SU489574A1 - Hydraulic pulse-free press hammer - Google Patents

Description

one

The invention relates to the equipment of forging and stamping production and is intended for the precise forging of forgings from conventional and hard-to-deform metals and alloys with minimal rounding radii and stamping slopes, thin walls and ribs.

Hydraulic pulsed pressure-free press hammers are known. They contain movable parts connected to plungers, a sprim entrance to two working cylinders fixed on the frame opposite one another, one of which is connected via a pulse valve to a high-pressure accumulator and also mounted In the frame, the hydraulic cylinders of the moving parts, the plunger cavities of which are connected with the cavity of another working cylinder.

A disadvantage of the known press hammers is the reduction of energy intensity and efficiency due to the significant energy costs of synchronous acceleration of moving parts, resulting from the constant impact of moving parts connected to the plunger of the working cylinder, high pressure torch, hydraulic cylinder plungers.

In order to increase energy intensity and efficiency, the proposed press hammer is equipped with fixed parts on moving parts

with the plunger of the working cylinder, which communicates through a pulse clan, with a high-pressure accumulator, adjustable lengths, and interacting actuators

approximation of moving parts with hydraulic cylinder plungers.

The drawing shows a hydraulic pulsed pressure-free press hammer.

The press hammer consists of a bed 1 with two working cylinders fixed on one another against the other: the bottom 2 and top 3 with the plungers 4 and 5 entering into them, connected to the movable parts 6 and 7, the cylinders 8 of the hydraulic communication of the moving parts,

the plunger cavities of which are communicated with the cavity of the 1st working cylinder 2, and the plungers of the 9th hydraulic communication cylinders can be exerted by adjustable stops 10 that are mounted on moving parts connected to the plunger of the working cylinder, which is connected with a pulsed drive, which includes a waveguide 11, impulse clanan 12 with a two-position control spool 13 and adjustable

throttle 14, high pressure accumulator 15 and pump 16, piping 17 connecting the return cavities of the working cylinders with the high pressure accumulator, and also an auxiliary hydraulic drive,

containing a low pressure pump 18, a three-position spool 19, a pipeline 20 for compensating for fluid leakage from a hydraulic connection.

Press hammer works as follows.

In the press mode, when the three-position spool 19 is turned on, the low-pressure liquid from the pump 18 transfers through the pipeline-waveguide 11 energy to the upper cylinder 3, moving the plunger 5 entering it, connected to the moving parts 7 until the latter touches the workpiece (not shown ). When lowering the moving parts, the fluid is multiplied from the return cavity of the cylinder into the high-pressure accumulator 15 through pipelines 17. Then the two-position spool 13 and the high-pressure fluid turn on the valve valve of the impulse valve 12 and are displaced by a rapidly moving locking element pulse valve from exposure to a constant pressure from the battery. The rapid actuation of the pulse valve causes a hydraulic shock that propagates to the upper working cylinder 3. When a shock wave is reflected from the plunger and propagates along the waveguide with a sonic velocity, the pressure rises from the accumulator one up to two times. By the time the reflected wave approaches the pulse valve, which quickly closes, there will be twice the pressure of the working fluid in the entire waveguide pipe. The energy accumulated in it as a result of the elastic deformation of the pipe and the liquid column is used for plastic deformation. By switching the three-position slide valve 19, the pipe-waveguide is connected to the drain, and under the action of the accumulator pressure in the return cavity of the working cylinder, the return motion of the moving parts is performed. Due to the absence of large shock loads during deformation, the adjustable stops 10 do not interact with the cylinder rods 8 of the hydraulic connection of the moving parts.

In the press-molotov mode, the inclusion of a pulse valve creates a shock wave, which, reflected from the plunger, doubles the pressure in the working cylinder and the pipe-waveguide compared to the accumulator one. Under the action of overpressure, the upper moving parts accelerate until they accumulate enough energy on the way h to obtain a quality forging. The length-adjustable stops 10 mounted on the movable parts connected to the plunger 5 of the working cylinder 3 connected to the high-pressure accumulator valve 15 via the high-pressure accumulator 15, interact with the plungers 9 of the hydraulic cylinder 8 and approach them by means of

water hammer part of the stored energy of the lower moving parts. Such a transfer-redistribution of energy reduces to a minimum the movement of the lower moving parts, which improves the working conditions of the operator. The braking of the upper moving parts as a result of the transfer of part of the energy to the lower ones, and further due to the deformation of the workpiece, causes a hydraulic shock in the working cavity of the cylinder connected to the pulsed drive, which gives an increase in pressure, which allows an increase in power consumption and efficiency. devices. The acceleration path h of the upper movable parts is established taking into account the height of the workpiece, adjustable stops

10. The return stroke is performed when the pulse valve is closed and the pipeline-waveguide is connected through a three-position spool with a drain with a constant pressure action from the accumulator in the return cavities of the working cylinders, which makes it possible to reduce the time of contact of the tool with the workpiece.

Subject invention

Hydraulic impulse-free press hammer containing movable parts connected to plungers that enter two working cylinders fixed on the bed one against the other, one of which is connected through a pulse valve to a high-pressure accumulator, as well as hydraulic hydraulic cylinders mounted on the bed parts, the plunger cavities of which are in communication with the cavity of another working cylinder, characterized in that, in order to increase the energy intensity and the efficiency, it is equipped with fixed on movable parts,

connected to the plunger of the working cylinder, communicating via a pulse valve with a high-pressure battery, adjustable length stops that interact with the moving parts with the plungers of the hydraulic cylinders.