EP1111145A2 - Connection element for the connection of panels for interior finishing and panel connection assembly for interior finishing - Google Patents

Abstract

The connecting element comprises interconnected connecting profiles (15, 15') each U-shaped and each associated with one of the construction plates (10) which are to be connected together so that one arm (17) of the profile adjoins an inner surface (22) of the associated plate and the other arm (16) engages in a groove (10) in the associated plate. Independent claim describes connecting system where a groove (21) is milled in an insulating layer so that the groove is defined on one side by a cover layer (11)and on the other side by an insulating layer. The other cover layer is slightly milled down in the adjoining area of the other arm to form a bearing face (22).

Description

The invention relates to a connecting element for connecting expansion panels with an insulating layer arranged between two cover layers of the expansion panel for interior construction, especially on board ships. Furthermore, the Invention with a connection arrangement for expansion panels for interior such fasteners.

Expansion boards of the aforementioned type are sold by the applicant under the brand LOLAMAT® sold and are disclosed in WO 97/21 884. The expansion panels have two outer layers of fiber-reinforced plastic, between which an insulating layer of mineral wool is arranged. Cover layers and insulation layer are glued together. In a preferred one, specifically by the applicant applied embodiment of such an expansion plate are the fibers of the Mineral wool directed transversely to the level of the expansion panel. The individual fibers are thus glued with their end faces to the cover layers. This results in a high compressive strength of the expansion plate.

Through obvious use, T-shaped and H-shaped connecting elements become known in the form of one-piece profiles. These profiles engage in one or two grooves in the abutting edges of adjacent expansion panels. The H-shaped Fastener has the disadvantage that the Extension panels with mineral wool fibers oriented transversely to the level of the extension panel can hardly be used. The between the free legs of the H arranged mineral wool fibers no longer have a connection to one of the two top layers. They can be broken out easily. The Connection is unstable overall. The connection with the T-shaped profiles is also comparatively unstable because the neighboring plates do not have sufficient guidance get against each other. As a result, dirty edges are often formed between the adjacent expansion panels, so that it is common practice that Filling over joint edges. After all, none of these profiles Corner connections can be realized.

In addition, it is known to use such expansion panels with a groove and To connect the spring connection with each other. This can also be used across Mineral wool fibers arranged on the expansion board level do not occur, since the Spring does not offer sufficient strength. It is therefore also known that Butt edges of the expansion panels with, for example, a wooden intermediate layer be milled into the tongue and groove or a groove on both sides milled and a separate spring is used.

Proceeding from this, the invention is based on the problem of a Connecting element and a connection arrangement for expansion panels create, through which arbitrarily configured stable connections can be realized leave without the need for rework.

The connection profile according to the invention is used to solve this problem characterized by interconnected connection profiles, which approximately Are U-shaped and each have a connecting profile one of the is assigned to be connected to each other, one leg of the Connection profile rests on an inner surface of the associated expansion panel and the other leg engages in a groove in the associated expansion panel. The Connection arrangement according to the invention for expansion panels with such Connection profiles is characterized in that a groove in the insulating layer is milled in such a way that the groove on the one hand through a cover layer and on the other hand is limited by the insulating layer, and the other top layer in Area of the plant of the other leg to form a contact surface easily is milled off.

The connecting element according to the invention results in a stable Connection of two adjacent expansion panels. The special design of the Connecting elements from two interconnected connecting profiles also allows corner joints to be realized. 90 ° connections can be easily realize, while other corner angles easily can be realized by using two connection profiles, for example via Connecting wedges to be connected together. Due to the stability of the Connection of two adjacent expansion panels is a reworking of the butt edges not necessary anymore. In particular by the invention Connection arrangement results in an aligned surface from the Removal panels made partition or path. In the field of The connection is precise due to the machining of the cover layers defined thickness of the front (visible) cover layer and the expansion panel guaranteed overall in the connection area.

The connecting profile and the associated expansion panel are preferred non-positively connected. The partition or path can be so can be easily put together. The positive connection can be done by gently bending the on the inner surface of the expansion panel adjacent leg and / or by an interference fit of the groove in the Insulating layer can be reached with the leg engaging in it. Preferably Both measures are planned next to each other.

According to a development of the invention, the leg engaging in the groove is on its free end bent by about 180 °. A particularly good facility this Leg to the outer (visible) top layer results when this leg is bent inwards towards the insulating layer. A clamping effect in the groove leaves Realize by slightly spreading the leg so that it is elastic is resiliently bent when it engages in the groove.

