DE1524475B2 - Device for punching recording media - Google Patents

Description

The invention is based on a device for punching recording media in the preamble of claim 1 of the specified type.

With the development of faster and faster devices For punching in front of recording media it had become necessary to drive the punch simplify and make the selection of the punch according to the code to be punched with means, which can be selected quickly, without large mechanical masses having to be moved, and at all Punching common, constantly moving punch drive member can be coupled. To select and Electromagnets are used for coupling.

It has been found that this can best be achieved by taking care of the individual Traces of holes between a punch and a constantly working, z. B. in a sinuidic sequence of movements oscillating punch drive element, which, in the case of “non-punching”, has a Idle work stroke executes a coupling element movable in its longitudinal direction with a control command "punching" is engaged in such a way that in the next working cycle of the punch drive member on the Coupling link a working stroke is transmitted to the punch (DT-AS 1 208 104). With this punching device the punch drive member must be in its raised position relative to the punch, d. H. able to in which it occupies the greatest distance to the punch, a considerable overstroke to the

perform cooperating edge of the coupling link so that one for this until the next working stroke sufficient time is available to engage or disengage. Since this period of time for the Engaging and disengaging movements of the coupling link with 5 hole devices at high working speeds is very small within an entire working cycle, become excitable very quickly and extremely timely precisely controlled magnets are required. The after each drive movement of the punch drive member to the coupling member carried out overstroke causes the punch drive member already with a considerable Speed impinges on the coupling link, which leads to considerable wear and tear and noise comes, which, however, also causes an overall non-rhythmic operation of the device. Since the coupling element must also be moved with its entire mass for a control movement, the control magnets must be designed to be strong, which is known to require a considerable assembly space within the device claimed.

With the DL-PS 50 802 a punching device has become known in which the coupling links for their Control movements also have to be moved with their total mass, but they already have to be moved with one dimension constantly arranged in the power transmission path of the punch drive element and the punch and this from a smaller dimension j "for idle operations, drawn over a slope and raised, can be delivered with a dimensionally larger area for a movement transmission. at this device can admittedly also use the above-mentioned overstroke of the punch drive element not yet be waived, since the stronger area must be easily indentable, but it can already be kept considerably smaller. In this device, however, the coupling link must be added to each hole location to the coupling direction still be accelerated transversely, because it is due to its incline, which is on the punch supports itself, must be raised to the free space between the punch and punch drive member to be filled out. Since these coupling movements take place in a very short time - which is already the case with this device earlier than the first-mentioned device, i. i.e. already during the return movement of the punch drive member can take place in the Schöpflage, there is a risk of considerable bruises " between the coupling member and the punch on the one hand and between the coupling member and the punch drive member on the other hand, since the coupling link for the so Coupling position changes very abruptly from the incline into a straight line, which leads to incorrect control of the punching device can lead.

With the US-PS 3,268,163 is further a punching device become known, in which the coupling links to achieve rapid coupling movements, so arranged are that they are also constantly between the punch drive member and the associated punches lie. The coupling links here consist of flat support flaps that enable movement to be transmitted stand vertically between each actuating nose of the punch drive member and the punch, and the are in a free working position next to the actuating lug in the case of an idle stroke control. These support flaps are at one end, which acts as a fulcrum, each with a pivot axis that consists of consists of a torsion spring, firmly connected, which at its other end with one as a magnet armature effective flap is provided. This has the consequence that the control magnets also early, i.e. during a return movement of the punch drive member, can attract, with the support flaps initially under spring force laterally, i.e. outside of the power transmission path of the actuating lugs of the Punch drive member, support on the actuating lugs and for a coupling only in the highest Jump under the point of the scooping movement. However, this is also necessary, as in the case of the above listed facilities, again an overstroke of the punch drive member. It follows that this The device works practically on the same principle as the first mentioned, only with the difference, that here the coupling movements are not caused by axial displacement transversely to the longitudinal direction of the punch drive member take place, but by tilting in their longitudinal direction, whereby the masses to be accelerated for the coupling are already reduced.

The object of the invention is to create a punching device that has the advantages of the known Devices combined and optimized in such a way that those to be accelerated for the coupling Coupling links are designed so that they can be adjusted with the least possible effort can be, and that the punch drive member beyond the absolutely necessary scooping stroke jJberhub needs to run. - -

The invention is characterized by the means indicated in the characterizing part of claim 1 and their arrangement.

