NZ613935B2 - Steam appliance - Google Patents
Steam appliance Download PDFInfo
- Publication number
- NZ613935B2 NZ613935B2 NZ613935A NZ61393512A NZ613935B2 NZ 613935 B2 NZ613935 B2 NZ 613935B2 NZ 613935 A NZ613935 A NZ 613935A NZ 61393512 A NZ61393512 A NZ 61393512A NZ 613935 B2 NZ613935 B2 NZ 613935B2
- Authority
- NZ
- New Zealand
- Prior art keywords
- steam
- application device
- portable steamer
- appliance
- main body
- Prior art date
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Classifications
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L11/00—Machines for cleaning floors, carpets, furniture, walls, or wall coverings
- A47L11/34—Machines for treating carpets in position by liquid, foam, or vapour, e.g. by steam
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L11/00—Machines for cleaning floors, carpets, furniture, walls, or wall coverings
- A47L11/40—Parts or details of machines not provided for in groups A47L11/02 - A47L11/38, or not restricted to one of these groups, e.g. handles, arrangements of switches, skirts, buffers, levers
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L11/00—Machines for cleaning floors, carpets, furniture, walls, or wall coverings
- A47L11/40—Parts or details of machines not provided for in groups A47L11/02 - A47L11/38, or not restricted to one of these groups, e.g. handles, arrangements of switches, skirts, buffers, levers
- A47L11/408—Means for supplying cleaning or surface treating agents
- A47L11/4086—Arrangements for steam generation
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L13/00—Implements for cleaning floors, carpets, furniture, walls, or wall coverings
- A47L13/10—Scrubbing; Scouring; Cleaning; Polishing
- A47L13/20—Mops
- A47L13/22—Mops with liquid-feeding devices
- A47L13/225—Steam mops
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L13/00—Implements for cleaning floors, carpets, furniture, walls, or wall coverings
- A47L13/10—Scrubbing; Scouring; Cleaning; Polishing
- A47L13/20—Mops
- A47L13/24—Frames for mops; Mop heads
- A47L13/254—Plate frames
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L9/00—Details or accessories of suction cleaners, e.g. mechanical means for controlling the suction or for effecting pulsating action; Storing devices specially adapted to suction cleaners or parts thereof; Carrying-vehicles specially adapted for suction cleaners
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L9/00—Details or accessories of suction cleaners, e.g. mechanical means for controlling the suction or for effecting pulsating action; Storing devices specially adapted to suction cleaners or parts thereof; Carrying-vehicles specially adapted for suction cleaners
- A47L9/28—Installation of the electric equipment, e.g. adaptation or attachment to the suction cleaner; Controlling suction cleaners by electric means
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F22—STEAM GENERATION
- F22B—METHODS OF STEAM GENERATION; STEAM BOILERS
- F22B1/00—Methods of steam generation characterised by form of heating method
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F22—STEAM GENERATION
- F22B—METHODS OF STEAM GENERATION; STEAM BOILERS
- F22B1/00—Methods of steam generation characterised by form of heating method
- F22B1/28—Methods of steam generation characterised by form of heating method in boilers heated electrically
Abstract
appliance for steam cleaning floors is disclosed. The appliance includes a steam application device having a main body (30) which includes an inlet section to receive steam, an applicator to apply the steam to a surface, and a swivel assembly (32) to swivel the applicator and the main body relative to each other. The appliance further includes a portable steamer (24) to (i) attach to the steam application device and (ii) detach from the steam application device (e.g., in a simple lift away manner). The portable steamer has a steam generator which generates the steam, and an outlet section which connects to the inlet section of the main body of the steam application device when the portable steamer is attached to the steam application device. The outlet section provides the steam from the steam generator to the inlet section of the main body of the steam application device when the portable steamer is attached to the steam application device. User controls to adjust the amount of steam as well as an automatic timer to turn off the appliance after a period of inactivity are also disclosed. ve to each other. The appliance further includes a portable steamer (24) to (i) attach to the steam application device and (ii) detach from the steam application device (e.g., in a simple lift away manner). The portable steamer has a steam generator which generates the steam, and an outlet section which connects to the inlet section of the main body of the steam application device when the portable steamer is attached to the steam application device. The outlet section provides the steam from the steam generator to the inlet section of the main body of the steam application device when the portable steamer is attached to the steam application device. User controls to adjust the amount of steam as well as an automatic timer to turn off the appliance after a period of inactivity are also disclosed.
Description
STEAM APPLIANCE
CROSS NCE TO RELATED APPLICATIONS
This application claims the benefit under 35 U.S.C. § 119(e) of U.S.
Provisional ation Serial No. 61/439,023 entitled "STEAM MOP," filed on
February 3, 2011, the contents and teachings of which are hereby orated by
reference in their entirety.
