Embodiments of the present invention relate to subfloor panels comprising a joint. The panels are configured to be assembled on joists. The panels and the joists may be wood based.
Subfloors are known comprising wood based panels, such as particle boards, comprising tongue and groove joints which are configured to be glued.
Embodiments of the present invention address a need to provide an improved subfloor and joint.
Accordingly, embodiments of the present invention preferably seek to mitigate, alleviate or eliminate one or more deficiencies, disadvantages or issues in the art, such as the above-identified, singly or in any combination by providing subfloor panels comprising a joint which enables a faster assembling of the subfloor panels.
A further object of embodiments of the invention is to provide subfloor panels with a joint with increased strength.
At least some of these and other objects and advantages that will be apparent from the description have been achieved by a first aspect of the invention including set of essentially identical subfloor panels comprising a joint configured to be glued, wherein the joint comprises a strip which protrudes from a first joint edge at an edge of a panel. The joint comprises an element groove at an underside of an adjacent edge of an adjacent panel and adjacent a second joint edge of the adjacent edge. The strip comprises an element which is configured to cooperate, in a joined position of the edge and the adjacent edge, with the element groove for positioning of the panel relative the adjacent panel in a first horizontal direction and the first joint edge is configured to cooperate with the second joint edge for positioning of the panel relative the adjacent panel in a second opposite horizontal direction. The joint comprises a flexible tongue at an outer part of the strip and a tongue groove below the element groove or a flexible tongue below the element groove and a tongue groove at an outer part of the strip. The flexible tongue is configured to cooperate, in the joined position, with the tongue groove for positioning of the panel relative the adjacent panel in a first vertical direction. The joint is configured for a joining of the edge and the adjacent edge by a vertical motion of the edge relative the adjacent edge. A space above the strip and between the element and the first joint edge is configured to be filled partly or completely with a glue before the edge and the adjacent edge are joined, and wherein the joint is configured such that during joining the glue is displaced in the joint and towards an upper surface of the panel and towards a lower surface of the panel. A flow resistance towards the lower surface is greater than a flow resistance towards the upper surface.
An advantage with the greater flow resistance towards the lower surface may be that the glue may be prevented from being displaced to the flexible tongue and the tongue groove which pay prevent a proper positioning of the panel relative the adjacent panel in a first vertical direction. A further advantage may be that the glue may be properly distributed in the joint and that a portion of the glue is displaced to the upper surface of the panel which may provide an accurate bonding of the joint when the glue has dried or hardened.
The set of panels and the joint may be configured to be joined on joists.
An element top surface of the element may be configured to cooperate, in the joined position, with a groove top surface of the locking groove for positioning of the panel relative the adjacent panel in a second vertical direction.
A first upper joint edge surface of the first joint edge may be configured to cooperate, in the joined position, with a second upper joint edge surface of the second joint edge for positioning of the panel relative the adjacent panel in a second opposite horizontal direction.
A third distance between the first upper joint edge surface and the second upper joint edge surface may be in the range of about 0.05 mm to about 0.3 mm, or in the range of about 0.1 mm to about 0.2 mm, or is about 0.15 mm.
The first joint edge may comprise a third lower joint edge surface, which is adjacent and below the first upper joint edge surface and the second joint edge may comprise a fourth lower joint edge surface, which is adjacent and below the second upper joint edge surface, wherein a fourth distance, in the joined position, between the third lower joint edge surface and fourth lower joint edge surface, may be greater than the third distance.
A cooperation area, in the joined position, between element top surface and the groove top surface may extend over a first distance and a cooperation area between the first upper joint edge surface and the second upper joint edge surface may extend over a second distance, wherein the first distance may be greater than the second distance.
A ratio between the first distance and the second distance may be in the range of about 1.2 to about 4, or about 1.5 to about 3, or is about 2.
An element side surface of the element may be configured to cooperate with an element groove side surface for positioning of the panel relative the adjacent panel in the first horizontal direction, wherein the element side surface and element groove side surface may be configured to prevent or reduce the amount of glue displaced towards the outer part of the strip.
