Patent Grant
11866970
The present disclosure relates to a hinge spacer and, more particularly, to a hinge spacer that receives a shaft of a slow close hinge for laundry machines or the like.
In current fabric treatment machines, slow close hinges require the shaft to be held in place so that the slow close mechanism can operate. If the shaft is inserted directly into a hole in the metal top panel, the connection is not strong enough to resist the high torque over the life of the unit. Additionally, the metal on metal contact will be noisy and will equate to a low quality experience for the customer.
Current styles of slow close hinges are secured into the top panel on its bottom side. This requires an additional component to connect the hinge mechanism to the lid. This type of hinge is more expensive and requires more assembly steps and also cannot be positioned inside the lid assembly. Alternatively, some machines utilize a plastic top panel. The plastic top panels can be built with posts for the hinge interface that provides the same functions. However, plastic top panels are more expensive than metal panels.
Accordingly, it would be desirable to eliminate the shortcomings of the prior art. The present disclosure provides a hinge spacer that is press fit into the top panel. The spacer includes a hole so that the shaft can be keyed and held in place to provide the slow close function. The spacer is manufactured from plastic materials that can withstand the high torque created by the slow close hinges. The spacers provide a location function to eliminate missed securement of the spacer within the panel.
According to the present disclosure, a fabric treatment machine comprises a cabinet housing with a door or lid to enable access inside the cabinet. The fabric treatment components are positioned inside the cabinet and includes a drum, tub, and the like. A panel on the housing includes an opening to receive the door. At least one hinge spacer is coupled with the panel to receive a shaft of a slow close hinge of the door. The at least one hinge spacer includes a housing with a socket portion and a flange portion. The socket portion inserts into an aperture in the panel. The socket portion includes a parallelogram bore to receive a mating hinge shaft. The hinge shaft has at least one flat surface. The flange portion covers the panel aperture around the shaft.
The spacer housing has an elongated configuration with two ends. The bore is positioned at one of the ends. The spacer housing includes a positioning rib adjacent to the bore. The housing is manufactured from a plastic material such as PA66 with a high glass percentage. Two spacers are provided, one for each side of the door or lid. The two spacers are mirror images of one another and include a slanted surface to enable a pokayoke to prevent incorrect assembly.
A hinge spacer for a fabric treatment machine comprising a housing having a socket portion and a flange portion. The socket portion is for insertion into an aperture on a panel. The socket portion includes a parallelogram bore to receive a mating hinge shaft. The hinge shaft has at least one flat surface. The flange portion is designed to cover the aperture around the socket.
Further areas of applicability will become apparent from the description provided herein. The description and specific examples in this summary are intended for purposes of illustration only and are not intended to limit the scope of the present disclosure.
The drawings described herein are for illustrative purposes only of selected embodiments and not all possible implementations, and are not intended to limit the scope of the present disclosure.
Turning to the figures, a fabric treatment machine is illustrated and designated with the reference numeral 10. The machine 10 includes a housing 12 that houses the treatment components such as a drum 14, a tub, washing circuit, or drying circuit or both. A top panel 16 includes an opening 18 to enable access into the drum 14. A door or lid 20 covers the opening 18.
The lid 20 includes a slow closing hinge 22 that includes a shaft 24. The shaft 24 is positioned into a hinge spacer 30. The hinge spacer 30 is secured in the panel 16 via an interference fit.
The hinge spacer 30 has an overall oblong shape. The hinge spacer 30 includes a socket 32 and a flange 34. The socket 32 includes a plurality of barbs 36 that contact the opening or aperture in the panel 16 to retain the hinge spacer 30 within the panel 16. The socket 32 includes a bore 38. The bore 38 is positioned on one end of the hinge spacer 30. The bore 38 has a parallelogram, preferably rectangular, shape to enable the hinge shaft 24 to be keyed and held in place to provide the slow close function. The bore 38 includes at least one flat wall that receives a mating flat wall of the shaft 24. Preferably, the bore includes two flat walls that mate with two flat walls on the hinge shaft 24.
The bore 38 is positioned at one end of the hinge spacer 30. Accordingly, this enables the plastic of the hinge spacer 30 to include a large contact surface to transmit the torque into the top panel 16. This also enables the hinge spacers 30 to be pokayoked so that the left and right sides are mirror images of each other and cannot be assembled incorrectly. The pokayoked is accomplished with a slanted surface 39 on a front of the hinge spacers 30.
A ledge 40 extends from the front of the hinge spacers 30 near the flange 34. The ledge 40 provides a seat for the hinge shaft 24. The ledge 40 is positioned at a bottom edge of the bore 38 such that it provides a surface to guide the insertion of the hinge shaft 24 into the bore 38. The ledge 40 helps to locate the lid 20 from left to right. It also provides a more consistent gap between the lid 20 and the top panel 16 as well as less side-to-side freedom of movement for the lid 20.
The flange 34 coves the opening in the panel 16. Thus, once the socket is pressed into the panel, the flange abuts the panel surface.
The hinge spacer 30 is manufactured from a plastic material. Generally, it is manufactured from a PA66 or PA6 material with a high glass fill percentage of about 40% to 60%. This provides toughness and withstands the high torque created by the hinge when it is moving during its slow close function. Additionally, the material is less brittle than other material options with high toughness. Thus, the hinge spacer 30 will be able to withstand higher loads without cracking. Also, the hinge spacer 30 will be able to withstand more lid opening and closing cycles.
The foregoing description of the embodiments has been provided for purposes of illustration and description. It is not intended to be exhaustive or to limit the disclosure. Individual elements or features of a particular embodiment are generally not limited to that particular embodiment, but, where applicable, are interchangeable and can be used in a selected embodiment, even if not specifically shown or described. The same may also be varied in many ways. Such variations are not to be regarded as a departure from the disclosure, and all such modifications are intended to be included within the scope of the disclosure.
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| Number | Date | Country | |
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| 20220178184 A1 | Jun 2022 | US |
