Appliances such as clothes washers and driers, dish washers, etc., must be packaged before they leave a manufacturing facility in a manner that protects them from the hazards of transport until they reach their ultimate destination, which is typically a consumer's home. Along the way, an appliance may be loaded and unloaded from several locations and must be packaged for protection against inadvertent damage. Appliances such as vertical suspension clothes washers include an outer cabinet or housing containing a tub that is suspended in the cabinet and moved relative to the cabinet by a tub drive motor. Washers of this type are well known in the art and it is not unusual for such appliances to occasionally experience damage during shipping. It is also not unusual for such appliances to generate varying levels of sound or noise during operation in the consumer's home.
Apparatuses and methods relating to appliances are provided. In one embodiment, an appliance having a housing, one or more moveable components inside the housing, a drive assembly, and a dampening portion is provided. The housing includes, for example, at least one side wall and the dampening member is disposed at least partially between the drive assembly and the at least one side wall. The dampening portion includes, for example, a resilient material having at least one surface extending at least partially along the side wall and the drive assembly. The dampening member is configured to limit movement of the drive assembly during shipping and handling to prevent damage to the appliance. The dampening member stays with the appliance after shipping and handling to enhance performance of the appliance, protect the moveable component, or both.
The accompanying drawings incorporated herein and forming a part of the specification, illustrate several embodiments of the present invention and together with the description serve to explain certain principles of the invention.
Prior to discussing the various embodiments, a review of the definitions of some exemplary terms used throughout the disclosure is appropriate. Both singular and plural forms of all terms fall within each meaning:
“Physical communication” as used herein, includes but is not limited to connecting, affixing, joining, attaching, fixing, fastening, placing in contact two or more components, elements, assemblies, portions or parts. Physical communication between two or more components, etc., can be direct or indirect such as through the use of one or more intermediary components and may be intermittent or continuous.
In the embodiments discussed herein, the dampening system of the present application is described for use with a washer, such as a washing machine or dishwasher, having a movable member such as a drive assembly. However, the dampening system of the present application may be used with a variety of other machines and appliances having a cavity into which a dampening system can reside, such as, for example, an air conditioner, a microwave oven, a refrigerator, a freezer, or any other household machine or appliance.
In accordance with one general embodiment, a combined shipping and operation dampening system is provided for a washer, such as a washing machine or dishwasher, including a cabinet having a top wall, side walls, and a cavity where a moveable member such as a drive assembly resides. The system includes a dampening portion in the form of a body contoured to fit in the cabinet's cavity. The dampening portion is positioned between at least one side wall of the cabinet's cavity and the drive assembly. The dampening portion functions to protect the drive assembly and associated components during shipping. When the washer reaches its final destination such as, for example, a consumer's home, the dampening portion remains in place to provide vibration dampening and acoustic and thermal insulation during washer operation.
In accordance with another general embodiment, a method is provided for both shipping and operation dampening of a washer including a cabinet having a top wall, sidewalls, and cavity where a moveable member such as a drive assembly resides. The method comprises the steps of positioning a dampening portion between the moveable member and a side wall of the cabinet. The dampening portion prevents the moveable member and associated components, such as a tub and/or basket, from impacting a sidewall of the cabinet or other component of the appliance during shipping. The dampening element remains in the cabinet to provide vibration dampening, and acoustic and thermal insulation and/or to prevent damage to the moveable member and associated components during washer operation.
Reference is now made to
The washing machine 100 has a housing or cabinet 102. A tub 106, basket 150, and moveable member such as a drive assembly 108 reside within the cabinet 102. A dampening member 110 resides in a cavity 116 of the cabinet 102. The illustrated dampening member 110 is disposed below the tub 106, such that there is a vertical gap between the tub 106 and the dampening member 110. The illustrated dampening member 110 also includes an opening that is sized to provide a radial or outward space 114 between the outside of the drive assembly 108 and the dampening member 110. The outward space 114 and/or the vertical gap are selected such that the drive assembly 108 and/or the tub 106 engage the dampening member 110 before the tub 106 hits a sidewall or the drive assembly hits another internal component (not shown) of the washing machine.
As illustrated in
The tub 106 is suspended within the cabinet 102 and is configured to retain water used for washing the laundry items. The tub 106 can take a wide variety of different forms and can be made from a wide variety of different materials. The tub 106 may be generally cylindrical with an open top, but may take a variety of different shapes. The tub 106 may be made from plastic/polymeric materials, or metals, such as steel stainless steel, and aluminum. Preferably, the tub is made from a material that is resistant to corrosion when exposed to water or at least the inside surface of the tub is coated with a material that is resistant to corrosion when exposed to water.