The viscosity of the glue may be within the range of about 3000 CP to about 20,000 cP at 20 C°, about 5000 to about 15,000 cP at 20 C° or is about 10,000 cP at 20 C°. The viscosity may be tested according to the standards DIN EN ISO 2555 or DIN EN 12092.
The joint may comprise a lower surface adjacent the element groove which may be configured to be positioned, in a joined position, at a fifth distance from an upper surface of the strip, wherein the fifth distance may be in the range of about 0.2 mm to about 0.5 mm or preferably is about 0.3 mm.
The glue may include one or more of Poly vinyl acetate glue, MS polymer glue, Polyurethane glue, Urea-formaldehyde glue, silicone or thermoplastic rubber.
The panel and the adjacent panel may be wood based panels, such as particleboard, OSB, plywood, HDF or MDF.
A second aspect of the invention includes a set of essentially identical subfloor panels comprising a joint configured to be glued. The joint comprising a tongue at a first edge of a first panel and a tongue groove at a second edge of a second panel. The tongue and the tongue groove are configured for positioning of the first panel relative the second panel in a vertical direction. A lower lip of the tongue groove extends beyond an upper lip of the tongue groove. An element protrudes from the lower lip and an underside of the first edge comprising an element groove. The element and the element groove are configured for positioning of the first panel relative the second panel in a horizontal direction. An outer edge of the lower lip comprises a first impact surface, which is downward facing, and the first edge comprising a second impact surface, which is upward facing. The first impact surface is configured to cooperate with the second impact surface for partly absorbing a force applied at an upper surface of the first panel and/or at an upper surface of a second panel when the first and the second panel are joined by the joint and assembled on joists.
Thus, the joint solves the problem of positioning the first panel relative the second panel before the glue dries or cures and bonds the first panel to the second panel.
The impact surfaces may have the effect that the strength of the joint is improved.
A lower surface of the tongue may be configured to be positioned at a distance from an upper surface of the lower lip, in a joined position of the first and the second panel such that a glue space is obtained.
The glue space may extend essentially from the element to an outer part of the tongue.
The distance between the lower surface of the tongue and the upper surface of the lower lip may be in the range of about 0.2 mm to about 0.5 mm, preferably about 0.3 mm.
An angle between the second impact surface and a lower surface of the first panel may be in the range of about 40° to about 70°, preferably about 60°.
The first impact surface may be essentially parallel to the second impact surface.
The panels may be wood based panels, such as particleboard, OSB, plywood, HDF or MDF.
The first and the second panel may each comprise outer layers and a core layer, wherein the core layer comprises coarser particles than the outer layers, wherein the lower surface of the tongue and the upper surface of the lower lip is within the core layer, such that a stronger glue connection is obtained.
The first and the second panel may each comprise outer layers and a core layer, wherein the core layer comprises coarser particles than the outer layers, wherein an upper surface of the tongue is configured to be glued to a lower surface of the upper lip, wherein the upper surface of the tongue and lower surface of the upper lip, is within the core layer, such that a stronger glue connection is obtained.
The first impact surface and the second impact surface may be configured to be glued together.
The joint may be configured for a joining of the first edge and the second edge by an angling motion of the first panel relative the second panel.
The set of panels according to the first aspect may include the joint described in the second aspect.
These and other aspects, features and advantages of which embodiments of the invention are capable of, will be apparent and elucidated from the following description of embodiments of the present invention, reference being made to the accompanying drawings, in which
Specific embodiments of the invention will now be described with reference to the accompanying drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. The terminology used in the detailed description of the embodiments illustrated in the accompanying drawings is not intended to be limiting of the invention. In the drawings, like numbers refer to like elements.
An embodiment of the invention is shown in
The glue 17′ applied on the upper surface 39 of the tongue 13 may be distributed from an inner part 32 at the tip of the tongue 13 to an outer part 31 at the upper surface 41′ of the first panel 1′ and/or second panel 1″. The glue may be applied along essentially the entire length of the edge.
The joint may comprise a first joint surface 37 at the first edge 5a and an opposite second joint surface 36 at the second edge 5b. The first joint surface 37 extends from the upper surface 41′ of the first panel 1′ towards the tongue 13. The second joint surface 36 extends from the upper surface 41″ of the second panel 1″ towards the tongue groove 10. The first joint surface 37 and the opposite second joint surface 36 are configured to be glued to each other. The glue 17′ applied on the upper surface 39 of the tongue 13 may be distributed between the first joint surface 37 and the opposite second joint surface 36.
