The present invention pertains to the art of dish racks for use in dishwashers and, more particularly, to a dish rack having a dispenser unit.
A front loading dishwasher typically includes a tub having an open front. The tub defines a washing chamber into which items, such as kitchenware, glassware and the like, are placed to undergo a washing operation. The dishwasher is generally provided with a door, pivotally mounted to the tub, that closes the open front.
The dishwasher includes upper and lower extensible dish racks for supporting items during washing operations. Typically, the upper and lower dish racks are formed primarily of a durable, rigid and water resistant material such as chemically treated steel. The dish racks may include supports for holding a basket configured to retain items such as spoons, forks, and knives.
A spraying system is operable to spray liquid into the tub. The spraying system may include an upper sprayer, a lower sprayer, and a spray manifold. The spray manifold is configured to receive water from a pump and filter assembly within the tub. The spray manifold includes a hydraulic conduit fluidly connected to the upper and lower sprayer. The upper sprayer may be located below the upper rack, and includes spray apertures configured to introduce liquid upwardly and downwardly within the tub. The lower sprayer may be located on the bottom floor of the tub, and includes spray apertures configured to introduce liquid upwardly within the tub. A top sprayer may be located above the upper rack and configured to spray water downward. The upper and lower sprayer may be a rotatable spray arm or may be fixed.
Current dishwashers include dispenser units for adding additives, such as a detergent, to the washing chamber during washing operations. The dispenser units are typically mounted to the door, and project outwardly from an inner surface of the door into the washing chamber. The dispenser unit is enclosed by a cover, which may be automatically opened during washing operations. The dispenser unit may be further configured to introduce the additive into the washing chamber by gravity. In some instances, a spray nozzle may be configured to eject water into the open dispenser unit so as to help ensure that all the detergent is introduced into the washing chamber. Accordingly, current dispenser units mounted to the inner surface of the door limit the volume of the washing chamber as well as the length of the dish racks.
In some instances, the door may include two dispenser units. One dispenser unit may be configured to hold a single load of washing detergent. The other dispenser unit may be configured to hold a different type of additive. The washing additive may be designed to achieve a specific washing function, for instance, the washing additive may be configured to prevent stains from developing on items such as glass or silverware. Such washing additives are currently known and illustratively include an additive configured to assist with rinsing items. The other dispenser unit may be configured to hold multiple doses of the washing additive, and may include an actuator operable to dispense a single dose of the washing additive during a single washing load. The use of such an actuator enlarges the size of the dispenser unit and thus further decreases the volume of the washing chamber.
In both instances, the dispenser units are configured to introduce a single dose of an additive into the washing chamber. Water from a plumbed water source is introduced into the washing chamber, and the respective detergent or washing additive is mixed with the wash water and further distributed throughout the washing chamber via the spraying system during washing operations. In such a configuration, a washing additive configured to clean silverware may be applied to kitchenware made of material other than silver. Accordingly, neither the detergent nor the washing additive may be concentrated on a specific spray zone.
Based on the above, there still exists a need in the art for a dishwasher wherein the dispenser unit does not project outwardly from the inner surface of the door and into the washing chamber. Further, it remains desirable to have a dishwasher wherein washing additives may be introduced into a specific wash zone of the washing chamber.
The present invention is generally directed to a dish rack for use in a dishwasher. The dish rack includes a hydraulic circuit and a dispenser unit configured to hold a washing additive, such as detergent or a rinsing agent. The hydraulic circuit is configured to supply water to the dispenser unit, and eject the washing additive from the dispenser unit into the washing chamber.
The dispenser unit may also be configured to spray the washing additive into a specific wash zone. In such an application, the dispenser unit is also in fluid communication a spray nozzle. The spray nozzle is in fluid communication with the hydraulic circuit. The spray nozzle may be disposed on an inner surface wall of the dish rack and positioned downstream from the dispenser unit. A passage of the hydraulic circuit may extend between both the dispenser unit and the spray nozzle. Thus, water may fill the dispenser unit, mix with the additive, and the additive and water are sprayed through the spray nozzle into a desire wash zone.
