Title of Invention

BUILDING COMPONENT FOR CONSTRUCTING FLOOR OR WALL COVERINGS

Abstract The invention relates to a building component for forming floor and/or wall coverings, for example tile or parquet floorings. According to said invention, the inventive building component comprises a support layer (1) and a layer (2) which is connected thereto and consists of at least one coating element (3) forming a floor or wall surface. Said building component also comprises a device (7, 8) for connecting similar building components applied to a floor or a wall. Said support layer (1) is preferably connected to the coating element (3) by means of an intermediate layer (4) which is foamed or sprayed on the support layer (1) and on the building component.
Full Text WO 2005/040521 PCT/EP2004/011843
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Description:
"Building component for constructing floor or wall coverings"
The invention relates to a building component for constructing floor or wall coverings, for example for constructing tiled or parquet floors.
From DE 40 26 472 C2, it is known to construct tiled floors by applying a support layer to a sub-floor and connecting the support layer to tiles. Here, the support layer has protruding plug-in connecting elements, which engage in corresponding plug-in depressions formed on the bottom side of the tiles.
The object of the present invention is to further simplify the construction of wall or floor coverings compared to this prior art.
This object is achieved by a prefabricated building component which has a support layer and a layer of at least one covering element, which layer is connected to the support layer and forms a floor or wall surface, and devices for connection to further such building components laid on a floor or a wall.
As a result of such, preferably interlockable building components, a tiled or parquet floor, for example, can be constructed at low cost in a short time. Just as easily, the floor can also be removed again and reused elsewhere. Exhibition areas at trade fairs or in sales rooms are therefore particularly suitable candidates for use. However, possible applications also exist in the domestic and work spheres, the building component lending itself particularly well to renovations.
The bottom side of the support layer can have a

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profiling and/or a material with high static friction coefficients, which prevents sliding on the sub-floor, so that the floor covering can even be driven over and is suitable for use, for example, in vehicle showrooms.
That side of the support layer which faces the sub-floor can also be formed by a soft, deformable course which allows adjustment to uneven sub-floors. The requirements concerning the quality of the sub-floor can consequently be low and a screed course, where appropriate, may be superfluous.
Firm, stable support layers can be made at low cost from recycled material, especially plastics recycled material. In addition, however, other materials such as chipboards, plasterboard or foam boards may also be used for this.
As material for the covering element, ceramic, stoneware, natural stone, glass, plastic, metal and/or wood may be considered. In particular, the covering element can be formed by a parquet wood piece or parquet laminate element.
While a direct connection between the support layer and the layer comprising covering elements is possible, in a preferred embodiment of the invention a connection via an intermediate course exists. The intermediate course can be foamed or sprayed onto the support layer and the at least one covering element. The latter embodiment can be cheaply made using a mold in whose cavity covering elements and the support layer are distanced apart and the material to be foamed on is introduced or plastic is injected.
Preferably, the intermediate course is foamed on or sprayed on in tandem with the filling of joints between the covering elements. In addition, a spraying-on or

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foaming-on can be realized in tandem with the
simultaneous formation of an edging running around the
building component, the edging, for example, being half
as big as the joint width.
Preferably, the intermediate course consists of an elastic and/or water-repellant material. Joint fillings formed from this material advantageously seal the marginal surfaces of the covering elements. For example, wooden covering elements, the exposed surface of which is adequately sealed, are protected from water absorption and swelling.
Advantageously, in the previously described illustrative embodiment, a high-grade material is necessary only for the intermediate course, while the support layer can consist, for example, of cheap recycled material.
The devices for connecting the building components, preferably plug-in connecting devices, can also be jointly produced in the course of the spraying-on or foaming-on of the intermediate course and, accordingly, can be integrally molded onto the intermediate course. Alternatively, there is the possibility of introducing into the mold cavity parts which form separate connecting devices and, upon the formation of the intermediate course, of foaming on or spraying on these parts at the same time.
While, plug-in pins and plug-in holes may be envisaged in terms of plug-in connecting devices, in the preferred embodiment of the invention tongue-and-groove plug-in connections are provided, tongues and grooves being able to be arranged on the building component such that the building components can be put together parallel or perpendicular to the plane of the support layer. The tongues and grooves can respectively extend

