U.S. patent application number 10/061788 was filed with the patent office on 2003-08-07 for refuse container lid.
Invention is credited to Eaton, Edward, Swick, E. Grant, Tracy, Richard J..
Application Number | 20030146230 10/061788 |
Document ID | / |
Family ID | 27658496 |
Filed Date | 2003-08-07 |
United States Patent
Application |
20030146230 |
Kind Code |
A1 |
Eaton, Edward ; et
al. |
August 7, 2003 |
Refuse container lid
Abstract
A lid (10) for covering at least a portion of a top opening (90)
of a refuse bin (81) generally comprises a rectangular panel (20)
including an upper side (30); a lower side (40); a mid-section
(77); a hinge end (50) including hinge bearings (54); and an
opening end (60). Panel (20) is defined by a plurality of upwardly
arched longitudinal corrugations (21), sinusoidal in lateral
section, spanning substantially between opening end (60) and hinge
end (50). An exemplary embodiment includes a bend section (13) at a
predetermined lateral cross-section such that a longitudinal
compressive force on opening end (60) at failure buckles panel (20)
convex upward at bend section (13). The mid-section of panel (20)
is upwardly laterally arched. Lid (10) includes a plurality of
protrusions (45) such that a plurality of lids (10) may be stacked
in a parallel relationship. The area of bearings (54) is large and
preferably exceeds 10% of the area of hinge rod (94).
Inventors: |
Eaton, Edward; (Schaumberg,
IL) ; Swick, E. Grant; (Bartlett, IL) ; Tracy,
Richard J.; (Elgin, IL) |
Correspondence
Address: |
CALIF KIP TERVO
6387 CAMINITO LAZARO
SAN DIEGO
CA
92111
US
|
Family ID: |
27658496 |
Appl. No.: |
10/061788 |
Filed: |
February 4, 2002 |
Current U.S.
Class: |
220/826 ;
220/844; 220/908; 220/909 |
Current CPC
Class: |
B65F 2220/124 20130101;
B65F 1/16 20130101; B65F 1/1646 20130101 |
Class at
Publication: |
220/826 ;
220/844; 220/909; 220/908 |
International
Class: |
B65D 043/16 |
Claims
We claim:
1. A lid for covering at least a portion of a top opening of a
refuse bin; the refuse bin having a top opening and lid mounting
means for mounting said lid; said lid comprising: a rectangular
panel including: an upper side, a lower side; a mid-section; a
hinge end including: connection means for connecting to the lid
mounting means such that said panel is rotatable about a hinge
axis; and an opening end opposite said hinge end; said panel
defined by a plurality of longitudinal corrugations spanning X
substantially between said opening end and said hinge end including
a bend section at a predetermined lateral cross-section wherein the
lower portions of said corrugations have a reduced cross-sectional
area such that a longitudinal compressive force on said opening end
at failure buckles said panel upward at said bend section.
2. The lid of claim 1 wherein: said longitudinal corrugations are
longitudinally upwardly-arched.
3. The lid of claim 1 wherein: a compression line between said
front end and said hinge axis is below the neutral bending axis of
said lid substantially over the entire length of said lid.
4. The lid of claim 1 further including: one or more additional
bend sections.
5. The lid of claim 1 wherein: said mid-section of said panel is
upwardly laterally arched.
6. A lid for covering at least a portion of a top opening of a
refuse bin; the refuse bin having a top opening and lid mounting
means for mounting said lid; said lid comprising: a rectangular
panel including: an upper side, a lower side; a mid-section; a
hinge end including: connection means for connecting to the lid
mounting means such that said panel is rotatable about a hinge
axis; and an opening end opposite said hinge end; said panel
defined by a plurality of longitudinal corrugations spanning
substantially between said opening end and said hinge end such that
a longitudinal compressive force on said opening end at failure
buckles said panel upward and including a bend section at a
predetermined lateral cross-section wherein said corrugations have
a reduced resistance to bending such that a longitudinal
compressive force on said opening end at failure buckles said panel
upward at said bend section.
7. The lid of claim 6 wherein: said longitudinal corrugations are
longitudinally upwardly-arched.
8. The lid of claim 6 wherein: a compression line between said
front end and said hinge axis is below the neutral bending axis of
said lid substantially over the entire length of said lid.
