U.S. patent application number 11/763071 was filed with the patent office on 2007-10-25 for mailbox post protector.
Invention is credited to Daniel Frederick NESBITT.
Application Number | 20070245645 11/763071 |
Document ID | / |
Family ID | 46328041 |
Filed Date | 2007-10-25 |
United States Patent
Application |
20070245645 |
Kind Code |
A1 |
NESBITT; Daniel Frederick |
October 25, 2007 |
MAILBOX POST PROTECTOR
Abstract
A mailbox or wooden post protector made of a unitary,
resistantly-flexible plastic material, having four walls and an
opening within one of the walls for installation around the base of
the wooden post. The plastic sheet material is typically
polycarbonate, which can better withstand deterioration, cracking
and fracture even at low temperatures over several years, compared
to conventional plastics, and has a thickness of about 5 mil to
about 40 mil, and more typically from about 15 mil to about 30 mil,
and can be formed by folding adjacent walls along a transverse
crease lines. The polycarbonate sheets can be transparent,
translucent or opaque, and can be made clear or in a variety of
colors.
Inventors: |
NESBITT; Daniel Frederick;
(Cincinnati, OH) |
Correspondence
Address: |
HASSE & NESBITT LLC
8837 CHAPEL SQUARE DRIVE
SUITE C
CINCINNATI
OH
45249
US
|
Family ID: |
46328041 |
Appl. No.: |
11/763071 |
Filed: |
June 14, 2007 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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10866300 |
Jun 12, 2004 |
|
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11763071 |
Jun 14, 2007 |
|
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60481072 |
Jul 8, 2003 |
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Current U.S.
Class: |
52/169.9 ;
52/741.3; 52/745.19 |
Current CPC
Class: |
E04H 12/2292
20130101 |
Class at
Publication: |
052/169.9 ;
052/741.3; 052/745.19 |
International
Class: |
E04H 12/22 20060101
E04H012/22 |
Claims
1. A post protector for placement about the base portion of a
wooden post positioned in the ground, the post protector comprising
a single, resilient, rectilinear sheet of material consisting
essentially of polycarbonate, having a width, a length, and a
thickness from about 0.005 inches to about 0.040 inches, and having
four spaced-apart pivot joints, defined by fold lines formed
transverse to the length, to form five consecutive, adjacent walls
including a first wall and a fifth wall, wherein adjacent walls are
foldable to a right angle wherein a portion of the first wall
overlaps a portion of the fifth wall
2. The post protector according to claim 1 wherein the second,
third and fourth walls have the same length.
3. The post protector according to claim 1 wherein having a
thickness of about 0.015 inches to about 0.030 inches.
4. The post protector according to claim 1 further comprising a
pressure-sensitive adhesive material affixed to at least one of the
first and second walls.
5. The post protector according to claim 3 wherein the
polycarbonate sheet is clear.
6. The post protector according to claim 5 wherein the
polycarbonate sheet is colorless.
7. The post protector according to claim 5 wherein the
polycarbonate sheet has a color selected from the group consisting
of brown, black white and green.
8. The post protector according to claim 3 wherein the
polycarbonate sheet is opaque.
9. The post protector according to claim 9 wherein the
polycarbonate sheet has a color from the group consisting of brown,
black white and green.
10. The post protector according to claim 1 wherein at least one of
the inner surface or the outer surface of the polycarbonate sheet
has a matte finish.
11. The post protector according to claim 10 wherein the inner
surface of the polycarbonate sheet has a matte finish.
12. The post protector according to claim 1 wherein each corner is
defined by at least two, closely-spaced fold lines.
13. A method of forming a post protector, comprising the steps of:
1) providing a sheet of rectilinear polycarbonate material having a
length, a width and a thickness of between about 0.005 inches and
about 0.040 inches; 2) forming a plurality of spaced-apart crease
lines on a first surface of the sheet transverse to the length and
across the entire width of the sheet; and 3) folding the sheet
along the plurality of formed creases to form a plurality of joints
that separate a plurality of distinct walls.
14. The method according to claim 13 wherein the at least four
creases are formed without cutting or etching of the surface of the
sheet material.