The connection profiles are according to a constructive embodiment of the invention equally trained. In this way, only one type of connection profile is required to be kept available for the respective application in the be connected in a suitable manner.

Fig. 1

Verbindungsanordnung mit einer 90°-Ecke mit den Erfindungsmerkmalen,

Fig. 2

ein Verbindungsprofil mit den Erfindungsmerkmalen für die 90°-Verbindung gemäß Fig. 1,

Fig. 3

eine Verbindungsanordnung mit den Erfindungsmerkmalen für eine ebene Wand,

Fig. 4

ein Verbindungselement mit den Erfindungsmerkmalen für eine Verbindungsanordnung gemäß Fig. 3.

The invention is explained in more detail below with reference to exemplary embodiments shown in the drawing. Show it:

Fig. 1

Connection arrangement with a 90 ° corner with the inventive features,

Fig. 2

2 shows a connection profile with the features of the invention for the 90 ° connection according to FIG. 1,

Fig. 3

a connection arrangement with the features of the invention for a flat wall,

Fig. 4

a connecting element with the features of the invention for a connecting arrangement according to FIG. 3.

Fig. 1 shows a connection arrangement for two expansion panels 10 together, at of the two expansion panels 10 connected together to form a 90 ° corner become. Fig. 3 shows an analog connection arrangement for the Connection plates 10, in which the two to be connected to each other Expansion panels 10 are aligned. The expansion panels 10 themselves have one outer cover layer 11 and an inner cover layer 12. The outer Cover layer 11 faces a room or aisle and thus for one Viewers visible, while the inner cover layer 12 is not visible. Between the cover layers 11, 12 there is an insulating layer 13 made of, for example Mineral wool.

The corner connection shown in FIG. 1 is replaced by the one in FIG. 2 drawn connecting element 14 realized. The connecting element 14 is made of two twisted, but identically formed Connection profiles 15 formed. Each connection profile is approximately U-shaped educated. It has an outer, on the inside of the outer, visible Cover layer 11 adjacent leg 16 and an inner, on the back of the inner cover layer 12 adjacent leg 17. The two legs 16, 17 are connected to one another by a base web 18. The inner leg 17 also has at its free end the insertion of the expansion plates 10 relief edging 19 on. The upstand 19 is easier Insert the expansion plate 10 away from the inner cover layer 12. The outer leg 16 is about 180 ° to form a back bend 20th bent over. Specifically, the back bend 20 is inward in the present case Insulating layer 13 bent over. The back edge 20 is not, as shown, on the leg 16, but is spaced from this. The bending radius for the Back bend is approximately one to three times the sheet thickness. One is concrete Bending radius of 2mm provided.

Two connecting profiles 15 are used to produce the connecting element 14 connected with each other. Specifically, the base web of one connecting profile 15 with the inner leg 17 of the other connecting profile 15, for example connected by screwing, riveting, soldering, welding or gluing. It should care should be taken to ensure that the outer web 16 of the first connecting profile 15 and the base web 18 of the other connecting profile 15 are aligned with one another.

The expansion panels 10, after being prepared as follows, in each a connecting profile 15 of the connecting element 14 is inserted.

In the abutting edges of the expansion panels 10 there is a groove 21 on the back the outer, visible cover layer 11 milled into the insulating layer 13. This happens so that even slightly from the back of the cover layer 11 is removed so that the thickness of the cover layer 11 in the region of the groove 21 a predetermined value is precisely defined. The back of the inner Cover layer 12 is used to form a contact surface 22 for inner leg 17 milled off. This results in a precisely defined thickness of the expansion plate 10 in Connection area, namely measured from the visible surface of the outer Cover layer 11 to the contact surface 22 set. Of course it can Milling the groove 21 and the contact surface 22 by a form cutter in one Operation can be made, where appropriate, the butt edge of the Expansion plate 10 is straightened. The outer, visible cover layers 11 are milled to miter, the cover layer 11 of the lower in FIG. 1, horizontally shown expansion plate 10 is formed with a protrusion 23, the base web 18 of the connecting profile 15 for the other expansion panel 10 overhanging. Prepared in this way, the expansion panels 10 can be assigned to them Connection profile 15 are inserted, the outer leg 16 in the Groove 21 engages and the inner leg 17 for contact with the contact surface 22nd is coming.

