Patent Application
20200367648
The invention is directed to a domestic home appliance. More particularly, embodiments of the invention are directed to a securing mechanism that prevents disassociation of a drawer slide from a slide bracket in a domestic home appliance.
An example of an application for the invention is a domestic kitchen oven having a drawer that slides between an open position and a closed position.
Some modern domestic kitchens include cooking appliances such as ovens and ranges that have one or more drawers such as, for example, a warming drawer. The drawers are often mounted to the appliances by way of one or more slide mechanisms. The slide mechanisms allow the draw to move in and out of a space in the appliance. The slide mechanisms can become worn and/or their operation can be adversely affected by food or other debris becoming lodged in the mechanisms. As a result, non-destructive removal of the slide mechanisms for cleaning or replacement is advantageous.
Applicants recognized an improvement to the above arrangement and implement that improvement in embodiments of the invention.
The invention achieves the benefit of providing non-destructive removal of the slide mechanisms for cleaning or replacement while also providing secure mounting of the slide of the mechanism to the slide bracket of the mechanism. Some slides are removably attached to the slide bracket by one or more engagement portions on the slide that slidably engage one or more engagement portions on the slide bracket. With this type of attachment, the slide can undesirably detach from the slide bracket during, for example, shipping or due to some other jarring or outside force. For example, a drawer of a domestic home appliance can become dislodged from the main body of the appliance during shipping of the appliance due to the slide detaching from the slide bracket.
Embodiments of the invention address the above problem by providing a slide retainer on the slide bracket. The slide retainer prevents movement of a portion of the slide relative to the slide bracket, or at least limits movement of a portion of the slide relative to the slide bracket so that the slide cannot detach from the slide bracket.
Particular embodiments of the invention are directed to a domestic home appliance having a main body; a drawer that slides relative to the main body between an open position and a closed position; a slide bracket that is non-movably attached to the main body such that the slide bracket is positionally fixed relative to the main body when the slide bracket is in an operating position, the slide bracket having a first engagement portion; a slide having a first part having a second engagement portion, the first part being attached to the slide bracket by the second engagement portion slidably engaging the first engagement portion as the first part is moved in a first direction relative to slide bracket, and a second part that is non-movably attached to the drawer such that the second part is positionally fixed relative to the drawer when the second part is in an operating position, the second part moving in the first direction relative to the first part as the drawer slides from the closed position to the open position; and a slide retainer attached to the slide bracket and preventing the second part of the slide from moving in a second direction opposite to the first direction.
In some embodiments, the slide retainer comprises a plate-like portion, and the second part of the slide contacts the plate-like portion to prevent the second part of the slide from moving in the second direction.
In some embodiments, the first part of the slide is removable from the slide bracket by moving the first part of the slide in the second direction relative to the slide bracket when the slide retainer is detached from the slide bracket.
Other embodiments of the invention are directed to a drawer slide assembly for use with a domestic home appliance having a main body and a drawer that slides relative to the main body between an open position and a closed position. The assembly includes a slide bracket configured to be non-movably attached to the main body such that the slide bracket is positionally fixed relative to the main body when the slide bracket is in an operating position, the slide bracket having a first engagement portion; a slide having a first part having a second engagement portion, the first part being attached to the slide bracket by the second engagement portion slidably engaging the first engagement portion as the first part is moved in a first direction relative to slide bracket, and a second part configured to be non-movably attached to the drawer such that the second part is positionally fixed relative to the drawer when the second part is in an operating position, the second part moving in the first direction relative to the first part; and a slide retainer attached to the slide bracket and preventing the second part of the slide from moving in a second direction opposite to the first direction.
Some embodiments further comprise a slide stop at a front end of the second part of the slide, the front end being located opposite the back end, and the slide stop contacts the first part of the slide simultaneously with the back end of the second part of the slide contacting the slide retainer.
Some embodiments further comprise a slide stop at a front end of the second part of the slide, the front end being located opposite the back end, and contact between the slide stop and the first part of the slide is prevented by the back end of the second part of the slide contacting the slide retainer.