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over the entire length or only a part of a marginal side of the building component.
Preferably, a latch-locking plug-in connection is provided, in which case, for example, a latching web engages in a corresponding latch recess in the plug-in groove. The latching web can extend over the entire or only a part of the length of the tongue.
Preferably, the building component has on mutually perpendicular side margins a groove and on the side margins opposite these first-named side margins a tongue. In such a tongue-and-groove arrangement, floors or wall coverings can be constructed from identically shaped building components.
The groove can be formed, between the support layer and the layer comprising the covering elements, from at least one covering element.
Preferably, the side margins of the support layer and of the layer are mutually offset in the direction of the board plane, so that, at a connecting point, the layer margin of one component rests on the support layer margin of the adjacent building component, or vice versa. In this embodiment, advantageously, not just one connecting tongue transfers floor-impacting loads at the connecting points.
As the device for connecting the building components, an element comprising the tongue or the groove can be integrally connected to the intermediate course.
In a further embodiment of the invention, it is possible to embed in the building component, especially in the support layer, pipes for a heating or cooling system, heating conductors and/or sensors, in which case, for example, sensors can be used to detect

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whether a floor surface is being trodden or not, or to trigger switching operations, for example for switching on a light or an alarm system. For the embedding of such components, the intermediate course may also be considered.
In a further embodiment of the invention, the building component can be part of a building system which also comprises, for example, flexible, especially angularly bendable building components of this kind, in which case such a building component, connected, for example, to an elastic hinged piece, may be considered for laying at the transition between a floor and a wall or over a floor edge, for example at the beginning or end of a ramp.
The building system can comprise elastic hinged connecting elements, which allow building components to be elastically joined together. The system can also contain marginal cover elements, configured, for example, in the form of a ramp, so that, for example, a transition from a floor surface formed by the building components to a lower floor surface can be created. The marginal cover elements can be provided with lighting installations.
The material which fills between the covering elements can be stained, for example to match the covering elements. It could also after-glow or be provided with a surface profiling.
The invention shall now be explained in greater detail with reference to illustrative embodiments and to the appended drawings relating to these illustrative embodiments, wherein:
fig. 1 shows a tiles-comprising building
component according to the invention,

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in a plan view,
fig. 2 shows the building component according to fig. 1 in a side view,

fig. 3 shows a connecting point between building components according to fig. 1,

figs. 4 to 7 show connecting devices of building components according to further illustrative embodiments according to the invention,



fig. 8 shows an illustrative embodiment of a building component according to the invention having a separate marginal strip on which a connecting tongue is formed,




fig. 9 shows further connecting devices of building components according to further illustrative embodiments according to the invention,



fig. 10 shows a building component according to the invention, having an embedded sensor,


fig. 11 shows a building component according to the invention, in which heating or cooling pipes are embedded,


fig. 12 shows a building component according to the invention, having a soft, deformable course on the bottom side,


fig. 13 shows building components according to the invention, having different surface profiles on the bottom side,


fig. 14 shows connecting devices of building components according to further illustrative embodiments according to the invention,



fig. 15 shows an illustrative embodiment of the fastening of building components according to the invention to a sub-



