Floor board

Abstract

A floor board comprising a substrate having side edges and a decorative surface layer applied to said substrate, said substrate comprising MDF or HDF material at at least one of said side edges, wherein said at least one side edge is treated with an impregnation agent; said at least one side edge together with a side edge opposite thereto forming a first pair of opposite side edges of said substrate; wherein said floor board further comprises a second pair of opposite side edges; wherein at least second pair of opposite side edges comprises mechanical coupling parts allowing to couple said floor board at the respective side edges with a similar floor board by means of a downward motion such that, in a coupled condition, said floor board and said similar floor board become locked both in a direction perpendicular to the plane formed by the coupled floor boards, as well as in a direction perpendicular to the coupled side edges and in the plane of the coupled floor boards.

Claims

1. A floor board comprising a substrate having side edges and a decorative surface layer applied to said substrate, said substrate comprising MDF or HDF material at at least one of said side edges, wherein said at least one side edge is treated with an impregnation agent; said at least one side edge together with a side edge opposite thereto forming a first pair of opposite side edges of said substrate; wherein said floor board further comprises a second pair of opposite side edges; wherein at least second pair of opposite side edges comprises mechanical coupling parts allowing to couple said floor board at the respective side edges with a similar floor board by means of a downward motion such that, in a coupled condition, said floor board and said similar floor board become locked both in a direction perpendicular to a plane formed by the coupled floor boards, as well as in a direction perpendicular to the coupled side edges and in the plane of the coupled floor boards; and wherein said MDF or HDF material has an average density of more than 750 kg per cubic meter and comprises a higher density region at least near said decorative surface layer, wherein said higher density region has a density of 900 kilograms per cubic meter or more.

2. The floor board of claim 1, wherein said mechanical coupling parts are basically shaped as a male part and a female part, wherein the male part is formed with a downwardly extending hook shaped part and the female part comprises a lower flank with an excavation provided therein; wherein said male part is designed to be seated in said excavation.

3. The floor board of claim 2, wherein said female part further comprises an upwardly protruding hook shaped part bordering said excavation, and wherein said upwardly protruding hook shaped part cooperates with the downwardly extending hook shaped part of the male part.

4. The floor board of claim 2, wherein the male part further comprises a sidewardly protruding hook and wherein said female part further comprises an undercut, said undercut preferably being formed by means of a separate insert, which insert resiliently moves inwardly and subsequently outwardly to catch the sidewardly protruding hook in the undercut during the downward motion.

5. The floor board of claim 2, wherein said male part and said female part comprise locking surfaces provided in the substrate, wherein in coupled condition of two of the floor board at their second pair of opposite side edges, the locking in the direction perpendicular to the plane of the coupled floor boards is provided by interaction of the locking surfaces of the male part and the female part.

6. The floor board of claim 1, wherein said first pair of opposite side edges as well comprises mechanical coupling parts; said mechanical coupling parts at said first pair of opposite side edges allowing to couple said floor board at the respective side edges with a similar floor board by means of a rotational movement or a horizontal shifting movement of the floor board in respect to the similar floor board; wherein said mechanical coupling parts are basically shaped as a tongue and a groove, wherein said groove is delimited by an upper groove lip and a lower groove lip, and wherein said tongue and groove are provided with additional locking elements for creating a locking in the direction perpendicular to said first pair of opposite side edges and in said plane.

7. The floor board of claim 6, wherein said additional locking elements comprise an excavation at the lower side of the tongue and a cooperating therewith protrusion at an upper surface of the lower groove lip.

8. The floor board of claim 6, wherein said floor board is rectangular and oblong and comprises a pair of long side edges and a pair of short side edges, wherein said first pair of opposite side edges form said long side edges and said second pair of opposite side edges form said short side edges.

9. The floor board of claim 1, wherein both side edges of said first pair of opposite side edges are treated with said impregnation agent.

