SU1477954A1 - Hydraulic system - Google Patents

Abstract

Invention m. used in forest and road building machines and mechanisms. The purpose of the invention is to increase the reliability of the lifting mechanism system by reducing dynamic loads. The piston 2 of the hydraulic cylinder 1 is placed in the housing 3 with the formation of the working and return cavities / P / 4,5. P 4,5 are connected by lines / L / 6,7 through distributor 8 with pressure head L 9 and drain 10. Switch 11 is made of two-way three-line spring-loaded hydraulically controlled. The pressure valve setting 13 L 14 with a hydraulically controlled setting is connected to its input 17 via a switch 11. The valve 13 is connected by an input 17 to an P 4. The piston 2 is equipped with a protrusion 19 on the side of an E 5 that is included in the chamber 20 made in the housing 3 21 switch 11 is connected to drain 10, L 12 is connected to П 5, communicated through chamber 20 and in parallel installed throttle 18 with L 7. When chamber 20 is closed, fluid from P 5 goes to drain 10 through throttle 18, which provides connection L 14 with the drain 10. At the same time, the valve 13 is set to a minimum pressure. 1 il.

Description

The invention relates to hydraulic systems of hoisting mechanisms and can be used in forestry and road construction machines and mechanisms.

The purpose of the invention is to increase reliability by reducing dynamic - * loads.

The drawing shows a diagram of the hydraulic system of the lifting mechanism.

The hydraulic system contains an actuating hydraulic cylinder 1 with a piston 2, 10 located in the housing 3 with the formation of the working 4 and return 5 cavities.

The cavities 4 and 5 of the hydraulic cylinder I are connected by communication lines 6 and 7 through a distributor 8 with a pressure line 9 and a drain 10, the switch 1 1 is made of a two-position, three-line spring-loaded hydraulic and its control line 12 is connected to the return cavity 5 of the hydraulic cylinder 1. The pressure valve 13 is made with a hydraulic by setting, its setting line 14 is connected to line 15 of switch 11, line 16 of which is connected to the input 17 of pressure valve 13, control line 12 of switch 11 is additionally connected via; ipocqe,; ib 18 to hydrocyclical communication line 7 Indra 1.

The piston 2 of the hydraulic cylinder 1 is provided with a protrusion 19 from the side of the return cavity 5, and the housing 3 has a braking chamber 20 interacting with the protrusion 19. Moreover, the communication line 7 is connected to the return cavity 5 of the hydraulic cylinder 1 through the braking chamber 20, the inlet 17 of the pressure valve 1.3 is connected to the working cavity 4 hydraulic cylinders 1, and line 21 of switch 11 - to drain 10. Piston 2 of hydraulic cylinder 1 by rod 22 is connected to capture 23. ^ 5

The hydraulic system operates as follows.

When the pressure line 9 is connected to the working cavity of the hydraulic cylinder 1, its return cavity 5 is connected to the drain 10, the adjustment line 14 of the pressure valve 13 is connected to the pressure line 9 and the valve 13 is set to the highest pressure. This occurs with a slight displacement of the piston 2 of the hydraulic cylinder 1, which corresponds to a load of large dimensions and large mass.

With small cargo sizes, the piston 2 of the hydraulic cylinder 1 rises up (according to the drawing) to ensure the capture of the cargo. In this case, the brake chamber is closed and the fluid from the return cavity 5 of the hydraulic cylinder 1 goes to drain 10 through the throttle 18, which ensures that the switch 11 is switched to a position that connects the adjustment line 14 of the pressure valve 13 to the drain 10, while the pressure valve 13 is set to a minimum pressure. This ensures a reduction in dynamic loads in the drive.

Claims (1)

Claim A hydraulic system, for example, a lifting mechanism, comprising an actuating hydraulic cylinder with a piston located in the housing to form working and return cavities connected by communication lines through a distributor with a pressure line and a drain, a switch made of at least two-position, a pressure valve with hydraulic control, the setting line of which is connected to its input through the switch, and the pressure valve is connected by its input to the working cavity of the hydraulic cylinder, characterized in that, in order to improving reliability by reducing dynamic loads, the piston of the hydraulic cylinder from the side of the return cavity is provided with a protrusion, and the housing: the braking chamber, the switch is made of three-line hydraulic, the third line is connected to the drain, and the control line of the switch is connected to the return cavity communicated through the braking chamber and in parallel the additional throttle installed by it with the corresponding hydraulic cylinder communication line.