SU23831A1 - Mechanism for transporting shoes when tightening - Google Patents

Description

 The proposed mechanism for transporting the shoes during tightening does not represent an independent machine, but is only an addition to the known tightening machine.

In FIG. 1 shows a side view of the mechanism; FIG. 2 is a front view of it; FIG. 3 is a front view of the mechanism receiving movement from the slider of the tex cartridge for the turning mechanism; FIG. 4 shows this mechanism from above; FIG. 5 is the same, front view; Fig, 6 same, top view; FIG. 7 is a top and side view of the mechanism for moving the base of the turning mechanism back and forth; FIG. 8 is a schematic representation of the principle of operation of the second variant of the design of turning mechapism; FIG. 9 is a side view of a mechanism for lowering and raising the spider at the moment of removing and putting on the boot; FIG. 10 is a front view of this mechanism: FIG. 11 is a top view of the mechanism for automatically stopping the machine; FIG. 12 is a front view of this mechanism; FIG. 13 is a side view of a modified mechanism for raising and lowering a choke; FIG. 14 is the same, front view. In the proposed mechanism, its head is the same as that of ordinary tightening machines, with only a few changes. Boot with a tightening has

movement: up, before the moment of ticks covering the goods and driving the tex, and returning to the original position (down), while simultaneously turning to the side at a certain angle for driving the next tex. The upward movement consists of vertical-up and horizontal movement. forward, so that the upward movement of the boot is obtained at a certain angle. Such a movement is necessary for a better grip of the goods with the tongs for a more dense approach (at the tip of the sock to the sub-bar plate. At the end of the nej), the shoe is pressed against the stop 1 and the sub-bar plate 2 in the sock and the ticks 3 are fixed the knife device 4 and the tex cartridge 5 until the end of the driving of the tex produced by the hammer device. When the hammer and tex cartridge returns to its original position, the shoe goes down and turns to the side. At the end of this movement, all parts of the mechanism are in the initial position, after which all movements are repeated in the order described above.

The boot is fixed on the fitting 6 ,, (fig. 1) mounted on the rod 7. The lower end of the rod 7 presses on ynopg,

which, during operation, acts the end of the lever 9 connected with the axis of the lever 10. When rotating the eccentric 11, it conveys its roller 12 and the lever 13 to a side with a convex curve of its surface, thereby lifting the lever arm 10 by means of the pull 14 and, consequently, the end of the lever 9. This movement is successively transmitted through the stop 8, the rod 7 and the boot 6, which is pressed against the stop 1. The movement is siud by the upward movement of the angle: the lever 15 (Fig. 2) is connected by an axis with the lever 10 , when moving up, he goes down himself and with help the glands 16 lower the slider 17 with the notch 18. This notch includes the leg 19 (Fig. 7) of the rack 20, which engages with the gear segment 21, which, in turn, is connected by the axle 22 with the rack bars 23 and 23a, fixedly attached to the sled 24 of the turning mechanism. Thus, the movement of the slider 17 up and down is transferred to the sled 24 moving back and forth. Behind this, the movements of the ticks, the blade apparatus and the driving of the tex occur. With further rotation of the eccentric 11, the roller 12 of the lever 13 moves away from the curved surface of the eccentric of a larger radius to a smaller one. Consequently, all the parts supporting the nozzle, and with them the boot, are rolled down. In the interim, the beginning of the movement of the boot is yut: downwards it also turns to the side. The gear 25 of the turning mechanism (Fig. 5) is in constant engagement (using a rasp) with the rod 7 so that it can freely move up and down in it. The rod 7 passes in the slider 26, which can move to the right and: to the left in the guide grooves of the slide 24, depending on the tightening of the right or left side of the nose. The gear 27 to. Radiates movement from the reverse stroke of the teksovogo slider cartridge. For this, in: slider 30 (FIGS. 3 and 4) there is a process 31 with a longitudinal notch, in which a finger can be fixed, freely entering its lower end: into the longitudinal notch of the lever arm 33, the shoulder of which ends

a toothed segment 32 meshed with a gear 34, which sits freely on a vertical shaft 35. Under the bristles 34 is a ratchet wheel 36, which is integral with the shaft 35. The dog 37, which runs on the ratchet wheel, is on gear 34. Thus, the movement of the teks patron slider back and forth is transmitted to gear 34 with a reinforced dog 37, which, when rotated in one direction, the gear freely jumps from the tooth to the tooth of the ratchet wheel, and when rotated in the other direction, it captures Ivod in rotation of the shaft 35, which, in turn, transmits this movement, through a series of gears, gear 27.