BACKGROUND
A conventional steam mop includes a mop g having a mop handle at
one end and a steal frame at an opposite end. The mop housing contains a water tank,
an electric pump, and a boiler. The steal frame is covered by a fabric steam pocket
made of fabric material.
During operation, an operator fills the water tank within the mop housing with
water and turns on the steam mop. The electric pump within the mop housing delivers
water from the water tank to the boiler, and the boiler within the mop housing
converts the water into steam for application at the steal frame. The fabric steam
pocket covering the steal frame is then capable of steam mopping a floor in response
to the operator pushing and pulling the steam mop over the floor.
The sion of documents, acts, materials, devices, articles and the like is
included in this specification solely for the purpose of providing a context for the
present invention. It is not suggested or represented that any or all of these matters
formed part of the prior art base or were common general knowledge in the field
relevant to the t invention as it existed before the priority date of each claim of
this application.
Throughout the description and claims of this specification, the word
“comprise” and ions of the word, such as “comprising” and “comprises”, is not
intended to exclude other additives, components, integers or steps.
According to the t invention, there is provided an appliance,
comprising: a steam application device having: a main body which includes an inlet
section to receive steam, an ator constructed and arranged to apply the steam to
a surface, and a swivel assembly constructed and arranged to swivel the applicator
and the main body relative to each other; and a portable steamer constructed and
arranged to (i) attach to the steam application device and (ii) detach from the steam
application device, the portable steamer : a steam generator constructed and
arranged to generate the steam, and an outlet n constructed and arranged to
connect, at a position above where the steam generator is located, to the inlet section
of the main body of the steam application device when the portable r is
attached to the steam application device, the outlet section being constructed and
arranged to provide the steam from the steam generator to the inlet section of the
main body of the steam application device when the portable steamer is attached to
the steam application .
An improved steam appliance according to an embodiment of the invention
includes (i) a steam ation device (e.g., a mop) which is equipped with a swivel
to provide enhanced maneuverability, and (ii) a portable steam source (or steamer)
which provides steam for use by the steam application device as well as for use
ndently of the steam application device (e.g., in a standalone manner). With
such a combination, a user is able to conveniently and effectively clean a variety of
surfaces with the portable steamer attached to the steam application device (e.g., tile
floors, linoleum, hardwood flooring, etc.) as well as other surfaces with the portable
steamer ed from the steam application device (e.g., counter tops, walls, etc.).
One embodiment is directed to an appliance which includes a steam
application device having a main body which includes an inlet section to receive
- 1a –
steam, an applicator ucted and ed to apply the steam to a surface, and a
swivel assembly constructed and arranged to swivel the applicator and the main body
relative to each other. The appliance r includes a portable steamer constructed
and arranged to (i) attach to the steam application device and (ii) detach from the
steam application device (e. g., in a simple lift away manner). The portable steamer
has a steam tor constructed and arranged to generate the steam, and an outlet
section constructed and arranged to connect to the inlet section of the main body of the
steam application device when the portable steamer is attached to the steam
application device. The outlet section is constructed and arranged to provide the
steam from the steam generator to the inlet section of the main body of the steam
application device when the portable steamer is attached to the steam application
device.
In some arrangements, the steam application device forms an entire swivel
mop independently of the portable steamer. As such, the portable steamer does not
need to bear any mopping load (e.g., g force applied by the user). In these
arrangements, the main body of the steam application device is constructed and
arranged to cradle the portable steamer within a cavity when the portable steamer
attaches to the steam application device. As a result, an outlet section of the portable
steamer is able to form a robust and reliable connection with an inlet section of the
main body of the steam ation device.
In some arrangements, the cavity defined by the main body of the steam
application device is a C—shaped g, and a center aXis of the swivel mop passes
through the cavity. Nevertheless, the main body bears the mopping forces provided by
the user thus alleviating the need to expose the le steamer to mopping forces
that could otherwise prematurely fatigue the portable steamer or could otherwise
interfere with the steam connection between the le steamer and the steam
application device. Moreover, such modularization of the steam source enables the
user to easily detach the portable steamer from the steam application device and use
the portable steamer independently (e. g., to clean a counter surface).
Other embodiments are ed to steam appliance systems, lies,
s, accessories, combinations thereof, etc. Some embodiments are directed to
various methods which are involved in making and/or operating a steam appliance.
BRIEF DESCRIPTION OF THE DRAWINGS
The foregoing and other objects, features and advantages will be apparent from
the following description of particular embodiments of the invention, as illustrated in
the accompanying drawings in which like reference characters refer to the same parts
throughout the different views. The drawings are not necessarily to scale, is
instead being placed upon illustrating the principles of various embodiments of the
invention.
