DE187242C - - Google Patents

Description

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IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVs 187242 - CLASS 71 c. GROUP

OTTO ZIMMERMANN in WEISZENFELS a. S.

Nailing device for overtaking machines. Patented in the German Empire on September 28, 1905.

The present invention represents a device on overtaking machines which makes it possible to attach the overhauled upper to the insole. Of those that have become known so far Machines of this type differs from the present one in that the spruing of happens at the bottom, so the shaft to be overtaken is with the apex up and therefore visible to the worker’s eye. In this respect, inciting the previous machines offered less difficulty than the last always with the sole up and that Driving in the nails was always done from above. About the pinning according to the present invention To achieve a good and safe effect, sliding blocks are provided, which are in the upper cover plate Have leadership. These sliding lugs are replaced by a second one below the first Guide plate, which is driven by means of a rack, towards the center of the last shifted so that as soon as the pincers let go of the leather, they immediately touch the leather press against the insole. There is also a nail turning device in the sliding lugs arranged, which, as soon as the sliding blocks move towards the middle of the last, picks up the nail that is just falling with the point down, holds it and turns it over, whereupon the hammer rods, which have guidance in the sliding blocks, are in action . can kick.

The attached drawing shows:
Fig. R shows a section through the housing with a side view of the drive device in the rest position,

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2 shows a section through the housing with a front view of the drive device,

3 shows a section through the housing with a side view of the drive device in the working position,

Fig. 4 is a top view of Fig. 3,

5 shows a longitudinal section through a sliding block.

Fig. 6 and 7 show cross sections of the sliding, lugs in the direction of the lines AB and CD of Fig. 5,

8 shows a partial plan and section of the guide plate with rack and transport lever on an enlarged scale in the direction of the line GH from FIG. 9;

FIG. 9 shows a longitudinal section in the direction of the line EF from FIG. 8,

10 shows the arrangement of the transport rod,

11 shows the arrangement of a sliding block in working position and

12 the sliding block in the rest position.

The housing 1 is covered with a guide plate 2 which is provided with three radial guide slots 3, 3 ¹ , 3 ² . A guide plate 4 is firmly connected to this plate 2. Below the plate 2 and inside the guide plate 4, a transport plate 4 'is rotatably arranged, which is held by a ring. The transport slits 5, 5 ¹ , 5 ^{2 are} provided in the transport plate. The sliding blocks 6, 7 and 8 move in the guide slots 3, 3 ¹ , 3 ² and in the transport ^{slots 5, 5 1} J 5 ² , 10, 11

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are arranged. The transport plate 4 ″ is in engagement with a toothed rack 15 and is moved by a one-armed lever 16 which has its pivot point at 17 (see FIGS. 8, 9, 10). A bolt 16 ^{1 is} arranged on the lever 16, which in an eccentric groove in the disk 19, which receives its drive from the shaft 18, slides. On the shaft 18, the cam disk 20 is also arranged, on which the loose roller 22 arranged on the cross member 21 slides. At. the traverse 21, the hammer rods 9, 10, 11 are articulated, and since the hammer bolts 12, 13, 14 connected to them are always guided in the sliding blocks 6, 7, 8, the hammer rods will always follow their forward and backward movement . The traverse 21 is carried by the traverse rod 23, which latter is guided in the bracket 24. The bracket 24 is on a bridge 24a

ao attached. There are two bearing blocks on the latter 25, in which a hammer 26 is mounted. To the shaft of the hammer 26 is a Tension spring 27 arranged, one of the ends of which on the hammer itself and the one other is attached to one of the discs 25 so that as soon as the hammer 26 (Fig. 1) after is pressed down, the spring 27 is tensioned.

The coupling 28, which is arranged on the shaft 18 and is used to start up the machine switched on by a pull rod 29 and through the intermediary of the wedge piece 30 sitting on the same will. On the shaft 18, the cord discs 31, 32, 33 are arranged, which serve to drive the rotating nail drums 34, 35, 36. The latter flow into the Nail feed channels 37, 38, 39, through which the nails or pins in the sliding blocks 6, 7,8 are promoted (Figs. 11 and 12).

The sliding lugs and the nail turning device connected to them are in Figs. 5, 6, 7, 11 and 12 are shown

To the casing α (Fig. 5) is the guide pin B, which in one of the oblique grooves 5, 5 ^1, 5 ² leadership, while the Gleitböckchen in the guide plate 2 with its lower part is guided with c (Fig. 11 and 12). The housing, which also serves as protection against dust, accommodates the nail turning device in its interior. As can be seen from FIGS. 5, 6 and 7, this consists of a pipe section d into which a helical guide slot e is let. The pin f of the pull rod g is guided in this, engaging from the inside. As soon as the pull rod is pulled out of the sleeve d, the pin f, sliding along the guide slot e , rotates the sleeve set by 80 °, so that the nail that has fallen through the opening h is turned over with its holding device attached to the sleeve d. This holding device consists of blocks k, k ¹ , which are pressed together by leaf springs i, which sit on the sleeve h. In each of these clamping jaws k, k ¹ a recess is incorporated which corresponds to the shape of half a nail, so that the supplied nail can fall freely, but is prevented from falling out by the larger nail head. When the pipe section d is rotated, the housing wall a of the sliding lugs prevents the nails from falling out, and as soon as the entire rotation of the pipe section d has taken place, the ends of the hammer bolts 12, 13, 14 guided in the grooves of the sliding lugs prevent the nails from falling out of the lower one Opening of the sliding lugs. When driving in the nails, the hammer bolts 12, 13, 14 are driven upwards, the clamping jaws k, k ¹ are driven apart by the nail head and hammer rod, until the nail is driven in and the hammer rods 12, 13, 14 have returned. After this operation, the clamping jaws k, k ¹ are also pushed back into their initial position by the leaf springs i.

