The present invention relates generally, as indicated, to dishwashers and methods of washing dishes and the like, and, more particularly, to a relatively small dishwasher and method useful to wash quickly one or several dishes and/or sequentially a number of dishes. Exemplary dishwashers in accordance with the present invention may be relatively small, fixed or portable, efficient, and convenient to use to wash dishes, silverware, glasses, pots, pans, etc.
As used herein, reference to “washing” may include washing and drying dishes. Also, as used herein, reference to “dishes” includes dishes, glassware, bowls, pots, pans, silverware, serving utensils, glasses, cups, etc.
Various types of conventional dishwashers are commercially available, for example, for home use as built in units, for home use as portable units, and for commercial use. Conventional dishwashers are relatively large and require substantial floor space if free standing or require substantial under counter space if built in. Each conventional dishwasher typically has one or more racks in which the objects, such as dishes, glassware, pots, pans, silverware, etc. are placed. The rack is positioned in a housing or a cabinet. Water is directed to the objects intended to be washed. Drying usually is accomplished by an air flow through the housing and/or heat. It takes time, for example, several minutes, fully to load a conventional dishwasher, several minutes to unload it, and from about 30 to 60 minutes for washing and drying cycles of operation. There is a possibility of breakage of a dish in case one is pushed off its rack position by the water jets or of ineffective washing if a dish or utensil slips out of place and falls and blocks the rotating mechanism that sprays the water. Furthermore, it may take a fairly long time to wash a rack of dishes, regardless of the number of dishes in the rack; this can be a problem at home if only a small number of dishes are owned and the same dish or same-size dish may be required for use in multiple courses during a dinner. Operating a dishwasher through its entire cycle to wash only a few dishes can waste much energy, water and time. Even in a restaurant it may be desirable quickly to wash a single dish or only several dishes and may unnecessarily contribute to environmental pollution as soap is discharged into the sewer system.
Such conventional dishwashers require a large space. Sometimes the space is not conveniently available, e.g., in a relatively small kitchen or in a motorhome, airplane or boat. Even in a relatively large kitchen a large dishwasher requires space that may otherwise be used for storage.
Accordingly, there is a need for a fast acting dishwasher with a small footprint and volume. There also is a need for a dishwasher able conveniently to wash efficiently a small number of dishes or even a single dish.
In the description herein and also in the claims reference may be made to dishes or to a dish, one example being a dinner plate of conventional style having a top, a bottom, and a circumference that may be round, oblong, polygonal, have respective corners, etc. However, it is intended that reference to the word dishes and the word dish would include other objects that typically are used for eating and serving (e.g., a plate or bowl), for food preparation (e.g., a pot or pan), for food storage or serving (e.g., a bowl or other container), as well as eating utensils (e.g., fork, knife, spoon, etc.), and/or drinking objects or utensils (e.g., drinking glasses, cups, mugs, stemware, etc.), and the like. Thus, unless context or specific description below indicates or implies, reference below to “dish” or “dishes” means various items that my be washed in a dishwasher.
The terms “personal dishwasher” or “personalized dishwasher” means a dishwasher for washing only a single dish or several dishes, e.g., from one to several dishes. Some aspects of the invention are pertinent to a personal dishwasher; other aspects may pertain to personal dishwashers and to conventional dishwashers.
One aspect of the invention relates to a relatively small dishwasher able efficiently to wash one or several dishes.
An aspect relates to a small, fast acting dishwasher able to wash one dish at a time, but operable relatively quickly so that several dishes can be washed sequentially.
Another aspect relates to a personal dishwasher having a washing chamber in which one or several dishes may be placed, and a fluid inlet through which fluid may be directed to wash a dish.
Another aspect relates to a dishwasher including a washing zone, and a path in which a dish or the like may be manually inserted to and removed from the washing zone.
One or more other aspects that may be used singly or used in one or more combinations associated with one or more of the dishwashers and methods described herein include a fluid dispenser to dispense fluid to the dish or the like for washing, brushes for brushing against the dish or the like in the washing zone, a steam flow to direct a flow of steam to the dish or the like to clean the dish or at least to assist in cleaning, a source of ultraviolet radiation for irradiating the dish or the like, detergent dispensing, a biodegradable chemical wash for washing the dish or the like in the washing zone, a source of plasma for at least partly cleaning the dish or the like in the washing zone, a source of ultrasonic energy for at least partly cleaning the dish or the like in the washing zone, a source of heat for heating the dish and/or the water, and/or a control for one or more of the foregoing.
Another aspect relates to a dishwasher, including a housing having a washing zone, and a storage area in a cabinet or counter, the dishwasher being movable onto the counter from the cabinet or from some other location relative to the counter for use to wash dishes or the like.
Another aspect relates to a dishwasher, including a number of brushes, straps, and/or the like, which may be removable and/or replaceable, arranged to wipe against a dish, a device to move the brushes to wipe such dish as it is passed through the dishwasher, a liquid inlet to direct liquid toward the dish, the brushes and liquid inlet being positioned to direct liquid onto such dish and to wipe against the dish, respectively, as the dish is moved relative to the liquid inlet and brushes.
Another aspect relates to a dishwasher including at least one outlet to direct at least one of rinse water, wash water, steam or air toward a dish for washing and/or drying the same, a cabinet having a dishwashing chamber, a chamber in which the dish is washed, and control and distribution for at least one of rinse water, wash water, steam and/or air.
Another aspect relates to a dishwasher including at least one outlet to direct at least one of rinse water, wash water, steam or air toward a dish for washing and/or drying the same, a cabinet having a dishwashing chamber, several chambers in which respective dishes are washed, and control and distribution for at least one of rinse water, wash water, steam and/or air.
Another aspect relates to a dishwasher, including a water spray device to direct liquid to a dish to be washed, brushes to brush against top and bottom of a dish, and wherein the brushes are positioned relative to each other to provide at least partial support for a dish thereby.
Another aspect relates to a flow through dishwasher, including a housing through which a dish may be passed along a path for washing thereof, an inlet to the housing through which the dish may be passed, water spray and/or brushes for washing the dish as it is passed through the housing, and an outlet from the housing through which the washed dish may be retrieved.
Another aspect relates to a method of washing dishes including, while manually holding such a dish, (a) placing the dish to be washed in a dishwasher, (b) directing liquid at the dish to be washed, (c) in the dishwasher brushing the dish to be washed to clean the dish, and (d) removing the washed dish from the dishwasher.
Another aspect relates to an instant dishwasher, including a housing, a washing chamber in the housing, a liquid director to direct liquid to wash a dish in the chamber, brushes in the chamber for brushing against a dish to clean the dish, and an inlet and outlet for the chamber, respectively, to place a dish in the chamber and to remove the dish from the chamber.
Another aspect relates to a quick acting dishwasher, including a housing, a travel path through the housing for a dish or the like to be washed, a number of cleaning members in the housing to clean a dish moving through the housing along the travel path, an inlet for passing a dish into the housing along the travel path and an outlet from the housing through which a dish may be removed, the distance between the inlet and outlet being such that a dish may be manually held both at the inlet and at the outlet while and during at least part of the process of passing the dish along the travel path for washing.
Another aspect relates to a dishwasher, including a housing having a washing zone, and a storage area beneath the top surface of a cabinet or counter, the dishwasher being positionable stored in the storage area and movable to a position at least substantially at the top surface for use to wash dishes or the like.
Another aspect relates to a dishwasher of the type described mounted with respect to a barbeque grill.
Another aspect relates to a double sink with a dishwasher between the two sinks to allow passing a dish from one sink through the dishwasher into the other sink.
Another aspect relates to a two chamber dishwasher in which one dish can be placed in one chamber for washing, and an already washed dish in the other chamber can be removed, and wherein such operation is sequential.
