Information
-
Patent Grant
-
6643885
-
Patent Number
6,643,885
-
Date Filed
Tuesday, February 27, 200123 years ago
-
Date Issued
Tuesday, November 11, 200321 years ago
-
Inventors
-
Original Assignees
-
Examiners
Agents
- Rozsa; Thomas I.
- Chen; Tony D.
-
CPC
-
US Classifications
Field of Search
US
- 015 1191
- 015 1192
- 015 2441
- 015 2442
- 264 259
- 264 274
-
International Classifications
-
Abstract
A method of molding a plastic brace into a sponge mop head and an apparatus for retaining a sponge mop head within a plastic brace. The method and apparatus includes a sponge assembly for use with wringer-type mops which include a sponge mop head firmly held by a plastic brace thereto. The brace is provided with a plurality of stitching members for retaining the sponge mop head within the plastic brace. The brace has an attachment member for operative attachment in a simple manner to the wringer-type sponge mop.
Description
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to the field of sponge mops. More particularly, the present invention relates to a method of molding a plastic brace into a sponge mop head, and apparatus for retaining a sponge mop head within a plastic brace.
2. Description of the Prior Art
Specifically, wringer-type sponge mops are in wide use and well known in the art. These prior art sponge mops include a sponge retainer or carrier and operate so that the sponge head is movable between a cleaning position and a wringing position. In the wringing position, the sponge head may be subjected to squeezing pressure by opposing rollers which wring the water from the sponge head. In order that the sponge head may be replaced from time to time in wringer-type sponge mops, the sponge itself is retained in a rigid, usually metal, sponge carrier which is removably and slidably attached into two opposing retaining rails of the sponge mop. One disadvantage with prior art sponge mops is that the replaceable sponge heads are very difficult to replace from the sponge mop, thereby frustrating the user. Another disadvantage with prior art sponge mops is that the replaceable sponge heads are manufactured with a metal sponge retainer which holds the sponge and this system is not user friendly. In addition, the metal sponge retainer needs to be plated and the plating process causes pollution. A further disadvantage with prior art sponge mops is that the replaceable sponge heads are not replaceable in a user friendly manner.
It is highly desirable to have a very efficient and also very effective design and construction of a plastic brace for retaining a sponge mop head or the like. It is desirable to provide a method of molding a plastic brace into a sponge mop head or the like to provide optimum retaining means for retaining the sponge mop head. It is also desirable to provide a plastic brace with the capability of retaining a sponge mop head to be used with a conventional wringer-type sponge mop.
SUMMARY OF THE INVENTION
The present invention is a novel and unique method of molding a plastic brace or carrier means into a sponge mop head and an apparatus for retaining a sponge mop head within a plastic brace or carrier means.
The present invention provides a sponge assembly for use with wringer-type sponge mops which include a sponge mop head firmly held by a plastic brace. The plastic brace is provided with a plurality of stitching means for piercing and securing the sponge mop head within the plastic brace. The plastic brace is also provided with an attachment means for operative attachment in a simple manner to the wringer-type sponge mop. The plastic brace can be adapted for use with a variety of mop constructions and provides a sponge mop head which is particularly advantageous for use as a replacement sponge assembly.
It is an object of the present invention to provide a sponge assembly which includes a plastic brace for retaining a sponge mop head and to be used with a wringer-type sponge mop.
It is also an object of the present invention to provide a method of molding a plastic brace into a sponge mop head for forming a sponge assembly to be used in a wringer-type sponge mop.
It is an additional object of the present invention to provide a sponge assembly which includes a plastic brace which is adapted for use with a variety of wringer-type sponge mops.
It is a further object of the present invention to provide a sponge assembly which includes a plastic brace which is adapted for ready attachment to wringer-type sponge mops.
It is still an object of the present invention to provide a replacement sponge assembly which can be readily and simply attached by the users to wringer-type sponge mops of various constructions.
