Portable hemming apparatus and method
A portable hemming apparatus includes a support structure, a plurality of modular self-contained hemmers disposed about the support structure and at least one pneumatic drive mounted on the support structure. Each modular hemmer includes a hem die holder, a hem die fixed to the hem die holder and a movable hem punch. A hem operator is operatively connected to each modular hemmer. Each hem operator is a lever arm assembly. Actuation of the drive moves the hem operators and causes the hem punches to close and open on the hem die, allowing for the hemming of a metal panel located within the modular hemmers. The support structure of die hemming apparatus can be adapted to be mounted on a robot arm, mounted on a pedestal stand, or hung from a tool balancer. These arrangements allow for various uses of the hemming apparatus. Further, the modular design of the hemmers allows the apparatus to be used for the hemming of various sizes and shapes of panels.
This application claims the priority of provisional application 60/392,016 filed Jun. 26, 2002.
TECHNICAL FIELDThis invention relates to the field of hemming one or more performed metal panels together to form a hemmed joint or closed panel, and more particularly to an improved apparatus and method for completing the hemming procedure.
BACKGROUND OF THE INVENTIONIt is known in the art relating to hemming to use a conventional press structure as the hemming device. It is also known to transport the metal panels to be hemmed to the hemming device itself. This is undesirable because it is difficult to interchange hemming devices to hem different types of metal panels and because the panels must be moved directly into the hemming device. It is further a newly known method of hemming to recognize a set of metal panels (a “workpiece”) and to move a corresponding hemming die to the workpiece. This is an improvement over the conventional method, but still fails to solve the problem that hemming devices are large, heavy, difficult to move, difficult to change with regards to the hemming die, and expensive to produce and maintain.
SUMMARY OF THE INVENTIONThe present invention provides a portable hemming apparatus for performing both hemming and pre-hemming of metal panels on a final assembly line or a pre-assembly work cell. The hemming apparatus has the advantage of being more compact in size, lightweight, and portable than other similar apparatus. Thus, the present hemming apparatus can be transported to metal panels by mounting it to a robot, hanging it from a manually operated tool balancer, or integrating it into other tooling to act as a secondary operation. The portability of the hemming apparatus allows it to be integrated into a final assembly line or a pre-assembly work cell. Alternatively, the hemming apparatus can be mounted on a pedestal stand or other similar structure if it is instead desired to transport metal panels to the apparatus.
According to the invention the hemming apparatus is constructed using standardized hemming modules. This has the further advantage of allowing for low cost manufacturing as well as design flexibility to fit various hem profiles. The hemming apparatus can carry a complete die set required for both pre and final hemming operations for a specific metal panel style. Alternatively, the hemming apparatus can carry a mixed die set, thus allowing for hemming and pre-hemming of various metal panel styles. The hemming apparatus is powered with one or more pneumatic spring drives. This powering method has the advantage of eliminating the need for expensive, complicated, and heavy alignment mechanisms and structures as well as greatly reducing maintenance costs associated with traditional guide mechanisms, air cylinders, and especially hydraulic systems.
More specifically a portable hemming apparatus in accordance with the invention includes a support structure to which modular hemmers and pneumatic drives are attached. Each modular hemmer includes a fixed hem die holder, a hem die attached to the hem die holder and a movable hem punch. Hemmer operators are operatively connected to the modular hemmers by a lever arm assembly. Actuation of the pneumatic drive moves the hemmer operator which correspondingly closes and opens the hem punch in relation to the hem die, causing the desired hemming to take place.
These and other features and advantages of the invention will be more fully understood from the following detailed description of the invention taken together with the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGSIn the drawings:
Referring now to the drawings in detail, numeral 20 generally indicates a portable hemming apparatus comprising a support structure 1, a plurality of modular hem die holders 2 attached to the support structure 1, and a corresponding plurality of hem punches 5, 15. A corresponding plurality of hem dies 3, 14 is mounted to the hem die holders 2. The hem punches 5, 15 are operatively connected to lever arms 4 which can freely rotate about pivots 7 mounted in the hem die holders 2. Moveable engagement members 6 fixed in the lever arms 4 rest on a roller plate 8, such roller plate 8 being attached to a first air spring drive 9. The first air spring drive 9 is connected to the support structure 1 on the side opposite the roller plate 8.
A second, smaller air spring drive 11, attached on its outer end to the stop plate 13, acts to return the hemming apparatus 20 to the retracted position by bearing on the roller plate 8 and attached roller plate cap 10, forcing the roller plate 8 back towards the support structure 1. The moveable engagement members 6, being trapped between the roller plate 8 and the roller plate cap 10, are simultaneously forced toward the support structure 1. This causes the lever arms 4 to rotate about the pivots 7, and the hemming apparatus 20 is returned to the retracted position.
