Patent Grant
11136705
The present subject matter relates generally to laundry appliances having a rotatable basket and a motor to drive the rotatable basket, and more particularly to a laundry appliance operable to detect a mechanical decoupling of the motor and basket, and related methods.
Laundry appliances, including washing machine appliances and dryer appliances, may include a cabinet with a rotatable basket rotatably mounted therein. Such appliances often employ a motor mechanically coupled to the rotatable basket, such as by a direct drive or a belt and pulley, to rotate the basket as desired.
One example of such laundry appliances is a washing machine appliance. Washing machine appliances generally includes a tub with a basket rotatably positioned within the tub. Articles to be washed, such as clothes, are placed in the machine's basket. A motor may be mechanically coupled to the basket for rotation thereof. At various points in the operation of the washing machine, the basket can rotate to move articles within the basket to facilitate washing. For example, the basket may be rotated during a rinse cycle of the washing machine appliance to facilitate distributing rinse fluid evenly on articles within the basket and/or during a spin cycle to extract liquid from the articles.
Another example of such laundry appliances is a dryer appliance. Dryer appliances generally include a cabinet with a basket mounted therein. In some dryer appliances, a motor rotates the basket during operation of the dryer appliance, e.g., to tumble articles located within a chamber defined by the basket. Dryer appliances also generally include a heater assembly that passes heated air through the chamber of the basket in order to dry moisture-laden articles disposed within the chamber. This internal air then passes from the chamber through a vent duct to an exhaust conduit, through which the air is exhausted from the dryer appliance.
However, the motor of a laundry appliance may become decoupled from the basket. For example, drive belts may eventually wear out and/or become disabled, e.g., become misaligned or break. A mechanical decoupling during operation of the laundry appliance may impair the intended functions of the laundry appliance and may further result in additional unintended detrimental circumstances. In the event of such a decoupling, it would be desirable to mitigate such unintended circumstances and/or notify a user of the mechanical decoupling.
Accordingly, a laundry appliance with features for detecting a mechanical decoupling would be useful.
Aspects and advantages of the invention will be set forth in part in the following description, or may be obvious from the description, or may be learned through practice of the invention.
In one aspect of the present disclosure, a method of detecting a mechanical decoupling in a laundry appliance is provided. The laundry appliance includes a rotatable basket and a motor configured to drive the rotatable basket. The method includes determining a target rotational speed and activating the motor at a first rotational speed proportional to the determined target rotational speed. The method further includes determining an actual rotational speed after activating the motor at the first rotational speed and comparing the actual rotational speed to the target rotational speed. When the actual rotational speed is greater than the target rotational speed, the method determines that the motor is decoupled from the basket.
In another aspect of the present disclosure a laundry appliance is provided. The laundry appliance includes a rotatable basket, a motor configured to drive the rotatable basket, and a controller. The controller is configured for determining a target rotational speed and activating the motor at a first rotational speed proportional to the determined target rotational speed. The controller is further configured for determining an actual rotational speed after activating the motor at the first rotational speed and comparing the actual rotational speed to the target rotational speed. The controller is also configured for determining that the motor is decoupled from the basket when the actual rotational speed is greater than the target rotational speed.
These and other features, aspects and advantages of the present invention will become better understood with reference to the following description and appended claims. The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.
A full and enabling disclosure of the present invention, including the best mode thereof, directed to one of ordinary skill in the art, is set forth in the specification, which makes reference to the appended figures.
Reference now will be made in detail to embodiments of the invention, one or more examples of which are illustrated in the drawings. Each example is provided by way of explanation of the invention, not limitation of the invention. In fact, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the scope or spirit of the invention. For instance, features illustrated or described as part of one embodiment can be used with another embodiment to yield a still further embodiment. Thus, it is intended that the present invention covers such modifications and variations as come within the scope of the appended claims and their equivalents.
As used herein, terms of approximation, such as “generally,” or “about” include values within ten percent greater or less than the stated value. When used in the context of an angle or direction, such terms include within ten degrees greater or less than the stated angle or direction. For example, “generally vertical” includes directions within ten degrees of vertical in any direction, e.g., clockwise or counter-clockwise.