Another aspect relates to a method of washing dishes whereby one dish is placed in a dishwasher for washing, a second dish is removed from the dishwasher after the first-mentioned dish has been placed for washing, and the sequence is repeated.
Another aspect relates to a method of washing dishes whereby two hands are used sequentially, whereby one hand may place a dish in a dishwasher for washing and the other hand removes an already washed dish from the dishwasher, thereby minimize time for washing dishes and making the time seem shorter since constant activity is occurring.
Another aspect relates to a method of washing dishes whereby two hands are used sequentially, whereby one hand may place a dish in a dishwasher for washing and the other hand removes an already washed dish from the dishwasher.
Another aspect relates to a dishwasher mounted on, beneath or otherwise with respect to a table, e.g., a dining room table, kitchen table or the like.
Another aspect relates to a method of and apparatus for washing dishes by drawing dishes past jet sprays.
Another aspect relates to a method of and apparatus for washing dishes by shuttling or transporting dishes between a loading/unloading zone and a washing zone.
Another aspect relates to a method of washing and/or drying a dish by manually holding a dish and manually moving the dish through a washing and/or drying zone of a dishwasher.
Another aspect relates to a dishwasher for washing dishes that are manually moved through a washing and/or drying zone.
Another aspect relates to a dishwasher, including a housing, a washing zone, an inlet in the housing to provide access to the washing zone, and the housing be adjustable to change the size of the inlet.
Another aspect relates to using particulate material to clean a dish in a dishwasher.
Another aspect relates to using ultraviolet illumination or light in a relatively shielded area to help disinfect dishes.
Another aspect relates to concentrating and/or confining ultraviolet illumination or light in to help disinfect dishes.
An aspect of the invention relates to a dishwasher including at least one outlet to direct at least one of rinse water, wash water, steam or air toward a dish for washing and/or drying the same, a cabinet having a dishwashing chamber, a support for a dish, and control and distribution for at least one of rinse water, wash water, steam and/or air.
Another aspect relates to a dishwasher, comprising a number of brushes arranged to wipe against an object used for eating, preparing or serving food, a device to move the brushes to wipe such object as it is passed through the dishwasher, a liquid outlet to direct liquid toward the object, the brushes and liquid outlet being positioned to direct liquid onto such object and to wipe against the object, respectively, as the object is moved relative to the liquid outlet and brushes.
Another aspect relates to a dishwasher, comprising a water spray device to direct liquid to an object to be washed, brushes to brush against top and bottom of an object to be washed, and wherein the brushes are positioned relative to each other to provide at least partial support for an object being washed thereby.
Another aspect relates to a flow through dishwasher, comprising a housing through which an object in the shape of an object in the shape of at least one of a dish, food preparation device and food eating implement may be passed along a path for washing thereof, an inlet to the housing through which the object may be passed, water spray and/or brushes for washing the object as it is passed through the housing, and an outlet from the housing through which the washed object may be retrieved.
Another aspect relates to a method of washing objects used for at least one of food preparation, serving and storing, comprising while manually holding such an object,
a) placing the object to be washed in a dishwasher,
b) directing liquid at the object to be washed,
c) in the dishwasher brushing the object to be washed to clean the object, and
d) removing the washed object from the dishwasher.
Another aspect relates to an instant dishwasher, comprising a housing,
a washing chamber in the housing, a liquid director to direct liquid to wash a dish in the chamber, brushes in the chamber for brushing against a dish to clean the dish, and an inlet and outlet for the chamber to place a dish in the chamber and to remove the dish from the chamber.
Another aspect relates to a quick acting dishwasher, comprising a housing, a travel path through the housing for a dish or the like to be washed, a number of cleaning members in the housing to clean a dish moving through the housing along the travel path, an inlet for passing a dish into the housing along the travel path and an outlet from the housing through which a dish may be removed, the distance between the inlet and outlet being such that a dish may be manually held both at the inlet and at the outlet while and during at least part of the process of passing the dish along the housing for washing.
Another aspect relates to a dishwasher, comprising a washing zone, and a path in which a dish or the like may be manually inserted to and removed from the washing zone.
Another aspect relates to a dishwasher, comprising a housing having a washing zone, and a storage area in a cabinet or counter, the dishwasher being movable onto the counter from the cabinet or counter for use to wash dishes or the like.
Another aspect relates to a dishwasher, comprising a housing having a washing zone, and a storage area beneath the top surface of a cabinet or counter, the dishwasher being positionable stored in the storage area and movable to a position at least substantially at the top surface for use to wash dishes or the like.
Another aspect relates to a dishwasher, comprising a housing, a washing zone, an inlet in the housing to provide access to the washing zone, and the housing be adjustable to change the size of the inlet.
Another aspect relates to a dishwasher having a steam flow therein, and a water curtain for blocking flow of steam outside the dishwasher.
Another aspect relates to a dishwasher, comprising a washing zone and at least one steam zone for directing steam to a dish or other object for washing the same.
Another aspect relates to a dishwasher having a washing zone and an air curtain to isolate the washing zone from the environment external of the dishwasher.
Another aspect relates to a dishwashing method, comprising directing a flow of steam at a dish to wash the dish.
Another aspect relates to a dishwasher, comprising a housing having a washing zone, and external of the housing a steam dispenser.
Another aspect relates to a washing device for dishes and the like, comprising a portable holder, and at least one brush that is movable relative to the holder.
Another aspect relates to a combination dishwasher comprising a dishwasher having a dishwashing chamber and a personalized dishwasher mounted in a stored location in the dishwashing chamber and moveable to operative position to wash dishes.
Another aspect relates to a dishwasher, comprising a dishwashing chamber and a switch responsive to a dish, glass or the like in the dishwashing chamber to control operation of the dishwasher.
Another aspect relates to a dishwasher, comprising a rack having steam dispensing openings for dispensing seam in close proximity to an object to be washed.
Another aspect relates to a rack for a dishwasher, comprising a number of pole-like members, and at least one of the pole-like members having one or more openings to dispense steam therefrom.
One or more of the above and other aspects, objects, features and advantages of the present invention are accomplished using the invention described and claimed below. Also it will be appreciated that a part or feature, etc. shown in one embodiment or drawing may be used in the same or a similar way in another embodiment.
To the accomplishment of the foregoing and related ends, the invention, then, comprises the features hereinafter fully described and particularly pointed out in the claims. The following description and the annexed drawings set forth in detail certain illustrative embodiments of the invention. These embodiments are indicative, however, of but a few of the various ways in which the principles of the invention may be employed.
Although the invention is shown and described with respect to certain embodiments, it is obvious that equivalents and modifications will occur to others skilled in the art upon the reading and understanding of the specification. The present invention includes all such equivalents and modifications, and is limited only by the scope of the claims.
The annexed drawings are not necessarily to scale and may be somewhat schematic. Directions are shown for convenience of illustration and description but may not necessarily be limiting to the direction of orientation and operation of respective parts. Reference numerals with a prime indication, e.g., 1′, may be used to designate parts that are similar in structure and function or are equivalent to a corresponding part designated by an unprimed reference numeral.
In the annexed drawings,
Referring in detail to the drawings, wherein like reference numerals designate like parts in the several figures, and initially to
The dishwasher 10 includes a housing 11, a liquid dispenser 12, and a number of brushing or wiping devices 13, which will be referred to below as brushes for convenience of description. The dishwasher 10 also may include a dryer 14. The top of the housing 11 may be closed by a top wall or cover 15 (shown in
The liquid dispenser 12 may include, for example, the capability of dispensing water for washing a dish. The liquid dispenser may include a wash water dispenser 12a (
The dishwasher 10 has an inlet or entry side 20 in which there is an inlet or entrance 21 for dishes, such as the illustrated dish 22, to enter the interior chamber 23 (sometimes referred to as the washing chamber or as the chamber) of the housing 11. The housing 11 also has an outlet or exit side 24 in which there is an outlet or exit opening 25 from the housing 11 allowing a dish, such as the dish 22, to exit the chamber 23 of the housing. The entrance 21 and exit 25 may be somewhat slot-like to provide space for dishes to pass therethrough while minimizing splashing to the outside of the dishwasher. Flexible flaps 21f, 25f may block some splashing out of liquid and food waste through the entrance 21 and exit 25.
