SU1716202A1 - Hydraulic system - Google Patents

Abstract

The invention relates to a general engineering hydraulic drive and can be used in hydraulic drives with a floating operating mode of a hydraulic engine. The purpose of the invention is to increase the reliability of work. The hydraulic system contains a hydraulic motor 6, the cavities of which through one-way hydraulic locks 3, 4 are connected via reversing distributor 5 with pressure hydraulic line 1 and drain 2, and hydraulic lines 9, 10 of control of hydraulic locks 3 4 are connected through a two-position distributor made in the form of distributors 7, 8 with a pressure head hydroline 1 and with entrances of an opposite hydrolock. With the central position of the distributor 5, and the hydraulic locks 3, 4 turned on, a floating working position of the hydraulic motor 6 is provided. 1 sludge.

Description

The invention relates to a general engineering hydraulic drive and can be used in hydraulic drives with a floating and working position of a hydraulic motor.

The purpose of the invention is to increase the reliability of work.

The drawing shows a diagram of the hydraulic system.

The hydraulic actuator contains a pressure .1 and drain 2 hydrolines, two one-way hydraulic locks 3 and 4, the inputs of which are connected to the pressure and drain hydrolines through ,. reversing distributor 5, and the output of each with its own working cavity of the hydraulic cylinder 6. Hydrolines of control of hydraulic locks 3 and 4 each through its switching two-way distributor, respectively 7 and 8, forming a two-position distributor, with hydraulic lines 9 and 10 are connected to pressure hydraulic 1 and hydroline MI 11 and 12 with opposite outlets of the distributor 5, the drainage cavities of the hydraulic locks are connected to the tank.

The hydraulic system works as follows.

In the position shown in FIG. 1, when the valve 5 is switched to the middle position, and valves 7 and 84B. right, a locking mode of operation is ensured by the fact that the inputs of both hydraulic locks 3 and 4 of their control hydraulic lines, connected to these inputs, in the middle position of the distributor 5 are connected to each other and together with the drain hydraulic line 2. Hydroline control of the hydraulic lock 3 is connected to the input guide-. Rosamka 4. through hydroline 9, distributor 7, hydroline 11, and hydro Ci Ј S Ј 7 &

the control line of the hydraulic lock 4 is connected to the inlet of the hydraulic camera 3 via the hydroline 10, the distributor 8, the hydroline 12.

In this case, the hydraulic locks are securely closed and cut off the working cavities of the hydraulic cylinder 6 from the drain. The reliability of operation of the hydraulic drive in this mode, i.e., the reliability of fixing the hydraulic cylinder rod b in any position regardless of the direction of the load on its rod, is determined by the volume of leaks of only one hydraulic lock that receives this load.

The movement of the hydraulic cylinder b is provided by reversing the distributor 5, for which the previous connection of the hydraulic line controlling each hydraulic lock to the entrance of the second hydraulic lock is retained, and the valves 7 and 8 remain in their right positions. When switching the distributor 5 to the right position, the oil from the hydraulic line 1 is injected into the hydraulic lock 3 and further into the rod cavity of the hydraulic cylinder 6. At the same time through the hydraulic line 12. to the distributor 8, the hydraulic line 10, the oil is pumped into the hydraulic control line of the hydraulic lock 4 and opens it, connecting the hydraulic cylinder piston cavity through the distributor 5 with drain hydroline 2. The stem is retracted. To extend the stem, the distributor 5 switches to the left position, the hydroline 1 is connected to the inlet of the hydraulic lock 4 and then the oil is injected into the piston cavity of the hydraulic cylinder 6. At the same time, by the hydroline 11, the distributor 7, the hydroline 9, the oil is pumped into the hydroline of the hydraulic lock 3 and opens it, connecting the piston cavity of the hydraulic cylinder through the distributor 5 with a drain.

To obtain a floating operating mode, the distributor 5 switches to the middle position, and the distributors 7 and 8 to the left.

In this case, the control lines of both of the hydraulic locks 3 and 4 are connected with the hydraulic line 1 and open, connecting the working cavities of the hydraulic cylinder 6 through the middle

the position of the distributor 5 among themselves and together with the drain hydroline 2, connected, in turn, with the tank. In this case, the external load of any direction causes the free movement of the hydraulic cylinder rod due to the free flow of oil from one cavity to another and the reconciliation of the volume difference between the rod and piston cavity with the tank connection. So the load applied to the side

pushing the rod of the hydraulic cylinder causes oil to be displaced from its piston cavity to the rod end, and the excess to the drainage line 2 and then to the tank. The load applied in the opposite direction (pulling out of the stem) causes oil to be pushed out of the rod end of the hydraulic cylinder into its piston cavity, and the deficit is replenished by self-suction from the tank along the drainage line 2.

Claims (1)

Invention Formula A hydraulic system containing a hydraulic motor, the working cavities of which are connected through a reversible distributor with pressure hydraulic and drain, and at least one of the hydraulic engine cavities is connected through a one-way hydraulic lock, two-position hydraulic lock control valve to the second the hydraulic motor cavity, and in the neutral position of the distributor, the hydraulic lock inlet and the second hydraulic motor cavity are interconnected with the drain, characterized in that, in order to increase the reliability of operation, the control device is installed in the hydraulic control of hydraulic lock vi with the ability to connect the hydraulic control with pressure hydroline. - {X i-if 2