SU810996A1 - Hydraulic valve - Google Patents

Description

In the grooves 3 and 6 of the housing 2, and from the inter-throttling spaces 26 and 27, the control cavities 22 and 23 are supplied to the command cavities. In the latter, the valve spool 1 and the pistons 20 and 21 pressed against it are balanced, and the pressure differential on the throttles x 18 and 19 ensures equal costs in channels 16 and 17.

If the pressure in channel 16 rises, then the flow rate in it decreases. This leads to a drop in pressure drop across the throttle 18 and an increase in pressure in the command cavity 22. The spool 1 does not move towards cavity 23 and, increasing one ball, spruce and reducing the other, restores the equality of pressures in the command cavities 22 and 23 and the pressure differences on the throttles x 18 and 19, and therefore, equalizes the flow rate in the channels 16 and 17.

When working as an adder, the working fluid flows through separate channels 16 and 17, from where through throttling w, spruce 14 and 15 and channels 7 and 8 to the end cavities 9 and 10 of the spool. The pressure drop on the throttles x 11 and 12 ensures that pistons 20 and 21 are constantly pressed against the housing 2. The spool balances the pressure in cavities 9 and 10, and the equality of pressure drops on the throttles x 11 and 18 and 12 and 19 contributes to the equality of costs to nanometers 16 and 17, summarized in channel 13.

If, for example, the flow rate in channel 16 decreases as a result of an increase in load, then the pressure in the blind 3 n in the end cavity 9 becomes less than the pressure in channel 8 and the spool 1 mixes in the direction of the cavity 9, increasing throttling neck 14 and reducing the w / spruce 15 , which leads to the equalization of costs in channels 16 and 17.

When the valve 34 is turned on from zero to position I, fluid is supplied to channel 13 of the hydraulic valve. Afterbirth

NIN works as a divider, feeding through channels 16 and 17 equal costs in cavity 32 and 30 hydraulic motors 29 and 28, and regardless of the load, the hydrodvngatel works synchronously. When the hydraulic distributor 34 ns zero to position II is turned on, the fluid is supplied to the other cavities 31 n 33 hydraulic actuators 28 and 29, and from the cavities 30 n 32 the fluid flows to the channels 17 n 16 and the central valve, which acts as an adder, i.e. motor rotors, ensuring their synchronous operation.

The proposed hydro-plan performs the division and summation of the working fluid flows depending on the direction of the mixed synchronized hydraulic motors.

Claims (1)

Invention Formula A hydraulic valve containing a spool mounted in a housing having four grooves, two of which are connected by means of channels in the spool with the end cavities of the latter, through chokes — with a common channel n through throttling slots formed by the hull and spool — with two other grooves communicated with two separate channels, characterized in that, in order to expand the functionality, additional chokes are installed in series with the main throttles, and at the ends of the zolotnnka - pistons, forming commanding the cavity, each of which communicates with the channel mezhdrosselnym space. Ptochniki information taken into account during the examination 1. Sakhno Yu. A., Tauger MB Hydraulic dividers n flow accumulators.- P1., Mashinostroenie, 1972, p. 8, fig. 2 k  -ff 1 1 :: 1: zy Sh u | y | U ::::. ::: |. .j ., - r, -K : ::, .. i i ..-,. ; .... l. ::, Q :. V; . / sV 7 /, I I I i  /; 7 J / / -1 5Л J5 6 79 21 l 18 26 / / 9 27 / g4 10   I // / / / / . , 7 / / VT i / 1/5 I in / 5 n 5 8 20 FIG. I f1 / g.2 P