U.S. patent application number 13/567933 was filed with the patent office on 2012-11-22 for method for forming a floor.
This patent application is currently assigned to PERGO (EUROPE) AB. Invention is credited to Magnus Kulik, Goran Martensson.
Application Number | 20120291396 13/567933 |
Document ID | / |
Family ID | 43827140 |
Filed Date | 2012-11-22 |
United States Patent
Application |
20120291396 |
Kind Code |
A1 |
Martensson; Goran ; et
al. |
November 22, 2012 |
METHOD FOR FORMING A FLOOR
Abstract
Floor element (1), which is mainly in the form of a board with
triangular, quadratic, rectangular, rhomboidal or polygonal shape
as seen from above. The floor element (1) is provided with edges
(2), a lower side (7) and a decorative upper layer (3). The floor
elements (1), which are intended to be joined via tongue and groove
are on at least two opposite edges (2), preferably on all edges (2)
provided with holes (4). The holes (4) extends inwards from the
edge (2) mainly parallel to the decorative upper layer (3). The
holes (4) are arranged on a predetermined distance from the
decorative upper layer (3) and on a predetermined distance from a
closest corner between two adjacent edges (2), whereby the holes
(4) are intended to receive each one part of a guiding means
(6).
Inventors: |
Martensson; Goran;
(Klagstorp, SE) ; Kulik; Magnus; (Vellinge,
SE) |
Assignee: |
PERGO (EUROPE) AB
TRELLEBORG
SE
|
Family ID: |
43827140 |
Appl. No.: |
13/567933 |
Filed: |
August 6, 2012 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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12966861 |
Dec 13, 2010 |
8234834 |
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13567933 |
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10642139 |
Aug 18, 2003 |
7131242 |
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12966861 |
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10195408 |
Jul 16, 2002 |
6606834 |
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10642139 |
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10158945 |
Jun 3, 2002 |
7497058 |
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10195408 |
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10019649 |
Feb 22, 2002 |
6729091 |
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10158945 |
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Current U.S.
Class: |
52/745.13 |
Current CPC
Class: |
E04F 2201/023 20130101;
E04F 2201/013 20130101; E04B 1/615 20130101; E04F 2201/07 20130101;
E04F 2201/0115 20130101; E04F 2201/0505 20130101; E04F 15/02
20130101; E04F 2201/0123 20130101; E04F 2201/0107 20130101; E04B
1/6141 20130101; E04F 2201/0523 20130101 |
Class at
Publication: |
52/745.13 |
International
Class: |
E04B 5/00 20060101
E04B005/00 |
Foreign Application Data
Date |
Code |
Application Number |
Mar 7, 1995 |
SE |
9500810-8 |
Claims
1. A method for forming a surface comprising: assembling a first
row of panels edge to edge; attaching a first panel in a second
row, such that an edge of said first panel is mated with at least
one panel of the first row by relatively engaging tongue and groove
elements of said first panel and said at least one panel; said
attaching comprising relatively sliding said first panel in a
horizontal direction, such that an edge of said first panel is
mated with at least one panel of the first row by relatively
engaging at least one hole in an edge of at least one of said first
panel and said at least one panel with a guiding element sized and
shaped to fit within said at least one hole; and, moving by
horizontal motion said first panel toward said at least one panel
to join an edge of said first panel to an edge of said at least one
panel.
Description
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] This application is a continuation application and claims
priority to U.S. application Ser. No. 12/966,861, filed Dec. 13,
2010, which was a continuation-in-part application from U.S.
application Ser. No. 10/642,139, filed Aug. 18, 2003, U.S. Pat. No.
7,131,242 which was a divisional application of U.S. application
Ser. No. 10/195,408, filed Jul. 16, 2002, U.S. Pat. No. 6,606,834,
which was a continuation-in-part application from Ser. No.
10/158,945, filed Jun. 3, 2002, now U.S. Pat. No. 7,497,058, which
was a continuation application from Ser. No. 10/019,649 filed Feb.
22, 2002, now U.S. Pat. No. 6,729,091. All of the above
applications and patents are incorporated by reference herein in
their entireties.
BACKGROUND
[0002] 1. Field of the Invention
[0003] The present invention relates to floor elements which are
joined by means of tongue, groove and separate guiding means.