9. The lid of claim 6 further including: one or more additional
bend sections.
10. The lid of claim 6 wherein: said mid-section of said panel is
upwardly laterally arched.
11. A lid for covering at least a portion of a top opening of a
refuse bin; the refuse bin having a top opening and lid mounting
means for mounting said lid; said lid comprising: a rectangular
panel including: an upper side, a lower side; a hinge end
including: connection means for connecting to the lid mounting
means such that said panel is rotatable about a hinge axis; and an
opening end opposite said hinge end defining a compression line
between said opening end and said hinge axis; said panel defined by
a plurality of longitudinal corrugations approximating a sine wave
in lateral cross-section and spanning substantially between said
opening end and said hinge end; said opening end and said hinge end
disposed such that a compression line therebetween is below the
neutral bending axis of said lid over the substantial length of
said lid such that a longitudinal compressive force on said opening
end, at failure, buckles said panel upward.
12. The lid of claim 11 wherein: said longitudinal corrugations are
longitudinally upwardly-arched.
13. The lid of claim 11 wherein: said mid-section of said panel is
upwardly laterally arched.
14. A lid for covering at least a portion of a top opening of a
refuse bin; the refuse bin having a top opening and lid mounting
means for mounting said lid; said lid comprising: a rectangular
panel including: an upper side, a lower side; a mid-section; a
hinge end including: connection means for connecting to the lid
mounting means such that said panel is rotatable about a hinge
axis; and an opening end opposite said hinge end; said panel
defined by a plurality of longitudinal, upwardly-arched
corrugations spanning substantially between said opening end and
said hinge end such that a longitudinal compressive force on said
opening end at failure buckles said panel upward.
15. The lid of claim 14 wherein: said mid-section of said panel is
upwardly laterally arched.
16. A lid for covering at least a portion of a top opening of a
refuse bin; the refuse bin having a top opening and lid mounting
means for mounting said lid; said lid comprising: a rectangular
panel including: an upper side, a lower side; a mid-section; a
hinge end including: connection means for connecting to the lid
mounting means such that said panel is rotatable about a hinge
axis; and an opening end opposite said hinge end; wherein said lids
are adapted to be nestably stackable and said panel includes: a
plurality of protrusions for maintaining nested, stacked panels in
a parallel relationship.
17. The lid of claim 16 wherein: said panel is defined by a
plurality of longitudinal, upwardly-arched corrugations spanning
substantially between said opening end and said hinge end.
18. A lid for covering at least a portion of a top opening of a
refuse bin; the refuse bin having a top opening and lid mounting
means for mounting said lid including a hinge rod having an outer
bearing surface and having a longitudinal axis; said lid
comprising: a rectangular panel formed from a resilient
thermoplastic including: an upper side, a lower side; an opening
end: and a hinge end including: integral bearings for mounting said
panel to the hinge rod for bearing against the hinge rod outer
bearing surface such that said panel is rotatable about the
longitudinal axis of the hinge rod; wherein the bearing area
exceeds 10% of the outer bearing surface of the hinge rod.
19. The lid of claim 18 wherein: the bearing area exceeds 20% of
the outer bearing surface of the hinge rod.
20. The lid of claim 18 wherein: said panel is designed to yield to
an end compressive force by buckling said panel upwardly before the
hinge rod fails.
Description
FIELD OF THE INVENTION
[0001] This invention relates to an improved lid for a refuse
container.
BACKGROUND OF THE INVENTION
[0002] Large volume refuse containers, commonly called dumpsters,
having capacities of several cubic yards or more, are used in many
locations such as apartment complexes and the like, so that garbage
can be neatly and sanitarily gathered in a central location for
collection by a garbage truck. Frequently, containers of an
appropriate size to hold a single day's refuse are used, and the
containers are dumped daily by the collecting truck to minimize the
occurrence of offensive odors from the container. A typical
container has a large rectangular box shape and includes a bottom
and four side walls, with means, such as fork lift receiving
channels, provided whereby the refuse collecting truck can engage
the container to raise the container off the ground and invert the
container over a bin on the collecting truck to empty the refuse
therefrom. Normally, one or more hinged covers or lids are provided
on the top of the container, and as the container is inverted over
the bin, the lids fall open, permitting the refuse to fall from the
container into the bin on the truck. After the container is
emptied, it is lowered back onto the ground, and as it is lowered
the lids fall to the closed position.