The tub 106 may be connected to ends 154 of a plurality of suspension devices 152 with the other ends 156 of the suspension devices being coupled to the cabinet 102. In the illustrated embodiment, the ends 156 are connected to the top surface 160 of the cabinet. Details of suspension devices that may be used to support the tub 106 in the cabinet 102 are shown by U.S. Published Application Publication Number 2011/0233086, which is incorporated herein by reference in its entirety. However, the suspension devices can take a wide variety of different forms. The suspension devices can be any arrangement that is generally configured to allow vertical movement of the tub 106 with respect to the cabinet 102 while limiting rotational movement of the tub about vertical axis A as indicated by arrow D. For example, the tub 106 may be in the position illustrated by
In one embodiment, the suspension devices are a combination of rods, springs and attachment mechanisms. However, the tub 106 may be coupled to the cabinet 102 in a wide variety of different ways. For example, the suspension devices can be any desired structure, mechanism or device sufficient to suspend the tub 106 within the cabinet 102. The suspension devices allow vertical movement of the tub 106 with respect to the cabinet 102, while limiting rotation of the tub about the vertical axis A, or otherwise couples the tub to the cabinet. In one exemplary embodiment, the suspension devices 152 allow the tub 106 and attached drive assembly to tilt with respect to a horizontal plane Hp as indicated by arrow 161 and/or laterally move with respect to the horizontal plane Hp as indicated by arrow 163. Under abnormal circumstances, the lateral movement or the titling could cause the tub 106 and/or the drive assembly 108 to hit another component of the appliance 100, potentially causing damage. For example, when a washing machine is shipped and handled, the washing machine may be placed at an angle, for example when being moved by a hand dolly, or placed on its side, resulting in tilting of the tub 106 and drive assembly with respect to the plane Hp such that the tub 106 could hit a side wall 104 and/or the drive assembly 108 could hit another component of the machine 100. For example, when a washing machine is shipped and handled, it is not uncommon for the machine to be tilted between 30 and 60 degrees with respect to the horizontal plane Hp. Similarly, if a very unbalanced load were placed in the basket 150, the tub 106 could laterally move to the extent that the tub 106 could hit a side wall 104 and/or drive assembly 108 could hit another component of the machine 100. An example of a significantly imbalanced load would be loading only one side of the basket 150 with jeans or towels.
In the exemplary embodiment, the dampening member 110 prevents the tub 106 from hitting the sidewalls 104 and/or prevents the drive assembly 108 from hitting another component under these abnormal circumstances, to prevent damage to the machine. In an exemplary embodiment, the drive assembly 108 engages the dampening member 110 before the tub 106 hits one of the sidewalls 104 to prevent damage to the machine 100. In the embodiments illustrated by
Referring again to the examples illustrated by
Referring again to the example illustrated by
As indicated above, during shipment or transport of a washing machine, the tub 106 and the drive assembly 108 connected to the tub may move relative to the cabinet 102. For example, the suspended tub 106 and drive assembly 108 may move vertically, swing, pivot relative to the plane Hp of the cabinet, and/or laterally translate when the washing machine is moved, such as when it is tilted or laid on its side, or when the washing machine is moved in a vehicle that rapidly accelerates or travels over a rough surface. As such, the tub 106 and/or the drive assembly 108 may hit or otherwise contact the cabinet and/or components of the machine potentially damaging the components of the washing machine. For example, the tub 106 and the drive assembly 108 may tilt to one side and contact the side wall 104 of the cabinet 102 when the washing machine 100 is tilted, if the dampening element 110 were not present.
As illustrated in
As illustrated in
The dampening member 110 permits vertical movement of the tub 106 during operation of the washing machine 100. As stated above, the tub 106 will move downward in the direction D when it is filled with water. As illustrated in
In the examples illustrated, the space 114 in the dampening member 110 extends through the dampening member 110. The space 114 is provided to allow the drive assembly 108 various degrees of movement during shipping and/or operation. In the examples illustrated by
Dampening member 110 also includes inner surfaces 216, 218, 220 and 222, which bound and form space 114. In other embodiments, dampening member 110 can include more or less inner surfaces. For example, three inner surfaces can be provided thereby providing a triangular space. The inner space 114 may be cylindrical. Similarly, five or more inner surfaces may be provided to provide a pentagonal or other polygonal space. Still further, the inner surfaces need not form a symmetrical shape for space 114. Still further yet, surfaces 216-222 also need not be linear or planar and can include undulating, wavy, and/or repeating and non-repeating geometric patterns.