Fig. l is a front view of an appliance having (i) a steam application device
equipped with a swivel to provide enhanced maneuverability, and (ii) a portable steam
source.
Fig. 2 is a close—up view of a portion of the nce of Fig. 1.
Fig. 3 is another close—up view of the n of the appliance of Fig. l but
from another angle.
Fig. 4 is yet r close—up view of the portion of the appliance of Fig. 1
from a different angle.
Fig. 5 is a view of a portion of the appliance when the portable steam source is
removed.
Fig. 6 is a detailed view of the portable steam source.
Fig. 7 is a detailed view of the portable steam source from another angle.
Fig. 8 is a schematic diagram of electronic try of the appliance of Fig. l
in accordance with an embodiment.
Fig. 9 is a schematic diagram of electronic circuitry of the appliance of Fig. l
in accordance with another embodiment.
Fig. 10 is a schematic diagram of electronic circuitry of the appliance of Fig. l
in accordance with yet another embodiment.
DETAILED DESCRIPTION
An improved steam appliance es a steam application device (e.g., a mop)
which is equipped with a swivel to provide enhanced erability, and a portable
steam source (or steamer) which es steam for use by the steam application
device as well as for use independently of the steam ation device. In particular,
particular, when the portable steamer attaches to the steam application , a user is
able to conveniently and effectively clean a variety of surfaces (e.g., utilize swivel
action provided by the steam application device to clean tile floors, um,
hardwood g, etc.). Additionally, when the portable steamer is detached from
the steam application device, the user is able to carry the le steamer in a
handheld manner to clean other surfaces (e. g., counter tops, walls, furniture, etc.).
Fig. 1 shows an appliance 20 having enhanced swivel and rized
features. In particular, the appliance 20 includes a steam application device 22 and a
portable steamer 24. The le steamer 24 is constructed and arranged to
conveniently attach to the steam application device 22 and detach from the steam
application device 22 (e.g., illustrated by the arrow 26).
Figs. 2—7 provide additional viewing angles of various portions of the
appliance 20. In particular, Figs. 2—4 provide additional views of a lower portion of
the appliance 20. Additionally, Fig. 5 shows particular details of the steam application
device 22 when the le steamer 24 is removed. Furthermore, Figs. 6—7 show
particular details of the portable steamer 24.
The steam application device 22 includes a main body 30, a swivel assembly
32, an applicator 34, and a mop handle 36 (see Figs. 1—5). The main body 30 includes
a first end 40 which connects directly to the mop handle 36, a second end 42 which
connects directly to the swivel assembly 32, and a mid—portion 44 disposed n
the first and second ends 40, 42. The swivel ly 32 connects the main body 30
to the applicator 34, and operates in the manner of a universal joint to allow the main
body 30 and the applicator 34 to swivel ve to each other. As best seen in Fig. l,
the mop handle 36, the main body 30, the swivel assembly 32 and the applicator 34
are disposed in a sturdy inline configuration which forms a mop 46 having a central
aXis 48. In this configuration, a user, when maneuvering the mop handle 36, is able to
effectively and conveniently clean a surface 50 with the applicator 34. A variety of
steam mop functionalities which are suitable for the mop 46 are disclosed for a similar
mop in US. Patent Application Serial No. 12/163,537 filed on June 27, 2008 and
published as US. Patent Application No. 2009/032023l on December 31, 2009, the
contents and teachings of which are incorporated by reference in their entirety.
It should be understood that the main body 30 is substantially C—shaped (e. g.,
see Fig. 2) and defines a cavity 52 (e. g., see Fig. 5) to hold the le steamer 24.
As best seen in Fig. 5, the rtion 44 of the main body 30 includes an inlet
section 54 to receive steam, and a set of tabs 56 which enable the portable steamer 24
to lock into place within the cavity 52. With this ed geometry, the main body
s the portable steamer 24 in a manner that robustly and reliably supports the
portable steamer 24 when the portable steamer 24 is attached to the main body 30 and
connects with the inlet section 54. Additionally, the inlet section 54 and the set of tabs
56 are positioned within the recess of the C—shaped geometry to protect them against
damage when the portable steamer 24 is detached from the main body 30 (e.g., to
avoid collecting dust and dirt on these features which could otherwise interfere with
their ion, to prevent al damage, etc.).
In some arrangements, the central aXis 48 of the mop 46 passes h the
cavity 52 (Fig. l), but the construction of the main body 30 nevertheless provides
ient t strength to maintain sturdiness of the mop 46 and thus enable the
user to apply significant mopping force to the surface 50 for effective cleaning.