[0004] 2. Description of the related arts
[0005] Prefabricated board shaped floor elements which are provided
with tongue and groove at the edges are common nowadays. They are
very easy to install whereby this can be accomplished by the
average handy man. Such floor elements can, for example, be made of
solid wood, fibre board or particle board. These are most often
provided with a surface layer such as a lacquer or some type of
laminate.
[0006] The boards are most often installed by being glued together
via tongue and groove.
[0007] This type of floor is usually installed so that the boards
overlap and the latitudinal joint do not coincide. It has therefore
not been any reason to guide the relative longitudinal position
between the boards. Designed installations is very difficult to
achieve without this possibility. One example where it should be
desirable to have coinciding latitudinal as well as longitudinal
joint is completely quadratic or square floor elements. This is
very difficult as scales or a very sure eye and great workman
skills is required if a successful end result is to be achieved. It
is furthermore very easy to dislodge already installed floor
elements when installing new ones. It is also sometimes desired to
have latitudinal joints coincide over, for example, every other or
every third latitudinal joint, when installing with overlap.
[0008] This requirement is foremost present when floor boards with
dissimilar decor is used for creating a decorative effect on larger
floor surfaces. This requirement goes for quadratic as well as
rectangular floor elements.
SUMMARY OF THE INVENTION
[0009] It has, through the present invention, been made possible to
solve the above mentioned problems, whereby a designed floor
installation, even with complex patterns, easily can be installed
with great accuracy, even by the average handyman. Thus, the
invention relates to floor elements which are mainly in the form of
boards with triangular, quadratic, rectangular, rhomboidal or
polygonal shape as seen from above. The floor elements are provided
with edges, a lower side and a decorative upper layer. The floor
elements are intended to be joined by means of tongue and groove.
The invention is characterised in that the floor elements are
provided, in one embodiment, with holes in at least two opposite
edges, preferably all four edges, which holes extends inwards from
the edge mainly parallel with the upper layer. The holes are
arranged at a predetermined distance from the upper decorative
layer and at a predetermined distance from the closest edge between
two adjacent edges. The holes are intended to receive one part of a
guiding means each.
[0010] The holes preferably extend perpendicular to the edge where
the holes are arranged. Alternatively, the holes extend parallel to
the edge which is adjacent to the edge where the holes are
arranged. In cases where the corners of the floor boards are
right-angled the holes preferably extends perpendicular to the edge
where they are arranged and parallel to the edge which is adjacent
to the edge where they are arranged.
[0011] According to one embodiment of the invention, the floor
element has four edges with the same length. Each edge is suitably
provided with each one hole group of two holes. The holes have, in
each hole group, been arranged on a mutual distance of N from each
other and that the distance between a hole and its closest edge is
N/2, whereby the length of the edge is 2N.
[0012] According to a second embodiment of the invention the floor
element has two opposite edges with larger length than the two
remaining edges. The two shorter edges are suitably provided with
each one hole group of two holes. The holes have, in each hole
group, been arranged on a mutual distance of N from each other and
that the distance between a hole and its closest edge is N/2,
whereby the length of the edge is 2N. The two long side edges are
provided with each one hole group of three or more holes of which
the outermost are arranged on a distance of L/2 from the closest
edge while the distance between two adjacent holes arranged on the
long sides is L, whereby the length of the long side edge is an
integer larger than 3L, preferably smaller than 30L.
[0013] The two long side edges are alternatively provided with each
one hole group of three or more holes, of which the outermost holes
are arranged on a distance of L/2 from the respective closest
corner between two adjacent edges. The distance between two
adjacent holes arranged on the long side edge is L, 2L, 3L, 4L, 5L
or combinations thereof. The length L is in both cases suitably
equal to the length N.
[0014] The holes are suitably provided with an inner, gripping
edge. The holes are thereby suitably provided with an inner
gripping edge by milling a groove from the lower side. This groove
is then suitably perpendicular to the hole and thereby parallel to
the edge where the hole, which is intersected by the groove, is
arranged. The hole may alternatively be provided with an inner
gripping edge by milling a step with larger diameter than the hole,
on a predetermined depth.
[0015] The guiding means are then suitably provided with each two
ends which each are provided with one or more resilient
projections. These projections are intended to interact with the
gripping edges of the holes.