In the examples illustrated by
Dampening member 110 can also include intermediate surfaces 210 between outer surfaces 202-208. Surfaces 210 can be configured to form a cavity between side walls 104 of cabinet 102 to allow clearance for legs 112, which can typically be adjusted to extend and retract from cabinet 102 for leveling the appliance. As described above, surfaces 102 need not be linear and can include other contours.
In this regard, dampening member 110 may be made from substantially any appropriate material including, but not limited to, material selected from a group consisting of a polyester, a polyester olefin blend, polyethylene terephthalate, polybutylene terephthalate, a polyethylene terephthalate and polypropylene blend, a polybutylene terephthalate and polypropylene blend and combinations thereof. These materials may or may not be fibrous in nature. As an alternative, dampening member 110 may be made from a laminated material including a core layer of fiberglass reinforced polymer material sandwiched between two wear layers of polyester material.
Polyester materials are particularly useful as construction material for the dampening member 110 as they exhibit excellent resiliency and wear resistance to provide a long service life. At the same time, the acoustic properties of the material may be tuned to better control noise and vibration. This may be done by adjusting the density as well as the diameter and length of the fibers utilized in the material.
In addition, it should be appreciated that the dampening potion 110 may be further tuned to provide the desired spring rate for the most effective dampening of energy, motion or vibration emanating from the components internal to the cabinet 102. Typically, dampening member 110 provides a spring rate of between about 6.5 and about 102.0 pounds of force per 100 square inches of contact area. By increasing the amount of solid material in dampening member 110, the spring rate may be increased. Conversely, by reducing the amount of solid material in dampening member 110, the spring rate of the material may be reduced. Thus, by selecting a proper density and spring rate, it is possible to tune the spring rate to a desired level for the most efficient and effective dampening of vibrations. Typically, dampening member 110 will include between about 10 and about 90 percent solid material and between about 90 and about 10 percent open space. However, this is not critical as long as the dampening portion provides the appropriate protections during shipping and/or operation.
During operation, dampening member 110 reduces noise and vibration so as to provide smoother and more silent operation. The polyester material of the dampening member 110 is very resilient and scuff resistant so as to provide a long service life without any significant degradation of desired dampening properties. Other materials may be used which have similar properties.
In summary, numerous benefits result from employing the concepts of the present invention. The dampening member 110 protects appliance 100 by being placed in by at least partially filling a cavity with the appliance to protect the appliance from damage during shipment. Thus, potential damage to the appliance is prevented as it is transported from one location to another.
Following shipping, dampening member 110 remains providing operation vibration dampening. In addition, the material from which dampening member 110 is constructed provides acoustic benefits by reducing noise during operation and providing thermal insulation. Still further, dampening member 110 provides improved water management by catching and absorbing water that might be inadvertently spilled from the tub during operation of the washer and preventing that water from reaching the floor underneath the appliance. Further, it should be appreciated that the dampening member 110 is typically made from a polyester material which is resistant to the growth of bacteria, mildew and mold. Further, the material is hydrophobic by nature and, therefore dries quickly. In addition, such polyester material provides excellent wear resistance and will provide a long service life.
The foregoing description of the preferred embodiments of the present invention has been presented for purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise form disclosed. Modifications or variations are possible in light of the above teachings. For example, dampening member 110 can be made from a laminate comprising a core layer of fiberglass reinforced polymer material sandwiched between two wear layers of polyester based material.
The embodiments were chosen and described to illustrate the principles of the invention and its practical application. It is clear that modifications and variations are within the scope of the invention as determined by the appended claims. The drawings and preferred embodiments do not and are not intended to limit the ordinary meaning of the claims in their fair and broad interpretation in any way.
This application claims the benefit of U.S. Provisional Patent Application Ser. No. 61/428,879 filed on Dec. 31, 2010, titled “Appliance Having Cavity Dampening Portion and Method”. U.S. Provisional Patent Application No. 61/428,879 is incorporated herein by reference in its entirety.
Number | Date | Country | |
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61428879 | Dec 2010 | US |