The operation of the machine is as follows: As soon as the shaft is overtaken, the wedge 30 is pulled down by means of the pull rod 29 (FIG. 2), which can be driven by a short kick. This causes clutch 28 to engage, causing shaft 18 to rotate. However, since the shaft 18 should only make one revolution, an eccentric 40 is also attached to it, which slides on a loose roller of the lever 29 and only pushes the wedge 30 with lever 29 down until the revolution is completed. During this rotation, the pin drums 34, 35, 36 are set in motion by means of a cord drive which is connected to the cord wheels 31, 32, 33, whereby the pin channels 37, 38, 39 are filled with pins. he follows. At the same time, the lever 16 is swung sideways by the cam 19 about its pivot point 17. Since the lever 16 with the transport plate 4 ″ through the rack. 15 is in connection (Fig. 8, 9, 10) and is the same transferred its movement to the transport plate 4 '. A clockwise rotary movement will therefore take place until the outermost point of the cam groove is reached in the cam disk 19 and, as soon as it is exceeded, a counterclockwise rotary movement of the transport plate 4 'will take place. The sliding blocks 6, 7, 8, which, as explained above, are provided with guide pins d , which protrude into the slots 5, 5 ¹ , 5 ² , will first perform a forward movement in which they are simultaneously in the slots 3, 3 ¹ , 3 ^{2 of} the table top 2 are guided so that they are towards the middle of the last

reach. If, however, the outermost point of the cam groove on the cam disk 19 is reached, the oscillation of the lever 16 reverses and the sliding blocks 6, 7, 8 move outwards again from the center of the last. In the extreme position of the sliding lugs (Fig. 1), the nails fall through the known divider leaves from the nail discharge channels 37, 38, 39 through the opening h of the sliding lugs into the nail turning device.

During the forward movement of the sliding blocks, the pull rod g attached to the plate 2 is pulled out of the housing, the pin / located on the pull rod g will describe the path of the screw slot e and thereby cause the sleeve d to rotate 180 °. By this rotation, the nail is turned upside down, but can not fall out, because the same, as mentioned above, through the housing wall α or. is prevented from falling out by the ends of the hammer bolts guided in the grooves of the sliding blocks (FIGS. 5, 7 and 11).

.25 When moving forward, the sliding blocks 6, 7, 8 come up to the pliers, displace them this a little towards the middle of the last and push the leather over the insole. The forward movement of the sliding blocks is also controlled by the hammer bars 9, 10, 11 participated, as the Hammerbolzeri 12, 13, 14 arranged on the same in the grooves of the sliding lugs 6, 7, 8 have guidance (Fig. 5, 7,11 and 12). As soon as the forward movement of the sliding blocks 6, 7, 8 has taken place, also has the cam 20 arranged on the shaft 18, the bridge 21 to which the hammer rods 9, 10, 11 are articulated by means of Roller 22 depressed.

The tension rod 23 simultaneously presses the hammer 26 downwards, thereby tensioning the spring 27. If the highest point of the cam 20 is exceeded, the hammer 26 pushes the crossbar 23 and with it the hammer bolts 12, 13, 14 upwards, whereby the pins are driven in at the same time. As soon as the impact has occurred, the cam 20 pushes the bridge 21 down again, the spring 27 is tensioned again, the hammer bolts 12, 13, 14 remain in the guide of the sliding lugs 6, 7, 8 and then go back to their starting position with them. During this process, a new pin is divided off, which falls into the opening h as soon as the sliding lugs have reached their initial position (Fig. 12).

Claims (4)

Patent Claims: 1. Nailing device for overtaking machines, characterized in that the nails from the feed channels (37, 38, 39) by movable sliding blocks (6, 7,8) are brought up to the strips and at the same time turned over by a device (d, k, k ¹ ) are, the rotation of the forward or. Backward movement of the sliding blocks (6, 7, 8) is derived (g, f, e) . 2. Nailing device according to claim 1, characterized in that the sliding blocks (6, 7, 8) in a circular plate provided ^{with radial slots (3, 3 ■ ··, 3 2)} (2) out and by rotating a second with inclined slots (5, 5 ¹ , 5 ² ) provided plate (4) approached the strips or respectively. be removed from the same. 3. Nailing device according to claim 2, characterized in that the rotary movement the second plate (4) by a toothed rack (15) engaging in a segment toothing (4 ″) of this plate whose reciprocating movement is controlled by a rocker arm (16) of the main shaft (18) is derived. 4. Nailing device according to claim 1, characterized in that the ends of the Hammer bolts (12, 13, 14) in the grooves Sliding blocks (6, 7, 8) are guided and the forward and backward movement of the join the latter. For this purpose 2 sheets of drawings.