[0003] This sounds simple enough, but there are large, conflicting
demands placed on lids.
[0004] A lid should be sufficiently strong so as to support a load,
such as a child or refuse, placed on top. The lid should not buckle
or fail under such loads.
[0005] A lid should be sufficiently strong to resist the damage
during dumping. When the container is inverted and emptied into the
truck bin, heavy refuse is sometimes flung against the lid. When
the container is being lowered to the ground, the cover often slams
closed forcefully. Often a lid is opened all the way so as to fall
back forcefully against the outside back wall. The repetitive
forceful opening and closing of the lid can cause structural
damage, creating dents and bending the covers out of shape so that
the covers will not rotate properly on the hinge or may not close
the container completely.
[0006] When the container is inverted and emptied into the truck
bin, the lids are open and vertical and go down into the truck bin.
There, they occasionally are pushed against refuse in the bin. This
puts high compressive forces on the front of the lid and the hinge.
These forces often severely damage a lid or hinge. A lid should be
designed to function in the face of these forces.
[0007] It is preferred in such a container that the lids are freely
movable about the hinge connection, so that they will open
completely and close readily during the dumping operation.
[0008] A lid should rotate to a freely open position such that the
lid need not be held open.
[0009] Preferably, a lid is sufficiently light weight so as to be
easily raised by the person placing garbage therein. Since
frequently a person will be carrying a bag of garbage in at least
one hand, thus having only one hand free for opening the container,
it is highly desirable that the cover or covers are easily opened
while the container remains on the ground.
[0010] Preferably, a lid should be adapted to shed water and snow.
Standing water or snow on a lid increases the weight of the lid and
may be a source of odor or insects. Water or snow should be
directed off the container and not into it.
BRIEF DESCRIPTION OF THE DRAWINGS
[0011] FIG. 1 is a front perspective view of a refuse container
including two lids of the invention attached to a bin.
[0012] FIG. 2 is a front top perspective view of a preferred
embodiment of the lid of the invention.
[0013] FIG. 3 is a top plan view of the lid of FIG. 2.
[0014] FIG. 4 is a bottom plan view of the lid of FIG. 3.
[0015] FIG. 5 is an enlarged rear elevation view of the lid of FIG.
2.
[0016] FIG. 6 is an enlarged front elevation view of the lid of
FIG. 2.
[0017] FIG. 7 is combined side elevational sectional views of the
lid of FIG. 2 taken on lines A1-A1-D2-D2 of FIG. 6.
[0018] FIG. 8 is a sectional view taken on line 8-8 of FIG. 3.
[0019] FIG. 9 is a sectional view taken on line 9-9 of FIG. 3
further including additional lids in stacked configuration.
[0020] FIG. 10 is a sectional view taken on line 10-10 of FIG.
9.
[0021] FIG. 11 is front top perspective view of an alternate
embodiment of the lid of the invention.
DETAILED DESCRIPTION OF THE INVENTION
[0022] With reference now to the drawings, FIG. 1 is a front
perspective view of a dumpster or refuse container 80 including two
lids 10 of the invention and a bin 81 for holding refuse.
[0023] Bin 81 is a conventional bin typically constructed of strong
metal, such as steel. Bin 81 includes a bottom 82 and walls 83.
Walls 83 include front wall 83F, back wall 83B, left wall 83L and
right wall 83R, projecting upwards from bottom 82. Each wall 83 has
an upper end 84 which terminates in a upper edge or lip 85
surrounding top opening 90. Lip 85 generally defines a plane
surrounding opening 90.
[0024] Lid mounting means 91 for hingedly mounting lid 10 include a
pintle or hinge rod 94 supported by two or more mounts 92 attached
to upper ends 84 of walls 83. In other bin configurations, mounts
92 may be attached to a permanent partial cover. A pair of lids 10,
such as left lid 10L and right lid 1OR are mounted to hinge rod 94
so as to be pivotable to the fully vertical upright position and
preferably pivotable through approximately 270.degree.. Hinge rod
94 defines a hinge axis 99 about which lid 10 pivots. A typical
hinge rod 94 is a steel rod of one-half inch diameter and six feet
in length so as to hold two lids 10.
[0025] Mounted on left and right walls 83L, 83R are lift pockets
88, each for receiving a lift arm of a refuse collecting truck.
