Note: Descriptions are shown in the official language in which they were submitted.
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SYSTEM AND METHOD FOR TWO SIDED SHEET
TREATING
. TECHNICAL FIELD ~ . '
The present invention relates generally, to the manufacture of laminated
products such
. ~ as may be used far decorative flooring, counter and table tops, and wall
panels, and more
.. sp~ifically, to~systeins and methods for manufacturing such products by
applying a.coating of
the same or different materials.on opposing sides of a laminate material.
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2
BRIEF DESCRIPTION OF THE PRIOR ART DRAWING
FIGURE I shows a schematic of a laminate assembly with the different layers of
laminate
material.
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3
BACKGROUND
The ability to replicate natural materials has substantially improved over the
years.
For example, decorative laminates have replaced natural materials in-the
construction of
furniture, cabinets, counter tops, flooring panels and other surfaces. In each
of these
applications, a decorative surface may be applied to a core layer or
substrate, namely,
plywood, particle board, chipboard, medium density fiberboard, etc. Often, a
backing layer is
secured to the opposite surface of the substrate to balance the laminates or
provide other
benefits.
Generally., the decorative surface and the backer layer will include one ar
more kraft
paper layers which are adhesively laminated together using various materials,
such as
melamine formaldehyde arid pheiiolic resins. As shown in FIGURE 1, a high
pressure
laminate 11 may comprise a very thin overlay sheet 12 impregnated with
melamine resin, ~a
decorative sheet 13 disposed thereunder, and sheets 14 and 15 of kraft paper
impregnated
with phenolic resin disposed below the decorative sheet.
The melamine impregnated overlay sheet 12 fornn.s a hardened layer on the
surface of
the decorative sheet. This hardened layer of the decorative laminate is used
to protect the
surface of laminate 11, such as by making the laminate scratch and abrasion
resistant. The
melamine impregnated overlay also prevents discoloration or deformity ofthe
laminate . ~,
surface due to various external 'factors, such as high pressure and
temperature and other
ordinary stresses which occur in the environment where such laminates are
typically used.
Furthermore, the overlay sheet is also capable of easily withstanding the
thermal or chemical
strains occurring in these environments. For example, the melamine overlay
sheet protects
the laminate from discoloring when a very hot substance, such as tea or
coffee, or a very cold
substance, such as ice, spills on the surface of such a laminate. Thus, the
melamine coating
~ can withstand the very high and very low temperatures to which the laminate
is exposed in
everyday' use.
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However, the overlay sheet 12 itself may cause warping of the laminate panel
under
extreme hot, cold, or dry conditions. The conventional substrate or core layer
16 may not be
able to withstand the pressure created by the movement of the melamine overlay
of the
decorative surface under these extreme conditions and may deform, delaminate,
or in extreme.
cases, break due to the pressure exerted by the melamine overlay layer 12.
Therefore, backer
type_laminates-may be used for many applications, such as t4 providebalaneing
shee#s on the
bottom of decorative laminates. ~ These backer.laminates may comprise a
discrete melamine
impregnated balancing layer 19 to balance the melamine layer of the decorative
surface, and
sheets of phenolic resin impregnated kraft paper 17 arid 1 g to correspond
to.the layers in the
decorative laminate. 'The balancing layer 19 used in prior art systems is
similar to the .overlay
sheet 12 of the decorative surface and uses the same material as the overlay
sheet. However,
the balancing layer 19 may or may not_be transparent as it is usually not
visible. 12: The
discrete melamine impregnated balancing layer 19 when used in a backer
laminate prevents
warping of the laminate due to the movement of the melamine layer 12 of the
decorative
surface under extreme conditions.
Typically,, in prior art systems, sheets of kraft paper are impregnated with
phenolie
resin by submerging them in a vat which is failed with pheliolic resin and
then curing the
phenolic resin impregnated kraft paper. The kraft paper soaks up a desired
amount of
phenolic resin based on the time it is left in the vat and the level of
submergence. This
method of impregnating the kraft paper is generally not cost effective as it
requires large vats
providing substantial resin pool surface areas in order to allow the proper
immersion of a
portion of a continuous roll of kraft paper. These large pool surface areas
result in wasteful
use of phenolic resin as the large vat surface area is prone to collection of
contaminants and
to the escaping of resin vapors thus causing variations in the percentage of
solids and/or other
controlled attributes of the resin requiring substantial portions of the resin
to be disposed of
from time to time, Moreover, when the resin impregnated kraft paper is being
manufactured
using such vats, fumes are created during the process which are harmful to the
workers in the
vicinity of the manufacturing process: All of this is compounded by the fact
that such vats of
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S
phenolic resin, or other resins, are difficult to clean requiring an
inordinate amount of time to
.properly clean the vats that have been used for impregnating the kraft sheets
with phenolic
resin.
The melamine impregnated sheet used iwthe decorative and.backer layers is
usually
not a kraft paper sheet but rather a very thin sheet specifically adapted,
such as by controlling
strand orieTtta~tion, density, and porosity to carry_the melamine:resin.
I~raftpaper sheets are
typically not suitable to act as a carrier for melamine because the porosity,
strand orientation,
and density of kraft paper~sheets are not adapted for this purpose although
they are well suited
for phenolic resin impregnation. Typically, a suitable sheet is impregnated
With melamine by
coating both sides of the sheet with melamine fonnaidehyde resin and then
removing excess.
resin from the sheet. The melamine formaldehyde .coated sheet is cured under
controlled
conditions to produce the melamine impregnated sheet which may be used both in
decorative;
and backer laminates. .
The laminates which are manufactured by using the plienolic resin impregnated
kraft
paper sheets and the melamine impregnated sheets as described above are made
by a bulky
manufacturing press which is expensive to operate. Thus, it is nat cost
effective or desirable
to use the press to produce individual laminates. Therefore, in the typical
manufacturing
prbcess a plurality of laminates are produced from each press during each
press cycle to make
the most efficient use of the press.