In the embodiment of dishwasher illustrated in
In
It is to be understood that orientations other than those shown or specifically described herein may be used for the dishwasher, the parts thereof, and the manner of use of the dishwasher.
As is shown in
The liquid dispenser 12a is relatively up stream along the travel path represented by the arrow 26 to direct liquid, such as water, soapy water or other liquid to the dish to facilitate washing it and/or to effect washing. The brushes 13 are rotated to wipe, brush, scrape, or the like against a surface of the dish 22 to effect a cleaning or washing function, for example, in conjunction with the liquid that has been dispensed by the liquid dispenser 12a. The liquid dispenser 12b applies a rinse liquid, such as, for example, water or some other liquid, to the dish to remove additional dirt and/or soapy water, etc. The dryer 14 directs a flow of air, for example, heated air or simply room ambient temperature air, to the dish to blow off excess water or other liquid and to effect a drying function. The heated air may be scented to add a fragrance to the dishes.
Also, if desired as is illustrated in
The brushes 13 tend to hold the dish 22 in an appropriate position as it is moved through the chamber 23 so that the liquid properly is dispensed to the dish and the brushes properly wipe the dish; and, additionally, so the drying air from the dryer 14 properly blows against the dish. The size of the dishwasher 10 may be such that a dish may be manually held at or near one edge as the dish is pushed manually into the dishwasher; and while the dish remains manually held by one hand of a user (person), the other hand may be used manually to grasp the other edge of the dish near the outlet or exit 25 to withdraw the dish from the dishwasher. For example, the total length of the travel path 27 may be on the order of approximately 3-8 inches (7.5-20 cm). These dimensions are exemplary only; the travel path may be shorter or longer depending on the intended uses and/or placement of the dishwasher, for example.
Thus, the dishwasher 10 may be used in a feed-through or flow-through manner, whereby a dish is inserted into the dishwasher at one side, is washed, (and if drying air is used, for example, is dried or at least partly dried) and is withdrawn from the other side. It will be appreciated that although manual use of the dishwasher is one example of such use, other mechanisms may be used mechanically to feed a dish into the dishwasher and/or to remove the dish. Moreover, although the dishwasher is illustrated and described herein in a feed-through or flow-through manner, it is possible that modifications may be made within the spirit and scope of the invention to allow the dish to be inserted into the dishwasher from one side and also to be withdrawn from that same side.
In the embodiment of dishwasher 10 illustrated in
An advantage of using two sets of brushes 13t, 13b is that they may tend to center the dish between the two sets so that both sets of brushes wipe against the dish with approximately the same wiping force. Also, additional support structure for the dish may be unnecessary, as adequate support may be provided by the brushes. By reducing the need for a further support, cost is reduced, weight is reduced to enhance portability, rigid parts against which a dish may be shoved causing chipping of the dish are avoided, and wiping forces are relatively uniform whereby each dish is wiped with approximately the same force. In the event that only one set of brushes is used, e.g., only the top set 13t or bottom set 13b, additional support or holding functions may be provided, if desired, to provide support for a dish as it is moved through the dishwasher.
An example of one brush 13t′ in the top brush set 13t is described here as exemplary of the other brushes in the top and bottom brush sets 13t, 13b. The brush 13f includes a brush element 40, a mounting shaft 41, a gear assembly 42 (also sometimes referred to as a transmission assembly 42). The brush element 40 may be made of bristles, sponge material, fabric material, or virtually any material suitable to provide a brushing action and function with respect to dishes 22. In the illustrated embodiment the brush element is donut-shape or annular shape, but the brush element 40 may be some other shape. A suitable mounting mechanism attaches the brush element 40 to the mounting shaft 41. The mounting shaft 41 may be turned/rotated to cause the brush element 40 to rotate to perform its wiping function against a dish 22, for example. The front or distal end of the mounting shaft 41 holds the brush element 40, and the back or mounting end of the mounting shaft 41 is supported in the gear assembly/transmission 42.
The gear assembly/transmission 42 includes a cylindrical support housing and gear assembly 43 and suitable bearings and the like for mechanically supporting the mounting shaft 41 with the brush element 40 on it and allowing a turning or rotating of the mounting shaft 41 and brush element 40 about the axis of the mounting shaft 41. Drive gear and drive shaft mechanism 44 provides mechanical rotational input to gear assembly/transmission 42, which in turn rotates the brush elements 40 via shafts 41. The support housing and gear assembly 43 is mounted on a support platform 45 by a suitable fasteners, welding, adhesive, or some other mechanism and the support platform 45 is mounted in the dishwasher housing 11, as by brackets or other suitable mounting arrangement. The support platform 45 may be supported on the drive shaft 46 by a sleeve support 45a. A motor 47 rotates the drive shaft 46 via the gear assembly 43; and the gear assembly 43 rotates the mounting shaft 41 to rotate brushes 13.
The support platform 45 is composed of a number of independently pivotable support platforms that in turn are rotatably mounted on the drive shaft 46 to allow each brush element 40 independently to float over or under a given dish. The brushes may be rotated by a helical gear arrangement, for example, that includes a helical gear in the support housing and gear assembly 43 that meshes with a corresponding helical gear that is mounted on the drive shaft 46. Alternatively a belt drive or other transmission may be used. During use torque or other applied force applied through the drive shaft 46, gear assembly 42 and mounting shaft 41 to the brushes tends to urge the brushes in respective rows toward each other so they would be urged against a dish or the like and/or such that the brushes 13t are urged toward the brushes 13b, and vice versa. If desired, springs may be used to urge the top and/or bottom brush elements toward the dishes and toward each other as the pivotable parts of the support platform 45 independently pivot. There is a separate drive gear and drive shaft mechanism 44 for each mounting shaft 41 and gear assembly/transmission 42, and each drive gear assembly 43 is mounted on drive shaft 46, which is turned by a motor 47. Therefore, the rotational input by the motor 47 rotates the mounting shafts 41 and brush elements 40. Other drive arrangements may be used to operate the brushes.
The several brushes in the upper brush set 13t are similar to the brush 13t′ just described as are the brushes in the lower brush set 13b. However, the motor 47 is coupled by a gear mechanism 50 to the upper drive shaft 46 and the lower drive shaft 46b in such a way as to rotate the two drive shafts in opposite directions. Therefore, the brushes in the upper brush set 13t rotate in a direction opposite the direction of rotation of the brushes in the lower brush set 13b. When brushes in the two brush sets engage each other during rotation, e.g., when a dish is not separating them, they rotate approximately at the same speed, interengage with each other, tend to deform each other and/or to interengage each other to clean each other, and minimize the forceful interference that would be encountered if they were rotating in opposite directions and, thus, minimize the power requirement to rotate the brushes. Furthermore, since the brushes are rotating in opposite directions, the torque applied by the motor 47 to the upper drive shaft 46 and lower drive shaft 46b is in opposite directions and results in a tendency for the brushes and support platforms to tend to be urged and pivot in opposite directions, e.g., toward each other. For example, the upper drive shaft 46 and support platform 45 associated with it tend to be urged to rotate in a counter clockwise direction, whereas the brushes, support platform and lower drive shaft 46b tend to be urged to rotate in a clockwise direction.
As is illustrated in the drawings, there are two rows of brushes in the upper brush set 13t and similarly there are two rows of brushes in the lower brush set 13b. The two rows of brushes in the given brush set are at spaced apart locations along the direction 26 in the travel path. Spacing of the two rows is accomplished by using drive shafts 41 of appropriate lengths, e.g., whereby the brushes in one row are mounted on drive shafts of a relatively longer length and those in the other row are mounted on drive shafts of relatively shorter length. It will be appreciated that if desired there may be only one row of brushes in the upper and lower brush sets or there they be more than two.