Further novel features and other objects of the present invention will become apparent from the following detailed description, discussion and the appended claims, taken in conjunction with the drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
Referring particularly to the drawings for the purpose of illustration only and not limitation, there is illustrated:
FIG. 1
is a perspective view of a conventional wringer-type sponge mop with the present invention sponge assembly installed thereto;
FIG. 2
is an enlarged side elevational view of the wringer-type sponge mop shown in
FIG. 1
, without the sponge assembly;
FIG. 3
is an enlarged partial side elevational view of the wringer-type sponge mop shown in
FIG. 1
, with the sponge assembly installed;
FIG. 4
is a side elevational view of the present invention sponge assembly for use with a wringer-type sponge mop;
FIG. 5
is a cross-sectional view taken along line
5
—
5
of
FIG. 4
;
FIG. 6
is a cross-sectional view taken along line
6
—
6
of
FIG. 4
;
FIG. 7
is a longitudinal cross-sectional view of the present invention sponge assembly;
FIG. 8
is a perspective view of a preferred embodiment of a bottom mold half of the present invention method of molding a plastic brace into a sponge mop head;
FIG. 9
is a perspective view of a preferred embodiment of the top mold half of the present invention method of molding a plastic brace into a sponge mop head, showing one of the sponge mop heads in position;
FIG. 10
is a perspective view of an alternative embodiment of the bottom mold half of the present invention method of molding a plastic brace into a sponge mop head;
FIG. 11
is a side elevational view of an alternative embodiment of the present invention sponge assembly for use with a wringer-type sponge mop; and
FIG. 12
is an enlarged partial side elevational view of the wringer-type sponge mop, with the sponge assembly shown in
FIG. 11
installed.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
Although specific embodiments of the present invention will now be described with reference to the drawings, it should be understood that such embodiments are by way of example only and merely illustrative of but a small number of the many possible specific embodiments which can represent applications of the principles of the present invention. Various changes and modifications obvious to one skilled in the art to which the present invention pertains are deemed to be within the spirit, scope and contemplation of the present invention as further defined in the appended claims.
Described briefly, the present invention is a method of molding a plastic brace or carrier means into a sponge mop head and an apparatus for retaining a sponge mop head within a plastic brace or carrier means. In a preferred embodiment of the present invention, the plastic brace has two longitudinal grooves
50
formed on the exterior surface of the sidewalls and located below a plurality of stitching members
46
(see FIGS.
4
and
6
). In an alternative embodiment of the present invention, the plastic brace has two longitudinal grooves
150
formed on the exterior surface of the sidewalls and located above a plurality of compression studs
148
(see FIG.
11
).
Referring to
FIGS. 1 and 2
, there is shown at
10
a wringer-type sponge mop which includes a longitudinal elongated handle
12
and a replaceable cleaning sponge assembly
18
. The elongated handle
12
is in the form of a hollow tube with a suitable closure member
14
fixed at one end which may include an opening for hanging the mop
10
on a nail or a hook attached to a wall or any other suitable means. A cleaning head support housing
16
is fixed on the other end of the handle
12
for retaining the cleaning sponge assembly
18
. The cleaning head support housing
16
is formed of two spaced apart halves of stamped sheet metal. The support housing
16
has generally flat front and rear walls
22
and end walls
24
. The end walls
24
are bifurcated to provide support legs for a pair of roller support shafts on which a pair of opposing rollers
26
are supported thereto. The opposing rollers
26
extend in parallel spaced apart relation and receive the sponge assembly therebetween.
An operating rod
28
extends upwardly through the elongated handle
12
and has an upper end bent outwardly at an angle through a slot
30
approximately along a middle portion of the elongated handle
12
. An operating lever
32
is pivotally connected at its inner end to the elongated handle
12
. The upper end of the operating rod
28
is pivotally connected to the operating lever
32
. The operating lever
32
can impart longitudinal inward and outward movement to the operating rod
28
. Thus, the position of the cleaning sponge assembly
18
is controlled by the movement of the operating lever
32
. When the operating lever
32
is moved upwardly, the cleaning sponge assembly
18
is drawn inwardly between the opposing rollers
26
so that any liquid in a cleaning sponge
40
is squeezed therefrom. When the operating lever
32
is moved back, the cleaning sponge
40
is moved outwardly between the pair of opposing rollers
26
to the cleaning position. When the operating lever
32
is moved downwardly, the cleaning sponge
40
is moved beyond the opposing rollers
26
to a position which facilitates the removal or replacement of the cleaning sponge assembly
18
.
Referring to
FIGS. 2 and 3
, the operating rod
28
is attached to a transverse retaining means
34
which holds and secures the sponge assembly
18
thereto (see FIG.
3
). By means of operating rod
28
, the sponge assembly
18
can be retracted upwardly so that sponge
40
is squeezed between rollers
26
and moved downwardly to an extended position so that the sponge
40
is in its cleaning position. The retaining means
34
with a generally upside down U-shaped cross-section includes a horizontal downwardly arch top wall
36
, two vertical parallel sidewalls
38
which extend down from the top wall
36
, and two horizontal guide rails
44
which extend inwardly from the sidewalls
38
to form a passageway for receiving the sponge assembly
18
.
It will be appreciated that the U-shaped cross-section of the retaining means
34
is not limited to the shape shown. It is emphasized that while the upside down U-shaped cross-section is the preferred, it is also within the spirit and scope of the present invention to utilize many different shapes, for example, a Y-shape or other suitable shapes not shown.