15. The method according to claim 13 wherein the folded post
protector is folded at the joints so that the plurality of walls
lie substantially flat, to permit securing the post protector in
the substantially flat orientation for packaging and shipment.
16. The method according to claim 13 wherein the thickness is
between about 0.015 inches and about 0.030 inches.
17. A method of protecting the base of a wooden mailbox post from
damage from lawn care equipment, comprising the steps of: 1)
providing a post protector formed as a resistant rectilinear sheet
of polycarbonate material having a width, a length, and a thickness
from about 5 mil up to about 40 mil, and having four spaced apart
fold lines formed transverse to the length to form five consecutive
walls including a first wall and a fifth wall; 2) placing the post
protector around the base of the wooden mailbox post having a
rectilinear cross section, so that the plurality of fold lines
align with corresponding edges of the wooden post, wherein the
first wall overlaps a portion of the fifth wall; and 3) securing
the first wall to the fifth wall.
18. The method according to claim 16, further comprising securing
the first wall to the wooden post.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application claims the benefit of co-pending U.S.
Provisional Patent Application No. 60/481,072, filed Jul. 8, 2003,
and is a continuation-in-part of co-pending U.S. patent application
Ser. No. 10/866,300, filed Jun. 12, 2004.
BACKGROUND OF INVENTION
[0002] The United States government has operated a postal service
since 1775 when the Continental Congress named Benjamin Franklin
the first Postmaster General. Rural free delivery service to
individual residences in the rural America first began in 1896, and
by 1908, much of America received its main daily by postal
delivery.
[0003] Presently, a significant proportion of the population
receives the U.S. mail in residential mail boxes positioned on or
near the resident's property and along the side of the road. There
are a variety of mail boxes in use, but the majority of them are
shoebox-sized or larger containers that are affixed to the top end
of an upright support, such as a wooden post. The bottom end of the
support is buried into the ground to secure the mailbox from
swaying and falling over.
[0004] Many residents position the mailbox in the lawn along side
the road. In the course of cutting the grass, the resident or a
lawn care professional will use a trimming device to trim grass
growing close to the base of the mailbox post that can not cut with
a lawn mower. A typical grass trimming device has an electric or
gasoline-operated motor that drives a spool hub at an opposite end
via an elongated shaft. The hub carries a length of flexible
trimming string, a portion of which projecting outwardly from hub
20. As the motor is operated, the hub rotates at great speed. The
outwardly-projecting section of line is swung in a circle about the
axis of the shaft, whereby it will contact and cut off grass or
other material in its path. Examples of such devices are shown in
U.S. Pat. Nos. 2,708,335; 3,006,421; 3,608,291; 4,200,978; and
4,584,771.
[0005] The flexible plastic string used in the grass trimmers is
designed and selected for durability. The string typically is made
of a flexible plastic with a high hardness that resists wear and
breaking when striking the earth, asphalt, concrete, stones and
other hard or sharp articles. Some grass trimming strings are
designed with star-shaped profiles that provide the outer surface
with edges that improve the cutting function.
[0006] The strength, durability and design of the flexible plastic
string also causes damage and wear along the base of wooden mailbox
posts when trimming grass close to the base. After repeated grass
cutting and trimmings, the periphery of the base of the wooden post
can experience significant wear. As many mailbox wooden posts are
made of pressure-treated wood, the wearing away of the outer wood
surface along the base exposes the wood in toward the interior
which tends to have less of the water-resistant chemicals. With
time, the wood along the worn base of the wooden post begins to
deteriorate rapidly with additional wear and water.
[0007] At the same time, lawn mowers housings often strike and
gouge the base of the wooden post in the operator's effort to cut
the grass as close as possible to the post.
[0008] Therefore, a need exists for a means for preventing the wear
of the base of wooden posts by grass trimmers and lawn mowers.
SUMMARY OF THE INVENTION
[0009] The present invention relates to a post protector comprising
a resistant unitary structure having a periphery defined by a
plurality of walls configured to surround a complementary periphery
of a wooden post, and having an opening along the periphery of the
unitary structure that defines first and second wall edges.