Typically, in such a press system pairs of laminate assemblies, similar to the
laminate
assembly shown iri FIGURE 1, with or without pattern layer 13, are positioned
back-to-back
with the phenolic resin impregnated kraft paper sheet 15 ~of one laminate
assembly facing the
phenolic resin impregnated krafl paper sheet of a second laminate assembly
with a discrete
release sheet disposed there between as described below. These pairs of
laminate assemblies
are separated from other laminate assembly pairs by metal sheets or press
plates. Usually
during the manufacturing process each laminate~assembly I1 also includes a
sheet, known as
release sheet: The release sheet is usually kraft paper which has been coated
with a release
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agent owat least one side. This release sheet is placed at the end of each
laminate assembly
adjacent to the phenolic resin impregnated kraft'paper layer 15 away from.the
press plates to
provide a release mechanism between the paired laminate assemblies. The
release sheet
facilitates easy separation of the laminate assemblies after pressing as the
release agent will
. not allow cross linking of the laminate assemblies at least with respect to
the side of the
linate assembly to which the release sheet is applied.
Typically these laminate assemblies are subjected to a pressure and
temperature for a
time sufficiently long enough to cure the laminating resins impregnating the
.respective layers.
The high temperatures and pressure cause the resins within the sheets to flow
which
consolidates the whole into an integral mass. Thus, typically the discrete
melamine layer
sticks to the phenolic resin impregnated kraft'paper layer disposed adjacent
to it due to the
migration of the phenolic resin into at least a portion of the discrete
melamine layer to
provide structural cross linking. Accordingly, the melamine sheet generally
adds to the
thickness or bulk of the laminate.
The conventional laminates produced by the above described prior art systems
may
then be cut to size and employed in a variety of applications such as
decorative surfaces for
desktops, tabletops,' wall panels, and the like such as by bonding them to a
core layer or
substrate with a conventional adhesive such as contact cement. These laminates
may also be
used as backer layers common in laminated flooring products.
When such a laminate is used as a decorative laminate, the melamine layer in
the
laminate may be used to protect the surface of the decorative laminate. As
mentioned above,
however, such a use of a melamine layer on a decorative side of a laminate may
necessitate
the use of a melamine layer on a backer-to provide balancing. When such a
laminate is used
as a backer laminate, the melamine impregnated sheet acts mostly as a carrier
for melamine in
order to provide a melamine layer to counteract the stress created by the
melamine sheet of
the decorative laminate to prevent warping of the laminate.
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The use of a discrete melamine sheet during pressing of laminate assemblies as
described above presents certain disadvantages. The melamine sheet itself
contributes
substantially to the material cost of the manufactured laminate as the
melamine sheet is
generally more expensive than the kraft paper sheets. As discussed above,
kraft paper is not a
good carrier of melamine. Thus, a different kind of thin sheet is usually
adapted to provide
he necessary-strand ori-entation, density, and porosity, to ena>tle-it to act-
as a carrier for
melamine. This requires a complete additional processing step t~ provide a
discrete sheet
coated with melamine. Also, as the melamine sheet of prior art systems is very
thin, it may
easily be damaged during handling, resulting in substantial losses due to
handling spoilage.
Furthermore, as the melamine sheet is an additional sheet: that has to be
processed, there are
substantial processirig costs, such as handling and collating costs, scrap
losses due to the
brittle and difficult to handle natuie of the melamine impregnated sheet, in
addition to the
costs associated with impregnating the sheet itself with melamine.
Furthermore, in case of
backer laminates, the translucent character of the overlay sheet, although
present due to the
same sheet being used for providing a decorative overlay being used for backer
purposes, is
not generally necessary.
Moreover, in order to achieve the desired thickness of the laminate assembly
and still
allow the use of a discrete melamine sheet, more sheets of thinner material
instead of fewer
sheets of thicker material have to be used. This increases the manufacturing
overhead as a
greater number of sheets have to be handled and processed before they can be
used in the
laminate assembly. Such handling and processing may include impregnating the
sheets with
phenolic resin, cutting the sheets to the desired size, and collating the
sheets for subsequent
pressing.
Furthermore, since the overlay sheet becomes part of the laminate after
pressing, at
Least one sheet of the laminate does not include phenolic resin saturation to
provide structural
bonding; but rather relies on migration of the resin from an adjmining sheet.
Thus, prior art
systems do riot provide consistent structural bonding between the different
layers of the
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g
laminate as the phenolic resin saturation of at least. one layer is less than
the other layers.
Therefore, the, structural bond between different layers of the
laminate.assembly are not the
same and may result in earlier delamination of a layer of the laminate.
It should be clear that the use of the melamine impregnated sheet contributes
substantially to the cost of the manufactured laminate and also adds to the
product cycle time.
'riot any-are there raw-materiat, casts -involved with the use of-a separate
melamine sheet, but.
also substantial undesirable processing costs are. inherent with such a use.
Thus, there is a need in the art for a system and method of manufacturing
laminates
using the advantages offered by rnetamine impregnated sheets as a discrete
sheet in laminates"
without introducing unnecessary costs, handling steps, or structural
disadvantages attendant
with the use of prior art discrete melamine sheets.
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SLm2MARY OF THE INVENTION
These and other objects, features and technical advantages are achieved by a
system
and method for coating different surfaces of laminate material, such as a
sheet of kraft paper,
with materials having desired characteristics.
Accordingly, in a preferred embodiment of the present invention, one side of a
sheet,
- such as-a-kTai~p~aper-orottter-laminatematerixltzsed-in constrrxctitrg-
a~laminated-pro-duct-, is
coated with a substance providing frst desired characteristics.' For example,
it may be
desirable that a backer layer of a laminated product contain a laminate
material impregnated
or coated with a substance to balance or counteract the pressure created by a
layer of the
decorative, side that has been impregnated or coated with the same substance
to protect the
laminated product from strains associated with everyday use of such products.
Such strains
may include scratches; nicks, marks and other stresses that are present in the
environment
where the laminate is typically used. Therefore, in a preferred embodiment of
the present
invention, a laminate material, such as kraft paper, used in such a backer
layer, is coated or
impregnated with such a substance to provide the desired characteristics to
the laminate. For
example, melamine may be used to coat one side of the kxaft paper, to provide
the desired
balancing (and/or protective) characteristics to the kraft paper. Moreover,
certain acrylics and
polyesters may also be used to provide the desired balancing (andJor
protective)
characteristics.