10. The floor board of claim 1, wherein both sides of said second pair of opposite side edges are treated with said impregnation agent.

11. The floor board of claim 1, wherein said decorative surface layer is formed from at least one or more paper layers treated with a thermosetting resin or at least one or more wood veneer layers.

12. The floor board of claim 1, wherein said impregnation agent at least penetrates the substrate immediately below said decorative surface layer.

13. The floor board of claim 1, wherein an upper edge of the first and/or the second pair of opposite side edges are formed with a lowered edge surface.

14. The floor board of claim 13, wherein the lowered edge surface is provided with a same decorative surface layer as a remainder of the upper surface of the floor board; or wherein the lowered edge surface is provided with a decoration separate from the decorative surface layer of the remainder of the upper surface of the floor board.

15. The floor board of claim 13, wherein the lowered edge surface is formed as a square edge, a beveled edge or a chamfered edge.

16. The floor board of claim 1, wherein at least the first pair of opposite side edges comprises an inclined surface undercutting respective upper edges, wherein this inclined surface starts immediately under the decorative surface layer, such that in coupled condition a chamber will be formed underneath the upper edges, the chamber protruding up to or almost up to the decorative surface layer.

17. The floor board of claim 16, wherein at least a laterally facing side surface of the decorative surface layer adjacent to the inclined surface, is inclined at the respective side edge.

18. The floor board of claim 1, wherein said MDF or HDF material comprises wood fibers glued by means of ureumformaldehydeglue or melamineureumformaldehyde.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) With the aim of further illustrating the features of the invention, here below, by way of some non-limiting examples, some preferred embodiments are illustrated with reference to the attached drawings, wherein:

(2) FIG. 1 gives a perspective view on a floor board in accordance with the present invention;

(3) FIG. 2 at a larger scale shows a cross-section along line II-II illustrated in FIG. 1;

(4) FIG. 3 at a larger scale shows a cross-section along line illustrated in FIG. 1, but for a variant;

(5) FIGS. 4 and 5 in views similar to that of FIG. 2 illustrate further variants;

(6) FIGS. 6 and 7 illustrate alternatives to FIG. 3, wherein two floor boards are about to be assembled;

(7) FIG. 8 illustrates still another alternative to FIG. 3, wherein two floor boards are assembled.

DETAILED DESCRIPTION OF THE INVENTION

(8) FIG. 1 schematically represents a floor board 1 in accordance with the present invention. In this specific case it relates to a rectangular and oblong panel 1 having a first pair of opposite edges 2-3, namely the long edges, and a second pair of opposite 7e edges 4-5, namely the short edges. Both pairs of edges 2-3, 4-5 have been provided with coupling parts 6.

(9) FIG. 2 clearly illustrates that the coupling parts 6 at the long edges 2-3 form both a first locking system, effecting a locking in the plane of the panels 1 and perpendicularly to said edges 2-3, namely a locking in the horizontal direction R2, and a second locking system, effecting a locking perpendicularly to the plane of the panels 1, namely a locking in the vertical direction R1. The coupling parts 6 illustrated here are basically formed as a tongue 7 and groove 8 connection, allowing for said locking in the vertical direction R1, wherein the tongue 7, respectively at least one of the groove lips 9-10, in this case only the lower groove lip 9, has been provided with additional locking elements 11-12, effecting said locking in said horizontal direction R2. The respective locking elements 11-12 are formed as an excavation at the lower side of the tongue 7, that cooperates with a protrusion at the upper surface of the lower groove lip 9.

(10) The coupling parts 6 are of the type that allows that two of such panels 1 can be coupled to each other, upon choice, by a rotational movement W or a horizontal shifting S movement of one panel 1 in respect to the other. In this case the coupling parts 6 are realized entirely of the substrate 13, in this case being MDF/HDF material.