[0010] The present invention further relates to a post protector
for a wooden post, the post protector comprising a single,
resilient, rectilinear sheet of material consisting essentially of
polycarbonate, having a width, a length, and a thickness from about
5 mil (a mil is 1/1,000 of an inch) up to 40 mil, more typically 15
mil to 30 mil, and having four spaced apart pivotable joints,
defined by fold lines formed transverse to the length to form five
consecutive, adjacent walls including a first wall and a fifth
wall, wherein adjacent walls are foldable to a right angle wherein
a portion of the first wall overlaps a portion of the fifth wall.
Each fold line thereby defines a corner of the wooden post, when
the post protector is positioned around the base portion of the
wooden post.
[0011] The invention also relates to a post protector wherein each
corner is defined by at least two, closely-spaced fold lines.
[0012] The present invention also relates to a method of forming a
post protector, comprising the steps of: 1) providing a sheet of
rectilinear polycarbonate material having a length, a width and a
thickness of between about 5 mil and about 40 mil; 2) forming a
plurality of spaced-apart crease lines on a first surface of the
sheet transverse to the length and across the entire width of the
sheet; and 3) folding the sheet along the plurality of formed
creases to form a plurality of joints that separate a plurality of
distinct walls.
[0013] The present invention further relates to a method of
protecting the base of a wooden mailbox post from damage from lawn
care equipment, comprising the steps of: 1) providing a post
protector formed as a resistant rectilinear sheet of polycarbonate
material having a width, a length, and a thickness from about 5 mil
up to about 40 mil, and having four spaced apart fold lines formed
transverse to the length to form five consecutive walls including a
first wall and a fifth wall; 2) placing the post protector around
the base portion of the wooden post having a rectilinear cross
section, so that the plurality of fold lines align with
corresponding corners of the wooden post, wherein the first wall
overlaps a portion of the fifth wall; and 3) securing the first
wall to the fifth wall.
[0014] The invention also relates to a method of protecting the
base of a mailbox or wooden post from wear and abrasion, comprising
the steps of: providing a resistant unitary structure having a
periphery defined by four walls configured to surround a
complementary periphery of a wooden post, and having an opening
along the periphery of the unitary structure defined by a first
wall edge and a second wall edge; separating the first wall edge
from the second wall edge; passing the separated wall edges around
the base of the post; and bringing together the first and second
wall edges, to position the unitary structure around the base of
the post.
BRIEF DESCRIPTION OF THE DRAWINGS
[0015] FIG. 1 shows a post protector of the invention.
[0016] FIG. 2 shows a post protector positioned around a wooden
post that is secured into the ground.
[0017] FIG. 3 shows an alternative embodiment of the post protector
of the invention.
[0018] FIG. 4 shows another alternative embodiment of the post
protector.
[0019] FIG. 5 shows an embodiment of the post protector for an
angled post.
[0020] FIG. 6 shows the post protector of FIG. 5 on an angled
post.
[0021] FIG. 7 shows a blank for forming the post protector of FIG.
5.
[0022] FIG. 8 shows another embodiment of a post protector of the
invention.
[0023] FIG. 9 shows an alternative embodiment of a post
protector.
[0024] FIG. 10 shows a front side view of the post protector of
FIG. 9.
[0025] FIG. 11 shows a right side view of the post protector of
FIG. 9.
[0026] FIG. 12 shows a back side view of the post protector of FIG.
9.
[0027] FIG. 13 shows a left side view of the post protector of FIG.
9.
[0028] FIG. 14 shows a top view of the post protector of FIG.
9.
[0029] FIG. 15 shows a bottom view of the post protector of FIG.
9.
[0030] FIG. 16 shows the post protector of FIG. 8, with its sides
folded against one another, to form a folded post protector.
[0031] FIG. 17 shows a kit consisting of the folded post protector
of FIG. 16, means for securing the post protector to a wooden post,
and instructions for doing so, secured with tape and a storage
bag.