The dish rack may further include a dispenser unit configured to hold a bulk amount of washing additive and eject a single dose of the additive into the washing chamber during washing operations. The dispenser unit includes a dispensing mechanism operable to distribute a discrete amount of additive into the washing chamber. The dispensing mechanism may be actuated by fluid pressure from the hydraulic circuit. Accordingly, the dispenser unit may hold a bulk supply of a washing additive, and introduce a single dose of the washing additive during a washing program.
Accordingly, the dish rack increases the volume of the work space relative to current dishwashers, as the need for a dispenser unit projecting from the inner surface of the door is eliminated. Further, the dishwasher is able to spray additives into a specific wash zone, thus improving the performance of the dishwasher relative to current dishwashers.
Advantages of the present invention will be readily appreciated as the same becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings wherein:
With initial reference to
As shown in
The dishwasher 10 includes a spraying system 38. The spraying system 38 is configured to spray liquid into the tub 12. The spraying system 38 may include a spray manifold 40, an upper sprayer 42, a lower sprayer 44 and an intake 46. The upper and lower sprayer 42, 44 may be a rotatable spray arm or may be fixed. Additionally, the spraying system 38 may include a top sprayer mounted 60b so as to deliver wash water downwardly into the tub 12.
Disposed within tub 12, is a pump and filter assembly 48. The pump and filter assembly 48 may be mounted within a central opening (not shown) formed in the inner bottom wall 14 of tub 12. Extending about a substantial portion of pump and filter assembly 48, at a position raised above inner bottom wall 14, is a heating element 50. In a manner known in the art, heating element 50 preferably takes the form of a sheathed, electric resistance-type heating element 50. In general, water from a plumbed water source such as a water heater, or a utility source is delivered into the washing chamber 22 through a main intake (not shown). The pump and filter assembly 48 is adapted to direct washing fluid introduced into the tub 12 through the main outtake 46 to the spray manifold 40 and out the upper and lower sprayers 42, 44.
Dishwasher 10 has associated therewith a drain hose (not shown) including at least one corrugated or otherwise curved portion that extends about an arcuate hanger (not shown) provided on an outside surface of dishwasher 10. The drain hose is also preferably secured to tub 12 through various clips in a manner known to those skilled in the art.
The dishwasher 10 may further include a diverter 54, seen at least in
It should be appreciated that the diverter 54 may be configured to provide fluid to both the upper and lower spray arms 60, 58. The diverter 54 may further be configured to provide fluid to the upper and lower dish racks 26U, 26L. The hydraulic conduit 56 may include passages 84 dedicated to supply water to the upper and lower dish racks 26U, 26L, and the upper and lower spray arms 58, 60a, 60b. For instance, the diverter 54 may include valves (not shown) opening and closing passages of the hydraulic conduit 56 which provide water to the respective upper and lower dish racks 26U, 26L, and the upper and lower spray arms 58, 60a, 60b. The valve may be mechanically actuated so as to control the opening of a specific passage to support a wash function.
With reference now to
With reference now to
The outer surface of each of the side walls 64 may be adapted to slidingly engage the inner side walls 16 of the tub 12 between a first position and a second position. For instance, the outer surface of the side walls 64 may include a plurality of rollers configured to engage a respective side rail 74 of the tub 12 (as seen in
The dish rack 26 includes a hydraulic circuit 76 disposed between the outer and inner surfaces of the dish rack 26. The dish rack 26 further includes a hydraulic circuit intake 78 disposed on an end portion of the hydraulic circuit 76, as shown in
The dish rack 26 may further include a main valve 82, shown in
The dish rack 26 is configured to introduce an additive such as detergent or a rinsing agent into the tub 12. The dish rack 26 may be further configured to introduce an additive into a specific wash zone. The dispenser unit 62 is in fluid communication with the hydraulic circuit 76. The hydraulic circuit 76 is configured to be placed in fluid communication with the hydraulic conduit 56 of spraying system 38. The pump and filter assembly 48 is configured to distribute pressurized water throughout the hydraulic conduit 56 of spraying system 38 and the hydraulic circuit of the dish rack 26. The pressurized water is introduced into the dispenser so as to eject the additive into the washing chamber 22.