[0026] Although a single exemplary embodiment of a bin 81 is shown
and described, it will be seen and should be understood that lid 10
of the invention is applicable for use with a wide variety of bins
having different features and that the exemplary bin 81 is not
intended to limit the scope of the invention. For example, a bin
may have a top partially covering the bin opening. Such a top may
be fixed or movable.
[0027] FIGS. 2-6 are views of a preferred embodiment of lid 10.
FIG. 2 is a front top perspective view. FIG. 3 is a top plan view
of lid 10 of FIG. 2. FIG. 4 is a bottom plan view of lid 10 of FIG.
3. FIG. 5 is an enlarged rear elevation view of lid 10 of FIG. 2.
FIG. 6 is an enlarged front elevation view of lid 10 of FIG. 2.
[0028] Lid 10 is intended to cover all or a portion of the top
opening 90 of a refuse bin 81. Lid 10 is a rectangular panel 20
generally including an upper side 30, a lower side 40, a hinge end
50, an opening end 60, a mid-section 77; a left side 70, and a
right side 75.
[0029] Hinge end 50 includes connection means 52, such as a
plurality of laterally spaced bearings 54, for connecting to the
bin's lid mounting means 91, such as to hinge rod 94 such that
panel 20 is rotatable about hinge rod 94 and hinge axis 99. Hinge
rod 94 includes an outer bearing surface 95. Lid 10 is formed from
a resilient thermoplastic and includes integral bearings 54, that
are formed directly out of the thermoplastic, for bearing directly
on outer surface 95 of hinge rod 94. Thus, there is no need for
addition or insertion of other bearing materials, such as metal
sleeves. Bearings 54 should be spaced so as to support lid 10 and
must be sufficiently strong so as not to fail and particularly not
to fail before lid 10 bends as described below. It is important
that bearings 54 not be damaged, as bearing damage may cause the
lid not to properly open and close or to not cover the bin. Total
strength of bearings 54 is largely dependent upon their total
bearing area. Extensive testing to failure has shown that, when
bearing area exceeds 10t of the total area of hinge rod 94, failure
of the bearings 54 or damage to the bearings goes down. A bearing
area exceeding 20%, assures that the failure mode takes place
elsewhere. Lid 10, of the exemplary embodiment, has forty four
bearings 54 comprising almost 23% of the area (or length) of hinge
rod 94, thus assuring that lid 10, as described below, will always
yield in another location.
[0030] Lid opening end 60 is opposite lid hinge end 50. Opening end
60 includes opening means 62, such as a handle 63, such as raised
central portion 64 under which a person may place fingers for
opening lid 10.
[0031] Upper lip edge or lip 85 of bin front wall 83F supports the
periphery or near periphery of lower side 40 of opening end 60. Bin
upper edge or lip 85 may support the periphery or near periphery of
lower side 40 of either left or right side 70, 75.
[0032] Panel 20 is further defined by a plurality of longitudinal
corrugations 21 spanning substantially between opening end 60 and
hinge end 50 creating a plurality of hills 22 and valleys 26.
Corrugations 21 act as a plurality of longitudinal flanged beams
for greatly increasing the bending strength of lid 10. Preferably,
corrugations 21 have a lateral cross section approximating a sine
wave. A sine wave cross section of corrugations 21 facilitates the
flow of plastic in the molding process such that the thickness and
material strengths are more uniform. Corrugations 21 have a
longitudinal neutral bending axis wherein half the moment of
inertia is above the neutral axis and half is below.
[0033] Lid 10 is adapted for bending upward upon failure in bending
mode from compressive forces on front end 60. At opening end 60,
hills 22 of corrugations 21 slant down to the same level as valleys
26 such that opening end 60 is relatively low, essentially at the
lowest level of lid 10. At hinge end 50, hinge axis 99 is also
relatively low, certainly below the neutral bending axis of
corrugations 21, such that a compression line 12 between front end
60 and hinge axis 99 is below the neutral bending axis of lid 10.
Since longitudinal compressive forces on lid 10 act on compression
line 12 and this is below the neutral bend axis, panel 20 will bend
upward in bending failure due to compression loads. This is true
even if the corrugations are not longitudinally upwardly arched as
shown in the exemplary embodiment.
