Claims
- 1. A hemming machine adapted to externally hem a sheet metal fabrication around an external peripheral edge thereof, comprising a first anvil on which the fabrication rests and having an opening so as to register at least with an aperture in the metal fabrication which is also to be internally hemmed; an external hemming tool moveable downwards against the first anvil; an internal hemming tool mounted at an upper end of drive means located below and protruding up through the opening in the first anvil so as to protrude through the aperture in the fabrication; the internal tool being displaceable upwardly and downwardly as well as horizontally, and including a chamfered lower leading edge; a block carrying the internal tool at one end and horizontally movable in a slide, the block being adapted to transmit a force to the internal tool to force the tool in a downward direction against the internal hem of the fabrication; cam means engageable by the drive means for positioning the internal tool horizontally; and a movable second anvil resiliently displaceable and engageable with the underside of the internal tool to raise the latter relative to its lowermost position to enable the internal tool to move horizontally and effect a preliminary internal hemming.
- 2. A hemming machine according to claim 1, wherein the horizontal movement of the block and internal tool is achieved by a vertical movement of a nut on a lead screw.
- 3. A hemming machine according to claim 2, wherein the lead screw is driven by a servo motor and the vertical movement is translated to horizontal movement by the cam means acting on the block.
- 4. A hemming machine according to claim 1, wherein the cam means comprises an upstanding arm which over part of its length is bent over at an angle to the vertical so that movement of the arm in a vertical sense causes a member engaging the inclined part of the arm to be moved horizontally backwards and forwards.
- 5. A hemming machine according to claim 2, wherein the block is driven back and forward by drive means located in line with the block and slide.
- 6. A hemming machine according to claim 5, wherein the block drive is hydraulic on a servo motor.
- 7. A hemming machine according to claim 1, wherein a hammer member is attached to the drive mechanism associated with the external hemming tool to impart impact force to the block and wherein the internal and external hemming tool operations are synchronous so that the hammer member attached to the external tool is ready to descend onto the block of the internal tool at the same instant as the internal tool has achieved its required lateral displacement, so that the flat underside of the internal tool is overlying the flattened tab of the internal hem, ready for a final squeeze.
- 8. A hemming machine according to claim 7, wherein the final squeeze of both internal and external hems is achieved by the external tool acting directly on the external hem and indirectly through the block and internal tool.
- 9. A hemming machine according to claim 1, wherein the external hemming tool is provided around the whole of the external periphery of the fabrication to be hemmed.
- 10. A hemming machine according to claim 9, in which the internal hemming tool is provided along the internal edge of the aperture in the fabrication, to permit the internal edges thereof to be hemmed.
- 11. A hemming machine according to claim 1, wherein hammer means for engaging the block supporting the internal tool comprises an overhanging abutment extending from and joined to or integral with the external tool and adapted to bridge the metal fabrication laid on the first anvil.
- 12. A hemming machine according to claim 1, wherein a single servo motor is used to drive the internal and external hemming tools.
- 13. A method of internally and externally hemming a sheet metal fabrication laid on a first anvil and presenting internal and external edges for hemming, comprising the steps of:
- a) outwardly moving an internal hemming tool having an inclined lower leading edge in a forward direction towards an upstanding internal peripheral abutment lip and forcing the lip to bend over and lie generally flat,
- b) permitting the internal tool to rise up by a limited amount as it engages the lip so that the force exerted by the forwardly moving tool face is exerted in the optimum manner to bend the lip instead of crushing it,
- c) moving the internal tool forward over the bent-over lip until a flat underside of the tool rests on the downturned lip,
- d) applying an impact force so as to transmit a downward force onto the bent-over lip and squeeze the latter between the sheet metal fabrication from which it has been formed and the first anvil, and
- e) moving an external hemming tool towards an external hem;
- f) wherein the impact force is transmitted through a common member of the internal and external hemming tools simultaneously to the internal and external hems.
- 14. A method of hemming according to claim 13, wherein the impact force on the external hem to achieve the final hemming is applied simultaneously with the final impact force on the internal hem.
- 15. A method of hemming according to claim 13, wherein a resiliently displaceable and upwardly directed second anvil is applied to the underside of the internal hemming tool so as to cause the latter to adopt an upper raised position until it is impacted from above to perform the final hemming step on the internal hem.
Priority Claims (1)
Number |
Date |
Country |
Kind |
9402760 |
Feb 1994 |
GBX |
|
Parent Case Info
This application is a 371 of PCT/GB95/00288, filed Feb. 13, 1995.
PCT Information
Filing Document |
Filing Date |
Country |
Kind |
102e Date |
371c Date |
PCT/GB95/00288 |
2/13/1995 |
|
|
10/7/1996 |
10/7/1996 |
Publishing Document |
Publishing Date |
Country |
Kind |
WO95/21710 |
8/17/1995 |
|
|
US Referenced Citations (6)
Foreign Referenced Citations (2)
Number |
Date |
Country |
2 645 053 |
Oct 1990 |
FRX |
110427 |
Jun 1984 |
JPX |