The second variant (Fig. 8) of the gears in the turning mechanism differs from the first one only in that instead of the figured wool 25 a cylindrical gear 38 is mounted on the rod 7 and between it and the gear 27-a there is a rack and pinion 39, which is inserted into the corresponding grooves in skid 24. When the gear 27 is rotated, the rail 39 moves and the teeth of the other side rotates and moves toward the gear 38 when the roller 28 has entered the longitudinal guide groove 29 (Fig. 6).

Lever 40 and gears 41 serve to switch and engage gear 27.

The installation of the tongs and the activation of the corresponding knife when the right or left side of the toe is tightened is done automatically when the lever 40 is switched, which includes rotation of the nozzle in accordance with the movement of the tongs. For this, the lever-40 is provided with a shoulder 42, movably connected by a pull 43 with a lever 44, which, through the pull 45 and the lever 46 (Fig. 1), transmits movement to the clutch, the translation clamp, and the plate that switches the knives. With the middle position of the lever 40, when the gear 27 is turned off, the tongs can work without eversion and the knives are turned on.

Shock absorbers 47 and 48 (Fig. 2) serve to relieve the pressure of the boot: the first to stop 1 and the second to sub-slot plate 2. In addition.

shock absorber 48 when tightening the sock, | bounded by the least regular i curves. lines, compensates for some inaccuracy in turning the nozzle in accordance with the roundness of the nose lines (due to compression and tension of its spring). The screw 47a allows the tension of the spring 476 to be adjusted. A longitudinal notch 49 (Fig. 5) in the slide 24 allows the rod 7 to move to the right and left. The clutches 50 shafts allow their free longitudinal movement.

Lowering the fitting 6 at the time of removing and putting on the boot on it is made by pressing the pedal 51 (Fig. 9 and 10), connected by a pull 52 with a rack 53, which transmits movement through the gears 54 and the rack 55 of the stop 8. In this case the end of the rod 7 is tilted down and, therefore, lowers the fitting. When the pedal is released, the stop 8 comes back to its original position by the force of the spring 56. The rail 55 is connected to the support 8 by means of the strip 57, having teeth that fit into the corresponding depressions of the stop, allowing the latter to move freely up and down.

The mechanism is floated by pressing the foot pedal, as is the case with existing machines. On one shoulder, the pedal has a recess 58 (Fig. 12) into which, at the moment of pressing the pedal, the end of the lever arm 60 enters with the help of a spring 59. The end of the second arm 61, entering the groove of the lever 62, causes the other shoulder to turn towards the rod 7. In the continuation of work, the worker should not keep his foot on the pedal.

The mechanism stops automatically: when moving in the direction of the rod 7, it presses on the end of the lever 62, which transmits movement to the end of the lever arm 60 and the latter comes out of the recess 58 of the pedal. Lever 62-a is used to turn off the mechanism when the rod 7 is moved to the left. The screws 63 are designed to adjust the length of the toe side to be pulled, since it stops the mechanism faster, the shorter the length of the poska side is.

The task of working on the proposed mechanism consists of: putting the shoe on the fitting (Fig. 1) by moving the handle 65a away from itself, putting the pad on the 65S peg with a tube and then moving the handle with the dog into the 65B; in the installation of the boot (before tightening the right or left side of the toe) to the middle of the toe against the tex cartridge; in the start-up of the machine, in switching, by lever 40 (one end of which has the shape of a fork for inserting a knee of a working leg) of the direction of rotation of the boot and in removing the tightened boot, onto the choke.

Adjustment to the size of the boot is made: at the fitting 6-raising and lowering the part 64 and moving the rack 65 forward and backward; the width and length of the sock-breeding and. by turning the jaws 66 with the screw 67 and moving the backing mechanism slide 24 forward and back, for which the screws 68 and 70 are loosened and after installation they are again attracted (Fig. 7, 6 and 5) -,. the height of the sock-screw 69 (Fig. 1 and 2).

