The present disclosure relates to a hand-held appliance for the care of clothing and other articles made of a textile or fabric. More particularly, the present disclosure relates to such a hand-held appliance that delivers heat and/or steam to clothing, textiles, fabrics and the like for removing wrinkles and for cleaning.
Handheld appliances for applying steam to remove wrinkles from, to clean, and to deodorize fabrics, such as clothing garments, draperies, upholstery, and other items, are generally known. In such appliances, water is placed in a reservoir and heated to produce steam and that steam is emitted through a nozzle that a user directs toward the fabric.
Typical appliances usually have multiple steam outlet openings to form an aggregate steam output area. The steam outlets may be multiple holes or multiple slots. Such known designs usually have relatively low pressure steam emissions over a relatively wide steam output area. This results in a relatively short distance of travel of the emitted steam and a relatively low-pressure stream of steam. In situations where it is desired to precisely aim a concentrated application of high pressure steam to remove a stubborn wrinkle or stain from fabric, such known designs sometimes have unsuccessful results.
The present disclosure provides a handheld appliance which delivers heat and/or steam to fabric in a manner in which steam is emitted through a concentrated, small, single opening
In a preferred embodiment of the present disclosure, a handheld appliance delivers heat and/or steam to fabric in a manner in which steam is emitted through a concentrated, small, single opening so that the emitted jet of steam has a relatively high-pressure, small diameter spray pattern. This concentrated jet of steam contacts a fabric with more force and heat than a typical handheld steam appliance, and it covers a smaller and more precise target surface area on the fabric. A set of interchangeable steam emission output heads according to the preferred embodiment enables users to select from a variety of resultant steam spray patterns, distances, forces and heat concentration.
The present disclosure further provides one or more sensors associated with a corresponding output head in order to detect the presence of the respective output head.
The present disclosure further provides a control board that controls and adjusts operations of the appliance such as, for example, the steam generator, based on the identity of the detected output head.
The present disclosure also provides output heads including a contactless wrinkle and odor removing tool, a direct contact brushing tool, and a direct contact ironing tool.
The appliance of the present disclosure provides means for adjustment of steam pressure for different garment steaming purposes through the use of interchangeable heads that alter steam outlet configurations and properties.
The present disclosure further provides for a garment steaming appliance having a compact size suitable for home use and for travel.
The appliance of the present disclosure has a housing that contains a removable water reservoir, a pump, a control board, and a steam generator. The steam generator has a steam outlet that is a single nozzle adapted to receive one of the interchangeable output heads. Multiple, interchangeable output heads are selectively attachable to the single nozzle. Each output head has a distinct steam outlet configuration in comparison to the others, so as to provide a user with various options for selectively controlling steam output emission distance, pressure, surface area and temperature, as well as options for cleaning or pressing through direct contact.
The above and other objects, features, and advantages of the present disclosure will be apparent and understood by those skilled in the art from the following detailed description, drawings, and accompanying claims. As shown throughout the drawings, like reference numerals designate like or corresponding parts.
A fabric steamer 100 according to a preferred embodiment of the present disclosure is shown in
Steamer 100 includes a body 110 having an elongated handle for grasping by a user and for housing of components, an electrical cord sleeve 112 for supplying power from an external power source to the steamer 100, a reservoir 120 for holding water to be converted to steam, and an interchangeable head 200 through which steam is discharged or emitted. Head 200 has a central opening 201 through which steam is emitted. Head 200 can be used to remove odors on cloth and to de-wrinkle the cloth by concentrating a single, high-pressure jet of steam during use.
As will be discussed in more detail, head 200 is interchangeable with head 300 and head 400, all shown in
Head 300 includes a set of bristles 302 in an array, preferably forming a circle as shown in
Head 400 includes a soleplate 404 so that head 400 can be used for horizontal or vertical steam ironing. Soleplate 404 is preferably made of heat transmitting material, such as a metallic material, to absorb and redistribute heat from both the steam being emitted and the steam generator 130 components that are in close proximity to, or in contact with, soleplate 404. A single opening 401 in head 400 emits steam.