According to this embodiment of the invention, axiother side of the kraft
paper is
coated with a substance providing second characteristics desirable in the end
pmduct. For
example, with laminates it may be-desirable to coat an opposing side of the
kraft paper with
phenolic resin in order to provide desired mechanical bonding with additional
layers of kraft
paper or other laminate material.
Although described above with respect to the use of melamine as providing a,
desired
balancing (and/or protective) characteristic; it should be appreciated that
any substance
providing desired characteristics may be used.without departing from the
spirit of the present
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.
invention. Likewise there is no limitation to the use of phenolic resin on a
second side of the
laminate material and any material providing characteristics desirable in the
end product may
be used. Also, if desired, the second side of the sheet may be left uncoated.
Preferably, reverse roll coating in which a roll of paper is unwound and
passed over a
5 series of rollers such that-one side of the paper is treated with a
substance providing first
desired characteristics and the other side is treated with a substance
providing secondwdesired
characteristics, is used to provide precisely controlled application of
desired substances to the
laminate material. However, although reverse roll coating is used in a
preferred embodiment,
any process suitable for precisely treating different surfaces of a laminate
material may be
10 used according to the present invention:
The present invention provides advantages not available in the prior art. For
example,
the laminate material so treated serves the function of a balancing sheet in a
laminate
assembly, eliminating the need for a separate melamine sheet such as in the
backer layer of a
laminate. Also, if desired the laminate material may be used in a decorative
laminate to
provide desired protective characteristics to the. laminate. This sheet of
laminate material
may then be laminated with other laminate material sheets to manufacture a
laminate of the
desired thickness and having the desired characteristics. 'Thus, the overhead
associated with
the raw material costs, handling, and coating of the discrete melamine
impregnated sheets of
the prior art is eliminated while providing desired attributes in the
laminated assembly. For
example, the preferred embodiment wherein phenolic resin is provided on a side
of this sheet
results in a final sheet in the laminate assembly having structural attributes
consistent with
those of the other laminate materials of the laminate assembly due to this
sheet utilized for
providing the balancing (andlor protective) functionality also having the
phenolic resin.
Moreover, the kraft paper sheet, which is coated on both sides with different
or same
substances according to the preferred embodiment of the present invention,
itself is less
expensive than the balancing (andlor protective) sheetysed in prior art
systems. Also, other
thicker sheets of kraft paper may be used instead of the thinner sheets of
kraft paper used in
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11
prior art systems because there is. no need to account for the thickness of
the balancing sheet
in the manufacture of the laminate. These thicker sheets, including the less
expensive coated
sheet of the preferred embodiment, are easier to handle than the thanner
sheets, and are less
easily torn, thus reducing wastage due to scrap during handling. Furthermore,
fewer sheets
are riow required to be cut to the desired size and there is less handling and
lay up costs at the
laminate manufacturing_plant.
The present invention also provides more control of the final thickness of the
laminate ~ .
since the thickness 'of the laminate materials used may now be selected
without concern for
the thickness of a balancing sheet which must be accounted for in the total
thickness of the
laminate assembly but which cannot be relied upon for providing the mechanical
integrity of
the sheets treated to provide the above mentioned cross linking.
Therefore, it is an object of the present invention to provide a system and
method for
coating a. sheet with different materials on different surfaces of the sheet.
It is another object of the present invention to coat one surface of a sheet
with a
material to provide first desirable characteristics and at the same time to
reduce the .
manufacturing steps required far an end product and/or the cost of the end
product.
It is a further object ofthe present invention to coat another surface of the
sheet with a
different or similar substance to provide second chuacteristics that are
desirable in the end
product.
It is a further object of the present invention to cost one surface of a sheet
with a
material to provide desirable balancing andlor protective characteristics and
at the same time
to reduce the manufacturing steps required for an end product andlor; the cost
of the end
product.
It is a further object of the present invention to provide a single sheet with
first
characteristics and second characteristics desirable in the end product
thereby providing both.
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12
benefits in a single sheet:and at the same time reducing costs associated with
wastage and
handling of the sheets.
It is a still further object of the present invention to provide a system and
method for
two sided coating a kraft paper such that one side is coated with a balancing
agent and the.
other side is coated with a bonding agent thereby eliminating. the need to use
balancing sheets
a laminate to_pravide amore~cost efficient manufacturin~p>~o~ess.
It is a still further object of the present invention to. reduce the cost
of:producing
laminates and also to reduce the production cycle by eliminating steps from
the
manufacturing process of the prior art. .,
It is a still further object of the present invention to provide a method and
system of
producing laminates without the need to use discrete balancing sheets.
The foregoing has outlined rather broadly the features and technical
advantages of the
present invention in order that the detailed description of the invention that
follows may be
better understood. Additional features and advantages of the invention will be
described
hereinafter which form the subject of the claims of the invention. It should
be appreciated by
those skilled in the art that the conception and specific embodiment disclosed
may be readily
utilized as a Basis for modifying or designing other structures for carrying
out the same
purposes of the present invention. It should also be realized by those skilled
in the art that
such equivalent constructions do not depart from the spirit and scope of the
invention as set
forth in the appended claims.
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13
BRIEF DESCRIPTION OF TY3E DRAWINGS
For. a more complete understanding of the present invention, and the
advantages,
theieof, reference is now made to the following descriptions taken-in
conjunction with the
accompanying drawings, in which:' ~ . ~ .
FIGURE 2, shows a system for reverse roll coating a sheet with two substances
on
different surfaces of the sheet; ~ ~ , . ~ v
FIGURE~ 3 shnw~ a'schematic- of a sheet that lass been-coated fln both Sides
according
to the present invention; . ~ .
. FIGURE 4 shows a schematic of a preferred embodiment metering device adapted
for
use according to the present invention; ' . .