Referring to
FIGS. 4 through 7
, the sponge assembly
18
includes the sponge
40
which can be of a suitable absorbent resilient material, such as a regenerated cellulose sponge, and a brace member
42
which may be made out of plastic material. The plastic brace member
42
includes a top wall
43
, two opposing sidewalls
45
and two opposing end walls
47
. The sidewalls
45
and end walls
47
extend downwardly from the top wall
43
to form a hollow for receiving a portion of the sponge
40
therein. There are provided a plurality of spaced apart opposing compression studs
48
which are integrally formed on the interior surface of the sidewalls
45
of the sponge brace
42
and extend inwardly for compressing and securing the portion of the sponge
40
within the hollow of the plastic brace
42
. Therefore, the portion of the sponge
40
is between the plurality of opposing compression studs
48
(see FIGS.
5
and
6
). There are also provided a plurality of two adjacent stitching members
46
which are integrally formed with the interior surface of the sidewalls
45
of the plastic brace
42
for piercing and securing the portion of the sponge
40
. These stitching members
46
are generally rectangular shape in the lengthwise direction. These plurality of two adjacent stitching members
46
extend across the width of the hollow of the plastic brace
42
. Each of two adjacent stitching members
46
are respectively formed with the interior surface of the sidewalls of the plastic brace
42
. The shape of the piercing tip of the stitching members may be a square tip, a round tip, a U-shaped tip, a tapered tip, an oval tip or any other suitable shaped tips. The plastic brace
42
further has two longitudinal grooves
50
formed on the exterior surface of the sidewalls
45
. A boss
52
is integrally formed on one of the longitudinal grooves
50
for preventing the sponge assembly
18
from sliding out on its own from the retaining means
34
of the sponge mop
10
.
The plastic brace
42
can be molded of a plastic material and can be of any suitable length so as to be useful with a variety of mop sizes. The manufacturing process which could accommodate the construction of the sponge brace may be insert molding, injection, thermoform, etc. or other molding process. Typically, for use as a replacement sponge assembly, the plastic brace
42
may have a length of approximately 8 to 12 inches to fit the most common wringer-type sponge mops.
From the foregoing description it is apparent that the disclosed sponge assembly is readily adaptable for use as a replacement for sponge roller mops. This affords flexibility and convenience to users in the replacement of sponges.
Referring to
FIGS. 8 and 9
, there is shown a method of molding a plastic sponge brace
42
into a cleaning sponge mop head
40
(see
FIGS. 4
,
5
and
6
).
FIG. 8
depicts a bottom or first mold half
62
for molding one half of the plastic sponge brace
42
.
FIG. 9
depicts a top or second mold half
60
for molding the other half of the plastic sponge brace
42
. These mold halves
60
and
62
can form two plastic braces
42
into two cleaning sponge heads
40
(only one is shown in dashed lines).
Referring to
FIG. 8
, there is shown the first mold half
62
which includes a plurality of spaced apart needles
146
which form the stitching members of the plastic sponge brace
42
, a plurality of spaced apart towers
148
which form the compression studs
48
of the plastic brace
42
, and a protruding rail
150
which form the longitudinal groove
50
of the plastic brace
42
. Referring to
FIG. 9
, there is depicted a cleaning sponge
40
positioned on one side of the top mold half
60
so that the bottom mold half
62
(see
FIG. 8
) can be positioned against the top mold half
60
such that the sponge
40
is squeezed therebetween. The top mold half
60
has the same components as the bottom mold half
62
except that the plurality of needles
146
are off-set from one another to form two adjacent stitching members
46
as discussed above.
Referring to
FIG. 10
, there is shown a bottom or first mold half
162
which is an alternative embodiment of the mold half
62
shown in FIG.
8
. In this embodiment, the mold half
162
has a plurality of spaced apart half cavities
164
which replace the needles
146
of the mold half
60
. These half cavities
164
are aligned with the plurality of needles
146
of the mold half
60
.
Referring to
FIGS. 8 and 9
, there is shown a method of molding a plastic sponge brace
42
into a cleaning sponge mop head
40
(see FIG.
3
).
FIG. 8
depicts a top or first mold half
62
for molding one half of the plastic sponge brace
42
.
FIG. 9
depicts a top or second mold half
60
for molding the other half of the plastic sponge brace
42
. These mold halves
60
and
62
can form two plastic sponge braces
42
into two cleaning sponge heads
40
.