Although the invention has been described by reference to specific embodiments, it should be understood that numerous changes may be made within the spirit and scope of the inventive concepts described. Accordingly, it is intended that the invention not be limited to the described embodiments, but that it have the full scope defined by the language of the following claims.
Claims
1. A portable hemming apparatus for edge hemming nested metal panels, said hemming apparatus comprising:
- a support structure;
- a plurality of modular self-contained hemmers disposed about said support structure, each said hemmer being cooperatively operable to effect a hem in nested metal panels;
- a corresponding plurality of hemmer operators operatively connected to said modular hemmers; and
- at least one drive mounted on said support structure drivingly connected with said operators to move said operators whereby actuation of said drive causes each self-contained hemmer to hem an edge portion of said nested metal panels.
2. The portable hemming apparatus of claim 1, wherein each self-contained hemmer includes a hem die, a hem die holder supporting said hem die and a hem punch.
3. The portable hemming apparatus of claim 1, wherein each said operator comprises a lever arm assembly.
4. The portable hemming apparatus of claim 1, wherein said drive is pneumatic.
5. The portable hemming apparatus of claim 4, wherein said pneumatic drive is an air spring.
6. The portable hemming apparatus of claim 1, wherein said support structure is adapted to be mounted to a robot arm.
7. The portable hemming apparatus of claim 1, wherein said support structure is adapted to be hung from a tool balancer.
8. The portable hemming apparatus of claim 1, wherein the support structure is adapted to be mounted on a pedestal stand.
9. A portable hemming apparatus for edge hemming nested metal panels, said hemming apparatus comprising:
- a support structure;
- a plurality of modular hem die holders attached to said support structure;
- a corresponding plurality of modular hem dies mounted to said modular hem die holders;
- a corresponding plurality of hem punches;
- a corresponding plurality of operators operatively connected to said hem punches;
- said operators being generally elongated and having a first end connected to said hem punches and a second end having a moveable engagement member;
- a roller plate having a flat outer portion supporting said moveable engagement members and a raised, cylindrical, hollow inner portion;
- a roller plate cap mounted to the outer wall of the raised, cylindrical, hollow inner portion of the roller plate at a distance above the flat outer portion of the roller plate;
- a first air spring drive attached to the support structure on its bottom end and to the roller plate on its top end;
- a stop plate;
- a second, smaller air spring drive located within the raised, cylindrical, hollow inner portion of the roller plate and attached on its outer end to the stop plate; and
- the stop plate being attached to the top of the hem die holders;
- whereby the hem punches are movable via the operators through actuation of the air springs.
10. The portable hemming apparatus as in claim 9, wherein each operator comprises a lever arm and assembly.
11. The portable hemming apparatus of claim 9, wherein the support structure is adapted to be mounted to a robot arm.
12. The portable hemming apparatus of claim 9, wherein the support structure is adapted to be hung from a tool balancer.
13. The portable hemming apparatus of claim 9, wherein the support structure is adapted to be mounted on a pedestal stand.
14. A method of edge hemming a nested metal panel with a hemming apparatus comprising the steps of:
- mounting the hemming apparatus to the end of a robot arm;
- moving the robot arm so that the hemming apparatus approaches the metal panel;
- rotating the hemming apparatus so that the pre-hem die set of the hemming apparatus is oriented towards the portion of the metal panel to be hemmed;
- moving the robot arm so that the hemming apparatus is in a working position with respect to the portion of the metal panel to be hemmed;
- cycling the hemming apparatus to complete the pre-hem operation;
- moving the robot arm so that the hemming apparatus is in a clearance position with respect to the metal panel;
- rotating the hemming apparatus so that the final hem die set is oriented towards the portion of the metal panel to be hemmed;
- moving the robot arm so that the hemming apparatus is in a working position with respect to the portion of the metal panel to be hemmed;
- cycling the hemming apparatus to complete the final hem operation; and
- moving the robot arm away from the metal panel.
15. A method of edge hemming a nested metal panel with a hemming apparatus comprising the steps of:
- mounting the hemming apparatus on a pedestal stand;
- securing the metal panel to a robot arm via a gripper;
- moving the robot arm so that the portion of the metal panel to be hemmed is in a working position with respect to the pre-hem die set;
- cycling the hemming apparatus to complete the pre-hem operation;
- moving the robot arm so that the metal panel is in a clearance position with respect to the hemming apparatus;
- moving the robot arm so that the portion of the metal panel to be hemmed is in a working position with respect to the final hem die set;
- cycling the hemming apparatus to complete the final hem operation; and moving the robot arm away from the hemming apparatus.
Type: Application
Filed: Jun 17, 2003
Publication Date: Mar 16, 2006
Inventors: James Steed (Pontiac, MI), James Toeniskoetter (Rochester Hills, MI)
Application Number: 10/517,570
International Classification: B21D 39/00 (20060101);