DE2818360A1 - Adjustable liq. flow divider for hydraulic systems - has two throttles whose cross=sections can be varied while retaining their sum constant - Google Patents

Abstract

An adjustable liq. flow divider consists of a control valve with two outputs and two-possibly different-throttles at the input, followed by a control piston each, held in a middle position when pressures at the outputs are equal. In this position, the cross-sections of the outlets are also equal. When outlet pressures are different, the piston moves to a position in which the resultant pressure drop due to pressure difference at the two loads and to pressure drops in teh two throttles, is balanced on both sides. A device changes cross-sections of the throttles while maintaining the sum of their cross-sections constant.

Description

Adjustable flow divider for liquid flows

in hydraulic systems The invention relates to an adjustable one Flow divider for fluid flows in hydraulic systems.

Flow divider for dividing fluid flows for hydraulic Purposes are already known. The known flow dividers effect the division of a liquid flow into two pressure-independent partial flows. The incoming stream of liquid is routed through two throttling points, whereby a constant at each throttling point Pressure drop with constant flow rate and the same viscosity arises. The two outgoing liquid flows from the respective throttle represent are fed separately to two outlets via a common control piston, whereby the control piston is acted upon by the pressure of the respective flow rate at both ends will. If the pressure in both conveyors is the same, the control piston will flow through two Centering springs held in the middle position so that the surfaces of the two outflow bores are kept the same size.

If the working pressure at one outlet now rises above the pressure at the second Outlet, the greater pressure difference would result in more liquid at the outlet flow with less pressure. However, this increases the pressure drop across the corresponding Throttle point, with which there are also different on the front sides of the control piston Adjust prints. This shifts the control piston and covers one of them Drain hole with the low pressure so far that there is only so much liquid left flows so that the pressure drop at the two throttle points becomes the same again and thus equal flows of liquid are established.

It is also known to use throttle points that different Have flow areas and thus an equal pressure drop with unequal Cause flow rates, i.e. the constant flow rate is in one fixed division ratio, which corresponds to the ratio of the flow areas, divided unevenly.

In these known embodiments it was disadvantageous that the division ratio of the two outgoing liquid flows to each other from the beginning and not According to the invention, on the other hand, a possibility is created that Distribution ratio of the two outgoing flow rates as required and infinitely variable to adjust, this is achieved by a device for alternating adjustment the cross-sectional areas of the two throttling points, the total cross-sectional area of the two throttle points is kept approximately constant.

Appropriately, this device consists of a piston that is axially adjustable and with which the cross-sectional areas of the throttle points changed will. The adjustable piston works essentially in such a way that it has the cross-sectional area which reduces a throttle to the extent that it reduces the cross-sectional area the other throttle enlarged.

The invention is used, for example, in spreaders, such as fertilizer spreaders, Seed drills, salt and split spreaders, via the on-board hydraulics driven by the tractor, achieves: The spread rate per unit area this spreader can be infinitely adjusted via the adjustable one according to the invention Set the flow divider, with a different driving speed at a and the same gear position of the tractor does not affect the spread rate per unit area exercises The bones of the aforementioned type are driven by a hydraulic motor, which is fed via one output of the flow divider according to the invention. the Residual amount of liquid emerging via the second outlet of the flow divider according to the invention is fed into the return, whereby the speed of the hydraulic motor is continuously adjustable and changes proportionally with the speed of the drive pump.

The invention will now be explained with reference to the drawing.

The device consists of a piston 1, which has a spindle 4 is adjusted axially by means of handwheel 5, the adjustment via the self-locking of the spindle thread takes place. By adjusting the piston in the axial direction the cross-sections of throttles 2 and 3 change.

The liquid enters the flow divider at point 6 and flows through the annular groove 7 on the in the Piston located holes 8 into the cavity 9 of the adjusting piston and passes through the two throttle points 2 and 3 in the annular grooves 10 and 11. From here the liquid flows over the Bores 12 and 13 and via the control piston 14 to the two outlets 15 and 16.

The control piston 14 is via the two centering springs 17 and 18 at the same pressure at the outputs 16 and 16 held in the middle position.

Claims (4)

Claims 1. Adjustable flow divider for liquid flows in hydraulic systems, consisting of a control valve with one inlet and two Outputs, two possibly different throttling points at the input to the branch of the liquid in two streams, with a control piston connected downstream of the throttle points is, the control piston with the same pressurization at the outlets over two opposing centering springs is held in the middle position and in this Position the cross-sectional areas of the outflow bores of the two outlets equally large holds or if the outputs are pressurized differently in one such position is shifted that it covers a discharge hole until that from the pressure difference between the two consumers and that from the pressure drop Differential pressure resulting at both throttle points on both sides of the control piston is balanced, characterized by a device for alternating adjustment the cross-sectional areas of the two throttling points (2, 3), where the total cross-sectional area of the two throttling points kept approximately constant will. 2. Flow divider according to claim 1, characterized in that the device consists of a piston that is axially adjustable 3. Flow divider according to claim 1 and 2, characterized in that the device consists of a piston (1), which is acted upon by hydraulic pressure from one end face and with the other face acts against a spring. 4. Flow divider according to one or more of the preceding claims, characterized in that the device consists of a piston (1) which au £ different hydraulic pressures are applied to both ends.