' FIGURE .5~is.a table comparing the results of eXperimental testing performed
on the
sheet of FIGURE 3 with a prior art laminate material; and .
. . .
FIGURES 6A and 6B aie graphical representations of the results of the table of
FIGURE S. . . ~ .
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DETAILED DESCRIPTION
FIGURE 2 shows a preferred system 20 for applying substances to opposing
surfaces
of a sheet S. The system comprises; a sheet S in the form of a roll 201, a
series of rollers 202,
203, 204, 205, 206, 207, 208, 209, and 217, two pans 210, 213, metering
devices 212, 216
and a curing device 215 such as may be an oven for applying'a controlled
amount of heat for
subsequent curing of a coating substance. Pans 210 and 213 contain substances
211 and 214,
respectively: Substances 211 and 214 iriaybe the same substance or they may be-
different
substances that are applied on different surfaces of sheet S. Metering devices
212 and 216
control the amount of substance 211 and substance 214, respectively, remaining
on sheet 5.
Sheet S is unwound and passed along rollers 202, 203, 204, 205, 206, 207, 208,
209
and 217 to curing device 215. Rollers 207 and 209 are coating rollers adapted
to rotate
within pans 210 and 213. Coating roller 207 which is adapted to be partly or
totally
submerged in substance 211 contained in pan 210 maybe used to coat one side of
sheet S.
Similarly, coating roller 209 which may be adapted to be partly or totally
submerged in
substance 214 contained in pan 213 may be used to coat the other side of sheet
S. Rollers
202, 203, 204, 205, 206 maintain a uniform tension on the surface of sheet S
and prevent it
from slacking and/or tearing. The tension on sheet S maybe varied by adjusting
the speed of
the rollers and/or the pressure exerted thereon by idler rollers 202, 203,
204, 205, andJor 206.
Although a series of rollers 202, 203, 204, 205, 206, 207; :?08, 209 and 217
are shown in the
preferred system, the operation of the present irivention does not require
that all these rollers
be used. For example, only select ones of these rollers may be provided
depending on the
desired tension and pressure to be.applied on sheet S.
Substance 211 is fed into pan 2L0 by means of a pump (not shov~m). The level
of
substance 2I 1 in pan 210 may be controlled by the pump such that the pump
automatically
feeds more substance 211 to pan 210 whenever substance 211 falls below a
certain level.
Roller 207 may be submerged in substance 211 up to a desired level depending
on the
amount of substance 211 needed to coat one side of sheet S. Moreover, the
desired amount of
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substance 211 to be coated on one side of sheet S may also be controlled by
the pump. Thus,
when coating roller 207 rotates in pan 210, the surface of roller 207 is
coated with substance
21 l and when the first surface of sheet S comes in contact with roller 207,
roller 207 coats the
first surface of sheet S with the desired amount of substance 211. l~Toreover,
by controlling
the speed of the rollers the amount of time that different parts of sheet
Srert~ain iri contact
with roller 207 may be controlled, thus, further controlling the amount of
substance 211 that
is applied to different parts of sheet S. Similarly, by increasing/decreasing
the pressure at
which sheet S engages roller 207, the amount of substance 211. that is applied
may be varied.
This pressure,may be adjusted, for example, by adjustment to the
aforementioned tension of
10 sheet S.
Furthermore, as shown in FIGURE 2, sheet S passes between coating roller 207
and
roller 217 such that one surface of sheet S is in contact with roller 207 and
the other surface is
in contact with roller 217. Roller 2I7 may be used to apply pressure on sheet
S, to ensure
that sheet S touches coating roller 207. Since the position of roller 217 is
preferably
IS adjustable it may be used to control the amount of substance 21I to be
coated on sheet S.
Roller 2I7 may also be used to apply pressure on sheet S such that substance
2f1 penetrates
sheet S upto a desired level. Also, if desired, the position of roller 217 may
be adjusted such
that it does not apply any pressure on sheet S and thus sheet S may totally
bypass substance
211. That is, by adjusting the position of roller 217, one surface of sheet S
may be left
uncoated.
Although described in the preferred embodiment as sheet S coming into contact
with
roller 207, it should be appreciated that operation of the present invention
does-not require
such contact. For example, roller 207 may be adapted to LTansfer coating
materiat without
contact to sheet S, such as through the use of rotational speeds sufficient to
eject coating
material onto the surface of sheet S. Additionally or alternatively, non-
roller coating
techniques may be used, such as the use of spray nozzles, brush bristles, or
the like.
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16
In the preferred embodiment illustrated, sheet S passes around roller 208
which is
positioned after roller 207 and changes the orientation of sheet S such that
the second side of
sheet S touches coating roller 209. Metering device 212 preferably located
near roller.208 in
order to take advantage of the disposition of the surface of sheet S provided
thereby, may be
used to further control the amount of substance 211 remaining on sheet S.
Thus, once sheet S
has been coated on one side, the amount of substance 21 I 'remaining on sheet
S may be
further and precisely-controlled to-maintain a desired-amount of the substance
on ihe, surface
of sheet S. Thus, if desired, metering device 212 may be adjusted, such as by
being moved
towards roller 208, thereby reducing the amount of substance 211 remaining on
sheet S. The
excess of substance 211. that is removed from sheet S is preferably caught in
pan 210. . On the
other hand, if desired, the amount of substance 21 I remainiing on sheet S may
be increased by
adjusting metering device 212, such as by increasing the distance :af metering
device 212
from roller 208. Furthermore, metering device 212 maybe: used to achieve a
desired
penetration of substance 211 into sheet S, such as by adjusting device 212 to
apply pressure
l 5 to the sheet surface.
According to the illustrated embodiment, sheet S is. made to pass over
coating, roller
209 such that the second surface of sheet S touches coating roller
209...Coating.roller 209 is
located such that, if desired, lit may be submerged partially or totally in
substance 214
contained in pan 213. Substance 214 is fed into pan 213 by means of a pump
(not shown.