(11) Preferably the coupling parts 6 in the coupled condition create a tension force pushing the coupled floor boards 1 towards each other at these edges 2-3. Although not illustrated here, this may be achieved by the lower groove lip 9 being slightly bent out of its normal relaxed unbent position, and due to its elasticity pushing on the tongue 7, at least at the location of the locking elements 10-11. Such tension force tends to close the joint at the upper edges, thereby creating a minimized risk for moisture ingress.

(12) FIG. 2 further illustrates that both opposite side edges 2-3 are treated with an impregnation agent 14. The penetration depth D as measured perpendicularly to the profiled contour of the mechanical coupling parts 6 is larger than 0.8 millimeter, or larger than 2 millimeters along the entire contour, or always larger than 10 percent of the thickness T of the substrate 13.

(13) Furthermore, FIG. 2 illustrates that a sealing agent 15 has been applied to one of the opposite side edges 2-3, in this case on the edge 2 which is provided with the tongue 7.

(14) The panel 1 of FIG. 2 further comprises a decorative surface layer 16 comprising a print 17. A backing layer 18 or counterbalancing layer is provided at the bottom side of the substrate 13. The print 17 has been provided on a paper sheet 19, in this case, having a weight of about 60 to 80 grams per square meter, and its pattern or image represents a wood motif 20, more particularly the image of only one wooden plank. The print 17 is free from repetitions in its pattern. The decorative surface layer 16 further comprises a wear resistant layer 21 provided over the print 17. The wear resistant layer 17 of this example comprises a paper sheet, in this case impregnated with thermosetting resin and possibly hard particles, such as aluminiumoxide. The backing layer 18 or counterbalancing layer also comprise a paper sheet 22 impregnated with thermosetting resin.

(15) FIG. 2 makes clear that the sealing agent 15 has been applied immediately underneath the decorative surface layer 16, possibly overlapping therewith.

(16) The floor board 1 of FIG. 1 may at the pair of short side edges 4-5 be provided with coupling parts 6 similar to the ones illustrated in FIG. 2 for the pair of long side edges 2-3.

(17) FIG. 3 illustrates a variant wherein at the pair of short side edges 4-5 the floor board is provided with coupling parts 6 allowing for a coupling by means of a downward motion M. This is particularly interesting in combination with coupling parts 6 at the pair of long side of edges that allow for coupling by means of a turning motion, such as the coupling parts illustrated in FIG. 2. The coupling parts 6 in FIG. 3 are shaped as a male part 23 at one edge 4 and a female part 24 at the opposite edge 5. The male part 23 is formed with a downwardly extending hook shaped part 25 designed to be seated in an excavation 26 provided in a lower flank 27 of the female part 24. The hook shaped part 25 and an upwardly protruding hook shaped part 28 bordering said excavation 26 cooperate to provide a locking in a direction R2 perpendicular to the coupled edges 4-5 and in the plane of the coupled floor boards 1. A locking in a direction R1 perpendicular to said plane is provided by means of a sidewardly protruding hook 29 at the male part 23 and an undercut 30 at the female part 24. In this case the undercut 30 is formed by means of a separate insert 31 that resiliently moves inwardly and subsequently outwardly to catch the hook 29 in the undercut 30 during the downward motion M.

(18) Such coupling parts 6 allowing for a locking by means of a downward motion M are known per se, e.g., from WO 2013/102803, WO 2006/043893, WO 01/75247, WO 03/016654 and WO 2010/087752, all incorporated herein by reference.

(19) It is clear that the sidewardly protruding hook 29 of the male part 23 is equivalent to the snapping hook on the male vertical assembly joining member, as disclosed in WO 01/75247, and that the undercut 30 of the female part 24 is equivalent to the undercut and female assembly joining member of the WO'247. In accordance with WO'247, the snapping hook or sidewardly protruding hook 29 may be constituted by a separate spring part or a separate insert which is placed in a cavity. Alternatively, the undercut at the female vertical assembly joining member or female part 24 is constituted by a separate spring part or separate insert. For example, as disclosed in WO 01/75247, the separate spring part or insert may be suitably constituted by, or being essentially, an extruded thermoplastic profile, a profile of thermosetting resin or an extruded metal profile. In accordance with other embodiments of the WO 01/75247 said male part 23 and said female part 24 including said sidewardly protruding hook 29 and undercut 30 are essentially made of said substrate 13.