In
Water or other liquid is provided by the water dispensers 12a, 12b to wash and to rinse the dishes that are washed by the dishwasher 10. The water dispensers 12a, 12b include the respective water distribution systems 70, 71. The water distribution system 70 includes a pipe or tube 72 that is provided with wash water, e.g., soapy water, via a flow control 73. The water dispensers 12a, 12b may include openings 12a′, 12b′ for distributing water to a dish 22 being directed through the dishwasher chamber 23. Such water may be soapy water or may be some other fluid that provides a cleaning function; exemplary fluids and/or additives to the water include perfume, scent, disinfectant, wetting agent, etc. If desired, the water may be clear water without soap or it may be steam. Another fluid may be a particulate material, e.g., sand. The tube 12a includes a upper and lower portions, either or both of which distribute water toward a dish. The distributing openings 12a′, 12b′ may be nozzles coupled to the tube or some other mechanism to distribute water toward the dish. If suitable water pressure is provided by the flow control 73 the water may be directed to the dish as sprays, jets or streams to tend to wash food off the dish and to assist the brushes 13 in cleaning the dish. The spray may be augmented by mechanical devices to clean a dish, e.g., by brushes, straps, etc. The water may soften, melt, fluidize food or other material on a dish so the brushes would be able easily to remove such material from the dish. If the water spray (or spray of other fluid, e.g., steam, that is directed to the dish) is of adequate pressure, force, quantity, temperature, and/or cleaning capability, e.g., a biodegradable chemical wash, the brushes 13 may be unnecessary, thus allowing the dishwasher to be a brushless dishwasher. A connection 74 to the flow control 73 may be provided to a water tap, water faucet, pipe or some other supply of water, and a soap reservoir 12c may be provided in the flow control. Soap may be provided in the reservoir and picked up by the water flowing through the flow control 73 on its way to the tube 72.
The water spray distribution system 71 is similar to the system 70, and the parts thereof are labeled by the same reference numerals, but with a prime indication with each reference numeral. The water in the water spray distribution system 71 may be clear water used to rinse soap and any excess food particles from a dish and may include another additive provided at a reservoir 12c′, e.g., wetting agent, perfume, disinfectant, etc.
A dryer 14 can be seen in
Suitable electrical connections and controls may be provided, as is illustrated at 90. The controls 90 includes a connection 91 to a source of electrical power, and includes a connection 92 to various electrical parts of the dishwasher 10, such as, for example, to the motor 47, to pumps 93, 93′ in the flow controls 73, 73′, if used, in the flow controls 70, 71′ (the pumps are schematically illustrated at 93, 93′), and to the dryer 14. If desired, the controls and electrical connection and controls 90 may include a transformer or the like to provide relatively low voltage to the several electrical parts of the dishwasher 10 and/or may include a portable power supply, e.g., a battery.
If desired, one or more electrical parts of the dishwasher 10, such as the motor 47, flow control 73, 73′, and/or dryer 14 may be replaced by an hydraulic power system, whereby flow of water through the flow controls 73, 73′, such as from a water faucet, household pipe, etc., may provide power to rotate the motor 47, to provide fluid flow in the water spray distribution systems 70, 71 and/or to turn the fan 83 of the dryer 80.
Although water distribution systems 12a, 12b are shown separately from the brushes 13, they may be included with or within the brushes. As but one example, the shafts 41 may be hollow to conduct water to the brushes from which the water is provided to wash a dish.
Also, due to the relatively small, compact size and shape of the dishwasher 10, it may be easily portable, positionable on a counter top, built into a cabinet, positioned in a sink or tub, used on a boat, aircraft, motorhome, etc.
Briefly referring to
In using the dishwasher 10 in the arrangement 100, a drain hose 111 may be coupled between a drain (not shown) in the dishwasher bottom wall and the sink 104, for example, and a water supply hose 112 may be coupled from the water supply 105 spout 113 to the water inlet 74 of the dishwasher (
A control switch 117d may operate the unit 117b by energizing a motor 117e that is connected to the telescoping structure 117b or scissors jack, etc. to raise and to lower the dishwasher 10. Operating the switch 117d causes the dishwasher 10 to “pop up” out of the counter top to be available for washing dishes. The operating of the control switch 117d also operates the unit 117b to withdraw the dishwasher into the counter.
Embodiments of dishwasher that are described below have a top entrance/exit, e.g., as in
Referring briefly to
As seen in
With the above in mind, then, it will be appreciated that the present invention provides for a space efficient dishwasher that operates efficiently to wash dishes of different sizes.
Referring to
The illustrated motive system 210 includes a pair of slide bars 213, 214 that are attached to the upper housing part 11a by straps 215 and suitable fasteners, e.g., screws, rivets or the like 216. The slide bars also are mounted to slide relative to the bottom housing part 11b using slide guiding straps 217, which are attached to the lower housing part 11b by suitable fasteners. The slide bars 213, 214 have teeth 220, such as gear teeth, and the crank mechanism 212 includes a pair of rotatable gears 221, 222 that have corresponding teeth 223, 224 to mesh with each other and with the teeth 220 generally as is illustrated in
A motive system 210 may be located at each side wall 225 of the dishwasher 10′″, and each may be independently operated. Such operation would be in unison so that both sides of the dishwasher tend to be lifted or lowered simultaneously approximately at the same rate to avoid distorting the slide bars and/or other parts of the dishwasher. Also, if desired, a mechanical connection may be provided between the motive systems 210 at both sides of the dishwasher 10′″ to synchronize lifting or lowering (or separating and joining) one housing part 11a, 11b relative to the other. Furthermore, if desired, electrical, hydraulic, or other mechanisms may be used to enlarge the inlet and outlet openings of the dishwasher 10′″
A flexible splash guard 233 that is schematically illustrated at a cutout of the dishwasher in
Turning to
A dish may be moved along the travel path 320 to be washed and dried. The several water, steam, brush, air and ultraviolet zones may include two respective parts, one above and one below the travel path, respectively, as is illustrated, or may include only one part either above or below the travel path. If the dishwasher 300 were oriented, as is illustrated in
The devices for delivering, e.g., dispensing, spraying, directing, etc., fluid toward a dish, such as the zones 304, 305, 306, 308 and 310, may include one or more nozzles, a pipe with openings, a spinning nozzle arrangement, or some other suitable fluid outlet or group of outlets to direct fluid toward a dish in the travel path 320. If desired, a given flow path may share respective fluids; e.g., water, air and/or steam may be directed via the same nozzles or other outlets toward a dish at respective times during the washing and/or drying of the dish.
At the first steam zone 305 respective steam outlets or sprayers 305a, 305b provide a flow or spray of steam toward a dish in the travel path 320. The steam tends to clean the dish, while heating and moisturizing material that may be adhered to the dish, such as, for example, gravy, egg, or other material. The heated material tends to become fluidic and relatively easily can flow off the dish, be brushed off the dish, etc. A steam generator 321 provides steam to the steam outlets 305a, 305b. The steam generator 321 may be coupled by a valve 322 to a supply of water 323 and may be coupled by a switch 324 to a source of electric power 325. When energized, the steam generator 321 may heat the water provided to it via the valve 322 to produce steam that is supplied via a valve 326 to the steam outlets 305a, 305b.
As is seen in
The air flow from the air outlets 310a, 310b also may provide an air curtain 310c that tends to block exiting of steam and/or water through the dish outlet 303.
