Patent Grant
8283611
The present invention relates to a hinge for a household appliance, for instance a toaster oven, a dishwasher or the like, whereby the door is pivotable about a horizontal axis from an upright closed position into a horizontal open position.
For use in horizontally pivoted oven doors, hinges typically include a counterweight or recoil spring arrangement for supporting the weight of the door when opening, for instance in an equilibrium position, shortly before reaching the closing position of the door, and afterwards for holding the door closed. These arrangements avoid as far as possible large forces that would otherwise result from uncontrolled opening of the door.
Bench top toaster ovens are well suited for toasting and reheating tasks, but can also be used for baking and grilling. Being small in size such ovens are portable and can be accommodated in any kitchen, while also offering ease of use and cleaning. In toaster ovens there remains a need for a hinge which improves the course of motion when opening or closing a door, in particular within the end position ranges. However, the relatively complex hinge arrangements used on conventional ovens cannot be justified because the doors of toaster ovens are relatively lighter, and because they must achieve a substantially lower manufactured cost. In many toaster ovens a pair of tension-type coil springs is used to bias the door closed, and each spring, mounted as it is in the housing at either side of the door, requires significant space which compromises the ability to provide a more compact oven. It is an object of the present invention address the above need or more generally to provide an improved hinge for a horizontally pivoted door on a household appliance.
According to one aspect of the present invention there is provided a hinge assembly for mounting a door to the body of a household appliance, including:
Preferably the body-mounting bracket is formed of sheet metal and the abutment comprises a rivet fastened to the body-mounting bracket. Alternatively, the abutment may be integral with the body-mounting bracket.
Preferably the second end of the stay bar is hook-shaped and the stop face is formed on the hooked part.
Preferably the spring comprises a torsion spring having a helical section receiving a fastener by which the spring is mounted to the body-mounting bracket.
Preferably a crook portion is provided on the end of the arm and the first surface is slidingly received in the crook portion.
Preferably the second surface further includes a concavity adjacent the detent recess, the abutment being received in the concavity when the door is in its closed position.
This invention provides a compact, space-efficient hinge assembly which is effective and efficient in operational use, and which has an overall simple design which minimizes manufacturing costs making it particularly suited to application in products such as toaster ovens.
Preferred forms of the present invention will now be described by way of example with reference to the accompanying drawings, wherein:
a is a side view of the hinge assembly of
b and 3c show views corresponding to
Referring to the drawings, a toaster oven has a body 10 of a generally rectangular prismatic shape with a front opening 11 closed by a door 12. The door 12 is mounted by a pair of hinge assemblies 13 fixed to the lower part of the body 10 on either side of the opening 11 providing a horizontal pivot axis allowing the door to swing upwardly from its horizontal open position (shown in
Each hinge assembly 13 includes a door-mounting bracket 14, body-mounting bracket 15, a stay bar 16 and a torsion spring 17.
The door-mounting bracket 14 is mounted as by fasteners (not shown) near a corner of the door 12 and includes an aperture 18 for receiving a horizontal hinge pin 19. The hinge pin 19 engages a hinge part (not shown) fixed to the body 10, the hinge part, door-mounting bracket 14 and hinge pin 19 hingedly mounting the door 12. The door-mounting bracket 14 further includes a circular opening 20 offset inwardly of the plane of the door.
The body-mounting bracket 15 has a sheet metal portion 21 fastened against the upright wall forming the side of the body 10. Optionally, the bracket 15 may be integral with the side wall of the body. An abutment 22 is fastened to the body-mounting bracket 15. A fastener 23, is fixed to the body-mounting bracket 15, offset below and rearwardly of the abutment 22. In the embodiment illustrated, both the abutment 22 and fastener 23 are provided by like rivets extending outwardly from the portion 21, each having an outermost enlarged head. An integral tab 24 projects from a lower edge of the portion 21. Body-mounting brackets 15 for mounting on opposing sides of the body are mirror images of one another.
The stay bar 16 has a first elongate edge 25 opposite a second elongate edge 26, both edges 25, 26 extending between longitudinally opposing first and second ends 27 and 28. The first end 27 has an aperture 29 and a pin 30 through the apertures 20, 29 pivotally connects the stay bar 16 to the door-mounting bracket 14. Formed in the second edge 26 proximate the first end 27 is a concavity 31, longitudinally spaced from which is a detent recess 31. The concavity 31 and detent recess 31 form a continuous curve in the second edge 26. The second end 28 of the stay bar is hook-shaped and a stop face 33 is formed on the hooked part, projecting from the first edge 25. Near the middle of the first elongate edge 25 is a notch 40, spaced apart from the stop face 33 by a preferably linear section of the edge 25.
The torsion spring 17 has a helical section 34 receiving the fastener 23 by which it is connected to the body-mounting bracket 15. The spring 17 has an arm 35 with upwardly opening crook portion 36 on its end in which the first edge 25 is received. A leg 37 of the spring 17, at the opposing end to the arm 35, abuts the tab 24.
In use, with the door in the open position the hinge serves to support the weight of the door, resiliently supporting it in a generally horizontal alignment. The arm 35 resiliently engages the first edge 25 to apply a torque to the stay bar 16, urging the second edge 26 into engagement with the abutment 22. In the illustrated open position, the arm 35, specifically its crook portion 36, contacts the stop face 33 to hold the door in position. When the weight of the door is supported in this manner by the hinge, the load applied by the weight of the door 12 superimposes a tensile stress upon the bending stress predominating in the arm 35 up until that point. In this open position, abutment 22 becomes separated from the second edge 26. As the door 12 is rotated from this generally horizontal first open position toward its upright closed position, the abutment 22 and second edge 26 make contact and then maintain sliding contact, due to the torque applied by the spring 17. When the door 12 is rotated to a second open position 12′ about 15 degrees away from its closed position (as shown in
Aspects of the present invention have been described by way of example only and it should be appreciated that modifications and additions may be made thereto without departing from the scope thereof.
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| Number | Date | Country | |
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| 20110095014 A1 | Apr 2011 | US |