(20) It is further clear that the fold panel, as disclosed in WO 2006/043893 comprises the edge with the male part 23, and that the strip panel comprises the edge with the female part 24. The separate flexible tongue of WO'893 is a separate insert as described above and forms said undercut 30. The separate flexible tongue cooperates with a tongue-locking surface of a sidewardly protruding hook at the male part or fold panel.

(21) According to the variant illustrated in FIG. 4, the upper edge 31 of the respective opposite edges 2-3 and/or 4-5 may be formed with a lowered edge surface 32, such as in the form of a square edge or, as illustrated here in the form of a beveled, chamfered edge. Such lowered edge surface 32 may be provided with the same decorative surface layer 16 as the remainder of the upper surface of the panel 1, or, as here be provided with a separate decoration 33, or without any decoration. Such lowered edge surface 32 may be produced by pressing the respective edge down and/or, as illustrated here, by removing a material portion from this upper edge 31, thereby exposing a part of the substrate 13 and then providing the created surface with said separate decoration 33. The first technique is e.g., described in WO 2006/066776; the second technique, the result of which is illustrated here, is described in WO 01/96688. The arrows P illustrate that the impregnation agent 14 may penetrate up from a location below the lowered edge surface 32 to the MDF/HDF material behind the lowered edge surface 32 of the substrate 13.

(22) FIG. 5 shows an embodiment wherein the super absorbing material 15 is applied to the edges 2-3 at least at a location 34 above the center line C of the floor board 1, and at least at a location 35 below the center line C of the floor board 1. By the provision of the super absorbing material 15 at the location 35 below the center line C of the floor board 1 the advantage is obtained that moisture raising from the underground is prevented from further entering the joint and eventually causing damage at the upper edges 31.

(23) In the represented case the super absorbing material 15 is in the form of particles, more particularly crystals, of SPA. The particles or crystals have an average particle size of less than 100 micron in not-swollen condition.

(24) FIG. 5 further illustrate that the edges 2-3 may show an inclined surface 36 undercutting the respective upper edges 31, wherein this inclined surface 36 starts immediately under the decorative surface layer 16, such that in coupled condition a chamber will be formed underneath the upper edges, the chamber protruding up to or almost up to the decorative surface layer 16. Such chamber may function to accommodate the swollen crystals upon moisture ingress and will allow a sealing of the joint at a position immediately under the decorative surface layer 16. Possibly even the laterally facing side surfaces 37 of the decorative surface layer 16 adjacent to the inclined surfaces 36 may be inclined at one or both edges 2-3 in order to allow the swollen material to move up to between said laterally facing side surfaces 37.

(25) In FIG. 5 a space 38 is created above the tongue 7 and below the decorative surface layer 16 to accommodate the super absorbing material 15 at a location above the center line C of the floor board or panel 1. Another space 38 is created above the cooperating contact surfaces 39 of the locking elements 11 and 12 to accommodate the super absorbing material at the location 35 below the center line C of the floor panel 1. It is clear that the space 38 at location 34 may be formed in the upper groove lip 10, as well, possibly in combination with the space above the tongue 7, or not.

(26) Similar adaptations as explained in connection to FIGS. 4 and 5 may be made at the short sides 4-5, e.g., those illustrated in FIG. 3, whether or not in combination with such adaptations being available at the long sides 2-3.