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floor or a wall,
figs. 16 and 17 show further illustrative embodiments of the fastening of building components according to the invention to a sub-floor,



fig. 18 shows a connecting point between a floor and a wall covering,

fig. 19 shows further illustrative embodiments of connecting points between a floor and a wall covering or two wall coverings meeting in a corner,



fig. 20 shows an illustrative embodiment of the connection of a floor covering to a wall covering and of a fastening of the wall covering,



fig. 21 shows illustrative embodiments of facing strips covering the margin of a wall covering,


figs. 22 and 23 show building components according to the invention, having an elastic hinged piece,


fig. 24 shows elastic hinged connecting elements which are insertable between building components according to the invention,



fig. 25 shows further illustrative embodiments of hinged connecting elements which are insertable between building components according to the invention,



fig. 26 shows an illustrative embodiment of a connecting point between wall coverings on a projecting room corner,


fig. 27 shows further illustrative embodiments of connecting points between a floor and a wall covering, and


fig. 28 shows a further illustrative embodiment of a building component according to the invention having a three-



- 8 -dimensional surface.
A building component shown in fig. 1, for the construction of floor or wall coverings, has a board-shaped support layer 1 and a layer 2 which is connected to the support layer and which, in this particular illustrative embodiment, is formed by nine tiles 3. In place of tiles, covering elements made of any materials suitable for wall or floor coverings may be considered.
The support layer 1 is connected to the layer 2 by an intermediate course 4 of PU foam. The intermediate course 4 has been foamed onto the support layer and the tiles in a mold cavity which receives the tiles 3 and the support layer 1. In the course of the foaming-on, joints between the tiles were filled by foamed webs 5 and an edging 6, running around the layer 2, was formed, the width of the edging being half as large as the width of the webs 5.
As is also revealed by figs. 1 to 3, on mutually perpendicular margins of the building component, tongues 7 are formed by marginal shoulders of the support layer 1. As a result of inverted marginal shoulders on these particular opposite margins of the support layer 1, grooves 8 are produced between the support layer and the layer 2. In place of continuous tongues, lugs or cotter pins, extending only over a part of the length of the board side margin, and respectively corresponding plug sockets, could be provided.
As is visible in fig. 3, a latching channel 9 extends along the tongues 7. Correspondingly, a latching web 10 is formed within the groove 8.
From board-like building components according to figs. 1 to 3, tiled floors, for example, can be formed,

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wherein the building components laid on the floor are put together in a direction parallel to the board plane, the tongues 7 engaging in the grooves 8 of adjacent elements. As a result of the engagement of the latching webs 10 in the latching channels 9, a stable connection is achieved and mutual displacements of the building components on the floor are prevented.
The support layer 1 made inexpensively from a plastics recycled material is stable and lends high strength to the building component. The elastic and water-repellant PU foam reliably seals the joints between the tiles 3.
In the following figures, identical or identically acting parts are denoted by the same reference numeral as in the preceding figures, the letter a, b, etc. being attached to the reference numeral concerned.
The illustrative embodiments of fig. 4a and 4b differ from the preceding illustrative embodiment by the fact that the margins of a support layer la or la',' and of a tiles layer 2a and 2a' disposed thereon, are arranged mutually offset in the direction of the board plane, with the formation of a bracket. A high shearing load upon the tongue 7a or 7a' is prevented.
While, in the preceding illustrative embodiments, the tongues are formed by marginal recesses on the support layer, in the illustrative embodiments of figs. 5a and b a tongue 7b or 7b' is configured on an element 61 or 61', which is produced in a single work operation in one piece with an intermediate course 4b and 4b' . An edging 6b or 6b', from which the tongue protrudes, extends over the entire height of the building component. An element 11, which is molded jointly with the foaming or spraying of the intermediate course 4b', forms a groove 8b'.

