DE3727539C1 - Heat insulation for cold houses - Google Patents

Description

The invention relates to thermal insulation for cold stores, Cold rooms and cold rooms according to the preamble of the patent claim 1.

Cold stores are mostly insulated with Thermal insulation elements made of fiber material in the form of panels shaped wall elements with which walls and ceiling of the Cold stores are disguised. The plate-shaped wall elements are juxtaposed, so that joints between adjacent wall elements remain that need to be locked. With average Large cold stores are available here for a length of at least about 40 km and more. In her These joints are conventionally provided by a sealing profile closed, which is made in one piece from plastic and from an L or T-shaped bridge with one on it subsequent cap is formed. To assemble the Ab sealing profiles in the joints are on the butt-side forehead corresponding recesses or areas of the wall elements Formed grooves in which the sealing profiles with their L or T legs can be arranged loosely. For assembly it is necessary that after arranging a wall element first the sealing profile with its L- or T-shaped part in the corresponding recess in the Front side of the wall element is used before that adjacent wall element can be connected. Here the adjacent wall element must be attached so that the  L or T leg of the pre-assembled sealing pro fils in the corresponding recess of the reaches the wall element, with care also taken must be that the outer surface of the wall element before the Cap inserted and exactly between the L or T leg of the Sealing profile and the underside of the cap is fitted. This requires appropriate care and sensitivity of the the thermal insulation of the cold store personnel damage to the thermal insulation elements should be avoided will. In a subsequent assembly process then the gap between the sealing profiles and the stacked wall elements by a permanently elastic grout can be filled, especially for special silicone is used. With this permanent elastic joint sealing is achieved, however, silicone in particular has the disadvantage adheres to the fact that it absorbs spores, so that it can come. Except for these hygienic harmful properties it comes as a result of penetration the spores also cause discoloration of the silicone mass, so that over time the outside of the insulation no longer offers an optically perfect appearance. Furthermore, in cold stores, where food, ins special meats are stored and processed which Walls of the cold stores are cleaned periodically what done by high pressure cleaner. A common high pressure however, cleaning leads to gradual replacement or washing out the permanently elastic jointing compound, so that thermal bridges or cold bridges form and in emerging cracks can collect spores, that lead to fungal growth. To sum up note that the previously used Abdichtpro file have considerable assembly disadvantages. This is particularly important in the case of such cold stores significant lengths of joints up to 40 km and more and with the permanently elastic  Mass to be filled. It is obvious that for the A corresponding material requirement is available permanently elastic mass is present, which is ultimately also reflected in the installation costs of thermal insulation beats.

The object of the invention is to provide thermal insulation for To create cold stores that are free from the above ge disadvantages described. In particular, the Characterize thermal insulation according to the invention, that thermal insulation is a relief grouting faster and easier and more material creates more economical. At the same time, despite the assembly simplification an excellent Ab sealing the joints of adjacent thermal insulation elements be guaranteed in a hygienically perfect manner.

This object is achieved by the in the kenn drawing part of claim 1 included Features solved.

According to the invention, the sealing profile is made of two pluggable parts, namely a base part and an impact profile. This leads to a considerable simplification of assembly, as when assembling the wall elements after Insert the base part into the corresponding one Groove the other in the front of the wall elements Wall element only needs to be attached without a Threading the thermal insulation element between the legs and cap of the sealing profile would be required. After connecting the wall elements can from the outside the impact profile under pressure on the already in the existing base part must be hammered in. Here is the rest position for the turning profile selected in the base part so that the cap under pressure  on the outer surface of the adjacent wall elements is applied so that as a result of the pressure applied Seal the joint to the outside is guaranteed. For this purpose, the Cap with sealing lips protruding downwards formed on the other side of the joint, the lengthways the underside of the cap. Since the impact pro fil is made of plastic, can be on hit the plug-in strip resiliently the cap ends dodge backwards, so that in the assembled Stel the cap ends with those on the underside formed protrusions under tension on the outside Press the surface of the adjacent wall elements.

The projections are expediently on here the cap is formed by sealing lips, which are made of the cap level are angled downwards and extend outward from the cap. At the Wrapping the profile into the base part will be Sealing lips pressed approximately backwards so that they then under tension with their appropriately rounded end edges along the joint on both walls sealing elements.

In this context, it is useful if the Distance from the top edge of the leg of the base part to the lower edge of the cap is smaller than the thickness the thermal insulation between the groove and the outer surface of the Thermal insulation is, being in an advantageous Design this difference be about 2 to 3 mm wearing. This guarantees sufficient Tight closure of the sealing lips even with any Tolerance deviations of the components used.

