SU839194A2 - Hydraulic press pulser - Google Patents

Abstract

PULSATOR HYDRAULIC PRESS on author. St. No. 788574, distinguished by the fact that, in order to increase reliability, an axial bore with a conical chamfer is made in the lower part of the body; The facet and the cavity of the additional annular groove are connected by a radial hole to the speed controller of the lowering of the piston of the hydraulic pusher.

Description

The invention relates to the field of metal forming, specifically to the design of devices for controlling hydraulic presses. Known pulsator hydraulic press on the main ed.St. No. 788574 comprising a housing in which the control mechanism in the form of a pneumatic cylinder with a piston, a loading valve with a spring are coaxially arranged. A hydraulic pusher as well as a speed controller for lowering the piston of a hydraulic pusher.

A disadvantage of the known device is that an additional apparatus is required to seal the system before the beginning of the working stroke, which complicates the control system by reducing its reliability.

The purpose of the invention is to increase reliability.

The goal is achieved due to the fact that in the lower part of the body, an axial bore is made with a conical chamfer and an additional annular groove and a radial bore above it, while a cone interacting with the conical chamfer is made on the piston of the hydraulic pusher and the cavity of the additional annular groove is connected to hydraulic piston lowering speed controller.

The design of the pulsator and the scheme of its inclusion are shown in the drawing.

The pulsator includes a housing 1, in which the control mechanism, made in the form of a pneumatic cylinder with a piston 2, a loading valve 3 with a spring 4, a hydraulic pusher containing a rod 5 connected to a piston 2, a lifting rod 6, above which is located with a gap H, is located coaxially a loading valve 3, and a piston 7, with a working edge 8 entering the coaxial bore forming the cavity 9 in the housing 1, and the distance h between the working edge 8 of the piston of the pusher and the cavity 9 in the housing is less than the gap H between the loading valve 3 and to rise mnym pusher rod 6. The cavity 9 in the housing 1 is connected by pipelines 10 and 1.1 to the piston cavity 12 of the working cylinder 13, and through a check valve 14 with a cavity 15 under the pusher and pipelines 10 and 11 and 16 to the annular cavity 17 of the loading valve

3, while the cavity 18 under the loading valve is connected by a pipe 19 with a drain. A ring is placed above the piston 7 of the pusher. cavity

20, which is connected by lines 21 and 22 with the pump 23 and the rod end 24 of the working cylinder 13, and the pump 23 with the pipe 25 with the accumulator 26.

The regulator of the speed of lowering the piston 7 is a body 27 in which a valve 28 with a rod 29 and a spring 30 is placed. The valve 28 with the body 27 forms an annular cavity 31, and the a-rod 29 is a cavity 32 connected to the drain pipe. The housing 27 is mounted in guides 33 attached to the working cylinder 13..

0 The device for sealing the control system before the beginning of the working stroke is made integral with the pulsator in the form of an annular cavity 34, which is located concentrically to the piston 7 and connected to the annular cavity 31 of the speed controller for lowering the piston 7 to the saddle through a pipeline 35, as well as the cavity 15 under the pusher, equipped chamfer 36, interacting with a chamfer, made on the lower end 37 of the pusher.

Air is supplied to the cavity 38 of the pneumatic cylinder from the air network through a pressure reducing valve 39, a check valve 40, and an air distributor 41 via pipeline 4.2.

To adjust the piston stroke of the power cylinder 13, a screw 43 is used,

Q with which the position of the controller body 27 is changed.

The pulsator works as follows.

in the original position under the action. With air in the cavity 38, the piston 2 holds the pusher in its lowest position, the spring 4 presses the loading valve 3 to the seat.

When you turn on the pump 23, the fluid enters the cavities 20 and 24, and from the cavity 20 — cavities 9, 12 and 17 and. through the check valve 14 into the cavity 15. The piston of the power cylinder makes a working stroke (deformation of the workpiece occurs). When the pressure of the fluid in the system reaches a value determined by the value of the air pressure in the cavity 38, the pusher under the action of the force acting from the side

cavity 15 begins to rise, together cavity 15 with cavities 3 and 31. After the pusher has traveled a path equal to h, and the working edge 8 of the piston of the pusher touches the bore forming the cavity 9, the cavities 20 and 9 will separate, and the liquid from the pump 23 into the cavity 12 of the working cylinder 13 is stopped. After the pusher passes upward the path equal to H, lifting rod 6, overcoming the force of spring 4, opens the loading valve 3 and connects cavities 12 and 17 to the drain pipe 19. From cavity 12, the compressed volume of the liquid is discharged.

When the pressure of the fluid in the cavity 12 reaches the value determined by the ratio of the piston areas on the side of the cavities 12 and 24 and the pressure of the fluid in the cavity 24, which in turn depends on the total volume of the accumulator 26, pipelines 21, 22 and 25 and cavity 20 Also, from the time during which the piston of the power cylinder is in the extreme upper position, a reverse stroke is performed, the magnitude of which (and hence the magnitude of the working stroke) is determined by the distance between the rod 29 and the power piston

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cylinder and the magnitude of the opening of the valve 28. During the return stroke, the fluid from the cavity 12 is displaced by the drain pipe. When the piston interacts with the rod 29, the valve 28 opens and passes the fluid from the cavities 15, 34 and 31 into the drain pipe.

As soon as the force acting on the pusher from the side of the cavity 15 becomes equal to the force that the piston 2 transmits to the pusher (the pressure of the fluid in the cavity 15 is approximately 50% of the pressure at which the pusher moves up), the pusher will move down . When the pusher passes a path equal to the opening of the loading valve 3, the latter closes and closes the discharge of fluid from the cavity 12. After the pusher passes the path equal to Hh, the fluid from the pump 23 to the cavity 12 starts and the fluid to the cavity 15 is absent , because in this cavity the pressure of the fluid is the pain of the pressure of the fluid in the system. Having traveled the path h after the start of communication of the cavities 20 and 9, the pusher, interacting with the chamfer at the end 37 with the chamfer 36, separates the cavities 15 and 34. After this, the cycle repeats.

Claims (1)

PULSATOR HYDRAULIC PRESS by ed. St. No. 788574, characterized in that, in order to increase reliability, an axial hole with a conical chamfer is made in the lower part of the body, an additional annular groove and a radial hole are above it, while a cone interacting with the conical chamfer is made on the hydraulic piston piston, and the cavity connect an additional annular groove on the radial hole with the regulator of the lowering speed of the hydraulic piston piston. 00 WITH CO 1 839194