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In the illustrative embodiment of fig. 5c, an element 12 is formed which is similar to the element 11 and is matched to a marginal shoulder of the support layer. This embodiment, which is flexible and can be very accurately made in terms of its dimensions, allows a particularly simple and straight forward latch-locking and an effective seal.
Fig. 6 shows various cross-sectional shapes of tongues 7c and grooves 8c and of latching webs 10c and latching channels 9c, the illustrative embodiments of figs. 6d and e allowing a hook fastening which is particularly difficult to release.
Fig. 7 shows embodiments having connecting elements of simplified design. The margins of a support layer 1d and of a tiles layer 2d disposed thereon, are arranged mutually offset in the direction of the board plane, so that, in the region of the connection, support layer and tiles layer merely overlap one another.
A latching web 13 or 13' formed on an intermediate course 4d engages in a latching groove 14 or 14' on the support layer 1d. In the illustrative embodiment of fig. 7b, on an edging 6d, a latching web 15 and a latching channel 16 are additionally formed on opposite sides of the tiles layer 2d.
The illustrative embodiment of fig. 7c has at these particular locations, in transposed arrangement, a latching channel 17 and a latching web 18. A latching web 13", which is disposed directly on the margin of the tiles layer 2d, engages in an appropriately arranged latching channel 14", in the latching channel 14" a further latching channel 2 0 being formed for the engagement of a latching web 19 provided on the latching web 13".

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As is evident from fig. 8, a tongue 7e can be formed by a separate rail 21, which is produced by the plastic continuous strand casting or drawing process or is made from metal and is connected to a building component by a foot part 22. When an intermediate course 4e is produced in a mold by spraying on or foaming on, the foot part can be connected to the building component, as is indicated at 23. Holes formed in the rail 21 receive sprayed-on or foamed material and thus contribute to the strength of the connection to the building component.
Fig. 9 shows building components having tongues 7f and grooves 8f, which are provided on both sides with a latching web or latching channel respectively.
In the illustrative embodiment of fig. 9b, an element 24, which has a latching groove 8f, is integrally connected to an intermediate course 4f.
As fig. 9c shows, a similar element 25 can also be produced as a separate part, for example from plastic or metal, and can be connected to the other building component, for example by gluing, spraying-on or foaming-on.
Fig. 10 shows a building component in which a pressure sensor 26 is embedded between a support layer 1g and an intermediate course 4g. Connection leads (not visible in fig. 10) , which have been run to the sensor 26, can be foamed into the intermediate course 4g.
Fig. 11 shows an illustrative embodiment of a building component having a support layer 1h, in which pipes 27 are embedded through which a heating or cooling medium can flow. When the building components are mechanically connected, a pipe connection is established via connectors 28. Pipes could also be embedded in a

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thickened intermediate course or a further layer disposed beneath the support board, the further layer being able to be formed in a single work operation with an intermediate course, in particular by foaming or spraying onto the support board.
From fig. 12, a building component can be seen, having a support layer 1i, on the bottom side of which a soft, deformable course 29 is formed. Advantageously, such building components can adjust to an uneven, screed-free sub-floor. The course can also be formed from a material or can have a surface which offers high static friction, which static friction prevents displacements of the building component on the floor.
Fig. 13 shows building components having different floor profilings 30 to 32 on a support layer 1j . The floor profiling can also have deep channels suitable for the laying of leads.
While the preceding illustrative embodiments of building components display latching grooves and latching webs which engage in one another when the building components are displaced parallel to the board plane, from fig. 14 two building components can be seen in which a tongue-and-groove connection can be made by movement of the building components perpendicular to the board plane.
Fig. 14 shows elements 33 and 34 or 33' and 34' integrally connected to an intermediate course 4k or 4k' , a tongue 7k or 7k' being formed on the element 33 or 33' and a groove 8k or 8k' being formed on the element 34 or 34'.
One option for fastening building components according to the invention to a sub-floor 3 5 can be seen from fig. 15. The building component which is shown there

