SU1219217A1 - Cold upsetting automatic machine - Google Patents

Description

The invention relates to mechanical engineering, namely to the structures of cold heading machines,

The purpose of the invention is to increase productivity by increasing the impact power.

The drawing shows a schematic diagram of the machine.

Machine contains mounted on. frame drive 1, turning station 2 with dies 3 and feed mechanism 4 which are set in motion through chain gear 5, Maltese 6 and crank-cam 7 mechanisms, chain gear 8 and drive shaft 9 with flywheel 10, cocking mechanism including sectors 11 and 12 with counterweights and shock absorbers 13.

The crank mechanism 14 is pivotally connected to a percussion mechanism consisting of a plunger 15 connected by a common piston rod 16 and 17, a receiver including an inner 18 and an outer 19 shell and connecting flanges 20. The inner and outer cavities of the receiver are connected a power valve consisting of a nozzle 21 and an adjusting needle 22 with a screw 23, coupled with a nut 24, having a seal 25 with a pressure cap 26. The receiver is also equipped with a gas valve 27. The piston 16 is equipped with a sealing cuff 28. There are cuffs on the piston 17 29, and INTO the pistons 16 and 17 are sealed with cuffs 30.

The machine has a low pressure chamber 31 with channels 32, a high pressure chamber 33, with working channels 34, supply and drain channels 35, working cylinders 36 that contain pistons 37 with replaceable punch 38, ring spools 39 with shoulders 40 and 41, pinless cavities 42 with openings 43 and 44 and rod cavities 45 with openings 46, pneumohydraulic accumulators 47 and 48, pipelines 49-53, valve 54, pipeline 55 and non-return valve 56. On the turntable 2, an ejector 57 was mounted with a spring 58, lever 59 and rod 60. Chamber 33 is filled with working fluid, the cavity of the receiver is filled with gas.

Pipeline 52 serves to drain excess liquid through drainage channels 35 from chamber 33, and pipe 53 with valve 54 is for initial 172

filling and periodically feeding the chamber 33 with liquid. Through pipe 55, non-return valve 56 and pipelines 49, the liquid fills the rod cavities 45 and pneumatic accumulator 47 with a pressure determined by the gas pressure in the latter.

The machine works as follows.

Before starting work, the piston 16 together with the piston 17 rises to the upper extreme position and the chambers 33 are filled with liquid through the valve 54 and the channel 35. Then the receiver is filled with compressed gas through the valve 27. Under the action of the compressed gas, the pistons 16 and 17 move down and displace the fluid from the chamber 33 in the cavity 42 of the hydraulic cylinders 36. In this case, the pistons 37 together with the annular spools 39 move to the left. As a result, the openings 44 are opened and the excess liquid from the chamber 33 is displaced into the pneumo-hydroaccumulator 48.

When the drive 1 is turned on, the rotation is transmitted through the chain transmission 8 to the drive shaft 9 with the flywheel 10 and sector 11. When the driving shaft 9 rotates, sector 11 with its shock absorber 13 rests against sector 12 and turns it, transferring the rotation to the crank mechanism 14, which lifts the pistons 16 and 17 to the up position, compressing the gas in the receiver. As the shock piston 16 rises, the fluid from the pneumohydraulic accumulator 48 is displaced through conduit 51, through openings 44, cavities 42, openings 43, conduit 50, channels 34 into chamber 33. Fluid is displaced from chamber 31 through conduit 32 and pipeline 49 in the pneumatic accumulator torus 47, compressing the gas in it.

The piston 16 is removed from the surface of the liquid at the moment when the liquid from the pneumohydroaccumulator 48 is displaced into the chamber 33 and the pressure in it drops to atmospheric, as the channel 35 opens, connecting the high-pressure chamber 33 with the atmosphere. In this case, the pistons 37 and the annular spools 39 move to the extreme right position.

During the transition of the crank mechanism 14 through the upper dead

3

The point piston 16 accelerates to a given speed under the action of gas compressed in the receiver and hits the liquid. In chamber 33, a high pressure impulse occurs, which, through channel 34 through conduit 50, is transmitted to lineless cavities 42 of hydraulic cylinders 36, acceleration of working pistons 37 with punches 38 to a given speed, and they perform the required work. After the working pistons 37 are stopped, the annular spools 39 move to the extreme left position, open the openings 44, and the excess fluid enters the pneumohydraulic accumulator 48. The fluid from the rod cavities 45 of the hydraulic cylinders 36 enters the low pressure chamber 31 through the channel 32.

The change in the acceleration rate of the piston 16 is made by the power regulator. As the gap between the needle 22 and the nozzle 21 increases, the acceleration rate of the piston 16 increases, and consequently, the impact energy increases. The rotation of the table 2 is made by the engine through the chain drive 5 and the Maltese mechanism 6. When the table is rotated, the 2-dimensional cut of the wire is cut off by an annular knife and, together with the table, is moved to the next punching position. From the last position, the product is removed by the ejector 57, which is driven by the working piston 37. After the finished product is ejected, the ejector 57 is returned to its original position by the spring 58.

The economic effect of the implementation of the proposed machine is achieved by increasing productivity.

I

VNIIPI Order 1189/15 Circulation circulation 655 Subscription Branch Sh1P Patent, Uzhgorod, ul. Project, 4

Claims (1)

COLD-LIFTING AUTOMATIC MACHINE, containing matrix and puncheon attachment assemblies mounted on the bed, driven through actuators from working hydraulic cylinders with rod and rodless cavities, a drive shaft with a drive connected via a cocking mechanism and a crank mechanism with a plunger, a high-pressure hydraulic chamber with supply and drain channels, pneumohydraulic accumulators and percussion mechanism, which is exposed in that, in order to increase productivity by increasing the impact power , the shock mechanism is made in the form of a gas receiver with two concentric cylindrical shells fastened together by flange ends, two pistons connected by a common rod and a Power regulator, including a nozzle mounted on the inner shell, and a needle placed in it with a screw coupled with a nut mounted on the outer shell, while the receiver is mounted on a high-pressure hydraulic chamber, one of the pistons is connected to the plunger of the crank mechanism and is placed in the inner shell of the receiver and the other is placed in the cavity of the hydraulic chamber and the interior cavity and a receiver cavity between the shells are filled with gaseous medium. SU „„ 1219217 ιμμμμμμμβ * · ^Γ '''' - ¹ > 2