This ensures that for the adjustment of the coupling links, starting from their total mass, only their polar moment of inertia needs to be overcome, and that the punch drive element only needs to perform one working stroke which corresponds to the difference between the full external dimension and the reduced external dimension, since the coupling members follow with one of the lateral edges of their flattened the Schöpfhub the punching drive element, whereby the flattened for subsequent transmission to take a vertical position to the punch with full external dimension the gap between the punches and the Stanzantriebsorgari \ n its scooping position "close. As the In a preferred embodiment, coupling links are designed so that they have a circular segment-shaped cross-section, and that the chord length of the flattened parts of the coupling links formed by clearing is shorter than their full external dimensions, is a perfect power transmission The action of the punch drive element on the punch is guaranteed even if the associated control magnets cannot adjust the coupling links for a full 90 ° rotation in the time available through the inevitably specified working stroke, since the coupling links are then still with their outer sheaths are effective between the punch drive member and the punch. A power transmission for a perfect perforation would still be given even if only one edge of the flattened area were facing the punch drive element, since the static friction between the interacting parts is greater for a certain angular range in a vertical power transmission than that from the punch drive element to the Coupling link exerted torque.

Overall, this means that a punching device

tion has been created that works reliably, and with the noise and wear and tear can be kept within limits.

Further details of the invention emerge from the subclaims.

The invention is illustrated by means of three exemplary embodiments in the drawings and below described. It shows

F i g. 1 shows a first embodiment of the invention,

F i g. 2 shows a front view of the embodiment according to FIG. 1,

F i g. 3 shows a partial view of the exemplary embodiment according to FIGS. 1 and 2,

F i g. 4 a second embodiment of the invention,

F i g. 5 is a partial perspective view of the exemplary embodiment according to FIG. 4 and

F i g. 6 shows another embodiment of the invention.

The F i g. 1 and 2 show that a shaft 4 is mounted in the side walls 1 of a frame the two eccentrics 5 sit on which connecting rods 6 are mounted. These stand over bolts 7 with legs 9 of a punched frame 8 in connection, which is guided by means of the bolts 7 and 13 in corresponding guide grooves 2 and 3 in one of the housing walls 1 will. The guide grooves 2 and 3 ensure that the punching frame 8 is guided in a straight line when the djgser VoTi Shaft 4 is driven via eccentric 5 and the connecting rods 6.

The punched frame 8 consists of a drive coupling web 10 and a return coupling web 11, both of which are interconnected by side walls. This creates a recess 12, which is shown in FIG. 1 recognizable is.

A frame 23, which is used to guide punching punches 14, is arranged below the punching frame 8. The frame 23 is fixedly arranged on one side of the housing and has a in its lower part Slot for inserting and leading through the recording medium 101. The F i g. 1 can be seen that a cross strut of the frame 23 is arranged in close proximity to the return coupling web 11 of the punched frame is. The punches 14 are in this cross strut and in the lower cross strut of the frame 23 led. The punch 14 have to the drive coupling web angled lugs 15 whose Meaning will be explained later.

Furthermore, elaborations 16 and 17 are provided in the punches. The F i g. 1 can be seen that the upper edge of the elaboration 16 rests on the return coupling web 11. This interaction is necessary a forced return of the punch from the punch position.

In the other elaboration 17 protrudes a stop rail 24 into which the upward movement of the Stamp 14 limited. At the upper edge of the drafting 17 return springs 25 attack, which on Frame 23 are attached.

The angled lugs 15 are each provided with a trough 15a and take in the form of swivel cylinders Coupling links 18. As a result of a free machining 20, these have the shape of a segment of a circle Cross-section, the area of which is more than half of the total cross-section of the coupling links, such that the chord lengths of the resulting surfaces are shorter than the diameter of the coupling links 18, d. h. That the coupling links 18 both with their full outer dimension 18 a and with a reduced external dimension 20a between the. Stan7 stamp 14 and the drive coupling web 10 effective could be. The surfaces of the free workings 20 lie parallel to the on in the rest position of the coupling links drive coupling web 10 opposite. The Kreisabschnittför shaped cross-section ensures that in Koppelstellunt no sharp edges but concurrent arched surfaces in the troughs of the angled approach ^ 15 lie.