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corresponds to the building component of fig. 4a, with the difference that a tongue 71 is formed by an element 3 6 which is integrally connected to an intermediate course 41 and fills a marginal step on a support layer 11. In the region of the marginal step, a fastening to the sub-floor 35 is formed by a screw 37. An opening for the screw 37 is expediently prefabricated in the element 36.
Figs. 16 and 17 show fastening elements 3 8 and 38' for the horizontal securement of building components to a sub-floor 35m by a screw 37m. Extensions 40 of an edging 6m engage in a groove 3 9 of the element 38. For the rapid exchange of building components, the connection can be easily released by lifting of the building components. An over-easy release of the connection is prevented by a tongue and groove in the edging 6m.
From fig. 18, a connecting element 41 can be seen which is to be arranged in a corner between a floor and a wall and comprises a groove 42 and a tongue 43. A tongue 7n of a building component laid against the wall can be introduced into the groove 42, while the tongue 43 of the connecting element 41 engages in a groove 8n of a building component laid against the floor.
As can be seen from fig. 19a, a connecting element 44 similar to the connecting element 41 can also be foamed or sprayed directly onto a separate building component designed for corner-laying and, in particular, can be integrally connected to an intermediate course 4o, i.e. in a single work operation with the latter.
A connecting element 44' can extend, according to fig. 19b, only over the depth of a tiles layer 2o.
According to fig. 19c, a groove formed by a connecting

- 14 -element 44" is extended into a base plate 1o.
Fig. 19d shows a connecting piece 45, which is sprayed or foamed onto a separate building component 4 6 designed as an end piece and is provided with a tongue.
The building component 4 6 and also the separate
building components according to figs. 19a to c are
respectively connectable to a standard building
component.
From fig. 20 can be seen a wall fastening of a further special building component 47, designed as an end piece, this connection corresponding to that connection of a building component to a floor which is shown in fig. 5.
Fig. 21 shows illustrative embodiments of marginal facings 4 9 and 50, which can be mounted by means of a tongue onto the free margin of a building component 4 6q or 4 6q' . The marginal facing 5 0 leaves room for a plaster or facing course 51 adjoining the building component 4 6q'.
Fig. 22 shows a building component 48, which is designed for arrangement in a wall corner and has an elastic hinged piece 52 which allows angular deviations up to 90° and above. In this particular illustrative embodiment, the hinged piece 52 is inserted in a tiles layer 2s, for example by spraying-on or foaming-on, while a support layer 1s connected to the tiles layer is interrupted at 53.
Fig. 23 shows a building component 48t suitable for laying on uneven floors, having an elastic hinged piece 52t, which can be laid over floor edges, for example at the beginning and end of a ramp. It is conceivable to provide a plurality of such hinged pieces and

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corresponding cutouts 53t in the support layer. Cutouts 531 can be milled at the factory or also, if need be,on site.
As can be seen from fig. 24, for laying over such floor edges use can also be made of hinged connecting pieces 54 and 55, whereof the connecting piece 55, which has both a tongue and a groove, can be used at a possible connecting point between the components.
While the hinged connecting pieces 54 and 55 are made from elastic material in one piece with a hinged piece 52u, metal hinged connecting pieces 54v and 55v, represented in fig. 25, exist and have merely an elastic hinged piece 52v, which is stuck, foamed or sprayed onto the metal parts. The hinged connecting element 55v is provided with a plastics part 56 for the formation of a tongue.
Fig. 26 shows a connecting element 57, which can be designed for arrangement against a projecting room corner and has two plug-in grooves 58, standing at an angle of 90° one to another, and a corner protection element 62. In the illustrative embodiment under review, the corner protection element 62 consists of special steel and is fastened by foaming or spraying to the other connecting element 57.
From fig. 27, further illustrative embodiments of corner connections can be seen, in which a building component 5 9 has, both on a support layer and on a tiles layer connected to the support layer, respectively a tongue, and a building component 60 has, on its base plate and on its tiles layer, a plug-in groove.
Unlike the previously described illustrative embodiments, the building component could also be

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curved in its entirety and could be used, for example, to cover round pillars.
Alternatively, however, it would also be possible for only the surface to be curved. Such a building component having a three-dimensional surface can be seen from fig. 28. A support layer 1y has a three-dimensionally shaped surface. By an intermediate course 4y, a surface layer 2y of narrow covering elements 3y is connected to the support layer 1y and is adjusted in shape to the surface thereof. The narrow covering elements 3y can be mutually connected in a first production step by a film or a mesh. Such an arrangement can be accommodated in a cavity of a mold. The intermediate course is then foamed onto said film or mesh, with the connection of the support layer 1y and the surface layer 2y.