This resilient bending of the sealing lip backwards is still favored if the sealing lips  connected in the manner of a joint to the profile sen are what in a technically simple manner in that the seal in the transition area longitudinal grooves are inserted into the wedge profile.

Appropriate developments of the invention are by the features contained in the subclaims featured.

The following are exemplary embodiments of the invention described using the drawing. It shows

Fig. 1 is a sectional view through a thermal insulation with a conventional joint sealing profile,

Fig. 2 shows an embodiment of a joint sealing profile according to the invention, and

Fig. 3 shows another embodiment of a joint sealing profile.

The conventional thermal insulation shown in Fig. 1 consists of abutting wall elements 1 , the butt joints 2 on the two outer sides of the heat insulation to the outside by sealing profiles 3 are closed. These sealing profiles 3 are, according to FIG. 1, formed in one piece from an L-shaped web 4 and an attached cap 5 , which has projections 6 formed on the underside adjacent to its two longitudinal edges, with which the cap on the longitudinal edges of the two thermal insulation elements 1 lies on. The strip-like sealing profile 3 is loosely received in grooves 7 made on the end faces of the thermal insulation elements 1 .

For mounting the thermal insulation of a heat insulating member 1 is, after appropriate placement of the first sealing profile - or, if a two-sided jointing both edge sections - placed in the corresponding groove 7 of the end face. Thereafter, the second thermal barrier is element pushed laterally one against the first heat insulating member 1, whereby care must be taken that the thermal insulation element 1 passes in front of the cap bottom, while the L-limbs of the web 4 is not pressed the Abdichtprofiles from the groove. This assembly, he requires a corresponding care of the operating personnel, especially if both outside of the thermal insulation must be grouted at the same time by appropriate sealing profiles. After the thermal insulation elements 1 have been pushed together, a permanently elastic joint compound, in particular silicone, is introduced into the remaining gaps between the sealing profile and the thermal insulation elements.

The embodiment of a sealing profile 8 shown in Fig. 2 is formed in two parts and consists of a base part 9 and a wedge profile 10th The turning profile 10 is designed such that it can be driven into the base part 9 . The base part 9 is arranged in the grooves 7 of the adjacent wall elements 1 and sits loosely within the grooves 7th Due to the division in two, the assembly is very simple, because after arranging the base part 9 in a groove 7 of the one wall element 1, the other only has to be pushed laterally. Then the impact profile 10 is pressed in from the outside. According to FIG. 2, the profile turning a cap 11 which projects from the vertically downward an insertion strip 12, is formed at its free end a catch 13, which in the illustrated embodiment, the shape of an arrowhead has. On the base part 9 , which is formed with two legs 14 , a receiving web 15 protrudes from the plane of the two legs 14 , which is formed from two opposite walls 16 and 17 , which between them form a groove-shaped receiving space 18 for the projecting part 12 of the impact profile 10 . In adaptation to the detent 13 of the striking profile 10 , the two walls 16 and 17 at their upper end opposite Rastvor jumps 19 , which delimit an arrowhead-shaped inlet zone 20 and end in a recessed shoulder 21 , which has a locking surface for represents the detent 13 . The detent projections 19 formed with an inclined surface and the recessed shoulder form the detent member for the detent 13 .

The cap 11 of the impact profile 10 has a sealing lip 22 on each of its two longitudinal edges, which in the exemplary embodiment shown tapers towards its free end and the tip of which is rounded. The sealing lip 22 is articulated, which is done by molded longitudinal grooves 23 in the region of the longitudinal edges.

After arrangement of the two thermal insulation elements 1 , finally an arrangement of the base part 9 within the grooves 7 of adjacent thermal insulation elements 1 , only the impact profile 10 is set up from the outside and pressed into the base part 9 until the catch 13 engages over the latching surface 21 of the base part. Since the distance d between the groove 7 or the upper wall surface of the groove 7 and the associated outer surface of the thermal insulation element 1 is greater than the distance from the upper edge 24 of the leg 14 to the lower edge 25 of the plug-in strip 10 in the latched position and in the untensioned state of the sealing profile 8 , In the untensioned condition, angled downwards, the two sealing lips 22 are bent upwards when hitting the impact profile in the base part 9 , so that they press in the latching position with tension on the outer surface of the two thermal insulation elements 1 and are in sealing arrangement with these Surfaces.