The following figures form part of the present specification and are included to further demonstrate certain aspects of the disclosed features and functions, and should not be used to limit or define the disclosed features and functions. Consequently, a more complete understanding of the exemplary embodiments and further features and advantages thereof may be acquired by referring to the following description taken in conjunction with the accompanying drawings, wherein:
The invention is described herein with reference to the accompanying drawings in which exemplary embodiments of the invention are shown. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.
As explained above, embodiments of the invention provide an improvement to a domestic oven or other domestic home appliance.
As stated above, the slide assemblies can become worn and/or their operation can be adversely affected by food or other debris becoming lodged in the assemblies. As a result, non-destructive removal of the slide assemblies, or a portion thereof, for cleaning or replacement is advantageous.
In some cases, a drawer can become dislodged from an appliance during shipping of the appliance. This can be due to a slide separating from a slide bracket. Such separating during shipping, or during use, can result in a service call from the end user. Embodiments of the invention help limit or prevent such service calls.
When drawer 30 is moved to a fully open position (in direction A), force can be transmitted in direction A from second part 310 to first part 320. This force will tend to push lances 340 more tightly into openings 220 and, therefore, keep first part 320 securely attached to slide bracket 200. An opposite force can be applied to the connection between lances 340 and openings 220 when drawer 30 is moved from an open position to the closed position (in direction B).
When drawer 30 is moved from an open position to the closed position and/or when drawer 30 is jarred (during shipping of appliance 10, for example), force can be transmitted in direction B from second part 310 to first part 320. Without features of the invention, this force could tend to push lances 340 out of engagement with openings 220 and, therefore, result in first part 320 becoming dislodged from slide bracket 200. To prevent this undesirable disassociation of first part 320 and slide bracket 200, slide retainer 400 is provided as a stop to limit the movement of second part 310 of slide 300 in direction B.
When drawer 30 is moved to the closed position and/or when drawer 30 is jarred, an end 350 of second part 310 contacts a plate-like portion (in this example) of slide retainer 400 and limits the movement of second part 310 in direction B. By limiting the movement of second part 310 in direction B, little or no force in direction B is transmitted to first part 300 and, as a result, little or no force in direction B is transmitted to lances 340. In this manner, slide retainer 400 prevents, or at least greatly reduces the chance of, slide 300 being dislodged from slide bracket 200.
In order to allow the assembly of lances 340 into openings 220 discussed above, slide retainer 400 is removably attached to slide bracket 200 with, in this example, a screw 440. During attachment of slide retainer 400 to slide bracket 200, a front flange 430 is inserted into a slot in slide bracket 200 and screw 440 is inserted though a hole in slide bracket 200 and threaded into front flange 430. By locating front flange 430 below slide bracket 200, front flange 430 is less likely to be separated from slide bracket 200 by force in direction B. In this example, two rear flanges 420 extend from plate-like portion 410 and rest on slide bracket 200 to provide additional resistance to plate-like portion 410 bending under forces in direction B.
Slide 300 is assembled to slide bracket 200 before slide retainer 400 is attached to slide bracket 200. This allows slide 300 to be positioned above slide bracket 200 and moved in direction A to engage lances 340 in openings 220. After lances 340 are fully engaged in openings 220, slide retainer 400 is attached to slide bracket 200 and movement of second part 310 of slide 300 in direction B is prevented.
In some embodiments, slide stop 365 is prevented from contacting first part 320 by end 350 of second part 310 contacting slide retainer 400. In such embodiments, slide retainer 400 prevents any force in direction B from being directly transmitted from slide stop 365 to first part 320. Such a transmission of force could be undesirable because it could cause lances 340 to become dislodged from openings 220.
In some embodiments, slide stop 365 contacts first part 320 simultaneously with end 350 of second part 310 contacting slide retainer 400. In such embodiments, slide retainer 400 prevents any movement in direction B of first part 320 by slide stop 365.
The Figs. show various protrusions, clips, and fastener holes for attaching drawer 30 to second part 310 of slide 300. It is noted that more or fewer of these, and/or other, attachment features can be used.
It will be appreciated that variants of the above-disclosed and other features and functions, or alternatives thereof, may be combined into many other different systems or applications. Any of the features described above can be combined with any other feature described above as long as the combined features are not mutually exclusive. Various presently unforeseen or unanticipated alternatives, modifications, variations or improvements therein may be subsequently made by those skilled in the art which are also intended to be encompassed by the invention.
