EP0399337B1

EP0399337B1 - Multitool punch holder

Info

Publication number: EP0399337B1
Application number: EP90109135A
Authority: EP
Inventors: Victor L. Chun; James R. Hunter
Original assignee: Murata Machinery Ltd
Current assignee: Murata Machinery Ltd
Priority date: 1989-05-22
Filing date: 1990-05-15
Publication date: 1994-08-10
Anticipated expiration: 2010-05-15
Also published as: JPH0390225A; CA2016724A1; EP0399337A1; DE69011411D1; JP2720576B2; CA2016724C; DE69011411T2

Description

This invention concerns tool holders and, more particularly, holders for carrying punches in punch presses, particularly punch presses having rotary turrets carrying punches to enable automated punch changing. There have heretofore been developed punch presses having upper and lower turret plates respectively carrying a circumferential array of punches and mating dies able to be selectively indexed to a punch ram. This enables automated changing of punches and dies in the operation of the punch press.
The punches have also been mounted and driven to enable indexing about their own axis in order to change the orientation of the punch for a given punching operation. An example of such indexed tool holder is described in US-A-4 412 469.
It would greatly increase the number of punches available, if a number of punches were included at each station in the turret, in a rotary holder itself able to rotate about its own axis, and such multitool punch holders have heretofore been proposed. Examples of these are described in US-A-4 569 267 and US-A-4 779 329.
However, it is important that such punch holders be able to generate sufficient stripping forces to insure reliable punching, i.e., to exert punch withdrawl forces after punch penetration of the workpiece has occurred.
It is also important that such rotary indexing tool holders be simple and reliable in operation.
WO-A1-88/09232 describes a multitool punch holder of the rotary indexing type according to the generic part of claim 1 in which a tool carrier cylinder is provided mounted in an axially fixed sleeve rotatable about its axis by an indexing drive.
The problem to be solved by the invention is to provide a multitool punch holder assembly with a multitool selection, but of a simple and reliable configuration, and at the same time generate adequate punch stripping forces.
The invention solves this problem by the features of the main claim. Advantageous further developments are specified in the subclaims.
In a multitool punch holder according to the invention the tool carrier is formed with a plurality of axial bores arranged about the carrier rotary axis, each bore adapted to slidably receive a punch stem rod, each having a punch at the lower end thereof. Each punch stem is formed with a plunger portion protruding above the tool carrier and indexable beneath a protruberance formed on the punch ram so as to be selectively driven as the ram is reciprocated.
A stripper spring surrounding each punch stem resists advancing by the ram stroke, and acts as a stripping spring to withdraw the associated punch after workpiece penetration.
The ram is secured to the tool carrier by a head member telescoped into the tool carrier, axially movable therein against the resistance of a compression spring serving to maintain each punch stem rod below the ram drive feature during indexing of the tool holder.
A stripper plate is mounted to the lower face of the tool carrier, and engages the workpiece as the ram strokes to initiate driving of a selected stem and punch beneath the ram drive feature.
The invention will now be described with reference to the drawings in which

FIGURE 1 is a longitudinal sectional view through a multitool punch holder as one embodiment, with a fragmentary portion of associated punch press structure, and
FIGURE 2 is an end view of the punch holder shown in FIGURE 1.

