ALUMINUM WARM FORMING MULTI-OPENING OVEN AND PRODUCTION LINE

Abstract

A multi-opening oven assembly for simultaneously heating a plurality of blanks, for example aluminum blanks, before forming the heated blanks in a production line is provided. The oven assembly includes vertically aligned shelves to present a plurality of chambers for heating the blanks. A table including an entry side platform and an exit side platform moves vertically along the oven assembly. A rail system extends along the platforms and the shelves to convey the blanks in and out of the chambers. Once one set of heated blanks is removed from a first chamber, the table moves vertically to a second chamber and is ready to receive the next set of heated blanks. A continuous supply of heated blanks is provided for high throughput. The oven assembly is preferably disposed in a press adjacent a forming station of an existing production line and thus, no additional floor space is required.

Claims

1. An oven assembly, comprising: a plurality of shelves aligned vertically relative to one another, said shelves providing a plurality of chambers therebetween, and each of said chambers including an entry opening along a first side and an exit opening along a second side; at least one heating device for heating each of said chambers; an entry side platform movable vertically along said entry openings of said chambers and an exit side platform movable vertically along said exit openings of said chambers; and a conveyor extending along said platforms and through said chambers for moving the blanks from said entry opening to said exit opening.

2. The oven assembly of claim 1, wherein each of said chambers is insulated.

3. The oven assembly of claim 1, wherein each of said shelves includes an upper platen, a lower platen, and a middle platen disposed therebetween, and said platens are spaced from one another to provide a pair of chambers.

4. The oven assembly of claim 3, wherein said middle platen is disposed in a fixed vertical position, and said upper platen and said lower platen are movable vertically related to said middle platen.

5. The oven assembly of claim 1, wherein said conveyor includes a plurality of tracks disposed parallel to one another.

6. The oven assembly of claim 5, wherein said tracks extend along each of said shelves, along said entry side platform, and along said exit side platform.

7. The oven assembly of claim 1, wherein said entry side platform and said exit side platform pivot relative to said shelves.

8. The oven assembly of claim 1, wherein at least one of said heating devices is disposed in each of said chambers.

9. The oven assembly of claim 1, wherein each of said chambers is insulated; each of said shelves includes an upper platen, a lower platen, and a middle platen disposed therebetween, said platens are spaced from one another to provide a pair of chambers; said middle platen is disposed in a fixed vertical position, said upper platen and said lower platen are movable vertically related to said middle platen; said conveyor includes a plurality of tracks disposed parallel to one another; said tracks of said conveyor extend along each of said shelves, along said entry side platform, and along said exit side platform; said entry side platform and said exit side platform pivot relative to said shelves; and at least one of said heating devices is disposed in each of said chambers.

10. A method of heating a plurality of blanks in a production line using an oven assembly, the oven assembly including a plurality of vertically aligned chambers, and comprising the steps of: conveying at least one first blank from an entry side platform to a first chamber of the oven assembly; heating the at least one first blank in the first chamber; moving the entry side platform vertically to a second chamber of the oven assembly while heating the at least one first blank; conveying at least one second blank from the entry side platform to the second chamber while heating the at least one first blank; and heating the at least one second blank in the second chamber.

11. The method of claim 10 including conveying the at least one first blank from the first chamber to an exit side platform while heating the at least one second blank in the second chamber.

12. The method of claim 11 including moving the entry side platform vertically to the first chamber, and conveying at least one third blank from the entry side platform to the first chamber during or after conveying the at least one first blank to the exit side platform.

13. The method of claim 12, wherein the step of conveying the at least one third blank to the first chamber occurs while heating the at least one second blank.

14. The method of claim 12 including moving the exit side platform vertically to the second chamber, and conveying the at least one second blank from the second chamber to the exit side platform while heating the at least one third blank.

15. The method of claim 10, wherein the entry side platform and the exit side platform move simultaneously.

16. The method of claim 10 including moving the entry side platform vertically to a third chamber of the oven assembly while heating the at least one second blank; conveying at least one third blank to the third chamber while heating the at least one second blank in the second chamber; heating the at least one third blank in the third chamber while heating the at least one second blank in the second chamber; moving the entry side platform and the exit side platform vertically to the first chamber while heating the blanks; conveying at least one fourth blank from the entry side platform to the first chamber while conveying the at least one first blank from the first chamber to the exit side platform and while heating the at least one second blank and the at least one third blank; moving the entry side platform and the exit side platform vertically to the second chamber while heating the blanks; and conveying at least one fifth blank from the entry side platform to the second chamber while conveying the at least one second blank from the second chamber to the exit side platform and while heating the at least one third blank and the at least one fourth blank.

