U.S. patent number 3,911,524 [Application Number 05/476,029] was granted by the patent office on 1975-10-14 for steam cleaner dump bucket.
This patent grant is currently assigned to Parise & Sons, Inc.. Invention is credited to Carl Parise.
United States Patent |
3,911,524 |
Parise |
October 14, 1975 |
Steam cleaner dump bucket
Abstract
For use with a steam cleaner, a dump bucket comprising upper and
lower cup-shaped members releasably engageable in facing
relationship with an air-tight seal, a hollow riser tube extending
upwardly from an aperture in the bottom of the lower cup-shaped
member, and an L-shaped connector for attachment to a steam cleaner
vacuum wand extending first inwardly from the side of the upper
cup-shaped member and then upwardly towards the inner surface of
the top of the upper cup-shaped member. This configuration causes
dirty water forced through the L-shaped connector to be sprayed
against the inner surface of the top of the upper cup-shaped
member, after which it runs down the sides of the upper and lower
cup-shaped members without going down the riser tube.
Inventors: |
Parise; Carl (Reno, NV) |
Assignee: |
Parise & Sons, Inc. (Reno,
NV)
|
Family
ID: |
23890202 |
Appl.
No.: |
05/476,029 |
Filed: |
June 3, 1974 |
Current U.S.
Class: |
15/353; 15/321;
55/320; 15/327.7 |
Current CPC
Class: |
A47L
11/34 (20130101); A47L 7/0009 (20130101); A47L
7/0042 (20130101); A47L 11/4086 (20130101) |
Current International
Class: |
A47L
11/00 (20060101); A47L 11/34 (20060101); A47L
7/00 (20060101); A47L 009/10 (); A47L 009/20 () |
Field of
Search: |
;15/320,321,352,353,327D,327E
;55/320,331,344,424,426,437,438,439,467 |
References Cited
[Referenced By]
U.S. Patent Documents
Primary Examiner: Aegerter; Richard E.
Assistant Examiner: Jones; Larry
Attorney, Agent or Firm: Sughrue, Rothwell, Mion, Zinn &
Macpeak
Claims
What is claimed is:
1. A dump bucket for a steam cleaner, said dump bucket
comprising:
a. an upwardly open, lower, cup-shaped member having an aperture in
the bottom thereof, the upper edge of said upwardly open, lower,
cup-shaped member hereinafter being referred to as the lip
thereof;
b. a hollow riser tube extending upwardly from the aperture in said
lower cup-shaped member;
c. a downwardly open, upper, cup-shaped member adapted to
releasably engage said lower cup-shaped member in an air-tight
seal, said upper cup-shaped member having an aperture in the side
thereof;
d. an L-shaped hollow connector, a first leg of which extends
inwardly from the aperture in said upper cup-shaped member and the
second leg of which extends upwardly from the first leg, stopping
short of but in proximity to the inner surface of the top of said
upper cup-shaped member;
e. means for supporting the first leg of said L-shaped hollow
connector adjacent to and in alignment with said aperture; and
f. a diametrically extending strut joint opposite sides of the
inner surface of the side of said upper cup-shaped member,
whereby, if a vacuum is applied to the aperture in said lower
cup-shaped member and a steam cleaner vacuum wand is connected to
the exterior end of the first leg of said L-shaped hollow
connector, dirty water will be forced through said L-shaped hollow
connector and sprayed against the inner surface of the top of said
upper cup-shaped member, after which it will run down the sides of
said upper and lower cup-shaped members without going down said
hollow riser tube.
2. A dump bucket as claimed in claim 1 wherein said riser tube
extends upwardly past the lip of said lower cup-shaped member.
3. A dump bucket as claimed in claim 1 wherein said upper
cup-shaped member is, at least in part, transparent.
4. A dump bucket as claimed in claim 1 wherein said upper
cup-shaped member fits over the lip of said lower cup-shaped
member.
5. A dump bucket as claimed in claim 4 and further comprising an
inwardly extending annular seal mounted on the inner surface of the
side of said upper cup-shaped member, said annular seal being
shaped to receive the lip of said lower cup-shaped member.
6. A dump bucket as claimed in claim 1 wherein said riser tube
extends upwardly to the vicinity of the inner surface of said upper
cup-shaped member, said strut has an aperture therein, and said
riser tube passes through the aperture in said strut.
7. A dump bucket as claimed in claim 2 wherein said riser tube
extend upwardly to the vicinity of the inner surface of said upper
cup-shaped member, said strut has an aperture therein, and said
riser tube passes through the aperture in said strut.
