U.S. patent application number 09/895852 was filed with the patent office on 2003-01-02 for mesh sponge assembly with hinged handle.
This patent application is currently assigned to Jean Charles Incorporated. Invention is credited to Borcherds, Victor.
Application Number | 20030000039 09/895852 |
Document ID | / |
Family ID | 25405184 |
Filed Date | 2003-01-02 |
United States Patent
Application |
20030000039 |
Kind Code |
A1 |
Borcherds, Victor |
January 2, 2003 |
Mesh sponge assembly with hinged handle
Abstract
A sponge assembly includes an elongated handle having a first
end and an opposing second end. A mesh sponge is secured at the
first end of the handle. Disposed between the first end of the
handle and the second end of the handle is a hinge assembly. The
hinge assembly enables moving of the handle between a folded
position and an unfolded position. Formed on a joint of the hinge
assembly is a notch. A latch is slidably mounted on the handle. At
least a portion of the latch is configured to be slidably received
within the notch on the hinge joint when the handle is in the
unfolded position so as to lock the handle in the unfolded
position.
Inventors: |
Borcherds, Victor; (Thermal,
CA) |
Correspondence
Address: |
WORKMAN NYDEGGER & SEELEY
1000 EAGLE GATE TOWER
60 EAST SOUTH TEMPLE
SALT LAKE CITY
UT
84111
US
|
Assignee: |
Jean Charles Incorporated
|
Family ID: |
25405184 |
Appl. No.: |
09/895852 |
Filed: |
June 28, 2001 |
Current U.S.
Class: |
15/209.1 ;
15/144.1; 15/144.3; 15/244.2; 53/473 |
Current CPC
Class: |
A47K 7/028 20130101 |
Class at
Publication: |
15/209.1 ;
15/244.2; 15/144.1; 15/144.3; 53/473 |
International
Class: |
A47K 007/02 |
Claims
What is claimed is:
1. A sponge assembly comprising: an elongated handle having a first
end and an opposing second end; a sponge secured at the first end
of the handle; a hinge disposed between the first end of the handle
and the second end of the handle so as to enable moving of the
handle between a folded position and an unfolded position; and
means for selectively locking the hinge when the handle is in the
unfolded position.
2. A sponge assembly as recited in claim 1, wherein the means for
selectively locking comprises: a notch formed on the hinge; and a
latch slidably mounted on the handle, at least a portion of the
latch being configured to be received within the notch on the hinge
so as to prevent moving of the handle between the folded position
and the unfolded position.
3. A sponge assembly as recited in claim 2, wherein the latch is
slidably disposed within a slot formed on the handle.
4. A sponge assembly as recited in claim 1, wherein the latch at
least partially encircles a portion of the handle.
5. A sponge assembly as recited in claim 4, wherein the latch is
configured to slidably pass over the hinge so as to lock the
hinge.
6. A sponge assembly as recited in claim 1, wherein the handle has
a first portion disposed on one side of the hinge and an opposing
second portion disposed on the opposing side of the hinge, the
means for selectively locking comprising: an arm having a first end
and an opposing second end, the first end of the arm being secured
to the first portion of the handle; and a catch formed on the
second end of the arm, the catch being configured to selectively
engage the second portion of the handle.
7. A sponge assembly as recited in claim 1, wherein the sponge
comprises a mesh sponge.
8. A sponge assembly comprising: an elongated handle having a first
end and an opposing second end; a mesh sponge secured at the first
end of the handle; a hinge assembly disposed between the first end
of the handle and the second end of the handle so as to enable
moving of the handle between a folded position and an unfolded
position, the hinge having a notch formed thereon; and a latch
slidably mounted on the handle, at least a portion of the latch
being configured to be selectively received within the notch on the
hinge when the hinge in the unfolded position so as to lock the
handle in the unfolded position.
9. A sponge assembly as recited in claim 8, wherein the mesh sponge
is comprised of a plurality of discrete tubes of mesh material.