(27) The methods of the invention are of particular interest for treatment of side edges of floor boards that comprise coupling parts 6 allowing for a locking by means of a downward motion M, since, such coupling parts 6 preferably comprise a small play in the joint to allow for a smooth joining. A play of some hundredths of a millimeter, e.g., 0.05 mm, may suffice to allow a reliable, i.e., repeatable, smooth coupling. Such play, however small it may be, may lead to increased water ingress and increased exposure of the respective edges to deterioration due to this moisture. A treatment of the edges minimizing such deterioration and the subsequent effects is hence desirable. Preferably, as said above, such coupling parts are applied at the short side edges of a floorboard. At the long edges preferably coupling parts 6 are applied that at least allow for a coupling by means of a turning motion W, such as those illustrated in FIG. 2. Preferably the coupling parts 6 at the long side allow for attaining a coupled condition wherein a tension force is actively pushing the coupled floor boards 1 together and tending to close the long side joints, i.e., a coupled condition free from play. According to a not illustrated variant, at the long edges coupling parts 6 are applied that are basically shaped as a tongue and a groove wherein the tongue is provided with at least one snapping web at its upper surface, and wherein the groove is provided with a cooperating therewith undercut in the upper groove lip. Preferably in such case also at the underside of the tongue a snapping web is provided cooperating with a recess in the lower groove lip. Such tongue and groove arrangement is e.g., described in WO 02/059435 and may provide for a tight joint.

(28) FIG. 6 illustrates an embodiment, as also disclosed in WO 01/75247, wherein at the pair of short edges 4-5 the floor board is provided with coupling parts 6 allowing for a coupling by means of a downward motion M. FIG. 6 shows that the male part 23 is about to be coupled to the female part 24. The downwardly extending hook shaped part 25 of the male part 23 is about to become seated in an excavation 26 provided in a lower flank 27 of the female part 24. The hook shaped part 25 and an upwardly protruding hook shaped part 28 bordering said excavation 26 cooperate to provide a locking in a direction R2 perpendicular to the coupled edges 4-5 and in the plane of the coupled floor board 1. A locking in a direction R1 perpendicular to said plane is provided by means of a sidewardly protruding hook 29 at the male part 23 and an undercut 30 at the female part 24. In this case the male part 23 and the female part 24, including the undercut 30 and the sidewardly protruding hook 29 are essentially made of the substrate 13. In this embodiment there is only one sidewardly protruding hook 29. The sidewardly protruding hook 29 cooperates with a matching undercut 30, which by being provided with locking surfaces 40-41 limits the vertical motion between the floor boards 1 or creates said locking in said direction R1. The locking surfaces 40-41 are preferably mainly horizontal.

(29) FIG. 7 corresponds in the main with the one shown in FIG. 6. The sidewardly protruding hook 29 of the male part 23 is, however, moved somewhat inwards in the floor board 1, whereby a guiding angle is formed above the undercut 30 of the female part 24.

(30) FIG. 8 illustrates an embodiment, as also disclosed in WO 2006/043893, wherein at the pair of short edges 4-5 the floor board is provided with coupling parts 6 allowing for a coupling by means of a downward motion M. FIG. 6 shows that the male part 23 is coupled to the female part 24. The downwardly extending hook shaped part 25 of the male part 23 is seated in an excavation 26 provided in a lower flank 27 of the female part 24. The hook shaped part 25 and an upwardly protruding hook shaped part 28 bordering said excavation 26 cooperate to provide a locking in a direction R2 perpendicular to the coupled edges 4-5 and in the plane of the coupled floor board 1. A locking in a direction R1 perpendicular to said plane is provided by means of a sidewardly protruding hook 29 at the male part 23 and an undercut 30 at the female part 24. In this case the male part 23 is essentially made of the substrate 13, while a portion of the female part 24, more particularly the undercut 30, is formed by a separate insert 31. The separate insert 31 is fixed into a cavity 42 formed in one of the side edges 4-5, in this case in the edge 5 comprising the female part 24. The separate insert 31 has a groove portion 43, which is located in the cavity 42 and a projecting portion 44 projection outside the cavity 42. The projection portion 44 of the separate insert 31 cooperates with a tongue groove 45 formed in the other side edge 4 having said male part 24. The tongue groove 45 comprises a tongue locking surface 40 which cooperates with the separate insert 31 and locks the floor boards 1 in said direction R1.