In the brush zone 307 a number of brushes, two of which are shown at 307a, 307b, such as, for example, the brushes described above with respect to the dishwasher(s) illustrated in
The steam outlets 306a, 306b at the second steam zone 306 direct additional steam to a dish in the travel path 320. The additional steam may be used for cleaning and for disinfecting. The second steam zone 306 provides steam that further causes caked or dried material that is on the dish to become fluidic to facilitate washing it from the dish after the dish has been brushed of other particulate matter in the brush zone 307. If desired, the second steam zone 306 may be omitted or may be used instead of the first steam zone 305. Steam for the steam outlets 306a, 306b may be provided by the steam generator 321 in the manner described above. The delivery of steam to the respective steam zones 305, 306 may be selectively controlled by the user of the dishwasher 300, for example, by selectively operating the switch 324 and/or one or both valves 322, 326.
In the rinse water zone 308 rinse water outlets 308a, 308b direct water to the dish for conventional rinsing purposes. The rinse water may wash off any material that has become fluidic on account of the steam provided at the steam zone 306. The rinse water may rinse off the remaining wash water from the wash zone 304, detergent and remaining particulate matter. The water supplied the rinse water outlets 308a, 308b may include a wetting agent to enhance the rinsing function. A source of wetting agent is shown at 330. Delivery of wetting agent to the rinse water may be controlled by a valve 331. If desired, a coating can be sprayed onto the dish by the one of the liquid or steam lines and outlets to apply a glaze type of appearance to the dish; such a glaze material may be like a wetting agent or some other agent that evaporates relatively quickly but leaves the dish shiny and bright. A supply 332 of perfume or fragrance may be added to the rinse water via a valve 333. The perfume or fragrance may be used to make the washed dishes smell clean. A source of disinfectant 334 may be provided. The disinfectant may be a fluid that is provided a valve 335 to the rinse water outlets 308a, 308b to provide disinfecting function as the dishes are rinsed.
Ultra-violet light zone 309 includes ultra-violet light sources 309a, 309b, e.g., sources of ultra-violet electromagnetic energy, with associated lenses, light directors, light shields, etc.; ultra-violet light is directed toward the dishes to tend to kill bacteria and otherwise to disinfect the dishes. The ultra-violet light may be provided from above, below or both above and below the travel path 320, as may be desired. Reflectors 309r may be provided to reflect ultra-violet light from one or more ultra-violet light sources, as may be desired. For example, instead of several ultra-violet light sources 309a, 309b, a single ultra-violet light source may be used and one or more reflectors may direct the ultra-violet light to desired locations in the dishwasher. Electric power to operate the ultra-violet sources may be provided by electrical connections 336, e.g., coupled to electrical input 325. The intensity of the ultra-violet light and the positioning of the ultra-violet light source, may be set to a level and location to carry out the desired disinfecting function, e.g., bacteria killing, germ killing, etc.
The UV sources 309a, 309b may be strategically located in the interior chamber 300a of the dishwasher 300 to provide ultra-violet illumination incident on the dish throughout part or substantially all of the travel path 320 of the dish and the dishwasher. The ultra-violet light sources 309a, 309b may be located in the manner illustrated in
At the drying air zone 310 drying air from outlets 310a, 310b is provided to blow against a dish that has been washed in the dishwasher 300. The drying air may blow any remaining liquid from the dish, such as, for example, rinse water or remaining water that has condensed from the steam and/or has been provided by the wash water. The air flow also may tend to cause evaporation of any remaining moisture on the dish. If desired, perfume or fragrance from the perfume source 332 may be provided via valve 337 to the drying air to add a fragrance or good smell, e.g., a fresh smell or a clean smell, to the dish.
It will be appreciated that the several parts of the dishwasher, such as the wash water outlets, steam outlets, brushes, rinse water outlets, ultra-violet light sources, and drying air outlets may be provided both above and below the travel path 320 or may be provided only either above or below, as may be desired, depending on use of the dishwasher, ultimate versatility of the dishwasher, etc. For example, if a dishwasher is to wash only a certain size dish that always is facing with the “eating surface” down, and the bottom surface of the dish always is facing up, and prior to insertion in the dishwasher, the dishes ordinarily would not be stacked, then a number of the described parts of the dishwasher may be located only below the travel path and not necessarily be needed above the travel path. The drying air, though, may be located both above and below the travel path in such case, for example, so as to dry both the top and bottom surfaces of the dish; although the primary washing function would be against the eating surface, spray may reach the other surface of the dish. This is but one example of many modifications that may be made to the dishwasher 300 while still being within the spirit and scope of the present invention.
Also, as is illustrated schematically in
At the dish inlet 302 resilient flaps 302a, 302b may be provided as a spray guard and/or to rub against a dish as the dish is inserted into the travel path 320 inside the dishwasher housing 301. The flaps 302a, 302b also may provide a sealing function to block heat and water from spraying out or coming out of the dishwasher as the dish is inserted. Similar flaps 303a, 303b may be provided at the dish outlet 303 also to tend to prevent air, water and steam from exiting the dishwasher. The flaps 302a, 302b, 303a, 303b may be relatively light impervious or at least impervious to ultra-violet light to tend to block ultra-violet light from exiting the interior of the dishwasher. The flaps may have a reflector or a reflective surface to reflect ultra-violet light toward the interior of the dishwasher.
A vent 340 may be provided in a wall of the dishwasher to allow outflow of air from the dishwasher, if desired. The vent 340 may include light baffles 341 that may be light absorbing and provide a somewhat tortuous air flow path while blocking light transmission through the vent thereby to prevent ultra-violet light from exiting the dishwasher through the vent 340.
The various components and parts illustrated in the drawings may be arranged in different configuration. For example, although the dishwasher 300 of
It will be appreciated that all or only some of the components illustrated in the dishwasher 300 of
The dishwashers 10, 300 may be of a modular construction. For example, the cabinet or housing 11 may be made with mounts for mounting therein one or more of the several components described herein, e.g., the air flows, the wash water, the rinse water, a detergent or soap supply, brushes, ultra-violet light, infrared light, etc. Mechanical connections may be provided to mount such components in the housing and to provide for external connections to electrical power, water supply, drain, etc. Thus, the dishwasher 10, 300 may be provided as a base system with no or with less than all the components that are disclosed herein; and one or more additional components can be added or removed, as desired.
Electrical power to the dishwasher may be provided at an electrical connection 325. The connection 325 may be an electric plug that can be plugged into a conventional 100 volts, 120 volts, 220 volts, etc., electrical outlet to receive suitable AC electrical power inlet. The electrical connection 325 may be a pre-wired electrical connection to existing electrical service in a house, motor vehicle, aircraft, boat, apartment, etc. Moreover, the electrical supply to the dishwasher may be provided by a suitable battery source, which enhances the portability of the dishwasher.
The dishwasher 300 includes a connection 341 to electrical circuitry 342 that is coupled to receive electrical input from the electrical connection 341. The electrical circuitry 342 may include a transformer to provide suitable voltage and current characteristics for operating various parts of the dishwasher. The electrical circuitry 342 also may include a number of controls to control the various valves, brush operating motors, ultra-violet light sources, fans, the steam generator 321, etc., as may be desired. The controls may be on-off controls, power level controls, frequency controls, etc., as may be desired. Connection of the electrical circuitry 342 to the various portions of the dishwasher, such as those described above, is shown schematically at 343.
To enhance power efficiency and power conservation, the dishwasher 300 may include one or more heat exchangers to heat the wash water, dish water and/or drying air, for example. Two heat exchangers are shown, respectively at 344, 345. The heat exchangers may be conventional heat exchangers that provide two separate fluid paths and a heat exchange wall or medium between those paths. For example, the heat exchanger 344 is located at the top area of the dishwasher and has a heat exchange wall 346 that is exposed to the interior 300a of the dishwasher. Steam and/or warm air may tend to rise and come into contact with the heat exchange wall 346. Within the interior of the heat exchanger 344 water flow may be provided via a connection 350 and valve 351 from the source of water 323 that is supplied to the dishwasher. The source of water 323 may be from a water faucet outlet, maybe connected by appropriate plumbing fixtures to a pipe, such as a pipe in a house for example, or may be provided from some other reservoir supplying water to the dishwasher. The water provided to the heat exchanger 344 via the valve 351 is heated by thermal conduction through the wall 346, and the heated water is provided via a heat exchanger outlet 353 and valve 354 for use in the wash water and/or rinse water portions of the dishwasher.