The level of substance 214 in pan 213 may be controlled by the pump, such that
when coating
roller 209 rotates in pan 213, the surface of roller 209 is coated with a
desired amount of
substance 214. Thus, when the second surface of sheet S .comes in contact with
roller 209,
roller 209 coats the second surface of sheet S. Moreover, by varying the speed
of the rollers
the amount of time that a particular portion of sheet S remains in contact
with roller 209 may
be controlled, thus, controlling the amount of substance 214 that is applied
to sheet S. As
with roller 207 described above, there is no limitation to the use of contact
between roller 209
and sheet S in coating the second surface of sheet S. Additionally, also as
described above
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with respect to roller 207, non-roller techniques may be utilized to coat the
second surface of
sheet S.
A second metering device 216 is preferably provided in close proximity to
coating
roller 209 to precisely control the amount of substance 214 remaining on the
second side of
sheet S. Therefore, if desired, sheet S maybe passed over metering device 216
such that the
secflnd surface of sheet-S touches metering device 2-I6-. -Aithoizgh-shown in
the preferred
embodiment of FIGURE 2 as a different embodiment than metering device 212,
metering
device 212 and 216 may be similar mechanisms, if desired. Additionally,
metering device
2I6 may be disposed near a reverse roller, as is metering device 212, disposed
after roller 208
and/or metering device 2I6 may be disposed at a location other than near a
reverse roller, if
desired.
Sheet S'is then preferably subjected to a B.-curing process or other
conditioning step
to preferably condition substances 21 I and 214, such as by drying or curing.
For this
purpose, sheet S may be passed through a conditioner 216. The environment
inside
16 conditioner 215 may be controlled such that, if desired; different
temperatures, pressures,
catalysts, or the like may be maintained on opposite sides of sheet S or at
difTerent points
within conditioner 216, to facilitate efficient curing of substances 211 and
214. Since
substances 211 and 214 may be different substances, it is desirable to'
control the environment
inside conditioner 216 such that substance 211 and substance 214 are cured
based on their
respective desired characteristics. For this purpose, different heating
elements, for example,
may be provided in different parts of conditioner 216 such that one part of
conditioner 21 S is
more suitable for curing substance 211 and another part of conditioner 216 is
more suitable
for curing substance 214. for example, when a water based resin, such as
melamine, is used
as substance 21 l, it may be desirable to keep a portion of the coated
melamine on the surface
26 of sheet S and thus it may be desirable to cure melamine more rapidly such
as by exposing
the melamine to a higher temperature initially. Accordingly, different heating
elements may
be provided on different sides of sheet S to heat the two surfaces
differently. For example, a
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18
cooling surface may be provided on the first side and a heating surface may be
provided on
the second side.
Furthermore; if desired an optimum temperature or other conditioning
attribute; which
when applied in combination with the precisely controlled. application of each
coating
S material according to the present invention, may be calculated such that
both substance 211
and substarace-2~4 are cured try an acceptable. degree. The acceptable degree
ofcuring may be
determined based on the ultimate use of sheet S. For example, it might be
acceptable to cure
substance 211 on the first side of sheet S to a lesser degree in order to
obtain a better cuffing
of substance 214 applied to the second side of sheet S depending on the
particular
application.
Although, conditioner 215 has been described as a single apparatus, a series
of
apparatus may be used to achieve the desired curing of the substances, if
desired. For
example, the series of apparatus may be a combination'of conditioners,
refrigerators; wetting
devices, drying devices etc. Moreover, it may be desirable to control a
combination of
conditions, such as the temperature, pressure, moisture level, etc., inside
conditioner 215 to
achieve a desired result, such as a desired, penetration level of sheet S by
either or both of
substances 211 and 214.
In the preferred embodiment, sheet S is a laminate material, such as kraft
papei, that Ks
used in the manufacture of laminates, such as decorative laminates and/or
backer layers.
Furthermore, although sheet S is preferably wound in the form of a roll, for
purposes of this
invention it is not necessary that the sheet be so wound.
As noted, substance 2I 1 maybe any substance. However, in the preferred
embodiment, substance 211 is a substance providing first desired
characteristics to an end
product. For example, it may be desirable that a laminate material be coated
with a substance
to balance or counteract another layer of the laminate. Typically, a
protective layer is used to
protect the laminate from the affects of strains, such as may be caused by
extreme hot, cold,
and dry conditions in the. environment where the laminate is generally used.
This protective
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19
layer may be coated, for example, with a substance, such as melamine
formaldehyde resin, to
provide the desired protective characteristics. However, this protective layer
may cause
warping of the laminate that may result in delamination or even breaking of
the laminate.
Therefore, it may be desirable that a balancing layer be used to counteract or
balance the
protective layer to prevent such warping. Thus, a laminate material ~of the
preferred
- -embodiment; such as kraft paper, maybe coated with a substance, such as
melamine, to - .
provide the desired balancing characteristics. This coated~sheet iriay.then be
used in a backer
to balance or counteract the protective melamine sheet, thereby eliminating
the need to use a
discrete melamine sheet as a balancing sheet as is done in the~prior art. ,
Although melamine has been described above as the preferred substance to,
provide
balancing, any substance that provides such a characteristic may be used. For
example,
certain acrylics and polyesters may be used to provide the desired balancing
characteristics.
Moreover, the scope of the present invention is not limited. to a substance
that provides a
balancing characteristic, and any substance that provides first desired
characteristics may be
used.
Similarly, substance 214 may be any substance. In the preferred embodiment,
substance 214 is a substance providing second desirable.characteristics in the
end product.
For example, in a laminate it is often desirable that the layers of a laminate
assembly be .
coated with _phenolic resin to provide structural bonding with other laminate
materials. Thus,
in the above example sheet S is coated on one side with a, substance, such as
melamine,
providing first desired characteristics and on the other side. vrith a
substance, such as phenolic;
resin, providing second desirable characteristics, and therefore, in the above
example,
substances 211 and 214 are different substances.
Metering device 212 may be any device capable o:f precisely controlling the
amount.
of substance 211 that remains on the first side of sheet S. In the preferred
embodiment,
metering device 212 is an air knife which is. used to manipulate the coating
on the, first side of
sheet S, i.e. to precisely control the amount of coating material remaining on
the surface by
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removing excess coating of substance 211 from the first surface of sheet S.