Coupling pins 19 are attached to the coupling members 18

directs which has a circular cross section that the coupling links 18 facing away from the end 21 de Coupling pin 19 is designed as a crank pin 22, such as this can be clearly seen in FIG. 1 can be seen.

In Fig. 3 are according to the section line HI-II: the coupling pins 19 shown in section, whereas the crank pin 22 is tightened with a dashed line are.

The F i g. 1 and 3 it can be seen that each: Crank pin 22 is connected to a nearly right angle GE curved leaf spring 26, which is used for receiving of the crank pin 22 has a bore 27

The leaf springs 26 are connected to hinged armatures 29 of magnets 28. The hinged anchors 29 are normally held in the fallen rest position by Zufgedern 280 ...

The coupling pins 19 are rotatably mounted. A guide comb 30, which is attached to the punching punches, is used for this purpose 14 pointing side of a frame-fixed cross member 31 is attached.

On the other side of the frame-fixed cross member 31, blind holes 32 are provided in which balls 33 below Using a cover plate 35, which also has blind holes 36, are stored. Each of the balls 33 has an opening 34 through which one of the coupling pins 19 is guided.

This storage of the coupling pins on the frame-fixed cross member 31 allows both a rotation of the Coupling pins 19 about their longitudinal axis, as well as pivoting with the balls 33 in the blind holes 32 and 36 in time with the punching movements.

In Fig. 1 it is indicated that on the right side of the. StanzstempeM4 coupling pins 19 and Ma-'gnete 28 are located.

Stop strips are used to adjust the coupling pins 19 37 and 38 advanced, which by means of oblique elongated holes 39 and 40 on a further fixed to the frame Traverse 41 are arranged. The stop strips 37 and 38 can by means of the oblique elongated holes 39 and 40 can be raised or lowered by sliding sideways. The crank pin 22 of the coupling pins 19 rest against the stop strips 37 and 38 in their two end positions. The stroke of the hinged armature 29 is dimensioned so that the crank pin 22 on the stop strips 37 and 38 is always biased Leaf springs 26 or springs 280 are in contact.

Although, as shown in FIG. 1 is indicated by the springs 280, the return of the coupling pins 19 from their Actual action takes place in the rest position by tension springs, the return can of course also via further magnets, not shown, take place.

When one of the magnets 28 attracts, the leaf spring 26 pivots the connected crank pin 22 such that the coupling pins 19 rotate 90 °. As a result, the coupling links 18 get with their degraded External dimension 20a from its illustrated rest position, in which the surfaces of the free workings 20 planpa-

lies parallel to the drive coupling web 10, in an effective position in which the full outer dimension 18a of the coupling links just the distance between the drive coupling web 10 and the angled extension 15 of the punch 14 fills in. The movement drive can now be applied directly from the punch frame 8 to the punch 14 be transmitted without an overstroke or an idle stroke having to take place in between.

The troughs in the angled lugs 15 allow the coupling links 18 to be optimally form-fitting rest against the angled lugs 15. Of course, it is also possible to use the drive coupling web 10 of the punching frame 8 to be provided with corresponding depressions.

In the rest position of the coupling pins 19 is between the surfaces of the free workings 20 and the drive coupling web 10 so much space that the punching frame 8, without transferring a movement to the surfaces, a Can perform idle stroke. The coupling pins 19 are just as little moved as their associated ones Punch 14.

The magnets 28 are arranged nested according to the invention, whereby the installation dimension of these magnets 28 increases. Since, according to current experience, the double track width of a hole device for the installation of drive magnets is still very small, according to the invention the installation dimension for the drive magnets is practically 4 times the track width
Disposal. As mentioned, this is achieved in that the magnets 28 are arranged on both sides of the punch 14.

In order to enable smooth and quiet storage of the coupling pins 19, it is advantageous to to produce the balls 33 from plastic.

In operation of the punching device, the shaft 4 is constantly driven, whereby the punching frame 8 over the connecting rods 6 a continuous lifting movement is transmitted. In the rest position of the coupling links 18 no force can be transmitted from the punch frame 8 to the punch 14.