A distance 46 between the first joint surface 37 and the second joint surface 36 may be in the range of about 0.05 mm to about 0.3 mm, or in the range of about 0.1 mm to about 0.2 mm, or about 0.15 mm.
The glue 17 applied on the upper surface 18 of the lower lip 16 may be distributed from an inner part 33 at the tip of the tongue 13 to an outer part 34 at the element 12.
The glue may be a resin, preferably cross-linked, hot melt glue, white glue or glue comprising polyvinyl acetate or polyurethane.
A lower surface 19 of the tongue 13 may be configured to be positioned at a distance 44 from an upper surface 18 of the lower lip 16, in a joined position of the first and the second panel 1′, 1″, such that a glue space is obtained. The glue space may extend essentially from the element 12 to an outer part of the tongue 13. The distance 44 between the lower surface 19 of the tongue 13 and the upper surface 18 of the lower lip 16, may be in the range of about 0.2 mm to about 0.5 mm, preferably about 0.3 mm.
A distance between the upper surface 39 of the tongue 13 and the lower surface 38 of the upper lip 11, may be shorter than the distance 44 between the lower surface 19 of the tongue 13 and the upper surface 18 of the lower lip 16.
An angle 43 between the second impact surface and a lower surface 42′ of the first panel 1′ may be in the range of about 40° to about 70°, preferably about 60°.
The first impact surface 22 may be essentially parallel to the second impact surface 21.
The first impact surface 22 and the second impact surface 21 may have a planar and/or curved shape.
The first impact surface 22 and the second impact surface 21 may have the same shape.
A distance 45 between the first impact surface 22 and the second impact surface 21 may be in the range of about 0.05 mm to about 0.3 mm, or in the range of about 0.1 mm to about 0.2 mm, or about 0.15 mm.
The panels may be wood based panels, such as particleboard, OSB, plywood, HDF or MDF.
An upper surface 39 of the tongue 13 is configured to be glued to a lower surface 38 of the upper lip 11, wherein the upper surface 39 of the tongue 13 and lower surface 38 of the upper lip 11, is within the core layer 81, such that a stronger glue connection is obtained.
The first impact surface 22 may be configured to be glued to the second impact surface 21. The first impact surface 22 and the second impact surface 21 may be positioned at least partly in the core layer 81. The glue 17″ between the first impact surface 22 and the second impact surface 21 may be distributed from a lower portion 84 at the lower surface 42′, 42″ of the first and the second panel, respectively, to an upper portion 85 adjacent an upper surface of the element groove 14.
Each of the panels may comprise a decorative layer attached to at least one of said outer layers.
Embodiments of the flexible tongue 30, which is displaceable in the insertion groove 20, are shown in
The flexible tongue 30 may have a first displacement surface 66 and an opposite second displacement surface 67, configured to be displaced along a third displacement surface 68 and a fourth displacement surface 69, respectively, of the insertion groove 40.
Another embodiment of the flexible tongue 30, without the protruding bendable parts 64, is shown in
Another embodiment of the flexible tongue 30 is shown in
A space above the strip 6 and between the element 7 and the first joint edge 132 is configured to be filled partly or completely with a glue before the edge and the adjacent edge are joined, and wherein the joint is configured such that during joining the glue is displaced in the joint and towards 111 an upper surface 41 of the panel and towards 112 a lower surface 42 of the panel. A flow resistance towards the lower surface 42 is greater than a flow resistance towards the upper surface 41.
The joint is configured for a joining of the edge and the adjacent edge by a vertical motion 113 of the adjacent edge relative the edge.
The glue 17 may be applied on an upper surface 120 of the strip 6 before the edge and the adjacent edge are joined. The glue is during the joining distributed in parts of the joint. A portion 31 of the glue may be positioned, in the joined positioned, at the upper surface 41,41′ of the panel 1 and/or the adjacent panel 1′. The portion 31 of the glue 17 may indicate that the glue is properly distributed in the joint and may provide a proper seal of the joint at the upper surface 41′. The portion 31 of the glue 17 is preferably removed before the glue has dried or hardened.