8. A dump bucket for a steam cleaner, said dump bucket
comprising:
a. an upwardly open, lower, cup-shaped member having an aperture in
the bottom thereof, the upper edge of said upwardly open, lower,
cup-shaped member hereinafter being referred to as the lip
thereof;
b. a hollow riser tube extending upwardly from the aperture in said
lower cup-shaped member;
c. a downwardly open, upper, cup-shaped member adapted to
releasably engage said lower cup-shaped member in an air-tight
seal, said upper cup-shaped member having an aperture in the side
thereof;
d. a connector;
e. means for mounting said connector in the upper cup-shaped member
adjacent to and in alignment with said aperture, the combination of
said means and said connector constituting a path of fluid
communication between the exterior and the interior of said upper
cup-shaped member, said connector comprising a generally horizontal
portion and a generally vertical portion, the generally vertical
portion of said connector having an inner surface portion which is
positioned in the path of incoming fluid from the horizontal
portion, located within said upper cup-shaped member, and oriented
to deflect upwardly fluid coming into said upper cup-shaped member
through said connector; and
f. a diametrically extending strut joining opposite sides of the
inner surface of the top of said upper cup-shaped member
whereby, if a vacuum is applied to the aperture in said lower
cup-shaped member and a steam cleaner vacuum wand is connected to
the exterior end of said connector, dirty water will be forced
through said connector and sprayed against the inner surface of the
top of said upper cup-shaped member, after which it will run down
the sides of said upper and lower cup-shaped members without going
down said hollow riser tube.
9. A dump bucket as claimed in claim 8 wherein said riser tube
extends upwardly past the lip of said lower cup-shaped member.
10. A dump bucket as claimed in claim 8 wherein said upper
cup-shaped member is, at least in part, transparent.
11. A dump bucket as claimed in claim 8 wherein said upper
cup-shaped member fits over the lip of said lower cup-shaped
member.
12. A dump bucket as claimed in claim 11 and further comprising an
inwardly extending annular seal mounted on the inner surface of the
side of said upper cup-shaped member, said annular seal being
shaped to receive the lip of said lower cup-shaped member.
13. A dump bucket as claimed in claim 8 wherein said riser tube
extends upwardly to the vicinity of the inner surface of said upper
cup-shaped member, said strut has an aperture therein, and said
riser tube passes through the aperture in said strut.
Description
FIELD OF THE INVENTION
This invention relates to what are conventionally called "steam
cleaners," but which are cleaners which in fact generally cause
atomized, detergent-containing hot water, rather than steam, to be
sprayed on objects, such as rugs and other floor surfaces, to be
cleaned. The hot water is then re-collected into a dump bucket by
means of a vacuum wand. The present invention is of an improved new
dump bucket for use with such a "steam cleaner."
SUMMARY OF THE INVENTION
The dump bucket according to the present invention comprises upper
and lower cup-shaped members releasably engageable in facing
relationship with an air-tight seal, a hollow riser tube extending
upwardly from an aperture in the bottom of the lower cup-shaped
member, and an L-shaped connector for attachment to a steam cleaner
vacuum wand extending first inwardly from the side of the upper
cup-shaped member and then upwardly towards the inner surface of
the top of the upper cup-shaped member. This configuration causes
dirty water forced through the L-shaped connector to be sprayed
against the inner surface of the top of the upper cup-shaped member
after which it runs down the sides of the upper and lower
cup-shaped members without going down the riser tube.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a perspective view of a steam cleaner employing a dump
bucket built in accordance with the present invention.
FIG. 2 is a sectional side view of the presently preferred
embodiment of the invention.
FIG. 3 is a sectional top view of the presently preferred
embodiment of the invention.
FIG. 4 is a schematical sectional side view of a dump bucket
according to the present invention during use.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
FIG. 1 shows a steam cleaner 10 employing a dump bucket 12 built in
accordance with the present invention. The operation of the steam
cleaner 10 is briefly as follows. Water and detergent are placed in
the soap tank 14. An immersion heater (not shown) mounted in the
bottom of the soap tank 14 may be used to heat the
detergent-containing water to an elevated temperature. An internal
water pump (not shown) draws the detergent-containing water from an
outlet at the bottom of the soap tank 14 and forces it out through
a flexible tube (not shown) which may be coupled to the quick
disconnect 16. An atomizer nozzle (not shown) at the end of the
flexible tube causes the stream of detergent-containing water to
issue from the flexible tube as a mist, commonly but not strictly
accurately referred to as "steam." The mist may be directed at an
object to be cleaned by the operator of the steam cleaner.
Subsequently, the detergent-containing water and the entrained dirt
are picked up by the vacuum wand 18. An internal vacuum pump (not
shown) communicates with the interior of the dump bucket 12 via a
hollow riser tube 20, creating an under pressure in the interior of
the dump bucket 12. External air rushing through the vacuum wand 18
draws the detergent-containing water and the entrained dirt through
the vacuum wand 18 and into the interior of the dump bucket 12.
The presently preferred embodiment of the dump bucket 12 is shown
in detail in FIGS. 2 and 3. It comprises an upwardly open, lower
cup-shaped member 22 having an aperture 24 in its bottom. The
aperture 24 is shown as centrally located, but that is more for
esthetic than functional reasons. Extending upwardly from the
aperture 24 is the previously mentioned hollow riser tube 20.
