Hinges for top-loading appliances such as washing machines and dryers may include or be operatively connected to a counterbalance assembly that provides a desired counterbalance effect such that the lid/door requires no more than a select amount of force to open, stays open without external support when fully opened, self-closes by gravity without harsh slamming against the appliance body when the lid/door is moved to a select partially closed position, and remains closed during normal operating conditions of the appliance. The counterbalance assembly must fit in a limited area and be designed to operate even after prolonged and repeated exposure to water, soap, bleach, heat, etc. A need has been identified for a new and improved appliance lid/door hinge counterbalance assembly that meets the above-noted design requirements while providing structural and/or functional advantages over known designs.
In accordance with one aspect of the present disclosure, a counterbalance assembly for an appliance hinge includes a base including first and second spaced-apart side walls and a transverse face wall. The base includes: (i) a channel located between the first and second side walls; and, (ii) a notch comprising first and second notch portions respectively located in said first and second side walls. A rotating cam is supported on the base. The cam includes: (i) a camshaft that extends between the side walls and that is adapted for rotation about an axis of rotation, with a first end of the camshaft located in the first notch portion and a second end of the camshaft located in the second notch portion; and, (ii) a lobe that projects from the camshaft. The counterbalance assembly includes a biasing spring that comprises an inner end engaged with the base and an outer end spaced from the base. The spring is located outside the channel. A spring rod includes an outer end operatively coupled to the spring and an inner end operatively coupled to the lobe of the cam such that the spring biases the spring rod to an extended position. In accordance with another aspect of the disclosure, a snubber or damper assembly is used to provide additional damping to the counterbalance assembly.
In accordance with another aspect of the disclosure, a counterbalance assembly for an appliance hinge has a base including first and second spaced-apart side walls and a transverse face wall, the base including: (i) a channel located between the first and second side walls; and, (ii) first and second slot portions respectively located in the first and second side walls. A rotating cam is supported on the base and cam includes: a camshaft that extends between the side walls and that is adapted for rotation about an axis of rotation. The camshaft comprises a first end located in the first slot portion and a second end located in the second slot portion; and a lobe that projects from the camshaft. A biasing spring has an inner end engaged with the base and an outer end spaced from the base. The spring is also located outside the channel. A spring rod has an outer end operatively coupled to the spring and an inner end operatively coupled to the lobe of the cam such that the spring biases the spring rod to an extended position. A damper assembly includes a lever or link pivotably connected to the spring rod and the lobe of the cam and a piston assembly connected to the base wherein a portion of the piston is moved by the lever between two positions corresponding to lid open and lid closed positions.
Other aspects of the disclosure will be apparent upon a reading and understanding of the following detailed description.
Referring to
In accordance with one aspect of the disclosure, the counterbalance assembly 10 comprises a base 12 defined from a one-piece metal stamping or a multi-piece assembly of metal or other components or other like structure. The base 12 includes first and second longitudinally extending, parallel and spaced-apart side walls 12a, 12b that typically lie in respective vertical planes when the counterbalance assembly 10 is operatively connected to a washer or other top-loading appliance. A channel 14 is defined between the side walls 12a, 12b and is closed at one end by a transverse face wall 12c. The base 12 also includes a top wall 12d that extends between the side walls 12a, 12b. The base 12 further includes at least one mounting tab 12e or other mounting structure adapted to be secured to an appliance body using one or more fasteners such as screws or rivets, or by a weld or other means.