BRIEF DESCRIPTION OF THE EMBODIMENTS OF THE INVENTION
[0032] A typical post protector 10 is shown in FIG. 1 comprising a
resistant unitary structure 12. The unitary structure is configured
with a periphery 14 formed by four upright walls 20, 22, 24, and
26, joined together at their sides, which define a top opening 34
and a bottom opening 36. The four walls are typically rectangular
or square, and are typically of equal size to surround a
complementary periphery of a wooden post 60, shown in FIG. 2. An
opening 16 is provided along the periphery 14 of the unitary
structure 12 that defines first and second wall edges 30 and 32,
respectively. Typically, the opening 16 is positioned within a wall
20, separating the wall 20 into a first wall portion 40 and second
wall portion 42.
[0033] In the embodiment shown in FIG. 2, the post protector is
positioned around the base of the wooden post 60 that is secured
into the ground 66. Grass 64 grows from the ground 66 near the base
62. The unitary structure 12 is configured wherein the first and
second edges 30, 32 confront when positioned around the base 62 of
the wooden post 60. In another embodiment, the first and second
edges 30, 32 can overlap, or have a slight separation. In
operation, when a grass trimmer (not shown) is used to trim the
length of blades of grass 64 along the base 62 of the wooden post
60, the post protector 10 receives the impact of the flexible
plastic trimming string (not shown) against the base 62.
[0034] The unitary protector typically has a wall height sufficient
to protect the base of the post when grass is trimmed by a string
trimmer. Typically the height of the unitary protector is between
about 8 cm and about 20 cm.
[0035] The opening 16, and the corresponding wall edges 30 and 32,
can be linear, or can be non-linear or curvilinear. FIG. 3 shows an
alternative embodiment wherein the first and second wall edges 30
and 32 that form the opening 16 are configured as complementary
beveled edges.
[0036] Further, an adhesive, such as a pressure sensitive adhesive,
can be affixed to either or both wall edges to adhesively join the
wall edges after the post protector is positioned around the base
of the wooden post. Prior to positioning of the post protector
around the base of a wooden post, a release film can be adhered to
the pressure-sensitive adhesive to prevent premature adhesion to
other surfaces or to the opposed confronting wall edge. A suitable
release film can use a silicon release coating well known in the
art. The release film can be manufactured from films, paper, or
other materials as is well known in the art. Preferably, the
release film is a polyethylene film having a thickness of from
about 0.012 mm (0.5 mil) to about 0.12 mm (5.0 mil).
[0037] In another embodiment shown in FIG. 4, the post protector 10
has a first wall portion 40 or a second wall portion 42 that is
slightly elongated. The sum of the length of the first wall portion
and the second wall portion is greater than the length of the
opposite sidewall 24, wherein of the first wall portion and the
second wall portion overlap when the post protector is positioned
around the base of the wooden post. The first wall edge 30 and the
second wall edge 32 overlap, wherein one wall edge extends beyond
and over the other wall edge, typically by about 5 mm or more. The
distal edge of the over-lapping wall can be tapered, such as by
machining, to avoid having a sharp edge on the outer surface of the
post protector that might be snagged by a trimmer string or other
object.
[0038] The post protector can also be configured for securement
around the base of a wooden post that is oriented in the ground at
an angle, such as an angled post on an A-frame shaped swing set. In
such an embodiment of the post protector, shown in FIG. 5, two of
the four walls 22 and 26 on opposite sides have mirror-image
parallelograms where none of the corners of the parallelogram are
right angles. Typically, the acute angles 70 are substantially the
same as the angle of the angled post. FIG. 6 shows the post
protector 10 shown in FIG. 5 position around the base 62 of an
angled post 10 that is embedded into the ground 66 at an angle.
[0039] The unitary structure 12 typically comprises a thermoplastic
material, which can be a transparent, translucent or opaque, and
either clear or non-colored, or colored. Typically the
thermoplastic is resilient to retain its shape and to resist wear
and impact, though is sufficiently flexible permit the first and
second edges to be separate by hand and positioning around the base
of the wooden post, as shown in FIG. 2. The thermoplastic material
can be selected from the group consisting of methyl acrylate
(available as Plexi-glass.TM.), polyvinyl chloride (PVC),
polycarbonate (available as Lexan.RTM., for example),
polypropylene, polystyrene, and polyacrylic. Polycarbonate is
particularly preferred for its high temperature stability, impart
resistance, and workability (it can be cut, drilled and manipulated
with easily cracking or chipping). Certain modified polycarbonate
sheets, however, which can have other additive chemicals or
materials, such as a flame retardant, can loose a significant
portion of the impact resistance, and should typically be avoided.
