SU118800A1 - Woven metal mesh making machine - Google Patents

Description

Industrial machine tools for the production of metal grids are not equipped for the production of flat woven metal mesh.

The aim of the present invention is to create an automatic machine adapted to produce a flat woven metal mesh with the mechanization of the greatest number of operations. For this, a number of design changes have been made to the known automatic machines for making woven metal mesh: the mechanism of the bending heads is made in the form of four parallel moving rods in each head; a cut-off mechanism in the form of two rods with knives interconnected by two levers with a pull; the camshaft drive mechanism — in the form of conical, cylindrical, and worm pairs; mechapism of the inclusion of a conical pair — in the form of a spherical swivel key with a lock; the spindle control mechanism — in the form of a cone clutch; and the grid motion-in-motion mechanism in the form of two parallel rods, carrying on themselves straight pins operating in the same plane.

FIG. 1 and 2 knockup kinematic automatic machine; in fig. 3-diagram of the camshaft drive; in fig. 4-spindle control mechanism; in fig. 5-step grid motion mechanism; in fig. 6 - the mechanism of the segments of the spiral; in fig. 7 - a general view of the bending head (left).

All mechanisms receive movement from a worm / or its shaft, at the end of which a twin 2 sits motionlessly, transmitting through gears 3, 4, 5 to the spindle 6. The gears provide seven weaving speeds. The spindle 6, through a tapered coupling 7, rotates the coiling knife 8, which produces a helix. The latter through the sleeve 9 is sent to the receiving chute 10. At the same time from the screw 1, it receives

4, 4,18800. Gear wheel fl, on the shaft of which the pole, shaft 12, 13 and pinion 14 are directly attached. From gear 12, movement is transmitted to gear 15, which the spherical key mechanism 16 connects to shaft 17 of bevel gear 18, rotates; it through the bevel gear 19 is a camshaft 20 with fists and gear 21, which through gear 22 turns the fist 23 backstage 24 of the caliper 25. On the camshaft, fist 26 of the caliper 25 stops, fist 27 of the crown blade, fists 55 and 25 of the stepper mechanism are mounted mix, eni mesh; the fist 30 is limited, its pin 31, the fist 32 of the retaining knife 33, the fist 34 of the bending fork 55. The fists 34, 32 and 30 of the bending head sit on a sleeve that is connected to the camshaft and can move along its axis. The functions of the fists 36, 37 and 38 of the left bending head are similar, on which the cutting knife 39 is also located, moved from the fist 40. Both heads can be rotated during adjustment around the camshaft axis with screws, and the left head can also be moved shaft axis.

Four teeth are removed on gear 41 and 42, which allow them to stand alternately on latches 43. Thus, each gear removes the adjacent out of stationary position with its abutment 44, while it stops itself, getting cut by the teeth on gear 14. Depending on the position the movable stops on the gear 41 varies the gear ratio of the counting mechanism of the number of turns of the spiral being wound.

Gear 42 is fixedly connected to gear 45, which transmits intermittent rotation to shaft 46, on which fists 47 and 48 are placed. Fist 47 through cam 48 and lever 49 on shaft 50 acts on cone clutch 7. Then through two toothed sectors 51 lever 52 moves a rail 53 turning the gear 54 with a spring-loaded pawl 55. Simultaneously, the cam 48 releases the dog of the spherical key 16 connecting the gear 15 to the camshaft drive shaft 17. The gear 15, having made one revolution, will stop, and the camshaft 20 will then make a half turn. The working shaft 56 rotates from an independent drive, consisting of an engine 57 and transmissions 55, 59, 60 and 61. Moreover, the shaft 62 controls the rotation of the shaft, affecting the limit switches 63.

When the coiling knife 5 is rotated, a spiral is wound, which is woven into the next mesh on the web and moves to the receiving chute 10. The grid is held by the second spiral with pins 64. The spiral into which the winding wire is inserted freely lies in the chute. The mesh web is then pulled by a bar 62 of the working shaft 56, lying on the mesh and bounded by lateral creeping pins 31 on the bending heads. After counting the required number of turns and obtaining a spiral of a certain length, the fist 47 retracts the taper sleeve 7 through the levers, disconnecting the coiling knife 8 from the spindle 6, during the braking of the coiling knife, spiral to the horizontal, turning gear 54, rake 53. Simultaneously fist 48 through the spherical key 16 includes a camshaft with cams, which successively produce a return of the caliper under the chamfer, a displacement of the grid by One helix, a chamfer of the interwoven spiral, the displacement of the caliper by half a turn of the coil. Then the weave is turned on, and the camshaft, edited to 180 °, lifts the knives 33 under the bend. This changes the position of the tension pins 31 and the knuckles 37 and 38 through the levers acting on the forks 35, bends the tab. Mock on both sides of the four ends of the coils simultaneously, after which the forks 55 and the knives 55 are retracted to their original position. The support, with the waving tool 23, is pulled back by the coiling tool, retracting the helix. The cycle is repeated.

The movement in the drive of the distributor is transmitted via a screw to / and drive 14 (Fig. 3), cylindrical 12 and 15, as well as bevel gears 18 and 19, which are transmitted to the camshaft. The gear / 5 rotates continuously. Its shaft 17 is kept from turning the spherical key 16 by a pawl.

