1. Field of the Invention
The present invention generally relates to a basket assembly for a washing machine and particularly a basket and support bracket of the basket assembly.
2. Description of the Related Art
Washing machines include a basket assembly for receiving materials to be washed. The basket assembly is rotatable to agitate such materials and the rotation of the basket assembly results in stress in the basket assembly.
The washing machine includes a tub that receives a supply of wash liquid. The tub is hollow and the basket assembly is disposed in the tub. The basket assembly includes a basket that is hollow and permeable to receive the wash liquid. The basket extends between a first end and a second end. The first end is open for receiving laundry and a back plate is crimped onto the second end. A bracket is mounted to the second end adjacent to the back plate. A drive rod is engaged with the bracket and the washing machine includes a motor engaging the drive rod to rotate the drive rod. The rotation of the drive rod by the motor rotates the basket assembly. This rotation exerts stresses on the basket and on the bracket.
The bracket is typically formed of metal to withstand the stresses resulting from the rotation of the drive rod. The metal is a relatively expensive material and is subject to corrosion from contact with the wash liquid. Further, the assembly process of the basket assembly involves several steps including crimping the back plate onto the second end of the basket and subsequently the bracket to the bracket. The several steps are time consuming. In addition, the crimping process is a time consuming process.
Accordingly, it would be advantageous to design a basket assembly for a washing machine that comprises fewer components and more inexpensive and corrosion resistant components such that the basket assembly is more durable while remaining more cost effective from a material/manufacturing standpoint as well as from an assembly standpoint.
The present invention includes a basket assembly for a washing machine. The basket assembly comprises a basket having an axis and a first end and a second end spaced along the axis and defining a cavity at the first end for receiving laundry. A support bracket is adjacent the second end of the basket. The support bracket comprises a base having a front side, at least two attachment portions extending from the front side and spaced from each other radially relative to the axis with the attachment portions connected to the basket at the second end, and at least two fins integrally extending from the front side of the base toward the first end of the basket wherein the fins are integral with the attachment portions of the support bracket for reinforcing the attachment portions.
The support bracket advantageously reduces the number of parts associated with the bracket assembly while maintaining sufficient strength, stiffness, and durability of the bracket assembly. Specifically, the support bracket replaces several components of the prior art basket by consolidating the back plate and the bracket of the prior art into a single component. The consolidation of parts reduces the number of steps required to assemble the basket assembly and eliminates the time consuming crimping process that is required to crimp the back wall onto the basket of the prior art. In addition, because the fins are integral with and reinforce the attachment portions, the support bracket has the strength, stiffness, and durability to withstand the stresses that the support bracket undergoes during various cycles of the washing machine.
Other 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:
Referring to the Figures, wherein like numerals indicate corresponding parts throughout the several views, a basket assembly 24 for a washing machine 20, e.g., a washing machine for washing laundry, is generally shown. The washing machine 20 is also referred to in industry as an automatic washer. The washing machine 20 includes a cabinet 21 and a tub 22 disposed within the cabinet 21. It should also be appreciated that the washing machine 20 is not limited to a top-load unit as shown in
The tub 22 receives a supply of wash liquid, e.g., laundry detergent and water. The cabinet 21 includes a lid which is opened to access the tub 22 and which is closed to enclose the tub 22 within the cabinet 21.
The basket assembly 24 is partially disposed within the tub 22. As shown in FIGS. 2 and 4A-C, the basket assembly 24 includes a support bracket 36 and a basket 38 coupled to the support bracket 36. The basket 38 is hollow and receives a load of materials to be washed, e.g., laundry. The basket 38 is also referred to in industry as a wash basket.
The basket 38 has an axis A and a first end 54 and a second end 56 spaced along the axis A. The basket 38 includes a wall 52 extending between the first end 54 and the second end 56 defining a cavity 26 at the first end 54 for receiving laundry. The basket 38 is permeable, i.e., the cavity 26 is in fluid communication with the tub 22. Typically, the cavity 26 extends through the first end 54 and the second end 56, i.e., the basket 38 is open at both the first and second ends 54, 56; however, the basket 38 can be closed at the second end without departing from the nature of the present invention. The basket 38 is typically cylindrical. Typically, the basket 38 is formed of plastic or metal.
A motor (not shown) is typically disposed below the basket assembly 24 and is coupled to the support bracket 36. The motor rotates and/or oscillates the basket assembly 24 relative to the tub 22 to agitate the laundry and the wash liquid in the basket assembly 24.
As shown in
The basket assembly 24 is aligned in the tub 22 such that the cavity 26 of the basket assembly 24 is aligned with the opening 34 of the second tub half 30. As such, materials to be washed are loaded through the opening 34 of the second tub half 30 and into the cavity 26 of the basket when the lid is opened. The lid is typically closed for the washing process.
One embodiment of the support bracket 36 is shown in
The support bracket 36 is formed from a plastic material and specifically a thermoplastic material. Specifically, the support bracket 36 is formed from polyalkylene terephthalate such as polybutylene terephthalate (PBT). The polyalkylene terephthalate can be reinforced with fiber such as, for example, glass fibers. When reinforced with glass, the polyalkylene terephthalate typically comprises 30%-50% glass content. An example of a fiber reinforced PBT suitable for the support bracket 36 are those which are commercially available from BASF Corporation in Florham Park, N.J. under the tradenames Ultradur® B4330 G6 HR or Ultradur® B4330 G10 HR. Another example of a fiber reinforced PBT suitable for the support bracket 36 are those which are commercially available from BASF Corporation under the tradenames Ultradur® B4040 G6 HR or Ultradur® B4040 G10 HR. It should be appreciated that the support bracket 36 may be formed from any type of suitable plastic material without departing from the nature of the present invention. In any event, the material of the support bracket 36 is preferably hydrolysis resistant. The support bracket 36 is typically formed by plastic injection molding.