As shown in
With reference again to
The storage chamber 86 includes a chamber wall 96 bounding a space configured to hold detergent. The storage chamber 86 may be formed as one with the dish rack 26 during the injection molding process. Attachment features for mounting the cover 92 and the dispensing unit door 92 to the dispenser unit 62L may also be formed as one with the dish rack 26 during the injection molding process. A passage 84 of the hydraulic circuit 76 is placed in fluid communication with the storage chamber 86.
The cover 92 is operatively attached to a top opening 88 of the storage chamber 86 so as to provide access for introducing detergent into the storage chamber 86, and to close the storage chamber 86. The dispenser unit 62L may include a latch assembly (not shown) operable to keep the cover 92 closed relative to the top opening 88. The latch assembly is configured to retain the cover 92 in a closed position. The latch assembly may be configured to release the cover 92 upon a push from the user, or may include a button (not shown) operable to release the cover 92 from the open position.
The outlet 90 is configured to allow the additive to escape into the washing chamber 22. The dispenser unit door 94 is operatively mounted to the outlet 90. A closing mechanism (not shown) may be mounted to the dispenser unit door 94. The closing mechanism is configured to move the dispenser unit door 94 between an open position and a closed position, the concept is generally shown in
In one embodiment of a closing mechanism, the closing mechanism is operable to urge the dispenser unit door 94 into a closed position. For instance, a spring, commonly referenced by those skilled in the art as a torsion spring, may be used as a biasing member to urge the dispenser unit door 94 into the closed position. The torsion spring may be operatively mounted to a hinged section of the dispenser unit door 94. The torsion spring may be configured to allow the dispenser unit door 94 to open under a predetermined pressure from the introduction of water into the storage chamber 86. Water from the hydraulic circuit 56 fills the spaces of the storage chamber 86. Pressure from water pumped into the filled storage chamber overcomes the biasing force of the biasing member so as to open the dispenser unit door 94. Thus, the hydraulic pressure may be used to distribute the contents of the storage chamber 86 into the washing chamber 22.
In operation, the user opens the cover 92 and introduces a dose of detergent into the storage chamber 86 and closes the cover 92. The dish rack 26 is placed in the first position wherein the hydraulic circuit 76 is operable to receive wash water from the spraying system 38. Wash water is introduced into the storage chamber 86, and creates fluid pressure within the storage chamber 86. The pressure is sufficient enough to overcome the retaining force of the closing mechanism, but insufficient to open the cover 92. Thus, the cover 92 remains closed, but the dispenser unit door 94 is opened. As wash water continues to flow through the storage chamber 86 of the dispenser unit 62, detergent is mixed therein and introduced into the tub 12. The mixture of wash water and detergent is distributed throughout the spraying system 38 via the pump and filter assembly 48. Upon completion of the wash cycle, fluid pressure is no longer exerted in the storage chamber 86 and thus, the closing mechanism is free to urge the dispenser unit door 94 in the closed position.
With reference again to
The storage chamber 86 includes a top opening 88 and an outlet 90, as shown in
The bottom opening 102 of the dispenser unit housing 98 is dimensioned so as to allow the dispenser unit door 94 to freely pivot to an open position. The dispenser unit 62 is in fluid communication with the hydraulic circuit 76. For instance, a passage 84 of the hydraulic circuit 76 may open into an inner surface of the front wall 66 of the dish rack 26, above the top opening 88 of the storage chamber 86. Accordingly, wash water may be introduced into the dispenser unit 62.
In operation, the user opens the dispenser unit 62 wherein the dispenser unit 62 is pivoted outwardly with respect to the outer surface of the front wall 66 of the dish rack 26. The top opening 88 is exposed, and the user may introduce a single dose of detergent into the storage chamber 86. It should be appreciated that the inner surface of the storage chamber 86 may include indicia for notifying the user of the amount of detergent used for various loads. For instance a plurality of raised lines may be used to indicate light, medium or heavy loads.