A pressurizer 355 may be used at one or both water zones 304, 308 to pressurize water so that pressurized water is sprayed from nozzles or the like at those zones to increase flow rate and/or force of the water impinging on a dish to enhance the washing and/or rinsing. The pressurizer 355 may be a pump, a flexible bladder that applies pressure to water therein or in a separate chamber, a piston that applies pressure to water in a reservoir, e.g., in a tank, or some other device.
If desired, air supplied to the dishwasher may be provided via the heat exchanger 344 to heat the air that is then provided via an air outlet 356 to the drying air zone 310. The air and water sections of the heat exchanger 344 may be separated from each other, but nevertheless both may have exposure to the heat exchange wall 346.
As is illustrated schematically in
A bottom wall 361 of the dishwasher at the bottom of the washing chamber area 347 also may be sloped in such a way as to guide liquid and waste carried by the liquid to a filter 363. The filter may include a removal screen or the like that can be taken from the dishwasher, cleaned, and reinstalled in the dishwasher. The filter leads to a sump 364, which in turn directs liquid either to the further heat exchanger 345 or directly to a storage drain device 365. The second heat exchanger 345 allows an exchange of heat from the waste water to the inlet water provided from the water inlet 323 via a valve 323a. The heat exchanger provides for a preheating of the inlet water prior to delivery via a valve 366 to the wash water and/or rinse water zones, to the steam generator 321, and/or to the heat exchanger 344. It will be appreciated that there are various combinations and permutations for using heat exchangers in the dishwasher to enhance the efficiency of the steam generating functions, washing functions, rinsing functions, etc. while minimizing power requirements. Thus, it will be appreciated that the water may be supplied to the wash water zone 304, rinse zone 308, the steam in the steam zones 305, 306, and the air provided to the drying air zone 310 via one or more heat exchangers, etc. A garbage disposal 368 may be provided at the area of the filter, sump, drain, etc., to convert waste food so it will go down the drain.
Although there are seven zones illustrated in the dishwasher 300 in
A prewash device 370 also may be provided. The prewash device may include a hand held sprayer 371, e.g., analogous to a spray wand or spray gun type device, that has an inlet coupling 372 to the steam generator 321 and has a spray outlet 373 to spray fluid against dishes to provide a prewash. The prewash device 370 may spray steam, water, other liquid, and/or various combinations thereof. The device 371 may have a valve 374 that is operated by a trigger 375, such as a finger operated trigger, which manually opens and closes the valve 374 or operates the valve 374 via an electrical connection, e.g., via a solenoid or some other electrical fluidic connection to the valve 374. The valve 374 controls the flow of steam from the coupling 372 to the outlet 373. The handle 376 facilitates manual holding or grasping of the device 370 conveniently to spray steam against the surface of a dish and the relationship of the handle 376, shape of the device 371 and shape and positioning of the trigger, as well as the outlet 373 and coupling 372 may be of ergonomic configuration for safe, efficient operation and use. The prewash device 370 may be used preliminarily to wash a dish prior to placing the dish in the dishwasher delivering it along the travel path 320 to wash the dish in the dishwasher. The length of the coupling 372 may be selected, as desired, for a suitable storage of the prewashed device 371 when not used and for convenient use of the device. A valve 377 in the coupling 372 flow line 372a may be selectively operated to turn on or off the flow of steam to the prewash device 370. The coupling 372 may be a suitable quick connect/disconnect device of conventional design suitable to connect and to disconnect a steam line. The prewash device 370 in addition to providing steam or in place of providing steam may include a brush 370b. The brush may be fixed or it may be of a type that rotates or agitates freely or it may rotate or agitate under the motive force provided by water flow. A motor may be used to rotate the brushes. The brush may be used to help remove dirt and debris from the dish.
A word regarding the steam used in the dishwasher 300, such steam may be relatively low pressure steam that has suitable flow rate to direct the steam to the surface of a dish to effect a cleaning function. The temperature and flow of the steam may be suitable to cause dried material on a dish to become fluidic, and the pressure may be selected either only to effect that fluidizing function or also to effect a tendency to cause a flowing of the steam and fluidized material along the surface of a dish and off the dish, whereby the dish becomes clean or relatively clean. If such fluidizing and flowing caused by the steam, for example, is sufficient to effect washing of the dish, then additional washing functions may be unnecessary, such as, for example, those carried out in one or more of the other zones.
The length of the travel path 320, e.g., from the dish inlet 302 to the dish outlet 303 may be adequately short to allow for a dish to be manually placed in the inlet and while still held by one hand, for example, withdrawn through the outlet by the other hand. If desired, the arrangement of brushes 307a, 307b and the brush zone 307 may be suitable to provide support for the dish as it follows along the travel path 320 without the need for additional support.
The water used in the dishwasher 300 may be recycled. A valve 380 may be operated to direct water from the filter 363 back to the water zone 304. Recycling reduces requirements for water, soap, etc. and, therefore improves environmental advantages of the dishwasher.
In
Turning to
Other portions of the dishwasher 10 shown in
Turning to
Turning to
The compartment 450 at the top of the dishwasher housing 11″ provides a convenient storage facility for the tray 451. A door 453 may be used to close the compartment 450 to hide the tray when it is not in use and to maintain the cleanliness of the tray within the dishwasher.
In
Turning to
In
In
Using the combination dishwasher 500, the dishwasher 10 may be stored within the dishwashing cavity in the manner illustrated in
Briefly referring to
The dishwasher 10 may be used when exposed in the use position shown in
The various electrical and fluid connections and control functions that are described above with respect to the combination dishwasher 500 of
Briefly referring to
The dishwasher 10 is mounted on a rotatable support 540, which may be, for example, a right angle bracket 541 that is mounted on a pivot 542. The dishwasher 10 is secured to the bracket 541 by suitable fasteners 543, e.g., bolts, rivets, adhesive, screws, etc. To use the dishwasher 501 of the combination dishwasher 500, the personalized dishwasher 10 may be in the stored position shown in dotted outline. The dishwasher 501 may be operated in conventional manner. To use the personalized dishwasher 10, the door 503 may be opened, and the dishwasher 10 may be rotated on the support 540 to the orientation illustrated in
In the several embodiments of combination dishwasher 500 additional housing arrangements or other protective mechanisms may be used to isolate the personalized dishwasher 10 from the water that would be distributed in the dishwashing cavity 502 during operation of the dishwasher 501, if desired. Various seals between walls of such protective mechanisms also may be used, if desired. However, with appropriate electrical power, water and drain connections and positional orientations of the personalized dishwasher 10 in the dishwashing cavity 502 of the dishwasher 501, it may be unnecessary to provide any additional protective mechanism for the personalized dishwasher 10.
Briefly referring to
It will be appreciated that the various features of the embodiments of dishwasher illustrated and described have respective parts, features, methods of use, etc. The various parts, features, methods of use, etc. shown in one drawing figure and described with respect to that figure also may be used in connection with one or more of the other dishwashers illustrated and described herein.
Turning to
The rack 701 may be connected to a source of steam at the input ports 706. Glasses or dishes may be placed in the rack 701. While the rack is moved into the dishwasher chamber described above, the steam may be applied to the glasses, dishes, etc. The rack 701 may be withdrawn from the dishwasher chamber from the same direction it was inserted so that the input port(s) 706 do not have to be disconnected from the steam source. Alternatively, a snap coupling 707 may be used between the input port(s) and the steam source; and after the rack has been moved through the dishwashing chamber, the disconnect can be operated to separate the input port(s) 706 from the steam source.