The method comprises the steps of first making or creating the top mold
62
and the bottom mold
60
as discussed above. The second step is to provide a generally rectangular shaped cleaning sponge head
40
(shown as dashed lines in
FIG. 9
) and position it as shown in
FIG. 9
(only one sponge head is shown but two sponge heads can be positioned on the mold half
60
). The third step is to install the other mold half
62
onto the mold half
60
and squeeze a portion of the sponge head
40
therebetween. The fourth step is to inject hot molten plastic into the top and bottom mold halves. The fifth step is to allow the injected hot molten plastic to cool to form the unitary plastic brace having a top wall, two opposing sidewalls and two opposing end walls, the sidewalls and end walls extending downwardly from the top wall to form a hollow adapted to receive a portion of the sponge head. The sixth step is to integrally mold a plurality of first spaced apart compression studs to the interior surface of one of the two opposing sidewalls of the unitary plastic brace. The seventh step is to integrally mold a plurality of second spaced apart compression studs to the interior of the other one of the two opposing sidewalls. The plurality of second compression studs are respectively aligned with the plurality of first compression studs for compressing the portion of the sponge head within the hollow. The eighth step is to integrally mold a plurality of first stitching members to a bottom edge of one of the two opposing sidewalls and extend across to an opposite sidewall for piercing and retaining the portion of the sponge head within the hollow. The ninth step is to integrally mold a plurality of second stitching members to a bottom edge of the other one of the two opposing sidewalls and extend across to an opposite sidewall and respectively located adjacent to the plurality of first stitching members for piercing and retaining the portion of the sponge head within the hollow. The tenth step is to integrally form a pair of elongated grooves on the exterior surfaces of the sidewalls for respectively receiving a pair of opposite retaining rails of the sponge mop to hold the sponge assembly in assembled relationship with the sponge mop. The eleventh step is to provide a boss located on one of the pair of grooves for preventing the sponge assembly from sliding out of the retaining rails of the sponge mop.
Referring to
FIGS. 11 and 12
, there is shown an alternative embodiment of the present invention method of molding a plastic brace or carrier means into a sponge mop head and an apparatus for retaining a sponge mop head within a plastic brace or carrier means. The alternative embodiment of the present invention is very similar to the preferred embodiment just discussed and the only difference is the location of the two longitudinal grooves
150
. All of the parts of this embodiment are numbered correspondingly with
100
added to each number. In this alternative embodiment, the plastic brace
142
has two longitudinal grooves
150
formed on the exterior surface of the sidewalls
145
and located above the plurality of compression studs
148
. Therefore, the sponge assembly
118
is installed to the sponge mop
10
as shown in FIG.
12
. Since the sponge assembly
118
assembles and functions the same as previously described in the preceding embodiment, the description thereof will not be repeated.
Defined in detail, the present invention is a sponge assembly for use with a wringer-type sponge mop, comprising: (a) a cleaning sponge head; (b) an elongated unitary plastic brace having a top wall, two opposing sidewalls and two opposing end walls, the sidewalls and end walls extending downwardly from the top wall to form a hollow adapted to receive a portion of the sponge head; (c) a plurality of first spaced apart compression studs integrally molded to the interior surface of one of the two opposing sidewalls; (d) a plurality of second spaced apart compression studs integrally molded to the interior of the other one of the two opposing sidewalls, the plurality of second compression studs respectively aligned with the plurality of first compression studs for compressing the portion of the sponge head within the hollow; (e) a plurality of first stitching members integrally molded to one of the two opposing sidewalls and extending across to an opposite sidewall for piercing and retaining the portion of the sponge head within the hollow; (f) a plurality of second stitching members integrally molded to the other one of the two opposing sidewalls and extending across to an opposite sidewall and respectively located adjacent to the plurality of first stitching members for piercing and retaining the portion of the sponge head within the hollow; (g) a pair of elongated grooves integrally formed on the exterior surfaces of the sidewalls for respectively receiving a pair of opposite retaining rails of the sponge mop to hold the sponge assembly in assembled relationship with the sponge mop; and (h) a boss located on one of the pair of grooves for preventing the sponge assembly from sliding out of the retaining rails of the sponge mop.
Defined broadly, the present invention is a sponge assembly for use with a wringer-type sponge mop, comprising: (a) a cleaning sponge head; (b) an elongated unitary brace having a top wall and two opposing sidewalls extending downwardly from the top wall to form a hollow adapted to receive a portion of the sponge head; (c) a plurality of first spaced apart compression studs integrally molded to the interior surface of one of the two opposing sidewalls; (d) a plurality of second spaced apart compression studs integrally molded to the interior of the other one of the two opposing sidewalls, the plurality of second compression studs respectively aligned with the plurality of first compression studs for compressing the portion of the sponge head within the hollow; (e) a plurality of first stitching members integrally molded to one of the two opposing sidewalls and extending across to an opposite sidewall for piercing and retaining the portion of the sponge head within the hollow; (f) a plurality of second stitching members integrally molded to the other one of the two opposing sidewalls and extending across to an opposite sidewall and respectively located adjacent to the plurality of first stitching members for piercing and retaining the portion of the sponge head within the hollow; (g) a pair of elongated grooves integrally formed on the exterior surfaces of the sidewalls for respectively receiving a pair of opposite retaining rails of the sponge mop to hold the sponge assembly in assembled relationship with the sponge mop; and (h) a boss located on one of the pair of grooves for preventing the sponge assembly from sliding out of the retaining rails of the sponge mop.