In the embodiment according to FIG. 3, in addition to the sealing lips 22, even more angled additional lips 26 are provided, which are also connected to both longitudinal edges of the cap and which are also pressed upwards when the plug-in strip is turned in, and thus the pretension and thus with pressure on the Place the outer surface of the insulation elements 1 .

In the illustrated embodiment, the sealing lips 22 are angled downward from the horizontal, ie the plane of the cap 11 , by an angle of approximately 30 °, whereas the additional lips 26 , which are more angled, are angled downwards by an angle of approximately 60 °. Furthermore, the additional lips 26 protrude slightly downward over the lower edges 25 of the sealing lips 22 . Furthermore, the catch 13 does not represent the free end of the web-shaped plug-in strip 12 , rather a web-shaped section 27 adjoins the catch 13 at the bottom, which is received between the two longitudinal walls 16 and 17 below the catch surface 21 . The base part 9 and the impact profile 10 are made of plastic and are strand-shaped, so that the sealing profiles can be laid in strips between the joints. Since the sealing contact of the sealing lips is correspondingly large due to the pretension, no additional grouting is required due to a permanently elastic mass.

Claims (11)

1. Thermal insulation for cold stores and. Like., With wall elements made of thermal insulation material for cladding the ceiling and walls of the cold store and with sealing profiles made of plastic for the joints of adjacent wall elements, which are received with their legs in corresponding recesses in the abutting surfaces of adjacent wall elements and with a cap covering the joint from the outside rest on the edge area of the wall elements, characterized in that the sealing profile ( 8 ) from a into the joint ( 2 ) a settable base profile ( 9 ) with the two legs ( 14 ) for arrangement in the corresponding recesses ( 7 ) of adjacent wall elements ( 1 ) and an impact profile ( 10 ) is formed, which has the joint-covering cap ( 11 ) and with a protruding from the cap a connector strip ( 12 ), which in a part formed in the base groove ( 18, 20 ) can be pressed in and clicks into place. 2. Thermal insulation according to claim 1, characterized in that the plug-in strip ( 12 ) is formed at its insertion end with a notch ( 13 ), which in the press-in position, a corresponding locking member ( 19, 21 ) in the groove ( 18 ) of the base part ( 9 ) engages. 3. Thermal insulation according to claim 1 or 2, characterized in that the distance from the upper edge ( 24 ) of the leg ( 14 ) of the base part ( 9 ) to the lower edge ( 25 ) of the cap ( 10 ) is smaller than the thickness of the thermal insulation between the recess ( 7 ) of the wall element ( 1 ) and the outer surface of the thermal insulation. 4. Thermal insulation according to claim 3, characterized, that the distance from the upper edge of the leg to the lower edge of the cap about 2 to 3 mm smaller than the corresponding thickness thermal insulation. 5. Thermal insulation according to one of the preceding claims, characterized in that the detent ( 13 ) of the plug-in strip ( 12 ) is arrow-shaped and the groove ( 18 ) has an inlet zone corresponding to the arrowhead ( 20 ) with a recessed shoulder as a detent surface ( 21 ) having. 6. Thermal insulation according to claim 5, characterized in that the inlet zone ( 20 ) by two oppositely arranged and in the groove ( 18 ) projecting Rastvor jumps ( 19 ) is formed, with their recesses the shoulders ( 21 ) the locking member ( 19, 21 ) form the base part ( 9 ). 7. Thermal insulation according to claim 5 or 6, characterized in that the groove ( 18 ) is arranged in a centrally between the two legs ( 14 ) and vertically projecting from the plane of the legs web ( 15 ). 8. Thermal insulation according to one of the preceding claims, characterized in that the cap ( 11 ) at its longitudinal edges roof-shaped in the direction of the base part ( 9 ) angled sealing lips ( 22 ). 9. Thermal insulation according to one of the preceding claims, characterized in that the lips are connected to the corresponding longitudinal edges via a joint formed by a longitudinal groove ( 23 ). 10. Thermal insulation according to one of the preceding claims, characterized in that an additional lip ( 26 ) is formed on both longitudinal edges of the cap, which is angled more than the sealing lip ( 22 ) and in the unstressed state of the impact profile slightly above the lower edge of the Sealing lips ( 22 ) is facing down. 11. Thermal insulation according to one of claims 8 to 10, characterized in that the sealing lip ( 22 ) are angled at an angle of approximately 30 ° and the additional lips ( 26 ) at an angle of approximately 60 ° from the cap plane.