It will be appreciated that although steam flow is described through the various flow paths of tubes, openings, etc. of the rack 701 other fluids may be directed through the respective flow paths and openings, e.g., washing liquid, water, rinsing fluid, disinfectant, etc.
In
Although various valves, switches, sensors and the like are described above, others equivalently may be used, as will be appreciated.
Turning to
The dishwasher 800 is shown with a pair of doors 801. If desired, the dishwasher may include only one door. If there is one door, e.g., door 801, then the door can be opened to place a dish 804 in the chamber 803; the door can be closed; and the dish can be washed. The door then may be opened to remove the washed dish from the chamber 803. If the dishwasher 800 has two doors 801, 801a, then one door can be opened to place a dish in the dishwasher, and the other can be opened to remove the dish from the dishwasher. This process may expedite using the dishwasher, whereby at the conclusion of a washing operation both doors may be opened, and one hand may be used to remove the washed dish and the other hand may used to place a dish to be washed into the chamber 803.
The rack 805 may be a wire rack of a shape, configuration, size, etc. that provides some degree of universality as to be able to support dishes of 804 of different sizes and shapes, such as rather flat dishes, dishes with curved or raised edges and bottoms, bowls, etc. The rack 805 may have a number of upstanding pin-like members 811 with mesh or other material between respective pin-like members; and the space 812 in which an edge of the dish 804 is placed may be tapered, stepped, have slopped walls, etc., as may be desired to provide adequately secure retaining of a dish 804 for washing. Other forms, shapes, parts, etc. of various rack designs may be used for the rack 805. If desired, the pin-like members 811 and/or other parts of the rack 805 may be coated with a noncorroding and/or non-rusting material, e.g., a plastic or rubber material that protects underlying metal of the pin-like members and/or other portions of the rack and that also void damaging the dish 804. The pin-like members and/or other portions of the rack 805 may be made of a material other than metal, e.g., plastic, polymer, rubber, etc. One or more legs 813 may be used to support the rack 805 above the floor 814 of the chamber 803 so that the dishes may be placed in position in the chamber 803 so as to allow for washing all areas of the dish from above and below. Also, spacing between respective pin-like members 811 and/or mesh or other parts of the rack 805 may be such as to allow slight movement of the dish 804 in the rack, although it is being held relatively securely therein as not to fall, so that slight movement of the dish allows for washing of all areas of the dish.
Briefly referring to
In
The dishwashers 800 of
A knob 821a, which represents one or more buttons, knobs, switches, etc., of the dishwasher 800 is coupled to the controls 821 to operate the same and to provide for desired operation of the dishwasher 800, as will be described below.
The water reservoir 823 may include a heater to heat the water supply the via the water inlet 822. The water reservoir 823 may include a storage facility to store water for use in forming steam and to provide water for washing dishes 804 and/or for rinsing the dishes. The water reservoir may include a pressurizer to pressurize the water or other fluid for delivery to wash dishes at a relatively high volume and velocity. The water reservoir 823 may include a dispenser 823a for dispensing detergent or the like, wetting agent or the like, or some other ingredient to the water in the water reservoir 823 for the usual purposes of washing, rinsing, etc., a dish 804 in the chamber 803. The steam generator 824 may include a heater suitable to heat water from the water reservoir 823 or directly received from the water inlet 822 to form steam to be distributed in the chamber 803 for cleaning dishes 804. The steam also may be used to destroy at least some bacteria that may be on the dish 804 or contained in food that is on the dish 804. The steam also may destroy at least some bacteria that otherwise is in the chamber 803. The air supply 825 may be a fan, a source of compressed air, a heater, etc., able to provide suitable air flow for the purpose of drying a dish 804 in the chamber 803 after the dish has been washed, for example.
In the dishwashers 800 the outlets 827 include respective nozzles 835. The nozzles are mounted on a rotating support 836, and fluid (e.g., one or more of rinse water, wash water, steam, air) is provided the nozzles via the flow paths 828 to be directed toward a dish 804 in the dishwasher chamber 803. The supports 836 preferably are rotatable from a base 837, and the nozzles 835 are positioned relative to the support 836 to tend to cause the support and, thus, the nozzles to rotate about the respective bases 837. The rotating nozzles tend to distribute fluid over the entire dish 804 or at least over substantially the entire dish 804.
The illustrated fluid outlets 827 in the form of rotating nozzles 835 are exemplary. Other types of fluid outlets 827 may be used.
For example, in
The layout of outlets 827′ is such as to provide for suitable washing of one or more dishes, glasses, etc. in the dishwasher chamber 803. If desired, the nozzles 827′ may be located not only on the door 801′ but also on other side walls, the top, and/or the bottom of the dishwashing chamber 803. The arrangement of outlets 827, 827′, nozzles, etc. for the dishwashers 800 of
Referring to
A wash cycle may take as short as a number of seconds, e.g., on the order of less than about ten seconds. A wash cycle may take a longer or shorter period of time. As an example, washing and drying may take from about three to about ten seconds. The duration of the wash cycle may depend on a number of factors, such as, for example, how dirty is the dish, how many outlets 827 are used, what is the velocity, pressure and quantity of the fluid that is directed to the dish, water temperature, steam temperature, air temperature, water, steam and air pressure and/or flow rate(s), etc.
During or after the wash cycle water from the chamber 803 may be removed via the drain 829 and drain pipe 830. A suitable valve 830a may be used to control flow through the drain. Additionally, one or more vents 830b that may have a reasonably tortuous, e.g., non-linear path may be provided in the dishwasher cabinet 810 to exhaust air and/or humidity, water vapor, etc., as may be desired. Suitable cooling may be provided for steam in the chamber 803, e.g., by directing a cooling air flow from the outlets 827 into the chamber 803 after a steam cycle. Cooling water may be directed in to the chamber 803 via the outlets 827 to cool any steam and/or condense the same for removal via the drain 829.
As is illustrated in
The dishwashers 800 may have an opening at the top (or at an end) that may serve as both entrance and exit, e.g., as is shown at 21, for inserting dishes into the chamber 803 for washing and for removing the dishes. Such top insertion may avoid the need to use a door 801 for such purpose.
Briefly turning to
In
A heat exchanger 836 may receive water from the hose connection 835, for example, and provides for heating of the water using heat from the grill 831 or other appliance. The heated water then may be coupled by a connection 834 to the dishwasher 10. If desired, the water supply for the dishwasher 10 in
Turning to
The top 866 of the dishwasher may be of a material that is suitable to be used as part of the top 864 of the table 860 as was described above with respect to the counter top of
Using the built-in arrangement 859 of dishwasher 800 (or one of the other dishwashers hereof), the dishwasher may be maintained in its in stored position while the table 860 is used in normal fashion. However, when it is desired to use the dishwasher to wash dishes, the crank 865 can be turned to operate the scissors jack to lift the dishwasher to the use position, and dishes then can be washed in a manner described above. The dishwasher can be re-stored beneath the table 860 by lowering the scissors jack. The built-in arrangement 859 may be used in a table, a counter, cooking system, barbeque grill, patio table, etc.
Several of the dishwashers that are described above and are illustrated in the drawings depict a dish oriented for washing while the major planer extent of the dish is generally horizontal; other dishwashers show the dish oriented such that the major planer extent is generally vertical; and others illustrate the dish having its major planer extent arranged generally in an orientation that is at an angle between vertical and horizontal. It will be appreciated that various features of the invention may be used and reoriented to provide for placement of dishes in a dishwasher or movement of dishes through a dishwasher such that the major planer extent of the dish generally is horizontal, generally vertical or generally at an angle other than horizontal or vertical. Various advantages may inure to the particular placement or orientation of a dish in a dishwasher hereof. For example, with the major planer extent in a generally vertical direction, it is relatively easier for water to drip or to roll down the surfaces of the dish to facilitate drying. Placement of a dish such that the major planer extent is generally horizontal with the eating surface up may allow for wash water with detergent, rinse water, and/or steam to remain on the surface of the dish longer than if the dish were in a vertical orientation. Placement of a dish such that the major planer extent is horizontal and the eating surface is down may facilitate the dropping of food particles off the dish during the washing process. Various other advantageous may inure to the orientation of parts of the dishwasher and orientation of a dish in the dishwasher during the washing and/or drying process and/or during the process of placing a dish in and removing a dish from the dishwasher.
