DE185664C - - Google Patents

Description

IMPERIAL Jk

PATENT OFFICE.

PATENT LETTERING

- Yes 185664 CLASS 285th GROUP

HERMANN C. GROS in LEIPZIG-LEUTZSCH.

Machine for punching out leather and similar soft fabrics.

Patented in the German Empire on March 1, 1906 .

Machines for punching out leather and other soft fabrics are known, ■ where, in order to prevent accidents, one of the printing parts must be checked before switching on the Power drive the other pressure part is approached so far that the clearance between Workpiece, knife and printed parts disappear completely or almost completely. This approximation is carried out with the older types

ίο the worker by hand or foot.

In the case of beam presses with heavy pressure parts, the effort on the part of the worker would be too great are, so that according to the invention

'Device is taken that the movable pressure part by tensioned springs in his Working position is brought and that the springs after completion of the punching work by the Machine itself can be clamped again. An automatic blocking supports the through the springs moved the pressure part against the pressure. Retraction springs move the pressed part after releasing the pressure of the feed springs and at the same time cause that the pressure part moved by the feed springs at a lower speed in his working position.

The power drive is switched on automatically and directly by the movable pressure part.

The drawings represent the execution ' type of machine in which the innovation is embodied, namely:

Fig. Ι a vertical section and

Fig. 2 is the front view of the machine, partially in section, in the rest position with raised Pressure beam.

3 and 4 show the corresponding representations the machine after lowering the beam.

Figures 5, 6 and 7 show details,

8 and 9 the arrangements of the automatic power switch-on.

Between the two side walls 3 of the frame of the machine, above the bed 5 and punching block 4, the crossbeam 1 is arranged and fitted so that it can move freely up and down, with its two ends formed as guide pins in slot guides incorporated in the side walls slides. The upper ends of the walls are ^{firmly connected to one another by a cross member 3 l} , in the center of which one or two vertical bearings are arranged, each of which is used to hold a guide pin 46 which can be moved vertically up and down ^! to serve; the latter receives a steady downward pressure by a spring 46. At the lower end of the or der.Bolzen 46 'a horizontal transverse plate 45 is attached, both ends of which are connected by the joint pieces 60 and 61 in a peculiar manner shown in Fig. 2 and 4 with the beam I, in such a way that the lower ends provided with rollers 62 of the joint pieces 61-61 mortised on the frame press loosely onto the inner surface of the beam 1 and strive to move it downwards.

Retraction springs 47 are located at the outermost ends of the guide pins of the beam 1 hooked up to their attachment to the outer upper end of the side walls 3 received.

When the beam I is in its highest position (at rest) (FIG. 2), the feed springs 46 acting on the guide bolts 46 'are tensioned and the joint system connecting the fifth bolts to the beam is under pressure downwards, while the whole thing is held in this position by the following securing: the horizontal plate 45 is articulated to the free end of a lever 44 which is fixed on the shaft b and which can receive an oscillating movement by the latter; the shaft b is pulled through to the outer side of one frame wall and there is provided with a second lever arm 42, the downward free end of which presses with a bolt 41 on a horizontal one-armed lever 26 and falls behind a protruding nose 40. The lever 26 is pulled upward at its outer end by a spring and is connected to the foot step 11 by a spring-loaded holder 25 and rod 24 '. In the position shown in FIGS. 1 and 2, the lever 42, as a result of the locking of the bolt 41 by the nose 40, holds the entire lever system connecting the beam 1 to the plate 45 in the upper rest position, which is downward under pressure.

If the foot step 11 and thereby the connecting rod 24 and lever 26 are moved downwards, the bolt 41 is released from the nose 40 and the lever 44 and the plate 45 are released; thereupon the latter, yielding to the pressure of the springs 46, and with it the lever system 60, 61 and beam 1, move downwards at a considerable initial speed under the influence of gravity and the spring pressure. At the same time, however, the lateral springs 47 begin to exert a counteraction by pulling upwards, which increases the deeper the bar descends, whereas the pressure of the upper springs 46 decreases to the same extent. The tension and compression of one or the other pair of springs - or both - is best arranged to be adjustable. In this way it is achieved that the speed with which the bar 1 arrives in its lowest position is almost equal to zero and an injury to a limb of the operating worker is completely excluded.