10. A sponge assembly as recited in claim 8, wherein the latch is
slidably disposed within an elongated slot extending through a
portion of the handle.
11. A sponge assembly as recited in claim 8, wherein the latch
comprises: a body; and a pair of flexible fingers projecting from
the body, the flexible fingers securing the body to the handle.
12. A sponge assembly as recited in claim 8, further comprising a
substantially L-shaped nose projecting from the body, a portion of
the nose being configured to be received within the notch.
13. A sponge assembly as recited in claim 8, wherein the notch has
a substantially V-shaped transverse cross section.
14. A sponge assembly as recited in claim 8, wherein the handle has
a front face and an opposing back face, the hinge assembly
projecting from below the front face outwardly past the back
face.
15. An assembly comprising: a first structural member; a first
hinge joint secured to the first structural member, the first hinge
joint having opposing end faces with a side face each extending
therebetween, a notch being recessed on the side face of the first
hinge joint; a second structural member; a second hinge joint
secured to the second structural member; a pin rotatably securing
the first hinge joint to the second hinge joint; and a latch
slidably mounted on the second structural member, a portion of the
latch being configured to be selectively received within the notch
on the first hinge joint so as to prevent rotation between the
first hinge joint and the second hinge joint.
16. An assembly as recited in claim 15, wherein the first
structural member and the first hinge joint are integrally molded
together from a plastic.
17. An assembly as recited in claim 15, wherein the first
structural member has a front face and an opposing back face, the
first hinge joint projecting from below the front face outwardly
past the back face.
18. An assembly as recited in claim 15, wherein the latch is
slidably disposed within an elongated slot extending through a
portion of the handle.
19. A method for packaging comprising: obtaining a sponge assembly
comprising: an elongated handle having a first end and an opposing
second end; a sponge secured at the first end of the handle; and a
hinge assembly disposed between the first end of the handle and the
second end of the handle so as to enable moving of the handle
between a folded position and an unfolded position; folding the
handle into the folded position; inserting the folded handle into a
select hole formed on a box, the box comprising: a floor; a
perimeter wall upstanding from the floor and bounding a
compartment; and a support shelf at least partially disposed within
the compartment at a spaced apart location above the floor, a
plurality of holes extending through the support shelf, the select
hole being chosen from the plurality of holes.
20. A method as recited in claim 19, wherein the act of providing a
sponge assembly comprises a mesh sponge being secured at the first
end of the handle.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] Not applicable.
BACKGROUND OF THE INVENTION
[0002] 1. The Field of the Invention
[0003] The present invention relates to hinges and, more
specifically, locking hinges used on a handle of a mesh sponge
assembly.
[0004] 2. The Relevant Technology
[0005] Mesh bath sponges are common household bath accessories
which are used for the application of soap, such as during
showering or bathing. A conventional mesh bath sponge is formed
from polymeric mesh netting material that has been manipulated into
a substantially spherical ball of irregular ruffles. In one use,
the mesh bath sponge is secured at the end of an elongated rigid
handle. The handle enables easy application of the sponge on an
individuals back and lower extremities.
[0006] Although mesh bath sponges with handle are useful, the
conventional design has various shortcomings. For example, due to
the extended length of the rigid handle, the mesh sponge assembly
is often difficult to pack in a small travel bag or store in a
drawer or cabinet.
[0007] An additional problem with the conventional sponge
assemblies with handle relates to their retail sale. That is, again
because of the elongated length of the handle, the sponge
assemblies take up considerable shelf space within a store.
Typically, the elongated sponge assemblies are supported on a rack
by a cord which extends from the end of the handle. Even if the
mesh sponge assemblies are displayed with the mesh sponge portions
being close together, the remaining handle portions partially
obstruct a relatively large adjacent space which thus becomes
wasted store space. Therefore, the conventional mesh sponge
assemblies with hand cannot be efficiently displayed in a store
without occupying extensive shelf space.