The suitability of a particular sample and thickness of plastic
film or sheet can be tested by forming a post protector, attaching
it to a wooden post, and operating a nylon string trimming
apparatus against it for several seconds. Suitable samples will not
break, crack, melt, or distort when tested in this manner.
[0040] Colored post protectors can be provided by blending a
colorant such as a pigment or dye into the stock plastic resin,
prior to forming the sheet. Alternatively, certain plastic
colorants can be applied to the inside surface of an otherwise
clear or translucent post protector. Conventional paints applied to
the outside surface of the post protector are typically easily
blasted away by the direct impact of the nylon string, rotating at
high speed, or rotations per minute (rpm), on the outer painted
surface. The same conventional paints applied to the inside surface
of the post protector are likewise typically easily blasted away by
the indirect impact of the nylon string on the outer surface of the
post protector, which impact is communicated to the inside surface
and results in the adhered paint being literally thrusted off the
inside surface at the point of impact of the nylon string.
Permanent dyes and inks can be used that are insensitive to the
impact of the nylon string.
[0041] The thermoplastic material typical has a thickness from
about 5 mil ( 5/1000 of an inch, or about 0.12 mm) to about 0.25
inch (about 6 mm). The post protector shown in FIG. 8 is similar in
overall shape and configuration to the embodiment shown in FIG. 1,
except that the sheet material is thinner. The thinner sheet
material is more flexible, which can improve the handling of the
post protector and it's positioning around the wooden post, but
which can diminish the rigidity and structural integrity of the
post protector. The post protector made with the thinner, flexible
material may require a means for retaining the protector in place
around the wooden post, such as the above-mentioned adhesive means,
or a nail or other fastener that secures the post protector to the
wooden post. The thickness of the flexible sheet material is
typically from about 5 mil to about 50 mil (1.3 mm), and more
typically from about 10 mil (0.25 mm) to about 40 mil (1 mm), and
even more typically about 15 mil (0.37 mm) and 30 mil (0.75 mm).
Polycarbonate film up to about 10 mil is more flexible, and has
good impact resistance, but due to its thinness, the heat generated
by the nylon string of an operated string trimmer apparatus that
strikes an area repeatedly at high rpm, for example for several
seconds without repositioning the trimmer, can warp or melt the
plastic sheet locally, causing deformation and tearing. It has been
found that putting two post protectors over the base, one over the
other, to provide two sheets of polycarbonate material having 5 mil
to about 15 mil, provides adequate resistance to melting,
deforming, and tearing of the sheets.
[0042] The thicker material has good rigidity and structure, and
can retain its form and shape after being applied around the base
of the wooden post. The thickness of the thicker, more rigid
material is typically about 50 mil to about 0.25 inch.
[0043] The post protector can be made from a strip of plastic sheet
of the desired width and thickness, and cut to a length. The
corners formed between adjacent walls can be made by bending the
plastic strip at about a right angle. The thicker sheet material
that is rigid typically requires that the plastic strip material be
heated to a temperature (for example, proximate to the softening
point of the plastic) that sufficiently softens the sheet material
and facilitates bending or folding of the sheet. The sheet material
can be bent around a heated wire, or contacted with a stream of
heated air, to melt or soften the plastic material sufficiently for
bending, while avoiding excessive deterioration of the plastic
material. Typically the strip of plastic sheet is formed around a
model or form of substantially the same size as a typical wooden
post. Typically the 90 degree bend has a rounded inner surface,
preferably having an internal radius of at least about 2 mm.
[0044] When the thinner, flexible sheet material is used, another
means of forming the sheet material into the post protector is by
forming a crease line in the material and then folding the material
at the crease line, either by hand or with a tool or machine. When
forming the crease line, cutting or etching of the surface of the
sheet material should be avoided, since the etched sheet can more
easily tear or break along the crease line.