BRIEF DESCRIPTION OF THE DRAWINGS
[0016] The invention is further illustrated by means of enclosed
figures showing different embodiments of a flooring material
according to the present invention whereby,
[0017] FIG. 1a shows, seen from above, an embodiment of a floor
element 1 with a quadratic surface.
[0018] FIG. 1b shows the embodiment from figure la showed from the
side.
[0019] FIG. 2 shows, seen from above, a second embodiment of a
floor element 1 with a rectangular surface.
[0020] FIG. 3 shows, seen from above, yet another embodiment of a
floor element 1 with a rhomboidal surface.
[0021] FIG. 4 shows, seen from above, yet another embodiment of a
floor element 1 with a hexagonal surface.
[0022] FIG. 5 shows, seen from above, yet another embodiment of a
floor element 1 with a rectangular surface.
[0023] FIG. 6 shows, seen from above an embodiment of the invention
where quadratic floor elements 1 according to FIG. 1 and
rectangular floor elements 1 according to FIG. 5 together form a
so-called designed installation.
[0024] FIG. 7 shows, seen from above, an embodiment of the
invention where quadratic floor elements from FIG. 1 form a
so-called designed installation.
[0025] FIG. 8 shows, seen from above, an embodiment of the
invention where rectangular floor elements according to FIG. 2 form
a so-called designed installation.
[0026] FIG. 9 shows, seen from above an embodiment of the invention
where rectangular floor elements according to FIG. 5 form a
so-called designed installation.
[0027] FIG. 10 shows, seen from above, an embodiment where
rhomboidal floor elements according to FIG. 2 form a so-called
designed installation.
[0028] FIG. 11 shows, seen from above, an embodiment of the
invention where rhomboidal floor elements according to FIG. 2 and
hexagonal floor elements according to FIG. 4 together form a
so-called designed installation.
[0029] FIG. 12 shows, in cross-section, parts of two floor elements
1 and a guiding means 6 according to one embodiment of the
invention.
[0030] FIG. 13 shows, in cross-section, parts of two floor elements
1 and a guiding means 6 according to a second embodiment of the
invention.
[0031] FIG. 14 shows, in cross-section, parts of two floor elements
1 and a guiding means 6 according to yet another embodiment of the
invention.
[0032] FIG. 15 shows, seen from below, parts of the floor element 1
showed in FIG. 13.
[0033] FIGS. 16-19 disclose various methods of assembling the
panels into a finished structure, such as a floor.
DETAILED DESCRIPTION OF THE INVENTION
[0034] Accordingly, figure la shows, seen from above, an embodiment
of a floor element 1 with a quadratic or square surface, while FIG.
1b shows the embodiment from FIG. 1 as seen from the side. The
floor element 1 is provided with edges 2, a lower side 7 and a
decorative upper layer 3. The floor element 1 is also provided with
groove 11 and tongue 12. The floor element I is, preferably, in all
edges 2 provided with holes 4, which holes typically extend inwards
from the edge 2 mainly parallel to the upper decorative layer 3.
The holes 4 are intended to receive each one part of a guiding
means 6 (FIG. 12). The holes 4 extend parallel to the edge 2 which
is closest adjacent to the edge 2 where the holes 4 are arranged.
The floor elements 1 are on each edge 2 provided with each one hole
group of two holes 3. The holes have, in each hole group, been
arranged on a mutual distance of N. The distance between each hole
4 and its closest corner between two adjacent edges is N/2. the
length of the edge is hereby 2N.
[0035] FIG. 2 shows, seen from above, a second embodiment of a
floor element 1 with a rectangular surface. The floor element 1 is
provided with edges 2, a lower side 7 and a decorative upper layer
3. The floor element 1 is also provided with groove 11 and tongue
12. The floor element 1 is in all edges 2 provided with holes 4,
which holes extend inwards from the edge 2, mainly parallel to the
upper decorative surface 3. The holes 4 are intended to receive
each one part of a guiding means 6 (FIG. 12). The holes 4 extend
parallel to the edge 2 which is closest adjacent to the edge 2
where the holes 4 are arranged. The two shorter edges 2 are each
provided with each one hole group of two holes 4, which holes have,
in each hole group, been arranged on a mutual distance of N. The
distance between each hole 4 and its closest corner between two
adjacent edges is N12. The length of the edge is hereby 2N. The two
longer edges are provided with one hole group of five holes 4 each.