The user dispenses the appropriate amount of detergent and closes the dispenser unit 62, wherein the top opening 88 is placed below an opening of the passage 84 of the hydraulic circuit 76. The dish rack 26 is slid to the first position so as to be fluidly coupled with the spraying system 38, as shown in
With reference now to
The storage chamber 86 includes a top opening 88 and an outlet 90. The storage chamber 86 is configured to slide in and out of the dispenser unit housing 98 between a closed and open position. The top opening 88 of the storage chamber 86 is disposed under the top housing wall 100 of the dispenser unit housing 98 when the storage chamber 86 is placed in the closed position. The top opening 88 is displaced from the outer surface of the front wall 66 of the dish rack 26 when placed in the open position, (as shown in
The storage chamber 86 includes a first wall 104 spaced apart from a second wall 106, and a third and fourth wall 108, 110 extending between the first and second walls 104, 106 so as to define a generally rectangular shaped compartment. A dispenser unit door 94 may be disposed on the bottom of the storage chamber 86, opposite and spaced apart from the top housing wall 100 of the dispenser unit housing 98. The closing mechanism is configured to urge the dispenser unit door 94 in a closed position relative the bottom of the storage chamber 86.
The bottom portion of the front wall 66 of the dish rack 26 includes a bottom opening 102 dimensioned so as to allow the dispenser unit door 94 to freely pivot to an open position. As illustratively shown in
In operation, the user may open the dispenser unit 62 by pushing on the storage chamber 86, wherein the storage chamber 86 is released from engagement with the latch assembly and the biasing member pushes the storage chamber 86 out of the dispenser unit housing 98 into the open position. The top opening 88 is exposed, and the user may introduce a single dose of detergent into the storage chamber 86. The user closes the dispenser unit 62, wherein the top opening 88 is placed below an opening of a passage 84 of the hydraulic circuit 76. The dish rack 26 is slid to the first position, wherein the dish rack 26 is placed in fluid communication with the spraying system 38. Specifically, the hydraulic circuit intake 78 is fluidly coupled to the tub outtake 80 of the spraying system 38, as illustrated in
Water from the spraying system 38 is introduced into the hydraulic circuit 76 and to the passage 84 in fluid communication with the dispenser unit 62. Pressure from the introduction of water into the closed storage chamber 86 urges the dispenser unit door 94 outwardly into the bottom opening 102 of the front wall 66 wherein detergent falls from the storage chamber 86 into the tub 12. The closing mechanism is thus free to urge the dispenser unit door 94 into the closed position when the wash water is no longer introduced into the dispenser unit 62.
With reference now to
The storage chamber 86 includes a top opening 88 and an outlet 90. The top opening 88 may be closed by a cover 92. The outlet 90 is registered to the passage 84 of the hydraulic circuit 76. The passage 84 fluidly connects the storage chamber 86 to the spray nozzle 112. A biasing member (not shown) may be operatively connected to the cover 92 so as to urge the cover 92 into an open position wherein the cover 92 is displaced from the top opening 88 of the storage chamber 86. The dispenser unit 62 may further include a latch assembly (not shown) configured to retain the cover 92 in a closed position. The latch assembly and biasing member may be configured to produce what is commonly referenced by those skilled in the art as a push-push lock. Thus, the cover 92 may be closed by pushing the cover 92 onto the top opening 88, and may be opened by pushing the cover 92 once again onto the top opening 88.
The storage chamber 86 may be dimensioned so as to form a generally rectangular shaped compartment. The outlet 90 is disposed on a portion of the storage chamber 86 facing the spray nozzle 112. A valve 114a may be operatively connected to the outlet 90 so as to control the flow of additives from the storage chamber 86 into the spray nozzle 112. The valve 114a may be operable to release a mixture of wash water and additive into the spray nozzle 112 upon experiencing a predetermined fluid pressure. Such a function may be useful in instances where it is desirable to mix the additive with wash water prior to treating items.
In operation, the user accesses the storage chamber 86 by opening the cover 92. The top opening 88 is exposed, and the user may introduce a single dose of additive into the storage chamber 86. The user closes the cover 92, and pushes the dish rack 26 into the first position wherein the dish rack 26 is fluidly coupled with the spraying system 38. Thus, the storage chamber 86 and spray nozzle 112 are positioned to receive wash water.