Thus; in the
preferred embodiment, metering device 212 comprises a sheet of air projected
under pressure
at an angle from a slot-shaped air nozzle onto the coated surface of sheet S.
Thus, while sheet
S is supported on a moving support such as reverse roller 208, the sheet of
air is projected
5 onto sheet S so that the air strikes sheet S at an angle such that a desired
amount of substance
211 maybe removedfrom sheet S._
The amount of substance 211 remaining on sheet S may be adjusted by
controlling
how much air is blown acl~oss the surface of sheet S, the farce of the air
blown across the
surface of sheet S, the angle at which the sheet of air strikes the surface of
sheet S, and/or the
10 time during which the air knife engages the surface of sheet S, i.e. the
speed at which the
sheet is moved past the air knife and/or the time transpiring between the
application of the
coating substances and the engaging of the air knife. For examplrr, by
increasing the distance
of metering device 212 from roller 208 the amount of substance 211 remaining
on the vrst
side of sheet S may be increased due to the striking force of the sheet of air
of the preferred
15 embodiment air knife; against the surface of sheet S being reduced.
Accordingly, the
preferred embodiment includes, a set of screw adjusters which are provided at
the eiyd of
metering device 212 to adjust its distance from sheet S. however, any means
may be used to
adjust the distance of the metering device from the surface of sheet S, e.g.,
a pneumatic
mechanical adjuster, an eccentric and follower; an electrically powered
adjusting means such
20 as a computer controlled servo mechanism, etc.,
Furthermore, the air pressure applied bythe prefeixed ernbodiment.metering
device
212 may be adjusted to. further control the amount of substance 211 that
remains or that
penetrates sheet S at a particular advance speed of sheet S through the
coating apparatus. Fo:r
example, when a balancing (andloi protective) substance is coated on the first
side of sheet S,
it is desirable that a portion of the substance stay on the surface of sheet S
and another portion
of the substance penetrate sheet S upto a desired level to provide the desired
properties to the;
sheet. Thus; by controlling the air pressure applied by metering device 212 to
between 0.25-5
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psi at an advance rate'of 5-300 ft/min for sheet S, a portion of the melamine
balancing
substance of a preferred embodiment may be maintained on the surface of the
sheet, and
another portion of the melamine balancing substance may be allowed to
penetrate the sheet.
The level to which substance 211 penetrates sheet S may be further controlled
by ,
adapting substance 211, such that a desired amount of substance 211 may
penetrate through
the pores present_in sheet S upto a desired level: For example, by selecting
solids or other
particles of different sizes to be used to form substance 211, a desired'level
of penetration of
sheet S by substance 211 may be obtained. Thus, a resin such as a melamine
formaldehyde
that penetrates sheet S upto a desired level may be used as substance 211.
Thus, when
particles of relatively small size are used, substance 211 may be allowed to
penetrate deeper
into sheet S, than if particles of relatively large size were used.
F'urtheriinore, different solids.
maybe used in substance 2t 1 depending upon the porosity of sheet S to achieve
a desired'
penetration level of substance 211 and also to prevent substance 211 from
penetrating sheet S
to such a level that would prevent the desired penetration of sheet S by
substance 214.
. Moreover, as traditional kraft paper sheets are riot designed to allow
coating with
melamine, the melamine may beareated further, if desired, by other substances
to allow
coating a kraft paper sheet with the desired amount of melamine. Far example,
melamine
may be treated with coating or wetting agents; such as ethylene glycol,
cellulose, polymer
racrylamides, water based thermosetting resins, and the like, to allow into
stick to the surface
of kraft paper such as by changiilg the surface tension of melamine or
providing a carrier
which is wicked by the fibers of the kraft paper. Thus, if desired;
both.coating or wetting
agents; and the solid particles discussed above may be used to allow
~a'desired portion of the
substance 211 to stay on the surface of sheet S and also to allow a desired
amount of
substance 211 to penetrate sheet S upto a desired level. . .
Metering device 216 of. the preferred embodiment illustrated in FIGURE 2 is,
in the
form of a bar or rod 40 shovirn in FIGURE 4, that drags on the surface of
sheet S: Grooves 4.1
may be provided on lxletering device 40 such that when sheet S passes over rod
40, some
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22
amount of substance 214 may be removed from sheet S. By changing the spacing
42 of the
grooves 41 on the metering device, the amount of substance 214 zemaining. on
sheet S may be
further controlled. For. example, when the metering device has no grooves and
is
substantially smooth, a large amount of substance 214 may be removed from
sheet S. On, the
other hand, by providing.groovss on metering device 215 and~selecting their
size 43 and
. .. s~~c~g 423 the amount of substance 2 ~4 removed from sheet S may be
decreased. Although, .
metering device 216 (of FIGURE 2) described above has been discussed with
respect to a rod
with grooves, any device capable of producing the desired precise control of
coating. material
may be used for this purpose.
It is desirable that a porfion of the preferred embodiment balancing substance
stay
mostly on the surface of the kraft paper to counteract the preferred
embodiment protective
coating, a portion of which stays on the surface of the decorative laminate to
provide a
scratch and abrasion resistant layer. Therefore, metering device 212 .is
preferably an air knife
because an air knife has been found to provide far superior accuracy as
compared to other
metering devices, such as the above described bar with grooves: On the other
.hand, it is
desirable that the preferred embodiment phenolic formaldehyde resin penetrate
sheet .S such
that it impregnates sheet S upto a desired saturation level of approximately
forty percent resin
content while not saturating the sheet to a point that the second substance is
contaminated,
repelled, or otherwise adversely affected. Therefore, metering device 216 is
preferably mbar
with grooves as the grooved bar also facilitates impregnating sheet S.with
phenolic resin upto
the.desired level. It should be appreciated that according to the present
invention, the two
substances may or may,not intermix with each other depending on the desired
characteristics.
As mentioned above, the speed of the rollers or other mechanism for
controlling the
throughput of sheet ~S may be controlled to coat the sheet with a desired
amount of substances
21 I and 214. In the preferred embodiment, the rollers rotate at 5-300 ft/min
so that the
desired amounts of substances 211 and 214 may be applied to the sheet.