The outermost holes has been arranged on a distance L/2 from its
respective closest edge 2 while the distance between two adjacent
holes 4, on the two longer edges 2, is L. The length of the longer
edge 2 is thereby 5L. The length L is equal to the length N.
[0036] FIG. 3 shows, seen from above, yet another embodiment of a
floor element 1 with rhomboidal surface. The floor element I is
provided with edges 2, a lower side 7 and a decorative upper layer
3. The floor element 1 is also provided with groove 11 and tongue
12. The floor element 1 is in all edges 2 provided with holes 4,
which holes extends inwards from the edge 2, mainly parallel to the
upper decorative surface 3. The holes 4 are intended to receive
each one part of a guiding means 6 (FIG. 12). The holes 4 extend
parallel to the edge 2 which is closest adjacent to the edge 2
where the holes 4 are arranged.
[0037] According to an alternative embodiment the holes extend
parallel to the edge 2 which is adjacent to the edge 2 where the
holes 4 are arranged. This orientation of the holes 4 facilitates
certain forms of design installations.
[0038] The floor element 1 may on all edges 2 be provided with each
one hole group of two holes 4. The holes 4 have, in each hole
group, been arranged on a mutual distance of N. The distance
between each hole 4 and its closest corner between two adjacent
edges is N/2. The length of the edge is hereby 2N.
[0039] FIG. 4 shows, seen from above, yet another embodiment of a
floor element 1 with a hexagonal surface. The floor element 1 is
provided with edges 2, a lower side 7 and a decorative upper layer
3. The floor element 1 is also provided with groove 11 and tongue
12. The floor element 1 is on all edges 2 provided with holes 4,
which holes 4 extend inwards from the edge 2, mainly parallel to
the upper decorative surface 3. The holes 4 are intended to receive
each one part of a guiding means 6 (FIG. 12). The holes 4 extend
parallel to the edge 2 which is closest adjacent to the edge 2
where the holes 4 are arranged. The floor element 1 is on all edges
2 provided with each one hole group of two holes 4. The holes 4
have, in each hole group, been arranged on a mutual distance of N.
The distance between each hole 4 and its closest corner between two
adjacent edges is N/2. The length of the edge is hereby 2N.
[0040] FIG. 5 shows, seen from above, yet another embodiment of a
floor element 1 with rectangular surface. The floor element 1 is
provided with edges 2, a lower side 7 and a decorative upper layer
3. The floor element 1 is also provided with groove 11 and tongue
12. The floor element 1 is in all edges 2 provided with holes 4,
which holes extend inwards from the edge 2, mainly parallel to the
upper decorative surface 3. The holes 4 are intended to receive
each one part of a guiding means 6 (FIG. 12). The holes 4 extends
perpendicular to the edge 2 where the holes 4 are arranged. The
holes 4 furthermore extend parallel to the edge 2 which is closest
adjacent to the edge 2 where the holes 4 are arranged. The two
longer edges 2 are provided with one hole group of eight holes 4
each. The outermost holes has been arranged on a distance L/2 from
its respective closest edge 2 while the distance between two
adjacent holes 4, on the two longer edges 2, is L and 3L
respectively. The length of the longer edge 2 is thereby 12L. The
length of the shorter edges 2 is 2L.
[0041] The floor element may also, as shown in FIG. 2, be provided
with holes 4 on the two shorter edges 2. These edges 2 are then
provided with one hole group of two holes 4 each. The holes 4 are
then arranged with a mutual distance of L. The distance between
each hole 4 and its closest corner between two edges 2 are L/2.
[0042] The length of the edge 2 is as before 2L.
