DE826666C - Hydraulic regulator for injection pumps of internal combustion engines - Google Patents

Description

Hydraulic regulator for injection pumps of internal combustion engines Die The purpose of the present invention is to provide an improved hydraulic regulator for Controlling the rate of supply of liquid fuel from a fuel pump after an internal combustion engine according to the fluctuations in speed of the engine.

The present invention consists in the combination of either Motor-driven pump, a circulating system connected to the pump, a movable member according to the fluid pressure in the system, for actuation the control element of the fuel pump, a spring-loaded stabilization valve corresponding to the movements of the movable member and a shock absorber device to regulate the speed of movement of the valve. The drawing is a schematic Section through a hydraulic regulator built according to the invention.

In practicing the invention in accordance with an appropriate one illustrated herein Embodiment, a hollow body or housing, generally denoted by r, is provided, in which a pair of gears 2 are arranged, which form a gear pump, which of the motor can be driven.

On one side of the pump is a liquid inlet passage 3 and on the on the other side an outflow channel 4 is provided, which after one end of a cylindrical Chamber 5 leads in the body or housing. At the opposite end of the chamber 5 is a communicating with a chamber 7 channel 6. From the Chamber 7 a channel 8 leads to a valve chamber 9 with a channel io, which is in communication with the channel 4, the channel io with a seat i i for a valve i2 loaded by a spring 13 for constant pressure is. Between the inlet channel 3 of the pump .und the chamber 7 is a return flow channel 14 is provided, and the connection between this channel and the chamber 7 is through the stabilization valve 15 causes. Form the various channels mentioned above the circulation system in which liquid can circulate by means of the pump.

In the cylindrical chamber 5 a piston 16 is contained, which through a spring 17 on the side facing away from the channel 4 between the delivery side of the Pump and said chamber is loaded, and a rod 18 extending from the piston from passing through the closed end of the chamber is with a lever i9 tied together. The lever is rotatably mounted at one end 2o and at the other End 2i connected to the control member 22 of the fuel pump, this member for example a slidable rod, the movement of which increases the performance of the Fuel pump can be modified in any suitable and known manner.

The chamber 7 is with the return flow channel 14 through a cylindrical Connected bore in which the stabilizing valve 15 slides. This valve consists from a cylindrical hollow part, on the outside of which there is a circumferential Groove 23 is located; 'through which the adjacent chamber 7 with the return flow channel 14 in limited connection can be set. In an extension 24 of the hole, which contains the stabilization valve 15 and which towards the outside of the body part leads, a hollow slidable piston 25 is used, the closed outer End is in contact with the aforementioned lever i9, and between the Piston 25 and the part 15 is a spring 27 for transmitting the movement of the Lever i9 used after part 15. Part 15 is through on its other side a spring 28 arranged in the chamber 7 is loaded. Also inside part 15 there is a restricted opening 29, creating the space between the piston 25 and the part 15 is in connection with the chamber 7 and in this way with Liquid is filled.

The arrangement is made so that the piston 16, which is the control member 22 actuated the fuel pump, on the one hand the pressure of the liquid the outlet side of the circulation pump is exposed by the load of the above-mentioned Valve 12 is intended for constant pressure, and on the other side of the spring 17 and the pressure of the liquid in the chamber 7. Corresponding to that on the piston the pressure exerted by its spring and the liquid causes the piston to for the purpose of moving the regulating element of the fuel pump in one way or another Move direction. Assuming the piston is moved by the spring 17, then the lever i9 moves the piston 25 and this transmits the movement to the part 15 by the interaction of the liquid and the spring and reinforced thereby the flow from the chamber 7 to the return channel 14. The magnitude of the movement of the Part 15 depends on the size of the movement of the piston 25, and the speed The movement depends on the speed with which the liquid passes through the constricted Opening 29 in part 15 from the space between parts 15 and 25 to the chamber 7 can flow. Likewise, if the piston goes in the opposite direction the action of the fluid pressure moves, the lever i9 has the tendency to move from the piston 25, and the latter is by the cooperation of the liquid and the spring 27 moves outwards and causes the part 15, this Movement at a speed to follow that of the liquid flow through it the opening 29 depends. The part 15 with its opening 29 thus forms a shock absorber device, which in conjunction with the spring 27 forms a means whereby the movement of the piston 16 is transferred to part 15.

By the setup described above, chasing the regulator minimized, and the desired stability is in very simple and achieved in a satisfactory manner.

Claims (2)

PATENT CLAIMS: i. Hydraulic regulator for injection pumps of internal combustion engines, consisting of a pump (1, 2) driven by the machine with a spring-loaded valve (12) in a circulating line (9, 8, 7), one under the pressure of the pump pressure side (4) and the other spring-loaded control element (16), which is under the pressure of the circulation line and engages a linkage (i9) for the control element (22) of the injection pump, and a spring-loaded stabilization element (15) which is connected to the circulation line and whose movements are limited by a damping device Seeks to change the passage cross-section of the circulation line depending on the position of the linkage (i9). 2. Hydraulic Regulator according to Claim i, characterized in that the one controlling the circulation line Stabilizing body (15) made of one that is displaced in the axial direction on both sides there is a hollow piston loaded by springs (27, 28), one of which is a spring (27) against a plunger (25) resting on the rod (i9) and one of them has fine compensating bore (29) connecting the two hollow piston sides.