Furthermore, such geometry enables the portable r 24 to have a relatively large,
but modular form factor as well as enables the portable steamer 24 to detach from the
steam application device 22 in a simple lift away manner, and attach to the steam
application device 22 in a simple insertion manner.
The swivel assembly 32 connects the applicator 34 to the second end 42 of the
main body 30. As best seen in Figs. 2 and 4, the swivel assembly 32 includes a first
set of hinges 60, a second set of hinges 62, and a flexible steam pathway 64
(illustrated by the dashed lines in Fig. 3). The first set of hinges 60 is disposed
adjacent the applicator 34, and s the main body 30 to pivot relative to the
applicator 34 along an aXis 66 in the X—direction. Such operation allows the applicator
34 to stay flush with the surface 50 even though the user changes the height of the
mop handle 36 as the user moves the mop 46 forward and backward to mop the
surface 50. The second set of hinges 62 is disposed above the first set of hinges 60
and closer to the main body 30, and enables the applicator 34 to rotate in a side—to—side
manner about an aXis 68 (i.e., left and right angular deflection). Accordingly, this
combination of perpendicular hinges 60, 62 arranged in the manner of a universal
connector (i.e., hinge pairs 60, 62 which are close together and oriented at 90 degrees
to each other) enables the applicator 34 to simultaneously move side—to—side as well as
remain flush on the surface 50 for enhanced mopping action while the user maneuvers
the mop 46. A similar type of universal connector, which is suitable for use as the
swivel assembly 32, is described in US. Patent Application Serial No. 12/118,015
filed May 9, 2008 and published as US. Patent Application No. 279938 on
November 12, 2009, the contents and teachings of which are incorporated by reference
in their entirety.
The flexible steam pathway 64 of the swivel assembly 32 (Figs. 3 and 5)
provides a steam channel from the main body 30 to the applicator 34. Along these
lines, it should be understood that a channel 70 within the main body 30 leads from
the inlet section 54 to an outlet at the end 42 (see Fig. 5), and the flexible steam
pathway 64 of the swivel assembly 32 extends this channel 70 to the applicator 34.
Accordingly, steam reliably passes from the inlet section 54 to the applicator 34
through the l 70 for use in mopping the surface 50.
The ator 34 includes a frame and a washable pad (or pocket) of suitable
mop material (e.g., steam permeable fabric) which covers the frame. Steam conveyed
through the flexible steam pathway 64 to the applicator 34 is thus effectively
distributed to the surface 50 by the ator 34 for effective steam mopping. In
some arrangements, the first set of hinges 60 of the swivel assembly 32 are disposed
substantially within the frame (i.e., embedded within the mop material). A similar
steam pocket and associated frame is disclosed in US. Patent ation Serial No.
,057 filed May 15, 2009 and published as US. Patent Application No.
272948 on October 28, 2010, the ts and teachings of which are
incorporated by reference in their entirety.
The portable steamer 24 has a portable steamer housing 80, a tank 82, a
mechanical pump 84, a steam generator 86, and electronic circuitry 88 (e.g., see Figs.
6—7). The portable steamer housing 80 includes a portable r handle 90, an
outlet section 92, a trigger 94, a set of depressible buttons 96, and a set of catches 98.
The electronic circuitry 88 includes a controller 100, a user interface 102, a sensor
104, a vibration or 106, and an electrical cord 108.
To attach the portable r 24 to the steam application device 22, the user
WO 06359
picks up the portable steamer 24 by the portable steamer handle 90 and inserts the
portable steamer 24 into the cavity 52 with the outlet section 92 of the portable
steamer housing 80 (Fig. 6) facing the inlet section 54 of the main body 30 (Fig. 5) of
the steam application device 22 (also see arrow 26 in Fig. 1). As the portable steamer
24 enters the cavity 54, the outlet section 92 engages with the inlet section 54 to form
a tight connection through which steam is able to pass, and the set of catches 98 which
are ed around the outlet section 92 (Fig. 6) latch to the set of tabs 56 which are
disposed around the inlet section 54. As a result, the le steamer 24 is held
ly within the cavity 52 of the main body 30, and the outlet section 92 and the
inlet section 54 are tightly mated.
To unlock the portable steamer 24 from the cavity 52 of the main body 30, the
user depresses one or more of the set of depressible buttons 96 (Fig. 6). In response,
the set of catches 98 unlatch from the set of tabs 56 around the inlet n 54. While
holding the portable steamer handle 90, the user is then able to disengage the outlet
section 92 from the inlet section 54 and remove the le steamer 24 from the
cavity 52 in a simple lift away manner.
It should be understood that the set of depressible buttons 96 linked with the
set of catches 98 forms a reliable actuable mechanism. Not only can this actuable
ism control attachment and detachment relative to the steam appliance device
22, this actuable mechanism may also control attachment and detachment of other
accessories and attachments to the portable steamer 24.
