SU1765547A1 - Hydraulic flow separator - Google Patents

Abstract

The invention relates to the field of hydraulic engineering and can be used in hydraulic drives for agricultural, road-building, mining machinery and mechanisms, as well as in automating various technological and production processes. The purpose of the invention is to expand the scope of the flow divider. The hydraulic flow divider comprises a housing, in the cavity of which a spool 2 is placed with the formation of a variable throttle 9 connected to the output channel 12 between the end of the spool and the end wall of the housing cavity. In the spool 2, there are blind end axial bores 4.5 with a partition 6 between them in the middle of the spool and radial bores 7, 8, which are connected with axial bores 4, 5; the spool is connected to a membrane 3 installed in the housing cavity; chambers located on both sides of the membrane and communicated with the inlet channel 17 through constant chokes 16, made in the walls of the control chambers. The divider is provided with additional spools 2 connected to the membranes 3, while the ends of each pair of adjacent spools form a variable choke 11 communicated with the corresponding additional output channel 12 and with the control chamber 15 located between the membranes of these spools and connected to the input channel 17 through corresponding additional constant choke. 1 il. 16 P / al with VJ about ate (L VJ

Description

The invention relates to the field of hydraulic engineering and can be used in hydraulic drives of working bodies of agricultural, road-building, mining machines and mechanisms, as well as in automating various technological and production processes.

The aim of the invention is to expand the field of application of the device. This goal is achieved by performing a flow divider with any number of output channels.

The flow divider circuit is shown in the drawing.

In the cavity of the housing 1 are placed the spools 2, connected to the membrane 3, fixed in the housing. Each spool 2 has blind end axial bores 4.5 with a baffle 6 between them and radial bores 7, 8 communicated with bores 4, 5 at the ends. The drawing shows an embodiment of a divider with two spools. In the general case, the number of spools k is determined by the number of output channels n:.

Variable chokes 9,10 are formed between the ends of the extreme spools and the end walls of the cavity, and variable chokes 11 are formed between the ends of each pair of adjacent spools. All variable chokes are connected to the output channels 12. The cavity of housing 1 is made with control chambers — extreme 13, 14 and intermembrane 15. Control chambers are connected to fixed inlet channel 17 through permanent throttles 16.

To the output channels 12 are connected hydraulic motors, conventionally not shown in the drawing.

The device works as follows. Let us first consider the operation of a divider with equal resistances of constant chokes 16.

With equal loads of synchronized hydraulic motors, the flow rates in the output channels 12 are equal, therefore, the hydraulic resistances of the variable chokes 9, 10, 11, and, consequently, the pressures in the control chambers 13, 14, 15, are equal.

If the load of one of the hydraulic engines, for example, connected to the edge - Compiler N Editor T. OrlovaTehred M. Morg

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By this, the left output channel 12 increases, the flow through this channel 12 decreases. As a result, the pressure in the control chamber 13 will increase. This will cause the left spool 2, and then all subsequent ones, to move to the right first. The movement of the spools will occur until equality of pressures in all control chambers is achieved. At the same time, equal costs in the output channels of the device are ensured.

The spools 2 and the body cavity can be made cylindrical in cross section or other shape, for example rectangular, depending on the technology adopted.

In case it is necessary to divide the initial flow into p parts with an arbitrary cost ratio in them, then for this purpose, permanent flow mirrors with corresponding different hydraulic resistances should be installed.

Claims (1)

Invention Formula A hydraulic flow divider comprising a case in which a spool is placed in the cavity, the end of which and the end wall of the housing cavity form a variable choke connected to the output channel, with blind axial holes with a partition between them in the middle of the spool and radial holes communicated with axial holes, the valve is connected to a membrane installed in the body cavity and forming with it control chambers located on both sides of the membrane and communicated with the inlet channel Through constant chokes made in the walls of the control chambers, characterized in that, in order to expand the field of application, the divider is equipped with additional spools connected to the respective diaphragms, and the ends of each pair of neighboring spools form a variable choke, communicated with the corresponding additional output a channel and a control chamber located between the membranes of these spools and connected to the input channel through a corresponding additional fixed choke. Proofreader S.Pekar