SU478662A2 - Radial crimping machine - Google Patents

Description

The scientific research institutes levers 30, 31 are held by counterbalances 37, 38 and by stops 39, 40.

The cavities B of the balancers 37, 38 are under pressure, for example air. When one of the mechanisms in the scissors, the throttles 41 and the return claian 42 provide a smooth damping of the inertia of the levers 30, 31 after cleavage of the workpiece and their slow return to its original position until the spring stops 39, 40.

The reduction mechanisms in the two levers are interchangeable, which reduces the cost of manufacturing the machine.

Both mechanisms work in the reduction mode when the drive is turned on (not shown), crank shafts 2, 3, coupled by the coupling, rotate, through the rods, transmit movement to the disks, which rotate in the bushes 28, 29. the disk of radius R through pt 20 and held from the rotation of the pins, make a reciprocating motion, while the strikers press on the workpiece.

During processing, the workpiece is fed into the lead-in part of the strikers of one working reduction mechanism, and then into the strikers of another working mechanism for its secondary compression (the lead-in part of the strikers of another mechanism is not shown in the drawing).

The compression of the workpiece by the second mechanism begins somewhat earlier than the end of the deformation of the workpiece in the first mechanism, which prevents the workpiece from pushing back the second mechanism of compression. The maximum force will not increase at the same time, since the total deformation force of the workpiece in the first and second crimping mechanism at any time does not exceed the maximum force during deformation of the workpiece separately by each mechanism, as can be seen from the timeline of each mechanism in the angle of rotation of the crank shafts, where In corresponds to the cyclogram of the first, and the circle D - the cyclogram of the second mechanisms of compression. The rotation of the crank shaft from point a to point ui corresponds to idling, from point ai to az to working travel, from point 02 to a to reverse. Similarly, for the second crimping mechanism, the b-6i is idle, 6i-62 is the working stroke, 62-b is the reverse. Section 6i-a corresponds to the advancement of the second crimping mechanism, and the section to the feed of the workpiece.

When crimping a workpiece having a variable section along the length, the distance between the strikers is controlled by rotating the rings 26, 27, which rotate the sliders 16, 17 and 18, 19 associated with the eccentric surfaces of the disks through the heel,

or remove the sliders, and with them the strikers.

The operation of the machine in the mode of cutting and subsequent cutting of the forgings obtained from the profile bar is as follows.

Cranking shaft 3 when the drive is turned in the reciprocating movement of the slide 18, 19, strikers 14, 15 which compresses the workpiece; knives 12, 13 are disclosed. When crimping the required length of the product, the command is given to cut it, for example, from the feed limit switch or from the back stop on the scissors.

In this case, the drive of the forging of the product is turned off, and the crank shaft 3 is turned off at the bottom dead center, leaving the bar in the clamped position. When turning on the drive cut (in the drawing

not shown) turns the eccentric bushing AND, as a result of which the crank shaft 2 moves, the coupling half 8 with the fingers and the slider 9 moves along the groove of the coupling half 10 and the disk 4 rotates. through the cut bar to the face 15. In this case, the clamping force of the bar and the workpiece being cut increases.

With a further increase in the force from the crank-schatunny mechanism, the cutting lever 30 rotates about the axis 36, while the clamping lever 31 is stationary, i.e. when the bar resistance increases

proportionally increases the force of its clamping both in the cutting and clamping levers, and improves the quality of the cut of the cut pieces.

When cutting the workpiece, the kinematic energy of the arms is quenched by compressing the air in the cavity B of the balancers and pushing it through the non-return valve into the line or receiver. The smooth return of the lever to its original position is provided by the throttles. When the arms are returned to their original position, the cut piece is pushed onto the tray, and the machine cycle is repeated.

Subject invention

Radial-swaging maschina aut. St. 378047, characterized in that, in order to increase durability and enhance technological capabilities,

Crimping with an adjustable stroke of the strikers is made in the form of pn installed between the sliders and disks with eccentrically arranged cylindrical supporting surfaces in contact with the response surfaces formed on the sliders and disks, and the drive crank shaft is made of two parts connected by a clutch.

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