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Furthermore, due to the application of substance 211 on the first surface of
sheet S,
sheet S might curl or otherwise be physically altered before it is~eaated with
substance 214 om
the second surface. Fibers and fiber clearances on the coated side .of sheet S
may contract
more than those on the uncoated surface when substance 211 is applied to the
first surface.
Thus, sheet S might curl -with the coated surface being on the. inneraide.
Therefore, the speed
. . . ' , . of the rollers maybe fluther controlled in Qrder-to prevent
undesired-interaction, of such
physical alterations of sheet, S. Metering device 216 mayalso be utilized to
help prevent
undesired interactions of these physical alterations, such as the
aforementioned curling, by
controlling the amount of substance 214.that remains on fhe second surface of
sheet S.
It is also desirable that the same amount of the balancing (and/or protective)
substance
be applied to the entire first surface, of sheet S to provide a uniform
coating of the substance .
to the surface of the sheet. 'Thus, coating roller 207 has ~to be uniformly
coated with '
substance 211, and therefore the. level of substance 211 in pan 210 is
preferably precisely
controlled to provide a consistent delivery of coating substance along a run
of sheet S. In the
preferred embodiment, the amount of a balancing and/or protective substance,
such as
melamine; applied on the surface of sheet S is 1-20 grams per square foot and
the resin
content of sheet S is 14-30 percent melamine and 12-25 percent phenolic
formaldehyde.
However, this amount may .be varied depending on the particular application.
However, it is not desirable that the .phenoIic resin that is absorbed by
sheet S from
the second side penetrate the first side of sheet S. In general, the amount of
the second
applied substance 214 absorbed by sheet S is dependent to at least -a certain
extent on the
amount of the first applied substance 2I 1 absorbed. Therefore, 'in the
preferred embodiment,
the balancing (and7or protective) substance is coated to the surface of sheet
S before the
phenolic resin as at least a portion of the balancing (andlor protective)
substance is controlled,
according to the present invention, to remain on the surface of the sheet and,
therefore, limit
its interaction with the application of the second substance.. Thus, to avoid
the balancing
(and/or protective) substance fioni being repelled by the phenolic resin, and
also to achieve
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24
the desired penetration for the balancing (and/or protective) substance, in
the, preferred
embodiment, the balancing (and/or protective) substance is applied to sheet S
before the
phenolic resin. However, it is not necessary that the balancing (and/or
protective) substance
be applied fzrst, and phenolic resin may be applied before the balancing
(and/or protective)
substance without departing -from the scope of the present invention. ~
Furthermore, if desired,
- : - , ~'iri order to obtain the desired penetration level o~ tIie_pherio_lic
iesina the s_pee~ Qf tlfe ro~.lers. .,
may be further controlled so that the balancing (andlor protective) substance
does not
penetrate sheet S to an extent that would repel or prevent a desired amount of
penetration of
sheet S by, the phenolic resin.
Furthermore, the level of penetration of substance ~ 211 and 214 and the
saturation
level of sheet S may. be controlled by controlling various parameters inside
conditioner 215.
Thus, it may be desirable to determine a desired curing cycle for curing sheet
S. to obtain the -
necessary saturation level of each substance.' For example, in order to
achieve the desired
curing, sheet S may be passed through different stages of curing so that stage
one provides an , . .
optimum environment for.curing one substance, such as a substance most prone
to undesired
migration, and stage two provides an optimum.environment for curing the other
substance;
such as a substance less likely to migrate.
In the .preferred embodiment, the ratio of the balancing (andlor protective)
substance
to the phenolic resin is.approximately 3:2. However, this ratio may be varied
depending ~on
. 20 the end use of the laminate. .For example, when the Laminate is used-as a
counter top, the
ratio may be different than when the laminate is used as a flooring panel or
as a backer layer.
In an alternative embodiment of the present invention, sheet S may be coated,
with the:
same substance on both sides. For example, sheet S may be coated with phenolic
resin on
both sides thereby eliminating the need to submerge the sheet of laminate
material in a vat of
phenolic resin as is done in the prior art. The use ~of the present invention
in this embodiment
solves the problems associated with impregnating the kraft paper when it is
submerged in a
vat filled with phenolic resin as discussed above. For example, using reverse
roll coating as
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described herein, to impregnate l:raft paper with phenolic resin eliminates
the problems
associated with the production of fumes and also wastage of phenolic resin.
Furthermore, the
rollers used in reverse roll coating facilitate impregnating the phenolic
resin upto a desired
level into sheet S.
5 FIGURE 3. shows a schematic of a sheet of.the preferred
embodimenk._that..has been
coated on both sides with different substances. Substance f 1. is coated nn
one side of sheet
as shown so that a portion of substance 31 remains on the surface of sheet 30
and another
portion of substance 31 penetrates sheet 30 upto a desired level 33. Sheet 30
is coated on an
opposing surface with substance 32 which penetrates sheet 30 upto a desired
level 33 as
I O shown. Although the desired level of penetration of sheet 30 by substances
31 and 32 is
shown to be almost equal, the invention is not sa limited, and the desired
level of penetration
may be varied without departing from the scope of the present invention.
Furthermore,
although substances 3I and 32 have been shown as distinct layers, the two
substances may
intermix without departing from the scope of the present invention.
Furthermore, it is not
15 necessary that sheet 30 be fi.tlly saturated with substances 31 and 32 and
if desirable, portions
of sheet 30 may be left unsaturated.
In order to adjust system 20 to the desired settings to enable coating the
surfaces in
the proper ratio according to a preferred embodiment, the bone dry weight of
sheet S is f rst
determined. One side of sheet S is then coated with substance 211 and metering
device 2I2
20 and conditioner 215 adjusted until the system is capable of curing
substance 211 to a desired
level such as a desired percentage weight of substance 2I 1 as determined from
a comparison
of the coated weight of sheet S and the bone dry weight of sheet S. Sheet~S
is, then treated
only on the second side with substance 214 and metering device 216 and
conditioner 215
adjusted until the system is capable of curing substance 214 to the desired
ratio again as a
25 desired percentage weight of substance 214 as determined from a camparison
of the coated
weight of sheet S and the bone dry weight of sheet S. Furthermore, in addition
to the
metering devices and environment inside conditioner 215, the throughput of
sheet S, the
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amount of substances deposited initially on the surface of sheet S and other
operational
conditions may be precisely controlled to achieve the desired result.