The arrangement is made in such a way that a control command “punching” is given to the magnets 28 in good time is that the rotary movement of the coupling pins 19 already begins when the punching frame 8 is still is in the extreme punching position. With this clever arrangement, the whole time of the back can be avoided of the punching frame 8 can be used to adjust the Kö'ppelglieder 18. This allows the working speed the arrangement according to the invention significantly increase, since the setting of the magnets 28 is no longer critical.

As mentioned, another advantage of the arrangement according to the invention is that only those Coupling pins 19 take part in the punching stroke of the punching frame 8, which is also really used to carry out a perforation have been set. As a result, the mass that has to be constantly moved is not insignificant degraded. This in turn has a favorable effect with regard to the susceptibility to wear of the moving Individual parts, in particular, but also favorable in terms of noise generation.

The punches 14 remaining in their rest position are, together with their coupling links 18, through the return springs 25 held in the raised position and against the stop of the stop rail 24; the stop rail 24 also prevents rotation of the punch 14, so that the troughs in the angled Approaches 15 are always aligned with the coupling links 18.

In the F i g. 4 and 5 a second embodiment of the invention is shown. In the side walls 42, only one of which is shown for the sake of simplicity, a shaft 43 is mounted on which two eccentrics 44 sit, which are connected to a drive axle 46 via connecting rods 47. The drive shaft 46 is in grooves 45 of the side walls 42 guided so that it performs a constant up and down movement when the shaft 43 rotates.

On the drive shaft 46 differential members 48 are provided in alignment with the punching stations, the one right end 49 protrudes into an elaboration 53 of the respective associated punch 52.

The other, left end 50 of each differential member 48 is guided in a guide comb 59 fixed to the frame and lies with a lower edge 51 of the surface of a free machining 62 of a swivel cylinder designed as a swivel cylinder Coupling link 60 opposite.

In addition, all of the left ends 50 of the differential members 48 are at the top dead center of the drive axle 46 in FIG close proximity to a stop axis 78, but without touching it.

The punches 52 have a second elaboration 54 with retaining springs 57 of a leaf spring comb 56 work together.

The punches 52 are guided in a punch housing 55 which, as FIG. 4 "shows, also a Stop rail 58 and the leaf spring comb 56 carries.

The stop rail 58 is in the rest position of the punch on the lower edge of the draft 54 and serves the same purpose as that in connection with FIG. 1 stop rail 24 described. The coupling members 60 are cylindrical and have their sides facing the differential members 48 mounted in troughs 65 of a cross member 64 fixed to the frame (FIG. 5).

They also have annular grooves 61 which are mounted in slots 68 of a cross member 67 which is also fixed to the frame are. A retaining bar 66 is arranged above the cross member 64 and ensures that the coupling links 60 are safely stored in the troughs 65.

The ends of the coupling members 60 facing away from the differential members 48 have helical flats -chungen 63, which cooperate with bolts 70, the between the legs 72 and 73 of hinged anchors 71 are stretched. As Fig.4 shows, are the hinged armature 71 is assigned to electromagnet 75 and attached to return springs 74

A traverse is used to adjust the "hinged anchor 71" 76 is provided, which receives grub screws 77, by means of which each hinged anchor 71 is individually adjusted can be.

F i g. 5 reveals a guide plate 79, which is the last hinged armature 71, in the representation of the F i g. 5 the leftmost hinged armature 71, gives a guide.

In addition to the holding bar 66, the coupling links 60 are securely in by a further holding bar 69 held in their bearings.

The coupling elements of the embodiment according to FIGS. 4 and 5 are essentially the same Shape like those of the exemplary embodiment according to FIGS. 1, 2 and 3. They point to their the differential members 48 facing ends also have clearings 62 and are thus between the Ends 50 of the differential members 48 and the traverse 64 either with a full external dimension 60a or with

509 507/127

a reduced external dimension 62a effective. The resulting areas 62 cause, as in first embodiment, in the rest position a "non-punching" and in the working position pivoted by 90 ° a "punch". The pivoting of the coupling links 60 is carried out by the bolt 70. If one of the Magnets 75 attracts, the bolt 70 moves along the helical flat 63, whereby the associated Coupling link pivoted by 90 °.

