SU788574A1 - Hydraulic press pulsator - Google Patents

Description

(S) HYDRAULIC PRESS PULSER

Claims (1)

The invention relates to the field of metal forming, specifically to the design of control equipment of a hydraulic press. A hydraulic press pulsator is known, comprising a housing in which cylindrical bores one above another are mounted a hydraulic follower made in the form of a piston with a rod, a loading valve and a piston of the pneumatic cylinder of the loading valve control mechanism, as well as a pump and a controller of the lowering of the piston of the hydraulic push rod, made in the form of adjustable throttles with a check valve. The known pulsator, installed in the press control system, allows it to operate in a pulsating mode with a frequency determined by the setting of the lowering speed controller. A disadvantage of the known pulsator is the high noise level during its operation. Reducing the noise level is achieved due to the fact that the proposed pulsator is equipped with a rod fixed at one end on the hydraulic push rod and another at the piston of the pneumatic cylinder, while the central valve is made in the loading valve and the ring is made in the body a groove and two radial channels, one of which is connected to the piston cavity through the lowering speed controller, and the second through the annular groove to the pressure hydraulic line of the pump. The drawing shows the design of the proposed pulsator. The pulsator includes a housing 1 with cylindrical bores, one of which is fitted with a piston 2 of a pneumatic cylinder, which forms a piston cavity 3 in the housing connected to the air line through the valve, a check valve 5 and a pressure regulator 6. In the second bore of the housing 1, a loading valve 7 with a spring 8 is mounted. In the lower part of the housing 1 there is a three-stage hydraulic pusher consisting of the piston part 9 of the lifting rod 10 and the rod 11, the piston part 9 of the pusher has a working edge 12, and in the case 1 an annular groove 13 whose diameter is equal to the diameter of the piston part 9. There is a gap h between the edge 12 of the pusher and the edge of the annular groove, and there is a gap H between the loading valve-7 and the lifting rod 10 of the plunger. The cavity located under the piston part 9 of the pusher is connected to the working cylinder (not shown) by lines 15 and 16 through a check valve 17 and the regulator 18 of the speed of lowering the hydraulic pusher. Cases 1 and 9 are formed in the housing 1 by a lifting unit 10, the first of which is connected to the working cylinder by a line and the second is connected to the pump 21 of the drive. The cavity 22 of the loading valve 7 is connected to the working cylinder by line 23- In the lower position of the pusher pump 21 communicates with the working cylinder), and the liquid is blocked from it by the loading valve 7- In the upper position of the pusher the supply of liquid from the pump 21 to the working cylinder stops and the latter communicates with the drain through the open n loading valve 7 The pulsator operates as follows. In the initial position, under the action of air pressure in cavity 3, piston 2 keeps the pusher in the extreme low position, and loading valve 7 is pressed to the saddle by spring 8. When pump 21 is turned on, fluid through cavities 19 and 20 enters via line 15 into the working cylinder. line 23 - into the cavity 22 of the load valve 7 and along the line 16 through the check valve 17 and the regulator 18 of the time of lowering the pusher into the cavity. The fluid pressure in the system increases and the working stroke is made. When the pressure in the system reaches the value corresponding to the setting of the air pressure in the cavity 3, the pusher rises and, after it is raised, the cavities 19 and 20 are disconnected, as a result of which the fluid supply to the working cylinder stops. Upon further movement of the pusher, the loading valve 8 opens, and the cavity of the working cylinder is connected with the drain. At the same time, the liquid is discharged from the cavity through the regulator 18, the setting of which determines the time for the pressure to drop. With equal forces acting on the pusher from the side of the cavities 3 and It, the pusher is lowered, while the fluid pressure in the working cylinder is equal to the fluid pressure at the discharge of the pulsator, and the flow of fluid through the loading valve 8 stops. Upon further lowering of the pusher, the cavities 19 and 20 are interconnected, and the fluid from the pump 21 again enters the working cylinder. The cycle is repeated. Formula of the Invention A hydraulic press pulsator comprising a body in which cylindrical bores one above the other has mounted a hydraulic pusher made in the form of a piston with. a piston rod, a loading valve and a piston of a pneumatic cylinder of a loading valve control mechanism, as well as a pump and a controller for lowering the speed of a piston of a hydraulic pusher, made in the form of an adjustable throttle with a check valve, which is equipped with a rod to reduce the noise level , fixed with one end on the hydraulic push rod stem, and the other - on the piston of the pneumatic cylinder, while in the loading valve there is a central opening through which the rod passes, and in the housing annular grooves and two radial channels are made, one of which the rod cavity is connected to the piston cavity through the lowering speed controller, and the second through the annular groove to the pump pressure line.