(31) The invention may prove itself particularly useful as well in those cases where the decorative surface layer comprises or consists of a wood veneer with a thickness between 0.2 and 2 mm, e.g., from 0.3 to 0.8 mm. Such veneer layers may easily discolor due to the effects of moisture ingress into the joint. Such effects may effectively be counteracted by means of the treatments of the present invention, in particularly by using the disclosed sealing agents.

(32) With the aim of still further illustrating the features of the invention, here below, some examples and the results obtained are listed.

Example Series 1

(33) Twelve substances were prepared in accordance with the below table.

(34) Each of the substances was applied to the side edges of a laminate floor panel, more particularly a DPL (Direct Pressure Laminate) floor panel with similar profiles as those illustrated in FIG. 2. The entire contour of the profiled side edges was treated. The substrate material of the floor panel consisted of an 8 mm HDF material. The glue comprised in the HDF consisted of melamine-ureumformaldehyde (MUF). The HDF further comprised about 1% of a wax emulsion. The floor panel or floor board comprised a decorative surface layer applied to the substrate material, alike the one illustrated in FIG. 2. Said decorative surface material comprised a print provided on a paper sheet, and a wear resistant layer. A backing layer or counterbalancing layer was applied to the bottom of the substrate material. The print layer, wear resistant layer and counterbalancing layer all comprised a paper layer impregnated with thermosetting resin, namely melamineformaldehyde resin.

(35) The obtained floor panels were joined together by means of the coupling parts available at the treated side edges, and put for 24 hours (4 hours in case of samples 2′ and 13′) in a water bath, at a temperature of 30° C. After 24 hours the weight gain of the floor panels was recorded to define the amount of water absorbed into the HDF substrate. Further the thickness of the floor panels was recorded at the treated edges to define the swelling due to the moisture absorption. The results are given in the table as a percentage value which compares to the weight and edge thickness before the water bath. It needs to be remarked that emersion of floor panels in a bath is, of course, a test condition which does not expected to occur in real life, however this test seemed suited to illustrate the beneficial effects of the treatments of the present invention.

(36) The table also includes the results for a reference laminate floor panel having untreated side edges.

(37) TABLE-US-00001 Impregnation Agent Solvent Sealing Agent Absorption Edge Swelling Ref. None None None 5.93% 21.67%  1 100% MDI None None 1.84%  10.1%  2 75% MDI 25% acetone None 1.17%  6.46%  2′ 75% MDI 25% acetone None N.A.  3.5%  3 73.5% MDI 24.5% acetone   2% SPA 1.23%  7.34%  4 71.5% MDI 24% acetone 4.5% SPA 1.16%  7.57%  5 75% MDI 25% ethylacetate None 1.08%  5.81%  6 75% MDI 25% MMB-AC None 1.34%  7.08%  7 75% MDI 25% dibasic esther None 1.66%  8.9%  8 75% MDI 25% glycol diether None 1.28%  6.65%  9 75% MDI 25% Rhodiasolv ® Iris None 1.81%  8.98% 10 75% MDI 25% Prifer 6813 None 1.25%  7.45% 11 75% MDI 25% tetramethoxyether None 1.15%  5.98% 12 75% MDI 25% 1-Methoxy- None 1.12%  6.89% propylacetate 13 75% MDI 25% Butyl diphenyl None 1.12%  5.59% Methane 13′ 75% MDI 25% Buyl diphenyl None N.A.  1.5% Methane 14 100% None None 2.33% 14.98% fluorocopolymer

(38) The results illustrate that treatment of the edges with a solvent comprising impregnation agent, especially MDI, leads to a tremendous increase of the water resistance of the laminate floor panels. Absorption is lowered from about 6% to less than 2%, and edge swelling is reduced from 21% to below 10%, especially in those cases where a solvent is used together with the impregnation agent.