Advantageously, the beginnings and ends of the helical flats 63 for a short Piece straight and not helical, whereby it is achieved that the coupling links securely in their working position or rest position and are held there by the bolt 70. The diameter of the bolts 70 are dimensioned so that they the distances between the helical flats 63 and the outside diameter of the next coupling link with the required manufacturing tolerance to complete. As a result, the bolts 70 are guided safely and precisely, creating the helical flats 63 fit snugly against their associated bolts 70. According to FIG. 5 leftmost Bolts 70 and the associated hinged anchor 71 are through the guide plate 79 on the helical Flattened area 63 of the coupling link located to the right of it is securely applied

During operation, the Differenjjalglie "^ the 48 is constantly driven by the shaft 43 via the eccentrics 44 and the connecting rods 47. The differential links 48 perform a constant oscillating movement. Because when the punching device is idle, all punching punches 52 are held in the raised position by the leaf springs 57, the punch 52 on the stop rail 58 are in contact, the differential members 48 swing about their applied to the punch 52 right ends 49. Here, the ends 50 can swing freely downward because the coupling links 60 are in their rest position.

A command “punch” attracts the associated electromagnet 75 and pivots the coupling member 60 by 90 °. As in the first embodiment, this pivoting begins so early that for the Pivoting of the coupling members 60, the entire upward stroke of the differential members 48 can be used can.

After a coupling member has pivoted through 90 °, the associated differential member 48 is at the left end 50 assumed, so that when the drive axle 46 is lowered again, the one belonging to the differential member 48 Stamping die! 52 is moved downwards, and a perforation is made against the force of its retaining spring 57.

The return of the punch 52 is, as in the first embodiment, also inevitably because During the return stroke of the drive axle 46, the left ends 50 of the differential members 48 are on the stop axle Support 78. As a result, the right ends 49 of the differential members 48 pull the punches 52 afterwards above.

During this reset time for the punch 52, the electromagnets 75 can by means of their return springs 74 return to the rest position, whereupon the bolts 70 the coupling links 60 as a result of running off return to their rest position on the helical flats 63.

Without changing anything at the core of the invention, the resetting of the coupling links 60 can also be achieved Reset magnets take place. As a result, the return springs 74 can be dispensed with. The easiest way to do this Adjustment of the coupling links 60 then by so-called magnetic flip flops.

Finally, FIG. 6 shows a third exemplary embodiment recognize the invention. The drive axle 46 is driven via the connecting rods 47 in the same way as in the embodiment described above. Likewise, the punches are in the same Way out and stored as in the embodiment according to the F i g. 4 and 5.

The embodiment according to FIG. 6 differs from the exemplary embodiment according to FIGS. 4 and 5 only in the manner of the drive of the coupling links 80, which are designed as swivel cylinders. The coupling links 80 have a continuously cylindrical shape and point below the left end 50 of the differential members 48 has a circular segment-shaped cross section with a relief 81, whereby it is also in this embodiment a reduced external dimension 81a for the idle state and a full external dimension 80a for the Own work situation. The coupling links 80 are mounted in troughs 85 and 86 of a cross member 84 that is fixed to the frame and are held in place by means of screws 90 and a retaining plate 88.

The retaining plate 88 has guide slots 89 for the left ends 50 of the differential members 48. The left Ends 50 of differential members 48 operate as in the embodiment according to FIGS. 4 and 5, with a stop axis 78 together. This as well as the drive shaft 46 and the cross member 84 are on the housing walls 87 fastened or are guided in grooves within these housing walls 87.

The end of the coupling members 80 facing away from the differential members 48 has a projection 82 with a winding shape V-grooves 83 on. In each of the winch-shaped wedge grooves 83 a rope 93 is stretched out, its one end 94 is connected to an armature 96 of a magnet 97, and its other end 95 is connected to a return spring 99 which is attached to an arm 98 of the magnet 97.

The coupling links 80 are protected against axial displacement by a stop bar 91 and a contact plate 92 secured.

The trajectory of the magnet tanker% is through "Stop bolt 100 limited.

The coupling links 80 are provided with at least three turns 83 at their attachments 82. The ropes 93 are preferably made of synthetic fibers. They transmit the movement de ^ Mägrietanker 96 to the Coupling links 80. If one of the magnet armatures 96 attracts, it pivots via the associated cable 93 relevant coupling member by 90 °, whereby, as in the embodiment described above, the left end 50 of the relevant differential member 48 is assumed. By wrapping around the lugs 82 The rope 93 prevents slippage from occurring when the coupling links 80 are pivoted.

