The invention relates generally to oven assemblies and methods for providing a plurality of heated blanks, including methods and assemblies used to warm or hot form aluminum parts in a production line.
Warm or hot forming is oftentimes used to manufacture aluminum parts for automotive vehicles, such as structural body or chassis components. The process typically includes heating an aluminum blank in an oven, and then transferring the heated blank to one or more forming stations in a production line, for example a stamping or press line, to form the blank into a part having a desired shape. Warm forming typically occurs while the aluminum blank is at temperatures of 150 to 400° C., and hot forming typically occurs at temperatures greater than 400° C.
Disposing an oven or other heating device in an existing production line is oftentimes challenging due to limited space. It is especially challenging to maintain the required throughputs when the production line is used for both room temperature forming and warm forming. Oftentimes, the oven used for warm forming is placed next to the production line. In this case, transferring the heated blanks from the oven to the production line increases the cycle time and causes an undesirable loss in thermal energy. The oven also takes up limited floor space and is difficult to move to a different production line, if the need arises. Thus, in some cases, warm or hot forming in a production line may not be a viable option.
The invention provides a multi-opening oven assembly for simultaneously heating a plurality of blanks, for example prior to warm or hot forming aluminum blanks in a production line. The multi-opening oven assembly includes shelves aligned vertically relative to one another to provide a plurality of chambers for heating the blanks. An entry side opening is located along one side of each chamber, and an exit side opening is located on the opposite side of each chamber. A table with a rail system moves vertically along the shelves for conveying the blanks in and out of the chambers. The table includes an entry side platform for feeding the blanks into the adjacent chamber and an exit side platform for receiving the blanks once they exit the chamber. The invention also provides a production line including the multi-opening oven assembly.
The invention further provides a method for simultaneously heating a plurality of blanks using the multi-opening oven assembly. The method includes disposing at least one blank on the rail system of the entry side platform to convey the at least one blank into a first one of the chambers, and heating the at least one blank in the first chamber. The method then includes moving the table vertically along the shelves to align the table with a second one of the chambers, and disposing at least blank on the rail system of the entry side platform to convey the at least one blank into the second chamber while heating the at least one blank in the first chamber. The method further includes moving the table vertically back to the first chamber to receive the at least one heated blank after the heating step is complete.
The multi-opening oven assembly of the present invention provides numerous advantages, especially when used in an existing production line, for example to warm form aluminum parts. First, due to the number of chambers, the multi-opening oven assembly simultaneously heats numerous blanks from room temperature to an appropriate operating temperature, and thus can continuously provide heated blanks which can be immediately transferred to a forming station. The multi-opening oven assembly is preferably disposed in an existing production line, so that the heated blanks can be quickly transferred from the exit side platform to the first forming station, which decreases the cycle time of the process, energy loss, and other costs associated with transferring the blanks. The continuous supply of heated blanks in the production line provides a high throughput process. The blanks can also be heated to different temperatures and/or for different durations of time in the multi-opening oven by using the numerous chambers. The multi-opening oven assembly is preferably disposed inside of a press of the existing production line to provide a compact design, so that no additional floor space is required. If needed, the multi-opening oven assembly can also be quickly and easily moved to another production line using a rolling bolster. The multi-opening oven assembly can be designed to work with de-stacking units, robots, lubrication systems, automation, and other features of exiting production lines. The table and rail system can also be designed to automatically self-feed the blanks into the chambers.
Other advantages of the present invention will be readily appreciated, as the same becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings wherein:
The invention provides a multi-window oven assembly 20 for simultaneously heating a plurality of metal blanks in a production line, as shown in
As best shown in
As best shown in
The multi-window oven assembly 20 includes a plurality of openings 28, 30 for access to the chambers 24. Each chamber 24 includes an entry side opening 28 located along one side of the assembly 20 and an exit side opening 30 located on the opposite side of the assembly 20.
The multi-window oven assembly 20 also includes a table 32 with a conveyor, such as a rail system for conveying unheated blanks to the chambers 24 and transferring heated blanks out of the chambers 24. In the example embodiments, the table 32 includes an entry side platform 36 for feeding the unheated blanks into one adjacent chamber 24 and an exit side platform 38 for receiving and holding the blanks once they exit the adjacent chamber 24. The platforms 36, 38 each present a rectangular shape and are disposed parallel to the shelves 22 during operation.
The rail system of the example embodiments includes a plurality of tracks 34 disposed parallel to one another. The tracks 34 extend along the entry side platform 36, along the shelves 22 of the chambers 24, and along the exit side platform 38. Each shelf 22 and each platform 36, 38 include the plurality of tracks 34. In the example embodiment, wherein each shelf 22 presents a pair of chambers 24a, 24b, only the middle platen 22b and the lower platen 22c include the tracks 34. The rail system is designed to automatically or self-feed the unheated blanks into the chambers 24 and convey the heated blanks out of the chambers 24. Robots 40 are typically used to place the unheated blanks on the entry side platform 36 and remove the heated blanks from the exit side platform 38.
The platforms 36, 38 can pivot and rest against the shelves 22, for example when the oven assembly 20 is in storage, or during a pre-heating step, as shown in
The location of the table 32 along the multi-opening oven assembly 20 can be automated or controlled manually. The order and timing of feeding the unheated blanks to the chambers 24 and removing the heated blanks from the chambers 24 can be adjusted as desired, depending on the desired heating times, temperatures, and number of blanks needed during operation. The moving table 32 works with the multiple chambers 24 to continuously supply heated blanks and achieve a high throughput process.
The multi-window oven assembly 20 also includes at least one heating device for heating the blanks, for example one heating device located in each of the chambers 24. Any type of heating device can be incorporated into the multi-window oven assembly 20. The heating devices can be used to heat the chambers 24 to different temperatures, or for different durations of time, if desired. In the example embodiment, the heating device is provided by a plurality of heating tubes 48 which extend through each of the platens 22a, 22b, 22c.
In an example embodiment shown in
As shown in the example embodiments of
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Many modifications and variations of the present invention are possible in light of the above teachings and may be practiced otherwise than as specifically described while within the scope of the invention.
This U.S. Patent Application claims the benefit of U.S. Provisional Patent Application Ser. No. 62/147,721 filed on Apr. 15, 2015 entitled “Aluminum Warm Forming Multi-Opening Oven And Production Line,” the entire disclosure of the application being considered part of the disclosure of this application and hereby incorporated by reference.
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62147721 | Apr 2015 | US |