Underneath and along the connecting spar 3 ¹ , the shafts b, b ¹ are arranged, one b of which has already been mentioned above. On them hang loosely swinging on each side, as close as possible to the inner side walls, double-armed pairs of levers 48, 48, the claw-shaped ends of which are directed downwards and cling to the outer side walls of the beam (Fig. 1) and are pressed by the connecting spring 49 with appropriate pressure be pressed against the side walls. When the beam 1 has reached its lowest position, the lower end of each lever 48 slides under the influence of the spring 49 over the upper edge of the beam 1 and locks the latter so that it is no longer possible to fall or give way upwards ( Fig. 3). The upper horizontal arms of each pair of levers are coupled to one another in such a way that one lever must exactly follow the movement of the other (Fig. 6).

On the hub of one of the levers 48 passed through the frame, another arm 67 (FIGS. 4 and 6) is attached which is connected by a connecting rod 66 with the activation of the power drive, in such a way that at the moment the beam has reached its lowest position directly above the upper edge of the knife 28 and the claw ends of the lever 48 have locked the same, the power is switched on automatically. The punching pressure is produced from below in a known manner by rotating the shaft 14, which acts with the eccentric 51 on the carriages 52, which are connected by the screws 32 to the lower pressure part 5 carrying the press block 4. The engagement takes place through the action of the wedge surfaces 68, 69 on a lever 70, 71 which couples the drive belt pulley with the shaft 14. After the punching pressure has taken place, caused by the first half shaft rotation after the power has been switched on, the second half shaft rotation under the action of an eccentric 64, lever 53 and a connecting rod 5'6 (Fig. 6) is applied to one of the upper horizontal arms of the pair of levers 48 each Locking of the beam 1 released by opening the claw arms. The lever 53 engages with a bolt 54 in a slot in the rod 56, to which a spring-loaded latch 55 is attached. When the lever 53 is released from the eccentric 64 (position FIG. 1), it can swing downwards and falls under the trap 55. When the lever 53 is moved upwards, the rod 56 is lifted and thereby one of the with the hub passed through the frame on the shaft b loosely seated lever 48 (see Fig. 5) firmly connected arm 57 rotated upwards, so that the arm 48 swings outward. At the same time, the lever 48, which is coupled to it and fixed on the shaft b ^1, rotates. The shaft b ^l thus rotates the second lever 48, which is also firmly seated on it and which in turn is coupled to the fourth lever 48, which is loosely rotatable on shaft b. The lever 53 is through a slot connection with a

Rod 58 connected, which is mortised to an arm 59 fixed on the shaft b. Due to the action of the eccentric 64, the rod 58 also goes up and the beam 1 is raised to its original highest position by the backward rotation of the shaft b and the lever 44 in that the plate 45 is raised and the support springs 47 come into effect. The bolt 41 falls behind the hub 45 of the lever 26, which is pressed upwards by a spring at its outer end, and all parts are again in their original rest position.

8 and 9 show an arrangement of the automatic adjustment of the power drive, which is somewhat different from the one described above, applied to lowering and raising the bar by means of a toggle lever. A nose 65 attached to the upper joint part 76 of a pair of toggle levers 76, 77 acts here during the movement of the latter into its extended position, through which the beam is secured in the pressed position. a downward arm 75 of an angle jack 67,75. From this, by cooperation of the upper horizontal arm 67 and transmission of the movement to the connecting rod 66 from the latter, the power activation through the other known parts 68, 69, 70, 71 and 73 is automatically accomplished at the moment when the beam 1 is on his
has arrived.

lowest position

Claims (3)

Patent claims:
i. Machine for punching out leather and similar soft fabrics, in which the one of the printing parts before switching on the pressing pressure to the other pressure part until the complete or approximate elimination of the clearance is approached between printing parts, workpiece and knife, characterized in that that the approximation of the printed parts (r, 4) after triggering a Sieherung (41, 40) takes place by springs (46) or an equivalent pressure medium, and the movable pressure part (1) in its working position by an automatically incident Blocking (48, 50) is secured, while the return movement takes place automatically after triggering the blocking (48, 50). 2. Machine according to claim 1, characterized in that the under action the springs (46) movement of the movable pressure part (1) when approaching to the press layer by means of springs or an equivalent traction device existing inhibition is weakened, which afterwards support the return movement of the movable pressure part. 3. Machine according to claim 1, characterized in that by the automatic Movement of the movable pressure part (1) when approaching the pressing position of the power drive is switched on. 1 sheet of drawings.