As used herein, the terms “articles,” “clothing,” or “laundry” include but need not be limited to fabrics, textiles, garments, linens, papers, or other items from which the extraction of moisture is desirable. Furthermore, the term “load” or “laundry load” refers to the combination of clothing that may be washed together in a washing machine or dried together in a dryer appliance (e.g., clothes dryer) and may include a mixture of different or similar articles of clothing of different or similar types and kinds of fabrics, textiles, garments and linens within a particular laundering process.
Control panel 58 and input selectors 60 collectively form a user interface input for operator selection of machine cycles and features, and in one embodiment, a display 61 indicates selected features, a countdown timer, and/or other items of interest to machine users. It should be appreciated, however, that in other exemplary embodiments, the control panel 58, input selectors 60, and display 61, may have any other suitable configuration. For example, in other exemplary embodiments, one or more of the input selectors 60 may be configured as manual “push-button” input selectors, or alternatively may be configured as a touchscreen on, e.g., display 61.
A lid 62 is mounted to cover 54 and is rotatable between an open position (not shown) facilitating access to a tub, also referred to as a wash tub, 64 (
A nozzle 72 is configured for flowing a liquid into tub 64. In particular, nozzle 72 may be positioned at or adjacent to top portion 82 of basket 70. Nozzle 72 may be in fluid communication with one or more water sources 76, 77 in order to direct liquid (e.g. water) into tub 64 and/or onto articles within chamber 73 of basket 70. Nozzle 72 may further include apertures 88 through which water may be sprayed into the tub 64. Apertures 88 may, for example, be tubes extending from the nozzles 72 as illustrated, or simply holes defined in the nozzles 72 or any other suitable openings through which water may be sprayed. Nozzle 72 may additionally include other openings, holes, etc. (not shown) through which water may be flowed, i.e. sprayed or poured, into the tub 64.
Various valves may regulate the flow of fluid through nozzle 72. For example, a flow regulator may be provided to control a flow of hot and/or cold water into the wash chamber of washing machine appliance 50. For the embodiment depicted, the flow regulator includes a hot water valve 74 and a cold water valve 75. The hot and cold water valves 74, 75 are utilized to flow hot water and cold water, respectively, therethrough. Each valve 74, 75 can selectively adjust to a closed position in order to terminate or obstruct the flow of fluid therethrough to nozzle 72. The hot water valve 74 may be in fluid communication with a hot water source 76, which may be external to the washing machine appliance 50. The cold water valve 75 may be in fluid communication with a cold water source 77, which may be external to the washing machine appliance 50. The cold water source 77 may, for example, be a commercial water supply, while the hot water source 76 may be, for example, a water heater. Such water sources 76, 77 may supply water to the appliance 50 through the respective valves 74, 75. A hot water conduit 78 and a cold water conduit 79 may supply hot and cold water, respectively, from the sources 76, 77 through the respective valves 74, 75 and to the nozzle 72.
An additive dispenser 84 may additionally be provided for directing a wash additive, such as detergent, bleach, liquid fabric softener, etc., into the tub 64. For example, dispenser 84 may be in fluid communication with nozzle 72 such that water flowing through nozzle 72 flows through dispenser 84, mixing with wash additive at a desired time during operation to form a liquid or wash fluid, before being flowed into tub 64. For the embodiment depicted, nozzle 72 is a separate downstream component from dispenser 84. In other exemplary embodiments, however, nozzle 72 and dispenser 84 may be integral, with a portion of dispenser 84 serving as the nozzle 72, or alternatively dispenser 84 may be in fluid communication with only one of hot water valve 74 or cold water valve 75. In still other exemplary embodiments, the washing machine appliance 50 may not include a dispenser, in which case a user may add one or more wash additives directly to wash chamber 73. A pump assembly 90 (shown schematically in
In some embodiments, for example as illustrated in
Various sensors may additionally be included in the washing machine appliance 50. For example, a pressure sensor 110 may be positioned in the tub 64 as illustrated or, alternatively, may be remotely mounted in another location within the appliance 50 and be operationally connected to tub 64 by a hose (not shown). Any suitable pressure sensor 110, such as an electronic sensor, a manometer, or another suitable gauge or sensor, may be utilized. The pressure sensor 110 may generally measure the pressure of water in the tub 64. This pressure can then be utilized to estimate the height or amount of water in the tub 64. Additionally, a suitable speed sensor can be connected to the motor 94, such as to the output shaft 98 thereof, to measure speed and indicate operation of the motor 94. Other suitable sensors, such as temperature sensors, water/moisture sensors, etc., may additionally be provided in the washing machine appliance 50.