[0045] In a typical embodiment, a polycarbonate or acrylic sheet
material is used. Polycarbonate sheets have high shatter and
breakage strength, in a wide variety of temperatures, and can
withstand deterioration, cracking and fracture even at low
temperatures over several years. Polycarbonate is also sufficiently
malleable to permit for nails or screws to be driven through the
sheet material without splitting or shattering the material. They
also better withstand breakdown by ultraviolet light than do other
plastic materials.
[0046] Polycarbonate sheet material having a thickness of between
about 10 mil and 30 mil, more typically of between 20 mil and 30
mil, are cut to the desired pattern or footprint, and then are
creased (scored) and folded, typically by hand or an apparatus. The
crease can be formed by any means well known in the art, such as
with a rounded implement along a straight edge, by pressing the
sheet material into a groove formed in work surface, or by other
folding and creasing means. After the crease is formed, the sheet
material can be folded along the crease by hand, or with a hand
tool, or with an apparatus.
[0047] The resulting post protector structure can be folded at the
joints so that the plurality of walls lie substantially flat, so
that the substantially flat, folded post protector 210 shown in
FIG. 16, can then be secured in the substantially flat orientation
for packaging and shipment.
[0048] The present invention also relates to a kit 201 as shown in
FIG. 17 for securing a post protector to the base portion of a
wooden post, the kit comprising: a). a post protector according to
the present invention, typically in a folded form 210, b). a means
215 for securing the post protector to the base portion of a wooden
post, including a nail, braid, staple, screw or other equivalent
means, c). instructions 220 for securing the post protector to the
base portion of a wooden post as described herein, and d). a means
225 for securing together one or more of the components selected
from the post protector, the means for securing, and the
instructions, including tapes (such as masking, plastic and Duck
Tape.RTM.), elastic bands and straps, plastic and paper bags,
boxes, and other cartons and containers. The packaged folded post
protector in the form of kit 201 can then be un-packaged, unfolded
and secured to the wooden post base when needed.
[0049] In a specific method, the post protector is made by 1)
providing a sheet of polycarbonate material having a thickness of
between 5 mil and 50 mil, in a dimension sufficient to be formed to
surround the periphery of a wooden post; 2) forming a plurality of
crease lines on an inner surface of the sheet material; and 3)
folding the material along the plurality of creases so as to form
distinct sidewalls defined by the crease lines. For the typical
wooden mailbox post, for example, at least three (and more
typically four) parallel creases are formed laterally to the length
dimension of the sheet, spaced apart sufficiently to have the folds
conform to the outer periphery of the wooden post. Typical wooden
posts have square cross sections of about 3-3/8 inch by 3-3/8 inch
(8.6 cm by 8.6 cm), also called a "4.times.4", or of about 5-3/8
inch by 5-3/8 inch (13.7 cm by 13.7 cm), also called a "6.times.6".
For a typical 4.times.4 wooden post, a sheet of about 15 inches (38
cm) in length is sufficient. For a typical 6.times.6 wooden post, a
sheet of about 23 inches (58 cm) in length is sufficient.
[0050] The outer surface of the post protector can improve the
appearance of the post protector after installation onto a wooden
post. A surface that is very smooth and shiny can prevent build-up
of bits of nylon from the string trimmer from accumulating on the
post protector. One embodiment of the post protector device has a
roughened or irregular outer surface, such as a matte finish, which
diminishes reflectance and glare from off the device, although the
outer matte surface can allow bits of the nylon string trimmer to
embed into the finish, leaving a streaked appearance. Other
embodiments provide placing the matte finish on the inside surface
of the post protector. The inside matte finish can cover blemishes,
scars and wearing of the base of the wooden post, yet in some
cases, still show through color and overall grain and texture of
the wooden post.
[0051] A typical width of the plastic strip, representing the
height of the post protector, is between about 5 cm to about 20 cm,
more typically about 10 cm to about 15 cm. The length of the
plastic strip is sufficient to surround the periphery of the base
of the wooden post.
[0052] The post protector can have a plurality of apertures formed
therein that can be disposed across the entire width and height.
Typically elongated apertures are oriented vertically, and
preferably are of a width of about the thickness of the material,
or not more than about 5 mm. This prevents a trimming string from
striking the wooden post through the apertures.
