google Patents

Description

2 AT010 654U1

The invention relates to a modular insulation system for containers with interconnectable insulating elements for the thermal insulation of containers, such as boiler and tank systems.

Thermal insulation systems are used, for example, for hot water containers and are known inter alia from the literature. These include, for example, EP 1 860 384, which describes a multi-part insulation system, which consists of solid elements with unchangeable system dimensions and can be applied only to a limited extent to different diameters of the container. The resulting differences in the dimensions of the individual system element and the finished insulating jacket lead to unavoidable air gaps between the insulating jacket and the container to be insulated; These air gaps can lead to the formation of air circulation and thus to a huge reduction in the insulation effect. Similar disadvantages are also exhibited by the elements according to DE19510820, FR2577009, US4,640,437 and EP0117388.

The object of the invention is to provide an insulating system for containers of different sizes, which consists of system elements with constant dimensions.

This object is achieved by an insulating system of the type mentioned above in that two adjacent insulation elements are arranged overlapping, wherein the overlap region is variable, and the insulation elements via at least one connecting element connected to each other and can be fixed in position.

Accordingly, a complex insulating jacket is assembled from a plurality of individual elements, wherein in each case an adjacent element is connected to the previously mounted element. The connection of respectively adjacent elements takes place in that the subsequent element is inserted into the preceding element overlapping and connected by means of a clamping device. In this way, arbitrarily large containers can be isolated, wherein preferably the structure of the insulating layer is carried out in circumferential rows. If a circumferential row is closed, then the insulating layer completely encloses the container circumference. The insulating layer is self-contained and can effectively absorb external forces such as wind loads, their own weight, etc. The insulation elements required for the construction of the insulation are hereby produced inexpensively, stored and mounted.

The modular insulation system according to the invention is particularly suitable for boiler and / or tank systems and is characterized by an individual adaptability to the different dimensions (diameter and height) of the container.

Another advantage of the subject invention is that the system elements are pushed into each other, without this need to be performed in special recesses or hinge elements. This allows a simple subsequent interchangeability of individual system elements, if z. B. individual elements have been damaged in use.

A system basic element consists at least of the outer jacket formed from insulating elements, alone or in combination with a solid insulating body. The outer jacket is made of lightweight material such. B. plastic film (PVC, PP, PE, ...) with a layer thickness of one to several millimeters. The insulating material can either be a factory already firmly connected to the outer jacket in the production process material consisting of z. B. PU foam. The layer thickness of the insulating body is several centimeters, preferably 50 mm to 200 mm, depending on the particular application.

In a further embodiment, the outer jacket is designed with a circular ring segment, which ensures a constant distance of the outer jacket to the container wall, in the event that no solid insulating material is used. In this case, to achieve a very high insulation loose insulating material in the space between the outer jacket

Claims (13)

3 AT010 654U1 and container wall. As a loose insulating material, for example, flakes of PU foam, impregnated paper or other airflow-capable insulating materials can be introduced. The invention will be explained in more detail with reference to FIGS 1 to 4. Fig. 1 shows an overall view of a container 1 with a partially applied insulation 2, consisting of a plurality of insulating bodies 3 and insulating elements 4, which form an outer jacket. The insulating member 4 has in this embodiment, a circular ring segment 4a, so that a uniform distance of the outer jacket is formed to the container wall. Fig. 2 shows a preferred embodiment of insulating elements 4 with recesses 5 and 6 for simplified connection of two adjacent insulating elements 4, 41 by means of a connecting element 7, wherein two adjacent insulating elements 4, 41 can be almost seamlessly inserted and connected. Fig. 3 shows an enlarged view of a preferred variant of connections of two adjacent insulating elements 4, 4 '. In the previously mounted insulating 4, the subsequently mounted insulating 4 'is inserted so far, until an overlap of the recess 5 of the first insulating 4 with one of the recesses 6 of the second insulating 4' occurs and by inserting the connecting element 7 a positive connection of the two insulating 4 , 4 'can be produced. In another embodiment, not shown, the connecting element is integrated directly into the insulating 4; In this case, the separate connecting element 7 is dispensed with. FIG. 4 shows, by way of example, a connecting element 7, designed as a spring element. Claims: 1. Modular insulating system (2) for containers (1) with interconnectable insulating elements (4, 4 '), characterized in that in each case two adjacent insulation elements (4, 4') are arranged overlapping, wherein the overlap region is variable, and the insulation elements (4, 4 ') can be connected to one another via at least one connecting element (7) and can be fixed in their position. 2. Modular insulating system (2) according to claim 1, characterized in that the insulating element (4, 4 ') at least one recess (5, 6) for receiving the at least one connecting element (7). 3. Modular insulation system (2) according to claim 1, characterized in that the connecting element (7) is formed integrally with the insulating element (4, 4 '). 4. Modular insulating system (2) according to claim 1 or 2, characterized in that the insulation element (4, 4 ') additionally comprises a spacer element (4a), which has a uniform spacing of the insulation element (4, 4') to the container (1). allows. 5. Modular insulation system (2) according to claim 4, characterized in that in the distance between the insulating element (4, 4 ') and container (1) an additional insulation can be introduced, wherein the interconnected insulation elements (4, 4) an outer sheath of modular insulation system (2) form. 6. Modular insulation system (2) according to claim 5, characterized in that the additional insulation is loose poured insulating material. 4 AT010 654U1 7. Modular insulation system (2) according to claim 5, characterized in that the loose-poured insulating material flakes is in particular made of PU foam or impregnated paper. 8. Modular insulation system (2) according to claim 5, characterized in that the additional insulation is a plate-shaped insulating body (3). 9. Modular insulating system (2) according to one of claims 1 to 3, characterized in that the additional insulation is fixedly arranged on the insulating element (4, 4 '). 10. Modular insulation system (2) according to one of claims 1 to 5, characterized in that the plate-shaped insulating body (3) made of foam, in particular of PU, PVC or PS, preferably made of recycled material. 11. Modular insulation system (2) according to one of claims 1 to 10, characterized in that the connecting element (7) is an elastic spring element. 12. Modular insulation system (2) according to one of claims 1 to 11, characterized in that the insulating elements (4, 4) made of plastic film material, preferably PVC, PP or PE, can be made of light metal or sheet steel. 13. Modular insulating system (2) according to one of claims 1 to 12, characterized in that the insulating elements (4, 41) to increase the rigidity of the outer sheath have additional facilities such as stiffening ribs or beads. For this purpose 2 sheets of drawings