Operation of washing machine appliance 50 is controlled by a processing device or controller 100, that is operatively coupled to the input selectors 60 located on washing machine backsplash 56 (shown in
Controller 100 is a “processing device” or “controller” and may be embodied as described herein. As used herein, “processing device” or “controller” may refer to one or more microprocessors, microcontroller, application-specific integrated circuits (ASICS), or semiconductor devices and is not restricted necessarily to a single element. The controller 100 may be programmed to operate dryer appliance 50 by executing instructions stored in memory. The controller may include, or be associated with, one or more memory elements such as for example, RAM, ROM, or electrically erasable, programmable read only memory (EEPROM). For example, the instructions may be software or any set of instructions that when executed by the processing device, cause the processing device to perform operations. Controller 100 can include one or more processor(s) and associated memory device(s) configured to perform a variety of computer-implemented functions and/or instructions (e.g. performing the methods, steps, calculations and the like and storing relevant data as disclosed herein). It should be noted that controllers 100 as disclosed herein are capable of and may be operable to perform any methods and associated method steps as disclosed herein.
While described in the context of specific embodiments of washing machine appliance 50, using the teachings disclosed herein it will be understood that washing machine appliance 50 is provided by way of example only. Other laundry appliances having different configurations (such as horizontal-axis washing machine appliances, or various clothes dryer appliances), different appearances, and/or different features may also be utilized with the present subject matter as well. For example, the basic structure and function of a dryer appliance are understood by those of ordinary skill in the art and, as such, are not specifically illustrated or described herein for the sake of brevity and clarity.
When the control signal to the motor 94 increases at point B, e.g., to 140 RPM as illustrated in
As shown at points C and D, the initial rotation of the motor 94 may result in a sudden and sharp increase in the actual speed. For example, when the actual speed is based on a measured speed of the motor 94 or a pulley 95/96, the actual speed in the event of a mechanical decoupling may be much greater than expected due to the absence of the inertial load of the basket 70. When the actual speed exceeds the target speed, e.g., as shown at point D in
At points H, I, and J, the control loop continues to attempt to reach the set point (target speed) of 140 RPM. When the actual speed starts out greater than the target speed, e.g., at point D, and then decreases to approach the target speed, e.g., from points D through H, a subsequent step or iteration of the control loop after the actual speed approaches the target speed, such as from point H to point I and/or from point I to point J, may, e.g., in the event of reduced load on the motor 70 due to mechanical decoupling with the basket 70, result in the actual speed continuing to exceed the target speed and, in some instances, such as is illustrated in
Embodiments of the present disclosure include methods of operating a laundry appliance and/or detecting a mechanical decoupling in a laundry appliance. One example of such embodiments is the method 200 illustrated in
When the determination at step 240 is YES, e.g., when the actual speed is greater than the target speed, such as at least three times greater than the target speed, the method 200 may proceed to a step 250 of determining whether the actual speed is increasing, e.g., whether the actual speed acceleration is positive. As noted above, this response may indicate a mechanical decoupling has occurred. Accordingly, when the actual acceleration is positive and the actual speed is greater than the target speed, such as at least three times greater than the target speed, the method 200 may then determine that the motor 94 is decoupled from the basket 70, e.g., may include a step 260 of detecting a mechanical decoupling. For example, the method 200 may determine that a mechanical decoupling has been detected based on the motor response as shown at point D in
In some embodiments, a method of detecting a mechanical decoupling in a laundry appliance may include and/or a controller of a laundry appliance may be configured for determining a target rotational speed, e.g., based on a user input, and activating the motor at a first rotational speed proportional to the determined target rotational speed. For example, the first rotational speed may be a speed of the motor and the determined target rotational speed may be a basket rotational speed. In such embodiments, the first rotational speed of the motor may be proportional to the determined target speed of the basket based on a drive ratio of the laundry appliance.