BRIEF SUMMARY OF THE INVENTION
[0008] A sponge assembly includes an elongated handle having a
first end and an opposing second end. A sponge, such as a mesh bath
sponge, is secured at the first end of the handle so as to
substantially cover the first end of the handle. The handle
includes a first handle portion and a second handle portion.
[0009] Securing the first handle portion to the second handle
portion is a hinge assembly. The hinge assembly enables moving of
the handle between a collapsed folded position and a substantially
linear unfolded position. The hinge assembly includes a hinge joint
formed on the first handle portion. Formed on the hinge joint is a
notch.
[0010] A latch is slidably mounted on the second handle portion. At
least a portion of the latch is configured to be slidably received
within the notch on the hinge joint when the handle is in the
unfolded position. When the latch is received within the notch, the
handle is locked in the elongated unfolded position. The sponge
assembly can then be use in a conventional manner. When the latch
is retracted out of the notch, the handle can be collapsed into the
folded position for ease in packaging, storing, and/or
displaying.
[0011] These and other features of the present invention will
become more fully apparent from the following description and
appended claims, or may be learned by the practice of the invention
as set forth hereinafter.
BRIEF DESCRIPTION OF THE DRAWINGS
[0012] To further clarify the above and other advantages and
features of the present invention, a more particular description of
the invention will be rendered by reference to specific embodiments
thereof which are illustrated in the appended drawings. It is
appreciated that these drawings depict only typical embodiments of
the invention and are therefore not to be considered limiting of
its scope. The invention will be described and explained with
additional specificity and detail through the use of the
accompanying drawings in which:
[0013] FIG. 1 is a perspective view of a sponge assembly including
an elongated handle having a mesh sponge attached at the end
thereof.
[0014] FIG. 2 is a elevated side view of a plurality of gathered
bands of mesh material positioned for attached to the end of the
handle shown in FIG. 1;
[0015] FIG. 3 is a cross sectional side view of the gathered bands
of mesh material shown in FIG. 2 being attached to the end of the
handle;
[0016] FIG. 4 is a disassembled perspective view of the hinge
assembly for the handle shown in FIG. 1;
[0017] FIG. 5 is an elevated cross sectional side view of the hinge
assembly shown in FIG. 4 in a locked position;
[0018] FIG. 6 is an elevated cross sectional side view of the hinge
assembly shown in FIG. 4 in an unlocked position;
[0019] FIGS. 7-9 are perspective views of alternative hinge and
locking designs for use with the handle shown in FIG. 1; and
[0020] FIG. 10 is a perspective view of a display box housing a
plurality of the folded sponge assemblies shown in FIG. 1.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0021] The present invention relates to hinges and, more
particularly, locking hinges used on the handle of a sponge
assembly. Depicted in FIG. 1 is one embodiment of a sponge assembly
10 incorporating features of the present invention. Sponge assembly
10 comprises an elongated handle 12 having a lead end 14 and an
opposing tail end 16. In the embodiment depicted, handle 12 is
slightly arched and has a front face 11 and an opposing back face
13 which extends between the opposing ends 14 and 16. Handle 12
also has opposing side edge 8 and 9 which partially bound the
substantially rectangular transverse cross section of handle
12.
[0022] In one embodiment, handle 12 is injection molded from a
plastic such as polycarbonate. In alternative embodiments, handle
12 can be molded in any desired way from a variety of different
materials such as other plastics, composites, metals and the like.
Handle 12 can also have any desired transverse cross sections such
as round, square, triangular, or irregular. Furthermore, the cross
section can change along the length.
[0023] Positioned at first end 14 of handle 12 is a mesh sponge 17.
Extending through tail end 16 is an aperture 32. A looped cord 34
extends through aperture 32 to facilitate hanging or attachment of
sponge assembly 10.
[0024] Handle 12 can be further defined in terms of an elongated
upper handle portion 18 and an elongated lower handle portion 20.
Upper handle portion 18 has a first end 22 and an opposing second
end 24. Similarly, lower handle portion 20 has a first end 26 and
an opposing second end 28. Second end 24 of handle portion 18 and
first end 26 of handle portion 20 are connected together by a hinge
assembly 30 that will be discussed below in greater detail.