The joint may be configured such that the displacement of the glue during the joining is discontinued before the glue reaches the flexible tongue 30 and the tongue groove 20. The displacement of the glue may be discounted at an upper part of the element 7.
The joint may comprise an insertion groove 40 and the flexible tongue may be positioned in the insertion groove 40. The flexible tongue 30 may be displaceable in the insertion groove 40. Embodiments of the flexible tongue 30 are shown in
An element top surface 107 of the element 7 may be configured to cooperate, in the joined position, with a groove top surface 108 of the locking groove 8 for positioning of the panel 1 relative the adjacent panel 1′ in a second vertical direction.
A first upper joint edge surface 102 of the first joint edge 132 may be configured to cooperate, in the joined position, with a second upper joint edge surface 101 of the second joint edge 131 for positioning of the panel 1 relative the adjacent panel 1′ in a second opposite horizontal direction.
In the joined position, a third distance 115 between the first upper joint edge surface 102 and the second upper joint edge surface 101 may be in the range of about 0.05 mm to about 0.3 mm, or in the range of about 0.1 mm to about 0.2 mm, or is about 0.15 mm.
The first joint edge 132 may comprise a third lower joint edge surface 122, which is adjacent and below the first upper joint edge surface 102 and the second joint edge 131 may comprise a fourth lower joint edge surface 121, which is adjacent and below the second upper joint edge surface 101. A fourth distance 117, in the joined position, between the third lower joint edge surface 122 and fourth lower joint edge surface 12 may be greater than the third distance 115 which may reduce the flow resistance towards the upper surface 41.
A cooperation area, such as a first cooperation area 142, in the joined position, between element top surface 107 and the groove top surface 108 may extend over a first distance 106 and a cooperation area, such as a second cooperation area 142′, between the first upper joint edge surface 102 and the second upper joint edge surface 101 may extend over a second distance 105, wherein the first distance 106 may be greater than the second distance 105 which may provide a greater flow resistance towards the lower surface 42 than the flow resistance towards the upper surface 41.
A ratio between the first distance 106 and the second distance 105 may be in the range of about 1.2 to about 4, or about 1.5 to about 3, or is about 2.
An element side surface 103 of the element 7 may be configured to cooperate with an element groove side surface 104 for positioning of the panel 1 relative the adjacent panel 1′ in the first horizontal direction, wherein the element side surface 103 and element groove side surface 104 may be configured to prevent or reduce the amount of glue displaced towards the outer part of the strip 6.
The viscosity of the glue may be within the range of about 3000 CP to about 20,000 cP at 20 C°, about 5000 to about 15,000 cP at 20 C° or is about 10,000 cP at 20 C°.
The joint may comprise a lower surface 119 adjacent the element groove 8 which may be configured to be positioned, in a joined position, at a fifth distance 116 from an upper surface 120 of the strip 6, wherein the fifth distance preferably is in the range of about 0.2 mm to about 0.5 mm or preferably is about 0.3 mm
The glue may include one or more of Poly vinyl acetate glue, MS polymer glue, Polyurethane glue, Urea-formaldehyde glue, silicone or thermoplastic rubber.
The panel 1 and the adjacent panel 1′ may be wood based panels, such as particleboard, OSB, plywood, HDF or MDF.
The panel and the adjacent panel 1, 1′ may each comprises outer layers and a core layer, wherein the core layer comprises coarser particles than the outer layers, wherein the upper surface of the strip may be within the core layer such that a stronger glue connection is obtained.
The panel 1 and the adjacent panel 1′ and the joint may be configured to be joined on joists 71 as shown in
The panels may be installed by the folding motion shown in
The joint of
The second element 7′ may be configured to cooperate, in a joined position of the edge and the adjacent edge, with the second element groove 8 for positioning of the panel 1 relative the adjacent panel 1′ in a first horizontal direction, the second element groove 8′ may be configured to receive the second element 7′, and the first joint edge 132 is configured to cooperate with the second joint edge 131 for positioning of the panel 1 relative the adjacent panel 1′ in a second opposite horizontal direction.