To operate the appliance 20 using steam, a user fills the tank 82 with water
through an opening 110 (see Figs. 3 and 7). The tank 82 is provisioned with a screw
cap 112 to prevent the water in the tank 82 from escaping back through g 110
once the user finishes filling the tank 82. The tank 82 is further provisioned with a
window 114 (located just below the opening 110) to enable the user to identify a water
level within the tank 82.
Next, the user plugs the electrical cord 108 into an electric outlet. Portions of
the electric cord 108 may be secured or captured by a slot 116 defined by the portable
r housing 80 (see Fig. 3). Moreover, in some arrangements, using the electrical
cord 108 is optional, and power can be provided to the portable steamer 24 from
batteries situated in the portable steamer housing 80.
The user then turns on the portable steamer 24 and sets the pump 84 to operate
at a particular pump rate (e. g., low, medium, high, etc.). To this end, the electronic
circuitry 88 provides a variable steam function, and the user provides user input
through the user interface 102 to the controller 100 to identify a particular steam
g. In response, the controller 100 provides power to the steam generator 86 and
directs the pump 84 to pump water from the tank 82 to the steam generator 86 at the
selected pump rate.
In some arrangements, the user interface 102 includes a single push button as a
control input, and a series of light emitting diodes (LEDs) to provide visual output. In
these arrangements, the user simply presses the push button to toggle the pump 84
through different pump rates in a cyclical manner (e.g., via multiple button s)
and until the LEDs visually indicate a desired pump rate (e.g., via different lighted
output). Other types of controls (e. g., knobs, multiple buttons, es, etc.) and
other types of light tors (e. g., LCDs, piXilated displays, etc.) are suitable for use
as well.
In response to the user input, the pump 84 delivers water from the tank 82 to
the steam generator 86. The rate of water delivery depends on the pump rate setting
provided by the user through the user interface 102.
At this point, it should be understood that the portable steamer 24 operates in
an attached mode when the portable steamer 24 is attached to the steam application
device 22, and an unattached mode as a standalone steamer when the portable steamer
24 is detached from the steam application device 22. The portable steamer 24 is
capable of detecting r the portable r 24 is ed to the steam
ation device 22 via the sensor 104. In particular, the sensor 104 s an
electronic signal having a first value (e. g., a high voltage) when the portable steamer
24 is attached to the steam application device 22, and a second value (e.g., a low
voltage or zero volts) when the le steamer 24 is detached from the steam
application device 22. The controller 100 receives this onic signal and operates
in the appropriate mode.
In some arrangements, the sensor 104 is a contactless sensing component such
as a Hall Effect sensor or magnetic switch which can detect a magnetic field or a
change in magnetic field strength from a magnetic source on the steam application
device 22. Such arrangements alleviate the need for electrical continuity between the
le steamer 24 and the steam application device 22.
When the portable steamer 24 is attached to the steam application device 22
and runs in the attached mode, the trigger 94 is disabled. ingly, there is no
change in operation if the user squeezes the trigger 94 while the le steamer 24 is
attached to the steam ation device 22. Rather, the portable steamer 24 ignores
operation of the trigger 94 and simply releases steam generated by the steam generator
86 to the inlet n 54 (Fig. 5) to deliver steam to the applicator 34. Along these
lines, as the steam tor 86 receives water from the pump 84 and converts that
water into steam, the steam is immediately rged through the outlet section 92 to
the inlet section 54 of the steam application device 22.
r, when the le steamer 24 is detached from the steam application
device 22 and runs in the unattached mode, the trigger 94 is enabled. Here, the user
squeezes the trigger 94 to release steam through the outlet section 92. Accordingly,
while the portable steamer 24 runs in the unattached mode, the user is capable of
holding the portable steamer handle 90 in one hand with a finger of that hand on the
trigger 94 to control steam release. When the user’s finger actuates the trigger 94,
steam under pressure eXits the outlet section 92 (Fig. 6). The user is then able to apply
that steam directly to a surface or perhaps through an attachment or extension (e.g.,
held by the user’s other hand) to deliver steam more precisely to a surface for cleaning
and/or steam treatment (e. g., disinfecting).
A variety of steam accessories including the likes of steam applicators,
conduits and attachments which are suitable for use are disclosed in US. Patent
Application Serial No. 12/554,477 filed September 4, 2009 and hed as US.
Patent Application No. 2010/0212098 on August 26, 2010, the contents and ngs
of which are incorporated by reference in their entirety. Similarly, other steam
accessories which are suitable for use are disclosed in US. Patent Application Serial
no. 12/779,507 filed May 13, 2010 and published as US. Patent Application No.