The water from the hydraulic conduit 56 of the spraying system 38 is introduced into the hydraulic circuit 76 and to the dispenser unit 62. Initially, wash water mixes with the additive within the storage chamber 86. The valve 114a is configured to release the mixture into the spray nozzle 112 upon experiencing a predetermined fluid pressure. Upon experiencing the predetermined fluid pressure, the valve 114a opens fluid communication between the storage chamber 86 and the spray nozzle 112. A mixture of additive and wash water is ejected through the spray nozzle 112 into a specific wash zone. Such a dispenser unit 62 may be beneficial for cleaning a specific type of dishware. For instance, silverware may be placed in a basket positioned in front of the spray nozzle 112 located downstream from and in fluid communication with the dispenser unit 62. An additive for cleaning silverware is poured into the storage chamber 86 and is sprayed directly onto the silverware during washing operations.
With reference now to
The dispenser unit 62 is shown disposed on the upper dish rack 26. The dispenser unit 62 is mounted within a side wall 56 of the upper dish rack 26. The dispenser unit 62 includes a storage chamber 86 having a top opening 88 and an outlet 90. The cover 92 is pivotably attached to the top opening 88.
The storage chamber 86 includes a first space 116 configured to hold a bulk supply of an additive and a second space 118 configured to hold a single dose of the additive. The storage chamber 86 may be formed as one with the dish rack 26 during a molding process. A dispenser unit door 94 is operatively mounted to an outlet 90 disposed on the second space 118. The second space 118 is in fluid communication with the hydraulic circuit 76. Attachment features for mounting the cover 92 and the dispenser unit door 94 to the dispenser unit 62 may also be formed as one with the dish rack 26 during the injection molding process.
The cover 92 is pivotably attached to a top opening 88 of the storage chamber 86 so as to provide access for introducing detergent into the storage chamber 86, and closing the storage chamber 86. The dispenser unit 62 may include a latch assembly (not shown) operable to keep the cover 92 closed relative to the top opening 88. The latch assembly may be configured to release the cover 92 upon a push from the user or may include a button (not shown) operable to release the cover 92 from the open position.
The dispenser unit 62 includes a dispensing mechanism 120 configured to release a single dose of additive into the washing chamber 22. With reference again to
As shown in
In operation, the user initially introduces a bulk supply of additive into the dispenser unit 62, filling up the first space 116. The dish rack 26 is placed in the first position wherein the hydraulic circuit 76 is operable to receive wash water from the spraying system 38. Additionally, the head 124 is moved to the second position wherein the content within the intermediate chamber fills the second space 118. The wash water exerts a fluid pressure into the second space 118, pushing the dispenser unit door 94 open, wherein a single dose of the additive is introduced into the washing chamber 22. The single dose of additive is mixed with the wash water during washing operations and distributed through the spraying system 38 via the pump and filter assembly 48. Any remaining additive may be introduced into the washing chamber 22 during subsequent washing operations in the manner described above.
The dispensing mechanism 120 may be actuated by fluid pressure from a passage 84 of the hydraulic circuit 76. Any dispensing mechanism 120 currently known and used in the art may be adapted for use herein, illustratively including a mechanical timer which is pressure or flow operated so as to close or open an opening based upon fluid pressure or flow. For instance, the mechanical timer may be operatively mounted to the outlet 90 of the storage chamber 86. The mechanical timer is placed in fluid communication with a passage 84 of the hydraulic circuit 76, and is configured to open and close fluid communication with the outlet 90. Accordingly, the mechanical timer is configured to release a discrete amount of additive from the bulk supply held within the storage chamber 86 during a washing cycle. It should be appreciated by those skilled in the art the dispenser mechanisms described herein is illustrative and not limiting to the scope of the invention.
With reference again to
In operation, the user positions the dish racks 26U, 26L in the second position, as shown in
The user may simply select a wash program. Water is introduced into the washing chamber 22 via the main intake (not shown), and distributed through the spraying system 38. The diverter 54 may direct water to the lower dish rack 26 wherein the main valve 114 opens the passage 84 connected to the dispenser unit 62 configured to release detergent. Thus, wash water is mixed with the detergent and pumped into the spraying system 38 via the pump and filter assembly 48 to be distributed throughout the washing chamber 22.