A rotating cam 20 is operably supported on the base 12 and includes a cylindrical camshaft 22 that extends between the side walls 12a, 12b through the channel 14 and that is adapted for rotation about its longitudinal axis of rotation X (
At least one or both opposite ends 22a, 22b of the camshaft 22 are adapted to be connected to an associated wire-form or other associated appliance lid/door mounting hinge arm 30 (shown in broken lines in
The counterbalance assembly 10 further includes a biasing spring 40 operatively connected/coupled to the rotating cam 20 for controlling rotational movement of the cam. In the illustrated embodiment, the spring 40 is a helical coil spring having an outer end 40a spaced from the base face wall 12c, external to the channel 14, and an opposite inner end 40b operably abutted or otherwise engaged with the face wall 12c or other part of the base 12 (via direct abutment or indirect abutment through a thrust washer or the like). A spring rod 42 extends coaxially through the spring 40, and an outer end 42a of the spring rod is operatively engaged/coupled to the outer end of the spring 40a, e.g., by deforming the outer end 42a of the spring rod and/or by including a washer or other enlarged member or portion on the outer end 42a of the spring rod 42, so that the outer end 42a cannot pass through the hollow core region or inside diameter of the spring 40. The spring rod 42 also extends through an opening in the face wall 12c of the base 12 such that an inner end 42b of the spring rod is located in the channel 14. The inner end 42b of the spring rod is operatively coupled to the rotating cam 20 through a connecting link 50. As shown in
With continuing reference to
Referring to
In the illustrated embodiment, the inner end 42b of the spring rod is pivotally connected to the end 50b of the connecting link 50 by a rivet or other pivot fastener 54. The first and second body side walls 12a, 12b include respective first and second elongated slots 13a, 13b that are aligned with each other, and the pivot fastener 54 is slidably engaged in at least one and preferably both of the slots 13a, 13b. As shown, the pivot fastener 54 includes opposite first and second ends that are respectively slidably engaged with the first and second elongated slots 13a, 13b. The sliding engagement of the fastener 54 in the slots 13a, 13b serves to stabilize and control movement of the spring rod 42 and cam 20 and limits the maximum inward and outward sliding movement of the spring rod 42 in the directions L1 and L2 (and thus limits the angular rotation of the cam 20 in the directions A1 and A2).
As shown in
A snubber is typically a mechanical device which allows for movement in tension and compression while acting as a damper to absorb dynamic energy and transfer it to the supporting structure. The snubber 270 preferably comprises a housing 272 and a piston assembly 274 that extends and retracts relative to the housing 272. Preferably, the piston assembly 274 is a fluid (liquid or gas) damper. The snubber or damper housing 272 can be fabricated of thermoplastic or other suitable material which is riveted or otherwise fastened onto channel base 212. Rivets such as shoulder rivet 276 can be used to fasten the housing 272 to the base. A channel or groove or recess 277 is formed in the housing to accommodate the rivet 276 and to attach and fasten the snubber housing. However, any suitable means or configuration for fastening the snubber housing to the base is also contemplated by the disclosure.
The piston assembly includes an internal piston spring 292 such as a helical coil spring and internal fluid (such as oil, gas or air) within an internal opening or chamber 294 of the piston assembly. The internal spring 292 biases the piston 274 toward its extended position shown in
During assembly, piston assembly 274 is inserted into opening 302 of the damper housing by first inserting rod 299 into opening 302 until a first end of the rod 299 contacts or abuts one of the shoulder rivets 276 positioned within and through the housing 272. A second opposite end of the rod 299 extends through an opening formed through end wall 300 of piston 274. Piston 274 remains biased to its extended position by spring 292 which extends between opposite walls 284 of the piston and 296 of the piston rod.
Pivot fastener 254 of a lever 260 is slidably engaged within the slots 213a, 213b of the base that constrain the fastener's movement to a reciprocal linear path within the slots. Engagement lever or tab or link 260 is attached to the spring rod 242 via pin or pivot fastener 254 which slides along slots or grooves 213a, 213b formed on opposite sides of the channel housing or base. The link 260 also moves in a linear path as the pivot fastener 254 slides within slots 213a, 213b. However, the link 260 can also pivot or rotate slightly as seen in
As lobe 224 rotates or pivots clockwise from a closed position (
Referring now to
Within the piston 274 is helical coil spring 292 which is positioned within cavity or opening 294 formed in the piston body which biases the end of the piston to an external position outside of the snubber/damper housing 272. As the link 260 pushes on the external piston wall 284, the piston moves or slides inwardly along and over rod 299 until the closed position is reached (see
Referring now to
Referring to
Other variations on the damper assembly may include conventional mechanical springs, gas springs, fluid springs or elastomeric material, such as a compressible rubber member, etc. Also, a second damper assembly can be added to an opposite end of the hinge assembly if further damper is needed or required. The claims, as originally presented and as they may be amended, encompass variations, alternatives, modifications, improvements, equivalents, and substantial equivalents of the embodiments and teachings disclosed herein, including those that are presently unforeseen or unappreciated, and that, for example, may arise from applicants/patentees and others.
This application claims priority from and benefit of the filing date of U.S. Provisional Patent Application Ser. No. 61/826,674, filed on May 23, 2013, and the entire disclosure of the provisional application is hereby expressly incorporated by reference into the present specification.
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