2010/0269287 on October 28, 2010, the contents and teachings of which are
incorporated by reference in their entirety.
The vibration detector 106 is constructed and arranged to detect movement of
the portable steamer 24. In particular, when the ion or 106 detects
movement, the vibration detector 106 directs the controller 100 to reset a timer (e.g.,
an al counter within the controller 100, a counter external to the controller 100,
etc.). As long as the timer does not expire (i.e., as long as the timer does not reach a
predetermined time limit such as 30 seconds, one minute, two minutes, five minutes,
etc.), the portable steamer 24 s turned on and the controller 100 continues to
provide power to the steam generator 86 as well as direct the pump 84 to operate at the
selected pump rate. However, if the timer does expire due to lack of movement
detection by the vibration detector 106, the portable steamer 24 automatically turns off
and the controller 100 stops operation of the pump 84 and the steam generator 86.
Such operation safely turns off the portable steamer 24 after a predefined period of
inactivity. Further details will now be provided with reference to Figs. 8—lO.
Figs. 8— 10 are three different circuit diagrams for providing le steam to
the appliance 20 according to different embodiments. As briefly mentioned earlier,
the appliance 20, being in the form of a steam mop 46 or a portable steamer 24,
includes a steam generator 86, a tank 82, and a mechanical pump 84 in
communication with the steam generator 86 and the pump 84, where the pump 84 can
be configured to pump water from the water tank 82 to the steam tor 86 for the
generation of steam. The number of s being triggered by the mechanical pump
84 and correspondingly the amount of water being pumped from the water tank 82 to
the steam generator 86 may be lled by a control input of the user interface 102
such as a switch which s between at least two different pump rates (see switch
labeled “SW” in Fig. 8). In these instances, the pump rates may already be
predetermined and, by actuating the switch SW, the user simply toggles n the
different preset rates. This le steam feature allows different s of steam to
be generated and outputted from the outlet section 92 (Fig. 6).
In ICl, 1C2 and 1C3, along with adjacent components, form a switching
power supply with 9 VDC output. 1C4 is an 8—bit single chip microprocessor (also see
the controller 100 of the electronic circuitry 88 in Figs. 6 and 7), which is controlled
by the user through the user interface 102 and in turn controls pump speed (i.e., the
number of strokes/movements per a particular time period). Once the portable
steamer 24 is powered on, switch power supply will provide a 9V DC output and it is
stepped down to 5V through 1C5. IC7 ASTl37 Hall Effect sensor may be used to
2012/023366
may be used to detect whether the portable steamer housing 80 of the portable steamer
24 is mounted on the main body 30 of the steam appliance device 22 or not (also see
sensor 104 in Figs. 6—7). When the portable steamer housing 80 is coupled to the main
body 30, the ons are similar to those as shown in which will be described
in more detail below. Both LEDs (LEDl and LED2) will flash and LED3—5 may be
turned off. Pin 10 of IC4 is in low voltage level and Q1 is turned off (pump has no
function).
Once the user presses or actuates the switch SW, LEDl, LED2 and LED3 will
turn on and a microprocessor may generate a PWM (pulse—width modulation) signal to
activate Ql. Approximately 4.2V DC will be provided to the mechanical pump (e.g.,
low steam rate). 1C6 ASTl37 may be used to count the number of movements of the
pump 84 (e. g., number of pump strokes) in the time period. Optionally, the
microprocessor may adjust the PWM signal to maintain a constant number of
movements. In one embodiment, toggling the switch SW may cycle the following
functions (e.g., off — low steam rate — medium steam rate — high steam rate).
The table below izes the number of movements (e. g., pump strokes)
and the start voltage for three different steam rates according to one embodiment. The
different start—up voltages drive the speed of the piston within the mechanical pump 84
to deliver the necessary number of s or movements (e.g., 6.0V to drive or deliver
72 strokes).
Steam Rate Number of nts or Start—Up Voltage
Strokes in the Time Period
In one embodiment and as briefly mentioned earlier, an internal timer may start
count up once the ical pump 84 is , and the microprocessor may turn off
the mechanical pump 84 after internal ng has reached 30 seconds. Optionally,
one or more vibration sensors BZ may be connected in parallel to increase sensitivity.
In some instances, the internal timer may reset when the processor detects a voltage
a voltage level change on pin 15 (e.g., from high voltage to low voltage or from low
voltage to high voltage). In other instances, the portable steamer 24 may automatically
tum—off when no movement has been detected for 30 seconds. For e, the auto—
off feature may incorporate a ball—trigger mechanism or barrel—type ball switch. In
these instances, the auto—off features works off the nt of the ng
appliance 10. In one embodiment, when the portable r housing 80 is detached
from the main body 30, normal operation of the switch SW may be disabled along
with the ff feature.