17. A production line, comprising: a press; an oven assembly disposed in said press, said oven assembly including a plurality of shelves aligned vertically relative to one another, said shelves providing a plurality of chambers therebetween, and each of said chambers including an entry opening along a first side and an exit opening along a second side, said oven assembly further including at least one heating device for heating each of said chambers, an entry side platform movable vertically along said entry openings of said chambers, an exit side platform movable vertically along said exit openings of said chambers, and a conveyor extending along said platforms and through said chambers for moving the blanks from said entry opening to said exit opening; and at least one forming station disposed adjacent said oven assembly.

18. A method of forming a production line, comprising the steps of: disposing an oven assembly on a press, wherein the oven assembly includes a plurality of shelves aligned vertically relative to one another, the shelves providing a plurality of chambers therebetween, and each of the chambers including an entry opening along a first side and an exit opening along a second side, the oven assembly further including at least one heating device for heating each of the chambers, an entry side platform movable vertically along the entry openings of the chambers, an exit side platform movable vertically along the exit openings of the chambers, and a conveyor extending along the platforms and through the chambers for moving the blanks from the entry opening to the exit opening; and disposing at least one forming station adjacent the oven assembly.

19. The method of claim 18 including disposing the oven assembly on a rolling bolster, and moving the oven assembly on the rolling bolster to or away from the press of the production line.

20. The method of claim 19 including preheating the oven assembly before moving the oven assembly on the rolling bolster to the press.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0010] 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:

[0011] FIG. 1A is a perspective view of a multi-opening oven assembly during pre-heating according to an example embodiment of the invention;

[0012] FIG. 1B is a perspective view of a shelf of the multi-opening oven assembly of FIG. 1A including an upper platen, a middle platen, and a lower platen while the blanks are being heated;

[0013] FIG. 1C is a perspective view of the shelf of the multi-opening oven assembly of FIGS. 1A in an open position wherein the platens present a pair of chambers for receiving the blanks;

[0014] FIG. 2 is a perspective view of the multi-opening oven assembly of FIG. 1 during operation;

[0015] FIG. 3A includes a first side view of the multi-opening oven assembly disposed in a press according to a second example embodiment;

[0016] FIG. 3B includes a second side view of the multi-opening oven assembly disposed in the press according to the second example embodiment;

[0017] FIG. 4 is a side view of the multi-opening oven assembly on a rolling bolster during a pre-heating step according to a third example embodiment; and

[0018] FIG. 5 is a side view of the multi-opening oven assembly disposed in a press of a stamping line according to a fourth example embodiment.

DESCRIPTION OF THE ENABLING EMBODIMENT

[0019] The invention provides a multi-window oven assembly 20 for simultaneously heating a plurality of metal blanks in a production line, as shown in FIGS. 1-5. The multi-window oven assembly 20 is typically used to heat a plurality of aluminum blanks prior to warm or hot stamping, but the oven assembly 20 can alternatively be used for other types of metal forming processes. In one embodiment, the aluminum blanks are formed of a 5xxx series aluminum alloy, but other alloys could be used.

[0020] As best shown in FIG. 1A, the multi-window oven assembly 20 includes a plurality of shelves 22 extending horizontally relative to the ground. The shelves 22 are aligned and stacked vertically relative to one another and are spaced from one another to provide a plurality of vertically aligned heating chambers 24. The number of shelves 22 and chambers 24 can be adjusted depending on the desired output. In the example embodiments, the shelves 22 are rectangular in shape and are coupled to one another by a plurality of beams 26 extending longitudinally along the ends of the shelves 22. Preferable, each shelf 22 is insulated to reduce energy loss. The shelves 22 are typically insulated along each surface, except for the surface directly exposed to the blanks, to direct the heat towards the blanks. The insulation can be provided by a coating or a separate piece attached to the shelf 22.

[0021] As best shown in FIGS. 1B and 1C, in the example embodiment, each shelf 22 includes an upper platen 22a, a middle platen 22b, and a lower platen 22c. The middle platen 22b remains fixed while the upper platen 22a and lower platen 22c move vertically relative to the middle platen 22b to provide a pair of chambers 24a, 24b therebetween. FIG. 1B shows the platens 22a, 22b, 22c in a closed position while one blank is heated between the upper platen 22a and the middle platen 22b, and another blank is heated between the middle platen 22b and the lower platen 22c. The blanks rest on the upper surface of the lower platen 22c and the upper surface of the middle platen 22b during the heating step. FIG. 1C shows the platens 22a, 22b, 22c in an open position to present the pair of chambers 24a, 24b which are ready to receive at least one blank or allow at least one blank to exit the chambers 24a, 24b. The upper platen 22a moves vertically upward and away from the middle platen 22b to present one open chamber 24a, and the lower platen 22c moves vertically downward away from the middle platen 22b to present another open chamber 22b. Preferably, each platen 22a, 22b, 22c is insulated along each surface, except for the surface directly exposed to the blanks, to direct the heat towards the blanks.