A monitoring device, such as a density sensor, a camera, or other optical
sensor, ar
even various contact sensor devices may be_provided to monitor the amount of
the different
substances on sheet S and also to monitor the thickness of the sheet during
manufacturing to
provide a sheet with the desired thickness and characteristics. This
monitoring device
preferably monitors sheet S coming out of conditioner 215 periodically and
provides
information useful in controlling aspects of the coating and curing process.
Furthermore, the
monitoring device may be used to monitor the dimensional stability of sheet~S
to ensure that
sheet S does not warp torsionally or become distorted by tensile effects.
Moreover, sheet S
may be further monitored to ensure that it does not bulge, bend, or get
deformed, as soon as it
is coated on one side.
furthermore, system 20 may be adapted to include mare than two,pans and the
system
adjusted so that the same system may be used to coat sheet S with different
substances vlhen
desired. For example, roller 203 nay be used to coat a different substance on
sheet ~S and
roller 217 adjusted accordingly so that sheet S may be made to bypass
substance 211: In the
alternative, if desired, only two pans may be used but a draining means
piovided to drain one
substance from one of the pans and fill the pan with a different substance by
means of a pump
when a new coating substance is to be applied.
It shall be appreciated that prior .art. systems da not coat a kraft paper
sheet with
melamine resin to grovide the desired balancing (and/or protective)
characteristics to the
laminates. Instead a resin canter sheetis impregnated with melamine resin and
used in prior
art systems to provide the desired characteristics because kraft paper. sheet
is not suitable for
impregnation with melamine. However, the present invention provides for the
coating of
kraft paper or other laminate material generally not adapted for coating with
melamine, by
adapting the melamine by suspending particles of desired size in the,resin to
make it suitable
for impregnating the kraft paper.
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. r.
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Experimentation has revealed that the preferred embodiment kraft paper sheet
of the
present invention treated with the preferred embodiment melamine resin
provides improved
balancing and protective characteristics. In performing the
experiments,.planks of laminate
'comprising a decorative laminate, a inedium.density fiberboard substrate
azid.a:backer were
_ suspended in a_vertical position in an ~nvironmentallx controlled chamber.
The backer in one
set of such planks comprised of the preferred embodirnent kraft paper sheet
treated with
melamine on one side and phenolic resin orr the other side. T'he backer in
another set of such
planks comprised' a. melamine.impregnated overlay sheet of' the prior art.
Tlae temperature
inside the chamber was maintained at 72 °F and the relative humidity
maintained at 90% from
day 1 to day 7, and 10% from day 8 to day 14. The results of the
experimentation. are shown
in the table of FIGURE 5 and graphically regresented in FIGURES 6A and 6B.
It was observed that the plank comprising of the prior art backer demonstrated
slight
positive warping on day 0' because overlay paper of the prior art backer sheet
contains fibers
that absorb more moisture. On the other hand; the plank comprising of the
preferred
embodiment backer made of kiaft paper demonstrated slight negative warping tin
day 0.
Furthermore; the .plank of laminate material comprising. o.f the preferred
embodirrient kraft
paper sheet treated with melamine resin on one side and phenalic resin on the.
other side
demonstrated lesser movement under 90% relative humidity as compared to
the,plank of
laminate material comprising prior art backer material. '
Under 10% relative humidity, the preferred embodiment backer.sheet
demonstrated.
more negative movement as compared to the prior art backer sheet. However,
slight negative .
movement of the backer is desirable-to make the laminate bond more firmly with-
the surface
on which the laminate is applied. On the other hand, positive movement of the
backer gives
the impression that the surface is cracked and thus, hurts the appearance of
the surface.
Laminates made from prior art backer sheets tend to demonstrate more, positive
movement
than negative movement because they use a separate melamine impregnated
overlay sheet
which limits. negative movement of the larriinates made from prior art backer
sheets..
~sta2~.~
CA 02463304 2004-04-20
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28
Thus, the two sided coating system and method as described in the preferred
embodiment provides improved balancing and protective properties by precisely
controlling
the amount of balancing and protective substance penetrating sheet S and also
precisely
controlling the amount of the substance. rernairiing on the surface of sheet
S, and therefore
improving the desired characteristics, since more of the substance is on the
surface.
Moreover, the sheet providing the desiied balancing and protective
characteristics is also
providing the structural cross linking due to the preferred embodiment
phenolic resin. Thus,
better structural cross linking is provided as migration of phenolic resin
from an adjoining
sheet is not the sole source o.f the structural bonding of this sheet of the
laminate assembly.
The invention as described iri the preferred embodiment eliminates the need to
use a
discrete melamine impregnated balance sheet with a Laminate to' provide the
desired balancing
characteristics to the laminate. Thus, substantial cost savings in terms of
raw material costs,
handling costs, wastage, etc. may be achieved by the present invention.
Although the present invention and its advantages have been described in
detail, it
should be understood that various changes, substitutions and alterations can
be made herein
without departing from the spirit and scope of the invention as defined by the
appended
claims. Moreover, the scope of the present application is not intended to be
limited to the
particular embodiments of the process, machine, manufacture, composition of
matter, means,
methods and steps described in the specification. As one of ordinary skill in
the art will
20, readily appreciate from the disclosure of the present invention,
processes, machines,
manufacture, compositions .of matter, means, methods, or steps, presently
existing or later to
be developed that perform substantially the same function or achieve
substantially the same
result as the corresponding ernbodiments.described herein may be utilized
according to the
present invention. Accordingly, the appended claims are intended to include
within their
scope such processes, machines, manufacture, compositions of matter, ri~eans,
methods, or
steps.
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