The expansion panels 10 are non-positively through the connecting profiles 15 held. For this purpose, on the one hand, the outer leg 16 with its rear edge 20 press fit to groove 21. The back bend 20 is when inserted into the groove 21 slightly elastic bent towards the outer leg 16 and thus ensures that Press fit. Furthermore, the inner leg 17 is slightly inward to the outer Leg 16 bent out so that the also when inserting the Expansion plate 10 is pressed elastically outwards and so for clamping worries.

To create a level, aligned connection between two expansion panels the connection profiles 15 need each other only at their base webs 18 to be connected. Such a connection arrangement is shown in FIG. 3 shown. The associated connecting element 14 ', which is an additional Modification to the connecting element 14 according to FIG. 2 is in FIG. 4 drawn out. The connecting profiles 15 'to form the connecting element 14 'can be identical to the connecting profiles 15 according to FIGS. 1, 2. Connection profiles 15 'are, however, in the present case to represent a Modification trained differently. The back bend 20 'on the outer leg 16 is namely in the present case directed outwards, away from the insulating layer 13. Otherwise, the connecting profiles 15 and 15 'are identical, so that Identical parts are identified with the same reference numbers. The expansion panels 10 are prepared analogously to the case shown in Fig. 1 and are analogously in the Connecting element 14 'or in their respective associated connecting profile 15' plugged in.

With the connection profiles 15, 15 'shown can be easily Connecting elements 14, 14 'for 90 ° corners and flat, flush Form connection arrangements. By using intermediate wedges for Connecting two connecting profiles 15 and 15 'to each other can also corner angles other than 90 ° are generated.

An "outside corner" is also shown in FIG. 1. "Inner corners" are common not created using fasteners since here Dimensional inaccuracies on the ship are compensated. But it is also conceivable with the inventive profiles 15 and 15 'connecting elements for Compile "inner corners", then the base web 18 of one Connection profile 15, 15 'with a separate, additional connection tab the inner leg 17 of the other connecting profile 15, 15 'is connected. You can think of this as one of the two 1, 2 can be folded down by 180 ° and these two connecting profiles 15 then through the connecting tab together get connected.

With only a single connection profile 15, 15 'can thus Connection arrangements at any angle for two expansion panels 10 shape.

Reference symbol list:

10th

Removal plate

11

Top layer

12th

Top layer

13

Insulating layer

14

Fastener

15

Connection profile

16

leg

17th

leg

18th

Base bridge

19th

Backsplash

20th

Back edging

21

Groove

22

Contact surface

23

Got over

Claims (9)

Connecting element for connecting expansion panels (10) to an insulating layer (13) for interior construction, in particular on board ships, which is arranged between two cover layers (11, 12) of the expansion panel (10), characterized by interconnected connecting profiles (15, 15 '), which are roughly U-shaped and each of which a connection profile (15, 15 ') is assigned to one of the expansion panels (10) to be connected to one another, one leg (17) of the connection profile (15, 15') on an inner surface ( 22) of the associated expansion panel (10) and the other leg (16, 16 ') engages in a groove (10) in the associated expansion panel (10). Connecting element according to claim 1, characterized in that the Connection profile (15, 15 ') non-positively with the associated expansion plate (10) connected is. Connecting element according to claim 2, characterized in that the the inner surface (22) of the expansion plate (10) adjoining legs (17) in unmounted condition is slightly bent inwards so that the expansion plate (10) from Connection profile (15, 15 ') is clamped. Connecting element according to one of claims 1 to 3, characterized characterized in that the leg (16, 16 ') engaging in the groove (21) and the groove (21) are press-fitted to one another. Connecting element according to one of claims 1 to 4, characterized characterized in that the leg (16, 16 ') engaging in the groove (21) on its free end is bent by approximately 180 °. Connecting element according to claim 5, characterized in that the in the legs (16, 16 ') engaging the groove (21) inwards towards the insulating layer (13) is bent. Connecting element according to claim 5 or 6, characterized in that the bent leg (16, 16 ') clamps in the groove (21). Connecting element according to one of claims 1 to 7, characterized characterized in that the connecting profiles (15, 15 ') are identical. Connection arrangement for expansion panels (10) with one between two Cover layers (11, 12) of the expansion plate (10) arranged insulating layer (13) for the interior, especially on board ships, by a Connecting element (14, 14 ') according to one of claims 1 to 8, characterized characterized in that a groove (21) is milled into the insulating layer (13), such that that the groove (13) on the one hand through a cover layer (11) and on the other hand through the insulating layer (13) is limited, and the other cover layer (12) in the area of Installation of the other leg (17) to form a contact surface (22) easily is milled off.

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