An automated dishwasher system 870 is illustrated in
The dishwasher 871 includes a housing or cabinet 873, a dishwashing chamber 874, entrance and exit doorways 875, 876, and a washing system 877. The washing system 877 may include a number of nozzles that are rotatable to spray water, wash water with detergent, steam, air, etc., to a dish for washing the dish. Various spray systems are described above, and these may be used for the wash system 877, as may be other spray, wash, brush, etc. systems. The doorways 875, 876 may include flexible seals, e.g., plastic strips, rubber strips, fabric strips, or other devices that allow a dish 804 to be transported through the doorway to enter or to exit the dishwasher chamber 874. If desired, there may be only a single door, and the dish may be placed into and removed from the chamber 874 by that single doorway.
An exemplary transport system 872 is illustrated. The transport system includes a grasping device 880 able to grasp a dish 804 and to carry the dish into the dishwasher 874 via the doorway 875. The dish may be preliminarily contained in a storage rack 881. The storage rack may include a bottom 882, a moveable support surface 883, and a spring support 884. The dish 804 may be placed on the support 883 in the storage rack 881, and the spring 884 may be adequate to push the dish sufficiently upward in the storage rack 881 for grasping by the grasping device 880.
The transport system 872 also includes a motor 885, a track 886, and appropriate mechanism, e.g., a cog or gear mechanism, etc., that allows the motor to slide or to be driven along the track 886 to carry the grasping device 880 and dish 804 into the chamber 874 to the orientation illustrated in
The motor 885 may include various gears, linkages, pivots, as well as an electric or hydraulic motor to operate the grasping 880 to grab hold of a dish 804 and to release a dish with respect to the racks 881, 887. The motor 885 also may include the ability to pivot the dish within the dishwasher in a horizontal plane, for example, or in some other way to place the dish in position for washing and to place the dish in position for discharging from the dishwasher through the doorway 876, for example so the dish then can be placed in the rack 887. Controls and distribution system 820 of
The grasping device may include a fixed arm 980 that is connected to and supported from the motor 885. The grasping device also may include fixed and relatively movable flange-like portions that are movable to grasp and to release a dish for pickup from and release to the respective racks 881, 887.
It will be appreciated that the transport mechanisms shown in
Briefly referring to
As the dish is withdrawn from the dishwasher, the air outlets 902 direct air at both surfaces of the dish to blow water off the surfaces for drying. The air outlets 902 may be the outlets of a conventional air knife type device. The air flow is analogous to the air curtain 310c mentioned above at the description of
Since the dish is moved vertically, the advantage of gravity may be used. The primary washing function to wash dirt from the dish may occur as the dish is withdrawn upward, whereby dirt and water are pushed down and off the dish. Similarly, the primary drying function may be carried out while the dish is being withdrawn from the dishwasher.
A pressurizer for the water may be provided. Exemplary pressurizers may provide flow so that the water is provided the nozzles at about 40 to 70 pounds per square (psi) inch per nozzle. The pressures are exemplary only and are not limiting. The number of nozzles 901, their spray pattern, and the amount of water sprayed from each may be coordinated with the pressurizer and the size of a dish so that adequate spray, pressure and velocity of water impinging on the dish is adequate to obtain suitable washing. The direction of spray also may be adjusted to obtain suitable washing.
Air pressure from the air outlets 902 may be on the order of 20 psi. A source of air pressure of, say 80 psi, divided by four may be adequate to obtain such air pressure.
Using a dishwasher of the type illustrated in
If ultra-violet illumination is used, the energy may be selected to be adequate to kill intended bacteria, germs, etc. As an example, which is not intended to be limiting, is 260 newton meters fo substantially instantaneous killing of at least some bacteria or germs upon impingement of such ultra-violet energy on a surface of a dish.
If steam is used in the dishwashers described herein, temperatures on the order of from about 65 C to about 75 C may be adequate to kill some bacteria or germs; other temperatures may be needed to kill other bacteria or germs.
Water and waste may flow out through a drain 904. The water may be recycled.
If desired, controls may be provided, e.g., the control system 820 may be used, to pulse the operation of fluids in the dishwasher. For example, the water and/or the air flow may be pulsed, e.g., turned on and off, or changed in pressure, during operation of the dishwasher.
If desired, instead of or in addition to the ultraviolet energy source(s), infrared sources also may be provided, e.g., as the ultraviolet energy sources are provided. The infrared sources may provide heat to clean the dishes, to kill bacteria, and/or to pre-warm the dishes for subsequent use with warm/hot meals.
Furthermore, if desired, the fluid distributing systems of the invention may include not only a source of water and/or a source of steam, but also a source of plasma, and/or a source of biodegradable chemical wash material, any or all alone and/or in combination with water to be directed to a dish in the dishwashers of the invention. Alternatively, another source of steam, plasma and/or biodegradable chemical wash material may be used and operated to apply the same to a dish or the like for at least partly contributing to washing or cleaning thereof. In the event steam is used, the steam may be low or high pressure.
Still further, using steam to clean and wash a dish provides both cleaning function and disinfecting function, e.g., to remove or to kill bacteria, etc. Using ultra-violet light (radiation) in addition to the steam may provide an additional disinfecting function. Thus, in some instances the combination of steam to clean, wash and disinfect along with ultra-violet illumination further to disinfect, may provide suitable dish washing functions without the need for washing with water and/or without the need for washing with detergent.
The dishwasher may be brushless, i.e., not have brushes to brush or to wipe against the face of the dish or the like. For example, if the steam or water is provided at adequately high pressure or flow rate against the dish or the like being cleaned, brushes may be unnecessary to wipe or to brush against the dish or the like to effect suitable cleaning. The steam temperature, pressure and/or flow rate may be adequate to effect the cleaning/washing of the dish or the like. Also, if the water or other fluid flowing against the dish or the like is of adequately high temperature and/or includes adequate washing agent, e.g., biodegradable chemical wash, brushes may be unnecessary to effect adequate cleaning/washing of the dish or the like.
It will be appreciated that dishwashers using features of the present invention may have a relatively fast throughput. A dish may be inserted into the entrance 21 (
This application is a divisional application of U.S. patent application Ser. No. 12/568,865, filed Sep. 29, 2009, now U.S. Pat. No. 9,386,902, issued Jul. 12, 2016; which is a divisional of U.S. patent application Ser. No. 10/926,765, filed Aug. 26, 2004, now U.S. Pat. No. 7,604,012, issued Oct. 20, 2009, and claims the benefit of four U.S. Provisional Patent Applications Ser. No. 60/498,177, filed Aug. 26, 2003; Ser. No. 60/525,083, filed Nov. 25, 2003; Ser. No. 60/542,251, filed Feb. 5, 2004; and Ser. No. 60/554,654, filed Mar. 19, 2004, the entire disclosures of which are hereby incorporated by reference.
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Number | Date | Country | |
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20160278604 A1 | Sep 2016 | US |
Number | Date | Country | |
---|---|---|---|
60554654 | Mar 2004 | US | |
60542251 | Feb 2004 | US | |
60525083 | Nov 2003 | US | |
60498177 | Aug 2003 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 12568865 | Sep 2009 | US |
Child | 15178816 | US | |
Parent | 10926765 | Aug 2004 | US |
Child | 12568865 | US |