With gear 14 on shaft 13, two gears 41 and 42 are connected, on which 4 teeth are selected. The gear 42 is fixed stop 65, and on the gear 41 two fixed stops 66. Both gears have stops under the latches 67, holding them cut teeth on the gear 14, G. e. At the time of the height. The gears 41 and 42 rotate periodically, and the gear 42 brings the gear 41 out of the rest state to the stop 66, which itself stops, falling onto the latch 67. Depending on the position of one of the stops 66 along the circumference of the gear 41, the dwell time of the mechanism required for winding the desired number of turns of the spiral.

The gear 42 rotates the shaft 46 of the main steering cam 47 through the gear 68. In this case, the cam 48, when the spindle stops moving, lifts the control lever 69 with the cam 47, the spherical key 16 rotates, connecting the gear 15 to the shaft 17, which rotates 360 °. The camshaft will then rotate 180 °, making a cycle of one helix.

In the spindle control (Fig. 4), the fist 47 with its small protrusion through the fist 48, the rod 70, the lever 49 will retract the cone 7 by 2-3 mm. With this rack and pinion 53, through the sectors 51 and the levers 52 will begin to move, turn on the brake 71, which will stop the spindle with the coupling half 72, immediately turn off the brake 71, continuing to move, already receiving movement from the big crown of the fist 47. Rotating gear 54, rack 53 moves the spring-loaded pawl 55, which, by gripping the sleeve 73, rotates it with the coiling knife 8 to the horizontal position of the spiral. The fist 47, continuing to rotate, will release the fist 48 and the spring through the lever 49 will close the cone clutch, putting the mechanism in the initial position. LIFE 8 begins to spiral.

When the camshaft with the fist 28 rotates by 180 °, the rocking chair 74 of the grid motion node (Fig. 5) through the rocker 75 acts on the sleeves 76 with the rods 77 fixed in them. One rod with ten pins 64 rises, the other is lowered. Pins 64 on both rods work in the same vertical plane, the grid hangs with one penultimate spiral on pins x 64 of one rod. When the rods 77 are moved, the lifting pins located in the center of the cells enter them. The descending pins release the helix and the web moves one helix independently of the helix pitch.

The fist 27, rotating on the camshaft, raises in the knot segments of the helix (Fig. 6) the rod 78, which through the levers 79, 80 and t gu

81paws the rod 82 of the upper knives 83. Proper selection of the shoulders of the levers 79 and 80 ensures simultaneous counter movement of the rods

82i 78,

The return of the rods is initially carried out by the free shoulder of the lever 79, and then by the spring 84.

The fists 36, 37, 38 and 40 in the node of the bending heads move upwards four parallel rods 85, 86, 87 and 88 upward, which are given back by fixed levers 89, which are acted upon by the rollers 90. The rod 87 rises and lowers the two shoulders lever 91. The rod 88 through the rocker 92, it acts on the bending fork 35. The axes of the pins 31 are rotated 10 ° from the plane of the axes of the rods, which, when moved by a grid cloth, stretches two spirals when transferred to the blades 33, which are centered on the grid when folded. The pins 31 are removed at the same time and two spirals on the canvas hang nato on

No. 118800-4 -

two knives 33. By moving the forks 35 "onto the netting fabric, the four ends of the spirals are bent from two sides" into the lock. The cutting knife 39 at the same time moves upwards and, in the presence of an enlarged spiral, hems it up against the knife 93. On the grids above No. 20, the cutting knife idles.

At the end of the bend, the pins 31, which enter the previous cells, are raised again, providing the next movement of the web into two spirals. After lifting the pins 31, the forks 55 and knives 33 are removed. The hemming of the spiral ends occurs in each cycle, and the remaining three rods 85, 86 and 88 work once in two camshaft cycles, as it rotates through the cycle 180 °.

The proposed automatic machine can be applied at all enterprises producing mass production of flat metal grids.

Subject invention

Claims (3)

1. An automatic machine for making woven metal mesh, including kinematically interconnected mechanisms for camshaft movement, adjusting the length of the helix, controlling the machine spindle, stepping the mesh, bending heads and the chipping knife, winding the wire, braiding and trimming it under bending, folding two helixes under the lock, moving the mesh one helix and chamotka of the mesh produced into a roll, characterized in that, in order to manufacture a flat woven metal mesh, Bending head is in the form of four parallel rods peremeschayuschihs in each head, and the mechanism-sections in the form of rods with two knives, coupled between the two levers with a draft type. 2. An automatic machine according to claim 1, characterized in that the camshaft drive mechanism is made in the form of a conical, cylindrical and worm gear pair, and the mechanism for the activation of a conical pair is in the form of a spherical swivel key with a lock and a control lever turning 180 ° 3. Automatic machine on PP. 1 and 2, characterized in that the control mechanism of the spindle is made in the form of a tapered coupling, a toothed sector with a pawl and rack and two levers blocking the coupling with a "finishing" sector, and the mechanism for stepping the movement of the grid in the form of two parallel moving rods bearing straight lines on themselves pins working in the same plane. No. 118800 65 Guy cut ffn-6S Phil ft