Defined more broadly, the present invention is a sponge assembly for use with a sponge mop, comprising: (a) a sponge; (b) a brace having a top wall and two sidewalls extending downwardly from the top wall to form a hollow adapted to receive a portion of the sponge; (c) a plurality of compression studs formed on the two sidewalls, a respective two compression studs oppositely aligned with each other for compressing the portion of the sponge within the hollow; (d) a plurality of stitching members formed on the sidewalls, a respective two stitching members located adjacent to each other for piercing and retaining the portion of the sponge within the hollow; (e) two grooves formed on the sidewalls for respectively receiving a pair of retaining rails of the sponge mop to hold the sponge assembly in assembled relationship with the sponge mop; and (f) means for preventing the sponge assembly from sliding out of the retaining rails of the sponge mop.
Defined even more broadly, the present invention is a sponge assembly for use with a sponge mop, comprising: (a) a sponge; (b) a brace having a hollow adapted to receive a portion of the sponge; (c) a plurality of compression studs formed on the interior of the brace for compressing the portion of the sponge within the hollow; (d) a plurality of stitching members formed on the interior of the brace for piercing and retaining the portion of the sponge within the hollow; and (e) at least one groove formed on the brace for receiving a retaining rail of the sponge mop to hold the sponge assembly in assembled relationship with the sponge mop.
Defined alternatively in detail, the present invention is a method of molding an elongated unitary brace into a sponge head to form a sponge assembly for use in a wringer-type sponge mop, the method comprising the steps of: (a) making a top mold half and a bottom mold half; (b) positioning the sponge head on the top mold half; (c) installing the bottom mold half onto the top mold half and squeezing a portion of the sponge head therebetween; (d) injecting hot molten plastic into the top and bottom mold halves; (e) cooling the injected hot molten plastic to form the unitary brace having a top wall and two opposing sidewalls extending downwardly from the top wall to form a hollow adapted to receive the portion of the sponge head; (f) integrally molding a plurality of first spaced apart compression studs to the interior surface of one of the two opposing sidewalls of the unitary brace; (g) integrally molding a plurality of second spaced apart compression studs to the interior of the other one of the two opposing sidewalls, the plurality of second compression studs respectively aligned with the plurality of first compression studs for compressing the portion of the sponge head within the hollow; (h) integrally molding a plurality of first stitching members to one of the two opposing sidewalls and extending across to an opposite sidewall for piercing and retaining the portion of the sponge head within the hollow; (i) integrally molding a plurality of second stitching members to the other one of the two opposing sidewalls and extending across to an opposite sidewall and respectively located adjacent to the plurality of first stitching members for piercing and retaining the portion of the sponge head within the hollow; (j) integrally forming a pair of elongated grooves on the exterior surfaces of the sidewalls for respectively receiving a pair of opposite retaining rails of the sponge mop to hold the sponge assembly in assembled relationship with the sponge mop; and (k) providing a boss located on one of the pair of grooves for preventing the sponge assembly from sliding out of the retaining rails of the sponge mop.
Defined alternatively broadly, the present invention is a method of molding a unitary plastic brace into a sponge head to form a sponge assembly for use in a wringer-type sponge mop, the method comprising the steps of: (a) making a mold; (b) positioning the sponge head on the mold; (c) injecting hot molten plastic into the mold; (d) cooling the injected molten plastic to form the unitary brace having a top wall and two sidewalls extending downwardly from the top wall to form a hollow adapted to receive a portion of the sponge head; (e) integrally forming a plurality of first compression studs to the interior surface of one of the two sidewalls; (f) integrally forming a plurality of second compression studs to the interior of the other one of the two sidewalls, the plurality of second compression studs respectively aligned with the plurality of first compression studs for compressing the portion of the sponge head within the hollow; (g) integrally forming a plurality of first stitching members to one of the two sidewalls and extending across to an opposite sidewall for piercing and retaining the portion of the sponge head within the hollow; (h) integrally forming a plurality of second stitching members to the other one of the two sidewalls and extending across to an opposite sidewall and respectively located adjacent to the plurality of first stitching members for piercing and retaining the portion of the sponge head within the hollow; (i) integrally forming at least two grooves on the exterior surface of the sidewalls for respectively receiving a pair of opposite retaining rails of the sponge mop to hold the sponge assembly in assembled relationship with the sponge mop; and (j) providing a boss located on one of the at least two grooves for preventing the sponge assembly from sliding out of the retaining rails of the sponge mop.
