DE2423184B2 - Pressure control valve assembly - Google Patents

Description

The invention relates to a pressure control valve arrangement with a piston-like valve member in one Cylinder, the first end of which is connected to a pressurized medium source, with a Circumferential groove in the cylinder, which is exposed by the valve member, while the valve member from the first end wanders away, and with a spring acting on the valve member, which the valve member to the first end acted upon. Such devices are used in particular in fuel injection pumps.

From DE-AS 11 67 193 a device is the initially known for a clutch of a motor vehicle. In this known device is a between the coupling and a Overflow valve arranged valve provided, which is essentially not for regulating a pressure is provided. Rather, for pressure regulation, the spring-loaded overflow valve is arranged between the pressure medium pump and the valve, the only one provides increasing characteristics, depending on the amount of liquid delivered by the pump. If this is supposed to change, moves there «. Actuator of the spill valve significantly to the size of the orifice to change at the beginning of an AuslaWeitung. This changes the force in the overflow valve Feather considerably. As the amount of liquid pumped by the pump increases, it also increases the exit clruck.

The object of the invention is to improve a device of the type mentioned in such a way that it

precisely controls the outflowing amount of fuel and the medium pressure can be regulated to a value around one certain amount is higher than a control pressure generated by external mechanical means.

According to the invention, this object is achieved by that the groove is in communication with a drain, so that the pressure in the first end of the cylinder through the The extent to which the groove is exposed is determined that a second cylinder is provided, one end of which is connected to the pressure medium source via a throttle point in Connection is that another valve member in the second cylinder, an opening in the wall of the second Cylinder and mechanical means are provided which the valve member in one direction to one end of the act on the second cylinder to close the opening, the opening with a drain in Connection is so that the control pressure in one end of the second cylinder by the mechanical means an exerted force is determined, and that one flow path is one end of the second Cylinder connects to the second end of the first cylinder.

The force exerted by the spring hardly changes while the length of the spring changes because of the circumferential groove the change in the length of the spring can be kept as small as possible. In order to There are also no problems due to changes in the viscosity of the fuel. Changes in viscosity are reduced to a minimum, since only very small movements of the first valve member are required to reduce the effective cross-sectional area of the diaphragm to change that is formed by the valve member and the groove. The first valve member isn't just that The output pressure of the pump is exposed on its first side, but also on its second side Control pressure that is created by means of the second valve member and the mechanical means. The control pressure added the force exerted by the spring.

In an advantageous embodiment of the invention it is proposed that the mechanical means have speed-dependent centrifugal weights.

The invention is explained in more detail below using an exemplary embodiment with reference to the drawing.

In the drawing, a cylinder 10 is shown in which a displaceable valve member 11 is seated. An end to the Cylinder 10 is in communication with a line 12, which has a throttle point 13 at its entrance into the Has cylinder. The line 12 is in communication with the outlet of a pump 14. In the wall of the Cylinder 10, an opening 16 is formed, which to a greater or lesser extent through the valve member 11 can be exposed. The medium pressure in the cylinder acts on the adjacent side of the valve member 11, to create a force counteracted by mechanical means. The valve member 11 is through the prevailing force moves until a position of equilibrium is reached in which the force with which the Valve member U due to the medium pressure in the cylinder 10 is acted upon by the mechanical means generated force compensated. If the delivery pressure of the pump 14 increases, the valve member 11 takes a new one Equilibrium position.

In the exemplary embodiment described, the mechanical force is generated by two centrifugal weights 17 generated that migrate in a circle and thus exert a force on the valve member 11, which is accordingly the square of the speed with which the weights change

circulate. The medium pressure in the cylinder 10 is thus proportional to the square of the speed with which the Weights circulate.

The pressure side of the pump 14 is at a distance »- with a End of a cylinder 18 in connection, in which there is a *> displaceable valve member 19 is located. The valve member is actuated by spring means in the form of a spring 20 opposite to the force that is generated by the medium pressure, which is applied by the pump is generated, which acts on the valve member The force exerted by ι ο the spring 20 is due to the force supplements that generated by pressurized medium discharged from cylinder 10.

A peripheral groove 21 is made in the wall of the cylinder 18 molded which is in communication with a drain, the groove forming an overflow path from the Valve member 19 is controlled. In use, the Medium pressure in one end of the cylinder 18 and thus the delivery pressure of the pump 14 so ge.egelt that in the present embodiment this is equal to the pressure in cylinder 10 plus a fixed value, determined by the force exerted by the spring

The use of an annular groove as the overflow path from cylinder 18 means a large one There is a change in the size of the overflow path for a small movement of the valve member 19 The spring force is thus essentially constant over a large range of delivery values of the pump 14

A valve of the type described is of particular use in a fuel feed pump device of fuel in a fuel engine. In such a device it is often desirable that various control functions are carried out by pressure-responsive members that give a pressure which changes to the square of the speed at which the device is running This pressure can can be obtained from the cylinder 10. At the same time, it is desirable to have other control functions, carried out by members subjected to a pressure of substantially around one fixed value is above the pressure, which changes by the square of the speed. This pressure is from the cylinder 18 received.

1 sheet of drawings

Claims (2)

Patent claims: 1. Pressure regulating valve assembly with a piston-like valve member in a cylinder, the first end of which is connected to a pressurized medium source, with a circumferential groove in the cylinder that is exposed by the valve member while the valve member migrates away from the first end, and with one on the valve member acting spring which urges the valve member towards the first end, characterized in that the groove (21) is in communication with a drain, so that the pressure in the first end of the cylinder (18) is determined by the amount by which the groove (21) is exposed, that a second cylinder (10) is provided, by ⁵ of which one end to the pressure medium source (14) via a throttle point (13) is connected, that a further valve member (11) in the second cylinder (10), provided for an opening (16) in the wall of the second cylinder (10) and mechanical means (17) * are> hen that towards the valve member (U) in a direction toward the one end of the second cylinder (10) at the end Eating the opening (16), the opening (: I6) being connected to a drain, so that the control pressure in one end of the second cylinder (10) is determined by the force exerted by the mechanical means (17), and that a flow path connects one end of the second cylinder (10) to the second end of the first Cylinder (18) connects. Yo 2. Pressure control valve arrangement according to claim 1, characterized in that the mechanical Means (17) have speed-dependent centrifugal weights.