[0043] FIG. 6 shows, seen from above, an embodiment of the
invention where quadratic floor elements 1 according to FIG. 1 and
rectangular floor elements 1 according to FIG. 5 together form a
designed installation. Tongue 12 and groove 11 is for the matter of
clarity not shown. The quadratic floor elements 1 correspond
completely to the one shown in FIG. 1. The rectangular floor
elements 1 correspond mainly with the one shown in FIG. 5, the two
shorter edges are however provided with holes 4 which correspond to
the edges 2 of the quadratic floor element I. The installation can
accordingly be initiated by joining five quadratic floor elements 1
by means of one or two guiding means 6 (FIG. 12) per floor element
so that a rectangular unit is formed. This may then be joined with
a rectangular floor element 1 by means of one or more guiding means
so that a part corresponding to 2L of the longer edge on the floor
element 1 is left free. The quadratic floor elements 1 may
alternatively be joined directly with the rectangular floor element
1 without first having to be joined with each other.
[0044] Another rectangular floor element 1 is then joined at an
angle, with the already joined floor elements 1. One or more
guiding means are used also here for the positioning of the floor
elements 1. Further quadratic floor elements 1 are added to the
already installed floor elements 1 until a square consisting of
twenty-five quadratic floor elements 1 is formed. Another two
rectangular floor elements 1 are then assembled at an angle so that
the four rectangular floor elements 1 together forms a frame around
the quadratic floor elements 1. Guiding means 6 are foremost used
for the positioning the rectangular floor elements 1 to each other
as they give the main shape of the installation pattern. Guiding
means 6 should however be used on at least every first row of
quadratic floor elements 1. The arrows illustrates how further
floor elements I are joined with the previously installed.
[0045] A floor element 1 most often includes a core covered with an
upper decorative layer 3. The core is most often comprised by wood
particles or wood fibre bonded with resin or glue. It is
advantageous to surface treat the area around the joint if the
floor is to be exposed to moisture since the wood of the core is
sensitive to moisture. This surface treatment may suitably include
resin, wax or some kind of lacquer. It is not necessary to surface
treat the joint if it is to be glued as the glue itself will
protect the core from moisture penetration. The decorative upper
layer 3 is constituted by a decorative paper impregnated with
melamine formaldehyde resin. One or more layers of so-called
overlay paper of a-cellulose which is impregnated melamine
formaldehyde resin may possibly be placed on top of this,
[0046] One or a few of these layers may be sprinkled with hard
particles of a aluminium oxide, silicon carbide or silicon oxide
during the impregnation in order to improve the abrasion
resistance. The lower side 7 may suitably be surface treated with
lacquer or a layer of paper and resin.
[0047] FIG. 7 shows, seen from above, an embodiment of the
invention where quadratic floor elements 1 according to FIG. 1 form
a so-called designed installation. The quadratic floor elements 1
correspond completely with the ones shown in FIG. 1. The
installation can accordingly be initiated by joining quadratic
floor elements 1 by means of one or two guiding means 6 (FIG. 12)
per floor element 1 so that a unit is formed. The floor elements 1
can be joined so that both longitudinal and latitudinal joints
coincides or so that the longitudinal and latitudinal joints are
displaced by 1 N, i.e., half of the floor element edge. Guiding
means 6 are foremost used for positioning the rows towards another
so that the latitudinal joints coincides over the whole floor
without forming curves. It is not necessary to use guiding means 6
on every floor element 1. Guiding means 6 should, however, at least
be used when joining the outer rows of quadratic floor elements
1.
[0048] FIG. 8 shows, seen from above, an embodiment of the
invention where rectangular floor elements according to FIG. 2 form
a so-called designed installation. The groove 11 and tongue is for
the sake of clarity not shown. The rectangular floor elements 1
correspond completely with the one shown in FIG. 2. The
installation can accordingly be initiated by joining two or more
floor elements to a row by means of on or more guiding means 6
(FIG. 12) per floor element 1 so that a unit is formed. Further
rows are then added to this first row, At least one guiding means 6
per row is used. These should be placed closest to the most visible
pattern, which in the FIG. 8 is illustrated by a number of darker
boards, comparable to a crosswalk, if only a few guiding means 6 is
used. It is however advantageous to use a full set of guiding means
6 when installing at least the first row of floor elements 1.
[0049] FIG. 9 shows, seen from above, an embodiment of the
invention where rectangular floor elements 1 according to FIG. 5
form a so-called designed installation. The groove 11 and tongue is
for the sake of clarity not shown. The installation corresponds in
the main with the one illustrated in FIG. 8. The floor is however
installed so that the latitudinal joints coincides over every third
row.