FIGURES 1 and 2 illustrate the multitool punch holder 10 according to a preferred form of the present invention, shown installed in the upper turret plate 12 of a rotary turret punch press. The press ram 14 is formed with a tee slot 16 which received a tee shaped head 18 of a tee member 20 included in the holder assembly 10. The tee member 20 is telescopically received into a cylindrical tool carrier 22 by a mounting rod 24 threaded at 25 into the lower end of tee member 20, having a head 26 seated against an endwall 28 in a bore 30 formed in the tool carrier 22 slidably receiving the mounting rod 24.
A return compression spring 32 encircles the mounting rod 24 and is seated against endwall 34 of the bore 36 slidably receiving the tee member 20. This urges the tool carrier 22 downwardly to be lowered away from the ram 14 prior to stroking of the ram, as shown in FIGURE 1.
The tool carrier 22 is mounted in an index sleeve 40 so as to be axially movable therein, but locked against relative rotation by a key 42 secured to the tool carrier 22 with a screw 44, and mating with a keyway slot 46 formed in the index sleeve 40.
The tool carrier 22 is formed with a series of twelve axial bores 48 spaced radially outward from the centerline of the tool carrier, in a circumferential array. Each bore 48 is adapted to receive a punch stem rod 50, extending parallel to each other, having an upper plunger end 52 guided through a bronze bushing 54 and protruding above the upper end face of the tool carrier 22. A retainer plate 56 is secured to the end face 56 with screws 58, keeps the punch stem rods 50 in position in the bores 48.
A stripper spring 62 encircles each punch stem rod 50, and is seated against a thrust washer 64 abutting a shoulder 66 in the lower section of bore 48 and shoulder 68 of the stem rod 50. The stripper springs 62 also act against a thrust washer 70 beneath the bronze bushing 54. Downward movement of the stem rods 50 is resisted by compression of the stripper springs 62 by snap rings 60 acting on thrust washer 72 and bushing 54 and thrust washer 70.
The stem rods 50 each include a threaded section 74 received in a punch 76. Alternatively, the stem rods 50 and punches 76 may be made one piece to reduce costs. An antirotation dowel 78 maintains the orientation of the punch 76.
A urethane stripper end cap 80 is secured with capscrews 82 and dowels 84 to the lower end face 86 of the tool carrier with punch openings 88 alinged with each punch 76, preferably formed by the punches themselves in the initial cycle of operation.
The index sleeve 40 is rotatably received in a bushing sleeve 90 fixed in the upper turret plate 12 with capscrews 92. The index sleeve 40 is restrained axially by means of a flange 94 resting on flange 96 of the bushing sleeve 90, but free to rotate. The tool carrier 22 rotates with the index sleeve 40, but is axially movable therein. A series of spring plunger assemblies 98 yieldably retains the tool carrier 22 axially within the index sleeve 40.
The index sleeve 40 is adapted to be rotationally driven to index each stem rod end 52 beneath an asymetric ram engagement feature 100 extending radially out from the main shape of the ram 14 to lie above a single stem rod end 52. This thereby enables selective punching by ram descending motion with a single selected punch 78 indexed to that position.
The rotation of the index sleeve 40 may be carried out by an index drive arrangement 103 mating with a vee block drive feature 102 attached to the upper side of flange 94 such index drive 103 could include a drive wedge axially movable on a plate to seat in the vee block drive feature 102, the drive wedge driven by a worm to enable rotation to index the tool carrier 22.
A "home" detent comprised of a spring plunger assembly 110 seats in a pocket 112 in the flange 96 of bushing 90. The punch holder assembly 10 is located initially by seating of the spring plunger 110, which prevents unintended movement out of the home position even if a considerably delay occurs prior to the initial indexing cycle.
In operation, the turret plate 12 is rotated to engage the ram 14 with the head member 20.
The indexing drive is activated to bring a selected one of the stem rod 50 beneath the ram engagement feature 100.
The ram 16 is then stroked, causing tool carrier 22 to descend with the head member 20 until the stripper plate 80 engages the surface of a workpiece. The head member 20 continues to descend with the ram, telescoping by sliding into the bore 36 against the resistance of compression spring 32.
The tool carrier 22 being arrested against any further axial movement, the ram feature 100 descends to engage the protruding end 52 of the stem rod 50 located therebelow. This causes the attached punch 76 to be driven through the workpiece against the resistance of the encircling stripper spring 62.
As the ram 14 thereafter ascends, the stripper spring 62 forces the stem rod 50 upward to withdraw the attached punch 76 from the workpiece.
Continued ascent of the ram 14 raises the tool carrier 22 to the return positon, and draws the head member 20 out of the bore 36, with the spring 32 holding it in this position after the ram moves out of engagement with the tee shaped portion 18.

Claims

A multitool punch holder (10) for a punch press having a punch support structure comprising a rotary turret plate (12) and a vertically movable ram (14) for driving a selected punch (76), said punch holder including a tool carrier (22) mounted in said rotary turret plate (12) for rotation about an axis, means coupling said tool carrier (22) to said ram (14) to be driven thereby and comprising a head member (20) having a portion (18) engaging said ram (16) and being slidably received in a bore (36) in said tool carrier (22), said tool carrier (22) having a circumferential array of axially extending bores (48) distributed about said axis of rotation of said tool carrier (22), and a plurality of punches (76) each mounted in a respective one of said plurality of bores (48) in said tool carrier (22); said tool carrier (22) rotation in said rotary turret plate (12) enabling indexing of each one of said punches (76) to an operative position determined by the rotational position of said tool carrier (22) in said rotary turret plate (12), said means (20, 32) coupling said tool carrier (22) and said ram (14) including means producing a limited descending movement of said tool carrier (22) and punches (76) carried therein together with said ram (14), and means (100) for driving a single one of said punches (76) at said operative position by said continued descent of said ram (14), characterized by said movement of said tool carrier (22), in use, being arrested by contact with a work piece after a predetermined extent of descending travel of said ram (14), and said means coupling said ram (14) to said tool carrier (22) enabling continuing descent of said ram (14) after movement of said tool carrier (22) is arrested, wherein each of said punches (76) is formed with a punch stem rod (50) being urged upward by an encircling stripper spring (62) and having an upper end (52) protruding above said tool carrier (22), said ram (14) is formed with a radial feature (100) aligned with said single selected punch (76) with said tool carrier (22) in a given operative position in said turret plate (12) and a spring (32) acts between said head member (20) and said tool carrier (22) resisting relative axial movement therebetween.
A multitool punch holder (10) for a punch press according to claim 1, further including a stripper plate (80) attached to the lower face of said tool carrier (22) and adapted to engage said workpiece upon downward stroking of said ram (14).
A multitool punch holder (10) for a punch press according to claim 1 or 2, further including an index sleeve (40) rotatably mounted in said punch press punch holder structure (12), but restrained against axial movement therein, said tool carrier (22) being axially movable in said index sleeve (40), but rotationally coupled thereto; and further including indexing drive means (102, 103) for rotating said index sleeve (40).
A multitool punch holder (10) for a punch press according to claim 3 further including spring plunger means (98) yieldably restraining said tool carrier (22) in said index sleeve (40) against axial displacement therefrom.