[0053] The post protector shown in FIG. 5 can be formed from a
blank 50 that can be stamped or cut from a sheet of the
thermoplastic material. The acute angles 70 are configured to
conform to the angle of the post in the ground. After the blank 50
is formed, it can be folded at each of the fold line 52, as
described above.
[0054] Another embodiment of the post protector is shown in FIGS.
9-15. FIG. 9 shows the post protector 110 that is substantially the
same as the aforementioned embodiment of post protector 10, except
that at each corner between sidewalls (for example, between
sidewalls 122 and 124, between sidewalls 140 and 126, between
sidewalls 142 and 122, and between sidewalls 124 and 126), there
are at least two fold lines 152 (specifically there are three fold
lines illustrated) which provide a slightly more rounded corner.
The plural corner folds allow the post protector to be fitted to a
wooden post that is similarly constructed with rounded corners, or
that is cut or formed with side lengths that are not exactly equal,
so that the portion of sheet material between the plural folds
allow the taking up of slack on the shorter side of the wooden
post.
[0055] FIGS. 10-15 show front, right, back and left side views, and
top and bottom views, respectively, of the post protector of FIG.
9. Lines and features shown in dashed lines show environment and
are not part of any claimed ornamental design.
[0056] The invention also relates to a method of protecting the
base of a mailbox or wooden post from wear and abrasion, comprising
the step of attaching around the base of the post a post protector
as described herein.
[0057] In another embodiment, the invention relates to a method of
protecting the base of a mailbox or wooden post from wear and
abrasion, comprising the steps of: providing a resistant unitary
structure having a periphery defined by four walls configured to
surround a complementary periphery of a wooden post, and having an
opening along the periphery of the unitary structure defined by a
first wall edge and a second wall edge; separating the first wall
edge from the second wall edge; passing the separated wall edges
around the base of the post; bringing together the first and second
wall edges, to position the unitary structure around the base of
the post. The resistant unitary structure is attached by separating
by hand the opening along the periphery and positioning the
structure around the base. Typically, the thermoplastic structure
will have structural memory that returns to its original structure
once the manual separation of the wall edges has been released. The
method can further include the step of securing the structure in
place around the base. Once means of securing the structure to the
wooden post is a fastener, such as a nail or screw that secures the
structure to the wooden post itself. Another means of securing the
structure is an adhesive affixed to one or both confronting
surfaces of first and second wall edges, which preferably overlap
one another.
EXAMPLES OF THE INVENTION
Example 1
[0058] A piece of 20 mil-thick clear polycarbonate sheet was
provided having a width of 5 inches and a length of about 15
inches. A wooden platform was provided into which is formed four
parallel spaced-apart grooves, each groove being of about 0.25
inches wide, 0.0125 inches deep, and 6 inches long. The grooves
were spaced apart 3.5 inch (at centerlines), and the edges were
smoothed to prevent a sharp edge. The left and bottom sides of the
sheet were placed against stops so that the sheet extended about 2
inches left of the left-most groove and spanned the remaining three
grooves. Using the convex roller on the spline-installation tool,
the convex roller is pressed down onto the sheet over the
right-most groove, which helps to maintain alignment. Care was
taken not to press too firmly. The process was repeated with the
remaining grooves. The resulting scored sheet was then folded by
hand, and placed around the base of a 4.times.4 wooden mailbox
post.
Example 2
[0059] This example is the same as Example 1, except that the
polycarbonate sheet is 30 mil thick, 6 inches in width, and about
23 inches in length, and the grooves were spaced apart about 5.5
inches.
Example 3
[0060] The post protector according to Example 1 is folded at its
corners substantially as shown in FIG. 16. A pair of brass nails,
about 3/4 inch long with a head, are attached along their lengths
to the sticky side of a piece of masking tape 3/4 inch wide masking
tape that is sufficiently wide to tape the nails to the folded post
protector and to secure the folded post protector, substantially as
shown in FIG. 17. Instructions for securing the post protector to
the base portion of a wooden post are prepared, printed, and placed
folded along with the secured post protector into a plastic zipper
bag, and sealed.
* * * * *