[0034] As best seen in FIGS. 5 and 6, rear and front elevation
views of lid 10, in the mid-section 77 of panel 20, corrugations 21
are upwardly arched laterally, that is the mean height of panel 20
rises toward the center. In the exemplary embodiment, both hills 22
and valleys 26 progressively rise toward the center of panel 20.
This lateral arching increases the ability of panel 20 to hold
loads, such as a person or weight placed on upper surface 30.
[0035] FIG. 7 combines side elevational sectional views of the lid
of FIG. 2 taken on lines A1-D1 through valleys 26 and lines A2-D2
through hills of FIG. 6. Longitudinal compressive forces on lid 10
act on a compression line 12 between front end 60 and hinge axis
99. As seen in FIG. 7, panel 20 is upwardly arched longitudinally.
This increases its ability to hold loads, such as a person or
weight placed on upper surface 30 and provides for water run
off.
[0036] Additionally, panel 20 is upwardly arched longitudinally
such that the substantial mass is above compression line 12. This
predisposes the middle of lid 10 to bend upward upon bending
failure due to excessive longitudinal compressive force.
[0037] As best seen in FIGS. 4 and 8, panel 10 includes one or more
lateral bend zones or bend sections 13. FIG. 8 is a sectional view
taken on line 8-8 of FIG. 3. Bend sections 13 are predetermined
lateral cross-sections of reduced strength that will fail first in
bending mode failure. In panel 10, bend zones 13 are provided where
said corrugations have a reduced resistance to bending, such as by
having a reduced moment of inertia, such that longitudinal
compressive force on said opening end at bend failure buckles said
panel at bend zone 13. In panel 20, the lower portions of
corrugations 21 along bend zone 13 have a reduced cross-sectional
area 14 as seen in FIG. 4 such that longitudinal compressive force
on opening end 60 at bend failure buckles lid 10 upward at a bend
zone 13.
[0038] FIG. 11 is a front top perspective view of a lid 10' showing
an alternate embodiment. Lid 10' is the same as lid 10 except,
instead of the lower portions of corrugations 21 along bend zone 13
having a reduced cross-sectional area 14 as in lid 10, bend zone
13' is created by reducing the resistance to bending by reducing
the moment of inertia of the corrugations by lowering the tops of
hills 22 such as by lateral depressions 14'. In this manner, panel
20' will first buckle upwards at bend zone 13' at bend failure from
compression load. As previously described, panel 20' is predisposed
to buckle upwards upon failure in bending mode, and the lateral
weakening at bend zone 14' controls the bending to first occur
along bend zone 13'.
[0039] Lid 10 is made of sufficiently resilient material so as to
spring back and return to its original configuration after being
buckled. Polypropylene and/or other thermoplastic olefin material
has been found to produce good results.
[0040] Because lid 10 buckles upward in failure mode, gravity
assists in returning the buckled lid 10 to its original
configuration. Thus, since a buckled lid is typically still
supported along a left or right side by the bin, gravity on the
raised part will tend to straighten the lid and return the lid to
its original configuration
[0041] Lid 10 is adapted, such as by having a smoothly arched top
surface, for shedding water and snow off the container and not into
the bin.
[0042] Lid 10 is adapted to be nestably stackable. As seen in FIG.
4, lid 10 includes nubs or protrusions 45 on lower side 40 for
maintaining nested, stacked lids 10 in a parallel relationship.
Protrusions 45 assure that a stack of lids 10 maintains vertical
alignment and they prevent nested lids 10 from becoming stuck
together.
[0043] FIG. 9 is a sectional view taken on line 9-9 of lid 10 of
FIG. 3 further including additional identical lids 10a, 10b in
nested, stacked configuration. FIG. 10 is a sectional view taken on
line 10-10 of lid 10 of FIG. 3 further including additional lids
10a, 10b in nested, stacked configuration. As can be seen,
protrusions 45 are adapted for maintaining nested, stacked lids 10
in a parallel relationship.
[0044] Although a particular embodiment of the invention has been
illustrated and described, various changes may be made in the form,
composition, construction, and arrangement of the parts herein
without sacrificing any of its advantages. Therefore, it is to be
understood that all matter herein is to be interpreted as
illustrative and not in any limiting sense, and it is intended to
cover in the appended claims such modifications as come within the
true spirit and scope of the invention.
* * * * *