SU778891A1 - Percussion-action machine pulse-type hydraulic drive - Google Patents

Description

(S) IMPULSE HYDRAULIC DRIVE OF IMPACT ACTION MACHINE

I

The invention relates to press forging equipment, namely, to the structures of hydraulic drives of impact machines.

A pulsed hydraulic drive of a percussion machine is known, comprising a working cylinder with a piston, a hydraulic accumulator and a power supply system with a pulse valve.

The disadvantage of this device is lower efficiency and performance, due to the loss of energy of the working environment in the pipe. lines connecting the individual drive elements.

The purpose of the invention is to increase the efficiency and performance of the drive.

The goal is achieved. We say that the hydroaccumulator is made in the form of a shell, covering the working cy-. the cylinder and the casing associated with it, while the rod cavity of the working cylinder is connected to the cavity of the battery by channels made in the wall of the cylinder and the holder, piston-type. The working cylinder is connected to the cavity of the battery via an individual channel and a pulse valve is installed in the channel indicated.

In the drawing, e is represented by a hydraulic circuit of a pulsed hydraulic drive.

The hydraulic actuator contains a hydroaccumulator 1, which forms the body of the percussion machine, with an internal cylinder 2 with a piston rod 3 located inside it. The hydroaccumulator 1 is made in the form of an outer shell 4

10 and coaxially located inside the casing 5, which is hermetically sealed, for example welded, to the ends of the shell 4 ,. In the holder 5, the working cylinder 2 and the pulse valve 6 with the rod 7 are installed. Pulse valve

15 6 is installed in the cavity t and overlaps channel 8, which connects the cavity t with the piston cavity and the working cylinder 2. The cavity t is also constant

20 is connected by channel 9 to the cavity of the hydroaccumulator of the torus 1. The rod stock of the working cylinder is connected by canals 10 to the half of the hydroaccumulator of the c. Channels 10 are made at the entrance of the rod 25 pores in 3 to the working cylinder 2. The hydroaccumulator cavity with a permanently connected to the source of high mass flow through the nozzle 11, the flow area of which is less than the cross section.

30 and channel 13, valves 6,14,15 controls have individual pneumatic actuators 16-18, respectively. The pneumatic actuator 16 is one-sided and the pneumatic actuator 17 and 18 are double-acting and are supplied from a pneumatic circuit of 46 atm through a pneumatic distributor 19, which is switched by a switch 20. To avoid clogging the nozzle 11, a filter 21 is installed in front of it. .,:. „- .. The drive works as follows With the pulse valve 6 closed, when its rod 7 covers the cavity to the flange 8, the valve 15 is open to drain and the valve 14 is closed, in the cavity with the hydraulic actuator 1 and polostid The cylinder i rises by the pressure of the fluid and, at its predetermined value, the piston rod nn 3 is forced up to the stop. The pressure in the accumulator increases to the maximum. The rod 7 of the pulse valve with the butt end rests on the seat of the channel 8, and the piston of the pneumatic actuator 17 under the pressure of air acts on its other end. In this position, the drive can stand for an unlimited time. By command with. switch 20 solenoid valve 19 communicates the cavity of the pneumatic actuator 17 with the atmosphere and with the help of pneumatic actuators .18 and 16, the valve 15 closes and the valve6 opens, let us know the channel 8c of the cavity with the hydraulic accumulator 1, in which the jSaBHO pressure is maximum. In the cavity k, the pressure vnpM begins to increase; its value is, for example, 1/5 of the maximum, and the valve stem 7 of the valve b begins to open. Subsequently, the pressure in the cavity increases sharply due to the influx of high pressure liquid from the cavity c through the 9th channel. A gap formed between the stem 7 and the saddle of the hole. The rod 7 is withdrawn for the piston of the pneumatic actuator 16

778891 and is braked by a hydraulic brake, and the piston rod 3 accelerates to a high speed, a reserve of kinetic energy, dl. work before the piston 3 enters the cylinder 2 cavity at the end of the stroke. When the valve 14 is closed and the valve 15 is opened, pressure is supplied to the cavity of the pneumatic actuator 17 by means of the pneumatic distributor 19. The pressure in the cavity then drops. The rod 7 sits on the saddle of the channel 8. In the cavity of the hydroaccumulator 1, the pressure rises and the piston rod 3 is recharged to the extreme right position until it stops. Further, the duty cycle is repeated. Also, performing a pulsed hydraulic drive of a percussion machine allows increasing drive efficiency by eliminating the supply of high pressure fluid from the hydraulic accumulator to the working cylinder through pipelines, as well as improving the performance of the drive and percussion action in the whole. Claims of the invention Impulsive hydraulic drive of the percussion machine,. containing work-. A cylinder with a piston, a hydroaccumulator and a power supply system with a pulse valve, characterized in that, in order to improve efficiency and performance, the hydroaccumulator is made in the form of a shell, encompassing the working cylinder and the casing associated with it, and the rod cavity of the working cylinder connected to the cavity of the battery by channels formed in the wall of the cylinder and the yoke, the wound cavity of the working cylinder is connected to the cavity of the battery through an individual channel, and a pulse valve is installed in the channel. Sources of information taken into account in the examination 1. USSR author's certificate 292727, cl. On 11/11/00, 1969.

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Claims (1)

Formula of the invention Impulse hydraulic drive of a percussion machine, containing work-. a cylinder with a piston, a hydraulic accumulator and a power system with a pulse 30 valve, characterized in that, in order to increase efficiency and performance, the hydraulic accumulator is made in the form of a shell covering a working cylinder and a casing connected to it, while the rod cavity of the working cylinder is connected with the cavity of the battery made in the cylinder wall and the holder of the channels, the piston cavity of the working cylinder is connected to the cavity of the battery through an individual channel, and a pulse valve is installed in the channel.