Releasably engaging the open face of the lower cup-shaped member 22
in an air-tight seal is a downwardly open, upper, cup-shaped member
26. There is an aperture 28 in the side of the upper cup-shaped
member 26, and an L-shaped hollow connector 30 is mounted in the
aperture 28. A first leg 32 of the connector 30 extends inwardly
from the aperture 28, and the second leg 34 extends upwardly from
the first leg 32, stopping short of but in proximity to the inner
surface of the top of the upper cup-shaped member 26.
The height of the riser tube 20 is to some extent arbitrary.
However, the higher it extends, the more dirty water can be
collected in the dump bucket 12 without running the risk of having
the collected water run down the riser tube 20 into the vacuum
pump. On the other hand, it is generally not desirable to collect
water in the dump bucket 12 higher than the lip of the lower
cup-shaped member 22 for the obvious reason that any water above
that level will cascade out in an unrestrained fashion when the
upper cup-shaped member 26 is removed from the lower cup-shaped
member 22. Also, the riser tube 20 must not extend so close to the
inner surface of the top of the upper cup-shaped member 26 that it
extends into the turbulent flow of dirty water splashed against
that surface by the connector 30 or some of that water will run
down the inside of the riser tube 20 and get into the vacuum pump.
Thus, the preferred embodiment of the subject dump bucket has a
riser tube which extends upwardly past the lip of the lower
cup-shaped member but stops well short of the inner surface of the
top of the upper cup-shaped member 26.
In order to permit the operator of the steam cleaner 10 to gauge
the level of dirty water in the dump bucket 12 without removing the
upper cup-shaped member 26, at least a part of the upper cup-shaped
member 26 is preferably made of transparent material. In the
presently preferred embodiment, the entire upper cup-shaped member
26 is molded in one piece from transparent plastic.
As previously stated, the upper and lower cup-shaped members 22 and
26 must be releasably engageable in air-tight relationship, but the
exact manner in which this is accomplished is to some extent
arbitrary. In the preferred embodiment, this is accomplished by
curling over the upper lip 36 of the lower cup-shaped member 22 to
provide a bearing surface and providing a cooperating inwardly
extending annular shelf 38 mounted on the inner surface of the side
of the upper cup-shaped member 26. A resilient annular seal, or
O-ring, 40 is fixed to the bottom surface of the annular shelf 38
to ensure an air-tight seal between the two cup-shaped members. The
upper cup-shaped member 26 fits over the upper lip 36 of the lower
cup-shaped member 22, and the annular seal 40 receives the upper
lip 36 in an air-tight seal.
While the dump bucket 12 may be built with only the parts described
up to this point, it has been found convenient in practice to
provide it with an additional member for strengthening the upper
cup-shaped member 26 and for locating the upper cup-shaped member
26 relative to the lower cup-shaped member 22. That additional
member is the flat strut 42, which is preferably fabricated
integrally with the annular shelf 38. It extends diametrically
across the upper cup-shaped member 26, and an aperture 44 therein
receives the upper end of the riser tube 20, locating the upper
cup-shaped member 26 relative to the lower cup-shaped member 22.
This locating function serves to ensure that the upper lip 36 of
the lower cup-shaped member 22 engages the annular seal 40 in the
same place every time, ensuring an air-tight seal even after a
groove has been worn in the annular seal 40.
Having described the construction of the preferred embodiment of
the present invention in some detail, I will now describe the
operation of my dump bucket with the aid of the partially schematic
FIG. 4, which shows a dump bucket according to the present
invention during use. At this time, vacuum is applied to the
aperture 24, in effect "sucking" air through the vacuum wand 18 and
down the riser tube 20. The rush of air through the vacuum wand 18
picks up dirty water, which is forced through the L-shaped
connector 30 and sprayed against the inner surface of the top of
the upper cup-shaped member 26. There, the air and the dirty water
separate to a large degree, the air rushing into the riser tube 20
and the water running down the side of the upper cup-shaped member
26, over the annular joint between the upper and lower cup-shaped
members, and down the side of the lower cup-shaped member 22 to its
bottom, where it collects. The dump bucket 12 is, of course,
removable from the steam cleaner 10, and when the desired amount of
cleaning is completed or the level of water in the lower cup-shaped
member 22 approaches its lip, the dump bucket 12 may be removed
from the steam cleaner 10, the upper cup-shaped member 26
disengaged from the lower cup-shaped member 22, and the contents of
the latter dumped.
CAVEAT
While the present invention has been illustrated by a detailed
description of a preferred embodiment thereof, it will be obvious
to those skilled in the art that various changes in form and detail
can be made therein without departing from the true scope of the
invention. For that reason, the invention must be measured by the
claims appended hereto and not by the foregoing preferred
embodiment.
* * * * *