Defined alternatively more broadly, the present invention is a method of molding a brace into a sponge to form a sponge assembly for use in a sponge mop, the method comprising the steps of: (a) providing a mold; (b) positioning the sponge onto the mold; (c) pouring molten plastic into the mold; (d) forming the brace having a hollow adapted to receive a portion of the sponge; (e) forming a plurality of stitching members within the hollow for piercing and retaining the portion of the sponge within the hollow; (f) forming at least one groove on the brace for receiving at least one retaining rail of the sponge mop to hold the sponge assembly in assembled relationship with the sponge mop; and (g) preventing the sponge assembly from sliding out of the at least one retaining rail of the sponge mop.
Defined alternatively even more broadly, the present invention is a method of forming a brace into a sponge to form a sponge assembly for use in a sponge mop, the method comprising the steps of: (a) providing a mold; (b) positioning the sponge onto the mold; (c) pouring molten plastic into the mold; (d) forming the brace having a hollow adapted to receive a portion of the sponge; (e) forming a plurality of stitching members within the hollow for piercing and retaining the portion of the sponge within the hollow; and (f) forming means on the brace for receiving at least one retaining rail of the sponge mop to hold the sponge assembly in assembled relationship with the sponge mop.
Of course the present invention is not intended to be restricted to any particular form or arrangement, or any specific embodiment, or any specific use, disclosed herein, since the same may be modified in various particulars or relations without departing from the spirit or scope of the claimed invention hereinabove shown and described of which the apparatus or method shown is intended only for illustration and disclosure of an operative embodiment and not to show all of the various forms or modifications in which this invention might be embodied or operated.
The present invention has been described in considerable detail in order to comply with the patent laws by providing full public disclosure of at least one of its forms. However, such detailed description is not intended in any way to limit the broad features or principles of the present invention, or the scope of the patent to be granted. Therefore, the invention is to be limited only by the scope of the appended claims.
Claims
- 1. A sponge assembly for use with a wringer-type sponge mop, comprising:a. a cleaning sponge head; b. an elongated unitary plastic brace having a top wall, two opposing sidewalls and two opposing end walls, the sidewalls and end walls extending downwardly from the top wall to form a hollow adapted to receive a portion of said sponge head; c. a plurality of first spaced apart compression studs integrally molded to the interior surface of one of said two opposing sidewalls; d. a plurality of second spaced apart compression studs integrally molded to the interior of the other one of said two opposing sidewalls, the plurality of second compression studs respectively aligned with said plurality of first compression studs for compressing said portion of said sponge head within said hollow; e. a plurality of first stitching members integrally molded to one of said two opposing sidewalls and extending across to an opposite sidewall for piercing and retaining said portion of said sponge head within said hollow; f. a plurality of second stitching members integrally molded to the other one of said two opposing sidewalls and extending across to an opposite sidewall and respectively located adjacent to said plurality of first stitching members for piercing and retaining said portion of said sponge head within said hollow; g. a pair of elongated grooves integrally formed on the exterior surfaces of said sidewalls for respectively receiving a pair of opposite retaining rails of said sponge mop to hold said sponge assembly in assembled relationship with said sponge mop; and h. a boss located on one of said pair of grooves for preventing said sponge assembly from sliding out of said retaining rails of said sponge mop.
- 2. The sponge assembly in accordance with claim 1, wherein said pair of elongated grooves extend approximately three-quarters of a length of said unitary plastic brace.
- 3. The sponge assembly in accordance with claim 1, wherein said pair of elongated grooves are located above said plurality of first and second compression studs.
- 4. The sponge assembly in accordance with claim 1, wherein said pair of elongated grooves are located below said plurality of first and second stitching members.
- 5. The sponge assembly in accordance with claim 1, wherein said elongated unitary plastic brace is generally a rectangular shape.
- 6. A sponge assembly for use with a wringer-type sponge mop, comprising:a. a cleaning sponge head; b. an elongated unitary brace having a top wall and two opposing sidewalls extending downwardly from the top wall to form a hollow adapted to receive a portion of said sponge head; c. a plurality of first spaced apart compression studs integrally molded to the interior surface of one of said two opposing sidewalls; d. a plurality of second spaced apart compression studs integrally molded to the interior of the other one of said two opposing sidewalls, the plurality of second compression studs respectively aligned with said plurality of first compression studs for compressing said portion of said sponge head within said hollow; e. a plurality of first stitching members integrally molded one of said two opposing sidewalls and extending across to an opposite sidewall for piercing and retaining said portion of said sponge head within said hollow; f. a plurality of second stitching members integrally molded to the other one of said two opposing sidewalls and extending across to an opposite sidewall and respectively located adjacent to said plurality of first stitching members for piercing and retaining said portion of said sponge head within said hollow; g. a pair of elongated grooves integrally formed on the exterior surfaces of said sidewalls for respectively receiving a pair of opposite retaining rails of said sponge mop to hold said sponge assembly in assembled relationship with said sponge mop; and h. a boss located on one of said pair of grooves for preventing said sponge assembly from sliding out of said retaining rails of said sponge mop.