The return springs 99 always keep the rope 93 in a taut condition. They also take care of one Resetting of the coupling links 80 in their rest position.

Also in the embodiment according to FIG. 6 the magnets 97 are nested. To the Reduce bearing friction of the coupling links 80, the ropes 93 are arranged so that their ends 95 each with those tension springs 90 in connection, which are on the arms of the magnets of the opposite Row are attached.

For this purpose 3 sheets of drawings

Claims (15)

Patent claims: 1. Device for punching recording media in start-stop operation with all Stamping common, constantly moving punch drive member and between this and the Coupling members arranged on punching dies, which are individually actuated by electromagnets between an idle and a coupling position are adjusted, characterized in that the coupling members are flattened pivot cylinders (18, 60, 80) which can be pivoted about their axes and which are in the coupling position with their full outer dimensions (18a, 60a, 80a) and in the idle position with one through a free machining (20, 62, 81) reduced external dimensions (20a, 62a, 81a) lie in the power transmission path. 2. Apparatus according to claim 1, characterized in that the coupling members (18; 60; 80) constantly in the power transmission path between the punch drive element (10; 46, 50) and the punch (14) are arranged and for the reduced external dimension (20a; 62a; 81a) by a free machining (20; 62; 81) have a circular segment-shaped cross section. 3. Device according to claims 1 and 2, characterized in that the free workings (20; 62; 81) have a dimension that is smaller than TsTaIs half of the total cross section of the coupling links (18; 60; 80), such that the chord length of the resulting areas is smaller than the full external dimension (18a; 60a; 80a) of the coupling links (18; 60; 80). 4. Device according to claims 1 and 2, characterized in that the punch (14) Carry angled approaches (15) with trough-shaped depressions in which the coupling links (18) lie. 5. Device according to claims 1 to 4, characterized in that the coupling members (18) are connected to coupling pins (19), which end as crank pins (22), which via leaf springs (26) to each a hinged armature (29) of an electromagnet (28) are connected. The device of claim 1 and one or more of the preceding claims thereby characterized in that the Kop_pelstifte (19) by means of a guide comb (30) and in bores (34) of a traverse (31) store in blind holes (36). and the balls fixed by a cover plate (35) (33) are stored. 7. Apparatus according to claim 1 and one or more of the preceding claims, characterized characterized in that the coupling links (18) and the coupling pins (19) are on opposite sides Sides of the punch (14) are arranged in two rows to each other with a gap. 8. The device according to claim 1 and one or more of the preceding claims, characterized characterized in that for adjusting the adjustment positions of the coupling links (18) adjustable stop strips (37,38) are provided for the crank pin (22). 9. Device according to claims 1 to 3, characterized in that the coupling members (60) carry helical flats (63) at their ends facing away from the punch drive member, each with a bolt (70) in operative connection dung, which is connected to the hinged armature (71) of an associated electromagnet (75) 10. The device according to claim 9, characterized in that the beginnings and ends of the helical flats (63) each run flat for a short distance. 11. Device according to claims 1 to 3 and 9, characterized in that the coupling links (60) in troughs (65) of a frame-fixed cross member (64) and rotatably mounted by means of an annular groove (61) in slots of a further cross member (67) fixed to the frame and are fixed by means of retaining strips (66,69). 12. Device according to claims 1 to 3 and 9 to 11, characterized by a guide plate (79), which fixes the mutually leading drive pins (70) on the last drive pin (70). 13. Device according to claims 1 to 3 and 9 to 12, characterized by a further traverse (76), which carries adjusting elements (77) for setting the rest position of the magnet armature (71). 14. Device according to claims 1 to 3, characterized in that the coupling members (80) wear helical V-grooves (83) at their ends facing away from the punch drive member to the ropes (93) are wound, each of which has one end (94) attached to the armature (96) of an electromagnet (97) and the other end (95) of which is connected to return springs (99). 15. Device according to claims 1 to 3 and 14, characterized in that the coupling members (80) stored in troughs (85, 86) of a frame-fixed cross member (84) and fixed by a holding plate (88) are and that a contact plate (92) and a contact strip (91) are provided which allow axial displacement prevent the coupling links (80).