The distance between the driven-in text reached: 1et by reinforcing the bolt 32. (Figs. 3 and 4) at the corresponding distance from the slider 30 of the text cartridge in the longitudinal process 31 cut-out. lever W (Fig. 2). Inversion of ticks - by the appropriate installation of the finger 72 in the slits of the shoulder 42 (Fig. 6).

In the modification of the invention, d.1 start-up of the mechanism, and only one pedal 81 was used to raise the piston (figs. 13 and 14). When the mechanism is stopped, when the shoe is already shrunk, the Ptutzer is automatically lowered: the lever arm 60 stops the machine to the side, releasing the lever arm 58, which has a wedge at the end of the second arm, bringing the friction discs on the counter drive into contact cars . Lever 58, by the force of the spring 84 and through tipper 85, switches off the mechanism and simultaneously lowers the choke: single-arm lever 9. I have Wi-Fi 69, which in turn supports the stop 8, freely sits on the shaft 89 and connects with it - BY AIRING coupling 90, mounted on: shaft 89, by means of a key and able to move in its longitudinal direction. When moving up the lever 91, producing a second shoulder off the clutch 90; the lever 9 is lowered DOWN and consequently with it the choke. Upon further downward movement, the pedal 81 presses its finger 95 onto the end of the lever 58, lowering it downwards, and thereby helping, 85 and the lever 91, engages the coupling 90, and with it the mechanism itself. After the end of the lever 60 of the mechanism for the automatic stopping of the machine, the lever 58 is locked, the pedal returns to its original position by spring 96. The spring 97 and the longitudinal cut 98 at the end of the thrust 85 allow the mechanism to start when the clutch 90 is already engaged and upon further lowering of the lever 58, the finger of the lever 91 slides freely in the neckline 38.

To move the rod 7 along its axis, a lever 94 is used, intended for stirring, the lever 9.

The method of installing the boot by the middle of the rear belt against the tex cartridge before tightening the right and left sides of the heel, according to a modification of the invention, is canceled and tightening takes place from the end of one wing of the heel to the other without interruption. This eliminates unnecessary movements of the worker and the need to stop the mechanism twice during the tightening of one heel, so that the productivity of the mechanism increases.

The subject matter of the invention.

Claims (3)

1. A mechanism for transporting the shoe during tightening, characterized by the use of a figure gear 25, which is provided with a roller 28 placed in a guide groove 29 and mounted on a rod 7, passed through an ice slide 26 placed on a slide 24. 2. The form of the mechanism according to claim 1, characterized in that gear 34 is used to transmit movement from the slider 30 of the gear 25, which is provided with a pawl 37 that acts together with a ratchet wheel 36 mounted on the shaft 35 and engages a gear segment 32, located at the end of the lever 33. 3. The form of the mechanism according to claim 1, characterized in that for automatically stopping the latter, there are provided mounting screws 63 on either side of the rod 7, one of which is fixed in lever 62, coupled with spring 60 loaded by lever 60-61. 4. The form of the mechanism according to claim 1, characterized in that for moving the rod 7 along the axis, a stop 8 loaded by a spring 56, supported by a lever 9, is provided. driven from the eccentric 11 through the nodal means of the lever 13 and ti 145. The mechanism for performing the clause 1, characterized in that, in order to feed the shoe forward when it is lifted, the slide 24 is equipped with gear racks 23 for which the slider is provided 17 6. The mechanism change according to the 1-5, characterized in that instead of the figured gear 25, a cylindrical chester 38 is mounted on the rod 7, which engages with the rack 39, carrying the roller 28 placed in the guide groove 29. 7. Mechanism change, according to n. 1-4 and 6, characterized in that, to move the rod 7 along its axis, a lever 94 is used to move the lever 9 (Fig. 13). to the author of the author's testimony N. I. No. 28881 Grebennikov Well copyright certificate N. And.  Fig number 23831 & ff J-7L  w - “Grebennikov in the copyright certificate of N. I. FIG. five ff № 23831 x J 4JSO ff / 3 Grebennikov E to the author's certificate of N. I. No. 23831 Figg // Grebennikova