Subsequently, the diverter 54 may be configured to direct wash water to the upper dish rack 26L, wherein the valve 114 is configured to open the passage 84 connected to dispenser unit 62 fluidly coupled to a spray nozzle 112. The spray nozzle 112 is configured to spray a washing additive into the wash zone in front of the spray nozzle 112. For instance, the user may load the dispenser unit 62 with a silverware cleaning additive. Water from the hydraulic circuit 56 is introduced into the dispenser unit. The water fills the storage chamber 86 of the dispenser unit 62, wherein the water and additive are pushed into the outlet 90, and released into the spray nozzle 112, and sprayed onto the basket of silverware disposed in front of the spray nozzle 112. In a final rinsing cycle of the wash program, the diverter 54 may direct water back to the lower dish rack 26. The valve 114 is configured to open a passage 84 to the dispenser unit 62 configured to release a single dose of rinsing additive from a bulk supply. Fluid pressure is exerted on the dispensing mechanism 120 so as to release a single dose of the rinsing agent into the washing chamber 22.
With reference now to
With reference now to
The dispenser unit 62 may be integrally formed with the band 136 or may be formed as a separate piece. The dispenser unit 62 includes a storage chamber 86 having a top opening 88 and an outlet 90. A cover 92 may be operatively attached to the top opening 88 and is opposite from a dispenser unit door 94 which is operatively attached to the outlet 90. The storage chamber 86 is configured to hold the additive. The storage chamber 86 may include a first wall 104 spaced apart from a second wall 106, a third wall 108 spaced apart from a fourth wall 110, each of the third and fourth wall 108, 110 extends between the first and second walls 104, 106 so as to define a generally rectangular shaped compartment. However, it should be appreciated that the storage chamber may be shaped otherwise based upon aesthetic or manufacturing and production desires. The storage chamber 86 includes an inlet 140 configured to be placed in fluid communication with a passage 84 of the hydraulic circuit 76.
The outlet 90 is configured to allow the additive to escape into the washing chamber 22. The dispenser unit door 94 is operatively mounted to the outlet 90. A closing mechanism (not shown) may be mounted to the dispenser unit door 94. The closing mechanism is configured to move the dispenser unit door 94 between an open position and a closed position, the concept is generally shown in
The handle 134 is formed on the front face of the dispenser unit 62. The handle 134 is adapted to be engaged by the grip of a user. The handle 134 is illustratively shown as an arcuate concave surface extending upwardly into a recess 142 of the dispenser unit 62. Thus, the concave surface is recessed with respect to an outer surface of the fourth wall 110 which is disposed at the front of the dispenser unit 62. Thus, a user may insert his/her fingers upwardly into the recess 142 and simply pull the dish rack 26 out from the tub. Further, the fourth wall 110 of the dispenser unit faces the front of the dish rack 26, and includes a planar surface providing a space for the user to push the dish rack 26 back into the tub 12.
With reference now to
Alternatively, the dispenser unit 62 may be include a female receiving portion (not shown) and the face plate 144 may include a corresponding tab (not shown) adapted to removably engage the female receiving portion so as to be able to attach and detach. The dispenser unit 62 includes a space 150 beneath the storage chamber 86. The space 150 is configured to receive the handle portion 148 of the face plate 144. Such an embodiment may be desirable to facilitate production as the dish racks 62 may be customized to accommodate the brand of dishwasher 10.
Obviously, many modifications and variations of the present invention are possible in light of the above teachings and may be practiced otherwise than as specifically described while within the scope of the appended claims.
The present application is a continuation of U.S. patent application Ser. No. 14/031,065, filed Sep. 19, 2013, now U.S. Pat. No. 9,848,754, issued Dec. 26, 2017 which claims the benefit of U.S. Provisional Patent Application No. 61/727,812, filed Nov. 19, 2012, both of which are incorporated by reference herein in their entirety.
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Number | Date | Country | |
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20180064309 A1 | Mar 2018 | US |
Number | Date | Country | |
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61727812 | Nov 2012 | US |
Number | Date | Country | |
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Parent | 14031065 | Sep 2013 | US |
Child | 15810264 | US |