(39) Test results 2-2′ and 13-13′ show the positive influence of the more hydrophobic solvent Butyl diphenyl Methane on the initial performance. Edge swelling is very low in this sample after 4 hours of emersion in the water bath.

(40) The tests are unable to demonstrate the positive influence of the sealing agent on longer standing water exposure. Since the present test conditions are concerned with soaking the coupled floor panels in a water bath, the water penetrates not only from the joint upper edges which may be sealed by the swollen crystals. At least the tests illustrate that the SPA crystals are not detrimental to the water resistance of the laminate floor panels.

Example Series 2

(41) Ten substances were prepared in accordance with the below table.

(42) Each of the substances was applied to the side edges of a laminate floor panel, more particularly a DPL (Direct Pressure Laminate) floor panel with similar profiles as those illustrated in FIG. 2. The entire contour of the profiled side edges was treated. The substrate material of the floor panel consisted of an 8 mm HDF material. The glue comprised in the HDF consisted of ureumformaldehyde (UF). The standard HDF further comprised about 1% of a wax emulsion, while the substrate used in tests 5 and 9 comprised only 0.3% of a wax emulsion. The substrate used in tests 3 and 6 were free from wax emulsion. The floor panel or floor board comprised a decorative surface layer applied to the substrate material, alike the one illustrated in FIG. 2. Said decorative surface material comprised a print provided on a paper sheet, and a wear resistant layer. A backing layer or counterbalancing layer was applied to the bottom of the substrate material. The print layer, wear resistant layer and counterbalancing layer all comprised a paper layer impregnated with thermosetting resin, namely melamineformaldehyde resin.

(43) The obtained impregnation depth of the substances was measured and recorded in the below table.

(44) TABLE-US-00002 Impreg- Penetra- nation tion Agent Solvent Substrate Depth 1 None 100% acetone Standard MUF glued HDF   8 mm board 2 100% MDI None Standard MUF glued HDF 0.3 mm board 3 100% MDI None MUF glued HDF board, no   3 mm wax content 4 75% MDI 25% acetone Standard MUF glued HDF   1 mm board 5 75% MDI 25% acetone MUF glued HDF board,   2 mm reduced wax content 6 75% MDI 25% acetone MUF glued HDF board, no   6 mm wax content 7 75% MDI 25% acetone Standard MUF glued HDF   2 mm board, prewetting with 100% acetone 8 65% MDI 35% acetone Standard MUF glued HDF   2 mm board 9 65% MDI 35% acetone MUF glued HDF board,   3 mm reduced wax content 10 75% MDI 25% Butyl Standard MUF glued   4 mm Diphenyl HDF board Methane 11 100% None Standard UF glued HDF   4 mm fluoroco- board polymer

(45) The results illustrate the positive effects of solvent use, a reduced wax content or a prewetting on the attained penetration depth.

(46) The present invention is not limited to the preferred embodiments described here above, but such floor boards and methods may be realized according to several variants without leaving the scope of the invention. The impregnation agents and/or sealing agents disclosed in connection with the present invention, may also be used to improve the water resistance of other products based on MDF or HDF, such as floor moldings. For this reason, in accordance with a variant, the invention relates to a floor molding comprising a decorative surface layer applied to a substrate, wherein said substrate comprises MDF or HDF material, said MDF or HDF material being exposed at a surface of said floor molding, wherein said exposed material is treated with an impregnation agent and/or a sealing agent based on a super absorbing material. It is clear that the impregnation agents and/or sealing agent named in connection with the first, second and third aspect of the invention may be used in the context of this variant. Further the method of the invention, in particular the measure to improve penetration, may be used to improve the treatment of the exposed MDF/HDF surfaces of such floor molding.