WO 2005/040521 PCT/EP2004/011843
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Patent claims:
1. A building component for constructing floor or
wall coverings, characterized by a support layer
(1) and a layer (2) of at least one covering element (3), which layer is connected to the support layer and forms a floor or wall surface, and devices (7, 8) for connection to further such building components laid on a floor or a wall.
2. The building component as claimed in claim 1,
characterized in that the support layer (1) is
connected to the at least one covering element (3)
by an intermediate course (4).
3. The building component as claimed in claim 2,
characterized in that the intermediate course (4)
is foamed or sprayed onto the support layer (1)
and the at least one covering element (3).
4. The building component as claimed in claim 2 or 3,
characterized in that the intermediate course (4)
is foamed on or sprayed on in tandem with the
filling of joints between a plurality of covering
elements (3).
5. The building component as claimed in one of claims
2 to 4, characterized in that the intermediate
course (4) is foamed on or sprayed on in tandem
with the formation of an edging (6) running around
the building component.
6. The building component as claimed in one of claims
1 to 5, characterized in that the width of an
edging (6) running around the building component
is half as big as the width of joints between a
plurality of covering elements (3).

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7. The building component as claimed in one of claims
2 to 6, characterized in that the intermediate
course (4) is made from an elastic and/or water-
repellant material.
8. The building component as claimed in one of claims
1 to 7, characterized in that the support layer
(1) is made from a recycled material, especially
plastics recycled material.
9. The building component as claimed in one of claims
1 to 8, characterized in that the covering element
is made from ceramic, stoneware, natural stone,
glass, plastic, metal and/or wood.
10. The building component as claimed in one of claims
1 to 9, characterized in that elements (for
example 11, 12, 61) for forming the devices for
joining together the building components are
integrally molded onto the intermediate course
and/or the intermediate course (4) is foamed or
sprayed onto separate such elements.
11. The building component as claimed in one of claims
1 to 10, characterized in that the building
component has plug-in connecting devices,
especially for tongue and groove connections.
12. The building component as claimed in claim 11,
characterized in that on two mutually
perpendicular sides there is formed a groove (8)
and on the sides situated opposite these sides
there is formed a tongue (7).
13. The building component as claimed in one of claims
10 to 12, characterized in that latch-locking
plug-in connecting devices are provided.

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14. The building component as claimed in one of claims
11 to 13, characterized in that the groove (8) is
formed between the support layer (1) and the layer
(2) comprising the covering element (3).
15. The building component as claimed in one of claims
10 to 14, characterized in that the margins of the
support layer (1q) and of the layer (2g)
comprising the covering element are arranged,
mutually offset, parallel to the plane of the
support layer.
16. The building component as claimed in one of claims
10 to 14, characterized in that an element (for
example 11, 12, 61) exhibiting the tongue or the
groove is integrally connected to the intermediate
course (4) .
17. The building component as claimed in one of claims
1 to 16, characterized in that the support layer
(1) , on its side facing away from the layer (2) ,
has a surface profiling (30-32) and/or a soft,
deformable course (29).
18. The building component as claimed in one of claims
1 to 17, characterized in that embedded in the
building component, especially in the support
layer, are pipes (27) for a heating and/or cooling
system, heating conductors and/or sensors (26).
19. The building component as claimed in one of claims
1 to 18, characterized in that the building
component is part of a flexible building system
comprising such building components (48).
20. The building component as claimed in claim 19,
characterized in that the flexible building

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component (48) comprises an elastic hinged piece (52) .
21. The building component as claimed in claim 19 or
20, characterized in that the building system
comprises elastic hinged connecting elements (54,
55) for the connection of building components and
of margin facing elements (49, 50).
22. The building component as claimed in one of claims
1 to 22, characterized in that the building
component is curved in its entirety and/or has a
curved surface.