[0022] 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.

[0023] 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.

[0024] 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.

[0025] 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 FIG. 1A. After the pre-heating step, the platforms 36, 38 pivot relative to the shelves 22 so that they are disposed parallel to the shelves 22 during operation. During operation, the table 32 moves vertically along the shelves 22 to convey the blanks to and from the chambers 24. At the start of the process, at least one unheated blank is fed onto the rail system of the entry side platform 36 and into one of the chambers 24. When at least one heated blank is ready for removal from one of the chambers 24, the table 32 moves vertically into alignment with that chamber 24. The at least one heated blank is first removed through the exit side opening 30 of the chamber 24, and then at least one unheated blank is feed through the entry side opening 28 to the open chamber 24.

[0026] 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.

[0027] 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.

[0028] In an example embodiment shown in FIG. 1A, wherein the oven assembly 20 includes five shelves 22 and ten chambers 24, the method of providing the heated blanks includes aligning the table 32 with a first one of the chambers 24a, feeding a first set of unheated blanks into the first chamber 24a, moving the table 32 vertically to align with a second one of the chambers 24b, feeding a second set of unheated blanks into the second chamber 24b, moving the table 32 vertically to align with a third one of the chambers 24a, feeding a third set of unheated blanks into the third chamber 24a, moving the table 32 vertically to align with a fourth one of the chambers 24b, feeding a fourth set of unheated blanks into the fourth chamber 24b, moving the table 32 vertically to align with a fifth one of the chambers 24a, feeding a fifth set of unheated blanks into the fifth chamber 24a, etc. until the desired number of chambers 24a, 24b are filled with blanks. Once the first set of blanks is finished heating, the method includes moving the table 32 back into vertical alignment with the first chamber 24a, conveying the first set of heated blanks out of the first chamber 24a, and feeding another set of unheated blanks into the open first chamber 24a. The first set of heated blanks is immediately removed from the exit side platform 38 and transferred to an adjacent forming station. As soon as the first set of heated blanks is removed from the exit side platform 38, the method includes moving the table 32 vertically into alignment with the second chamber 24b. Once the table 32 arrives at the second chamber 24b, the second set of blanks should be finished heating, and thus the method includes conveying the second set of heated blanks out of the second chamber 24b, and feeding another set of unheated blanks into the open second chamber 24b. The second set of heated blanks is immediately removed from the exit side platform 38 and transferred to the adjacent forming station. The table 32 then moves to the third chamber 24a, and the previously recited steps are repeated continuously to provide the necessary amount of heated blanks at the appropriate times.

[0029] As shown in the example embodiments of FIGS. 3A, 3B, and 5, the multi-opening oven assembly 20 is preferably disposed in a press 42 of an existing production line. Thus, once the heated blanks exit the chambers 24, they can be quickly transferred to the adjacent forming stations. In addition, disposing the multi-opening oven assembly 20 in the press 42 provides a compact design, so that no additional floor space is required. The multi-opening oven assembly 20 can also be designed to work with de-stacking units, robots, lubrication systems, automation, and other features of exiting production lines.

[0030] As shown in FIG. 4, prior to the warm or hot forming process, the multi-window oven assembly 20 is typically preheated on a rolling bolster 44. For example, if the production line is used for cold and hot stamping processes, the multi-window oven assembly 20 can be pre-heated during the cold stamping process and then transferred to into the press 42 for a hot stamping process. By placing the multi-window oven assembly 20 on the rolling bolster 44, the multi-opening oven assembly 20 can be quickly and easily moved in and out of the production line, or transferred to another production line, if needed.

[0031] FIG. 5 shows the multi-window oven assembly 20 in a press 42 of an existing production line according to an example embodiment. The production line first includes a lube station 46 where lubricant is applied to the unheated blanks. A first robot 40 transfers the unheated blanks from the lube station 46 to the entry side platform 36 of the multi-window oven assembly 20. The rail system automatically conveys the unheated blanks through the entry side opening 28 and into the adjacent chamber 24 for heating. After the blank is heated, the rail system transfers the heated blanks through the exit side opening 30 to the exit side platform 38. A second robot 40 then transfers the heated blank from the exit side platform 38 to an adjacent press in the production line for a drawing step. After the drawing step, the blanks are transferred by robots 40 to two consecutive presses for trimming and piercing, and then to a fifth press for piercing, flanging, and re-striking. It is noted that the production line including the multi-window oven assembly 20 can include various other forming stations in addition to, or instead of, the stations shown in FIG. 5.

[0032] 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.