[0025] Depicted in FIG. 2 is one embodiment of a manufacturing
apparatus 40 used in the formation and attachment of mesh sponge
17. Manufacturing apparatus 40 comprises a base 42 having a pair of
spaced apart supports 44 and 46 upwardly projecting therefrom. Each
support 44 and 46 terminates at a free end 48 that is typically
rounded. Supports 44 and 46 can be any desired configuration and
need only have a slot or spaced formed therebetween. Furthermore,
supports 44 and 46 can be secured in their spaced apart
configuration by being mounted or secured in any desired manner and
on any desired structure.
[0026] Mesh sponge 17 is typically made from mesh tubing. One
example is low density polyethylene diamond mesh that is extruded
in the form of an elongated tube. This mesh is substantially the
same as that commonly used in fruit and vegetable bags. It is
appreciated that the drawings of the material for sponge 17 in the
figures is merely illustrative and may not be a precise depiction
of the diamond mesh netting.
[0027] During manufacture a first length of tubular mesh, typically
having a length in a range between about 3 yards to about 5 yards,
is radially and outwardly stretched and received over free end 48
of each spaced apart support 44 and 46. The length of tubular mesh
is longitudinally compressed or gathered to form a band 50 that
continually encircled supports 44 and 46. Once continuous band 50
is formed, the process is repeated for two other discrete tubes of
mesh material so as to form bands 52 and 54. Each band 50-54 has
opposing central portions 4 and 5 that are centrally disposed
between supports 44 and 46. Each band 50-54 also has a pair of
opposing end portions 6 and 7 that are generally located at or
adjacent to supports 44 and 46.
[0028] At this stage, lead end 14 of handle 12 is centrally
disposed within stretched bands 50-54. Extending through lead end
14 are three pairs of spaced apart holes 36. As depicted in FIG. 3,
a self-locking plastic tie 56 is passed through a corresponding
pair of holes 36 and around each opposing side of a corresponding
band. Each tie 56 is pulled tight and locked off so that each band
50-54 is securely retained on handle 12. In contrast to using
plastic ties 56, it is appreciated that string, cord, or any other
type of line or fastener can also be used.
[0029] Once ties 56 are at least partially tightened around bands
50-54, as depicted in FIG. 3, each band 50-54 is incrementally
released from supports 44 and 46 starting with upper band 54.
Specifically, select portions of end portions 6 and 7 of band 54
are drawn off of corresponding supports 44 and 46 and outwardly
stretched. The stretched portions are then released and allowed to
rebound off of supports 44 and 46. This plucking action of drawing,
stretching, and releasing incremental portions of end portions 6
and 7 is repeated until band 54 is removed from supports 44 and 46.
The process is then repeated for band 52 and then band 50. As a
result, bands 50-54 are formed into sponge 17 which comprises a
plurality of radially outwardly projection ruffles which cover lead
end 14 of handle 12.
[0030] To produce sponge 17 having a full body configuration, the
select end portions 6 and 7 of each band 50-54 can be incrementally
stretched off of supports 44 and 46 at virtually any 360 degree
angle relative to supports 44 and 46. Furthermore, the select
portions can be incrementally drawn off in the same or opposing
direction and can be drawn off at the same time or different times.
The orientation in which the select portions are drawn off and
stretched can vary during the release of each band 50-54. Although
three bands 50-54 are depicted in FIGS. 2 and 3, it is appreciated
that sponge 17 can be formed from one or more bands.
[0031] Furthermore, in contrast to using single lengths of mesh
tubing to form bands 50-54, a plurality of discrete lengths of mesh
tubing can be used. For example, a first mesh tubing can be
vertically disposed above a second mesh tubing to form a single
band. Alternatively, a first mesh tubing can be concentrically
disposed within a second mesh tubing to form a single band.
Furthermore, different mesh tubings can have different colors,
textures, composition, mesh sizes, and other alternative properties
to further enhance the look and functionality of the resulting
sponge.