As shown in
The sleeve portion 46 defines a bore 48 and a drive rod 50 is mounted in and extends from the bore 48. The drive rod 50 extends through a throughhole of the first tub half 28 and engages the motor of the washing machine. Alternatively, the drive rod 50 is coupled to the motor with, for example, a system including at least one belt and pulley. The combination of the sleeve portion 46 and the base 40 distributes the stress on the support bracket 36 allowing the support bracket 36 to survive high loads resulting from the rotation of the drive rod 50. The base 40 of the support bracket 36 is designed with a sufficient depth such that the support bracket 36 can survive such high loads. In addition, the combination of the sleeve portion 46 and the base 40 decreases the weight and increases the cost effectiveness of the support bracket 36.
The drive rod 50 is press fit into the bore 48 of the sleeve portion 46. Alternatively, the drive rod 50 is insert molded with the sleeve portion 46. The insert molding process includes placing the drive rod 50 in a plastic injection mold and subsequently injecting the molten plastic into the mold about a portion of the drive rod 50. In any event, the drive rod 50 is engaged in the bore 48 of the sleeve portion 46 and the drive rod 50 and the sleeve portion 46 are immovable relative to each other.
As best shown in
As shown in
The attachment portions 60 are connected to the basket 38 to transfer rotation from the support bracket 36 to the basket 38 when the motor rotates the support bracket 36. For example, a fastener 66 extends through one of the basket 38 and the attachment portion 60 and into the other of the basket 38 and the attachment portion 60. In the embodiments shown in the Figures, each of the attachment portions 60 defines at least one hole 63 and the basket 38 defines at least one orifice 64 corresponding with the hole 63 in the attachment portion 60 such that orifice 64 can be aligned with the hole 63. The fastener 66 extends through orifice 64 and engages the corresponding hole 63. For example, the fastener 66 is a rivet or a threaded fastener such a screw.
The intermediate portions 58 typically abut the basket 38 for supporting the basket 38 to maintain the shape of the basket 38 when the basket 38 is rotated. Specifically, during rotation of the basket assembly 24, the laundry and the wash liquid exert centrifugal forces on the basket 38. The intermediate portions 58 limit or prevent the deformation of the basket 38 as the basket 38 is rotated.
The support bracket 36 typically covers the cavity 26 at the second end 56 of the basket 38 to support laundry that is loaded into the cavity 26. The attachment portions 60 and the intermediate portions 58 are at least partially disposed in the cavity 26 and are typically entirely disposed in the cavity 26. The attachment portions 60 extend toward the first end 54 of the basket 38 adjacent the basket 38.
The support bracket 36 has a plurality of fins 74 integrally extending from the front face 42 of the base 40 toward the first end 54 of the basket 38. The fins 74 are integral with the attachment portions 60 of the support bracket 36 for reinforcing the attachment portions 60. The fins 74 typically extend from the attachment portions 60 toward the axis A. The fins 74 also typically extend toward the axis A and intersect each other at the axis A.
The fins 74 support and reinforce the attachment portions 60 to increase the strength, stiffness, and durability of the support bracket 36 at the attachment portions 60. When the motor rotates the support bracket 36, the rotation is transferred from the support bracket 36 to the basket 38 at the attachment portions 60. This rotational transmission results in stresses at the attachment portions 60. The fins 74 reinforce the attachment portions 60 and distribute such stress to other parts of the base 40. In addition, the fins 74 assist in agitating the laundry and the wash liquid as the basket assembly 24 is rotated.
In addition to the fins 74, the basket assembly 24 may include an agitator (not shown), e.g., an auger, attached to the base 40 and extending from the front side 42 of the base 40. As best shown in
In the embodiment shown in
The outer walls 61 extend along the intermediate portions 58 between the attachment portions 60. The outer walls 61 are spaced from each other radially relative to the axis A defining a space 86 between adjacent outer walls 61. The space 86 extends radially relative to the axis A and outwardly from the attachment portion 60 relative to the axis A. The basket 38 extends across the space 86 from one channel 62 to another channel 62. The basket 38 is typically connected to the attachment portion 60 at the space 86.
As shown in
Each arm 76 defines at least one fastener hole 79 and the basket 38 defines at least one fastener orifice 78 corresponding with the fastener hole 79 in the arm 76 such that each fastener orifice 78 aligns with one of the fastener holes 79 when the basket 38 is mounted to the base 40. A fastener 66 extends through each of the fastener orifices 78 and engages the corresponding fastener hole 79. For example, the fastener 66 is a rivet or a threaded fastener such a screw. The arms 76 typically include reinforcing ribs 80.
The arms 76 reinforce the basket 38 to prevent deformation of the basket 38 as the basket assembly 24 is rotated. In addition, the arms 76 reinforce the attachment portions 60 by absorbing stress from the basket 38.
In the embodiment shown in
The flanges 84 abut the basket 38 for reinforcing the basket 38 to prevent deformation of the basket 38. In addition, the flanges 84 reinforce the attachment portions 60.
The invention has been described in an illustrative manner, and it is to be understood that the terminology which has been used is intended to be in the nature of words of description rather than of limitation. Obviously, many modifications and variations of the present invention are possible in light of the above teachings, and the invention may be practiced otherwise than as specifically described.
Number | Date | Country | Kind |
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60947170 | Jun 2007 | US | national |
The subject patent application claims priority to and all the benefits of U.S. Provisional Patent Application Ser. No. 60/947,170 which was filed on Jun. 29, 2007, the entire specification of which is expressly incorporated herein by reference.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP08/58013 | 6/24/2008 | WO | 00 | 6/7/2010 |