In some instances, the low, medium and high steam rates may be correlated to
the amount of steam being generated per minute. For example, low steam rate may
incorporate a 20 % duty cycle to deliver 17 mL/min of steam, medium steam rate may
incorporate a 50 % duty cycle to deliver 24 mL/min of steam, and high steam rate may
incorporate an 80 % duty cycle to deliver 28 mL/min of steam. In a 10 second on—off
cycle, 20 % duty cycle means that the unit may be off for 2 seconds and be on for 8
seconds, and repeat accordingly.
In ICl, IC2 and 1C3, along with adjacent components, form a switching
power supply with 9 VDC output. IC4 may be an 8—bit single chip microprocessor
which is controlled by the user through the user interface 102 (Fig. 6) and, in turn,
controls pump speed. Once the portable steamer 24 is power on, switch power supply
may provide a 9V DC output and stepped down to 5V through 1C5. Both LEDl and
LED2 may flash, LED3—5 may be turned off. Pin 10 of IC4 is in low voltage level and
Q1 is turned off (e. g., pump is not active).
Once the user actuates the switch SW, LEDl, LED2 and LED3 will turn on
and the microprocessor may generate a PWM signal to activate Ql. imately
4.2V DC will be provided to the pump (e.g., low steam rate). 1C6 ASTl37 may be
used to count the number of movements of the pump (e.g., number of pump strokes)
in a particular period. Optionally, the microprocessor may adjust PWM signal to
maintain a nt number of movement. In one embodiment, toggling the switch
SW may cycle the following functions (e.g., off — low steam rate — medium steam rate
— high steam rate).
The table below izes the number of movements (e. g., pump strokes)
and the start e for three different steam rates according to one embodiment. The
ent start—up voltages drive the speed of the piston within the mechanical pump 84
to r the necessary number of strokes or movements (e.g., 6.0V to drive or deliver
72 strokes).
Steam Rate Number of Movements or Start—Up Voltage
Strokes in Time Period
In one ment, an internal timer may start count up once the mechanical
pump 84 is active, and the microprocessor may turn off the mechanical pump after
internal counting has reached 30 seconds. Optionally, ion sensors (B21 and
BZ2) may be connected in parallel to increase ivity. In some instances, the
internal timer content may reset when the processor detects a voltage level change on
pin 10 (e. g., from high voltage to low voltage or from low voltage to high voltage). In
other instances, the portable r 24 may automatically turn—off when no
movement has been ed for 30 seconds.
In , ICl, IC2 and IC3, along with adjacent components, form a
switching power supply with 5.9 VDC output. IC4 may be an 8—bit single chip
microprocessor which is controlled by the user through the user interface 102 (Fig. 6)
and, in turn, controls pump speed. Once the portable steamer 24 is power on, switch
power supply may provide a 5.8V DC output and stepped down to 5V through R8 and
ZDl. Both LEDl and LED2 may flash after power up, pin 2 of IC4 may be in low
voltage, and IC4 may be in low voltage level and Q3 is turned off (e. g., pump is not
active).
Once the user actuates the switch SW, LEDl will turn on and LED2 will turn
off. The microprocessor may te a PWM signal (0.2 ms on and 0.1 ms off) to
activate Q3. Approximately 4.4V to 4.5 V DC will be provided to the pump (e. g., low
steam rate operation). When the switch SW is actuated again, LEDl will turn off and
LED2 will turn on, the microprocessor will generate a high signal to active Q3 and
provide approximately 5.7V to 5.8V DC to the pump (e. g., high steam rate). When the
switch SW is actuated again, the microprocessor may generate a low voltage signal to
turn off Q3. LED’s may flash on the light indicator (see LEDs in the user ace 102
of Fig. 6) and the pump 84 may be stopped.
It should be understood that various other circuits are suitable for use to form
the electronic circuitry for the steam mop 46. Such circuitry may include ICs,
application specific ICs, field programmable gate arrays (FPGAs), microcontrollers
and memory, analog circuitry, combinations thereof, and so on.
As mentioned above, an improved steam appliance 20 includes (i) a steam
application device 22 which is equipped with a swivel to e enhanced
erability, and a portable steamer 24 which provides steam for use by the steam
application device 22 as well as for use in a standalone manner. With such a
ation, the user is able to conveniently and effectively clean a variety of surfaces
with the portable steamer 24 attached to the steam application device 22 (e. g., tile
floors, um, hardwood flooring, etc.) as well as other surfaces with the portable
steamer 24 detached from the steam application device 22 (e.g., r tops, walls,
etc.).
While various embodiments of the invention have been particularly shown and
described, it will be understood by those skilled in the art that various changes in form
and details may be made therein without ing from the spirit and scope of the
invention as defined by the appended claims.