In some embodiments, the method may further include and/or the controller may further be configured for determining an actual rotational speed after activating the motor at the first rotational speed. The actual rotational speed may be a speed of the same component in the laundry appliance as the target rotational speed. For example, when the target rotational speed is a basket rotational speed, the determined actual rotational speed will also be a speed of the basket, and may be determined through direct measurement or may be calculated.
In some embodiments, the method may further include and/or the controller may further be configured for comparing the actual rotational speed to the target rotational speed and determining that the motor is decoupled from the basket when the actual rotational speed is greater than the target rotational speed. It may be determined that the motor is mechanically decoupled from the basket because the actual rotational speed is greater than the target speed where, as noted above, such conditions may be indicative of a mechanical decoupling. For example, determining that the motor is decoupled from the basket when and because the actual rotational speed is greater than the target rotational speed may include determining that the motor is decoupled from the basket when and because the actual rotational speed is at least three times greater than the target rotational speed, e.g., as illustrated at point D in
In some embodiments, the actual rotational speed nay be a first actual rotational speed. In such embodiments, the method may further include and/or the controller may be further configured for activating the motor at a second rotational speed less than the first rotational speed after comparing the first actual rotational speed to the target rotation speed when the first actual rotational speed is greater than the target rotational speed. For example, in such embodiments comparing the actual rotational speed to the target rotational speed may include inputting the actual rotational speed and the target rotational speed into a closed control loop, and the second rotational speed less than the first rotational speed may be based on an output of the closed control loop. The closed control loop may be, for example, a PID control loop as described above.
In embodiments which include activating the motor at the second rotational speed less than the first rotational speed, e.g., at point E relative to point D in
In various embodiments, the method may further include and/or the controller may further be configured for adjusting the operation of the laundry appliance after detecting the mechanical decoupling. For example, some embodiments may include deactivating the motor after determining that the motor is decoupled from the basket. As another example, some embodiments may also or instead include providing a user notification after determining that the motor is decoupled from the basket. In various embodiments, providing the notification to the user may include providing a graphic or written notification and/or an audible notification. Such notifications, whether written, audible, or both, may be delivered via the laundry appliance 50, e.g., the user interface thereof such as the display 61, and/or a remote user interface on a remote user interface device such as a smartphone or tablet. Various combinations, up to and including both a written and an audible notification on both the washing machine appliance user interface and the remote user interface device are possible. In various exemplary embodiments, the notification may be a written notification, e.g., one or more text messages. Such written notifications may include, e.g., a text message delivered via email or SMS to a cellphone, tablet computer, smartphone, smart watch, desktop computer, or any other suitable communication device. The text message(s) may also be delivered via the interne, a home network, e.g., intranet, or any other suitable network. Further, such written notifications may be delivered via a dedicated computer program such as a smartphone application or “app.” Additionally, written notifications may also include displaying the text message(s) on the display 61 of the laundry appliance 50, as well as or instead of on a remote device. It is understood that any combination of such messages may be provided, e.g., some or all of an email, an SMS message, and the display 61 on the appliance 50 in various combinations may be provided.
This written description uses examples to disclose the invention, including the best mode, and also to enable any person skilled in the art to practice the invention, including making and using any devices or systems and performing any incorporated methods. The patentable scope of the invention is defined by the claims, and may include other examples that occur to those skilled in the art. Such other examples are intended to be within the scope of the claims if they include structural elements that do not differ from the literal language of the claims, or if they include equivalent structural elements with insubstantial differences from the literal languages of the claims.
| Number | Name | Date | Kind |
|---|---|---|---|
| 5852881 | Kuroda et al. | Dec 1998 | A |
| Number | Date | Country |
|---|---|---|
| 2447407 | May 2012 | EP |
| H10263272 | Oct 1998 | JP |
| 2018134262 | Aug 2018 | JP |
| 20180129342 | Dec 2018 | KR |
| WO2015008486 | Jan 2015 | WO |
| Entry |
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| JPH10263272A—Machine translation (Year: 1998). |
| Number | Date | Country | |
|---|---|---|---|
| 20200362498 A1 | Nov 2020 | US |
