SU590701A1 - Flow regulator - Google Patents

Description

pre-plate 14 and stopper 15. The bore of the lid is closed by a stopper 16. The inlet 17 of the throttles 11 and the inlet 18 of the valve 7 are connected to the channel 2 by the opening 19. Both of the throttles have a common channel 20 connected to the channel 3 by the opening 21. The outlet of the valve 22 is connected 7 with the channel 4 by the hole 23, and the outlet channel 24 of the valve 6 is directly connected to the channel 4. The output channel 25 of the uncontrolled throttle 13 and the input channel 26 of the valve 6 are interconnected directly with each other. Channel 18 is connected to the cavity to the right of valve 7 and its piston by channel 27. Channel 3 is connected to the cavity to the left of valve 7 by channel 28, and to the cavity to the left of valve 6 and its piston by channel 29. Channel 26 is connected to the cavity to the right of valve 6 channel 30.

The diagram, in addition to the flow controller, shows a pump 31, a safety valve 32, a hydraulic cylinder 33, and a retaining valve 34.

From the pump 31, the working fluid is supplied to the channel 2. Then through the channel 17, through the opening 19 and the throttle I, the liquid enters the channel 20. Here the flow splits: a part of the liquid through the channel 3 flows into one of the cavities of the cylinder 33, and the other part Having passed the throttle 13, the channels 25 and 26, the valve 6 and the channels 24 and 4 are discharged into the tank. The fluid, displaced from the second cavity of the cylinder 33, is also discharged through the retaining valve 34 into the tank. Thus, the flow Q entering one of the cylinder cavities is equal to the difference between the flow Qp passing through the adjustable choke and the flow QH passing through the unregulated choke, i.e. Q Qp-QH. Consequently, in order to constant the value of Q, it is necessary that the values of Qp and Qn are also constant.

The stability of the Qp value is ensured by the valve 7, which maintains a constant pressure drop at this throttle: the excess working fluid coming from the pump 31 to the throttle 11 is drained through this valve into the tank. The constancy of the QH value is provided by the valve 6, which maintains a constant pressure drop across the throttle 13. The flow entering the cylinder can be very small, and its stability is guaranteed by the fact that the flows passing through

The throttles 11 and 13 are large enough and their stability is reliably ensured by these throttles for a long time.

The fluid flow passes first through the throttle 13, and then through the valve 6, in which it is throttled. Since the degree of flow throttling by the valve 6 depends on the load on the cylinder rod, the fluid temperature also depends on the load,

depending on the degree of choking. But the fluid after valve 6 is discharged into the tank, and a change in its temperature cannot affect the stability of the flow through the throttle.

The proposed regulator can be used in hydraulic systems with low speeds of the actuators without increasing the weight, size and cost of the hydraulic drive. In addition, it achieves a high

control accuracy by maintaining stability of the working fluid flow.

Claims (2)

1. USSR author's certificate No. 232538, cl. G OBO 7/01, 1967. 2. “Hydraulic equipment. Directory reference. NIIMASH, M., 1967, Part 2, with. 123, fig. 68. Yu 19 20 2.1 / 4 / J 15