The second element 7′ may be positioned vertically below the first element 7.
The second element 7′ may be positioned outboard of and vertically below the first element 7.
The displaceable tongue 30 may be positioned vertically between the first element 7 and the second element 7′ as shown in
The displaceable tongue 30 may be configured to translate, preferably linearly translate, inside the displacement groove 40 and along a lower surface of the displacement groove 40.
The second element groove 8′ may be positioned vertically below the first element groove 8.
The second element groove 8′ may be positioned outboard of and vertically below the first element groove 8.
The tongue groove 40 may be positioned vertically between the first element groove 8 and the second element groove 8′ in
The displaceable tongue 30 may be positioned outboard a third cooperation area 142″ in joint position, as shown in
The lower surface of the displacement groove 40 may be inclined upwards, in a direction towards an opening of the displacement groove 40, in relation to the back surface of the panel, i.e. towards the plane of the upper surface 41, as shown in
The lower surface of the displacement groove 40 may be inclined downwards, in a direction towards an opening of the displacement groove 40, in relation to the back surface of the panel, i.e. towards the plane of the back surface 42, as shown in
The displaceable tongue 30 may be positioned at an outermost portion of the strip 6, preferably at a position vertically below the first and second elements 7, 7′, as shown in
The tongue groove 20 may be positioned at an outermost portion of the strip 6, preferably at a position vertically below the first and second elements 7, 7′, as shown in
The provision of a second element 7′ and a second element groove 8′ may facilitate improved resistance to relative rotation between the panel 1 and the adjacent panel 1′, such as bending of the joint, in response to a vertical force F applied to the joint and/or the first panel 1 and/or the adjacent panel 1′. A joint with improved resistance to water penetration may thus be achieved.
The displaceable tongue 30 may be arranged in the edge comprising the first and second elements 7, 7′ as shown in
A second element top surface 107′ of the second element 7′ may be configured to cooperate, in the joined position, with a second groove top surface 108′ of the second locking groove 8 for positioning of the panel 1 relative the adjacent panel 1′ in a second vertical direction.
A third cooperation area 142″ is formed, in the joined position, between the second element top surface 107′ and the second groove top surface 108′.
The third cooperation area 142″ above the strip 6 and between the second element 7′ and the first element 7 may be configured to be filled partly or completely with a glue before the edge and the adjacent edge are joined, the second element top surface 107′ of the second element 7′ may be configured to cooperate, in the joined position, with a second groove top surface 108′ of the second locking groove 8 to displace the glue in the joint towards 111′ an upper surface 41 of the panel and towards 112′ a lower surface 42 of the panel, for example the second element top surface 107′ and the second element groove top surface 108′ may be configured to become arranged in close proximity of each other or in abutment with each other in joined position.
The viscosity of the glue may be within the range of about 3000 CP to about 20,000 cP at 20 C°, about 5000 to about 15,000 cP at 20 C° or is about 10,000 cP at 20 C°.
The glue may include one or more of Poly vinyl acetate glue, MS polymer glue, Polyurethane glue, Urea-formaldehyde glue, silicone or thermoplastic rubber.
A second element side surface 103′ of the second element 7′ may be configured to cooperate with a second element groove side surface 104′ for positioning of the panel 1 relative the adjacent panel 1′ in the first horizontal direction, wherein the second element side surface 103′ and second element groove side surface 104′ may be configured to adapt the amount of glue displaced towards the outer part of the strip 6.
When the word “about” or “essentially” is used in this specification in connection with a numerical value, it is intended that the associated numerical value include a tolerance of +/−10% around the stated numerical value.
ITEM 1. A set of essentially identical subfloor panels 1, 1′, 1″ comprising a joint configured to be glued, wherein the joint comprises a strip 6 which protrudes from a first joint edge 132 at an edge of a panel 1,
ITEM 2. The set as in item 1, wherein an element top surface 107 of the element 7 is configured to cooperate, in the joined position, with a groove top surface 108 of the locking groove 8 for positioning of the panel 1 relative the adjacent panel 1′ in a second vertical direction.