[0032] An alternative method regarding the formation and attachment
of mesh sponge 17 to handle 12 is disclosed in U.S. Pat. No.
5,687,447 to Bynum et al which patent is incorporated herein by
specific reference. In yet another embodiment, it is appreciated
that a mesh sponge can be independently formed first and then
secured to the end of handle 12.
[0033] In contrast to securing a mesh sponge to handle 12, it is
also appreciated that other types of sponges such as natural
loofah, foam sponges, terry cloth sponges and the like can also be
secured to the end of handle 12. It is also appreciated that
structures other than sponges can also be secured thereto
[0034] Depicted in FIG. 4 is an exploded view of hinge assembly 30
shown in FIG. 1. As shown therein, hinge assembly 30 comprises a
first hinge joint 60 having a substantially disk shaped
configuration. Specifically, first hinge joint 60 has a circular
first end face 62, an opposing circular second end face 64, and a
substantially cylindrical side face 66 extending therebetween. Also
extending between end faces 62 and 64 is a central axial opening
68. Formed on side face 66 is a notch 70. In one embodiment, notch
70 has a substantially V-shaped transverse cross section and
extends to axial opening 68.
[0035] First hinge joint 60 is secured at second end 24 of handle
portion 18. Specifically, second end 24 of handle portion 18
terminates at an end face 72 which intersects with front face 11 of
handle 12. A curved recess 74 extends between end face 72 and back
face 13 of handle 12. First hinge joint 60 is centrally disposed
along curved recess 74 so as to outwardly project from back face
13. It is appreciated that in one embodiment, first hinge joint 60
is integrally molded with handle 12 from the same material. In
alternative embodiments, hinge assembly 30 or elements thereof can
be made form a different material than handle 12 and can be
separately attached thereto.
[0036] Hinge assembly 30 also comprises a second hinge joint 80 and
a third hinge joint 82 mounted in spaced apart positions at first
end 26 of handle portion 20. Like first hinge joint 60, second
hinge joint 80 is also substantially disk shaped having a circular
inside end face 84, a circular outside end face 86, and a
substantially cylindrical side face 88 extending therebetween. Also
extending between end faces 84 and 86 is a central axial opening
90. Unlike first hinge joint 60, however, second hinge joint 80
does not include a notch although a notch can be formed thereon.
Third hinge joint 82 is substantially identical to second hinge
joint 80 and like elements will be identified with like reference
characters.
[0037] First end 26 of handle portion 20 terminates at an end face
92 which intersects with front face 11 of handle 12. A curved
recess 94 extends between end face 92 and back face 13 of handle
12. Second hinge joint 80 and third hinge joint 82 are spaced apart
along curved recess 94 so as to outwardly project from back face
13. As with first hinge joint 60, second hinge joint 80 and third
hinge joint 82 can be integrally molded with or separately attached
to handle portion 20.
[0038] During assembly, first hinge joint 60 is disposed between
second hinge joint 80 and third hinge joint 82 so that axial
openings 68 and 90 are aligned. A pin 96, typically made from a
metal such as brass or steel, is advanced through the openings so
as to be held therein by frictional engagement. Pin 96 holds hinge
joints 60, 80, and 82 together so that hinge joint 60 can freely
rotate relative to hinge joints 80 and 82. In this configuration,
handle portions 18 and 20 can move between an unfolded position and
a folded position. In the unfolded position, as depicted in FIGS. 1
and 5, handle portions 18 and 20 are aligned so that end face 72 of
handle portion 18 butts against end face 92 of handle portion 20.
In the folded position, as depicted in FIG. 6, handle 12 is bent at
hinge assembly 30.
[0039] Although hinge assembly 30 is shown as including three hinge
joints, in alternative embodiments, it is appreciated that hinge
assembly 30 can include only two hinge joints or four or more hinge
joints.
