Conventional domestic cooking ovens include a door assembly which provides selective access to a cooking cavity where food items can be placed to cook. The door assembly typically includes one or more glass panels to provide a viewing window for a user to view the food items within the cooking chamber without opening the door. The size of the viewing window is often limited by the dimensions of the various components of the door assembly. The door assembly can also be provided with insulation to minimize the amount of heat transferred from the cooking cavity to outside surfaces of the door assembly during a cooking cycle to minimize the chance of injury during contact between a user and the outside surfaces of the door. The insulation and framing used to hold the insulation in place can increase the cost of manufacturing the door assembly and also restrict the size of the viewing window.
A door assembly for an oven comprises an inner frame having a flange defining an opening, a first glass panel having a first pair of opposing sides and a second pair of opposing sides and a first pair of brackets coupled with the inner frame and compressively retaining the first pair of opposing sides of the first glass panel against the flange while the second pair of opposing sides is not compressively retained by the first pair of brackets.
In the drawings:
The door assembly 12 can include an outer frame 16 and a handle 18. The outer frame 12 can include a plurality of vents 20 and an opening 22 through which an outer glass panel 24 is visible. Referring now to
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Each of the outer brackets 42 may also include a pair of apertures 72 that align with a third set of inner bracket apertures 74 for coupling the outer bracket 42 and the inner bracket 40 with mechanical fasteners. The outer frame 16 may include a set of apertures 80 that align with a set of apertures 82 in the handle mounting bracket 44 for coupling the handle 18 with the with the outer frame 16.
It will be understood that the embodiments of the invention are not limited to the position and number of coupling apertures and mechanical fasteners illustrated in
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When the oven 10 is in use, the heated cooking cavity 14 heats the adjacent components of the door assembly 12, particularly the inner frame 30 and the inner glass panel 36, which are in direct communication with the cooking cavity 14. Air in the air gap 110 can insulate the outer glass panel 24 from heat emanating from the inner glass panel 36 and also provide a cooling effect as air external to the cooking cavity 14 is drawn through the air gap 110 and exhausted through the vents 20. As the inner glass panel 36 is heated, air may be drawn into the air gap 110 via a chimney effect. The oven 10 may also be provided with a fan to force air through the air gap 110. In this manner, the outer frame 16 and outer glass panel 24 can be kept relatively cool even when the cooking cavity 14 is being heated during a cooking cycle, thus decreasing the risk of a burn injury as a result of contact with the outer frame 16 or the outer glass panel 24.
Typically, ovens include insulation packed between the outer frame and the inner frame of the door assembly to keep the outside of the door assembly relatively cool during use of the oven. The insulation can take up a lot of valuable space in the door assembly and also require structural components to mount and maintain the insulation within the door assembly. Because the oven 10 described herein utilizes air flow to cool the outer components of the door assembly 12, the door assembly 12 does not include any additional insulation and thus does not require an insulation mounting frame, which can decrease the cost of the door assembly 12 in terms of labor and materials.
In addition, the use of a pair of inner brackets 40 for mounting the outer and inner glass panels 24 and 36 rather than a frame that encompasses the entire glass panel utilizes less space within the door assembly 12 and can also provide cost savings in terms of installation time and materials compared to a full size frame. The compression of the inner glass panel 36 against the inner frame flange 34 of the inner frame 30 by the compression flanges 98 of the inner bracket 40 without the use of additional gaskets or seals can provide additional cost savings.
Furthermore, because the inner brackets 40 do not take up a lot of space within the door assembly 12, the inner brackets 40 can be used with door assemblies which maximize the size of the viewing window for providing a user with a view of the contents of the cooking chamber 14. For example,
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The handle assembly 218 is used to mount the outer glass panel 224 adjacent the second leg 292 of the inner bracket 240 without the use of the outer brackets 42 of the door assembly 12. In this manner, when the door assembly 212 is assembled, the air gap between the outer glass panel 224 and inner glass panel 236 and partially defined by the first leg 290 of the inner bracket 240 is still present. Air can flow between the outer glass panel 224 and the inner glass panel 236 and exhaust through the vents 220 in the handle assembly 218.
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The embodiments described herein provide for an oven door assembly having inner and outer glass panels separated by an air gap through which air can flow to insulate and cool the outer glass panel. The door assembly includes a pair of inner brackets that compressively retain the inner glass panel against the inner frame of the door assembly without the use of additional seals or gaskets. In addition, the use of a pair of inner brackets rather than a traditional frame which is used to mount the inner glass panel or to secure insulation within the door assembly provides cost savings in terms of installation labor and materials costs. The inner brackets partially define the air gap between the inner and outer glass panels and provide a mounting system which can be used with a variety of outer frame components. The minimal space utilized by the pair of inner brackets compared with a traditional mounting frame also allows for door assemblies having larger viewing windows.
To the extent not already described, the different features and structures of the various embodiments may be used in combination with each other as desired. That one feature may not be illustrated in all of the embodiments is not meant to be construed that it cannot be, but is done for brevity of description. Thus, the various features of the different embodiments may be mixed and matched as desired to form new embodiments, whether or not the new embodiments are expressly described.
While the invention has been specifically described in connection with certain specific embodiments thereof, it is to be understood that this is by way of illustration and not of limitation. Reasonable variation and modification are possible within the scope of the forgoing disclosure and drawings without departing from the spirit of the invention which is defined in the appended claims.
This application is a continuation of U.S. patent application Ser. No. 13/680,439 filed Nov. 19, 2012, now U.S. Pat. No. 10,495,305, issued Dec. 3, 2019, which is incorporated herein in its entirety.
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Number | Date | Country | |
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20200088405 A1 | Mar 2020 | US |
Number | Date | Country | |
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Parent | 13680439 | Nov 2012 | US |
Child | 16689667 | US |