It should be appreciated that different applications, such as, removing odors and wrinkles on cloth; cleaning solid and liquid stains on cloth; horizontal or vertical steam ironing. Each require different steam pressures, steam areas, and steam distances to achieve appropriate functionality. Advantageously, the appliance of the present disclosure enables variable steam pressure, steam areas, and steam emission distances through the selective use of each respective head 200, 300, 400.
Referring to
Circuit boards 138, 140 can provide an indication of whether or not a head is attached, and which specific head is attached. It is also envisioned that circuit boards 138, 140 can provide different safety checks, preheat temperature or time settings, and control steam output based on recognition of which one of heads 200, 300, 400 is attached. Circuit boards 138, 140 can also provide a visual or audio indication that heads 200, 300, 400 are properly attached or not properly attached.
The main components of steamer 100 are shown in an exploded view in
Body 110 includes a base or bottom housing 114, a left housing 116, a right housing 118, a front housing or component 122, and a cover 124 that together house a steam generator 130, one or more heat shields 132, 134, a pump 136, one or more circuit boards 138, 140, and a portion of electrical connection 112. Steam generator 130, the one or more heat shields 132, 134, pump 136, and the one or more circuit boards 138, 140 are in electrical or operative communication with each other. Although the preferred embodiment of steamer 100 has been illustrated as being powered by an external electrical source, steamer 100 can alternatively be powered by an internal power source such as a battery.
Reservoir 120 is supported on bottom housing 114. Pump 136 is positioned above reservoir 120, and a conduit 135 provides an operative connection therebetween so that water can be transported from the reservoir through the pump.
Steam generator 130 is a vessel heated by electrical energy in which water is heated therein to produce steam. Steam generator 130 can be a flash boiler that can produce steam almost instantaneously upon the introduction of water from pump 136. Steam generator 130 can include a safety device in the form of a thermal cut-off switch to prevent overheating. A conduit 137 operatively connects steam generator 130 to pump 136.
Surrounding steam generator 130 are heat shields 132, 134. Heat shields 132, 134 protect the internal components of steamer 100 from heat generated by steam generator 130.
Steam generated by steam generator 130 is discharged from a single nozzle 142 extending from the steam generator 130.
The operating principle of steam pressure adjustment in steamer 100 in accordance with the present disclosure is illustrated in
Referring to
When steamer 100 is activated, high pressure steam 90 is emitted from steam outlet 201 onto target odor removal area 20. Arrows 26 indicate direction of movement of substance particles 22, 24 in response to application of emitted steam.
The high pressure steam 90 creates high frequency vibrations on the surface of cloth which facilitates cleaning of both solid stains and surface dust. The high temperature of the steam denatures and/or kills organic matter that may cause odors.
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Steam outlets 542 are designed to suit different garment ironing purposes. For example, steam outlets corresponding to the examples 542 could be designed to have a plurality of holes arranged in a line (A), a plurality of holes arranged in an oval pattern (B), a slit opening (C), a plurality of slits (D), a star (E), or a continuous, oval line opening (F).
As shown in
The bottom surface 115 of the bottom housing 114 is, preferably, generally flat and of sufficient surface area so as to enable steamer 100 to be supported vertically in a freestanding manner when the bottom surface 115 is placed on a flat surface, such as a tabletop.
While the present disclosure has been described with reference to one or more exemplary embodiments, it will be understood by those skilled in the art, that various changes can be made, and equivalents can be substituted for elements thereof without departing from the scope of the present disclosure. In addition, many modifications can be made to adapt a particular situation or material to the teachings of the present disclosure without departing from the scope thereof. Therefore, it is intended that the present disclosure will not be limited to the particular embodiments disclosed herein, but that the disclosure will include all aspects falling within the scope of a fair reading of appended claims.