Claims (16)
1. An appliance, comprising: a steam application device having: a main body which includes an inlet section to receive steam, an applicator constructed and arranged to apply the steam to a surface, a swivel assembly constructed and arranged to swivel the applicator and the main body relative to each other; and a portable steamer constructed and arranged to (i) attach to the steam application device and (ii) detach from the steam application device, the portable steamer having: a steam generator constructed and ed to generate the steam, and an outlet section constructed and ed to connect, at a on above where the steam generator is located, to the inlet section of the main body of the steam application device when the portable steamer is attached to the steam application device, the outlet section being constructed and ed to provide the steam from the steam generator to the inlet section of the main body of the steam application device when the portable steamer is attached to the steam application device.
2. An appliance as in claim 1 wherein the steam application device further has a mop handle; n a first end of the main body connects to the mop ; wherein a second end of the main body connects to the swivel assembly; and wherein the mop handle, the main body, the swivel assembly and the applicator are ed substantially in an inline configuration which forms a mop through which a user, when holding the mop handle, is able to mop the e with the applicator.
3. An nce as in claim 2 wherein the main body defines a cavity to cradle the portable steamer when the portable steamer attaches to the steam application device.
4. An nce as in claim 3 wherein the steam generator further has: a tank to hold water, the outlet section of the steam generator and the inlet section of the steam application device being ed between the mop handle and the tank when the portable steamer is cradled in the cavity.
5. An appliance as in claim 3 wherein the mop handle and the swivel assembly define a center axis of the mop; and wherein the main body is C-shaped, the center axis of the mop passing through the cavity defined by the main body.
6. An appliance as in claim 5 wherein the swivel assembly includes: a first set of hinges to control height of the mop handle when the user mops the surface with the applicator; and a second set of hinges to control left and right angular deflection of the applicator when the user mops the surface with the applicator.
7. An nce as in claim 6 wherein the first set of hinges defines a first pivot axis; wherein the second set of hinges defines a second pivot axis; and wherein the first pivot axis is substantially perpendicular to the second pivot axis to enable the user to impart rotation to the ator while concurrently moving the mop handle forward and backward to mop the surface with the applicator.
8. An appliance as in claim 2 wherein the portable steamer further has: a portable steamer handle coupled to the steam generator and the outlet section, the portable steamer handle being ucted and arranged to be held by a user when the portable steamer is detached from the steam application device to e the steam from the steam generator in a manner which is independent of the mop formed by the mop , the main body, the swivel assembly and the applicator.
9. An appliance as in claim 8 wherein the portable steamer further has: a sensor ucted and arranged to provide an electronic signal having a first value when the portable steamer is attached to the steam application device, and a second value which is different than the first value when the portable steamer is detached from the steam application device.
10. An appliance as in claim 9 wherein the portable steamer further has: a trigger disposed along the portable steamer handle, a position of the trigger (i) being ignored by the steam generator when the electronic signal has the first value, and (ii) controlling release of the steam from the steam generator through the outlet section when the electronic signal has the second value.
11. An appliance as in claim 10 wherein the sensor is a Hall effect sensor to enable detection of whether the portable steamer is attached to or ed from the steam application device in the e of electrical continuity with the steam application device.
12. An appliance as in claim 8 wherein the portable steamer further has: a set of depressible buttons to control unlocking of the portable steamer from the steam application device when the portable steamer is ed to the steam application device.
13. An nce as in claim 1 wherein the steam generator of the portable r includes: an electric pump constructed and arranged to selectively provide the steam a different pumping rates, and a user interface constructed and arranged to receive user input and select one of the different g rates in response to the user input.
14. An appliance as in claim 13 wherein the user interface is further constructed and arranged to e different lighted outputs depending on which of the different pump rates is ed by the user input.
15. An appliance as in claim 13 wherein the steam generator of the portable steamer further includes: a vibration detector constructed and arranged to detect movement of the portable steamer, and a controller coupled to the vibration detector, the controller being constructed and arranged to: (i) reset a timer in se to each movement detected vibration detector, and (ii) turn the steam generator off when the timer reaches a predetermined time limit.
16. An appliance substantially as hereinbefore described with reference to the anying drawings.
Applications Claiming Priority (3)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US201161439023P | 2011-02-03 | 2011-02-03 | |
| US61/439,023 | 2011-02-03 | ||
| PCT/US2012/023366 WO2012106359A2 (en) | 2011-02-03 | 2012-01-31 | Steam appliance |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| NZ613935A NZ613935A (en) | 2015-05-29 |
| NZ613935B2 true NZ613935B2 (en) | 2015-09-01 |
Family
ID=
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