[0050] The arrow illustrates how next design carrying floor element
1 is joined with the previously installed ones.
[0051] FIG. 10 shows, seen from above, an embodiment of the
invention where rhomboidal floor elements according to FIG. 3 forms
a more advanced designed installation. The holes 4 (FIG. 3) are
however arranged parallel to the edge 2 which is closest to the
edge 2 where the holes 4 are arranged. The groove 11 and tongue is
for the sake of clarity not shown. Six rhomboidal floor elements 1
with a dark design are assembled by means of guiding means 6 so
that the shape of a six-pointed star is formed. a number of
rhomboidal floor elements 1 with a lighter design may then be
joined around the already installed floor elements 1 by means of
guiding means 6. Arrows illustrate how further floor elements 1 are
joined with the already installed ones.
[0052] FIG. 11 shows further, seen from above, an embodiment of the
invention where rhomboidal floor elements 1 according to FIG. 2 and
hexagonal floor elements according to FIG. 4 together form an
advanced designed installation. The holes 4 (FIG. 3) of the
rhomboidal floor elements 1 are however arranged parallel to the
edge 2 which is closest to the edge 2 where the holes 4 are
arranged. The groove 11 and tongue is for the sake of clarity not
shown. The floor elements 1 are gradually joined by means of
guiding means 6. Arrows illustrate how further floor elements 1 are
joined with the previously installed.
[0053] FIG. 12 shows, in cross-section, parts of two floor elements
1 and one guiding means 6 according to one embodiment of the
invention. The floor elements 1 are provided with edges 2, a lower
side 7 and a decorative upper layer 3. The floor elements 1 are
intended to be joined by means of tongue 12 and groove 11. The
floor elements 1 are at their edges 2 provided with holes 4, which
holes 4 extend inwards from the edge 2 mainly parallel with the
decorative upper layer 3. The holes are arranged on a predetermined
distance from the decorative upper layer 3 and on a predetermined
distance from the closest corner (FIG. 1) between two adjacent
edges 2. The holes 4 are intended to each receive one part of a
guiding means 6.
[0054] FIG. 13 shows, in cross-section, parts of two floor elements
1 and one guiding means 6 according to another embodiment of the
invention. The floor elements 1 are provided with edges 2, a lower
side 7 and a decorative upper layer 3. The floor elements 1 are
intended to be joined by means of tongue 12 and groove 11. The
floor elements 1 are at their edges 2 provided with holes 4, which
holes 4 extend inwards from the edge 2 mainly parallel with the
decorative upper layer 3. The holes are arranged on a predetermined
distance from the decorative upper layer 3 and on a predetermined
distance from the closest corner (FIG. 1) between two adjacent
edges 2. The holes 4 are intended to each receive one part of a
guiding means 6. The holes 4 are provided with an inner gripping
edge 4' which is achieved by milling a groove 4'' from the lower
side 7. See also FIG. 15. The groove 4'' is perpendicular to the
hole 4 and thereby parallel to the edge 2 where the hole 4, which
is intersected by the groove 4'', is arranged. The guiding means 6
is provided with two ends 6' each, which each are provided several
resilient protrusions 60 which are intended to interact with
gripping edges 4' of the holes 4 during assembly.
[0055] FIG. 14 shows, in cross-section, parts of two floor elements
1 and one guiding means 6 according to yet another embodiment of
the invention. The floor elements I are provided with edges 2, a
lower side 7 and a decorative upper layer 3. The floor elements 1
are intended to be joined by means of tongue 12 and groove 11.
[0056] The floor elements 1 are at their edges 2 provided with
holes 4, which holes 4 extend inwards from the edge 2 mainly
parallel with the decorative upper layer 3.
[0057] The holes are arranged on a predetermined distance from the
decorative upper layer 3 and on a predetermined distance from the
closest corner (FIG. 1) between two adjacent edges 2. The holes 4
are intended to each receive one part of a guiding means 6. The
holes 4 are provided with an inner gripping edge 4' which is
achieved by milling a step with larger diameter than the holes 4 on
a predetermined depth after the drilling. The guiding means 6 is
provided with two ends 6' each, which each are provided several
resilient protrusions 60 which are intended to interact with
gripping edges 4' of the holes 4 during assembly.