[0040] Sponge assembly 10 also includes, a latch 100. Latch 100
includes a substantially flat body 102 having a top surface 104
with ridges formed thereon and an opposing bottom surface 106. As
depicted in FIGS. 4 and 5, a substantially L-shaped nose 108
projects from the front end of bottom surface 106. Downwardly
projecting from the back end of bottom surface 106 is a stop 110. A
pair of spaced apart fingers 112 also downwardly project from
bottom surface 106 between nose 108 and stop 110. Outwardly
projecting from each finger 112 is a barb 114.
[0041] Latch 100 is configured to be slidably received within an
elongated slot 120 formed at first end 26 of handle portion 20.
Slot 120 comprises a substantially rectangular recess 122 that is
formed on font face 11 of handle portion 20. Recess 122 is bounded
by a side wall 124 and a floor 126. Extending through floor 126 to
back face 13 of handle portion 20 is a substantially rectangular
opening 128. Opening 128 is bounded by opposing side walls 130.
Each side wall 130 has an upper portion 132, a lower portion 134,
and an inwardly projecting shoulder 136 extending therebetween. A
channel 138 is recessed within back face 13 of handle portion 20
and extends from opening 128 to between hinge joints 80 and 82.
[0042] As depicted in FIG. 5, latch 100 is slidably disposed within
slot 120. Specifically, body 102 is received within recess 122 and
supported on floor 126. Nose 108 extends through opening 128 and
projects into channel 138. Fingers 112 extend down into opening 128
such that barbs 114 bias against shoulder 136, thereby securing
latch 100 within slot 120.
[0043] Latch 100 can be selectively moved between an advanced
position and a retracted position. When handle 12 is in the
unfolded position, notch 70 is aligned with channel 138. In this
configuration, latch 100 can be selectively moved into the advanced
position such that nose 108 is pushed into notch 70. In this
position, nose 108 biases against first hinge joint 60, thereby
lock hinge 30 and handle 12 into the unfolded position. Sponge
assembly 10 can then be used in its fixed elongated configuration.
Nose 108 is snuggly fit in frictional engagement within notch 70 so
as to prevent accidental withdrawal of nose 108 from notch 70.
Pressure ridges, a pawl and detent, or the like can also be used to
help secure nose 108 within notch 70.
[0044] When it is desired to fold handle 12, latch 120 is
selectively slide backward into the retracted position as shown in
FIG. 6. Specifically, latch 110 is slide backward until stop 110
bias against back wall 98. In this position, nose 108 is retracted
out of notch 70 such that hinge 30 can be freely rotated. As such,
handle 12 can be collapsed into the folded position. In this folded
position, sponge assembly 10 can be easily stored or packaged.
[0045] It is appreciated that one of the benefits of the design of
hinge assembly 30 and latch 100 is that no sharp edges or comers
are exposed. As such, sponge assembly 10 can be safely used during
bathing.
[0046] In one embodiment, the present invention includes means for
selectively locking hinge 30 when handle 12 is in the unfolded
position. By way of example and not by limitation, one example of
the means for selectively locking comprises latch 100 used in
conjunction with slot 70. In an alternative embodiment, it is
appreciated that latch 100 can also be slidably mounted on upper
portion 18 while slot 70 is formed on hinge joint 80 or 82. It is
also appreciated that notch 70 and latch 100 can have a variety of
different configurations. For example, in contrast to having a
substantially V-shaped transverse cross section, notch 70 can also
have a substantially square, rectangular, or other cross
section.
[0047] Depicted in FIGS. 7-9 are alternative hinge designs and
corresponding alternative means for selectively locking the hinge
when the handle thereof is in the unfolded position. Depicted in
FIGS. 7-9, like elements compared to the embodiments in FIGS. 1-5
are identified by like reference characters.
[0048] Depicted in FIG. 7, handle portion 18 and handle portion 20
are secured together by a hinge assembly 148. Hinge assembly 148
includes a hinge joint 150 mounted on handle portion 18. A notch
152 is recessed within hinge joint 150. A pair of spaced apart
hinge joints 154 and 156 are mounted on handle portion 20 on
opposing sides of hinge joint 150. A pin 158 longitudinally extends
through hinge joints 150, 154, and 156 so as to enable rotational
movement therebetween.