Documents:

01392-kolnp-2006 claims.pdf

01392-kolnp-2006 correspondence others.pdf

01392-kolnp-2006 description(complete).pdf

01392-kolnp-2006 drawings.pdf

01392-kolnp-2006 form-1.pdf

01392-kolnp-2006 form-2.pdf

01392-kolnp-2006 form-3.pdf

01392-kolnp-2006 form-5.pdf

01392-kolnp-2006 international publication.pdf

01392-kolnp-2006-assignment-1.1.pdf

01392-kolnp-2006-correspondence others-1.1.pdf

01392-kolnp-2006-correspondence-1.2.pdf

01392-kolnp-2006-form-18.pdf

01392-kolnp-2006-pct form.pdf

01392-kolnp-2006-priority document.pdf

1392-KOLNP-2006-ABSTRACT 1.1.pdf

1392-KOLNP-2006-ABSTRACT 1.2.pdf

1392-KOLNP-2006-AMANDED CLAIMS 1.1.pdf

1392-KOLNP-2006-AMANDED CLAIMS.pdf

1392-KOLNP-2006-CORRESPONDENCE 1.1.pdf

1392-kolnp-2006-correspondence.pdf

1392-KOLNP-2006-DESCRIPTION (COMPLETE) 1.1.pdf

1392-KOLNP-2006-DESCRIPTION (COMPLETE) 1.2.pdf

1392-KOLNP-2006-DRAWINGS 1.1.pdf

1392-KOLNP-2006-DRAWINGS 1.2.pdf

1392-KOLNP-2006-EXAMINATION REPORT REPLY RECIEVED.pdf

1392-kolnp-2006-examination report.pdf

1392-KOLNP-2006-FORM 1 1.1.pdf

1392-KOLNP-2006-FORM 1-1.2.pdf

1392-kolnp-2006-form 18.pdf

1392-KOLNP-2006-FORM 2 1.1.pdf

1392-KOLNP-2006-FORM 2-1.2.pdf

1392-KOLNP-2006-FORM 3 1.1.pdf

1392-KOLNP-2006-FORM 3-1.2.pdf

1392-kolnp-2006-form 3.pdf

1392-kolnp-2006-form 5.pdf

1392-KOLNP-2006-FORM-27.pdf

1392-kolnp-2006-granted-abstract.pdf

1392-kolnp-2006-granted-claims.pdf

1392-kolnp-2006-granted-description (complete).pdf

1392-kolnp-2006-granted-drawings.pdf

1392-kolnp-2006-granted-form 1.pdf

1392-kolnp-2006-granted-form 2.pdf

1392-KOLNP-2006-GRANTED-LETTER PATENT.pdf

1392-kolnp-2006-granted-specification.pdf

1392-KOLNP-2006-OTHERS 1.1.pdf

1392-KOLNP-2006-OTHERS.pdf

1392-kolnp-2006-others1.2.pdf

1392-kolnp-2006-pa.pdf

1392-KOLNP-2006-PETITION UNDER RULE 137-1.1.pdf

1392-KOLNP-2006-PETITION UNDER RULE 137.pdf

1392-kolnp-2006-reply to examination report.pdf

1392-kolnp-2006-translated copy of priority document.pdf

abstract-01392-kolnp-2006.jpg


Patent Number 248232
Indian Patent Application Number 1392/KOLNP/2006
PG Journal Number 26/2011
Publication Date 01-Jul-2011
Grant Date 28-Jun-2011
Date of Filing 24-May-2006
Name of Patentee PETEC SOCIETE ANONYME
Applicant Address 16, VAL STE. CROIX, L-1370
Inventors:
# Inventor's Name Inventor's Address
1 PERMESANG, CLAUS HAWSTRASSE 2A, 54290 TRIER
PCT International Classification Number E04F15/02,13/08
PCT International Application Number PCT/EP2004/011843
PCT International Filing date 2004-10-20
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 10349790.0 2003-10-24 Germany