ITEM 3. The set as in item 1 or 2, wherein a first upper joint edge surface 102 of the first joint edge 132 is configured to cooperate, in the joined position, with a second upper joint edge surface 101 of the second joint edge 131 for positioning of the panel 1 relative the adjacent panel 1′ in a second opposite horizontal direction.
ITEM 4. The set as in item 3, wherein, in the joined position, a third distance 115 between the first upper joint edge surface 102 and the second upper joint edge surface 101 is in the range of about 0.05 mm to about 0.3 mm, or in the range of about 0.1 mm to about 0.2 mm, or is about 0.15 mm.
ITEM 5. The set as in item 3 or 4, wherein the first joint edge 132 comprises third lower joint edge surface 122, which is adjacent and below the first upper joint edge surface 102 and the second joint edge 131 comprises a fourth lower joint edge surface 121, which is adjacent and below the second upper joint edge surface 101, wherein a fourth distance 117, in the joined position, between the third lower joint edge surface 122 and fourth lower joint edge surface 121, is greater than the third distance 115.
ITEM 6. The set as in any one of the preceding items 2-5, wherein a cooperation area, in the joined position, between element top surface 107 and the groove top surface 108 extends over a first distance 106 and a cooperation area between the first upper joint edge surface 102 and the second upper joint edge surface 101 extends over a second distance 105, wherein the first distance 106 is greater than the second distance 105.
ITEM 7. The set as in any one of the preceding items, wherein an element side surface 103 of the element 7 is configured to cooperate with an element groove side surface 104 for positioning of the panel 1 relative the adjacent panel 1′ in the first horizontal direction, wherein the element side surface 103 and element groove side surface 104 are configured to prevent or reduce the amount of glue displaced towards the outer part of the strip 6.
ITEM 8. The set as in any one of the preceding items, wherein the viscosity of the glue is within the range of about 3000 CP to about 20,000 cP at 20 C°, about 5000 to about 15,000 cP at 20 C° or is about 10,000 cP at 20 C°.
ITEM 9. The set as in any one of the preceding items, wherein the joint comprises a lower surface 119 adjacent the element groove 8 which is configured to be positioned, in a joined position, at a fifth distance 116 from an upper surface 120 of the strip 6, wherein the fifth distance preferably is in the range of about 0.2 mm to about 0.5 mm or preferably is about 0.3 mm
ITEM 10. The set as in any one of the preceding items, wherein the glue includes one or more of Poly vinyl acetate glue, MS polymer glue, Polyurethane glue, Urea-formaldehyde glue, silicone or thermoplastic rubber.
ITEM 11. The set as in any one of the preceding items, wherein the panel 1 and the adjacent panel 1′ are wood based panels, such as particleboard, OSB, plywood, HDF or MDF.
ITEM 12. The set as in any one of the preceding items, wherein an outer part of the strip 6 comprises a second element 7′ and an underside of the third edge 4a of the adjacent panel 1′ comprises a second element groove 8′, preferably the second element 7′ and the second element groove 8′ are configured for positioning of the first panel 1′ relative the adjacent panel (1) in a horizontal direction.
ITEM 13. The set as in item 12, wherein a third cooperation area 142″ is formed above the strip 6 and between the second element 7′ and the first element 7.
ITEM 14. The set as in item 13, wherein the third cooperation area 142″ is configured to be filled partly or completely with a glue before the edge and the adjacent edge are joined.
ITEM 15. The set as in any one of the preceding items 12 to 14, wherein the second element top surface 107′ of the second element 7′ is configured to cooperate, in the joined position, with a second groove top surface 108′ of the second locking groove 8 to displace the glue in the joint towards 111′ an upper surface 41 of the panel and towards 112′ a lower surface 42 of the panel.
Number | Date | Country | Kind |
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1851511-4 | Dec 2018 | SE | national |
The present application is a continuation of U.S. application Ser. No. 16/703,280, filed on Dec. 4, 2019, which claims the benefit of Swedish Application No. 1851511-4, filed on Dec. 5, 2018. The entire contents of each of U.S. application Ser. No. 16/703,280 and Swedish Application No. 1851511-4 are hereby incorporated herein by reference in their entirety.
Number | Date | Country | |
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Parent | 16703280 | Dec 2019 | US |
Child | 18154308 | US |