- 7. The sponge assembly in accordance with claim 6, wherein said pair of elongated grooves extend approximately three-quarters of a length of said unitary plastic brace.
- 8. The sponge assembly in accordance with claim 6, wherein said pair of elongated grooves are located above said plurality of first and second compression studs.
- 9. The sponge assembly in accordance with claim 6, wherein said pair of elongated grooves are located below said plurality of first and second stitching members.
- 10. The sponge assembly in accordance with claim 6, wherein said elongated unitary brace is generally a rectangular shape.
- 11. The sponge assembly in accordance with claim 6, wherein said elongated unitary brace is made out of plastic material.
- 12. A sponge assembly for use with a sponge mop, comprising:a. a sponge; b. a brace having a top wall and two sidewalls extending downwardly from the top wall to form a hollow adapted to receive a portion of said sponge; c. a plurality of compression studs formed on said two sidewalls, a respective two compress ion studs oppositely aligned with each other for compressing said portion of said sponge within said hollow; d. a plurality of stitching members formed on said sidewalls, a respective two stitching members located adjacent to each other for piercing and retaining said portion of said sponge within said hollow; e. two grooves formed on said sidewalls for respectively receiving a pair of retaining rails of said sponge mop to hold said sponge assembly in assembled relationship with said sponge mop; and f. means for preventing said sponge assembly from sliding out of said retaining rails of said sponge mop.
- 13. The sponge assembly in accordance with claim 12, wherein said two grooves extend approximately three-quarters of a length of said brace.
- 14. The sponge assembly in accordance with claim 12, wherein said two grooves are located above said plurality of compression studs.
- 15. The sponge assembly in accordance with claim 12, wherein said two grooves are located below said plurality of stitching members.
- 16. The sponge assembly in accordance with claim 12, wherein said brace is generally a rectangular shape.
- 17. The sponge assembly in accordance with claim 12, wherein said brace is made out of plastic material.
- 18. The sponge assembly in accordance with claim 12, wherein said means for preventing said brace from sliding out of said retaining rails of said sponge mop includes a boss located on one of said two grooves.
- 19. A sponge assembly for use with a sponge mop, comprising:a. a sponge; b. a brace having a hollow adapted to receive a portion of said sponge; c. a plurality of compression studs formed on the interior of said brace for compressing said portion of said sponge within said hollow; d. a plurality of stitching members formed on the interior of said brace for piercing and retaining said portion of said sponge within said hollow; and e. at least one groove formed on said brace for receiving a retaining rail of said sponge mop to hold said sponge assembly in assembled relationship with said sponge mop.
- 20. The sponge assembly in accordance with claim 19, wherein said at least one groove extends approximately three-quarters of a length of said brace.
- 21. The sponge assembly in accordance with claim 19, wherein said at least one groove is located above said plurality of compression studs.
- 22. The sponge assembly in accordance with claim 19, wherein said at least one groove is located below said plurality of stitching members.
- 23. The sponge assembly in accordance with claim 19, wherein said brace is generally a rectangular shape.
- 24. The sponge assembly in accordance with claim 19, wherein said brace is made out of plastic material.
- 25. The sponge assembly in accordance with claim 19, further comprising means for preventing said sponge assembly from sliding out of said retaining rail of said sponge mop.
- 26. The sponge assembly in accordance with claim 25, wherein said means for preventing said brace from sliding out of said retaining rail of said sponge mop includes a boss located on said at least one groove.
- 27. The sponge assembly in accordance with claim 19, further comprising a plurality of cavities located opposite of said plurality of stitching members for respectively receiving said plurality of stitching members thereto.