[0049] A latch 158 includes a body 162 that is slidably mounted on
a recessed section 157 of handle portion 20 adjacent to hinge
assembly 148. In this embodiment, body 162 either completely or
partially encircles recessed section 157 of handle portion 20. For
example, body 162 can be clipped onto recessed section 157 using
flexible fingers such as on latch 100. Alternatively, body 162 can
be wrapped or otherwise disposed around recessed section 157 and
then secured to itself, such as by spot welding or adhesive, so
that it is still freely slidable. Projecting from body 162 is a
nose 160. Nose 160 is configured to selectively slide into notch
152 for selectively locking hinge assembly 148.
[0050] In the embodiment depicted in FIG. 8, handle portion 18 is
secured to handle portion 20 by hinge assembly 170. Hinge assembly
170 is substantially the same as hinge assembly 30 except that it
does not include notch 70. Formed on front face 11 of handle
portion 18 is a recess 172 bounded by a floor 174. Extending
through floor 174 is an opening 176. A recess 178 is also formed on
front face 11 of handle portion 20.
[0051] An elongated arm 180 has a first end 182 and an opposing
second end 184. First end 182 is hingedly mounted within recess 178
by a pin 186. A resiliently biased catch 188 is position at second
end 184 of arm 180. Catch 188 includes a barbed finger 190
projecting therefrom. Barbed finger 190 is configured to be
selectively received within opening 176 such that barbed finger 190
catches below floor 174, thereby securing arm 180 to handle portion
18. In this configuration, handle portions 18 and 20 are locked
together preventing rotation at hinge assembly 170. In turn, catch
188 can be manually manipulated to release barbed finger 190,
thereby enabling selective folding of handle 12 at hinge 170.
[0052] Depicted in FIG. 9, handle portions 18 and 20 are connected
together by a hinge assembly 200. Specifically, handle portion 18
terminates at a recessed post 204 having a hinge joint 206
centrally projecting therefrom. Handle portion 20 also terminates
at a recessed post 207 having hinge joints 208 and 210 projecting
therefrom. Hinge joints 206, 208, and 210 are connected together by
a pin 212. A latch 214 is slidably mounted on the recessed portion
of handle portion 20. Latch 214 can be designed as discussed above
with regard to body 162 in FIG. 7. When handle portions 18 and 20
are longitudinally aligned in the unfolded position, latch 214 can
be slidably positioned over top of hinge assembly 200, thereby
locking handle 12 in the unfolded position. When desired, latch 214
can be slid back off of hinge 200, thereby enabling selective
folding of handle 12.
[0053] As previously discussed, one of the unique benefits of the
present invention is that it enables the resulting sponge assembly
10 to be easily packaged and displayed for retail sale using
minimal shelf space. For example, depicted in FIG. 10 is a display
box 220. Display box 220 includes a floor 222 having a primeter
side wall 224 upwardly projecting therefrom. Perimeter side wall
224 and floor 222 bound a compartment 226. Disposed within
compartment 226 is a shelf 228 which is supported a distance above
floor 222. Extending through shelf 228 is a plurality of spaced
apart holes 230.
[0054] During use, inventive sponge assembly 10 is collapsed into
the folded position. The hinge end of the folded sponge assembly 10
is then passed through a select opening 230 so that the hinged end
rests upon floor 222. The surrounding shelf 228 supports sponge
assembly 10 in the upstanding position. A lid, not shown, can be
positioned over top of display box 220 so as to enclose chamber
226.
[0055] The present invention may be embodied in other specific
forms without departing from its spirit or essential
characteristics. The described embodiments are to be considered in
all respects only as illustrative and not restrictive. The scope of
the invention is, therefore, indicated by the appended claims
rather than by the foregoing description. All changes which come
within the meaning and range of equivalency of the claims are to be
embraced within their scope.
* * * * *