[0058] FIG. 15 shows, seen from below, parts of the floor element 1
shown in FIG. 13.
[0059] The holes 4 are provided with an inner gripping edge 4'
which is achieved by milling a groove 4'' from the lower side 7.
See also FIG. 13. The groove 4'' is perpendicular to the hole 4 and
thereby parallel to the edge 2 where the hole 4, which is
intersected by the groove 4'', is arranged.
[0060] The invention is not limited by the embodiments shown, since
these can be varied in different ways within the scope of the
invention. It is for example most advantageous to use glue when the
floor elements 1 are to be joined even when embodiments with holes
4 having gipping edges 4' and guiding means with resilient
protrusions 70 are used. These are foremost used for positioning
the floor elements 1 so that gaps can be avoided and that a
designed installation can be achieved by the one not skilled in the
art without any need of special tools.
[0061] Floor elements 1 most often also includes a core covered
with an upper decorative layer 3. The core is most often comprised
by wood particles or wood fibre bonded with resin or glue. It is
advantageous to surface treat the area around the joint if the
floor is to be exposed to moisture since the wood of the core is
sensitive to moisture. This surface treatment may suitably include
resin, wax or some kind of lacquer. It is not necessary to surface
treat the joint if it is to be glued as the glue itself will
protect the core from moisture penetration. The decorative upper
layer 3 is constituted by a decorative paper impregnated with
melamine formaldehyde resin. One or more layers of so-called
overlay paper of a-cellulose which is impregnated melamine
formaldehyde resin may possibly be placed on top of this. One or a
few of these layers may be sprinkled with hard particles of
a-aluminium oxide, silicon carbide or silicon oxide during the
impregnation in order to improve the abrasion resistance. The lower
side 7 may suitably be surface treated with lacquer or a layer of
paper and resin.
[0062] FIGS. 16-19 are illustrative of various ways to assemble the
panels according to the invention. In each of these Figs. A and B
represent two panels assembled in a first row, C represents a first
panel assembled in a second row and D represents a new panel to be
assembled so as to adjoin said first and second rows. All of such
new panels D are assembled by horizontally pushing the new panel D
in one of the following steps.
[0063] In FIG. 16, new panel D is engaged at its "short side" 401
with a short side 402 of panel C and is horizontally pushed in the
direction of arrow 501 so as to slide along the short side 402 of
panel C with panel D's respective locking means, for example, upper
and lower snapping webs, are received in the respective upper and
lower snapping grooves of panel C and until the "long sides" 403 of
panel D engages with the edges 404,4 05 of panels A and B.
[0064] In the alternative installation method of FIG. 17, new panel
D is engaged at its long side 403 with the long side 405 of panel B
and horizontally moved along arrow 602 until panel D's short side
401 engages with short side 402 of panel C. The horizontal motion
does not require that any of the panels be "tilted" or "angled" out
of the plane of the paper in order to joint the new panel D with
any of the previously laid panels A-C.
[0065] Still further, new panel D may be simultaneously assembled
with short side 402 of panel C and the long sides 404 and 405 of
panels A and B by exerting a force in the direction of arrow 202 as
shown in FIG. 18. In one preferred embodiment, a special tapping
block (not shown) configured to engage with the tongue and groove
segments of new panel D can be used to horizontal urge panel D into
simultaneous engagement with each of panels A, B, and C.
[0066] FIG. 19 shows a "double" horizontal push method of
assembling a new panel into engagement with previously laid panels.
In this embodiment, new panel D is placed with its long side 403 at
a distance (for instance, 2 cm) from the long sides 404 and 405 of
panels A and B, respectively. Then the new panel D is pushed
horizontally in the direction of arrow "a" until the short side of
401 of panel D snaps together with the short side 402 of panel C.
Then, panel D is pushed horizontally in the direction of arrow "b"
(while still engaged with panel C along the joint formed by short
side 402 of panel C and short side 401 of panel D) until the side
403 of panel D snaps together with the long sides 404 and 405 of
panels A and B, respectively.
[0067] Thus, we have disclosed not only a configuration of making
panels having unique tongue and groove configurations which permit
"glueless" assembly of the panels by a click system, but also a
method of assembling such panels into a finished structure, such as
a floor.
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