- 28. A method of molding an elongated unitary brace into a sponge head to form a sponge assembly for use in a wringer-type sponge mop, the method comprising the steps of:a. making a top mold half and a bottom mold half; b. positioning said sponge head on said top mold half; c. installing said bottom mold half onto said top mold half and squeezing a portion of said sponge head therebetween; d. injecting hot molten plastic into said top and bottom mold halves; e. cooling said injected hot molten plastic to form said unitary brace having a top wall and two opposing sidewalls extending downwardly from the top wall to form a hollow adapted to receive said portion of said sponge head; f. integrally molding a plurality of first spaced apart compression studs to the interior surface of one of the two opposing sidewalls of said unitary brace; g. integrally molding a plurality of second spaced apart compression studs to the interior of the other one of the two opposing sidewalls, the plurality of second compression studs respectively aligned with said plurality of first compression studs for compressing said portion of said sponge head within said hollow; h. integrally molding a plurality of first stitching members to one of said two opposing sidewalls and extending across to an opposite sidewall for piercing and retaining said portion of said sponge head within said hollow; i. integrally molding a plurality of second stitching members to the other one of said two opposing sidewalls and extending across to an opposite sidewall and respectively located adjacent to the plurality of first stitching members for piercing and retaining said portion of said sponge head within said hollow; j. integrally forming a pair of elongated grooves on the exterior surfaces of said sidewalls for respectively receiving a pair of opposite retaining rails of said sponge mop to hold said sponge assembly in assembled relationship with the sponge mop; and k. providing a boss located on one of said pair of grooves for preventing said sponge assembly from sliding out of said pair of retaining rails of said sponge mop.
- 29. The method in accordance with claim 28, further comprising the step of forming two opposing end walls which are integrally connected to said two opposing sidewalls and said top wall of said unitary brace.
- 30. A method of molding a unitary brace into a sponge head to form a sponge assembly for use in a wringer-type sponge mop, the method comprising the steps of:a. making a mold; b. positioning said sponge head on said mold; c. injecting hot molten plastic into said mold; d. cooling said injected molten plastic to form said unitary brace having a top wall and two sidewalls extending downwardly from the top wall to form a hollow adapted to receive a portion of said sponge head; e. integrally forming a plurality of first compression studs to the interior surface of one of said two sidewalls; f. integrally forming a plurality of second compression studs to the interior of the other one of said two sidewalls, the plurality of second compression studs respectively aligned with said plurality of first compression studs for compressing said portion of said sponge head within said hollow; g. integrally forming a plurality of first stitching members to one of said two sidewalls and extending across to an opposite sidewall for piercing and retaining said portion of said sponge head within said hollow; h. integrally forming a plurality of second stitching members to the other one of said two sidewalls and extending across to an opposite sidewall and respectively located adjacent to said plurality of first stitching members for piercing and retaining said portion of said sponge head within said hollow; i. integrally forming at least two grooves on the exterior surface of said sidewalls for respectively receiving a pair of opposite retaining rails of said sponge mop to hold said sponge assembly in assembled relationship with said sponge mop; and j. providing a boss located on one of said at least two grooves for preventing said sponge assembly from sliding out of said retaining rails of said sponge mop.
- 31. The method in accordance with claim 30, further comprising the step of forming two end walls which are integrally connected to said two sidewalls and said top wall of said unitary brace.
- 32. A method of molding a brace into a sponge to form a sponge assembly for use in a sponge mop, the method comprising the steps of:a. providing a mold; b. positioning said sponge onto said mold; c. pouring molten plastic into said mold; d. forming said brace having a hollow adapted to receive a portion of said sponge; e. forming a plurality of stitching members within said hollow for piercing and retaining said portion of said sponge within said hollow; f. forming at least one groove on said brace for receiving at least one retaining rail of said sponge mop to hold said sponge assembly in assembled relationship with said sponge mop; and g. preventing said sponge assembly from sliding out of said at least one retaining rail of said sponge mop.
- 33. The method in accordance with claim 32, further comprising the step forming a plurality of stud members within said hollow for retaining said portion of said sponge within said hollow.
- 34. A method of forming a brace into a sponge to form a sponge assembly for use in a sponge mop, the method comprising the steps of:a. providing a mold; b. positioning said sponge onto said mold; c. pouring molten plastic into said mold; d. forming said brace having a hollow adapted to receive a portion of said sponge; e. forming a plurality of stitching members within said hollow for piercing and retaining said portion of said sponge within said hollow; and f. forming means on said brace for receiving at least one retaining rail of said sponge mop to hold said sponge assembly in assembled relationship with said sponge mop.
- 35. The method in accordance with claim 34, further comprising the step of forming a plurality of compression stud members within said hollow for compressing said portion of said sponge within said hollow.
- 36. The method in accordance with claim 34, wherein said forming means includes at least one groove.
- 37. The method in accordance with claim 36, further comprising the step of forming a boss on said at least one groove for preventing said sponge assembly from sliding out of said retaining rail of said sponge mop.
- 38. The method in accordance with claim 34, further comprising the step of forming a plurality of cavities located opposite of said plurality of stitching members for respectively receiving said plurality of stitching members thereto.
US Referenced Citations (3)